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== EN12830 ==
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EN12830 is a European standard specifying the requirements and test methods for temperature recording devices used in the storage, transport, and distribution of chilled, frozen, deep-frozen, and quick-frozen food and other types of products. It ensures these devices meet specific accuracy, resolution, and response time criteria to maintain product safety and quality.
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==EYE SENSOR EN12830==
 
==EYE SENSOR EN12830==
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EYE Sensor EN12830 is a Bluetooth® Low Energy recorder that enhances business operations through certified temperature monitoring. This sensor holds an EN12830 certificate and delivers precise measurements with a 0.5°C accuracy class across all working ranges from -20°C to +60°C. Each temperature sensor is calibrated in an ISO 17025-certified laboratory to ensure reliability. Designed with a food-grade casing that complies with EU and FDA regulations for food contact applications, the EYE Sensor EN12830 is perfect for tracking perishables like dairy, meat, and pharmaceuticals. It also features internal memory capable of storing temperature readings for up to 345 days, ensuring compliant monitoring.
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Effective control and monitoring of temperatures within the cold chain are crucial for maintaining the quality of goods. To guarantee optimal temperature conditions for food and pharmaceutical products and to ensure continuous monitoring, adherence to a set of standards must be met. European regulations require, among other things, the use of recorders that comply with the of standard called EN12830.
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==Benefits of EN12830 Compliance==
 
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EYE Sensor EN12830 is a Bluetooth® Low Energy recorder that enhances business operations through certified temperature monitoring. This sensor holds an EN12830 certificate and delivers precise measurements with a 0.5°C accuracy class across all working ranges from -20°C to +60°C. Each temperature sensor is calibrated in an ISO 17025-certified laboratory to ensure reliability. Designed with a food-grade casing that complies with EU and FDA regulations for food contact applications, the EYE Sensor EN12830 is perfect for tracking perishables like dairy, meat, and pharmaceuticals. It also features internal memory capable of storing temperature readings for up to 345 days, ensuring compliant monitoring.
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==Scope of regulation==
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By adhering to the EN12830 standard, companies can ensure that their temperature recording devices are reliable and accurate, thereby maintaining the integrity of the cold chain and safeguarding the quality and safety of temperature-sensitive products. Main values:
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In a context of globalization, the storage, transport and distribution of heat-sensitive products are subject to different regulations depending on the country. This article will only deal with the subject of regulations on the European territory. There are many professions that have to comply with the regulations on cold chain traceability and you must make sure of the standards applicable to your branch of activity.
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'''Ensures Food Safety''': By maintaining correct temperature conditions, the standard helps prevent the growth of harmful microorganisms and ensures the safety of food products.
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The text of the EN12830 standard gives an example of the fields of activity identified: “Examples of goods that are sensitive to transport, storage and distribution temperatures between -80 °C and +85 °C are refrigerated, frozen and deep-frozen goods, ice cream, fresh and hot food, pharmaceuticals, blood, organs, chemicals, biological materials, electronic and mechanical devices, flowers, plants, bulbs, raw materials and liquids, animals, works of art and furniture. »
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'''Quality Assurance''': Helps in maintaining the quality and shelf life of temperature-sensitive products.
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The scope of application is very broad, but we focus on 2 major branches of activity in terms of transport and logistics covered by this regulation:
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'''Regulatory Compliance''': Ensures that companies meet legal requirements, avoiding penalties and legal issues.
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    Storage and transport of chilled, frozen and deep-frozen perishable goods.
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'''Traceability''': Provides reliable data for tracking and auditing the temperature history of products.
    Storage and transport of medical products: pharmaceuticals, blood products, organs and medical samples.
      
==Technical information==
 
==Technical information==
 
{| class="wikitable" style="width: 80%;"
 
{| class="wikitable" style="width: 80%;"
! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''Resolution'''
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! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''Resolution (°C)'''
! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''class'''
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! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''Class (°C)'''
 
! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''Response time'''
 
! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''Response time'''
 
! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''Sensor temperature range'''
 
! style="width: 15%; border: 1px solid white; border-bottom: 2px solid #0054A6; background: white; color: #0054A6; text-align: center;" |'''Sensor temperature range'''
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!Calibration temperatures
 
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| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" |0,01 °C
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| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" |0,01
| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" | 0,5 °C
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| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" | 0,5
 
| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" | 13 min
 
| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" | 13 min
 
| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" | from -20 °C to +60 °C
 
| style="border: 1px solid white; border-bottom: 2px solid #E8E8E8; text-align: center; vertical-align: center; background: white;" | from -20 °C to +60 °C
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|<nowiki>-30°C, 5°C, and 70°C</nowiki>
 
|}
 
|}
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'''Resolution (°C) -''' Maximum resolution of change in temperature that the device can display.
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==Proprietary solution or open system?==
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'''Class (°C) -''' Specifies the maximum accuracy deviation of the temperature recording devices.
 
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There are many ways to deal with these security and integrity issues, but there are two main approaches:
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    The first is to ensure the security and integrity of the data through a proprietary system. In short, from the sensor to the data visualization application level. In this case, compliance with the standard is easier to achieve because it is handled at the application level, which has significant computing resources. Nevertheless, this approach requires the exclusive use of the entire manufacturer’s solution: from the temperature sensor to the final application through all the manufacturer’s own communication layers.
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    The second is to ensure data security and integrity through an open system. The temperature sensor itself is designed to meet the security and integrity requirements imposed by the standard. In this case compliance with the standard is more difficult to achieve, as it requires that this be handled at the sensor level, which has limited computing resources. However, this way of doing things allows manufacturers to remain open to any independent system, while ensuring compliance with the EN12830 standard.
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==How do I know if a recorder complies with the EN12830 standard?==
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The manufacturer of your recorder must be able to issue a certificate of conformity in its own name. Furthermore, this equipment must have undergone conformity tests carried out by a COFRAC-accredited standardization laboratory. The manufacturer must be able to provide you with the test report from this COFRAC-accredited laboratory. Attention, it is your responsibility to check that the report refers to the standard in force: in this case the 2018 version of EN12830.
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==What temperature values must you observe?==
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The definition of the temperature values that you must respect depends on your sector of activity. To help you, if you are in the case of transport of perishable foodstuffs, the Ministry of Agriculture publishes a summary table of storage temperatures to be respected. You can download this documentation here.
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Here is an excerpt from the document:<br>
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[[File:Cold chain EN12830 and EN13486 standards all you need to know.png|thumb|left]]
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For the transport of pharmaceuticals, blood and samples the 3 most frequently used temperature values are as follows:
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* 20°C (range 18 to 24°C)
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* 4°C (range 2 to 8°C)
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* – 20°C (range-30 to – 18°C).
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It is quite frequent in this sector of activity that the recorders are certified for all 3 temperature values simultaneously, which inevitably increases the cost of certification. Attention, this is given for information only and it is important to check the requirements of your sector of activity.
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'''Response time -''' The response time of a temperature sensor is the time it takes for the sensor to reach 90% of a step change in temperature. Typically, the maximum response time for air temperature sensors should be no more than 15 minutes. This ensures that the sensor can quickly detect changes in the air temperature, which is crucial for maintaining the correct storage or transport conditions.
What temperature accuracy do you have to respect?
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The definition of the temperature accuracy you need to meet depends on your industry and your requirements. For example for the transport of perishable goods your recorder must be accurate to + or – 2°C. It must therefore be class 2 or better (Class 1 for example).
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'''Sensor temperature range -''' Indicates operational temperature
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Concerning the transport of pharmaceutical and blood products the recorder temperature class requested and frequently class 1 (+ or – 1°C accuracy) in the negative temperature ranges and class 0.5 (+ or – 0.5°C accuracy) in the positive ranges.
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'''Calibration temperatures''' - The EYE SENSOR with EN12830 certification uses a sensor that has been factory calibrated in an ISO/IEC 17025 accredited laboratory. The temperatures listed in the table indicate the specific conditions at which the sensor was tested and calibrated.
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==How to record temperature data in EYE APP==
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==What are the most common temperatures to observe?==
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The definition of the temperature values that you must respect depends on your sector of activity. To help you, if you are in the case of transport of perishable foodstuffs, the storage temperatures to be respected for various types of products:
 
{| class="wikitable"
 
{| class="wikitable"
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|Category
! style="background: #0054A6; color: white;" |Visualizations
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|Product Type
! style="background: #0054A6; color: white;" |Comments
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|Common Temperature Range
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|Examples
 
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|[[File:11 EN12830.jpg|300px|center]]
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| rowspan="5" |Food and  Beverages
|Press "Temperature recorder" button in the sensor home screen
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|Fresh Produce
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|0°C to 10°C (32°F to 50°F)
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|Fruits, vegetables
 
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|[[File:22 EN12830.jpg|300px|center]]
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|Dairy Products
|Press "NEW RECORDING" button.
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|1°C to 4°C (34°F to 39°F)
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|Milk, cheese, yogurt
 
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|[[File:33 EN12830.jpg|300px|center]]
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|Meat and Poultry
|Choose recording interval that you require.
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|0°C to 4°C (32°F to 39°F)
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|Fresh meat, poultry
 
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|[[File:44 EN12830.jpg|300px|center]]
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|Frozen Foods
|Wait until the required number of recordings have been generated and press Download recordings afterwards
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| -18°C to -20°C (-0.4°F to -4°F)
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|Frozen vegetables, meats, ice  cream
 
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|[[File:55 EN12830.jpg|300px|center]]
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|Chilled Beverages
|Choose either to download recordings from specific date or to download all available recordings
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|2°C to 10°C (36°F to 50°F)
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|Soft drinks, beer
 
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|[[File:CSV_file_EN12830.jpg]]
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| rowspan="3" |Pharmaceuticals  and Medical
|Afterwards a .csv file will be downloaded into your phones files folder.<br>It will contain all the data from temperature recordings.
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|Refrigerated Pharmaceuticals
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|2°C to 8°C (36°F to 46°F)
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|Vaccines, insulin
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|-
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|Frozen Pharmaceuticals
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| -20°C to -10°C (-4°F to 14°F)
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|Certain biological samples,  specific medications
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|-
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|Controlled Room Temperature (CRT)  Pharmaceuticals
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|15°C to 25°C (59°F to 77°F)
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|Most oral medications,  over-the-counter drugs
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|-
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| rowspan="2" |Chemicals  and Industrial
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|General Chemicals
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|15°C to 25°C (59°F to 77°F)
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|Solvents, reagents
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|-
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|Temperature-Sensitive Chemicals
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|2°C to 8°C (36°F to 46°F) or below
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|Certain catalysts, lab reagents
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|-
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| rowspan="2" |Electronics
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|Electronic Components
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|15°C to 25°C (59°F to 77°F)
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|Circuit boards, semiconductors
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|-
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|Temperature-Sensitive Electronics
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|Varies, often lower temperatures
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|Some battery types, high-precision  instruments
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|-
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| rowspan="2" |Other  Products
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|Cosmetics
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|15°C to 25°C (59°F to 77°F)
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|Creams, lotions, makeup
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|-
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|Artwork and Archival Materials
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|18°C to 22°C (64°F to 72°F) with  controlled humidity
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|Paintings, manuscripts
 
|}
 
|}
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[[Category: Iridium Edge]]
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==Attachments==
 
==Attachments==

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