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resources:eval:user-guides:arduino-uno:reference_designs:demo_cn0391 [23 Jan 2018 16:21] – [General Description/Overview] Mircea Caprioru | resources:eval:user-guides:arduino-uno:reference_designs:demo_cn0391 [06 Jan 2021 10:01] (current) – Fixed bad link for en/design-center/evaluation-hardware-and-software/evaluation-boards-kits/EVAL-CN0391-ARDZ.html Ioana Chelaru |
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===== General Description/Overview ===== | ===== General Description/Overview ===== |
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The **CN0391_example** project uses the [[http://www.analog.com/en/design-center/evaluation-hardware-and-software/evaluation-boards-kits/EVAL-CN0391-ARDZ.html|EVAL-CN0391-ARDZ shield]] which is a multichannel thermocouple temperature measurement system with cold junction compensation. | The **CN0391_example** project uses the [[resources:eval:user-guides:eval-adicup360:hardware:cn0391|EVAL-CN0391-ARDZ Shield]] which is a multichannel thermocouple temperature measurement system with cold junction compensation. |
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The EVAL-CN0391-ARDZ shield uses the [[http://www.analog.com/en/products/analog-to-digital-converters/precision-adc-10msps/ad7124-8| AD7124-8 part]] which is a **8-Channel** Low Noise, Low Power, **24-Bit**, Sigma-Delta **ADC** with PGA and Reference. All signal conditioning and excitation is performed by the AD7124-8, no additional components are needed. | The EVAL-CN0391-ARDZ shield uses the [[adi>en/products/analog-to-digital-converters/precision-adc-10msps/ad7124-8| AD7124-8 part]] which is a **8-Channel** Low Noise, Low Power, **24-Bit**, Sigma-Delta **ADC** with PGA and Reference. All signal conditioning and excitation is performed by the AD7124-8, no additional components are needed. |
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{{ :resources:eval:user-guides:arduino-uno:reference_designs:img_20180123_170932.jpg?600 |}} | {{ :resources:eval:user-guides:arduino-uno:reference_designs:img_20180123_170932.jpg?600 |}} |
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The second approximation formula was implemented for [[http://www.analog.com/en/design-center/reference-designs/hardware-reference-design/circuits-from-the-lab/cn0382.html|CN0382 circuit]], using data gathered in a smaller temperature range: 0°C to 105°C. | The second approximation formula was implemented for [[adi>en/design-center/reference-designs/hardware-reference-design/circuits-from-the-lab/cn0382.html|CN0382 circuit]], using data gathered in a smaller temperature range: 0°C to 105°C. |
</note> | </note> |
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