Medicion temperatura AT2402
  • Medicion temperatura AT2402

B&R X20AT2402 | Medición temperatura

X20 temperatura de entrada del módulo,
2 entradas de termopar,
tipo J, K, N, S, 0,1 K resolución

Cantidad

  • Política de seguridad (editar con el módulo Información de seguridad y confianza para el cliente) Política de seguridad (editar con el módulo Información de seguridad y confianza para el cliente)
  • Política de envío (editar con el módulo Información de seguridad y confianza para el cliente) Política de envío (editar con el módulo Información de seguridad y confianza para el cliente)
  • Política de devolución (editar con el módulo Información de seguridad y confianza para el cliente) Política de devolución (editar con el módulo Información de seguridad y confianza para el cliente)
Short description X20AT2402
I/O module 2 inputs for thermocouples
General information X20AT2402
B&R ID code 0x1BA8
Status indicators I/O function per channel, operating state, module status
Diagnostics  
Module run/error Yes, with status LED and software status
Inputs Yes, with status LED and software status
Power consumption  
Bus 0.01 W
Internal I/O 0.72 W
Additional power dissipation caused by the actuators (resistive) [W] -
Electrical isolation  
Channel - Bus Yes
Channel - Channel No
Certification types  
c-UL-us Yes
CE Yes
GOST-R Yes
Thermocouple temperature inputs X20AT2402
Input Thermocouple
Digital converter resolution 16-bit
Filter time Configurable between 1 ms and 66.7 ms
Conversion time  
1 channel 80.4 ms at 50 Hz filter
2 channels 120.6 ms at 50 Hz filter
Output format UINT
Basic accuracy  
Type J ±0.10% at 25°C 1)
Type K ±0.11% at 25°C 2)
Type N (Rev. ≥ D0) ±0.11% at 25°C 3)
Type S ±0.17% at 25°C 4)
Measurement range  
Sensor temperature  
FeCuNi: Type J -210 to 1200°C
NiCrNi: Type K -270 to 1372°C
NiCrSi: Type N (Rev. ≥ D0) -270 to 1300°C
PtRhPt: Type S -50 to 1768°C
Terminal temperature -25 to 85°C
Raw value ±65.534 mV
Terminal temperature compensation Internal
Sensor standard EN 60584
Resolution  
Sensor temperature 1 LSB = 0.1°C
Terminal temperature 1 LSB = 0.1°C
Raw value output with respect to gain 1 LSB = 1 µV or 2 µV
Standardization  
Type J -210 to 1200°C
Type K -270 to 1372°C
Type N (Rev. ≥ D0) -270 to 1300°C
Type S -50 to 1768°C
Terminal temperature -25 to 85°C
Monitoring  
Below lower range limit $8001
Above upper range limit $7FFF
Wire break $7FFF
Open inputs $7FFF
General error $8000
Conversion procedure Sigma-Delta
Linearization method Internal
Permitted input signal Max. ±5 V
Input filter First-order low pass / cut-off frequency 500 Hz
Max. gain drift 0.01%/°C 5)
Max. offset drift  
Type J 0.0019%/°C 6)
Type K 0.0024%/°C 7)
Type N (Rev. ≥ D0) 0.0029%/°C 8)
Type S 0.0079%/°C 9)
Common-mode rejection  
DC >70 dB
50 Hz >70 dB
Synchronized zone ±15 V
Cross-talk between channels <-70 dB
Non-linearity ±0.001% 10)
Isolation voltage between channel and bus 500 Veff
Terminal temperature compensation precision  
with artificial convection ±4°C after 10 min
with natural convection ±2°C after 10 min
Operating conditions X20AT2402
Mounting orientation  
Horizontal Yes
Vertical Yes
Installation at altitudes above sea level  
0 to 2000 m No derating
>2000 m Reduction of ambient temperature by 0.5°C per 100 m
EN 60529 protection IP20
Environmental conditions X20AT2402
Temperature  
Operation  
Horizontal installation 0 to 55°C
Vertical installation 0 to 50°C
Storage -25 to 70°C
Transport -25 to 70°C
Relative humidity  
Operation 5 to 95%
Storage 5 to 95%
Transport 5 to 95%
Mechanical characteristics X20AT2402
Note Order 1x X20TB06 or X20TB12 terminal block separately
Order 1x X20BM11 bus module separately
Spacing 12.5+0.2 mm
   
1) Based on the measurement range, without consideration of the cold junction measurement error
2) Based on the measurement range, without consideration of the cold junction measurement error
3) Based on the measurement range, without consideration of the cold junction measurement error
4) Based on the measurement range, without consideration of the cold junction measurement error
5) Based on the current measurement value
6) Refers to the entire measurement range
7) Refers to the entire measurement range
8) Refers to the entire measurement range
9) Refers to the entire measurement range
10) Refers to the entire measurement range.

X20AT2402

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