| | SIMATIC SC,ELECTRONIC SUBMODULE 1 AI RTD PT100,N:100,0..600 OHM |
| |
| Supply voltage |
| Rated value (DC) | 24 V |
| Reverse polarity protection | Yes |
| Input current |
| from supply voltage L+, max. | 30 mA |
| Power losses |
| Power loss, max. | 0.6 W |
| Hardware configuration |
| Rack |
| Required terminal block | TB 16SC |
| Analog inputs |
| Number of analog inputs | 1 |
| permissible input voltage for voltage input (destruction limit), max. | 10 V; 10 V continuous, 25 V for max. 1 s |
| Cycle time (all channels), typ. | 110 / 130 ms |
| Input ranges |
| Resistance thermometer | Yes |
| Resistance | Yes |
| Input ranges (rated values), resistance thermometers |
| Ni 100 | Yes; Standard; -60 to +250 °C |
| Input resistance (Ni 100) | 1 MΩ |
| Pt 100 | Yes; Climate: -120 to +130 °C; standard: -200 to +850 °C |
| Input resistance (Pt 100) | 1 MΩ |
| Input ranges (rated values), resistors |
| 0 to 600 ohms | Yes |
| Input resistance (0 to 600 ohms) | 1 MΩ |
| [nicht versorgt: TAK_ABP363_001_000] |
| [nicht versorgt: TAK_ABT261_001_000] |
| Parameterizable | No |
| Characteristic linearization |
| Parameterizable | Yes; Pt100 to DIN IEC 751, Ni100 to DIN 43760 |
| Cable length |
| Cable length, shielded, max. | 50 m |
| Analog value creation |
| Measurement principle | integrating |
| Integrations and conversion time/ resolution per channel |
| Resolution with overrange (bit including sign), max. | 14 bit; S7 representation: 0 to 600 ohms: 14 bits, Pt100 climate: 0,1 °C/digit, Pt100 standard: 0,1 °C/digit, Ni100 standard: 0.1 °C/digit; S5 representation: 0 to 600 ohms: 13 bits, Pt100 climate: 0.05 °C/digit, Pt100 standard: 0.5 °C/digit, Ni100 standard: 0.5°C/digit |
| Integration time, parameterizable | Yes |
| Basic conversion time, ms | 110 / 130 ms |
| Integration time, ms | 50 / 60 ms |
| Interference voltage suppression for interference frequency f1 in Hz | 50 / 60 Hz |
| Smoothing of measured values |
| Parameterizable | Yes; parameterizable in 4 stages by means of digital filtering |
| Step: None | Yes; 1 x cycle time |
| Step: low | Yes; 8 x cycle time |
| Step: Medium | Yes; 64 x cycle time |
| Step: High | Yes; 128 x cycle time |
| Encoder |
| Connection of signal encoders |
| for resistance measurement with 4-conductor connection | Yes; with compensation of line resistors |
| Connectable encoders |
| Constant measurement current for resistance-type transmitter, typ. | 1.5 mA |
| Errors/accuracies |
| Linearity error (relative to input area) | +/- 0,05 % |
| Temperature error (relative to input area) | +/- 0,03 %/K |
| Crosstalk between the inputs, min. | 50 dB; At 50/60 Hz |
| Repeat accuracy in settled status at 25 °C (relative to input area) | +/- 0,1 % |
| Operational limit in overall temperature range |
| Resistance-type thermometer, relative to input area | +/- 1 %; 0 to 600 ohms +/-1.0%; Pt100 (climate), 4 °C; Pt100 (standard) 8°C; Ni100 (standard) 4 °C |
| Basic error limit (operational limit at 25 °C) |
| Resistance-type thermometer, relative to input area | +/- 0,7 %; 0 to 600 Ohm +/-0.7 %; Pt100 (climate) 1 °C; Pt100 (standard) 4°C; Ni100 (standard) 2 °C |
| Interference voltage suppression for f = n x (fl +/- 1%), fl = interference frequency |
| Series mode interference (peak value of interference < rated value of input range), min. | 70 dB |
| common mode voltage (USS < 2.5 V) , min. | 90 dB |
| Interfaces |
| PROFIBUS DP |
| Transmission rate, max. | 9.6 kbit/s |
| Interrupts/diagnostics/status information |
| Alarms |
| Alarms | No |
| Diagnostic messages |
| Diagnostic functions | No |
| Galvanic isolation |
| Galvanic isolation analog inputs |
| between the channels | No |
| between the channels and the backplane bus | No; Optocoupler |
| between the channels and the power supply of the electronics | No |
| Permissible potential difference |
| between inputs and MANA (UCM) | 2 V DC / 2 Vpp AC |
| Isolation |
| Isolation checked with | 1500 V AC |
| Dimensions |
| Width | 10 mm |
| Height | 64 mm |
| Depth | 51 mm |
| Required slots | 1; from 8 |
| Weight |
| Weight, approx. | 20 g |
| Status | Jan 30, 2012 |
