Revision as of 15:40, 21 October 2019

Introduction

A codec is a device or computer program for encoding or decoding a digital data stream or signal. Codec is a portmanteau of coder – decoder. A codec encodes a data stream or a signal for transmission and storage, possibly in encrypted form, and the decoder function reverses the encoding for playback or editing.

Below you will see a table of all Codec types with ID’s:


Codec 8	Codec 8 Extended	Codec 16	Codec 12	Codec 13	Codec 14
0x08	0x8E	0x10	0x0C	0x0D	0x0E

Also, there are using two data transport protocols: TCP and UDP. But it is not important which one will be use in Codec.

Codec for device data sending

In this chapter you will find information about every Codec protocol which are using for device data sending and differences between them.

Codec 8

Protocol Overview

Codec8 – a main FM device protocol that is used for sending data to server.

Codec8 protocol sending over TCP

TCP is a connection-oriented protocol that is using for communication between devices. How this type protocol works you will read later.

AVL Data Packet

Below table represents AVL Data Packet structure:


0x00000000 (Preamble)	Data Field Length	Codec ID	Number of Data 1	AVL Data	Number of Data 2	CRC-16
4 bytes	4 bytes	1 byte	1 byte	X bytes	1 byte	4 bytes

Preamble – the packet starts with four zero bytes.
Data Field Length – size is calculated starting from Codec ID to Number of Data 2.
Codec ID – in Codec8 it is always 0x08.
Number of Data 1 – a number which defines how many records is in the packet.
AVL Data – actual data in the packet (more information below).
Number of Data 2 – a number which defines how many records is in the packet. This number must be the same as “Number of Data 1”.
CRC-16 – calculated from Codec ID to the Second Number of Data. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found here.

Note: for FMB6XY and FM63XY, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 255 bytes. For other devices, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 1280 bytes.

AVL Data

Below table represents AVL Data structure.


Timestamp	Priority	GPS Element	IO Element
8 bytes	1 byte	15 bytes	X bytes

Timestamp – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time).
Priority – field which define AVL data priority (more information below).
GPS Element – locational information of the AVL data (more information below).
IO Element – additional configurable information from device (more information below).

Priority

Below table represents Priority values. Packet priority depends on device configuration and records sent.


Priority
0	Low
1	High
2	Panic

GPS element

Below table represents GPS Element structure:


Longitude	Latitude	Altitude	Angle	Satellites	Speed
4 bytes	4 bytes	2 bytes	2 bytes	1 byte	2 bytes

Longitude – east – west position.
Latitude – north – south position.
Altitude – meters above sea level.
Angle – degrees from north pole.
Satellites – number of visible satellites.
Speed – speed calculated from satellites.

Note: Speed will be 0x0000 if GPS data is invalid.

Longitude and latitude are integer values built from degrees, minutes, seconds and milliseconds by formula:

Where:
d – Degrees; m – Minutes; s – Seconds; ms – Milliseconds; p – Precision (10000000)
If longitude is in west or latitude in south, multiply result by –1.

Note:
To determine if the coordinate is negative, convert it to binary format and check the very first bit. If it is 0, coordinate is positive, if it is 1, coordinate is negative.

Example:
Received value: 20 9C CA 80 converted to BIN: 00100000 10011100 11001010 10000000 first bit is 0, which means coordinate is positive converted to DEC: 547146368. For more information see two‘s complement arithmetic.

IO Element


Event IO ID	1 byte	Event IO ID – if data is acquired on event – this field defines which IO property has changed and generated an event. For example, when if Ignition state changed and it generate event, Event IO ID will be 0xEF (AVL ID: 239). If it’s not eventual record – the value is 0. N – a total number of properties coming with record (N = N1 + N2 + N4 + N8). N1 – number of properties, which length is 1 byte. N2 – number of properties, which length is 2 bytes. N4 – number of properties, which length is 4 bytes. N8 – number of properties, which length is 8 bytes. N’th IO ID - AVL ID. N’th IO Value - AVL ID value.
N of Total IO	1 byte
N1 of One Byte IO	1 byte
1’st IO ID	1 byte
1’st IO Value	1 byte
...
N1’th IO ID	1 byte
N1’th IO Value	1 byte
N2 of Two Bytes	1 byte
1’st IO ID	1 byte
1’st IO Value	2 bytes
...
N2’th IO ID	1 byte
N2’th IO Value	2 bytes
N4 of Four Bytes	1 byte
1’st IO ID	1 byte
1’st IO Value	4 bytes
...
N4’th IO ID	1 byte
N4’th IO Value	4 byte
N8 of Eight Bytes	1 byte
1’st IO ID	1 byte
1’st IO Value	8 byte
...
N8’IO ID	1 byte
N8’IO Value	8 bytes

Communication with server

First, when module connects to server, module sends its IMEI. First comes short identifying number of bytes written and then goes IMEI as text (bytes).
For example, IMEI 356307042441013 would be sent as 000F333536333037303432343431303133.
First two bytes denote IMEI length. In this case 0x000F means, that IMEI is 15 bytes long.
After receiving IMEI, server should determine if it would accept data from this module. If yes, server will reply to module 01, if not - 00. Note that confirmation should be sent as binary packet. I.e. 1 byte 0x01 or 0x00.
Then module starts to send first AVL data packet. After server receives packet and parses it, server must report to module number of data received as integer (four bytes).
If sent data number and reported by server doesn’t match module resends sent data.

Example:

Module connects to server and sends IMEI:
000F333536333037303432343431303133
Server accepts the module:
01
Module sends data packet:


AVL Data Packet Header	AVL Data Array	CRC-16
Four Zero Bytes – 0x00000000, “AVL Data Array” length – 0x000000FE	Codec ID – 0x08, Number of Data – 0x02 (Encoded using continuous bit stream. Last byte padded to align to byte boundary)	CRC of “AVL Data Array”
00000000000000FE	0802...(data elements)...02	00008612

Server acknowledges data reception (2 data elements): 00000002

Examples

Hexadecimal stream of AVL Data Packet receiving and response in these examples are given in hexadecimal form. The different fields of packets are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

1'st example
Receiving one data record with each element property (1 byte, 2 bytes, 4 byte and 8 byte).

Received data in hexadecimal stream:
000000000000003608010000016B40D8EA30010000000000000000000000000000000105021503010101425E0F01F10000601A014E0000000000000000010000C7CF

Parsed:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
	Zero Bytes	00 00 00 00
	Data Field Length	00 00 00 36
	Codec ID	08
	Number of Data 1 (Records)	01
AVL Data	Timestamp	00 00 00 01 6B 40 D8 EA 30 (GMT: Monday, June 10, 2019 10:04:46 AM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	01
	N of Total ID	05
	N1 of One Byte IO	02
	1’st IO ID	15 (AVL ID: 21, Name: GSM Signal)
	1’st IO Value	03
	2’nd IO ID	01 (AVL ID: 1, Name: DIN1)
	2’nd IO Value	01
	N2 of Two Bytes IO	01
	1’st IO ID	42 (AVL ID: 66, Name: External Voltage)
	1’st IO Value	5E 0F
	N4 of Four Bytes IO	01
	1’st IO ID	F1 (AVL ID: 241, Name: Active GSM Operator)
	1’st IO Value	00 00 60 1A
	N8 of Eight Bytes IO	01
	1’st IO ID	4E (AVL ID: 78, Name: iButton)
	1’st IO Value	00 00 00 00 00 00 00 00
	Number of Data 2 (Number of Total Records)	01
	CRC-16	00 00 C7 CF

Server response: 00000001

2'nd example
Receiving one data record with one or two different element properties (1 byte, 2 byte).

Received data in hexadecimal stream:
000000000000002808010000016B40D9AD80010000000000000000000000000000000103021503010101425E100000010000F22A

Parsed:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
	Zero Bytes	00 00 00 00
	Data Field Length	00 00 00 28
	Codec ID	08
	Number of Data 1 (Records)	01
AVL Data	Timestamp	00 00 01 6B 40 D9 AD 80 (GMT: Monday, June 10, 2019 10:05:36 AM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	01
	N of Total ID	03
	N1 of One Byte IO	02
	1’st IO ID	15 (AVL ID: 21, Name: GSM Signal)
	1’st IO Value	03
	2’nd IO ID	01 (AVL ID: 1, Name: DIN1)
	2’nd IO Value	01
	N2 of Two Bytes IO	01
	1’st IO ID	42 (AVL ID: 66, Name: External Voltage)
	1’st IO Value	5E 0F
	N4 of Two Bytes IO	00
	N8 of Two Bytes IO	00
	Number of Data 2 (Number of Total Records)	01
	CRC-16	00 00 F2 2A

Server response: 00000001

3'rd example
Receiving two or more data records with one or more different element properties.

Received data in hexadecimal stream:
000000000000004308020000016B40D57B480100000000000000000000000000000001010101000000000000016B40D5C198010000000000000000000000000000000 101010101000000020000252C

Parsed:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
	Zero Bytes	00 00 00 00
	Data Field Length	00 00 00 43
	Codec ID	08
	Number of Data 1 (Records)	02
AVL Data (1'st record)	Timestamp	00 00 01 6B 40 D5 7B 48 (GMT: Monday, June 10, 2019 10:01:01 AM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	01
	N of Total ID	01
	N1 of One Byte IO	01
	1’st IO ID	01 (AVL ID: 1, Name: DIN1)
	1’st IO Value	00
	N2 of Two Bytes IO	00
	N4 of Two Bytes IO	00
	N8 of Two Bytes IO	00
AVL Data (2'nd record)	Timestamp	00 00 01 6B 40 D5 C1 98 (GMT: Monday, June 10, 2019 10:01:19 AM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	01
	N of Total ID	01
	N1 of One Byte IO	01
	1’st IO ID	01 (AVL ID: 1, Name: DIN1)
	1’st IO Value	01
	N2 of Two Bytes IO	00
	N4 of Two Bytes IO	00
	N8 of Two Bytes IO	00
	Number of Data 2 (Number of Total Records)	01
	CRC-16	00 00 25 2C

Server response: 00000002

Codec8 protocol sending over UDP

UDP is a transport layer protocol above UDP/IP to add reliability to plain UDP/IP using acknowledgment packets.

AVL Data Packet

The packet structure is as follows:


UDP Datagram
Example	2 bytes
Packet ID	2 bytes
Not Usable Byte	1 byte
Packet Payload	Variable

Example – packet length (excluding this field) in big ending byte order.
Packet ID – packet ID unique for this channel.
Not Usable Byte – not usable byte.
Packet payload – data payload.

Acknowledgment packet

Acknowledgment packet should have the same Packet ID as acknowledged data packet and empty Data Payload. Acknowledgement should be sent in binary format.


Acknowledgment Packet
Packet Length	Packet ID	Not Usable Byte
2 bytes	2 bytes	1 byte

Packet Length – packet length by sending/response data.
Packet ID – same as in acknowledgment packet.
Not Usable Byte – always will be 0x01.

Sending AVL Packet Payload using UDP channel

Below table represents Sending Packet Payload structure.


AVL data encapsulated in UDP channel packet
AVL Packet ID	IMEI Length	Module IMEI	AVL Data Array
1 byte	2 bytes	15 bytes	X bytes

AVL Packet ID – ID identifying this AVL packet.
IMEI Length – always will be 0x000F.
Module IMEI – IMEI of a sending module encoded the same as with TCP.
AVL Data Array – array of encoded AVL data (same as TCP AVL Data Array).

Server response Packet Payload using UDP channel

Below table represents Server Response Packet Payload structure.


Server Response to AVL Data Packet
AVL Packet ID	Number of Accepted AVL Elements
1 byte	1 byte

Communication with server

Module sends UDP channel packet with encapsulated AVL data packet. Server sends UDP channel packet with encapsulated response module validates AVL Packet ID and Number of accepted AVL elements. If server response with valid AVL Packet ID is not received within configured timeout, module can retry sending.

Example:

Module sends the data:


UDP Channel Header	AVL Packet Header	AVL Data Array
Length – 0x00FE, Packet ID – 0xCAFE Not Usable Byte – 0x01	AVL Packet ID – 0xDD, IMEI Length – 0x000F IMEI – 0x313233343536373839303132333435 (Encoded using continuous bit stream. Last byte padded to align to byte boundary)	Codec ID – 0x08, Number of Data – 0x02 (Encoded using continuous bit stream)
00FECAFE01	DD000F3133343536373839303132333435	0802…(data elements)…02

Server must respond with acknowledgment:


UDP Channel Header	AVL Packet Acknowledgment
Length – 0x0005, Packet ID – 0xCAFE, Not Usable Byte – 0x01	AVL Packet ID – 0xDD, Number of Accepted Data – 0x02
0005CAFE01	DD02

Example

Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

Received data in hexadecimal stream:
003DCAFE0105000F33353230393330383634303336353508010000016B4F815B30010000000000000000000000000000000103021503010101425DBC000001

Parsed:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
UDP Channel Header	Length	00 3D
	Packet ID	CA FE
	Not usable byte	01
AVL Packet Header	AVL packet ID	05
	IMEI Length	00 0F
	IMEI	33 35 32 30 39 33 30 38 36 34 30 33 36 35 35
AVL Data Array	Codec ID	08
	Number of Data 1 (Records)	01
	Timestamp	00 00 01 6B 4F 81 5B 30 (GMT: Thursday, June 13, 2019 6:23:26 AM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	01
	N of Total ID	03
	N1 of One Byte IO	02
	1’st IO ID	15 (AVL ID: 21, Name: GSM Signal)
	1’st IO Value	03
	2’nd IO ID	01 (AVL ID: 1, Name: DIN1)
	2’nd IO Value	01
	N2 of Two Bytes IO	01
	1’st IO ID	42 (AVL ID: 66, Name: External Voltage)
	1’st IO Value	5D BC
	N4 of Two Bytes IO	00
	N8 of Two Bytes IO	00
	Number of Data 2 (Number of Total Records)	01

Server response in hexademical stream: 0005CAFE010501

Parsed:


Server Response to AVL Data Packet
Server Response Part		HEX Code Part
UDP Channel Header	Length	00 05
	Packet ID	CA FE
	Not usable byte	01
AVL Packet Acknowledgment	AVL packet ID	05
AVL Packet Acknowledgment	Number of Accepted Data	01

Codec 8 Extended

Protocols overview

Codec8 Extended is using for FMBXXX family devices. This protocol looks familiar like Codec8 but they have some differences. Main differences between are shown in below table:


	Codec8	Codec8 Extended
Codec ID	0x08	0x8E
AVL Data IO element length	1 byte	2 bytes
AVL Data IO element total IO count length	1 byte	2 bytes
AVL Data IO element IO count length	1 byte	2 bytes
AVL Data IO element AVL ID length	1 byte	2 bytes
Variable size IO elements	Does not include	Includes variable size elements

Codec 8 Extended protocol sending over TCP

AVL data packet

Below table represents AVL data packet structure:


0x00000000 (Preamble)	Data Field Length	Codec ID	Number of Data 1	AVL Data	Number of Data 2	CRC-16
4 bytes	4 bytes	1 byte	1 byte	X bytes	1 byte	4 bytes

Preamble – the packet starts with four zero bytes.
Data Field Length – size is calculated starting from Codec ID to Number of Data 2.
Codec ID – in Codec8 it is always 0x08.
Number of Data 1 – a number which defines how many records is in the packet.
AVL Data – actual data in the packet (more information below).
Number of Data 2 – a number which defines how many records is in the packet. This number must be the same as “Number of Data 1”.
CRC-16 – calculated from Codec ID to the Second Number of Data. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found here.

Note: for FMB6XY and FM63XY, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 255 bytes. For other devices, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 1280 bytes.

AVL Data

Below table represents AVL Data structure:


Timestamp	Priority	GPS Element	IO Element
8 bytes	1 byte	15 bytes	X bytes

Timestamp – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time).
Priority – field which define AVL data priority (more information below).
GPS Element – locational information of the AVL data (more information below).
IO Element – additional configurable information from device (more information below).

Priority

Below table represents Priority values. Packet priority depends on device configuration and records sent.


Priority
0	Low
1	High
2	Panic

GPS element

Below table represents GPS Element structure:


Longitude	Latitude	Altitude	Angle	Satellites	Speed
4 bytes	4 bytes	2 bytes	2 bytes	1 byte	2 bytes

Longitude – east – west position.
Latitude – north – south position.
Altitude – meters above sea level.
Angle – degrees from north pole.
Satellites – number of visible satellites.
Speed – speed calculated from satellites.

Note: Speed will be 0x0000 if GPS data is invalid.

Longitude and latitude are integer values built from degrees, minutes, seconds and milliseconds by formula:

Where:
d – Degrees; m – Minutes; s – Seconds; ms – Milliseconds; p – Precision (10000000)
If longitude is in west or latitude in south, multiply result by –1.

Note:
To determine if the coordinate is negative, convert it to binary format and check the very first bit. If it is 0, coordinate is positive, if it is 1, coordinate is negative.

Example:
Received value: 20 9C CA 80 converted to BIN: 00100000 10011100 11001010 10000000 first bit is 0, which means coordinate is positive converted to DEC: 547146368. For more information see two‘s complement arithmetic.

IO Element


Event IO ID	2 bytes	Event IO ID – if data is acquired on event – this field defines which IO property has changed and generated an event. For example, when if Ignition state changed and it generate event, Event IO ID will be 0xEF (AVL ID: 239). If it’s not eventual record – the value is 0. N – a total number of properties coming with record (N = N1 + N2 + N4 + N8). N1 – number of properties, which length is 1 byte. N2 – number of properties, which length is 2 bytes. N4 – number of properties, which length is 4 bytes. N8 – number of properties, which length is 8 bytes. NX – a number of properties, which length is defined by length element. N’th IO ID - AVL ID. N'th Lenght - AVL ID value lenght. N’th IO Value - AVL ID value.
N of Total IO	2 bytes
N1 of One Byte IO	2 bytes
1’st IO ID	2 bytes
1’st IO Value	1 byte
...
N1’th IO ID	2 bytes
N1’th IO Value	1 byte
N2 of Two Bytes	2 bytes
1’st IO ID	2 bytes
1’st IO Value	2 bytes
...
N2’th IO ID	2 bytes
N2’th IO Value	2 bytes
N4 of Four Bytes	2 bytes
1’st IO ID	2 bytes
1’st IO Value	4 bytes
...
N4’th IO ID	2 bytes
N4’th IO Value	4 byte
N8 of Eight Bytes	2 bytes
1’st IO ID	2 bytes
1’st IO Value	8 byte
...
N8’IO ID	2 bytes
N8’IO Value	8 bytes
NX of X Byte IO	2 bytes
1’st IO ID	2 bytes
1’st IO Length	2 bytes
1’st IO Value	Defined by lenght
...
NX’th IO ID	2 bytes
NX’th Length	2 bytes
NX’th Value	Defined by lenght

Communication with server

Communication with server is the same as with Codec8 protocol, except in Codec8 Extended protocol Codec ID is 0x8E.

Example:

Module connects to server and sends IMEI:
000F333536333037303432343431303133
Server accepts the module:
01
Module sends data packet:


AVL Data Packet Header	AVL Data Array	CRC-16
Four Zero Bytes – 0x00000000, “AVL Data Array” length – 0x000000FE	Codec ID – 0x8E, Number of Data – 0x02 (Encoded using continuous bit stream. Last byte padded to align to byte boundary)	CRC of “AVL Data Array”
00000000000000FE	8E02...(data elements)...02	00008612

Server acknowledges data reception (2 data elements): 00000002

Example

Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

Received data in hexadecimal stream:
000000000000004A8E010000016B412CEE000100000000000000000000000000000000010005000100010100010011001D00010010015E2C880002000B000000003544C87 A000E000000001DD7E06A00000100002994

Parsed data:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
	Zero Bytes	00 00 00 00
	Data Field Length	00 00 00 4A
	Codec ID	8E
	Number of Data 1 (Records)	01
AVL Data	Timestamp	00 00 01 6B 41 2C EE 00 (GMT: Monday, June 10, 2019 11:36:32 AM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	00 01
	N of Total ID	00 05
	N1 of One Byte IO	00 01
	1’st IO ID	00 01 (AVL ID: 1, Name: DIN1)
	1’st IO Value	01
	N2 of Two Bytes IO	00 01
	1’st IO ID	00 11 (AVL ID: 17, Name: Axis X)
	1’st IO Value	00 1D
	N4 of Two Bytes IO	00 01
	1’st IO ID	00 10 (AVL ID: 16, Name: Total Odometer)
	1’st IO Value	01 5E 2C 88
	N8 of Two Bytes IO	00 02
	1’st IO ID	00 0B (AVL ID: 11, Name: ICCID1)
	1’st IO Value	00 00 00 00 35 44 C8 7A
	2’nd IO ID	00 0E (AVL ID: 14, Name: ICCID2)
	2’nd IO Value	00 00 00 00 1D D7 E0 6A
	NX of X Byte IO	00 00
	Number of Data 2 (Number of Total Records)	01
	CRC-16	00 00 29 94

Server response: 00000001

Codec8 Extended protocol sending over UDP

UDP channel protocol

AVL data packet is the same as with Codec8, except Codec ID is changed to 0x8E.

Communication with server

Module sends UDP channel packet with encapsulated AVL data packet. Server sends UDP channel packet with encapsulated response module validates AVL Packet ID and Number of accepted AVL elements. If server response with valid AVL Packet ID is not received within configured timeout, module can retry sending.

Example:

Module sends the data:


UDP Channel Header	AVL Packet Header	AVL Data Array
Length – 0x00FE, Packet ID – 0xCAFE Not Usable Byte – 0x01	AVL Packet ID – 0xDD, IMEI Length – 0x000F IMEI – 0x313233343536373839303132333435 (Encoded using continuous bit stream. Last byte padded to align to byte boundary)	Codec ID – 0x8E, Number of Data – 0x02 (Encoded using continuous bit stream)
00FECAFE01	DD000F3133343536373839303132333435	0802…(data elements)…02

Server must respond with acknowledgment:


UDP Channel Header	AVL Packet Acknowledgment
Length – 0x0005, Packet ID – 0xCAFE, Not Usable Byte – 0x01	AVL Packet ID – 0xDD, Number of Accepted Data – 0x02
0005CAFE01	DD02

Example

Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

Received data in hexadecimal stream:
005FCAFE0107000F3335323039333038363430333635358E010000016B4F831C680100000000000000000000000000000000010005000100010100010011009D000100 10015E2C880002000B000000003544C87A000E000000001DD7E06A000001

Parsed:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
UDP Channel Header	Length	00 5F
	Packet ID	CA FE
	Not usable byte	01
AVL Packet Header	AVL packet ID	05
	IMEI Length	00 0F
	IMEI	33 35 32 30 39 33 30 38 36 34 30 33 36 35 35
AVL Data Array	Codec ID	8E
	Number of Data 1 (Records)	01
	Timestamp	00 00 01 6B 4F 83 1C 68 (GMT: Thursday, June 13, 2019 6:25:21 AM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	00 01
	N of Total ID	00 05
	N1 of One Byte IO	00 01
	1’st IO ID	00 01 (AVL ID: 1, Name: DIN1)
	1’st IO Value	00 01
	N2 of Two Bytes IO	00 01
	1’st IO ID	00 11 (AVL ID: 17, Name: Axis X)
	1’st IO Value	00 1D
	N4 of Two Bytes IO	00 01
	1’st IO ID	00 10 (AVL ID: 16, Name: Total Odometer)
	1’st IO Value	01 5E 2C 88
	N8 of Two Bytes IO	00 02
	1’st IO ID	00 0B (AVL ID: 11, Name: ICCID1)
	1’st IO Value	00 00 00 00 35 44 C8 7A
	2’nd IO ID	00 0E (AVL ID: 14, Name: ICCID2)
	2’nd IO Value	00 00 00 00 1D D7 E0 6A
	NX of X Byte IO	00 00

Server response in hexademical stream: 0005CAFE010700

Parsed:


Server Response to AVL Data Packet
Server Response Part		HEX Code Part
UDP Channel Header	Length	00 05
	Packet ID	CA FE
	Not usable byte	01
AVL Packet Acknowledgment	AVL packet ID	07
AVL Packet Acknowledgment	Number of Accepted Data	00

Codec 16

Protocol overview

Codec16 is using for FMB630/FM63XY devices. This protocol looks familiar like Codec8 but they have some differences. Main differences between are shown in table below:


	Codec8	Codec16
Codec ID	0x08	0x10
AVL Data IO element ID event length	1 byte	2 bytes
AVL Data IO element AVL ID length	1 byte	2 bytes
Generation Type	Not Using	Is Using

Note: Codec16 is supported from firmware – 00.03.xx and newer. (FMB630/FM63XY) || AVL ID‘s which are higher than 255 will can be used only in Codec 16 protocol.

Codec 16 protocol sending over TCP

AVL data packet

Below table represents AVL data packet structure:


0x00000000 (Preamble)	Data Field Length	Codec ID	Number of Data 1	AVL Data	Number of Data 2	CRC-16
4 bytes	4 bytes	1 byte	1 byte	X bytes	1 byte	4 bytes

Preamble – the packet starts with four zero bytes.
Data Field Length – size is calculated starting from Codec ID to Number of Data 2.
Codec ID – in Codec16 it is always 0x10.
Number of Data 1 – a number which defines how many records is in the packet.
AVL Data – actual data in the packet (more information below).
Number of Data 2 – a number which defines how many records is in the packet. This number must be the same as “Number of Data 1”.
CRC-16 – calculated from Codec ID to the Second Number of Data. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found here.

Note: for FMB6XY and FM63XY, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 255 bytes.

AVL Data

Below table represents AVL Data structure:


Timestamp	Priority	GPS Element	IO Element
8 bytes	1 byte	15 bytes	X bytes

Timestamp – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time).
Priority – field which define AVL data priority (more information below).
GPS Element – locational information of the AVL data (more information below).
IO Element – additional configurable information from device (more information below).

Priority

Below table represents Priority values. Packet priority depends on device configuration and records sent.


Priority
0	Low
1	High
2	Panic

GPS element

Below table represents GPS Element structure:


Longitude	Latitude	Altitude	Angle	Satellites	Speed
4 bytes	4 bytes	2 bytes	2 bytes	1 byte	2 bytes

Longitude – east – west position.
Latitude – north – south position.
Altitude – meters above sea level.
Angle – degrees from north pole.
Satellites – number of visible satellites.
Speed – speed calculated from satellites.

Note: Speed will be 0x0000 if GPS data is invalid.

Longitude and latitude are integer values built from degrees, minutes, seconds and milliseconds by formula:

Where:
d – Degrees; m – Minutes; s – Seconds; ms – Milliseconds; p – Precision (10000000)
If longitude is in west or latitude in south, multiply result by –1.

Note:
To determine if the coordinate is negative, convert it to binary format and check the very first bit. If it is 0, coordinate is positive, if it is 1, coordinate is negative.

Example:
Received value: 20 9C CA 80 converted to BIN: 00100000 10011100 11001010 10000000 first bit is 0, which means coordinate is positive converted to DEC: 547146368. For more information see two‘s complement arithmetic.

IO Element


Event IO ID	2 bytes	Event IO ID – if data is acquired on event – this field defines which IO property has changed and generated an event. For example, when if Ignition state changed and it generate event, Event IO ID will be 0xEF (AVL ID: 239). If it’s not eventual record – the value is 0. Generation type - data event generation type. More information about it you can find here. N – a total number of properties coming with record (N = N1 + N2 + N4 + N8). N1 – number of properties, which length is 1 byte. N2 – number of properties, which length is 2 bytes. N4 – number of properties, which length is 4 bytes. N8 – number of properties, which length is 8 bytes. N’th IO ID - AVL ID. N’th IO Value - AVL ID value.
Generation Type	1 byte
N of Total IO	1 byte
N1 of One Byte IO	1 byte
1’st IO ID	2 bytes
1’st IO Value	1 byte
...
N1’th IO ID	2 bytes
N1’th IO Value	1 byte
N2 of Two Bytes	1 byte
1’st IO ID	2 bytes
1’st IO Value	2 bytes
...
N2’th IO ID	2 bytes
N2’th IO Value	2 bytes
N4 of Four Bytes	1 byte
1’st IO ID	2 bytes
1’st IO Value	4 bytes
...
N4’th IO ID	2 bytes
N4’th IO Value	4 byte
N8 of Eight Bytes	1 byte
1’st IO ID	2 bytes
1’st IO Value	8 byte
...
N8’IO ID	2 bytes
N8’IO Value	8 bytes

Generation type


Value	Record Created
0	On Exit
1	On Entrance
2	On Both
3	Reserved
4	Hysteresis
5	On Change
6	Eventual
7	Periodical

Communication with server

Communication with server is the same as with Codec8 protocol, except in Codec16 protocol Codec ID is 0x10 and has generation type.

Example:

Module connects to server and sends IMEI:
000F333536333037303432343431303133
Server accepts the module:
01
Module sends data packet:


AVL Data Packet Header	AVL Data Array	CRC-16
Four Zero Bytes – 0x00000000, “AVL Data Array” length – 0x000000FE	Codec ID – 0x10, Number of Data – 0x02 (Encoded using continuous bit stream. Last byte padded to align to byte boundary)	CRC of “AVL Data Array”
00000000000000FE	1002...(data elements)...02	00008612

Server acknowledges data reception (2 data elements): 00000002

Example

Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

Received data in hexadecimal stream:
000000000000005F10020000016BDBC7833000000000000000000000000000000000000B05040200010000030002000B00270042563A00000000016BDBC78718 00000000000000000000000000000000000B05040200010000030002000B00260042563A00000200005FB3

Parsed data:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
	Zero Bytes	00 00 00 00
	Data Field Length	00 00 00 5F
	Codec ID	10
	Number of Data 1 (Records)	02
AVL Data (1'st record)	Timestamp	00 00 01 6B DB C7 83 30 (GMT: Wednesday, July 10, 2019 12:06:54 PM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	00 0B
	Generation Type	05
	N of Total ID	04
	N1 of One Byte IO	02
	1’st IO ID	00 01 (AVL ID: 1, Name: DIN1)
	1’st IO Value	00
	2’nd IO ID	00 03 (AVL ID: 3, Name: DIN3)
	2’nd IO Value	00
	N2 of Two Bytes IO	02
	1’st IO ID	00 0B (AVL ID: 11, Name: ICCID1)
	1’st IO Value	00 27
	2’nd IO ID	00 42 (AVL ID: 66, Name: External Voltage)
	2’nd IO Value	56 3A
	N4 of Two Bytes IO	00
	N8 of Two Bytes IO	00
AVL Data (2'nd record)	Timestamp	00 00 01 6B DB C7 87 18 (GMT: Wednesday, July 10, 2019 12:06:55 PM)
	Priority	01
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	00 0B
	Generation Type	05
	N of Total ID	04
	N1 of One Byte IO	02
	1’st IO ID	00 01 (AVL ID: 1, Name: DIN1)
	1’st IO Value	00
	2’nd IO ID	00 03 (AVL ID: 3, Name: DIN3)
	2’nd IO Value	00
	N2 of Two Bytes IO	02
	1’st IO ID	00 0B (AVL ID: 11, Name: ICCID1)
	1’st IO Value	00 26
	2’nd IO ID	00 42 (AVL ID: 66, Name: External Voltage)
	2’nd IO Value	56 3A
	N4 of Two Bytes IO	00
	N8 of Two Bytes IO	00
	Number of Data 2 (Number of Total Records)	02
	CRC-16	00 00 5F B3

Server response: 00000002

Codec16 Extended protocol sending over UDP
UDP channel protocol

AVL data packet is the same as with Codec8, except Codec ID is changed to 0x10.

Communication with server

Module sends UDP channel packet with encapsulated AVL data packet. Server sends UDP channel packet with encapsulated response module validates AVL Packet ID and Number of accepted AVL elements. If server response with valid AVL Packet ID is not received within configured timeout, module can retry sending.

Example:

Module sends the data:


UDP Channel Header	AVL Packet Header	AVL Data Array
Length – 0x00FE, Packet ID – 0xCAFE Not Usable Byte – 0x01	AVL Packet ID – 0xDD, IMEI Length – 0x000F IMEI – 0x313233343536373839303132333435 (Encoded using continuous bit stream. Last byte padded to align to byte boundary)	Codec ID – 0x10, Number of Data – 0x02 (Encoded using continuous bit stream)
00FECAFE01	DD000F3133343536373839303132333435	1002…(data elements)…02

Server must respond with acknowledgment:


UDP Channel Header	AVL Packet Acknowledgment
Length – 0x0005, Packet ID – 0xCAFE, Not Usable Byte – 0x01	AVL Packet ID – 0xDD, Number of Accepted Data – 0x02
0005CAFE01	DD02

Example

Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

Received data in hexadecimal stream:
015BCAFE0101000F33353230393430383532333135393210070000015117E40FE80000000000000000000000000000000000EF05050400010000030000B4000 0EF01010042111A000001

Parsed:


AVL Data Packet
AVL Data Packet Part		HEX Code Part
UDP Channel Header	Length	01 5B
	Packet ID	CA FE
	Not usable byte	01
AVL Packet Header	AVL packet ID	07
	IMEI Length	00 0F
	IMEI	33 35 32 30 39 34 30 38 35 32 33 31 35 39 32
AVL Data Array	Codec ID	10
	Number of Data 1 (Records)	01
	Timestamp	00 00 01 51 17 E4 0F E8 (GMT: Wednesday, November 18, 2015 12:00:01 AM)
	Priority	00
	Longitude	00 00 00 00
	Latitude	00 00 00 00
	Altitude	00 00
	Angle	00 00
	Satellites	00
	Speed	00 00
	Event IO ID	00 EF
	Generation type	05
	N of Total ID	05
	N1 of One Byte IO	04
	1’st IO ID	00 01 (AVL ID: 1, Name: DIN1)
	1’st IO Value	00
	2’nd IO ID	00 03 (AVL ID: 3, Name: DIN3)
	2’nd IO Value	00
	3’rd IO ID	00 B4 (AVL ID: 180, Name: DOUT2)
	3’rd IO Value	00
	4’th IO ID	00 EF (AVL ID: 239, Name: Ignition)
	4’th IO Value	00
	N2 of Two Bytes IO	01
	1’st IO ID	42 (AVL ID: 66, Name: External Voltage)
	1’st IO Value	11 1A
	N4 of Two Bytes IO	00
	N8 of Two Bytes IO	00
	Number of Data 2 (Number of Total Records)	01

Server response in hexademical stream: 0005CAFE010700

Parsed:


Server Response to AVL Data Packet
Server Response Part		HEX Code Part
UDP Channel Header	Length	00 05
	Packet ID	CA FE
	Not usable byte	01
AVL Packet Acknowledgment	AVL packet ID	07
AVL Packet Acknowledgment	Number of Accepted Data	00

Differences between Codec 8, Codec 8 Extended and Codec 16

In the table below you will see differences between Codec8, Codec8 Extended and Codec16.


	Codec8	Codec8 Extended	Codec16
Codec ID	0x08	0x8E	0x10
AVL Data IO element length	1 byte	2 bytes	2 bytes
AVL Data IO element total IO count length	1 byte	2 bytes	2 bytes
Generation Type	Is Using	Not Using	Is Using
AVL Data IO element IO count length	1 byte	2 bytes	1 byte
AVL Data IO element AVL ID length	1 byte	2 bytes	2 bytes
Variable size IO elements	Does not include	Includes variable size elements	Does not include

Codec for communication over GPRS messages

In this chapter you will find information about every Codec protocol which are using for communication over GPRS messages and differences between them.

Codec 12

About Codec12

Codec12 is original and main Teltonika protocol for device-server communication over GPRS messages. Codec12 GPRS commands can be used for sending configuration, debug, digital outputs control commands or other (special purpose command on special firmware versions). This protocol is also necessary for using FMB630/FM6300/FM5300/FM5500/FM4200 features like: Garmin, LCD communication, COM TCP Link Mode.

GPRS command session

Following figure shows how GRPS command session is started over TCP.
First, Teltonika device opens GPRS session and sends AVL data to server (refer device protocols). Once all records are sent and correct sent data array acknowledgment is received by device then GPRS commands in Hex can be sent to device.
The ACK (acknowledge of IMEI from server) is a one byte constant 0x01. The acknowledgement of each data array send from device is four bytes integer – number of records received.
Note, that GPRS session should remain active between device and server, while GPRS commands are sent. For this reason, active datalink timeout (global parameters in device configuration) is recommended to be set to 259200 (maximum value).

General Codec12 message structure

The following diagram shows basic structure of Codec 12 messages.

Command message structure:


0x00000000 (Preamble)	Data Size	Codec ID	Command Quantity 1	Type (0x05)	Command Size	Command	Command Quantity 2	CRC-16
4 bytes	4 bytes	1 byte	1 byte	1 byte	4 bytes	X bytes	1 byte	4 bytes

Response message structure:


0x00000000 (Preamble)	Data Size	Codec ID	Response Quantity 1	Type (0x06)	Response Size	Response	Response Quantity 2	CRC-16
4 bytes	4 bytes	1 byte	1 byte	1 byte	4 bytes	X bytes	1 byte	4 bytes

Preamble - the packet starts with four zero bytes.
Data Size - size is calculated from Codec ID field to the second command or response quantity field.
Codec ID - in Codec12 it is always 0x0C.
Command/Response Quantity 1 - it is ignored when parsing the message.
Type - it can be 0x05 to denote command or 0x06 to denote response.
Command/Response Size – command or response length.
Command/Response – command or response in HEX.
Command/Response Quantity 2 - a byte which defines how many records (commands or responses) is in the packet. This byte will not be parsed but it’s recommended that it should contain same value as Command/Response Quantity 1.
CRC-16 - calculated from Codec ID to the Command/Response Quantity 2. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found here.

Note that difference between commands and responses is message type field: 0x05 means command and 0x06 means response.

Command coding table

Command has to be converted from ASCII characters (char) to hexadecimal (HEX):

Command parsing example

Hexadecimal stream of command and answer in this example are given in hexadecimal form. The different fields of message are seperate into different table columns for better readability and understanding.

GPRS commands examples

Hexadecimal stream of GPRS command and answer in these examples are given in hexadecimal form. The different fields of messages are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

1'st example: Sending getinfo SMS command via GPRS Codec12

Server request in hexadecimal stream:
000000000000000F0C010500000007676574696E666F0100004312

Parsed:


Server Command
Server Command Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 0F
Codec ID	0C
Command Quantity 1	01
Command Type	05
Command Size	00 00 00 07
Command	67 65 74 69 6E 66 6F
Command Quantity 2	01
CRC-16	00 00 43 12

Note that Server Command converted from HEX to ASCII means getinfo

Device response in hexadecimal stream:
00000000000000900C010600000088494E493A323031392F372F323220373A3232205254433A323031392F372F323220373A3533205253543A32204552523A 312053523A302042523A302043463A302046473A3020464C3A302054553A302F302055543A3020534D533A30204E4F4750533A303A3330204750533A312053 41543A302052533A332052463A36352053463A31204D443A30010000C78F

Parsed:


Device Answer
Device Answer Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 90
Codec ID	0C
Response Quantity 1	01
Response Type	06
Response Size	00 00 00 88
Response	49 4E 49 3A 32 30 31 39 2F 37 2F 32 32 20 37 3A 32 32 20 52 54 43 3A 32 30 31 39 2F 37 2F 32 32 20 37 3A 35 33 20 52 53 54 3A 32 20 45 52 52 3A 31 20 53 52 3A 30 20 42 52 3A 30 20 43 46 3A 30 20 46 47 3A 30 20 46 4C 3A 30 20 54 55 3A 30 2F 30 20 55 54 3A 30 20 53 4D 53 3A 30 20 4E 4F 47 50 53 3A 30 3A 33 30 20 47 50 53 3A 31 20 53 41 54 3A 30 20 52 53 3A 33 20 52 46 3A 36 35 20 53 46 3A 31 20 4D 44 3A 30
Response Quantity 2	01
CRC-16	00 00 C7 8F

Note that Device Response converted from HEX to ASCII means:
INI:2019/7/22 7:22 RTC:2019/7/22 7:53 RST:2 ERR:1 SR:0 BR:0 CF:0 FG:0 FL:0 TU:0/0 UT:0 SMS:0 NOGPS:0:30 GPS:1 SAT:0 RS:3 RF:65 SF:1 MD:0

2'nd xample: Sending getio SMS command via GPRS Codec12

Server request in hexadecimal stream:
000000000000000D0C010500000005676574696F01000000CB

Parsed:


Server Command
Server Command Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 0D
Codec ID	0C
Command Quantity 1	01
Command Type	05
Command Size	00 00 00 05
Command	67 65 74 69 6F
Command Quantity 2	01
CRC-16	00 00 00 CB

Note that Server Command converted from HEX to ASCII means getio

Device response in hexadecimal stream:
00000000000000370C01060000002F4449313A31204449323A30204449333A302041494E313A302041494E323A313639323420444F313A3020444F323A3101000066E3

Parsed:


Device Answer
Device Answer Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 37
Codec ID	0C
Response Quantity 1	01
Response Type	06
Response Size	00 00 00 2F
Response	44 49 31 3A 31 20 44 49 32 3A 30 20 44 49 33 3A 30 20 41 49 4E 31 3A 30 20 41 49 4E 32 3A 31 36 39 32 34 20 44 4F 31 3A 30 20 44 4F 32 3A 31
Response Quantity 2	01
CRC-16	00 00 66 E3

Note that Device Response converted from HEX to ASCII means:
DI1:1 DI2:0 DI3:0 AIN1:0 AIN2:16924 DO1:0 DO2:1

Communication with server

The GSM/GPRS commands can be sent from a terminal program. We recommend to use Hercules (in TCP server mode). Simply write command as explained below into Hercules Send field, check HEX box and click Send button. Note that the TCP server must be listening on specified port (see Port field and Listen button below).

FMXX and Codec12 functionality
Garmin

All information is provided in “FMXX and Garmin development.pdf” document.

COM TCP Link Mode

All information is provided in “FMxx TCP Link mode test instructions.pdf” document.

Codec 13

About Codec13

Codec13 is original Teltonika protocol for device-server communication over GPRS messages and it is based on Codec12 protocol. Main differences of Codec13 are that timestamp is using in messages and communication is one way only (Codec13 is used for Device -> Server sending).

General Codec13 message structure

The following diagram shows basic structure of Codec 13 messages:


0x00000000 (Preamble)	Data Size	Codec ID	Command Quantity 1	Type	Command Size	Timestamp	Command	Command Quantity 2	CRC-16
4 bytes	4 bytes	1 byte	1 byte	1 byte	4 bytes	8 bytes	X bytes	1 byte	4 bytes

4 Zeros – the packet starts with preamble field (four zero bytes).
Data Size – size is calculated from Codec ID field to the second Command Quantity field.
Codec ID – in Codec13 it is always 0x0D.
Command Quantity 1 – 0x01, it is ignored when parsing the message.
Command Type – it is always 0x05 since the packet is direction is FM->Server.
Command Size – command size field includes size of timestamp too, so it is equal to size of payload + size of timestamp.
Timestamp – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time).
Command – actual received data.
Command Quantity 2 – a byte which defines how many records (commands) is in the packet. This byte will not be parsed but it’s recommended that it should contain same value as Command/Response Quantity 1.
CRC-16 - calculated from Codec ID to Command Quantity 2. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found here.

Note: Codec13 packets are used only when “Message Timestamp” parameter in RS232 settings is enabled.

Command parsing example

Hexadecimal stream of GPRS command in this example is given in hexadecimal form. The different fields of message are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

Sending getinfo SMS command via GPRS Codec13.

Hexadecimal stream:
00000000000000170D01050000000F0000016C0A81C320676574696E666F010000AAD2

Parsed:


Server Command
Server Command Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 17
Codec ID	0D
Command Quantity 1	01
Command Type	05
Command Size	00 00 00 07
Timestamp	00 00 01 6C 0A 81 C3 20
Command	67 65 74 69 6E 66 6F
Command Quantity 2	01
CRC-16	00 00 AA D2

Note that Server Command converted from HEX to ASCII means getinfo

Codec 14

About Codec14

Codec14 is original Teltonika protocol for device-server communication over GPRS messages and it is based on Codec12 protocol.
Main difference of Codec14 is that, device will answer to GPRS command if device physical IMEI number matches specified IMEI number in GPRS command.

Codec14 GPRS commands can be used for sending configuration, debug, digital outputs control commands or other (special purpose command on special firmware versions).

FMB firmware requirements

Implemented in base firmware from FMB.Ver.03.25.04.Rev.00 and newer.

General Codec14 message structure

The following diagram shows basic structure of Codec14 messages.

Command message structure


0x00000000 (preamble)	Data size	0x0E (Codec ID)	Command quantity	0x05 (Message type)	Command size + IMEI size (8 bytes)	IMEI (HEX)	Command	Command quantity	CRC-16
4 bytes	4 bytes	1 bytes	1 bytes	1 bytes	4 bytes	8 bytes	X bytes	1 bytes	4 bytes

Response message structure


0x00000000 (preamble)	Data size	0x0E (Codec ID)	Response quantity	0x06 / 0x11 (Message type)	Response size + IMEI size (8 bytes)	IMEI (HEX)	Response	Response quantity	CRC-16
4 bytes	4 bytes	1 bytes	1 bytes	1 bytes	4 bytes	8 bytes	X bytes	1 bytes	4 bytes

Preamble – the packet starts with four zero bytes.
Data Size – size is calculated from Codec ID field to the second command or response quantity field.
Codec ID – in Codec14 it is always 0x0E.
Command/Response Quantity 1 – it is ignored when parsing the message.
Type – if it is request command from server it has to contain 0x05. The response type field will contain 0x06 if it’s ACK or 0x11 if it’s nACK.
Explanation: If command message IMEI is equal to actual device IMEI, received command will be executed and response will be sent with ACK (0x06) message type field value. If command message IMEI doesn’t match actual device IMEI, received command won’t be executed and response to server will be sent with nACK (0x11) message type field value.
Command/Response Size – command or response length.
Note: make sure that size is IMEI size 8 + actual command size. Minimal value is 8 because Codec14 always contain IMEI and it’s 8 bytes.
IMEI (HEX) – it is send as HEX value. Example if device IMEI is 123456789123456 then IMEI data field will contain 0x0123456789123456 value.
Command/Response – command or response in HEX.
Command/Response Quantity 2 - a byte which defines how many records (commands or responses) is in the packet. This byte will not be parsed but it’s recommended that it should contain same value as Command/Response Quantity 1.
CRC-16 - calculated from Codec ID to the Command/Response Quantity 2. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found here.

GPRS in Codec14 examples

Hexadecimal stream of GPRS command and answer in this example are given in hexadecimal form. The different fields of message are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding.

Sending getver SMS command via GPRS Codec14:

Server requests in Hexadecimal stream:
00000000000000160E01050000000E0352093081452251676574766572010000D2C1

Parsed:


Server Command
Server Command Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 16
Codec ID	0E
Command Quantity 1	01
Command Type	05
Command Size	00 00 00 0E
IMEI	00 00 00 0E
Command	03 52 09 30 81 45 22 51
Command Quantity 2	01
CRC-16	00 00 D2 C1

Note that Server Command converted from HEX to ASCII means getver

Device ACK response in hexadecimal stream:
00000000000000AB0E0106000000A303520930814522515665723A30332E31382E31345F3034204750533A41584E5F352E31305F333333332048773A464D42313230 204D6F643A313520494D45493A33353230393330383134353232353120496E69743A323031382D31312D323220373A313320557074696D653A3137323334204D4143 3A363042444430303136323631205350433A312830292041584C3A30204F42443A3020424C3A312E362042543A340100007AAE

Parsed:


Device Answer
Device Answer Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 37
Codec ID	0E
Response Quantity 1	01
Response Type	06
Response Size	00 00 00 A3
IMEI	03 52 09 30 81 45 22 51
Response	56 65 72 3A 30 33 2E 31 38 2E 31 34 5F 30 34 20 47 50 53 3A 41 58 4E 5F 35 2E 31 30 5F 33 33 33 33 20 48 77 3A 46 4D 42 31 32 30 20 4D 6F 64 3A 31 35 20 49 4D 45 49 3A 33 35 32 30 39 33 30 38 31 34 35 32 32 35 31 20 49 6E 69 74 3A 32 30 31 38 2D 31 31 2D 32 32 20 37 3A 31 33 20 55 70 74 69 6D 65 3A 31 37 32 33 34 20 4D 41 43 3A 36 30 42 44 44 30 30 31 36 32 36 31 20 53 50 43 3A 31 28 30 29 20 41 58 4C 3A 30 20 4F 42 44 3A 30 20 42 4C 3A 31 2E 36 20 42 54 3A 34
Response Quantity 2	01
CRC-16	00 00 7A AE

Note that Device Response converted from HEX to ASCII means:
Ver:03.18.14_04 GPS:AXN_5.10_3333 Hw:FMB120 Mod:15 IMEI:352093081452251 Init:2018-11-22 7:13 Uptime:17234 MAC:60BDD0016261 SPC:1(0) AXL:0 OBD:0 BL:1.6 BT:4

Device nACK response in hexadecimal stream:
00000000000000100E011100000008035209308145246801000032AC

Parsed:


Device Answer
Device Answer Part	HEX Code Part
Zero Bytes	00 00 00 00
Data Size	00 00 00 10
Codec ID	0E
Response Quantity 1	01
Response Type	11
Response Size	00 00 00 08
IMEI	03 52 09 30 81 45 24 68
Response Quantity 2	01
CRC-16	00 00 32 AC

Differences between Codec 12, Codec 13 and Codec 14

In the table below you will see differences between Codec12, Codec13 and Codec14.


	Codec12	Codec13	Codec14
Communication	Server - Device Communication	One-way (Device -> Server communication)	Server - Device Communication
Codec ID	0x0C	0x0D	0x0E
Response Message Type	0x06	-	0x06 (if it is ACK) or 0x11 (if it is nACK)
Command / Response size	Only Command/Response	Only Command	Command/Response + IMEI
Timestamp	Not Using	Is Using	Not Using
IMEI	Not Using	Not Using	Is Using

24 Position SMS Data Protocol

24-hour SMS is usually sent once every day and contains GPS data of last 24 hours. TP-DCS field of this SMS should indicate that message contains 8-bit data (i.e. TP-DCS can be 0x04).
Note, that 24 position data protocol is used only with subscribed SMS. Event SMS use standard AVL data protocol.

Encoding

To be able to compress 24 GPS data entries into one SMS (140 octets), the data is encoded extensively using bit fields. Data packet can be interpreted as a bit stream, where all bits are numbered as follows:


Byte 1	Byte 2	Byte 3	Byte 4 ...
Bits 0 - 7	Bits 8 - 15	Bits 16 - 24	Bits 25 - ...

Bits in a byte are numbered starting from least significant bit. A field of 25 bits would consist of bits 0 to 24 where 0 is the least significant bit and bit 24 – most significant bit.

Structure

Below in the tables you will see SMS Data Structure:


SMS Data Structure
8	Codec ID	Codec ID = 4 (0x04)
35	Timestamp	Time corresponding to the first (oldest) GPS data element, represented in seconds elapsed from 2000.01.01 00:00 EET.
5	ElementCount	Number of GPS data elements


SMS Data Structure
ElementCount *		GPSDataElement	GPS data elements
		Byte - align padding	Padding bits to align to 8 - bits boundary represented in seconds elapsed from 2000.01.01 00:00 EET.
	64	IMEI	IMEI of sending device as 8 byte long integer

The time of only the first GPS data element is specified in Timestamp field. Time corresponding to each further element can be computed as elementTime = Timestamp + (1 hour * elementNumber).


GPS Data Element
		Size (bits)	Field	Description
		1	ValidElement	ValidElement = 1 – there is a valid Gps Data Element following, ValidElement = 0 – no element at this position
ValidElement == 1		1	DifferentialCoords	Format of following data
	DifferentialCoords == 1	14	LongitudeDiff	Difference from previous element‘s longitude. LongitudeDiff = prevLongitude – Longitude + 213 – 1
	DifferentialCoords == 1	14	LatitudeDiff	Difference from previous element‘s latitude LatitudeDiff = prevLatitude – Latitude + 213 – 1
	DifferentialCoords == 0	21	Longitude	Longitude = {(LongDegMult + 18 * 108) * (221 – 1)} over {36*108}
	DifferentialCoords == 0	20	Latitude	Latitude = (LatDegMult + 9108) (220 – 1) over {18*108}
		8	Speed	Speed in km/h

Longitude - longitude field value of GPSDataElement
Latitude - latitude field value of GPSDataElement
LongDegMult - longitude in degrees multiplied by 107 (integer part)
LatDegMult - latitude in degrees multiplied by 107 (integer part)
prevLongitude - longitude field value of previous GPSDataElemen
prevLatitude - latitude field value of previous GPSDataElement

Decoding GPS position

When decoding GPS data with DifferentialCoords = 1, Latitude and Longitude values can be computed as follows: Longitude = prevLongitude – LongitudeDiff + 213 – 1, Latitude = prevLatitude – LatitudeDiff + 213 – 1.
If there were no previous non-differential positions, differential coordinates should be computed assuming prevLongitude = prevLatitude = 0.
When Longitude and Latitude values are known, longitude and latitude representation in degrees can be computed as follows:

SMS Events

When Configured to generate SMS event user will get this SMS upon event:
<Year/Month/Day> <Hour:Minute:Second> P:<profile_nr> <SMS Text> Val:<Event Value> Lon:<longitude> Lat:<latitude> Q:<HDOP>

Example:
2016./04/11 12:00:00 P:3 Digital Input 1 Val:1 Lon:51.12258 Lat: 25.7461 Q:0.6

Sending data using SMS

This type data sending is using for FMBXXX devices which can be cofigured in SMS Data Sending settings. More information about this feature you will find here.

Data sending via SMS

AVL data or events can be sent encapsulated in binary SMS. TP-DCS field of these SMS should indicate that message contains 8-bit data (for example: TP-DCS can be 0x04).


SMS data (TP-UD)
AVL data array	IMEI
X bytes	8 bytes

AVL data array – array of encoded AVL data.
IMEI – IMEI of sending module encoded as a big endian 8 byte long number.

CRC-16

CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. The algorithm how to calculate CRC-16 (also known as CRC-16/IBM) you will find below.

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Difference between revisions of "Codec"

Revision as of 15:40, 21 October 2019

Contents

Introduction

Codec for device data sending

Codec 8

Codec 8 Extended

Codec 16

Differences between Codec 8, Codec 8 Extended and Codec 16

Codec for communication over GPRS messages

Codec 12

Codec 13

Codec 14

Differences between Codec 12, Codec 13 and Codec 14

24 Position SMS Data Protocol

Sending data using SMS

CRC-16

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@@ Line 1: / Line 1: @@
+= '''<big>Introduction</big>''' =
-== '''<big>Introduction</big>''' ==
+A codec is a device or computer program for encoding or decoding a digital data stream or signal. Codec is a portmanteau of coder – decoder. A codec encodes a data stream or a signal for transmission and storage, possibly in encrypted form, and the decoder function reverses the encoding for playback or editing. <br> <br>
-A codec is a device or computer program for encoding or decoding a digital data stream or signal. Codec is a portmanteau of coder-decoder.<br/>
+Below you will see a table of all Codec types with ID’s: <br>
-A codec encodes a data stream or a signal for transmission and storage, possibly in encrypted form, and the decoder function reverses the encoding for playback or editing.
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec 8
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec 8 Extended
-Codec ID table
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec 16
-{| class="wikitable"
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec 12
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec 13
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec 14
 |-
-! style="background: black; color: white;"| Codec 8
+| style="vertical-align: middle; text-align: center;" | 0x08
-! style="background: black; color: white;"| Codec 8 extended
+| style="vertical-align: middle; text-align: center;" | 0x8E
-UDP channel header
+| style="vertical-align: middle; text-align: center;" | 0x10
-! style="background: black; color: white;"| Codec 12
+| style="vertical-align: middle; text-align: center;" | 0x0C
-! style="background: black; color: white;"| Codec 13
+| style="vertical-align: middle; text-align: center;" | 0x0D
-! style="background: black; color: white;"| Codec 16
+| style="vertical-align: middle; text-align: center;" | 0x0E
 |-
-| 0x08 || 0x8E || 0x0C || 0x0D || 0x10
 |}
+Also, there are using two data transport protocols: TCP and UDP. But it is not important which one will be use in Codec. <br>
+= '''<big>Codec for device data sending</big>''' =
+In this chapter you will find information about every Codec protocol which are using for device data sending and differences between them. <br> <br>
 == '''<big>Codec 8</big>''' ==
-*''AVL data packet''
+*'''<big>Protocol Overview</big>'''
-Because the smallest information amount that can be written is one bit, there can be some bits left unused when result is byte array. Any unused bits should be left blank.
+Codec8 – a main FM device protocol that is used for sending data to server. <br> <br>
-Below table represents AVL data packet structure.
+*'''<big>Codec8 protocol sending over TCP</big>'''
+TCP is a connection-oriented protocol that is using for communication between devices. How this type protocol works you will read later. <br> <br>
+*'''AVL Data Packet'''
+Below table represents AVL Data Packet structure: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (Preamble)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data Field Length
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec ID
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Number of Data 1
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Number of Data 2
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
+|-
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | X bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+|-
+|}
+'''Preamble''' – the packet starts with four zero bytes. <br>
+'''Data Field Length''' – size is calculated starting from Codec ID to Number of Data 2. <br>
+'''Codec ID''' – in Codec8 it is always 0x08. <br>
+'''Number of Data 1''' – a number which defines how many records is in the packet. <br>
+'''AVL Data''' – actual data in the packet (more information below). <br>
+'''Number of Data 2''' – a number which defines how many records is in the packet. This number must be the same as “Number of Data 1”. <br>
+'''CRC-16''' – calculated from Codec ID to the Second Number of Data. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found [[CDT#CRC-16|here]]. <br> <br>
+'''Note:''' for FMB6XY and FM63XY, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 255 bytes. For other devices, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 1280 bytes. <br> <br>
-{| class="wikitable"
+*AVL Data
+Below table represents AVL Data structure. <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Timestamp
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Priority
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | GPS Element
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | IO Element
 |-
-! style="background: black; color: white;"| 4 zeros
+| style="vertical-align: middle; text-align: center;" | 8 bytes
-! style="background: black; color: white;"| Data field length
+| style="vertical-align: middle; text-align: center;" | 1 byte
-! style="background: black; color: white;"| Codec ID
+| style="vertical-align: middle; text-align: center;" | 15 bytes
-! style="background: black; color: white;"| Number of Data 1
+| style="vertical-align: middle; text-align: center;" | X bytes
-! style="background: black; color: white;"| AVL Data
-! style="background: black; color: white;"| Number of Data 2
-! style="background: black; color: white;"| CRC-16
 |-
-| 4 bytes || 4 bytes || 1 byte || 1 byte || 30-147 bytes || 1 byte || 4 bytes
 |}
+'''Timestamp''' – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time). <br>
+'''Priority''' – field which define AVL data priority (more information below). <br>
+'''GPS Element''' – locational information of the AVL data (more information below). <br>
+'''IO Element''' – additional configurable information from device (more information below). <br> <br>
-Number of data – number of encoded data (number of records).
+*Priority
-Codec ID is constant 08.
+Below table represents Priority values. Packet priority depends on device configuration and records sent. <br>
+{| class="nd-othertables_2" style="width:25%;
+|+
+! colspan="2" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Priority
+|-
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 0
+| style="vertical-align: middle; text-align: center;" | Low
+|-
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 1
+| style="vertical-align: middle; text-align: center;" | High
+|-
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 2
+| style="vertical-align: middle; text-align: center;" | Panic
+|}<br>
-Data field length is the length of bytes [codec id, number of data 2].
+*GPS element
-Number of data 1 should always be equal to number of data 2 byte.
+Below table represents GPS Element structure: <br>
-CRC-16 is 4 bytes, but first two are zeroes and last two are CRC-16 calculated for [codec id, number of data 2]
+{| class="nd-othertables_2" style="width:100%;
-Minimum AVL packet size is 45 bytes (all IO elements disabled).
+|+
-Maximum AVL packet size for one record is 783 bytes.
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Longitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Latitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Altitude
-*''AVL data''
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Angle
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Satellites
-{| class="wikitable"
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Speed
 |-
-! style="background: black; color: white;"| Timestamp
+| style="vertical-align: middle; text-align: center;" | 4 bytes
-! style="background: black; color: white;"| Priority
+| style="vertical-align: middle; text-align: center;" | 4 bytes
-! style="background: black; color: white;"| GPS Element
+| style="vertical-align: middle; text-align: center;" | 2 bytes
-! style="background: black; color: white;"| IO element
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| 8 bytes || 1 byte || 15 bytes || 6-123
 |}
+'''Longitude''' – east – west position. <br>
+'''Latitude''' – north – south position. <br>
+'''Altitude''' – meters above sea level. <br>
+'''Angle''' – degrees from north pole. <br>
+'''Satellites''' – number of visible satellites. <br>
+'''Speed''' – speed calculated from satellites. <br> <br>
+'''Note:''' Speed will be 0x0000 if GPS data is invalid. <br> <br>
+Longitude and latitude are integer values built from degrees, minutes, seconds and milliseconds by formula: <br>
+[[Image:GPS.png]]
+<br>
+Where: <br>
+d – Degrees; m – Minutes; s – Seconds; ms – Milliseconds; p – Precision (10000000) <br>
+If longitude is in west or latitude in south, multiply result by –1. <br> <br>
+Note: <br>
+To determine if the coordinate is negative, convert it to binary format and check the very first bit. If it is 0, coordinate is positive, if it is 1, coordinate is negative. <br> <br>
+Example: <br>
+Received value: 20 9C CA 80 converted to BIN: 00100000 10011100 11001010 10000000 first bit is 0, which means coordinate is positive converted to DEC: 547146368. For more information see two‘s complement arithmetic. <br> <br>
+*IO Element
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| rowspan="26" style=" width:5%; vertical-align: middle; text-align: left;" |
+| rowspan="26" style=" width:65%; vertical-align: middle; text-align: left;" | '''Event IO ID''' – if data is acquired on event – this field defines which IO property has changed and generated an event. For example, when if Ignition state changed and it generate event, Event IO ID will be 0xEF (AVL ID: 239). If it’s not eventual record – the value is 0. <br>
+'''N''' – a total number of properties coming with record (N = N1 + N2 + N4 + N8). <br>
+'''N1''' – number of properties, which length is 1 byte. <br>
+'''N2''' – number of properties, which length is 2 bytes. <br>
+'''N4''' – number of properties, which length is 4 bytes. <br>
+'''N8''' – number of properties, which length is 8 bytes. <br>
+'''N’th IO ID''' - AVL ID. <br>
+'''N’th IO Value''' - AVL ID value. <br>
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N of Total IO
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1’th IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1’th IO Value
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2 of Two Bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2’th IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2’th IO Value
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4 of Four Bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4’th IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4’th IO Value
+| style="vertical-align: middle; text-align: center;" | 4 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8 of Eight Bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 8 byte
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8’IO ID
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8’IO Value
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+|-
+|} <br> <br>
-Timestamp – difference, in milliseconds, between the current time and midnight, January 1, 1970 UTC
+*'''Communication with server'''
+First, when module connects to server, module sends its IMEI. First comes short identifying number of bytes written and then goes IMEI as text (bytes). <br>
+For example, IMEI 356307042441013 would be sent as 000F333536333037303432343431303133. <br>
+First two bytes denote IMEI length. In this case 0x000F means, that IMEI is 15 bytes long. <br>
+After receiving IMEI, server should determine if it would accept data from this module. If yes, server will reply to module 01, if not - 00. Note that confirmation should be sent as binary packet. I.e. 1 byte 0x01 or 0x00. <br>
+Then module starts to send first AVL data packet. After server receives packet and parses it, server must report to module number of data received as integer (four bytes). <br>
+If sent data number and reported by server doesn’t match module resends sent data. <br> <br>
+*Example:  <br>
+Module connects to server and sends IMEI: <br>
+F333536333037303432343431303133 <br>
+Server accepts the module: <br>
+<br>
+Module sends data packet: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Array
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
+|-
+| style="vertical-align: middle; text-align: center;" | Four Zero Bytes – 0x00000000,
+“AVL Data Array” length – 0x000000FE
+| style="vertical-align: middle; text-align: center;" | Codec ID – 0x08,
+Number of Data – '''0x02''' <br>
+(Encoded using continuous bit stream. Last byte padded to align to byte boundary)
+| style="vertical-align: middle; text-align: center;" | CRC of “AVL Data Array”
+|-
+| style="vertical-align: middle; text-align: center;" | 00000000000000FE
+| style="vertical-align: middle; text-align: center;" | 08'''02'''...(data elements)...'''02'''
+| style="vertical-align: middle; text-align: center;" | 00008612
+|-
+|} <br>
+Server acknowledges data reception (2 data elements): '''00000002''' <br> <br>
-*''Priority''
+*'''Examples'''
+Hexadecimal stream of AVL Data Packet receiving and response in these examples are given in hexadecimal form. The different fields of packets are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
+'''1'st example''' <br>
+Receiving one data record with each element property (1 byte, 2 bytes, 4 byte and 8 byte). <br> <br>
+Received data in hexadecimal stream: <br>
+000000000000003608010000016B40D8EA30010000000000000000000000000000000105021503010101425E0F01F10000601A014E0000000000000000010000C7CF <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="4" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Data Field Length
+| style="vertical-align: middle; text-align: center;" | 00 00 00 36
+|-
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 08
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| rowspan="24" style="vertical-align: middle; text-align: center;" | AVL Data
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 00 01 6B 40 D8 EA 30 (GMT: Monday, June 10, 2019 10:04:46 AM)
+|-
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 05
+|-
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 02
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 15 (AVL ID: 21, Name: GSM Signal)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 03
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 01 (AVL ID: 1, Name: DIN1)
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 42 (AVL ID: 66, Name: External Voltage)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 5E 0F
+|-
+| style="vertical-align: middle; text-align: center;" | N4 of Four Bytes IO
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | F1 (AVL ID: 241, Name: Active GSM Operator)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 00 60 1A
+|-
+| style="vertical-align: middle; text-align: center;" | N8 of Eight Bytes IO
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 4E (AVL ID: 78, Name: iButton)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00 00 00 00 00
+|-
+| rowspan="2" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Number of Data 2 (Number of Total Records)
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 C7 CF
+|-
+|} <br>
+Server response: 00000001 <br> <br>
-{| class="wikitable"
+'''2'nd example''' <br>
+Receiving one data record with one or two different element properties (1 byte, 2 byte). <br> <br>
+Received data in hexadecimal stream: <br>
+000000000000002808010000016B40D9AD80010000000000000000000000000000000103021503010101425E100000010000F22A <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="4" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Data Field Length
+| style="vertical-align: middle; text-align: center;" | 00 00 00 28
+|-
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 08
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
+| style="vertical-align: middle; text-align: center;" | 01
 |-
+| rowspan="20" style="vertical-align: middle; text-align: center;" | AVL Data
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B 40 D9 AD 80 (GMT: Monday, June 10, 2019 10:05:36 AM)
+|-
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 03
+|-
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 02
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 15 (AVL ID: 21, Name: GSM Signal)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 03
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 01 (AVL ID: 1, Name: DIN1)
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 42 (AVL ID: 66, Name: External Voltage)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 5E 0F
+|-
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| style="background: black; color: white;"|0 || Low
+| rowspan="2" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Number of Data 2 (Number of Total Records)
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| style="background: black; color: white;"|1 || High
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 F2 2A
 |-
-| style="background: black; color: white;"|2 || Panic
+|} <br>
-|}
+Server response: 00000001 <br> <br>
+'''3'rd example''' <br>
-*''GPS Element''
+Receiving two or more data records with one or more different element properties. <br> <br>
+Received data in hexadecimal stream: <br>
+000000000000004308020000016B40D57B480100000000000000000000000000000001010101000000000000016B40D5C198010000000000000000000000000000000
-{| class="wikitable"
+101010101000000020000252C <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="4" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-! style="background: black; color: white;"| Longitude
+| style="vertical-align: middle; text-align: center;" | Data Field Length
-! style="background: black; color: white;"| Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 43
-! style="background: black; color: white;"| Altitude
-! style="background: black; color: white;"| Angle
-! style="background: black; color: white;"| Satellites
-! style="background: black; color: white;"| Speed
 |-
-| 4 bytes || 4 bytes || 2 bytes || 2 bytes || 1 bytes || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Codec ID
-|}
+| style="vertical-align: middle; text-align: center;" | 08
-X    Longitude
-Y    Latitude1
-Altitude    In meters above sea level1
-Angle    In degrees, 0 is north, increasing clock-wise 1
-Satellites     Number of visible satellites1
-Speed in km/h. 0x0000 if GPS data is invalid1
-Longitude and latitude are integer values built from degrees, minutes, seconds and milliseconds by formula
-[[Image:197.png]]
-d -    Degrees
-m -    Minutes
-s -    Seconds
-ms -    Milliseconds
-p -    Precision (10000000)
-If longitude is in west or latitude in south, multiply result by –1. To determine if the coordinate is negative, convert it to binary format and check the very first bit. If it is 0, coordinate is positive, if it is 1, coordinate is negative.
-Example:
-Received value: 20 9c ca 80
-Converted to BIN: 00100000 10011100 11001010 10000000 first bit is 0, which means coordinate is positive
-Converted to DEC: 547146368
-For more information see two‘s complement arithmetics.
-*''IO Element''
-{| class="wikitable"
 |-
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
-| style="background: black; color: white;"|Event IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | 02
 |-
-| style="background: black; color: white;"|N of Total IO || 1 byte
+| rowspan="16" style="vertical-align: middle; text-align: center;" | AVL Data
+(1'st record)
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B 40 D5 7B 48 (GMT: Monday, June 10, 2019 10:01:01 AM)
 |-
-| style="background: black; color: white;"|N1 of One Byte IO || 1 byte
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| style="background: black; color: white;"|1’st  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| style="background: black; color: white;"|1’st IO Value || 1 byte
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| ... ||
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-| style="background: black; color: white;"|N1’th  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-| style="background: black; color: white;"|N1’th IO Value || 1 byte
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| style="background: black; color: white;"|N2 of Two Bytes || 1 byte
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-| style="background: black; color: white;"|1’st  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| style="background: black; color: white;"|1’st IO Value || 2 bytes
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| |... ||
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| style="background: black; color: white;"|N2’th  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 01 (AVL ID: 1, Name: DIN1)
 |-
-| style="background: black; color: white;"|N2’th IO Value || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| style="background: black; color: white;"|N4 of Four Bytes || 1 byte
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| style="background: black; color: white;"|1’st  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| style="background: black; color: white;"|1’st IO Value || 4 byte
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| |... ||
+| rowspan="16" style="vertical-align: middle; text-align: center;" | AVL Data
+(2'nd record)
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B 40 D5 C1 98 (GMT: Monday, June 10, 2019 10:01:19 AM)
 |-
-| style="background: black; color: white;"|N4’th  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| style="background: black; color: white;"|N4’th IO Value || 4 bytes
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| style="background: black; color: white;"|N8 of Eight Bytes || 1 byte
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| style="background: black; color: white;"|1’st  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-| style="background: black; color: white;"|1’st IO Value || 8 bytes
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-| |... ||
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| style="background: black; color: white;"|N8’th  IO ID || 1 byte
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-| style="background: black; color: white;"|N8’th IO Value || 8 bytes
+| style="vertical-align: middle; text-align: center;" | Event IO ID
-|}
+| style="vertical-align: middle; text-align: center;" | 01
-Event IO ID – if data is acquired on event – this field defines which IO property has changed and generated an event. If data cause is not event – the value is 0.
-N    total number of properties coming with record (N=N1+N2+N4+N8)
-N1    number of properties, which length is 1 byte
-N2    number of properties, which length is 2 bytes
-N4    number of properties, which length is 4 bytes
-N8    number of properties, which length is 8 bytes
-'''Example'''
-Received data:
-<span style="background-color: #848484">00000000</span><span style="background-color: #A9BCF5">0000008c</span><span style="background-color: #04B45F">08</span><span style="background-color: #FF0000">01</span><span style="background-color: #9F81F7">0000013feb55ff74</span><span style="background-color: #D8D8D8">00</span><span style="background-color: #FFFF00">0f0ea850</span><span style="background-color: #FAAC58">209a6900</span><span style="background-color: #2EFE2E">0094</span><span style="background-color: #088A29">0000</span>120000<span style="background-color: #0040FF">00</span>
-<span style="background-color: #A9A9F5">1e</span><span style="background-color: #DF3A01">09</span>010002000300040016014703f0001504c800<span style="background-color: #DF3A01">0c</span>0900730a00460b00501300464306
-d7440000b5000bb60007422e9
-f180000cd0386ce0001<span style="background-color: #DF3A01">07</span>c700000000f10000601a4600
-0001344800000bb84900000bb84a00000bb84c00000000<span style="background-color: #DF3A01">02</span>4e0000000000000000cf00
-00000000000000<span style="background-color: #FF0000">01</span><span style="background-color: #F5DA81">00003fca</span>
-In total 152 Bytes
-<span style="background-color: #848484">00000000</span> 4 zeroes, 4 bytes
-<span style="background-color: #A9BCF5">0000008c</span> data length, 4 bytes
-<span style="background-color: #04B45F">08</span> – Codec ID
-<span style="background-color: #FF0000">01</span>    Number of Data (1 record) 1’st record data
-<span style="background-color: #9F81F7">010000013feb55ff74</span> – Timestamp in milliseconds (1374042849140)
-GMT: Wed, 17 Jul 2013 06:34:09 GMT
-<span style="background-color: #D8D8D8">00</span> – Priority
-GPS Element
-<span style="background-color: #FFFF00">0f0ea850</span>     – Longitude 252618832 = 25,2618832º N
-<span style="background-color: #FAAC58">209a6900</span>    – Latitude 546990336 = 54,6990336 º E
-<span style="background-color: #2EFE2E">0094</span>         – Altitude 148 meters
-<span style="background-color: #088A29">0000</span>    – Angle 0
-<span style="background-color: #088A29">12</span>    – 18 Visible satellites
-<span style="background-color: #088A29">0000</span>    – 0 km/h speed
-IO Element
-<span style="background-color: #0040FF">00</span> – IO element ID of Event generated (in this case when 00 – data generated not on event)
-<span style="background-color: #A9A9F5">1e</span> – 30 IO elements in record (total)
-<span style="background-color: #DF3A01">09</span> – 9 IO elements, which length is 1 Byte
-    – IO element ID = 01
-    – IO element’s value = 0
-     – IO element ID = 02
-    – IO element’s value = 0
-     – IO element ID = 03
-    – IO element’s value = 0
-     – IO element ID = 04
-    – IO element’s value = 0
-     – IO element ID = 22 (dec)
-    – IO element’s value = 1
-     – IO element ID = 71 (dec)
-     – IO element’s value = 3
-F0     – IO element ID = 240 (dec)
-    – IO element’s value = 0
-     – IO element ID = 21 (dec)
-     – IO element’s value = 0
-C8     – IO element ID = 200 (dec)
-    – IO element’s value = 0
-<span style="background-color: #DF3A01">0c</span>     – 12 IO elements, which value length is 2 Bytes
-     – IO element ID = 9 (dec)
-     – IO element’s value
-a     – IO element ID = 10 (dec)
-     – IO element’s value
-b     – IO element ID = 11 (dec)
-     – IO element’s value
-     – IO element ID = 19 (dec)
-     – IO element’s value
-     – IO element ID = 67 (dec)
-d7     – IO element’s value
-    – IO element ID = 68 (dec)
-    – IO element’s value
-B5     – IO element ID = 181 (dec)
-b     – IO element’s value
-B6     – IO element ID = 182 (dec)
-     – IO element’s value
-     – IO element ID = 66 (dec)
-e9f     – IO element’s value
-    – IO element ID = 24 (dec)
-    – IO element’s value
-cd     – IO element ID = 205 (dec)
-    – IO element’s value
-CE     – IO element ID = 206 (dec)
-    – IO element’s value
-<span style="background-color: #DF3A01">07</span> – 7 IO elements, which value length is 4 Bytes
-C7         – IO element ID = 199 (dec)
-    – IO element’s value
-f1         – IO element ID = 241 (dec)
-0000601a    – IO element’s value
-         – IO element ID = 70 (dec)
-00000134    – IO element’s value
-         – IO element ID = 72 (dec)
-bb8    – IO element’s value
-    – IO element ID = 73 (dec)
-bb8    – IO element’s value
-a         – IO element ID = 74 (dec)
-bb8    – IO element’s value
-c         – IO element ID = 76 (dec)
-    – IO element’s value
-<span style="background-color: #DF3A01">02</span> – 2 IO elements, which value length is 8 Bytes
-e             – IO element ID = 78 (dec)
-    – IO element’s value
-cf             – IO element ID = 207 (dec)
-    – IO element’s value
-<span style="background-color: #FF0000">01</span>    – Number of Data (1 record)
-<span style="background-color: #F5DA81">00003fca</span>    - CRC-16, 4 Bytes (first 2 are always zeros)
-*'''SENDING DATA OVER TCP/IP'''
-First when module connects to server, module sends its IMEI. First comes short identifying number of bytes written and then goes IMEI as text (bytes).
-For example IMEI 356307042441013 would be sent as 000f333536333037303432343431303133
-First two bytes denote IMEI length. In this case 000F means, that IMEI is 15 bytes long.
-After receiving IMEI, server should determine if it would accept data from this module. If yes server will reply to module 01 if not 00. Note that confirmation should be sent as binary packet. I.e. 1 byte 0x01 or 0x00.
-Then module starts to send first AVL data packet. After server receives packet and parses it, server must report to module number of data received as integer (four bytes).
-If sent data number and reported by server doesn’t match module resends sent data.
-Example:
-Module connects to server and sends IMEI:
-f333536333037303432343431303133
-Server accepts the module:
-Module sends data packet:
-{| class="wikitable"
 |-
-! style="background: black; color: white;"|AVL data packet header !! style="background: black; color: white;"|AVL data array !! style="background: black; color: white;"| CRC
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| Four zero bytes,
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
-‘AVL data array’ length – 254
+| style="vertical-align: middle; text-align: center;" | 01
- || CodecId – 08,
-NumberOfData – 2.
-(Encoded using continuous bit stream.
-Last byte padded to align to byte boundary)
- || CRC of ‘AVL data array’
 |-
-| 00000000000000FE || 0802...(data elements)...02 || 00008612
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
-|}
+| style="vertical-align: middle; text-align: center;" | 01 (AVL ID: 1, Name: DIN1)
-Server acknowledges data reception (2 data elements):
-00000002
-*'''SENDING DATA OVER UDP/IP'''
-*''UDP channel protocol''
-UDP channel is a transport layer protocol above UDP/IP to add reliability to plain UDP/IP using acknowledgment packets. The packet structure is as follows:
-{| class="wikitable "
 |-
-! colspan="4" align="center" style="background: black; color: white;"|UDP datagram
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| rowspan="4"| UDP channel packet x N
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
-| Example || 2 bytes || Packet length (excluding this field) in big ending byte order
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| Packet Id || 2 bytes || Packet id unique for this channel
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| Not usable byte || 1 byte || Not usable byte
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| Packet payload || m bytes || Data payload
+| rowspan="2" style="vertical-align: middle; text-align: center;" |
-|}
+| style="vertical-align: middle; text-align: center;" | Number of Data 2 (Number of Total Records)
+| style="vertical-align: middle; text-align: center;" | 01
-{| class="wikitable"
 |-
-! colspan="2" align="center" style="background: black; color: white;"|Not usable byte
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 25 2C
 |-
-| 1||Data packet requiring acknowledgment
+|} <br>
-|}
+Server response: 00000002 <br> <br>
-Acknowledgment packet should have the same packet id as acknowledged data packet and empty data payload. Acknowledgement should be sent in binary format
+*'''<big>Codec8 protocol sending over UDP</big>'''
+UDP is a transport layer protocol above UDP/IP to add reliability to plain UDP/IP using acknowledgment packets. <br>
-{| class="wikitable"
+*'''AVL Data Packet'''
+The packet structure is as follows: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | UDP Datagram
 |-
-! colspan="3" align="center" style="background: black; color: white;"|Acknowledgment packet
+| style="vertical-align: middle; text-align: center;" | Example
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| Packet length || 2 bytes || 0x0003
+| style="vertical-align: middle; text-align: center;" | Packet ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| Packet id || 2 bytes || same as in acknowledged packet
+| style="vertical-align: middle; text-align: center;" | Not Usable Byte
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+| style="vertical-align: middle; text-align: center;" | Packet Payload
+| style="vertical-align: middle; text-align: center;" | Variable
 |-
-| Not usable byte|| 1 byte || 0x00
 |}
+'''Example''' – packet length (excluding this field) in big ending byte order. <br>
+'''Packet ID''' – packet ID unique for this channel. <br>
+'''Not Usable Byte''' – not usable byte. <br>
+'''Packet payload''' – data payload. <br> <br>
+*Acknowledgment packet
-*'''Sending AVL data using UDP channel'''
+Acknowledgment packet should have the same Packet ID as acknowledged data packet and empty Data Payload. Acknowledgement should be sent in binary format. <br>
+{| class="nd-othertables_2" style="width:100%;
-AVL data are sent encapsulated in UDP channel packets (Data payload field).
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Acknowledgment Packet
-{| class="wikitable"
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Packet Length
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Packet ID
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Not Usable Byte
 |-
-! colspan="3" align="center" style="background: black; color: white;"|AVL data encapsulated in UDP channel packet
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
 |-
-| AVL packet id (1 byte) || Module IMEI || AVL data array
 |}
+'''Packet Length''' – packet length by sending/response data. <br>
+'''Packet ID''' – same as in acknowledgment packet. <br>
+'''Not Usable Byte''' – always will be 0x01. <br> <br>
-AVL packet id (1 byte) – id identifying this AVL packet
+*Sending AVL Packet Payload using UDP channel
-Module IMEI – IMEI of a sending module encoded the same as with TCP
+Below table represents Sending Packet Payload structure. <br>
-AVL data array – array of encoded AVL data
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="4" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL data encapsulated in UDP channel packet
-{| class="wikitable"
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Packet ID
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | IMEI Length
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Module IMEI
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data Array
 |-
-! colspan="3" align="center" style="background: black; color: white;"|Server response to AVL data packet
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 15 bytes
+| style="vertical-align: middle; text-align: center;" | X bytes
 |-
-| AVL packet id (1 byte) ||Number of accepted AVL elements (1 byte)
 |}
+'''AVL Packet ID''' – ID identifying this AVL packet. <br>
+'''IMEI Length''' – always will be 0x000F. <br>
+'''Module IMEI''' – IMEI of a sending module encoded the same as with TCP. <br>
+'''AVL Data Array''' – array of encoded AVL data (same as TCP AVL Data Array). <br> <br>
+* Server response Packet Payload using UDP channel
-AVL packet id (1 byte) – id of received AVL data packet
+Below table represents Server Response Packet Payload structure. <br>
+{| class="nd-othertables_2" style="width:100%;
-AVL packet id (1 byte) – id of received AVL data packet
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Response to AVL Data Packet
-Number of AVL data elements accepted (1 byte) – number of AVL data array entries from the beginning of array, which were accepted by the server.
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Packet ID
-Scenario:
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Number of Accepted AVL Elements
-Module sends UDP channel packet with encapsulated AVL data packet.
-Server sends UDP channel packet with encapsulated response
-Module validates AVL packet id and Number of accepted AVL elements. If server response with valid AVL packet id is not received within configured timeout, module can retry sending.
-Example:
-Module sends the data:
-{| class="wikitable"
 |-
-! style="background: black; color: white;"|UDP channel header !!style="background: black; color: white;"| AVL packet header !!style="background: black; color: white;"| AVL data array
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 1 byte
 |-
-| Len – 253,
+|} <br>
-Id – 0xCAFE,
-Not usable byte – 00
+*'''Communication with server'''
+Module sends UDP channel packet with encapsulated AVL data packet. Server sends UDP channel packet with encapsulated response module validates AVL Packet ID and Number of accepted AVL elements. If server response with valid AVL Packet ID is not received within configured timeout, module can retry sending. <br>
- || AVL packet id – 0xDD,
+* Example:
-IMEI – 123456789012345
+Module sends the data: <br>
- || CodecId – 08,
+{| class="nd-othertables_2" style="width:100%;
-NumberOfData – 2.
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | UDP Channel Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Packet Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Array
+|-
+| style="vertical-align: middle; text-align: center;" | Length – 0x00FE,
+Packet ID – 0xCAFE <br>
+Not Usable Byte – 0x01
+| style="vertical-align: middle; text-align: center;" | AVL Packet ID – 0xDD,
+IMEI Length – 0x000F <br>
+IMEI – 0x313233343536373839303132333435
+(Encoded using continuous bit stream. Last byte padded to align to byte boundary)
+| style="vertical-align: middle; text-align: center;" | Codec ID – 0x08,
+Number of Data – 0x02 <br>
 (Encoded using continuous bit stream)
+|-
+| style="vertical-align: middle; text-align: center;" | 00FECAFE01
+| style="vertical-align: middle; text-align: center;" | DD000F3133343536373839303132333435
+| style="vertical-align: middle; text-align: center;" | 0802…(data elements)…02
+|-
+|} <br> <br>
+Server must respond with acknowledgment: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | UDP Channel Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Packet Acknowledgment
+|-
+| style="vertical-align: middle; text-align: center;" | Length – 0x0005,
+Packet ID – 0xCAFE,
+Not Usable Byte – 0x01
+| style="vertical-align: middle; text-align: center;" | AVL Packet ID – 0xDD,
+Number of Accepted Data – 0x02
+|-
+| style="vertical-align: middle; text-align: center;" | 0005CAFE01
+| style="vertical-align: middle; text-align: center;" | DD02
+|-
+|}<br> <br>
+*'''Example'''
+Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
+Received data in hexadecimal stream: <br>
+DCAFE0105000F33353230393330383634303336353508010000016B4F815B30010000000000000000000000000000000103021503010101425DBC000001 <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
 |-
-| 00FDCAFE01 || DD000F3133343536373839303132333435 || 0802…(data elements)…02
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
-|}
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | UDP Channel Header
-Server must respond with acknowledgment:
+| style="vertical-align: middle; text-align: center;" | Length
+| style="vertical-align: middle; text-align: center;" | 00 3D
-{| class="wikitable"
+|-
+| style="vertical-align: middle; text-align: center;" | Packet ID
+| style="vertical-align: middle; text-align: center;" | CA FE
+|-
+| style="vertical-align: middle; text-align: center;" | Not usable byte
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | AVL Packet Header
+| style="vertical-align: middle; text-align: center;" | AVL packet ID
+| style="vertical-align: middle; text-align: center;" | 05
+|-
+| style="vertical-align: middle; text-align: center;" | IMEI Length
+| style="vertical-align: middle; text-align: center;" | 00 0F
+|-
+| style="vertical-align: middle; text-align: center;" | IMEI
+| style="vertical-align: middle; text-align: center;" | 33 35 32 30 39 33 30 38 36 34 30 33 36 35 35
+|-
+| rowspan="23" style="vertical-align: middle; text-align: center;" | AVL Data Array
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 08
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B 4F 81 5B 30 (GMT: Thursday, June 13, 2019 6:23:26 AM)
+|-
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 03
+|-
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 02
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 15 (AVL ID: 21, Name: GSM Signal)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 03
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 01 (AVL ID: 1, Name: DIN1)
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 42 (AVL ID: 66, Name: External Voltage)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 5D BC
+|-
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Data 2 (Number of Total Records)
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+|} <br> <br>
+Server response in hexademical stream:
+CAFE010501 <br> <br>
+Parsed:
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Response to AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | Server Response Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | UDP Channel Header
+| style="vertical-align: middle; text-align: center;" | Length
+| style="vertical-align: middle; text-align: center;" | 00 05
+|-
+| style="vertical-align: middle; text-align: center;" | Packet ID
+| style="vertical-align: middle; text-align: center;" | CA FE
+|-
+| style="vertical-align: middle; text-align: center;" | Not usable byte
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-!style="background: black; color: white;"| UDP channel header !!style="background: black; color: white;"| AVL packet acknowledgment
+| rowspan="2" style="vertical-align: middle; text-align: center;" | AVL Packet Acknowledgment
+| style="vertical-align: middle; text-align: center;" | AVL packet ID
+| style="vertical-align: middle; text-align: center;" | 05
 |-
-| Len – 5,
+| style="vertical-align: middle; text-align: center;" | Number of Accepted Data
-Id – 0xABCD,
+| style="vertical-align: middle; text-align: center;" | 01
-Not usable byte – 00
- || AVL packet id – 0xDD,
-NumberOfAcceptedData – 2
 |-
-| 0005ABCD01 || DD02
+|} <br> <br>
-|}
 == '''<big>Codec 8 Extended</big>'''  ==
+*'''<big>Protocols overview</big>'''
+Codec8 Extended is using for FMBXXX family devices. This protocol looks familiar like Codec8 but they have some differences. Main differences between are shown in below table: <br>
-*'''Protocols overview'''
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" |
-Difference between codec8 and codec8 extended
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec8
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec8 Extended
-{| class="wikitable"
 |-
-! style="background: black; color: white;"| !!style="background: black; color: white;"| Codec 8 !!style="background: black; color: white;"| Codec 8 Extended
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0x08
+| style="vertical-align: middle; text-align: center;" | 0x8E
 |-
-| Codec ID || 0x08 || 0x8E
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| AVL Data IO element length || 1 Byte || 2 Bytes
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element total IO count length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| AVL Data IO element total IO count length || 1 Byte || 2 Bytes
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element IO count length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| AVL Data IO element IO count length || 1 Byte || 2 Bytes
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element AVL ID length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| AVL Data IO element AVL ID length || 1 Byte || 2 Bytes
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Variable size IO elements
+| style="vertical-align: middle; text-align: center;" | Does not include
+| style="vertical-align: middle; text-align: center;" | Includes variable size elements
 |-
-| Variable size IO elements || Does not include || Includes variable size elements
+|} <br> <br>
-|}
-<small>Table 2. Codec 8 and 8 Extended differences
-</small>
-Main differences between are shown in above table. AVL data element sizes in codec 8 extended protocol were increased to 2 bytes length and new variable type added. For more detailed description look in codec 8
+*'''<big>Codec 8 Extended protocol sending over TCP</big>'''
-and codec 8 extended chapters.
-*'''Codec 8 extended protocol sending over TCP'''
+*'''AVL data packet'''
-'''AVL data packet'''
+Below table represents AVL data packet structure: <br>
+{| class="nd-othertables_2" style="width:100%;
-Below table represents AVL data packet structure.
+|+
-{| class="wikitable"
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (Preamble)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data Field Length
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec ID
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Number of Data 1
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Number of Data 2
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
 |-
-! style="background: black; color: white;"|4 zeros !! style="background: black; color: white;"|Data field length !! style="background: black; color: white;"|Codec ID !! style="background: black; color: white;"|Number of
+| style="vertical-align: middle; text-align: center;" | 4 bytes
-Data 1
+| style="vertical-align: middle; text-align: center;" | 4 bytes
- !! style="background: black; color: white;"|AVL Data !! style="background: black; color: white;"|Number of
+| style="vertical-align: middle; text-align: center;" | 1 byte
-Data 2
+| style="vertical-align: middle; text-align: center;" | 1 byte
- !! style="background: black; color: white;"|CRC-16
+| style="vertical-align: middle; text-align: center;" | X bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 4 bytes
 |-
-| 4 Bytes || 4 Bytes || 1 Byte || 1 Byte || 38-768
-Bytes
- || 1 Byte || 4 Bytes
 |}
-<small>Table 3. AVL data packet structure</small>
+'''Preamble''' – the packet starts with four zero bytes. <br>
+'''Data Field Length''' – size is calculated starting from Codec ID to Number of Data 2. <br>
+'''Codec ID''' – in Codec8 it is always 0x08. <br>
+'''Number of Data 1''' – a number which defines how many records is in the packet. <br>
+'''AVL Data''' – actual data in the packet (more information below). <br>
+'''Number of Data 2''' – a number which defines how many records is in the packet. This number must be the same as “Number of Data 1”. <br>
+'''CRC-16''' – calculated from Codec ID to the Second Number of Data. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found [[CDT#CRC-16|here]]. <br> <br>
+'''Note:''' for FMB6XY and FM63XY, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 255 bytes. For other devices, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 1280 bytes. <br> <br>
+*AVL Data
-Number of data – number of encoded data (number of records). Codec ID is constant 0x8E.
+Below table represents AVL Data structure: <br>
+{| class="nd-othertables_2" style="width:100%;
-Data field length is the length of bytes [codec id, number of data 2]. Number of data 1 should always be equal to number of data 2 byte.
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Timestamp
-CRC-16 is 4 bytes, but first two are zeroes and last two are CRC-16 calculated for [codec id, number of data
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Priority
-]
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | GPS Element
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | IO Element
-Minimum AVL packet size is 53 bytes (all IO elements disabled).
-*'''AVL Data'''
-{| class="wikitable"
 |-
-!style="background: black; color: white;"| Timestamp !!style="background: black; color: white;"| Timestamp Priority !!style="background: black; color: white;"| GPS Element !!style="background: black; color: white;"| IO Element
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 15 bytes
+| style="vertical-align: middle; text-align: center;" | X bytes
 |-
-| 8 Bytes || 1 Byte || 15 Bytes || 14 - 744
 |}
-<small>Table 4. AVL data structure</small>
+'''Timestamp''' – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time). <br>
+'''Priority''' – field which define AVL data priority (more information below). <br>
+'''GPS Element''' – locational information of the AVL data (more information below). <br>
+'''IO Element''' – additional configurable information from device (more information below). <br> <br>
+*Priority
-*'''Priority'''
+Below table represents Priority values. Packet priority depends on device configuration and records sent. <br>
-{| class="wikitable"
+{| class="nd-othertables_2" style="width:25%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Priority
 |-
-| style="background: black; color: white;"| 0 || Low
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 0
+| style="vertical-align: middle; text-align: center;" | Low
 |-
-| style="background: black; color: white;"| 1 || High
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 1
+| style="vertical-align: middle; text-align: center;" | High
 |-
-| style="background: black; color: white;"| 2 || Panic
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 2
-|}
+| style="vertical-align: middle; text-align: center;" | Panic
-<small>Table 5. Priority element values</small>
+|} <br> <br>
+*GPS element
-*'''GPS Element'''
+Below table represents GPS Element structure: <br>
+{| class="nd-othertables_2" style="width:100%;
-{| class="wikitable"
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Longitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Latitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Altitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Angle
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Satellites
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Speed
 |-
-!style="background: black; color: white;"| Longitude !!style="background: black; color: white;"| Latitude !!style="background: black; color: white;"| Altitude !!style="background: black; color: white;"| Angle !!style="background: black; color: white;"| Satellites !!style="background: black; color: white;"| Speed
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| 4 Bytes || 4 Bytes || 2 Bytes || 2 Bytes || 1 Byte || 2 Bytes
 |}
-<small>Table 6. GPS element structure</small>
+'''Longitude''' – east – west position. <br>
+'''Latitude''' – north – south position. <br>
+'''Altitude''' – meters above sea level. <br>
+'''Angle''' – degrees from north pole. <br>
+'''Satellites''' – number of visible satellites. <br>
+'''Speed''' – speed calculated from satellites. <br> <br>
+'''Note:''' Speed will be 0x0000 if GPS data is invalid. <br> <br>
+Longitude and latitude are integer values built from degrees, minutes, seconds and milliseconds by formula: <br>
+[[Image:GPS.png]]
+<br>
+Where: <br>
+d – Degrees; m – Minutes; s – Seconds; ms – Milliseconds; p – Precision (10000000) <br>
+If longitude is in west or latitude in south, multiply result by –1. <br> <br>
+Note: <br>
+To determine if the coordinate is negative, convert it to binary format and check the very first bit. If it is 0, coordinate is positive, if it is 1, coordinate is negative. <br> <br>
+Example: <br>
+Received value: 20 9C CA 80 converted to BIN: 00100000 10011100 11001010 10000000 first bit is 0, which means coordinate is positive converted to DEC: 547146368. For more information see two‘s complement arithmetic. <br> <br>
+*IO Element
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| rowspan="33" style=" width:5%; vertical-align: middle; text-align: left;" |
+| rowspan="33" style=" width:65%; vertical-align: middle; text-align: left;" | '''Event IO ID''' – if data is acquired on event – this field defines which IO property has changed and generated an event. For example, when if Ignition state changed and it generate event, Event IO ID will be 0xEF (AVL ID: 239). If it’s not eventual record – the value is 0. <br>
+'''N''' – a total number of properties coming with record (N = N1 + N2 + N4 + N8). <br>
+'''N1''' – number of properties, which length is 1 byte. <br>
+'''N2''' – number of properties, which length is 2 bytes. <br>
+'''N4''' – number of properties, which length is 4 bytes. <br>
+'''N8''' – number of properties, which length is 8 bytes. <br>
+'''NX''' – a number of properties, which length is defined by length element.
+'''N’th IO ID''' - AVL ID. <br>
+'''N'th Lenght''' - AVL ID value lenght. <br>
+'''N’th IO Value''' - AVL ID value. <br> <br>
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N of Total IO
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1’th IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1’th IO Value
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2 of Two Bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2’th IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2’th IO Value
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4 of Four Bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4’th IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4’th IO Value
+| style="vertical-align: middle; text-align: center;" | 4 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8 of Eight Bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 8 byte
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8’IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8’IO Value
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | NX of X Byte IO
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Length
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | Defined by lenght
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | NX’th IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | NX’th Length
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | NX’th Value
+| style="vertical-align: middle; text-align: center;" | Defined by lenght
+|-
+|} <br> <br>
-*<big>IO Element</big>
+*'''Communication with server'''
+Communication with server is the same as with Codec8 protocol, except in Codec8 Extended protocol Codec ID is 0x8E. <br> <br>
-{| class="wikitable"
+*Example: <br>
+Module connects to server and sends IMEI: <br>
+F333536333037303432343431303133 <br>
+Server accepts the module: <br>
+<br>
+Module sends data packet: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Array
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
 |-
-|style="background: black; color: white;"| Event IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Four Zero Bytes – 0x00000000,
+“AVL Data Array” length – 0x000000FE
+| style="vertical-align: middle; text-align: center;" | Codec ID – 0x8E,
+Number of Data – '''0x02''' <br>
+(Encoded using continuous bit stream. Last byte padded to align to byte boundary)
+| style="vertical-align: middle; text-align: center;" | CRC of “AVL Data Array”
 |-
-|style="background: black; color: white;"| N of Total IO || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 00000000000000FE
+| style="vertical-align: middle; text-align: center;" | 8E'''02'''...(data elements)...'''02'''
+| style="vertical-align: middle; text-align: center;" | 00008612
 |-
-|style="background: black; color: white;"| N1 of One Byte IO || 2 bytes
+|}<br>
+Server acknowledges data reception (2 data elements): '''00000002''' <br> <br>
+*'''Example'''
+Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
+Received data in hexadecimal stream: <br>
+000000000000004A8E010000016B412CEE000100000000000000000000000000000000010005000100010100010011001D00010010015E2C880002000B000000003544C87
+A000E000000001DD7E06A00000100002994 <br> <br>
+Parsed data:
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="4" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-|style="background: black; color: white;"| 1'st IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Data Field Length
+| style="vertical-align: middle; text-align: center;" | 00 00 00 4A
 |-
-|style="background: black; color: white;"| 1'st IO Value || 1 bytes
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 8E
 |-
-|  ||
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-|style="background: black; color: white;"| N1'th IO ID || 2 bytes
+| rowspan="25" style="vertical-align: middle; text-align: center;" | AVL Data
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B 41 2C EE 00 (GMT: Monday, June 10, 2019 11:36:32 AM)
 |-
-|style="background: black; color: white;"| N1'st IO Value || 1 bytes
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-|style="background: black; color: white;"| N2 of Two Byte IO || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-|style="background: black; color: white;"| 1'st IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-|style="background: black; color: white;"| 1'st IO Value || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-|  ||
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-|style="background: black; color: white;"| N2'th IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-|style="background: black; color: white;"| N2'st IO Value || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-|style="background: black; color: white;"| N4 of Four Byte IO || 2 bytes
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 00 01
 |-
-|style="background: black; color: white;"| 1'st IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 00 05
 |-
-|style="background: black; color: white;"| 1'st IO Value || 4 bytes
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 00 01
 |-
-|  ||
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 01 (AVL ID: 1, Name: DIN1)
 |-
-|style="background: black; color: white;"| N4'th IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-|style="background: black; color: white;"| N4'st IO Value || 4 bytes
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00 01
 |-
-|style="background: black; color: white;"| N2 of Eight Byte IO || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 11 (AVL ID: 17, Name: Axis X)
 |-
-|style="background: black; color: white;"| 1'st IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 1D
 |-
-|style="background: black; color: white;"| 1'st IO Value || 8 bytes
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00 01
 |-
-|  ||
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 10 (AVL ID: 16, Name: Total Odometer)
 |-
-|style="background: black; color: white;"| N8'th IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 01 5E 2C 88
 |-
-|style="background: black; color: white;"| N8'st IO Value || 8 bytes
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00 02
 |-
-|style="background: black; color: white;"| NX of X Byte IO || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0B (AVL ID: 11, Name: ICCID1)
 |-
-|style="background: black; color: white;"| 1'st IO ID || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00 35 44 C8 7A
 |-
-|style="background: black; color: white;"| 1'st IO Length || 2 bytes
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0E (AVL ID: 14, Name: ICCID2)
 |-
-|style="background: black; color: white;"| 1'st IO Value || defined by length
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00 1D D7 E0 6A
 |-
-| ||
+| style="vertical-align: middle; text-align: center;" | NX of X Byte IO
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-|style="background: black; color: white;"| NX'st IO ID || 2 bytes
+| rowspan="2" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Number of Data 2 (Number of Total Records)
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-|style="background: black; color: white;"| NX'st IO Length || 2 bytes
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 29 94
 |-
-|style="background: black; color: white;"| NX'st IO Value  || defined by length
+|} <br>
-|}
+Server response: 00000001 <br> <br>
-<small>Table 7. IO element structure</small>
-N - total number of properties coming with record (N=N1+N2+N4+N8+NX)
+*'''<big>Codec8 Extended protocol sending over UDP</big>'''
-N1 - number of properties, which length is 1 byte
-N2 - number of properties, which length is 2 bytes
-N4 - number of properties, which length is 4 bytes
-N8 - number of properties, which length is 8 bytes
-NX - number of properties, which length is defined by length element
+*'''UDP channel protocol'''
+AVL data packet is the same as with Codec8, except Codec ID is changed to 0x8E. <br> <br>
 *'''Communication with server'''
+Module sends UDP channel packet with encapsulated AVL data packet. Server sends UDP channel packet with encapsulated response module validates AVL Packet ID and Number of accepted AVL elements. If server response with valid AVL Packet ID is not received within configured timeout, module can retry sending. <br>
-Communication  with  server  is   the  same  as  with  codec  8  protocol,  except  in  codec8  extended  protocol codec id is 0x8E.
+* Example:
+Module sends the data: <br>
+{| class="nd-othertables_2" style="width:100%;
-Example:
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | UDP Channel Header
-Module connects to server and sends IMEI:
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Packet Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Array
-f333536333037303432343431303133
+|-
+| style="vertical-align: middle; text-align: center;" | Length – 0x00FE,
-Server accepts the module:
+Packet ID – 0xCAFE <br>
+Not Usable Byte – 0x01
+| style="vertical-align: middle; text-align: center;" | AVL Packet ID – 0xDD,
+IMEI Length – 0x000F <br>
+IMEI – 0x313233343536373839303132333435
-Module sends data packet
+(Encoded using continuous bit stream. Last byte padded to align to byte boundary)
-{| class="wikitable"
+| style="vertical-align: middle; text-align: center;" | Codec ID – 0x8E,
+Number of Data – 0x02 <br>
+(Encoded using continuous bit stream)
+|-
+| style="vertical-align: middle; text-align: center;" | 00FECAFE01
+| style="vertical-align: middle; text-align: center;" | DD000F3133343536373839303132333435
+| style="vertical-align: middle; text-align: center;" | 0802…(data elements)…02
+|-
+|} <br>
+Server must respond with acknowledgment: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | UDP Channel Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Packet Acknowledgment
 |-
-!style="background: black; color: white;"| AVL data packet header !!style="background: black; color: white;"| AVL data array !!style="background: black; color: white;"| CRC
+| style="vertical-align: middle; text-align: center;" | Length – 0x0005,
+Packet ID – 0xCAFE,
+Not Usable Byte – 0x01
+| style="vertical-align: middle; text-align: center;" | AVL Packet ID – 0xDD,
+Number of Accepted Data – 0x02
 |-
-| Four zero bytes,
+| style="vertical-align: middle; text-align: center;" | 0005CAFE01
-‘AVL data array’ length – 254
+| style="vertical-align: middle; text-align: center;" | DD02
- || Codec Id – 8E, NumberOfData – 02.
-(Encoded using continuous bit stream.
-Last byte padded to align to byte boundary)
- || CRC of ‘AVL data array’
 |-
-| 00000000000000FE || 8E02...(data elements)...02 || 00008612
+|} <br> <br>
-|}
-<small>Table 8. IO element structure
-</small>
-Server acknowledges data reception (2 data elements):
-00000002
 *'''Example'''
+Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
+Received data in hexadecimal stream: <br>
+FCAFE0107000F3335323039333038363430333635358E010000016B4F831C680100000000000000000000000000000000010005000100010100010011009D000100
+E2C880002000B000000003544C87A000E000000001DD7E06A000001 <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | UDP Channel Header
+| style="vertical-align: middle; text-align: center;" | Length
+| style="vertical-align: middle; text-align: center;" | 00 5F
+|-
+| style="vertical-align: middle; text-align: center;" | Packet ID
+| style="vertical-align: middle; text-align: center;" | CA FE
+|-
+| style="vertical-align: middle; text-align: center;" | Not usable byte
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | AVL Packet Header
+| style="vertical-align: middle; text-align: center;" | AVL packet ID
+| style="vertical-align: middle; text-align: center;" | 05
+|-
+| style="vertical-align: middle; text-align: center;" | IMEI Length
+| style="vertical-align: middle; text-align: center;" | 00 0F
+|-
+| style="vertical-align: middle; text-align: center;" | IMEI
+| style="vertical-align: middle; text-align: center;" | 33 35 32 30 39 33 30 38 36 34 30 33 36 35 35
+|-
+| rowspan="27" style="vertical-align: middle; text-align: center;" | AVL Data Array
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 8E
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B 4F 83 1C 68 (GMT: Thursday, June 13, 2019 6:25:21 AM)
+|-
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 00 01
+|-
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 00 05
+|-
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 00 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 01 (AVL ID: 1, Name: DIN1)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 01
+|-
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 11 (AVL ID: 17, Name: Axis X)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 1D
+|-
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00 01
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 10 (AVL ID: 16, Name: Total Odometer)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 01 5E 2C 88
+|-
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00 02
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0B (AVL ID: 11, Name: ICCID1)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00 35 44 C8 7A
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0E (AVL ID: 14, Name: ICCID2)
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00 1D D7 E0 6A
+|-
+| style="vertical-align: middle; text-align: center;" | NX of X Byte IO
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+|} <br> <br>
+Server response in hexademical stream:
+CAFE010700 <br> <br>
+Parsed:
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Response to AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | Server Response Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | UDP Channel Header
+| style="vertical-align: middle; text-align: center;" | Length
+| style="vertical-align: middle; text-align: center;" | 00 05
+|-
+| style="vertical-align: middle; text-align: center;" | Packet ID
+| style="vertical-align: middle; text-align: center;" | CA FE
+|-
+| style="vertical-align: middle; text-align: center;" | Not usable byte
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| rowspan="2" style="vertical-align: middle; text-align: center;" | AVL Packet Acknowledgment
+| style="vertical-align: middle; text-align: center;" | AVL packet ID
+| style="vertical-align: middle; text-align: center;" | 07
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Accepted Data
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+|} <br> <br>
-Received data:
+== '''<big>Codec 16</big>''' ==
+*'''<big>Protocol overview</big>'''
+Codec16 is using for FMB630/FM63XY devices. This protocol looks familiar like Codec8 but they have some differences. Main differences between are shown in table below: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" |
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec8
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec16
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0x08
+| style="vertical-align: middle; text-align: center;" | 0x10
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element ID event length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element AVL ID length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Generation Type
+| style="vertical-align: middle; text-align: center;" | Not Using
+| style="vertical-align: middle; text-align: center;" | Is Using
+|-
+|} <br> <br>
+'''Note:''' Codec16 is supported from firmware – 00.03.xx and newer. (FMB630/FM63XY) || AVL ID‘s which are higher than 255 will can be used only in Codec 16 protocol. <br> <br>
+*'''<big>Codec 16 protocol sending over TCP</big>'''
-<span style="background-color: #A4A4A4">00000000</span><span style="background-color: #58ACFA">0000005F</span><span style="background-color: #04B431">8E</span><span style="background-color: #FF0000">01</span><span style="background-color: #8000FF">0000015FBA40B620</span><span style="background-color: #81BEF7">00</span><span style="background-color: #F4FA58">0F0DCDE4</span><span style="background-color: #FF8000">20959D30</span><span style="background-color: #3ADF00">008A</span><span style="background-color: #21610B">0000</span>060000<span style="background-color: #58ACFA">0000</span><span style="background-color: #0404B4">0006</span><span style="background-color: #DF7401">0001</span>00EF0
-<span style="background-color: #DF7401">0001</span>0011001E<span style="background-color: #DF7401">0001</span>00100000CBDF<span style="background-color: #DF7401">0002</span>000B000000003544C875000E0000000029BFE4D1<span style="background-color: #DF7401">0001</span>01000011
-0000000000000000000000000000000000<span style="background-color: #FF0000">01</span><span style="background-color: #F781F3">0000D153</span>
-<span style="background-color: #A4A4A4">00000000</span> 4 zeros, 4 bytes
-<span style="background-color: #58ACFA">0000005F</span> data length, 4 bytes
-<span style="background-color: #04B431">8E</span> – Codec ID
-<span style="background-color: #FF0000">01</span>- Number of Data (1 record)
-’st record data
-<span style="background-color: #8000FF">0000015FBA40B620</span> – Timestamp in milliseconds (1510658324000)
-GMT: Tuesday, November 14, 2017 11:18:44 AM
-<span style="background-color: #81BEF7">00</span> – Priority
-'''GPS Element'''
-<span style="background-color: #F4FA58">0F0DCDE4</span>                       – Longitude 252562916 = 25, 2562916º N
-<span style="background-color: #FF8000">20959D30</span>                        – Latitude 546676016 = 54,6676016 º E
-<span style="background-color: #3ADF00">008A</span>       – Altitude 138 meters
-<span style="background-color: #21610B">0000</span>       – Angle 0º
-                                     – 6 Visible satellites
-       – 0 km/h speed
-IO Element
-<span style="background-color: #58ACFA">0000</span>  – IO element ID of Event generated (in this case when 0000 – data generated not on event)
-<span style="background-color: #0404B4">0006</span>  – 6 IO elements in record (total)
-<span style="background-color: #DF7401">0001</span> – 1 IO elements, which length is 1 Byte
-EF             – IO element ID = 239 (dec)
-                 – IO element’s value
-<span style="background-color: #DF7401">0001</span> – 1 IO elements, which length is 2 Byte
-             – IO element ID = 17 (dec )
-E             – IO element’s value
-<span style="background-color: #DF7401">0001</span> – 1 IO elements, which length is 4 Byte
-             – IO element ID = 16 (dec )
-CBDF   – IO element’s value = 52191 (dec )
-<span style="background-color: #DF7401">0002</span> – 2 IO elements, which length is 2 Byte
-B  – IO element ID = 11 (dec )
-000000003544C875 – IO element’s value
-E  – IO element ID = 14 (dec )
-0000000029BFE4D1  – IO element’s value
-<span style="background-color: #FF0000">01</span>  – Number of Data (1 record)
-<span style="background-color: #F781F3">0000D153</span>  – CRC-16, 4 Bytes (first 2 are always zeros
-'''<big>Codec 8 extended protocol sending over UDP</big>'''
 *'''AVL data packet'''
-AVL data packet is the same as with codec 8, except codec ID is changed to 0x8E.
+Below table represents AVL data packet structure: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
-Example:
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (Preamble)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data Field Length
-Module sends the data:
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec ID
-{| class="wikitable"
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Number of Data 1
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Number of Data 2
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
 |-
-!style="background: black; color: white;"| UDP channel header !!style="background: black; color: white;"| AVL packet header !!style="background: black; color: white;"| AVL data array
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | X bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 4 bytes
 |-
-| Len – 253,
+|}
-Id – 0xCAFE,
+'''Preamble''' – the packet starts with four zero bytes. <br>
+'''Data Field Length''' – size is calculated starting from Codec ID to Number of Data 2. <br>
-Not usable byte – 00
+'''Codec ID''' – in Codec16 it is always 0x10. <br>
+'''Number of Data 1''' – a number which defines how many records is in the packet. <br>
- || AVL packet id – 0xDD,
+'''AVL Data''' – actual data in the packet (more information below). <br>
-IMEI – 1234567890123456
+'''Number of Data 2''' – a number which defines how many records is in the packet. This number must be the same as “Number of Data 1”. <br>
- || Codec Id – 8E, NumberOfData – 02.
+'''CRC-16''' – calculated from Codec ID to the Second Number of Data. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found [[CDT#CRC-16|here]]. <br> <br>
-(Encoded using continuous bit stream
+'''Note:''' for FMB6XY and FM63XY, minimum AVL packet size is 45 bytes (all IO elements disabled). Maximum AVL packet size is 255 bytes. <br> <br>
+*AVL Data
+Below table represents AVL Data structure: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Timestamp
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Priority
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | GPS Element
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | IO Element
+|-
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 15 bytes
+| style="vertical-align: middle; text-align: center;" | X bytes
 |-
-| 00FDCAFE00 || DD000F3133343536373839303132333435 ||8E02…(data elements)…02
 |}
-<small>Table 9. Example packet send to server</small>
+'''Timestamp''' – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time). <br>
+'''Priority''' – field which define AVL data priority (more information below). <br>
+'''GPS Element''' – locational information of the AVL data (more information below). <br>
+'''IO Element''' – additional configurable information from device (more information below). <br> <br>
+*Priority
-Server must respond with acknowledgment:
+Below table represents Priority values. Packet priority depends on device configuration and records sent. <br>
-{| class="wikitable"
+{| class="nd-othertables_2" style="width:25%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Priority
+|-
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 0
+| style="vertical-align: middle; text-align: center;" | Low
 |-
-!style="background: black; color: white;"| UDP channel header!!style="background: black; color: white;"| AVL packet acknowledgment
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 1
+| style="vertical-align: middle; text-align: center;" | High
 |-
-| Len – 5,
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | 2
-Id – 0xCAFE,
+| style="vertical-align: middle; text-align: center;" | Panic
+|} <br> <br>
-Not usable byte – 00
+*GPS element
+Below table represents GPS Element structure: <br>
- || AVL packet id -0xDD
+{| class="nd-othertables_2" style="width:100%;
-Number of Accepted Data -2
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Longitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Latitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Altitude
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Angle
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Satellites
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Speed
+|-
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
 |-
-| 0005CAFE00 || DD02
 |}
-<small>Table 10.  Example packet server response</small>
+'''Longitude''' – east – west position. <br>
+'''Latitude''' – north – south position. <br>
+'''Altitude''' – meters above sea level. <br>
+'''Angle''' – degrees from north pole. <br>
+'''Satellites''' – number of visible satellites. <br>
+'''Speed''' – speed calculated from satellites. <br> <br>
+'''Note:''' Speed will be 0x0000 if GPS data is invalid. <br> <br>
+Longitude and latitude are integer values built from degrees, minutes, seconds and milliseconds by formula: <br>
+[[Image:GPS.png]]
+<br>
+Where: <br>
+d – Degrees; m – Minutes; s – Seconds; ms – Milliseconds; p – Precision (10000000) <br>
+If longitude is in west or latitude in south, multiply result by –1. <br> <br>
+Note: <br>
+To determine if the coordinate is negative, convert it to binary format and check the very first bit. If it is 0, coordinate is positive, if it is 1, coordinate is negative. <br> <br>
+Example: <br>
+Received value: 20 9C CA 80 converted to BIN: 00100000 10011100 11001010 10000000 first bit is 0, which means coordinate is positive converted to DEC: 547146368. For more information see two‘s complement arithmetic. <br> <br>
+*IO Element
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| rowspan="27" style=" width:5%; vertical-align: middle; text-align: left;" |
+| rowspan="27" style=" width:65%; vertical-align: middle; text-align: left;" | '''Event IO ID''' – if data is acquired on event – this field defines which IO property has changed and generated an event. For example, when if Ignition state changed and it generate event, Event IO ID will be 0xEF (AVL ID: 239). If it’s not eventual record – the value is 0. <br>
+'''Generation type''' - data event generation type. More information about it you can find here. <br>
+'''N''' – a total number of properties coming with record (N = N1 + N2 + N4 + N8). <br>
+'''N1''' – number of properties, which length is 1 byte. <br>
+'''N2''' – number of properties, which length is 2 bytes. <br>
+'''N4''' – number of properties, which length is 4 bytes. <br>
+'''N8''' – number of properties, which length is 8 bytes. <br>
+'''N’th IO ID''' - AVL ID. <br>
+'''N’th IO Value''' - AVL ID value. <br> <br>
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | Generation Type
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N of Total IO
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1’th IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N1’th IO Value
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2 of Two Bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2’th IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N2’th IO Value
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4 of Four Bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4’th IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N4’th IO Value
+| style="vertical-align: middle; text-align: center;" | 4 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8 of Eight Bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 8 byte
+|-
+| colspan="2" style="vertical-align: middle; text-align: center;" | ...
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8’IO ID
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:15%; vertical-align: middle; text-align: center;" | N8’IO Value
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+|-
+|} <br> <br>
+*Generation type
+{| class="nd-othertables_2" style="width:30%;
+|+
+! rowspan="1" style="width:50%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Value
+! rowspan="1" style="width:50%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Record Created
+|-
+| style="vertical-align: middle; text-align: center;" | 0
+| style="vertical-align: middle; text-align: center;" | On Exit
+|-
+| style="vertical-align: middle; text-align: center;" | 1
+| style="vertical-align: middle; text-align: center;" | On Entrance
+|-
+| style="vertical-align: middle; text-align: center;" | 2
+| style="vertical-align: middle; text-align: center;" | On Both
+|-
+| style="vertical-align: middle; text-align: center;" | 3
+| style="vertical-align: middle; text-align: center;" | Reserved
+|-
+| style="vertical-align: middle; text-align: center;" | 4
+| style="vertical-align: middle; text-align: center;" | Hysteresis
+|-
+| style="vertical-align: middle; text-align: center;" | 5
+| style="vertical-align: middle; text-align: center;" | On Change
+|-
+| style="vertical-align: middle; text-align: center;" | 6
+| style="vertical-align: middle; text-align: center;" | Eventual
+|-
+| style="vertical-align: middle; text-align: center;" | 7
+| style="vertical-align: middle; text-align: center;" | Periodical
+|-
+|} <br> <br>
-Example
+*'''Communication with server'''
+Communication with server is the same as with Codec8 protocol, except in Codec16 protocol Codec ID is 0x10 and has generation type. <br> <br>
+*Example:
+Module connects to server and sends IMEI: <br>
+F333536333037303432343431303133 <br>
+Server accepts the module: <br>
+<br>
+Module sends data packet: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Array
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
+|-
+| style="vertical-align: middle; text-align: center;" | Four Zero Bytes – 0x00000000,
+“AVL Data Array” length – 0x000000FE
+| style="vertical-align: middle; text-align: center;" | Codec ID – 0x10,
+Number of Data – '''0x02''' <br>
+(Encoded using continuous bit stream. Last byte padded to align to byte boundary)
+| style="vertical-align: middle; text-align: center;" | CRC of “AVL Data Array”
+|-
+| style="vertical-align: middle; text-align: center;" | 00000000000000FE
+| style="vertical-align: middle; text-align: center;" | 10'''02'''...(data elements)...'''02'''
+| style="vertical-align: middle; text-align: center;" | 00008612
+|-
+|} <br>
+Server acknowledges data reception (2 data elements): '''00000002''' <br> <br>
-Server received data:
+*'''Example'''
+Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
-A1CAFE001B000F3335363330373034323434313031338E010000013FEBDD19C8000F0E9FF0209A718000690000120000
+Received data in hexadecimal stream: <br>
+000000000000005F10020000016BDBC7833000000000000000000000000000000000000B05040200010000030002000B00270042563A00000000016BDBC78718
-E09010002000300040016014703F0001504C8000C0900910A00440B004D130044431555440000B5000BB60005422E
+00000000000000000000000000000000000B05040200010000030002000B00260042563A00000200005FB3 <br> <br>
+Parsed data: <br>
-B180000CD0386CE000107C700000000F10000601A460000013C4800000BB84900000BB84A00000BB84C00000000024E
+{| class="nd-othertables_2" style="width:100%;
+|+
-0000000000000000CF000000000000000001
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
+|-
-'''Data length''': 00A1 or 161 Bytes (not counting the first 2 data length bytes)
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
-'''Packet identification''': 0xCAFE 2 bytes
+|-
+| rowspan="4" style="vertical-align: middle; text-align: center;" |
-'''Not usable byte''': 00
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
-'''Packet id''': 1B
+|-
+| style="vertical-align: middle; text-align: center;" | Data Field Length
-'''Imei length''': 000F
+| style="vertical-align: middle; text-align: center;" | 00 00 00 5F
+|-
-'''Actual imei''': 333536333037303432343431303133
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 10
-'''Codec id''': 8E
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
-'''Number of data''': 01
+| style="vertical-align: middle; text-align: center;" | 02
+|-
-'''Timestamp''': 0000013FEBDD19C8
+| rowspan="23" style="vertical-align: middle; text-align: center;" | AVL Data
+(1'st record)
-'''Priority''': 00
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B DB C7 83 30 (GMT: Wednesday, July 10, 2019 12:06:54 PM)
-'''GPS data''':  0F0E9FF0209A718000690000120000
+|-
+| style="vertical-align: middle; text-align: center;" | Priority
-== '''<big>Codec 12</big>''' ==
+| style="vertical-align: middle; text-align: center;" | 01
+|-
-*'''About Codec12'''
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
-Codec12 is original Teltonika protocol for device-server communication over GPRS messages.
+|-
+| style="vertical-align: middle; text-align: center;" | Latitude
-Codec12 GPRS commands can be used for sending configuration, debug, digital outputs control commands or other (special purpose command on special firmware versions).
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
-This protocol is also necessary for using FMB63/FM63/FM5300/FM5500/FM4200 features like: Garmin, LCD communication, COM TCP Link Mode.
+|-
+| style="vertical-align: middle; text-align: center;" | Altitude
-*'''FM firmware requirements'''
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
-Supported GPRS commands on each device depend on firmware version. For available GPRS commands on each device, please refer to Table1 FM firmware requirement “SMS over GPRS” means that all standard SMS commands text can be sent to device via GPRS in Codec12 format.
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
-{| class="wikitable"
+|-
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0B
+|-
+| style="vertical-align: middle; text-align: center;" | Generation Type
+| style="vertical-align: middle; text-align: center;" | 05
+|-
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 04
+|-
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 02
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 01 (AVL ID: 1, Name: DIN1)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 03 (AVL ID: 3, Name: DIN3)
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 02
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0B (AVL ID: 11, Name: ICCID1)
+|-
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 27
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 42 (AVL ID: 66, Name: External Voltage)
+|-
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 56 3A
+|-
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| rowspan="23" style="vertical-align: middle; text-align: center;" | AVL Data
+(2'nd record)
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6B DB C7 87 18 (GMT: Wednesday, July 10, 2019 12:06:55 PM)
+|-
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0B
 |-
-!style="background: black; color: white;"| Device !!style="background: black; color: white;"| SMS over GPRS !!style="background: black; color: white;"| SMS over GPRS via UDP !!style="background: black; color: white;"| Special Codec12 GPRS commands
+| style="vertical-align: middle; text-align: center;" | Generation Type
+| style="vertical-align: middle; text-align: center;" | 05
 |-
-| FM11YX || Available since base firmware 01.11.XX || Since base firmware
+| style="vertical-align: middle; text-align: center;" | N of Total ID
-.26.00
+| style="vertical-align: middle; text-align: center;" | 04
- || Available in FM1100 and FM1110 special firmware version 12.XX.XX*
 |-
-| FM12YX || Available since base firmware 01.03.XX || - || Available in FM12YX special firmware 09.XX.XX*
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 02
 |-
-| FM10YX || Available since base firmware 00.03.XX || - || Available since base firmware 00.06.XX and later versions**
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 01 (AVL ID: 1, Name: DIN1)
 |-
-| FM3400 || Available since base firmware 01.01.XX || - || -
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FM36YX || Available in base firmware || Since base firmware 01.06.01 || -
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 03 (AVL ID: 3, Name: DIN3)
 |-
-| FM5300 || Available in all firmware versions || - || Available in all firmware versions**
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FM5500 || Available in all firmware versions || - || Available in all firmware versions**
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 02
 |-
-| FM2200 || Not available || - || Special firmware version 07.XX.XX*
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 0B (AVL ID: 11, Name: ICCID1)
 |-
-| FM4200 || Not available || - || Special firmware version 42.XX.XX*
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00 26
 |-
-| FM63YX || Available in all firmware versions || Since base firmware 00.02.19 || Available in all firmware versions**
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 42 (AVL ID: 66, Name: External Voltage)
 |-
-| FMB9YX || Available in base firmware || Available in base firmware || -
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 56 3A
 |-
-| FMB0YX || Available in base firmware || Available in base firmware || -
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FMB1YX || Available in base firmware || Available in base firmware || -
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FMB6YX || Available in all firmware versions || Since base firmware 00.02.19 || Available in all firmware versions**
+| rowspan="2" style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Number of Data 2 (Number of Total Records)
+| style="vertical-align: middle; text-align: center;" | 02
 |-
-| FMA1YX || Available in base firmware || Since base firmware 1.26.00 || Available in special firmware version 12.XX.XX*
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 5F B3
 |-
-| FMA2YX || Available in base firmware || Available in base firmware || -
+|} <br>
-|}
+Server response: 00000002 <br> <br>
-<small>Table 1. FM firmware requirement</small>
-'*' - supported special commands are listed on special firmware description. Please contact Your Teltonika sales manager for more details;
+*'''<big>Codec16 Extended protocol sending over UDP</big>'''
+*'''UDP channel protocol'''
+AVL data packet is the same as with Codec8, except Codec ID is changed to 0x10. <br> <br>
-'**' - supported special commands are listed on device user manual, chapter “GPRS Commands”
+*'''Communication with server'''
+Module sends UDP channel packet with encapsulated AVL data packet. Server sends UDP channel packet with encapsulated response module validates AVL Packet ID and Number of accepted AVL elements. If server response with valid AVL Packet ID is not received within configured timeout, module can retry sending. <br>
+* Example:
+Module sends the data: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | UDP Channel Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Packet Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Array
+|-
+| style="vertical-align: middle; text-align: center;" | Length – 0x00FE,
+Packet ID – 0xCAFE <br>
+Not Usable Byte – 0x01
+| style="vertical-align: middle; text-align: center;" | AVL Packet ID – 0xDD,
+IMEI Length – 0x000F <br>
+IMEI – 0x313233343536373839303132333435
+(Encoded using continuous bit stream. Last byte padded to align to byte boundary)
+| style="vertical-align: middle; text-align: center;" | Codec ID – 0x10,
+Number of Data – 0x02 <br>
+(Encoded using continuous bit stream)
+|-
+| style="vertical-align: middle; text-align: center;" | 00FECAFE01
+| style="vertical-align: middle; text-align: center;" | DD000F3133343536373839303132333435
+| style="vertical-align: middle; text-align: center;" | 1002…(data elements)…02
+|-
+|} <br> <br>
+Server must respond with acknowledgment:<br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | UDP Channel Header
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Packet Acknowledgment
+|-
+| style="vertical-align: middle; text-align: center;" | Length – 0x0005,
+Packet ID – 0xCAFE,
+Not Usable Byte – 0x01
+| style="vertical-align: middle; text-align: center;" | AVL Packet ID – 0xDD,
+Number of Accepted Data – 0x02
+|-
+| style="vertical-align: middle; text-align: center;" | 0005CAFE01
+| style="vertical-align: middle; text-align: center;" | DD02
+|-
+|} <br> <br>
+*'''Example'''
-*'''GPRS command session'''
+Hexadecimal stream of AVL Data Packet receiving and response in this example are given in hexadecimal form. The different fields of packet are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
+Received data in hexadecimal stream: <br>
-Following figure shows how GRPS command session is started over TCP.
+BCAFE0101000F33353230393430383532333135393210070000015117E40FE80000000000000000000000000000000000EF05050400010000030000B4000
-[[Image:wq.png|wq.png]]
+EF01010042111A000001 <br> <br>
+Parsed: <br>
-First FM opens GPRS session and sends AVL data to server (refer FM protocols). Once all records are sent and correct sent data array acknowledgment is received by FM then GPRS commands in Hex can be sent to FM.
+{| class="nd-othertables_2" style="width:100%;
+|+
-The ACK (acknowledge of IMEI from server) is a one byte constant 0x01. The acknowledgement of each data array send from FMXXXX is four bytes integer – number of records received.
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | AVL Data Packet
+|-
-Note, that GPRS session should remain active between FM and server, while GPRS commands are sent. For this reason active datalink timeout (global parameters in FMXXXX configuration) is recommended to be set to 259200 (maximum value).
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | AVL Data Packet Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
-*'''General Codec12 message structure'''
+| rowspan="3" style="vertical-align: middle; text-align: center;" | UDP Channel Header
+| style="vertical-align: middle; text-align: center;" | Length
-The following diagram shows basic structure of Codec 12 messages.
+| style="vertical-align: middle; text-align: center;" | 01 5B
+|-
+| style="vertical-align: middle; text-align: center;" | Packet ID
-Command message structure
+| style="vertical-align: middle; text-align: center;" | CA FE
-{| class="wikitable"
+|-
+| style="vertical-align: middle; text-align: center;" | Not usable byte
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | AVL Packet Header
+| style="vertical-align: middle; text-align: center;" | AVL packet ID
+| style="vertical-align: middle; text-align: center;" | 07
+|-
+| style="vertical-align: middle; text-align: center;" | IMEI Length
+| style="vertical-align: middle; text-align: center;" | 00 0F
+|-
+| style="vertical-align: middle; text-align: center;" | IMEI
+| style="vertical-align: middle; text-align: center;" | 33 35 32 30 39 34 30 38 35 32 33 31 35 39 32
+|-
+| rowspan="28" style="vertical-align: middle; text-align: center;" | AVL Data Array
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 10
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Data 1 (Records)
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 51 17 E4 0F E8 (GMT: Wednesday, November 18, 2015 12:00:01 AM)
+|-
+| style="vertical-align: middle; text-align: center;" | Priority
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Altitude
+| style="vertical-align: middle; text-align: center;" | 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Angle
+| style="vertical-align: middle; text-align: center;" | 00 00
 |-
-! 0x00000000 !! Data size !! 0x0C !! Command quantity !! 0x05 !! Command size !! Command !! <CR><LF> !! Command quantity !! CRC
+| style="vertical-align: middle; text-align: center;" | Satellites
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| 4 bytes || 4 bytes || 1 byte || 1 byte || 1 byte || 4 bytes || X bytes || 0D0A || 1 byte || 4 bytes
+| style="vertical-align: middle; text-align: center;" | Speed
-|}
+| style="vertical-align: middle; text-align: center;" | 00 00
-Response message structure
-{| class="wikitable"
 |-
-! 0x00000000 !! Data size !! 0x0C !! Command quantity !! 0x06 !! Command size !! Command !! Command quantity !! CRC
+| style="vertical-align: middle; text-align: center;" | Event IO ID
+| style="vertical-align: middle; text-align: center;" | 00 EF
 |-
-| 4 bytes || 4 bytes || 1 byte || 1 byte || 1 byte || 4 bytes || X bytes || 1 byte || 4 bytes
+| style="vertical-align: middle; text-align: center;" | Generation type
-|}
+| style="vertical-align: middle; text-align: center;" | 05
-Structure explanation:
-The message starts with preamble field - four zero bytes. Then goes four bytes data size field (size is calculated from 0x0C field to the second command or response quantity field). Then follows one byte Codec ID field (in Codec 12 it is always 0x0C). Then goes command or response quantity field (it is ignored when parsing the message). After that goes one byte message type field. It can be 0x05 to denote command or 0x06 to denote response. Then follows four bytes command or response size field. After it follows the command or response field itself.  After that goes the second command or response quantity field. At the end there’s four bytes CRC field.
-Note that difference between commands and responses is message type field: 0x05 means command and 0x06 means response.
-The algorithm to calculate CRC is CRC-16 (also known as CRC-16-IBM). All the fields from codec ID to second command/response quantity field are used to calculate CRC. The algorithm of how to calculate
-CRC is shown in Figure 3 CRC calculation algorithm.
-[[Image:qqq.png|qqq.png]]
-<small>Figure 3 CRC calculation algorithm</small>
-*'''Command coding table'''
-Command has to be convert from ASCII characters (char) to hexadecimal (Hex)
-Table 2 ASCII conversion table
-[[Image:asa.png|asa.png]]
-*'''Command parsing example'''
-Hexadecimal stream of command and answer in this example are given in hexadecimal form. The different fields of message are highlighted in gray and yellow for better readability and command is converted in ASCII for better understanding.
-'''Server command'''
-Hexadecimal stream:
-[[Image:sx.png|sx.png]]
-Parsed:
-Preamble: 0x00000000
-Packet Length: 0x00000018
-Codec: 0x0C
-Quantity of commands: 0x01
-Command type: 0x05
-Command size: 0x00000010
-Command in ASCII after conversion: #GET DATAORDER<CR><LF>
-Quantity of commands: 0x01
-CRC: 0x00004990
-'''Device answer'''
-Hexadecimal stream:
-[[Image:sds.png|sds.png]]
-Parsed:
-Preamble: 0x00000000
-Packet Length: 0x00000016
-Codec: 0x0C
-Quantity of commands: 0x01
-Command type: 0x06
-Command size: 0x0000000E
-Command response is in ASCII after conversion: #DATAORDER=1<CR><LF>
-Quantity of commands: 0x01
-CRC: 0x00000095
-*'''Codec12 GPRS commands examples'''
-The example commands given in hexadecimal form separated by dollar signs are suitable to be sent from TCP server during data exchange session between FMXXXX device and server (for more details see Figure 1 Command session) The command can be sent from a terminal program such as Hercules (in TCP server mode). Simply write command as explained below into Hercules Send field and click Send button. The TCP server must be listening on specified port (see field Port and button Listen in Figure 4).
-[[Image:he.png|he.png]]
-<small>Figure 4 Hercules terminal GUI</small>
-*'''SMS over GPRS in Codec12 examples'''
-In case of sending SMS commands over GPRS, do not use SMS logins set during configuration or do not leave empty spaces before command. Devices and firmware versions that support SMS over GPRS are listed in Table1.
-'''Example 1: getinfo'''
-Sending “getinfo” SMS command via GPRS Codec12:
-Server requests:
-Hexadecimal stream:
-00000000000000110C010500000009676574696E666F0D0A010000DA7E
-Parsed:
-Zero:  0x00000000
-Packet Length:  0x00000011
-Codec:  0x0C
-Quantity of commands:  0x01
-Command type:  0x05
-Command size:  0x00000009
-Command:  0x676574696e666f  (HEX of getinfo)
-Command end symbol: 0x0D0A
-Quantity of commands:  01
-CRC:  0x0000DA7E
-'''Device response:'''
-Hexadecimal stream:
-00000000000000820C01060000007A494E493A323031312F312F3120303A30205254433A323031312F312F3120373A3333205253543A33204552523A302053523A3134372042523A302043463A312046473A3020464C3A302055543A3020534D533A30204E4F4750533A303A3134204750533A32205341543A302052533A36204D443A302052463A30010000B8AA
-Parsed:
-Zero:  0x00000000
-Packet Length: 0x00000082
-Codec:  0C
-Quantity of commands:  01
-Command type:  06
-Command size:  0x0000007A
-Command response in ASCII after conversion: INI:2011/1/1 0:0 RTC:2011/1/1 7:33 RST:3 ERR:0 SR:147 BR:0 CF:1 FG:0 FL:0 UT:0 SMS:0 NOGPS:0:14 GPS:2 SAT:0
-RS:6 MD:0 RF:0 (without <CR><LF>)
-Quantity of commands:  01
-CRC:  0x0000B8AA
-'''Example 2: getio'''
-Sending “getio” SMS command via GPRS Codec12:
-Server request:
-Hexadecimal stream:
-000000000000000F0C010500000007676574696F0D0A0100003349
-Parsed:
-Zero:  0x00000000
-Packet Length:  0x0000000F
-Codec:  0x0C
-Quantity of commands:  0x01
-Command type:  0x05
-Command size: 0x00000007
-Command:  0x676574696f  (HEX of getio)
-Command end symbol: 0x0D0A
-Quantity of commands:  01
-CRC: 00003349
-'''Device response:'''
-Hexadecimal stream:
-000000000000002C0C0106000000244449313A30204449323A30204449333A302041494E3A323420444F313A3020444F323A30010000F925
-Parsed:
-Zero:  0x00000000
-Packet Length: 0x0000002C
-Codec:  0C
-Quantity of commands:  01
-Command type:  06
-Command size:  0x00000024
-Command response in ASCII after conversion: DI1:0 DI2:0 DI3:0 AIN:24 DO1:0 DO2:0 (without <CR><LF>)
-Quantity of commands:  01
-CRC:  0x0000F925
-*'''Special Codec12 commands:'''
-'''Example 1: #GET VERSION'''
-Server command - #GET VERSION<CR><LF>
-Device response - #VERSION=XXXXXXXX<CR><LF>
-XXXXXXXX – Device Firmware Version (up to 8 characters)
-$00$00$00$00$00$00$00$16$0C$01$05$00$00$00$0E$23$47$45$54$20$56$45$52$53$49$4f$4e$0D$0A$01$00$00$D0$C8
-'''Example 2: #GET NETWORK'''
-Server command - #GET NETWORK<CR><LF>
-Device response -  #NETWORK=XXXXXX<CR><LF>
-XXXXXX – GSM Operator Network [0 - 999999]
-$00$00$00$00$00$00$00$16$0C$01$05$00$00$00$0E$23$47$45$54$20$4e$45$54$57$4f$52$4b$0D$0A$01$00$00$ED$61
-== '''<big>Codec 13</big>''' ==
-*'''About Codec13'''
-Codec13 is original Teltonika protocol for device-server communication over GPRS messages. This protocol is necessary for using following FM features:  COM TCP Link Mode (binary/ASCII/binary buffered/ASCII buffered) if message timestamp parameter is enabled in device configuration. Codec13 messages are one way only (Codec 13 is used for FM->Server sending).
-*'''FM firmware requirements'''
-Codec13 availability depends on device and firmware version.
-{| class="wikitable"
 |-
-!style="background: black; color: white;"| Device !!style="background: black; color: white;"| Availability
+| style="vertical-align: middle; text-align: center;" | N of Total ID
+| style="vertical-align: middle; text-align: center;" | 05
 |-
-| FM11YX || Available since base firmware 01.18.XX
+| style="vertical-align: middle; text-align: center;" | N1 of One Byte IO
+| style="vertical-align: middle; text-align: center;" | 04
 |-
-| FM12YX || Not available
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 00 01 (AVL ID: 1, Name: DIN1)
 |-
-| FM10YX || Not available
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FM3400 || Not available
+| style="vertical-align: middle; text-align: center;" | 2’nd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 03 (AVL ID: 3, Name: DIN3)
 |-
-| FM5300 || Not available
+| style="vertical-align: middle; text-align: center;" | 2’nd IO Value
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FM5500 || Not available
+| style="vertical-align: middle; text-align: center;" | 3’rd IO ID
+| style="vertical-align: middle; text-align: center;" | 00 B4 (AVL ID: 180, Name: DOUT2)
 |-
-| FM2200 || Not available
+| style="vertical-align: middle; text-align: center;" | 3’rd IO Value
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FM4200 || Not available
+| style="vertical-align: middle; text-align: center;" | 4’th IO ID
+| style="vertical-align: middle; text-align: center;" | 00 EF (AVL ID: 239, Name: Ignition)
 |-
-| FM6320 || Available in base
+| style="vertical-align: middle; text-align: center;" | 4’th IO Value
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| FMAXX || Not available
+| style="vertical-align: middle; text-align: center;" | N2 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| FMBXX || Available in base
+| style="vertical-align: middle; text-align: center;" | 1’st IO ID
+| style="vertical-align: middle; text-align: center;" | 42 (AVL ID: 66, Name: External Voltage)
 |-
-| FMB630 || Available in base
+| style="vertical-align: middle; text-align: center;" | 1’st IO Value
-|}
+| style="vertical-align: middle; text-align: center;" | 11 1A
-<small>Table 1. FM firmware requirements</small>
-*'''GPRS command session'''
-Following figure shows how GRPS command session is started over TCP.
-[[Image:fd.png]]
-<small>Figure 1. Command session</small>
-First FM opens GPRS session and sends AVL data to server (refer FM protocols).
-After all records are sent and correct sent data array acknowledgment is received by FM, it will begin TCP link mode message sending.
-TCP Link mode messages do not require ACK.
-*'''General Codec13 message structure'''
-The following diagram shows basic structure of Codec 13 messages.
-{| class="wikitable"
 |-
-! 0x00000000 !! Data size !! 0x0D !!style="background: yellow; color: red;"| 0x01 !!style="background: black; color: red;"| 0x06 !! Command size !! Timestamp !! Payload !!style="background: yellow; color: red;"| 0x01 !! CRC
+| style="vertical-align: middle; text-align: center;" | N4 of Two Bytes IO
+| style="vertical-align: middle; text-align: center;" | 00
 |-
-| 4 bytes || 4 bytes || 1 byte || 1 byte || 1 byte || 4 bytes || 4 bytes || X bytes || 1 byte || 1 byte
+| style="vertical-align: middle; text-align: center;" | N8 of Two Bytes IO
-|}
+| style="vertical-align: middle; text-align: center;" | 00
-{| class="wikitable"
 |-
-!style="background: black; color: red;"| 0x06||Message type filed - 0x06 = packet FM -> Server
+| style="vertical-align: middle; text-align: center;" | Number of Data 2 (Number of Total Records)
-|}
+| style="vertical-align: middle; text-align: center;" | 01
-{| class="wikitable"
 |-
-!style="background: yellow; color: red;"| 0x01||Ignored bytes
+|} <br> <br>
-|}
+Server response in hexademical stream:
+CAFE010700 <br> <br>
-<small>Figure 2. Structure of Codec 13 messages</small>
-Structure explanation:
-*'''Preamble field''' - four zero bytes.
-*'''Data size field''' (size is calculated from:
-<small>CID(0x0D = 1 byte)
-NOD(0x01 = 1 byte)
-CMD_TYPE(0x06 = 1 byte)
-CMD_SIZE(variable = 4 bytes, includes size of timestamp field too)
-PAYLOAD(variable size, stored in CMD_SIZE field)
-NOD(0x01 = 1 byte))
-</small>
-*'''Codec ID field''' (in Codec 13 it is always 0x0D).
-*'''NOD field''' (0x01, it is ignored when parsing the message).
-*'''Message type field'''. It is always 0x06 since the packet is direction is FM->Server.
-*'''Command size field'''.  Command size field includes size of timestamp too, so it is equal to size of payload + size of timestamp.
-*'''Timestamp field''' – UNIX timestamp (since 1970/01/01 00:00:00 UTC)
-*'''Payload field''' – actual received data
-*'''NOD field''' (0x01, it is ignored when parsing the message)
-*'''CRC field''' – CRC-16-IBM
-The algorithm to calculate CRC is CRC-16 (also known as CRC-16-IBM). All the fields from codec ID to last NOD field are used to calculate CRC. The algorithm of how to calculate CRC is shown in figure 3.
-'''NOTE''' – Codec13 packets are used only when “Message Timestamp” parameter in RS232 settings is enabled.
-[[Image:111.png|111.png]]
-<small>Figure 3. CRC calculation algorithm</small>
-*'''Command parsing example'''
-The different fields of message are highlighted in gray and yellow for better readability.
-Hexadecimal stream:
-[[Image:22.png|22.png]]
 Parsed:
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Response to AVL Data Packet
+|-
+! rowspan="1" colspan="2" style="width:60%; vertical-align: middle; text-align: center;" | Server Response Part
+! rowspan="1" style="width:40%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| rowspan="3" style="vertical-align: middle; text-align: center;" | UDP Channel Header
+| style="vertical-align: middle; text-align: center;" | Length
+| style="vertical-align: middle; text-align: center;" | 00 05
+|-
+| style="vertical-align: middle; text-align: center;" | Packet ID
+| style="vertical-align: middle; text-align: center;" | CA FE
+|-
+| style="vertical-align: middle; text-align: center;" | Not usable byte
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| rowspan="2" style="vertical-align: middle; text-align: center;" | AVL Packet Acknowledgment
+| style="vertical-align: middle; text-align: center;" | AVL packet ID
+| style="vertical-align: middle; text-align: center;" | 07
+|-
+| style="vertical-align: middle; text-align: center;" | Number of Accepted Data
+| style="vertical-align: middle; text-align: center;" | 00
+|-
+|} <br> <br>
-Preamble: 0x00000000
+== '''<big>Differences between Codec 8, Codec 8 Extended and Codec 16</big>''' ==
+In the table below you will see differences between Codec8, Codec8 Extended and Codec16. <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" |
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec8
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec8 Extended
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec16
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0x08
+| style="vertical-align: middle; text-align: center;" | 0x8E
+| style="vertical-align: middle; text-align: center;" | 0x10
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element total IO count length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Generation Type
+| style="vertical-align: middle; text-align: center;" | Is Using
+| style="vertical-align: middle; text-align: center;" | Not Using
+| style="vertical-align: middle; text-align: center;" | Is Using
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element IO count length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL Data IO element AVL ID length
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+| style="vertical-align: middle; text-align: center;" | 2 bytes
+|-
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Variable size IO elements
+| style="vertical-align: middle; text-align: center;" | Does not include
+| style="vertical-align: middle; text-align: center;" | Includes variable size elements
+| style="vertical-align: middle; text-align: center;" | Does not include
+|-
+|} <br> <br>
-Packet Length: 0x0000001C
+= '''<big>Codec for communication over GPRS messages</big>''' =
+In this chapter you will find information about every Codec protocol which are using for communication over GPRS messages and differences between them. <br> <br>
-Codec: 0x0D
+== '''<big>Codec 12</big>''' ==
-NOD: 0x01
-Command type: 0x06
+*'''<big>About Codec12</big>'''
+Codec12 is original and main Teltonika protocol for device-server communication over GPRS messages. Codec12 GPRS commands can be used for sending configuration, debug, digital outputs control commands or other (special purpose command on special firmware versions). This protocol is also necessary for using FMB630/FM6300/FM5300/FM5500/FM4200 features like: Garmin, LCD communication, COM TCP Link Mode. <br> <br>
-Command size: 0x00000014
+*'''<big>GPRS command session</big>'''
+Following figure shows how GRPS command session is started over TCP. <br>
+[[File:Codec12.png|1150px]]
+First, Teltonika device opens GPRS session and sends AVL data to server (refer device protocols). Once all records are sent and correct sent data array acknowledgment is received by device then GPRS commands in Hex can be sent to device. <br>
+The ACK (acknowledge of IMEI from server) is a one byte constant 0x01. The acknowledgement of each data array send from device is four bytes integer – number of records received. <br>
+Note, that GPRS session should remain active between device and server, while GPRS commands are sent. For this reason, active datalink timeout (global parameters in device configuration) is recommended to be set to 259200 (maximum value). <br> <br>
-Timestamp: 1458119714 – 03/16/2016 @ 9:15am UTC
+*'''<big>General Codec12 message structure</big>'''
+The following diagram shows basic structure of Codec 12 messages. <br> <br>
-Command: #GET DATAORDER<CR><LF>
+'''Command message structure:''' <br>
-NOD: 0x01
-CRC: 0x00004990
-*'''<big>FMB630/FM6320/5300/FM5500 and Codec12 functionality</big>'''
-*'''Garmin'''
-All information is provided in “FMB6 FM6320 FM5300 FM5500 and Garmin development.pdf” document.
-*'''COM TCP Link Mode'''
-All information is provided in “FMB6 FM6320 FM5300 and FM5500 TCP Link mode test instructions.pdf” document.
-== '''<big>Codec 14</big>''' ==
-*'''About Codec14'''
-Codec14 is original Teltonika protocol for device-server communication over GPRS messages and it is based on Codec12 protocol.<br>
-Main difference of Codec14 is that, device will answer to GPRS command if device physical IMEI number matches specified IMEI number in GPRS command.
-Codec14 GPRS commands can be used for sending configuration, debug, digital outputs control commands or other (special purpose command on special firmware versions).
-*'''FMB firmware requirements'''
-Implemented in base firmware from FMB.Ver.03.25.04.Rev.00 and newer.
-*'''General Codec14 message structure'''
-The following diagram shows basic structure of Codec14 messages.
-*'''Command message structure'''
 {| class="nd-othertables_2" style="width:100%;
 |+
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | 0x00000000 (preamble)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (Preamble)
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Data size
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data Size
-! rowspan="1" style="width:6%; vertical-align: middle; text-align: center;" | 0x0E (Codec ID)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec ID
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Command quantity
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command Quantity 1
-! colspan="1" style="width:10%; vertical-align: middle; text-align: center;"| 0x05<br>(Message type)
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Type (0x05)
-! rowspan="1" style="width:14%; vertical-align: middle; text-align: center;" | Command size + IMEI size (8 bytes)
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command Size
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | IMEI (HEX)
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Command
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command Quantity 2
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Command quantity
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | CRC
 |-
 | style="vertical-align: middle; text-align: center;" | 4 bytes
 | style="vertical-align: middle; text-align: center;" | 4 bytes
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
 | style="vertical-align: middle; text-align: center;" | 4 bytes
-| style="vertical-align: middle; text-align: center;" | 8 bytes
 | style="vertical-align: middle; text-align: center;" | X bytes
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
 | style="vertical-align: middle; text-align: center;" | 4 bytes
 |-
-|}
+|} <br> <br>
+'''Response message structure:''' <br>
-*'''Response message structure'''
 {| class="nd-othertables_2" style="width:100%;
 |+
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | 0x00000000 (preamble)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (Preamble)
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Data size
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data Size
-! rowspan="1" style="width:6%; vertical-align: middle; text-align: center;" | 0x0E (Codec ID)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec ID
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Response quantity
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response Quantity 1
-! colspan="1" style="width:10%; vertical-align: middle; text-align: center;"| 0x06 / 0x11 (Message type)
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Type (0x06)
-! rowspan="1" style="width:14%; vertical-align: middle; text-align: center;" | Response size + IMEI size (8 bytes)
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response Size
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | IMEI (HEX)
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Response
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response Quantity 2
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Response quantity
+! rowspan="1" style="width:14%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
-! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | CRC
 |-
 | style="vertical-align: middle; text-align: center;" | 4 bytes
 | style="vertical-align: middle; text-align: center;" | 4 bytes
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
 | style="vertical-align: middle; text-align: center;" | 4 bytes
-| style="vertical-align: middle; text-align: center;" | 8 bytes
 | style="vertical-align: middle; text-align: center;" | X bytes
-| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
 | style="vertical-align: middle; text-align: center;" | 4 bytes
 |-
 |}
+'''Preamble''' - the packet starts with four zero bytes. <br>
+'''Data Size''' - size is calculated from Codec ID field to the second command or response quantity field. <br>
+'''Codec ID''' - in Codec12 it is always 0x0C. <br>
+'''Command/Response Quantity 1''' - it is ignored when parsing the message. <br>
+'''Type''' - it can be 0x05 to denote command or 0x06 to denote response. <br>
+'''Command/Response Size''' – command or response length. <br>
+'''Command/Response''' – command or response in HEX. <br>
+'''Command/Response Quantity 2''' - a byte which defines how many records (commands or responses) is in the packet. This byte will not be parsed but it’s recommended that it should contain same value as Command/Response Quantity 1. <br>
+'''CRC-16''' - calculated from Codec ID to the Command/Response Quantity 2. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found [[Codec_(draft)#CRC-16|here]]. <br> <br>
+Note that difference between commands and responses is message type field: 0x05 means command and 0x06 means response. <br> <br>
+*'''<big>Command coding table</big>'''
+Command has to be converted from ASCII characters (char) to hexadecimal (HEX): <br>
+[[File:ASCII.png]] <br> <br>
-*'''Structure explanation:'''
+*'''<big>Command parsing example</big>'''
+Hexadecimal stream of command and answer in this example are given in hexadecimal form. The different fields of message are seperate into different table columns for better readability and understanding. <br> <br>
-: 1. The message starts with '''preamble field''' - four zero bytes. <br>
+*'''<big>GPRS commands examples</big>'''
-: 2. Then goes four bytes '''data size''' field (size is calculated from 0x0E field to the second command or response quantity field). <br>
+Hexadecimal stream of GPRS command and answer in these examples are given in hexadecimal form. The different fields of messages are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
-: 3. Then follows one byte '''Codec ID field (<span style="color:red">in Codec 14 it is always 0x0E</span>)'''. <br>
+'''1'st example:''' Sending ''getinfo'' SMS command via GPRS Codec12 <br> <br>
-: 4. Then goes '''command or response quantity field.''' Response message will contain same quantity field value as request command quantity 1st byte (quantity byte that’s located before message field type byte). 2nd byte (quantity byte that’s located at the end before CRC) will not be parsed but it’s recommended that it should contain same value as 1st byte. <br>
+Server request in hexadecimal stream: <br>
-: 5. After that goes one byte '''message type field.''' If it’s request command from server it has to contain 0x05. The response type field will contain 0x06 if it’s ACK or 0x11 if it’s nACK. <br>
+000000000000000F0C010500000007676574696E666F0100004312 <br> <br>
-Explanation:  If command message IMEI is equal to actual device IMEI, received command will be executed and response will be sent with ACK (0x06) message type field value.  If command message IMEI doesn’t match actual device IMEI, received command won’t be executed and response to server will be sent with nACK (0x11) message type field value. <br>
+Parsed: <br>
-: 6. Then follows four bytes '''command or response size field.''' (make sure that size is IMEI size 8 + actual command size.) Minimal value is 8 because codec14 always contain IMEI and it’s 8 bytes. <br>
+{| class="nd-othertables_2" style="width:100%;
-: 7. After it follows the '''IMEI'''. IMEI is send as HEX value. Example if device IMEI is 123456789123456 then IMEI data field will contain 0x0123456789123456 value. <br>
+|+
-: 8. After it follows the '''command or response field''' itself.  If message type field is nACK (0x11) this data field will be empty. <br>
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Command
-: 9. After that goes the second '''command or response quantity field.''' <br>
+|-
-: 10. At the end there’s four bytes '''CRC field'''. <br>
+! rowspan="1" style="width:14%; vertical-align: middle; text-align: center;" | Server Command Part
+! rowspan="1" style="width:14%; vertical-align: middle; text-align: center;" | HEX Code Part
-The algorithm to calculate CRC is CRC-16 (also known as CRC-16-IBM). All the fields from codec ID to second command/response quantity field are used to calculate CRC. The algorithm of how to calculate CRC is shown in Figure 3 CRC calculation algorithm.
+|-
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
-CRC is shown in Figure 3 CRC calculation algorithm.
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Data Size
-*'''GPRS in Codec14 examples'''
+| style="vertical-align: middle; text-align: center;" | 00 00 00 0F
+|-
-Sending "''getver''" SMS command via GPRS Codec14:<br>
+| style="vertical-align: middle; text-align: center;" | Codec ID
-'''Server requests:'''<br>
+| style="vertical-align: middle; text-align: center;" | 0C
-Hexadecimal stream:<br>
+|-
-0000000000000016<span style="color:red">'''0E'''</span>01<span style="background-color: lightblue">05</span>0000000E<span style="background-color: lightgreen">0352093081452251</span><span style="background-color: yellow">676574766572</span>010000D2C1<br>
+| style="vertical-align: middle; text-align: center;" | Command Quantity 1
-'''Parsed:'''<br>
+| style="vertical-align: middle; text-align: center;" | 01
-Zero:  0x00000000<br>
+|-
-Packet Length:  0x00000016<br>
+| style="vertical-align: middle; text-align: center;" | Command Type
-Codec:  <span style="color:red">'''0E'''</span><br>
+| style="vertical-align: middle; text-align: center;" | 05
-Quantity of commands:  0x01<br>
-Command type:  0x<span style="background-color: lightblue">05</span><br>
-Command size:  0x0000000E<br>
-IMEI:  0x<span style="background-color: lightgreen">0352093081452251</span> (HEX string)<br>
-Command:  0x<span style="background-color: yellow">676574766572</span> (HEX of '''getver''')<br>
-Quantity of commands:  01<br>
-CRC:  0x0000D2C1<br>
-'''Device ACK response:'''<br>
-Hexadecimal stream: <br>
-00000000000000AB<span style="color:red">'''0E'''</span>01<span style="background-color: lightblue">06</span>000000A3<span style="background-color: lightgreen">0352093081452251</span><span style="background-color: yellow">5665723A30332E31382E3<br>
-F3034204750533A41584E5F352E31305F333333332048773A464D4231323020<br>
-D6F643A313520494D45493A33353230393330383134353232353120496E69743A3<br>
-23031382D31312D323220373A313320557074696D653A3137323334204D41433A3<br>
-63042444430303136323631205350433A312830292041584C3A30204F42443A3020<br>
-C3A312E362042543A34</span>0100007AAE<br>
-'''Parsed:'''<br>
-Zero:  0x00000000  <br>
-Packet Length: 0x000000AB <br>
-Codec:  0x<span style="color:red">'''0E'''</span><br>
-Quantity of commands:  01  <br>
-Command type:  0x<span style="background-color: lightblue">06</span><br>
-Command size:  0x000000A3 <br>
-IMEI:  0x<span style="background-color: lightgreen">0352093081452251</span> <br>
-Command response in ASCII after conversion:<br>
-<span style="background-color: yellow">Ver:03.18.14_04 GPS:AXN_5.10_3333 Hw:FMB120 Mod:15 IMEI:352093081452251 <br>
-Init:2018-11-22 7:13 Uptime:17234 MAC:60BDD0016261 SPC:1(0) AXL:0 OBD:0 BL:1.6 BT:4</span><br>
-Quantity of commands:  01  <br>
-CRC:  0x00007AAE <br>
-'''Device nACK response:'''<br>
-Hexadecimal stream: <br>
-0000000000000010<span style="color:red">'''0E'''</span>01<span style="background-color: lightblue">11</span>00000008<span style="background-color: lightgreen">0352093081452468</span>01000032AC <br>
-'''Parsed:'''
-Zero:  0x00000000  <br>
-Packet Length: 0x00000010 <br>
-Codec:  0x<span style="color:red">'''0E'''</span><br>
-Quantity of commands:  01  <br>
-Command type:  0x<span style="background-color: lightblue">11</span><br>
-Command size:  0x00000008 <br>
-IMEI:  0x<span style="background-color: lightgreen">0352093081452468</span> <br>
-Quantity of commands:  01  <br>
-CRC:  0x000032AC <br>
-== '''<big>Codec 16</big>''' ==
-*'''Description and example'''
-Records to server will be sent as shown in table below.
-The main difference between CODEC8 and CODEC16 is CODEC ID which will be 0x10 instead of 0x08, AVL ID‘s in AVL data is sent in 2  bytes, instead of 1 byte.
-'''Also new parameter – Generation type is added.'''
-By receiving 0x10 codec ID server must know that AVL data record will be parsed different.
-Codec16 is supported from firmware – 00.03.xx and newer. (FMB630/FM63XY)
-ll AVL ID‘s which are higher than 255 will can be used only in CODEC16 protocol.
-<small>Generation type elements:</small>
-{| class="wikitable"
 |-
-!style="background: black; color: white;"| Value !!style="background: black; color: white;"| Record created
+| style="vertical-align: middle; text-align: center;" | Command Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 07
 |-
-| 0 || On exit
+| style="vertical-align: middle; text-align: center;" | Command
+| style="vertical-align: middle; text-align: center;" | 67 65 74 69 6E 66 6F
 |-
-| 1 || On Entrance
+| style="vertical-align: middle; text-align: center;" | Command Quantity 2
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| 2 || On Both
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 43 12
 |-
-| 3 || Reserved
+|} <br>
+Note that Server Command converted from HEX to ASCII means ''getinfo'' <br> <br>
+Device response in hexadecimal stream:  <br>
+00000000000000900C010600000088494E493A323031392F372F323220373A3232205254433A323031392F372F323220373A3533205253543A32204552523A
+312053523A302042523A302043463A302046473A3020464C3A302054553A302F302055543A3020534D533A30204E4F4750533A303A3330204750533A312053
+A302052533A332052463A36352053463A31204D443A30010000C78F <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Device Answer
 |-
-| 4 || Hysterisis
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | Device Answer Part
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | HEX Code Part
 |-
-| 5 || On Change
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| 6 || Eventual
+| style="vertical-align: middle; text-align: center;" | Data Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 90
 |-
-| 7 || Periodical
+| style="vertical-align: middle; text-align: center;" | Codec ID
-|}
+| style="vertical-align: middle; text-align: center;" | 0C
+|-
+| style="vertical-align: middle; text-align: center;" | Response Quantity 1
-<small>Codec16 TCP packet frame:</small>
+| style="vertical-align: middle; text-align: center;" | 01
-{| class="wikitable"
 |-
-! Header !! Data length !! Codec ID !! NOD1 !! AVL DATA !! NOD2 !! CRC16
+| style="vertical-align: middle; text-align: center;" | Response Type
+| style="vertical-align: middle; text-align: center;" | 06
 |-
-| 4 bytes || 4 bytes || 0x10 || 1 byte || Variable || 1 byte || 4 Bytes
+| style="vertical-align: middle; text-align: center;" | Response Size
-|}
+| style="vertical-align: middle; text-align: center;" | 00 00 00 88
-NOD1, NOD2 – number of data (number of packed records)
-Codec ID – constant 0x10.
-Data length – the length of packet from CodecID to  NOD2.
-NOD2 should be equal to NOD1.
-CRC16 is 4 bytes, but first two are zeroes and last two are CRC-16 calculated for CodecID to NOD2.
-Received data:
-[[Image:123.png|123.png]]
-00000000 4 zeros, 4 bytes
-0000009D data length, 4 bytes
-– Codec ID
-- Number of Data (2 records)
-’st record data
-0000013feb55ff74 – Timestamp in milliseconds (1374042849140)
-GMT: Wed, 17 Jul 2013 06:34:09 GMT
-– Priority
-GPS Elements
-f0ea850     – Longitude 252618832 = 25,2618832º N
-a6900     – Latitude 546990336 = 54,6990336 º E
-AE         – Altitude 174 meters
-B9         – Angle 185º
-B         – 11 Visible satellites
-             – 0 km/h speed
-IO Elements
-– IO element ID of Event generated (in this case when 0000 – data generated not on event)
-- Generation type
-A – 10 IO elements in record (total)
-– 5 IO elements, which length is 1 Byte
-     – IO element ID = 01
-     – IO element’s value = 0
-     – IO element ID = 02
-     – IO element’s value = 0
-     – IO element ID = 03
-    – IO element’s value = 0
-     – IO element ID = 04
-    – IO element’s value = 0
-     – IO element ID = 288 (dec)
-    – IO element’s value = 0
-     – 2 IO elements, which value length is 2 Bytes
-     – IO element ID = 24 (dec)
-     – IO element’s value
-     – IO element ID = 70 (dec)
-     – IO element’s value
-– 2 IO elements, which value length is 4 Bytes
-C7         – IO element ID = 199 (dec)
-00000000    – IO element’s value
-         – IO element ID = 70 (dec)
-00000000    – IO element’s value
-– 1 IO elements, which value length is 8 Bytes
-E             – IO element ID = 62 (dec)
-0000000000000000    – IO element’s value
-’st record data
-0000015B198C7498000F0DBC502095872F00AE00B90B00000000070A0500010000020
-00003000004000120000200180000004601290200C700000000004C0000000001003E00000
-00000000000
-– Number of Data (2 records)
-A5 - CRC-16, 4 Bytes (first 2 are always zeros)
-*'''Communication with server'''
-First when module connects to server, module sends its IMEI. First comes short identifying number of bytes written and then goes IMEI as text (bytes).
-For example IMEI 123456789012345 would be sent as 000f333536333037303432343431303133
-First two bytes denote IMEI length. In this case 000F means, that IMEI is 15 bytes long.
-After receiving IMEI, server should determine if it would accept data from this module. If yes server will reply to module 01 if not 00. Note that confirmation should be sent as binary packet. I.e. 1 byte 0x01 or 0x00.
-Then module starts to send first AVL data packet. After server receives packet and parses it, server must report to module number of data received as integer (four bytes).
-If sent data number and reported by server doesn’t match module resends sent data.
-'''Example:'''
-Module connects to server and sends IMEI:
-f333536333037303432343431303133
-Server accepts the module:
-Module sends data packet:
-{| class="wikitable"
 |-
-!style="background: black; color: white;"| Codec type !!style="background: black; color: white;"| AVL data packet header !!style="background: black; color: white;"| AVL data array !!style="background: black; color: white;"| CRC
+| style="vertical-align: middle; text-align: center;" | Response
+| style="vertical-align: middle; text-align: center;" | 49 4E 49 3A 32 30 31 39 2F 37 2F 32 32 20 37 3A 32 32 20 52 54 43 3A 32 30 31 39 2F 37 2F 32 32 20 37 3A 35 33 20 52 53 54 3A 32 20 45 52 52 3A 31 20 53 52 3A 30 20 42 52 3A 30 20 43 46 3A 30 20 46 47 3A 30 20 46 4C 3A 30 20 54 55 3A 30 2F 30 20 55 54 3A 30 20 53 4D 53 3A 30 20 4E 4F 47 50 53 3A 30 3A 33 30 20 47 50 53 3A 31 20 53 41 54 3A 30 20 52 53 3A 33 20 52 46 3A 36 35 20 53 46 3A 31 20 4D 44 3A 30
 |-
-|  || Four zero bytes,
+| style="vertical-align: middle; text-align: center;" | Response Quantity 2
-‘AVL data array’ length – 254
+| style="vertical-align: middle; text-align: center;" | 01
- || CodecId – 08 or codec 16,
-NumberOfData – 2.
-(Encoded using continuous bit stream.
-Last byte padded to align to byte boundary)
- || CRC of ‘AVL data array’
 |-
-| Codec8 || 00000000000000FE || 0802...(data elements)...02 || 00008612
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 C7 8F
 |-
-| Codec16 || 00000000000000FE || 1002...(data elements)...02 || 00008612
+|} <br>
-|}
+Note that Device Response converted from HEX to ASCII means: <br>
+''INI:2019/7/22 7:22 RTC:2019/7/22 7:53 RST:2 ERR:1 SR:0 BR:0 CF:0 FG:0 FL:0 TU:0/0 UT:0 SMS:0 NOGPS:0:30 GPS:1 SAT:0 RS:3 RF:65 SF:1 MD:0'' <br> <br>
-Server acknowledges data reception (2 data elements):
+'''2'nd xample:''' Sending ''getio'' SMS command via GPRS Codec12 <br><br>
+Server request in hexadecimal stream: <br>
-00000002
+000000000000000D0C010500000005676574696F01000000CB <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
-'''<big>Sending data over UDP/IP</big>'''
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Command
-*'''UDP channel protocol'''
-UDP channel is a transport layer protocol above UDP/IP to add reliability to plain UDP/IP using acknowledgment packets. The packet structure is as follows:
-{| class="wikitable "
 |-
-! colspan="4" align="center" style="background: black; color: white;"|UDP datagram
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | Server Command Part
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | HEX Code Part
 |-
-| rowspan="4"| UDP channel packet x N
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
-| Example || 2 bytes || Packet length (excluding this field) in big ending byte order
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| Packet Id || 2 bytes || Packet id unique for this channel
+| style="vertical-align: middle; text-align: center;" | Data Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 0D
 |-
-| Not usable byte || 1 byte || Not usable byte
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0C
 |-
-| Packet payload || m bytes || Data payload
+| style="vertical-align: middle; text-align: center;" | Command Quantity 1
-|}
+| style="vertical-align: middle; text-align: center;" | 01
-{| class="wikitable"
 |-
-! colspan="3" align="center" style="background: black; color: white;"|Not usable byte
+| style="vertical-align: middle; text-align: center;" | Command Type
+| style="vertical-align: middle; text-align: center;" | 05
 |-
-| 1 ||Data packet requiring acknowledgment
+| style="vertical-align: middle; text-align: center;" | Command Size
-|}
+| style="vertical-align: middle; text-align: center;" | 00 00 00 05
-Acknowledgment packet should have the same packet id as acknowledged data packet and empty data payload.
-Acknowledgement should be sent in binary format.
-{| class="wikitable"
 |-
-! colspan="3" align="center" style="background: black; color: white;"|Acknowledgment packet
+| style="vertical-align: middle; text-align: center;" | Command
+| style="vertical-align: middle; text-align: center;" | 67 65 74 69 6F
 |-
-| Packet length || 2 bytes || 0x0003
+| style="vertical-align: middle; text-align: center;" | Command Quantity 2
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| Packet id || 2 bytes || same as in acknowledged packet
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 00 CB
 |-
-| Not usable byte  || 1 byte || 0x00
+|} <br>
-|}
+Note that Server Command converted from HEX to ASCII means ''getio'' <br> <br>
-*'''Sending AVL data using UDP channel'''
+Device response in hexadecimal stream:  <br>
+00000000000000370C01060000002F4449313A31204449323A30204449333A302041494E313A302041494E323A313639323420444F313A3020444F323A3101000066E3 <br> <br>
-AVL data are sent encapsulated in UDP channel packets (Data payload field).
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
-{| class="wikitable"
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Device Answer
+|-
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | Device Answer Part
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | HEX Code Part
 |-
-! colspan="3" align="center" style="background: black; color: white;"|AVL data encapsulated in UDP channel packet
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| AVL packet id (1 byte) || Module IMEI || AVL data array
+| style="vertical-align: middle; text-align: center;" | Data Size
-|}
+| style="vertical-align: middle; text-align: center;" | 00 00 00 37
-AVL packet id (1 byte) – id identifying this AVL packet
-Module IMEI – IMEI of a sending module encoded the same as with TCP
-AVL data array – array of encoded AVL data
-{| class="wikitable"
 |-
-! colspan="3" align="center" style="background: black; color: white;"|Server response to AVL data packet
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0C
 |-
-| AVL packet id (1 byte) ||Number of accepted AVL elements (1 byte)
+| style="vertical-align: middle; text-align: center;" | Response Quantity 1
-|}
+| style="vertical-align: middle; text-align: center;" | 01
-AVL packet id (1 byte) – id of received AVL data packet
-Number of AVL data elements accepted (1 byte) – number of AVL data array entries from the beginning of array, which were accepted by the server
-'''Scenario:'''
-Module sends UDP channel packet with encapsulated AVL data packet.
-Server sends UDP channel packet with encapsulated response
-Module validates AVL packet id and Number of accepted AVL elements. If server response with valid AVL packet id is not received within configured timeout, module can retry sending.
-'''Example'''
-Module sends the data:
-{| class="wikitable"
 |-
-! style="background: black; color: white;"|UDP channel header !!style="background: black; color: white;"| AVL packet header !!style="background: black; color: white;"| AVL data array
+| style="vertical-align: middle; text-align: center;" | Response Type
+| style="vertical-align: middle; text-align: center;" | 06
 |-
-| Len – 253,
+| style="vertical-align: middle; text-align: center;" | Response Size
-Id – 0xCAFE,
+| style="vertical-align: middle; text-align: center;" | 00 00 00 2F
-Not usable byte – 00
- || AVL packet id – 0xDD,
-IMEI – 1234567890123456
- || CodecId – 08,
-NumberOfData – 2.
-(Encoded using continuous bit stream)
 |-
-| 00FDCAFE01 || DD000F3133343536373839303132333435 || 0802…(data elements)…02
+| style="vertical-align: middle; text-align: center;" | Response
-|}
+| style="vertical-align: middle; text-align: center;" | 44 49 31 3A 31 20 44 49 32 3A 30 20 44 49 33 3A 30 20 41 49 4E 31 3A 30 20 41 49 4E 32 3A 31 36 39 32 34 20 44 4F 31 3A 30 20 44 4F 32 3A 31
-Server must respond with acknowledgment:
-{| class="wikitable"
 |-
-!style="background: black; color: white;"| UDP channel header !!style="background: black; color: white;"| AVL packet acknowledgment
+| style="vertical-align: middle; text-align: center;" | Response Quantity 2
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| Len – 5,
+| style="vertical-align: middle; text-align: center;" | CRC-16
-Id – 0xABCD,
+| style="vertical-align: middle; text-align: center;" | 00 00 66 E3
-Not usable byte – 00
- || AVL packet id – 0xDD,
-NumberOfAcceptedData – 2
 |-
-| 0005ABCD01 || DD02
+|} <br>
-|}
+Note that Device Response converted from HEX to ASCII means: <br>
+''DI1:1 DI2:0 DI3:0 AIN1:0 AIN2:16924 DO1:0 DO2:1'' <br> <br>
+*'''<big>Communication with server</big>'''
+The GSM/GPRS commands can be sent from a terminal program. We recommend to use Hercules (in TCP server mode). Simply write command as explained below into Hercules Send field, check HEX box and click Send button. Note that the TCP server must be listening on specified port (see Port field and Listen button below). <br>
-*'''Another example, with all IO id’s enabled'''
+[[File:Hercules.jpeg]]
+<br> <br>
-Server received data:
+*'''<big>FMXX and Codec12 functionality</big>'''
+*'''Garmin'''
+All information is provided in “FMXX and Garmin development.pdf” document. <br> <br>
+*'''COM TCP Link Mode'''
+All information is provided in “FMxx TCP Link mode test instructions.pdf” document. <br> <br>
-[[Image:aaz.png|aaz.png]]
+== '''<big>Codec 13</big>''' ==
-Data length: 00a1 or 161 Bytes (not counting the first 2 data length bytes)
+*'''<big>About Codec13</big>'''
+Codec13 is original Teltonika protocol for device-server communication over GPRS messages and it is based on Codec12 protocol. Main differences of Codec13 are that timestamp is using in messages and communication is one way only (Codec13 is used for Device -> Server sending). <br> <br>
-Packet identification: 0xCAFE 2 bytes
+*'''<big>General Codec13 message structure</big>'''
-Not usable byte : 00
+The following diagram shows basic structure of Codec 13 messages: <br>
+{| class="nd-othertables_2" style="width:100%;
-Packet id: 1b
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (Preamble)
-Imei length: 000f
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data Size
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec ID
-Actual imei: 333536333037303432343431303133
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command Quantity 1
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Type
-Codec id: 08
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command Size
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Timestamp
-Number of data:    01
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command Quantity 2
-Timestamp: 0000013febdd19c8
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
-Priority: 00
-GPS data: 0f0e9ff0209a718000690000120000
-UDP protocol is the same as TCP except message header is 7 bytes, which consist of: data length, packet identification, not usable byte  and packet id.
-Then goes imei length and imei itself.
-And after that goes AVL data.
-And at the very end number of data byte. There is no CRC in UDP.
-*'''Sending data using SMS'''
-AVL data or events can be sent encapsulated in binary SMS. TP-DCS field of these SMS should indicate that message contains 8-bit data (for example: TP-DCS can be 0x04).
-{| class="wikitable"
 |-
-! colspan="3" align="center" style="background: black; color: white;"|SM data (TP-UD)
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+| style="vertical-align: middle; text-align: center;" | X bytes
+| style="vertical-align: middle; text-align: center;" | 1 byte
+| style="vertical-align: middle; text-align: center;" | 4 bytes
 |-
-| AVL data array ||IMEI: 8 bytes
 |}
+'''4 Zeros''' – the packet starts with preamble field (four zero bytes). <br>
+'''Data Size''' – size is calculated from Codec ID field to the second Command Quantity field. <br>
+'''Codec ID''' – in Codec13 it is always 0x0D. <br>
+'''Command Quantity 1''' – 0x01, it is ignored when parsing the message. <br>
+'''Command Type''' – it is always 0x05 since the packet is direction is FM->Server. <br>
+'''Command Size''' – command size field includes size of timestamp too, so it is equal to size of payload + size of timestamp. <br>
+'''Timestamp''' – a difference, in milliseconds, between the current time and midnight, January, 1970 UTC (UNIX time). <br>
+'''Command''' – actual received data. <br>
+'''Command Quantity 2''' – a byte which defines how many records (commands) is in the packet. This byte will not be parsed but it’s recommended that it should contain same value as Command/Response Quantity 1. <br>
+'''CRC-16''' - calculated from Codec ID to Command Quantity 2. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found [[Codec (draft)|here]]. <br> <br>
+'''Note:''' Codec13 packets are used only when “Message Timestamp” parameter in RS232 settings is enabled. <br> <br>
-AVL data array – array of encoded AVL data
+*'''<big>Command parsing example</big>'''
+Hexadecimal stream of GPRS command in this example is given in hexadecimal form. The different fields of message are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
+Sending ''getinfo'' SMS command via GPRS Codec13. <br> <br>
+Hexadecimal stream: <br>
+00000000000000170D01050000000F0000016C0A81C320676574696E666F010000AAD2 <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Command
+|-
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | Server Command Part
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Data Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 17
+|-
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0D
+|-
+| style="vertical-align: middle; text-align: center;" | Command Quantity 1
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Command Type
+| style="vertical-align: middle; text-align: center;" | 05
+|-
+| style="vertical-align: middle; text-align: center;" | Command Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 07
+|-
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | 00 00 01 6C 0A 81 C3 20
+|-
+| style="vertical-align: middle; text-align: center;" | Command
+| style="vertical-align: middle; text-align: center;" | 67 65 74 69 6E 66 6F
+|-
+| style="vertical-align: middle; text-align: center;" | Command Quantity 2
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 AA D2
+|-
+|} <br>
+Note that Server Command converted from HEX to ASCII means ''getinfo'' <br> <br>
-IMEI – IMEI of sending module encoded as a big endian 8-byte long number.
+== '''<big>Codec 14</big>''' ==
+*'''<big>About Codec14</big>'''
+Codec14 is original Teltonika protocol for device-server communication over GPRS messages and it is based on Codec12 protocol. <br>
+Main difference of Codec14 is that, device will answer to GPRS command if device physical IMEI number matches specified IMEI number in GPRS command. <br>
-*'''24 position SMS data protocol'''
+Codec14 GPRS commands can be used for sending configuration, debug, digital outputs control commands or other (special purpose command on special firmware versions). <br> <br>
+*'''<big>FMB firmware requirements</big>'''
+Implemented in base firmware from FMB.Ver.03.25.04.Rev.00 and newer. <br> <br>
--hour SMS is usually sent once every day and contains GPS data of last 24 hours. TP-DCS field of this SMS should indicate that message contains 8-bit data (i.e. TP-DCS can be 0x04).
+*'''<big>General Codec14 message structure</big>'''
+The following diagram shows basic structure of Codec14 messages. <br> <br>
-Note, that 24 position data protocol is used only with subscribed SMS. Event SMS use standard AVL data protocol.
+'''Command message structure'''
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (preamble)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data size
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x0E (Codec ID)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command quantity
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x05<br>(Message type)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command size + IMEI size (8 bytes)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | IMEI (HEX)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Command quantity
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
+|-
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+| style="vertical-align: middle; text-align: center;" | X bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+|-
+|} <br>
+'''Response message structure'''
-'''Encoding'''
+{| class="nd-othertables_2" style="width:100%;
+|+
-To be able to compress 24 GPS data entries into one SMS (140 octets), the data is encoded extensively using bit fields. Data packet can be interpreted as a bit stream, where all bits are numbered as follows:
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x00000000 (preamble)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Data size
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x0E (Codec ID)
-{| class="wikitable"
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response quantity
+! colspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | 0x06 / 0x11 (Message type)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response size + IMEI size (8 bytes)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | IMEI (HEX)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Response quantity
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | CRC-16
 |-
-!style="background: black; color: white;"| Byte 1 !!style="background: black; color: white;"| Byte 2 !!style="background: black; color: white;"| Byte 3 !!style="background: black; color: white;"| Bytes 4-…
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
+| style="vertical-align: middle; text-align: center;" | 8 bytes
+| style="vertical-align: middle; text-align: center;" | X bytes
+| style="vertical-align: middle; text-align: center;" | 1 bytes
+| style="vertical-align: middle; text-align: center;" | 4 bytes
 |-
-| Bits 0-7 || Bits 8-15 || Bits 16-24 || Bits 25-…
 |}
+'''Preamble''' – the packet starts with four zero bytes. <br>
+'''Data Size''' – size is calculated from Codec ID field to the second command or response quantity field. <br>
+'''Codec ID''' – in Codec14 it is always 0x0E. <br>
+'''Command/Response Quantity 1''' – it is ignored when parsing the message. <br>
+'''Type''' – if it is request command from server it has to contain 0x05. The response type field will contain 0x06 if it’s ACK or 0x11 if it’s nACK. <br>
+''Explanation:'' If command message IMEI is equal to actual device IMEI, received command will be executed and response will be sent with ACK (0x06) message type field value. If command message IMEI doesn’t match actual device IMEI, received command won’t be executed and response to server will be sent with nACK (0x11) message type field value. <br>
+'''Command/Response Size''' – command or response length. <br>
+''Note:'' make sure that size is IMEI size 8 + actual command size. Minimal value is 8 because Codec14 always contain IMEI and it’s 8 bytes. <br>
+'''IMEI (HEX)''' – it is send as HEX value. Example if device IMEI is 123456789123456 then IMEI data field will contain 0x0123456789123456 value. <br>
+'''Command/Response''' – command or response in HEX. <br>
+'''Command/Response Quantity 2''' - a byte which defines how many records (commands or responses) is in the packet. This byte will not be parsed but it’s recommended that it should contain same value as Command/Response Quantity 1. <br>
+'''CRC-16''' - calculated from Codec ID to the Command/Response Quantity 2. CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. For calculation we are using CRC-16/IBM. More information about it you can found [[Codec_(draft)#CRC-16|here]]. <br> <br>
-Bits in a byte are numbered starting from least significant bit. A field of 25 bits would consist of bits 0 to 24 where 0 is the least significant bit and bit 24 – most significant bit.
+*'''<big>GPRS in Codec14 examples</big>'''
+Hexadecimal stream of GPRS command and answer in this example are given in hexadecimal form. The different fields of message are seperate into different table columns for better readability and some of them are coverted to ASCII values for better understanding. <br> <br>
+Sending ''getver'' SMS command via GPRS Codec14: <br> <br>
-'''Structure'''
+Server requests in Hexadecimal stream: <br>
+00000000000000160E01050000000E0352093081452251676574766572010000D2C1 <br> <br>
-{| class="wikitable "
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Server Command
+|-
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | Server Command Part
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Data Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 16
+|-
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0E
+|-
+| style="vertical-align: middle; text-align: center;" | Command Quantity 1
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | Command Type
+| style="vertical-align: middle; text-align: center;" | 05
+|-
+| style="vertical-align: middle; text-align: center;" | Command Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 0E
+|-
+| style="vertical-align: middle; text-align: center;" | IMEI
+| style="vertical-align: middle; text-align: center;" | 00 00 00 0E
+|-
+| style="vertical-align: middle; text-align: center;" | Command
+| style="vertical-align: middle; text-align: center;" | 03 52 09 30 81 45 22 51
+|-
+| style="vertical-align: middle; text-align: center;" | Command Quantity 2
+| style="vertical-align: middle; text-align: center;" | 01
+|-
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 D2 C1
+|-
+|} <br>
+Note that Server Command converted from HEX to ASCII means ''getver'' <br> <br>
+Device ACK response in hexadecimal stream: <br>
+00000000000000AB0E0106000000A303520930814522515665723A30332E31382E31345F3034204750533A41584E5F352E31305F333333332048773A464D42313230
+D6F643A313520494D45493A33353230393330383134353232353120496E69743A323031382D31312D323220373A313320557074696D653A3137323334204D4143
+A363042444430303136323631205350433A312830292041584C3A30204F42443A3020424C3A312E362042543A340100007AAE <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Device Answer
+|-
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | Device Answer Part
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | HEX Code Part
+|-
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
+|-
+| style="vertical-align: middle; text-align: center;" | Data Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 37
+|-
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0E
 |-
-! colspan="4" align="center" style="background: black; color: white;"|SMS Data Structure
+| style="vertical-align: middle; text-align: center;" | Response Quantity 1
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| || 8 || Codec ID || Codec ID = 4
+| style="vertical-align: middle; text-align: center;" | Response Type
+| style="vertical-align: middle; text-align: center;" | 06
 |-
-| || 35 || Timestamp || Time corresponding to the first (oldest) GPS data element,
+| style="vertical-align: middle; text-align: center;" | Response Size
+| style="vertical-align: middle; text-align: center;" | 00 00 00 A3
-represented in seconds elapsed from 2000.01.01 00:00 EET.
 |-
-| || 5 || ElementCount || Number of GPS data elements
+| style="vertical-align: middle; text-align: center;" | IMEI
-|}
+| style="vertical-align: middle; text-align: center;" | 03 52 09 30 81 45 22 51
-{| class="wikitable "
 |-
-! colspan="4" align="center" style="background: black; color: white;"|SMS Data Structure
+| style="vertical-align: middle; text-align: center;" | Response
+| style="vertical-align: middle; text-align: center;" | 56 65 72 3A 30 33 2E 31 38 2E 31 34 5F 30 34 20 47 50 53 3A 41 58 4E 5F 35 2E 31 30 5F 33 33 33 33 20 48 77 3A 46 4D 42 31 32 30 20 4D 6F 64 3A 31 35 20 49 4D 45 49 3A 33 35 32 30 39 33 30 38 31 34 35 32 32 35 31 20 49 6E 69 74 3A 32 30 31 38 2D 31 31 2D 32 32 20 37 3A 31 33 20 55 70 74 69 6D 65 3A 31 37 32 33 34 20 4D 41 43 3A 36 30 42 44 44 30 30 31 36 32 36 31 20 53 50 43 3A 31 28 30 29 20 41 58 4C 3A 30 20 4F 42 44 3A 30 20 42 4C 3A 31 2E 36 20 42 54 3A 34
 |-
-|ElementCount * ||  || GPSDataElement || GPS data elements.
+| style="vertical-align: middle; text-align: center;" | Response Quantity 2
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| ||  || Byte-align padding || Padding bits to align to 8-bits boundary
+| style="vertical-align: middle; text-align: center;" | CRC-16
+| style="vertical-align: middle; text-align: center;" | 00 00 7A AE
-represented in seconds elapsed from 2000.01.01 00:00 EET.
 |-
-| || 64 || IMEI || IMEI of sending device as 8-byte long integer
+|} <br>
-|}
+Note that Device Response converted from HEX to ASCII means: <br>
-The time of only the first GPS data element is specified in Timestamp field. Time corresponding to each further element can be computed as elementTime = Timestamp + (1 hour * elementNumber).
+''Ver:03.18.14_04 GPS:AXN_5.10_3333 Hw:FMB120 Mod:15 IMEI:352093081452251
+Init:2018-11-22 7:13 Uptime:17234 MAC:60BDD0016261 SPC:1(0) AXL:0 OBD:0 BL:1.6 BT:4'' <br> <br>
+Device nACK response in hexadecimal stream: <br>
-{| class="wikitable "
+00000000000000100E011100000008035209308145246801000032AC <br> <br>
+Parsed: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Device Answer
 |-
-! colspan="5" align="center" style="background: black; color: white;"|GPS Data Element
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | Device Answer Part
+! rowspan="1" style="width:50%; vertical-align: middle; text-align: center;" | HEX Code Part
 |-
-| ||  || Size (bits) || Field || Description
+| style="vertical-align: middle; text-align: center;" | Zero Bytes
+| style="vertical-align: middle; text-align: center;" | 00 00 00 00
 |-
-| || || 1 || ValidElement || ValidElement=1 – there is a valid Gps Data Element following,
+| style="vertical-align: middle; text-align: center;" | Data Size
-ValidElement=0 – no element at this position
+| style="vertical-align: middle; text-align: center;" | 00 00 00 10
 |-
-| rowspan="8"| ValidElement == 1
+| style="vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0E
 |-
-| || 1 || DifferentialCoords || Format of following data.
+| style="vertical-align: middle; text-align: center;" | Response Quantity 1
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| rowspan="3"| DifferentialCoords == 1
+| style="vertical-align: middle; text-align: center;" | Response Type
+| style="vertical-align: middle; text-align: center;" | 11
 |-
-| 14 || LongitudeDiff || Difference from previous element‘s longitude.
+| style="vertical-align: middle; text-align: center;" | Response Size
-LongitudeDiff = prevLongitude – Longitude + 213 – 1
+| style="vertical-align: middle; text-align: center;" | 00 00 00 08
 |-
-| 14 || LatitudeDiff || Difference from previous element‘s latitude
+| style="vertical-align: middle; text-align: center;" | IMEI
-LatitudeDiff = prevLatitude – Latitude + 213 – 1
+| style="vertical-align: middle; text-align: center;" | 03 52 09 30 81 45 24 68
 |-
-| rowspan="3"| DifferentialCoords == 0
+| style="vertical-align: middle; text-align: center;" | Response Quantity 2
+| style="vertical-align: middle; text-align: center;" | 01
 |-
-| 21 || Longitude || Longitude= {(LongDegMult + 18 * 108) * (221 –
+| style="vertical-align: middle; text-align: center;" | CRC-16
-)} over {36*108}
+| style="vertical-align: middle; text-align: center;" | 00 00 32 AC
 |-
-| 20 || Latitude || Latitude=(LatDegMult + 9*108) * (220 – 1) over
+|} <br> <br>
-{18*108}
-|-
-| || || 8 || Speed || Speed in km/h
-|}
+== '''<big>Differences between Codec 12, Codec 13 and Codec 14</big>''' ==
-Longitude - longitude field value of GPSDataElement
+In the table below you will see differences between Codec12, Codec13 and Codec14. <br>
+{| class="nd-othertables_2" style="width:100%;
-Latitude - latitude field value of GPSDataElement
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" |
-LongDegMult - longitude in degrees multiplied by 107 (integer part)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec12
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec13
-LatDegMult     latitude in degrees multiplied by 107 (integer part)
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Codec14
+|-
-prevLongitude     longitude field value of previous GPSDataElemen
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Communication
+| style="vertical-align: middle; text-align: center;" | Server - Device Communication
-prevLatitude     latitude field value of previous GPSDataElement
+| style="vertical-align: middle; text-align: center;" | One-way (Device -> Server communication)
+| style="vertical-align: middle; text-align: center;" | Server - Device Communication
-*'''Decoding GPS position'''
-When decoding GPS data with DifferentialCoords=1, Latitude and Longitude values can be computed as follows: Longitude=prevLongitude – LongitudeDiff + 213 – 1, Latitude=prevLatitude – LatitudeDiff + 213 – 1.
-If there were no previous non-differential positions, differential coordinates should be computed assuming prevLongitude=prevLatitude=0.
-When Longitude and Latitude values are known, longitude and latitude representation in degrees can be computed as follows:
-[[Image:f11.png|f11.png]]
-*'''SMS Events'''
-When Configured to generate SMS event user will get this SMS upon event
-<Year/Month/Day> <Hour:Minute:Second> P:<profile_nr> <SMS Text> Val:<Event Value> Lon:<longitude> Lat:<latitude> Q:<HDOP>
-Example:
-./04/11 12:00:00 P:3 Digital Input 1 Val:1 Lon:51.12258 Lat: 25.7461 Q:0.6
-{| class="wikitable"
 |-
-| No information available || 0 || Iceland || 1C
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Codec ID
+| style="vertical-align: middle; text-align: center;" | 0x0C
+| style="vertical-align: middle; text-align: center;" | 0x0D
+| style="vertical-align: middle; text-align: center;" | 0x0E
 |-
-| Austria  || 1 || Kazakhstan || 1D
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Response Message Type
+| style="vertical-align: middle; text-align: center;" | 0x06
+| style="vertical-align: middle; text-align: center;" | -
+| style="vertical-align: middle; text-align: center;" | 0x06 (if it is ACK) or 0x11 (if it is nACK)
 |-
-| Albania  || 2 || Luxembourg || 1E
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Command / Response size
+| style="vertical-align: middle; text-align: center;" | Only Command/Response
+| style="vertical-align: middle; text-align: center;" | Only Command
+| style="vertical-align: middle; text-align: center;" | Command/Response + IMEI
 |-
-| Andorra || 3 || Lithuania || 1F
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | Not Using
+| style="vertical-align: middle; text-align: center;" | Is Using
+| style="vertical-align: middle; text-align: center;" | Not Using
 |-
-| Armenia || 4 || Latvia || 20
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | IMEI
+| style="vertical-align: middle; text-align: center;" | Not Using
+| style="vertical-align: middle; text-align: center;" | Not Using
+| style="vertical-align: middle; text-align: center;" | Is Using
 |-
-| Azerbaijan || 5 || Malta  || 21
+|} <br> <br>
+='''<big>24 Position SMS Data Protocol</big>'''=
+-hour SMS is usually sent once every day and contains GPS data of last 24 hours. TP-DCS field of this SMS should indicate that message contains 8-bit data (i.e. TP-DCS can be 0x04). <br>
+Note, that 24 position data protocol is used only with subscribed SMS. Event SMS use standard AVL data protocol. <br> <br>
+*'''<big>Encoding</big>'''
+To be able to compress 24 GPS data entries into one SMS (140 octets), the data is encoded extensively using bit fields. Data packet can be interpreted as a bit stream, where all bits are numbered as follows: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Byte 1
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Byte 2
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Byte 3
+! rowspan="1" style="width:10%; border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | Byte 4 ...
 |-
-| Belgium || 6 || Monaco  || 22
+| style="vertical-align: middle; text-align: center;" | Bits 0 - 7
+| style="vertical-align: middle; text-align: center;" | Bits 8 - 15
+| style="vertical-align: middle; text-align: center;" | Bits 16 - 24
+| style="vertical-align: middle; text-align: center;" | Bits 25 - ...
 |-
-| Bulgaria || 7 || Republic of Moldova || 23
+|} <br>
+Bits in a byte are numbered starting from least significant bit. A field of 25 bits would consist of bits 0 to 24 where 0 is the least significant bit and bit 24 – most significant bit. <br> <br>
+*'''<big>Structure</big>'''
+Below in the tables you will see SMS Data Structure: <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="3" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | SMS Data Structure
 |-
-| Bosnia and Herzegovina || 8 || Macedonia || 24
+| style="width:10%; vertical-align: middle; text-align: center;" | 8
+| style="width:10%; vertical-align: middle; text-align: center;" | Codec ID
+| style="width:10%; vertical-align: middle; text-align: center;" | Codec ID = 4 (0x04)
 |-
-| Belarus  || 9 || Norway || 25
+| style="vertical-align: middle; text-align: center;" | 35
+| style="vertical-align: middle; text-align: center;" | Timestamp
+| style="vertical-align: middle; text-align: center;" | Time corresponding to the first (oldest) GPS data element, represented in seconds elapsed from 2000.01.01 00:00 EET.
 |-
-| Switzerland || 0A || Netherlands || 26
+| style="vertical-align: middle; text-align: center;" | 5
+| style="vertical-align: middle; text-align: center;" | ElementCount
+| style="vertical-align: middle; text-align: center;" | Number of GPS data elements
 |-
-| Cyprus || 0B || Portugal || 27
+|} <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="4" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | SMS Data Structure
 |-
-| Czech Republic || 0C || Poland  || 28
+| rowspan="3" style="width:10%; vertical-align: middle; text-align: center;" | ElementCount *
+| style="width:10%; vertical-align: middle; text-align: center;" |
+| style="width:10%; vertical-align: middle; text-align: center;" | GPSDataElement
+| style="width:10%; vertical-align: middle; text-align: center;" | GPS data elements
 |-
-| Germany || 0D || Romania || 29
+| style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | Byte - align padding
+| style="vertical-align: middle; text-align: center;" | Padding bits to align to 8 - bits boundary represented in seconds elapsed from 2000.01.01 00:00 EET.
 |-
-| Denmark || 0E || San Marino || 2A
+| style="vertical-align: middle; text-align: center;" | 64
+| style="vertical-align: middle; text-align: center;" | IMEI
+| style="vertical-align: middle; text-align: center;" | IMEI of sending device as 8 byte long integer
 |-
-| Spain  || 0F || Russian Federation || 2B
+|} <br>
+The time of only the first GPS data element is specified in Timestamp field. Time corresponding to each further element can be computed as elementTime = Timestamp + (1 hour * elementNumber). <br> <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! rowspan="1" colspan="5" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | GPS Data Element
 |-
-| Estonia || 10 || Sweden || 2C
+! rowspan="1" style="width:20%; vertical-align: middle; text-align: center;" |
+! rowspan="1" style="width:20%; vertical-align: middle; text-align: center;" |
+! rowspan="1" style="width:12%; vertical-align: middle; text-align: center;" | Size (bits)
+! colspan="1" style="width:20%; vertical-align: middle; text-align: center;" | Field
+! rowspan="1" style="width:28%; vertical-align: middle; text-align: center;" | Description
 |-
-| France || 11 || Slovakia || 2D
+| style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | 1
+| style="vertical-align: middle; text-align: center;" | ValidElement
+| style="vertical-align: middle; text-align: center;" | ValidElement = 1 – there is a valid Gps Data Element following,
+ValidElement = 0 – no element at this position
 |-
-| Finland || 12 || Slovenia || 2E
+| rowspan="5" style="vertical-align: middle; text-align: center;" | ValidElement == 1
+| style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | 1
+| style="vertical-align: middle; text-align: center;" | DifferentialCoords
+| style="vertical-align: middle; text-align: center;" | Format of following data
 |-
-| Liechtenstein || 13 || Turkmenistan  || 2F
+| rowspan="2" style="vertical-align: middle; text-align: center;" | DifferentialCoords == 1
+| style="vertical-align: middle; text-align: center;" | 14
+| style="vertical-align: middle; text-align: center;" | LongitudeDiff
+| style="vertical-align: middle; text-align: center;" | Difference from previous element‘s longitude.
+LongitudeDiff = prevLongitude – Longitude + 213 – 1
 |-
-| Faeroe Islands|| 14 || Turkey || 30
+| style="vertical-align: middle; text-align: center;" | 14
+| style="vertical-align: middle; text-align: center;" | LatitudeDiff
+| style="vertical-align: middle; text-align: center;" | Difference from previous element‘s latitude
+LatitudeDiff = prevLatitude – Latitude + 213 – 1
 |-
-| United Kingdom || 15 || Ukraine || 31
+| rowspan="2" style="vertical-align: middle; text-align: center;" | DifferentialCoords == 0
+| style="vertical-align: middle; text-align: center;" | 21
+| style="vertical-align: middle; text-align: center;" | Longitude
+| style="vertical-align: middle; text-align: center;" | Longitude = {(LongDegMult + 18 * 108) * (221 – 1)} over {36*108}
 |-
-| Georgia || 16 || Vatican City || 32
+| style="vertical-align: middle; text-align: center;" | 20
+| style="vertical-align: middle; text-align: center;" | Latitude
+| style="vertical-align: middle; text-align: center;" | Latitude = (LatDegMult + 9*108) * (220 – 1) over {18*108}
 |-
-| Greece || 17 || Yugoslavia || 33
+| style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" |
+| style="vertical-align: middle; text-align: center;" | 8
+| style="vertical-align: middle; text-align: center;" | Speed
+| style="vertical-align: middle; text-align: center;" | Speed in km/h
 |-
-| Hungary || 18 || RFU || 34..FC
+|}
+'''Longitude''' - longitude field value of GPSDataElement <br>
+'''Latitude''' - latitude field value of GPSDataElement <br>
+'''LongDegMult''' - longitude in degrees multiplied by 107 (integer part) <br>
+'''LatDegMult''' - latitude in degrees multiplied by 107 (integer part) <br>
+'''prevLongitude''' - longitude field value of previous GPSDataElemen <br>
+'''prevLatitude''' - latitude field value of previous GPSDataElement <br> <br>
+*'''<big>Decoding GPS position</big>'''
+When decoding GPS data with DifferentialCoords = 1, Latitude and Longitude values can be computed as follows: Longitude = prevLongitude – LongitudeDiff + 213 – 1, Latitude = prevLatitude – LatitudeDiff + 213 – 1. <br>
+If there were no previous non-differential positions, differential coordinates should be computed assuming prevLongitude = prevLatitude = 0. <br>
+When Longitude and Latitude values are known, longitude and latitude representation in degrees can be computed as follows: <br>
+[[File:24SMS.png]]
+*'''<big>SMS Events</big>'''
+When Configured to generate SMS event user will get this SMS upon event: <br>
+<Year/Month/Day> <Hour:Minute:Second> P:<profile_nr> <SMS Text> Val:<Event Value> Lon:<longitude> Lat:<latitude> Q:<HDOP> <br> <br>
+Example: <br>
+./04/11 12:00:00 P:3 Digital Input 1 Val:1 Lon:51.12258 Lat: 25.7461 Q:0.6 <br> <br>
+='''<big>Sending data using SMS</big>'''=
+This type data sending is using for FMBXXX devices which can be cofigured in SMS Data Sending settings. More information about this feature you will find [[FMB120_SMS/Call_settings#SMS_Data_Sending|here]]. <br> <br>
+*'''<big>Data sending via SMS</big>'''
+AVL data or events can be sent encapsulated in binary SMS. TP-DCS field of these SMS should indicate that message contains 8-bit data (for example: TP-DCS can be 0x04). <br>
+{| class="nd-othertables_2" style="width:100%;
+|+
+! colspan="2" style="border-bottom: 2px solid #0054A6; vertical-align: middle; text-align: center;" | SMS data (TP-UD)
 |-
-| Croatia || 19 || European Community || FD
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | AVL data array
+! rowspan="1" style="width:10%; vertical-align: middle; text-align: center;" | IMEI
 |-
-| Italy || 1A || Example || FE
+| style="vertical-align: middle; text-align: center;" | X bytes
+| style="vertical-align: middle; text-align: center;" | 8 bytes
 |-
-| Ireland || 1B || Rest of the world || FF
 |}
+'''AVL data array''' – array of encoded AVL data. <br>
+'''IMEI''' – IMEI of sending module encoded as a big endian 8 byte long number.
+='''<big>CRC-16</big>'''=
+CRC (Cyclic Redundancy Check) is an error-detecting code using for detect accidental changes to RAW data. The algorithm how to calculate CRC-16 (also known as CRC-16/IBM) you will find below. <br>
+[[File:CRC16.png]]