0-5V/0-10V/4-20MA/RS485 Solar irradiance irradiance sensor transmitter meteorological outdoor solar radiation detector sensor
Usage: Temperature Sensor
Material: Mixture
Type: Biosensor
Output: Digital Sensor
Theory: Optical Sensor
Model Number: Solar irradiance irradiance sensor
is_customized: Yes
Quality: A
Analog output
Power supply range : 10V~30V DC (0-10V output supply voltage needs 24VDC)
Output : 4-20mA, 0-5V, 0-10V
Maximum power consumption
Current output: 0.08W
Voltage output: 0.08W
Working humidity: 0%~100%RH
Working temperature :-40 C ~ 60 C
Spectral range :0.3~3μm
Measuring range: 0~1800W/m2
Resolution :1W/m2
Response time <=10S
Nonlinear <+-2%
Annual stability <+-2%
Cosine response <+-10%
Line length 60cm
Wiring
|
Wire color |
Description |
|
|
Power |
Brown |
Power supply (10~30V DC) |
|
black |
Power- |
|
|
Communication |
blue |
Signal+ |
|
green |
Signal- |
Calculation formula
3.1 Current type signal output calculation method
For example, the range is 0~1800W/m2, 4~20mA output. When the output signal is 12mA, the current solar radiation value is calculated.
The solar radiation range spans 1800 W/m2 and is expressed by a 16 mA current signal, 1800 W/m2/16 mA = 112.5 W/m2.
/mA, that is, current 1mA represents solar radiation change 112.5W/m2, measured value 12mA-4mA=8mA, 8mA*112.5W/
M2/mA = 900W/m2, the current solar radiation value is 900W/m2.
3.2 Voltage type signal output conversion calculation
For example, the range is 0~1800W/m2, 0-10V output. When the output signal is 5V, the current solar radiation value is calculated. sun
The span of the radiation range is 1800W/m2, expressed by a 10V voltage signal, 1800W/m2/10V=180W/m2/V, that is, electricity
Pressure 1V represents solar radiation change 180W/m2, measured value 5V-0V=5V, 5V*180W/m2/V=900W/m2, current sun
The radiation value is 900 W/m2.
RS485 Output
Power supply range :10V~30V DC
Output : RS 485 (standard Modbus-RTU protocol)
Power consumption :0.08W
Working humidity: 0%~100%RH
Working temperature: -40 C ~ 60 C
Spectral range: 0.3~3μm
Measuring range : 0~1800W/m2
Resolution :1W/m2
Response time :≤ 10S
Nonlinear: <±2%
Annual stability :≤ ± 2%
Cosine response: ≤ ± 10%
Line length : 60cm
Wiring
|
Wire color |
Description |
|
|
Power |
Brown |
Power supply (10~30V DC) |
|
black |
Power- |
|
|
Communication |
yellow |
485+ |
|
blue |
485- |
Installation method
1. After the installation is complete, remove the protective cover
2. Make sure the bracket is installed and the radiation sensor is parallel to the ground.
3. Secure the sensor to the mounting bracket by using a screw through the mounting hole on the sensor.
4. Please note that the dust cover should not be damaged during the installation process, so as not to affect the measurement accuracy.
Installation method
1. After the installation is complete, remove the protective cover
2. Make sure the bracket is installed and the radiation sensor is parallel to the ground.
3. Secure the sensor to the mounting bracket by using a screw through the mounting hole on the sensor.
4. Please note that the dust cover should not be damaged during the installation process, so as not to affect the measurement accuracy.
Usage: Temperature Sensor
Material: Mixture
Type: Biosensor
Output: Digital Sensor
Theory: Optical Sensor
Model Number: Solar irradiance irradiance sensor
is_customized: Yes
Quality: A
Analog output
Power supply range : 10V~30V DC (0-10V output supply voltage needs 24VDC)
Output : 4-20mA, 0-5V, 0-10V
Maximum power consumption
Current output: 0.08W
Voltage output: 0.08W
Working humidity: 0%~100%RH
Working temperature :-40 C ~ 60 C
Spectral range :0.3~3μm
Measuring range: 0~1800W/m2
Resolution :1W/m2
Response time <=10S
Nonlinear <+-2%
Annual stability <+-2%
Cosine response <+-10%
Line length 60cm
Wiring
|
Wire color |
Description |
|
|
Power |
Brown |
Power supply (10~30V DC) |
|
black |
Power- |
|
|
Communication |
blue |
Signal+ |
|
green |
Signal- |
Calculation formula
3.1 Current type signal output calculation method
For example, the range is 0~1800W/m2, 4~20mA output. When the output signal is 12mA, the current solar radiation value is calculated.
The solar radiation range spans 1800 W/m2 and is expressed by a 16 mA current signal, 1800 W/m2/16 mA = 112.5 W/m2.
/mA, that is, current 1mA represents solar radiation change 112.5W/m2, measured value 12mA-4mA=8mA, 8mA*112.5W/
M2/mA = 900W/m2, the current solar radiation value is 900W/m2.
3.2 Voltage type signal output conversion calculation
For example, the range is 0~1800W/m2, 0-10V output. When the output signal is 5V, the current solar radiation value is calculated. sun
The span of the radiation range is 1800W/m2, expressed by a 10V voltage signal, 1800W/m2/10V=180W/m2/V, that is, electricity
Pressure 1V represents solar radiation change 180W/m2, measured value 5V-0V=5V, 5V*180W/m2/V=900W/m2, current sun
The radiation value is 900 W/m2.
RS485 Output
Power supply range :10V~30V DC
Output : RS 485 (standard Modbus-RTU protocol)
Power consumption :0.08W
Working humidity: 0%~100%RH
Working temperature: -40 C ~ 60 C
Spectral range: 0.3~3μm
Measuring range : 0~1800W/m2
Resolution :1W/m2
Response time :≤ 10S
Nonlinear: <±2%
Annual stability :≤ ± 2%
Cosine response: ≤ ± 10%
Line length : 60cm
Wiring
|
Wire color |
Description |
|
|
Power |
Brown |
Power supply (10~30V DC) |
|
black |
Power- |
|
|
Communication |
yellow |
485+ |
|
blue |
485- |
Installation method
1. After the installation is complete, remove the protective cover
2. Make sure the bracket is installed and the radiation sensor is parallel to the ground.
3. Secure the sensor to the mounting bracket by using a screw through the mounting hole on the sensor.
4. Please note that the dust cover should not be damaged during the installation process, so as not to affect the measurement accuracy.
Installation method
1. After the installation is complete, remove the protective cover
2. Make sure the bracket is installed and the radiation sensor is parallel to the ground.
3. Secure the sensor to the mounting bracket by using a screw through the mounting hole on the sensor.
4. Please note that the dust cover should not be damaged during the installation process, so as not to affect the measurement accuracy.