Input HV |
* Safety instructions |
|
General channel properties |
Special functions |
Sensor breakage detection (activation via software setting) |
Aggregate sample rate |
9600 Hz |
Hardware filter (fixed) |
11 Hz, filter type RC low pass |
Channel impedance |
15.0 MΩ |
Channel LED |
Sensor break detection, Channel LED is flashing during configuration |
Channel temperature |
Measurement range temperature |
Typ R (Pt13Rh/Pt) -50 … 1700 °C (-58 … 3092 °F), Typ T (Cu/CuNi) -250 … 400 °C (-418 … 752 °F), Typ J (Fe/CuNi) -180 … 750 °C (-292 … 1352 °F), Typ K (NiCr/NiAl) -200 … 1300 °C (-328 … 2372 °F), Typ E (NiCr-CuNi) -200 … 900 °C (-328 … 1652 °F), Typ N (NiCrSi/NiSi) -270 … 1300 °C (-454 … 2372 °F), Typ S (Pt10Rh/Pt) -50 … 1750 °C (-58 … 3182 °F) |
Linearization of sensor characteristic line |
Numerical interpolated |
Cold junction compensation (CJC) |
PT100 for each channel |
Measurement range thermo voltage |
±78125µV |
Cold junction measurement range |
0 ... 167.8 Ω |
Total error thermocouple type E |
Ambient temperature -40 °C |
@TInput= 0 °C / 700 °C (±0.183 K / ±0.214 K) |
Ambient temperature 5 °C |
@TInput= 0 °C / 700 °C (±0.145 K / ±0.225 K) |
Ambient temperature 25 °C |
@TInput= 0 °C / 700 °C (±0.129 K / ±0.161 K) |
Ambient temperature 45 °C |
@TInput= 0 °C / 700 °C (±0.170 K / ±0.251 K) |
Ambient temperature 85 °C |
@TInput= 0 °C / 700 °C (±0.204 K / ±0.235 K) |
Total error thermocouple type J |
Ambient temperature -40 °C |
@TInput= 0 °C / 600 °C (±0.191 K / ±0.220 K) |
Ambient temperature 5 °C |
@TInput= 0 °C / 600 °C (±0.154 K / ±0.226 K) |
Ambient temperature 25 °C |
@TInput= 0 °C / 600 °C (±0.137 K / ±0.167 K) |
Ambient temperature 45 °C |
@TInput= 0 °C / 600 °C (±0.180 K / ±0.252 K) |
Ambient temperature 85 °C |
@TInput= 0 °C / 600 °C (±0.212 K / ±0.241 K) |
Total error thermocouple type K |
Ambient temperature -40 °C |
@TInput= 0 °C / 800 °C (±0.206 K / ±0.257 K) |
Ambient temperature 5 °C |
@TInput= 0 °C / 800 °C (±0.173 K / ±0.287 K) |
Ambient temperature 25 °C |
@TInput= 0 °C / 800 °C (±0.153 K / ±0.203 K) |
Ambient temperature 45 °C |
@TInput= 0 °C / 800 °C (±0.199 K / ±0.313 K) |
Ambient temperature 85 °C |
@TInput= 0 °C / 800 °C (±0.227 K / ±0.278 K) |
Total error thermocouple type N |
Ambient temperature -40 °C |
@TInput= 0 °C / 800 °C (±0.243 K / ±0.254 K) |
Ambient temperature 5 °C |
@TInput= 0 °C / 800 °C (±0.219 K / ±0.278 K) |
Ambient temperature 25 °C |
@TInput= 0 °C / 800 °C (±0.190 K / ±0.201 K) |
Ambient temperature 45 °C |
@TInput= 0 °C / 800 °C (±0.245 K / ±0.304 K) |
Ambient temperature 85 °C |
@TInput= 0 °C / 800 °C (±0.264 K / ±0.275 K) |
Total error thermocouple type R |
Ambient temperature -40 °C |
@TInput= 0 °C / 1300 °C (±0.664 K / ±0.403 K) |
Ambient temperature 5 °C |
@TInput= 0 °C / 1300 °C (±0.738 K / ±0.481 K) |
Ambient temperature 25 °C |
@TInput= 0 °C / 1300 °C (±0.611 K / ±0.349 K) |
Ambient temperature 45 °C |
@TInput= 0 °C / 1300 °C (±0.763 K / ±0.507 K) |
Ambient temperature 85 °C |
@TInput= 0 °C / 1300 °C (±0.685 K / ±0.424 K) |
Total error thermocouple type S |
Ambient temperature -40 °C |
@TInput= 0 °C / 1300 °C (±0.653 K / ±0.438 K) |
Ambient temperature 5 °C |
@TInput= 0 °C / 1300 °C (±0.724 K / ±0.527 K) |
Ambient temperature 25 °C |
@TInput= 0 °C / 1300 °C (±0.600 K / ±0.384 K) |
Ambient temperature 45 °C |
@TInput= 0 °C / 1300 °C (±0.750 K / ±0.553 K) |
Ambient temperature 85 °C |
@TInput= 0 °C / 1300 °C (±0.674 K / ±0.459 K) |
Total error thermocouple type T |
Ambient temperature -40 °C |
@TInput= 0 °C / 300 °C (±0.200 K / ±0.200 K) |
Ambient temperature 5 °C |
@TInput= 0 °C / 300 °C (±0.175 K / ±0.182 K) |
Ambient temperature 25 °C |
@TInput= 0 °C / 300 °C (±0.154 K / ±0.147 K) |
Ambient temperature 45 °C |
@TInput= 0 °C / 300 °C (±0.201 K / ±0.208 K) |
Ambient temperature 85 °C |
@TInput= 0 °C / 300 °C (±0.228 K / ±0.221 K) |
Total error PT100 input |
Ambient temperature -40 °C |
± 30.79 mΩ |
Ambient temperature 5 °C |
± 18.53 mΩ |
Ambient temperature 25 °C |
± 13.10 mΩ |
Ambient temperature 45 °C |
± 20.74 mΩ |
Ambient temperature 85 °C |
± 30.20 mΩ |
Total error thermovoltage |
Ambient temperature -40 °C |
@0 mV / 30mV (± 2.8 µV / 4.8 µV) |
Ambient temperature 5 °C |
@0 mV / 30mV (± 3.5 µV / 7.8 µV) |
Ambient temperature 25 °C |
@0 mV / 30mV (± 2.8 µV / 4.8 µV) |
Ambient temperature 45 °C |
@0 mV / 30mV (± 3.5 µV / 7.8 µV) |
Ambient temperature 85 °C |
@0 mV / 30mV (± 2.8 µV / 4.8 µV) |
Channel CNT |
Number of inputs |
|
Excitation |
Sensorspeisung |
|
Galvanic isolation |
Input ↔ module power supply |
±100 V (indefinitely), ±500 V (pulse voltage) |
Input ↔ CAN |
±100 V (indefinitely), ±500 V (pulse voltage) |
Input ↔ enclosure |
±100 V (indefinitely), ±500 V (pulse voltage) |
Input ↔ input |
±100 V (indefinitely), ±500 V (pulse voltage) |
Device |
Inputs |
96 |
Precisions |
|
Maximum input protection voltage (channel) |
±25 V (continuous), ±50 V (1 min), ±200 V (short-time, t < 2 ms) |
Voltage supply |
9 … 36 VDC |
Supply voltage thresholds |
On 9 ±0.3 VDC / Off 9 ±0.3 VDC |
Power consumption, typical |
<29 W; <25 W (without IPEhub2) |
Working temperature range |
-40 … 85 °C (-40 … 185 °F) |
IP-Code |
IP6K6 according to DIN EN 60529: 2014-09-01 ISO 20653 |
Relative humidity |
5 ... 95 % |
Operating altitude (above sea level) |
55.000 Fuß / 16.764 m |
Dimensions |
W 500 mm x H130 mm x D 476 mm (19.69 in x 5.12 in x 18.74 in) |
Weight |
19.6 kg (43.21 lb) |
Configuration interface |
Ethernet |
Data transfer rate |
100 Mbit Ethernet (IEEE 802.3) |
Test standards |
DIN EN 61326-1:2013 (EMV), IEC-EN 60584-2 (PD accuracy - based on voltage / PT100 accuracy ), MIL-STD-810G w/Change 1 (Sound pressure), ISO 9001:2015, RTCA DO-160G 2010-12-08 (Pulse & Vibration), IEC 61010-2-201 (safety requirements) |
Pressure compensation |
Available |
Desiccant |
Available |
Calibration intervall |
12 months |
Housing material |
Aluminum, gold anodized |
Input sockets |
Screw terminal |
Status LED |
Yes |
Schutz gegen aggressive Flüssigkeiten |
Hyjet IV Hydraulik-Flüssigkeit |
Electrical data |
Status LED |
|
Accessories |
System cable |
620-233 M-THERMO 96 cable IPEhub2-CAN/PWR, PWR-banana |