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Description
Product information "seeed Grove - I2C thermocouple amplifier (MCP9600)"
Seeed Grove - I2C Thermocouple Amplifier (MCP9600)
The Grove - I2C Thermocouple Amplifier (MCP9600) is a thermocouple-to-digital converter with integrated cold junction compensation and I2C communication interface. The module is designed for use with a type K thermocouple. Thermocouples offer a significantly larger measuring range compared to thermistors. For example, the measuring range of a K-type thermocouple is -50 °C to +600 °C. The module also supports thermocouple types J, T, N, S, E, B and R. The temperature is measured with a resolution of typically 0.0625 °C at both the hot and cold junction.
The MCP9600 is a thermocouple sensor from Microchip Technology Inc. that converts the voltage of thermocouples with integrated cold junction compensation into degrees Celsius. The component corrects the non-linear error characteristics of eight thermocouple types and outputs a temperature with an accuracy of ±1.5 °C. The correction coefficients are taken from the NIST ITS-90 thermocouple database.
The module has user-programmable registers that allow for flexible use in various temperature sensing applications. Adjustable options include a low-power mode for battery-powered applications, a digital filter for smoothing rapid temperature fluctuations and four individually programmable temperature alarm outputs for monitoring multiple temperature zones.
The integrated alarm function makes it possible to send an interrupt signal to the microcontroller via a programmable alarm pin. The four programmable alarm outputs can be set to monitor the hot or cold junction, detect rising or falling temperatures and handle a hysteresis of up to 255 °C.
The Grove - I2C Thermocouple Amplifier (MCP9600) is suitable for temperature measurements in an extended range. The module converts the analogue temperature voltage of an externally connected thermocouple into digital measured values. It measures temperatures with high accuracy and provides the data via the I2C interface. The supported Grove interface allows easy connection without soldering.
Applications can be found in the thermal monitoring of industrial plants, in petrochemical measuring systems, in furnaces, in the temperature monitoring of motors or in portable measuring devices. The integrated warning functions and programmable filter functions increase the flexibility of use in safety-critical or process-controlled systems.
The Grove - I2C Thermocouple Amplifier (MCP9600) is an electronic component for temperature measurement in conjunction with thermocouples. It measures the temperature at the hot and cold junction of a thermocouple, calculates the temperature value from the difference and makes it available digitally via I2C. The module can be integrated into measuring systems where temperature data is required. The programming functions and digital filters ensure customisable responses to temperature fluctuations. The Grove interface simplifies integration into common development platforms.
Features at a glance
The Grove - I2C Thermocouple Amplifier (MCP9600) is a thermocouple-to-digital converter with integrated cold junction compensation and I2C communication interface. The module is designed for use with a type K thermocouple. Thermocouples offer a significantly larger measuring range compared to thermistors. For example, the measuring range of a K-type thermocouple is -50 °C to +600 °C. The module also supports thermocouple types J, T, N, S, E, B and R. The temperature is measured with a resolution of typically 0.0625 °C at both the hot and cold junction.
The MCP9600 is a thermocouple sensor from Microchip Technology Inc. that converts the voltage of thermocouples with integrated cold junction compensation into degrees Celsius. The component corrects the non-linear error characteristics of eight thermocouple types and outputs a temperature with an accuracy of ±1.5 °C. The correction coefficients are taken from the NIST ITS-90 thermocouple database.
The module has user-programmable registers that allow for flexible use in various temperature sensing applications. Adjustable options include a low-power mode for battery-powered applications, a digital filter for smoothing rapid temperature fluctuations and four individually programmable temperature alarm outputs for monitoring multiple temperature zones.
The integrated alarm function makes it possible to send an interrupt signal to the microcontroller via a programmable alarm pin. The four programmable alarm outputs can be set to monitor the hot or cold junction, detect rising or falling temperatures and handle a hysteresis of up to 255 °C.
The Grove - I2C Thermocouple Amplifier (MCP9600) is suitable for temperature measurements in an extended range. The module converts the analogue temperature voltage of an externally connected thermocouple into digital measured values. It measures temperatures with high accuracy and provides the data via the I2C interface. The supported Grove interface allows easy connection without soldering.
Applications can be found in the thermal monitoring of industrial plants, in petrochemical measuring systems, in furnaces, in the temperature monitoring of motors or in portable measuring devices. The integrated warning functions and programmable filter functions increase the flexibility of use in safety-critical or process-controlled systems.
The Grove - I2C Thermocouple Amplifier (MCP9600) is an electronic component for temperature measurement in conjunction with thermocouples. It measures the temperature at the hot and cold junction of a thermocouple, calculates the temperature value from the difference and makes it available digitally via I2C. The module can be integrated into measuring systems where temperature data is required. The programming functions and digital filters ensure customisable responses to temperature fluctuations. The Grove interface simplifies integration into common development platforms.
Features at a glance
- Supports thermocouple types K, J, T, N, S, E, B and R
- Typical measurement resolution: 0.0625 °C at hot and cold junction
- Four programmable temperature alarm outputs
- Integrated digital filter for temperature measurement
- Grove-compatible connection
- Integrated cold junction compensation
- Grove systems
- Development boards with I2C interface
- Dimensions: 40 mm × 20 mm × 18 mm
- Weight: 11 g
- Battery: not included
- Operating voltage: 3.3 V / 5 V
- Ambient temperature: -40 °C to +125 °C
- Storage temperature: -65 °C to +150 °C
- Maximum transition temperature: +150 °C
- Hot junction accuracy: ±1.5 °C (max.)
- Measurement resolution: 0.0625 °C (typical)
- Interface: I2C I2C
- I2C address: 0x60 (standard)
- Package size: 130 mm × 85 mm × 20 mm
- Module cannot be operated on its own, requires external thermocouple
- Grove - I2C thermocouple amplifier (MCP9600)
- Grove cable
Properties
| Zolltarifnummer: | 85176200 |
|---|---|
| Brand: | seeed |
| Country of Origin: | China |
| EAN: | 841454121398 |
| Gross Weight (kg): | 0.011 |
| Manufacturer ID: | 101020594 |
| Product ID: | SE-101020594 |
Manufacturer and safety information
Manufacturer information
Seeed Technology Co.,Ltd.
Tower B 1/F, Shanshui Building, NanshanYungu Innovation Industry Park, Liuxian Ave. No. 1183
CN 518055 Shenzhen
https://www.seeedstudio.com
seeed_emea@seeed.cc
WEEE number: 20453810
Responsible person for the EU
BerryBase GmbH
Bei den Mühren 70
DE 20457 Hamburg
https://www.berrybase.de
info@berrybase.de
Safety instructions
Seeed Technology Co.,Ltd.
Tower B 1/F, Shanshui Building, NanshanYungu Innovation Industry Park, Liuxian Ave. No. 1183
CN 518055 Shenzhen
https://www.seeedstudio.com
seeed_emea@seeed.cc
WEEE number: 20453810
Responsible person for the EU
BerryBase GmbH
Bei den Mühren 70
DE 20457 Hamburg
https://www.berrybase.de
info@berrybase.de
Safety instructions
- Only install and use the sensor in accordance with the manufacturer's recommendations.
- Disconnect the power supply before installation or maintenance.
- Protect from direct contact with water or moisture.
- Do not disassemble or repair independently, as this may impair functionality and safety.
- Observe the temperature range of the sensor to avoid damage and malfunctions.
- In the event of malfunction or damage, only replace by qualified specialists.
- Dispose of used sensors in an environmentally friendly manner in accordance with local regulations.
- Dispose of electronic and plastic parts at authorised recycling stations.
- Ensure that the sensor does not measure any dangerous temperatures that could cause material damage.
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