EL1262-0050 | EtherCAT Terminal, 2-channel digital input, 5 V DC, 1 µs, oversampling
+5 V
EL1262-0050 | EtherCAT Terminal, 2-channel digital input, 5 V DC, 1 µs, oversampling
EtherCAT timestamp: high-precision interaction of controller and environment – to the exact nanosecond
EtherCAT oversampling: maximum sampling rates irrespective of the EtherCAT cycle time
Distributed Clocks: the integrated time management system in EtherCAT
The EL1262-0050 digital input terminal acquires the fast binary 5 V control signals from the process level and transmits them, in an electrically isolated form, to the controller. The EtherCAT Terminal has two channels that indicate their signal state via light emitting diodes. The signals are sampled with a configurable, integer multiple (oversampling factor: n) of the bus cycle frequency (n microcycles per bus cycle). For each bus cycle, the EtherCAT Terminal generates a process data block that is transferred collectively during the next bus cycle. The timebase of the terminal can be synchronized precisely with other EtherCAT devices via distributed clocks. This XFC procedure enables the temporal resolution of the digital input signals to be increased to n times the bus cycle time. The switching thresholds of the input circuit are based on the CMOS level: Signal voltage "0" < 0.8 V, signal voltage "1" > 2.4 V. The 5 V supply voltage can be generated by the EL9505 power supply terminal and fed into the power contacts.
Special features:
- 5 V inputs
- suitable for particularly fast signals due to very low input delay
- synchronized operation through distributed clocks XFC technology possible
- multiple sampling of a process data through oversampling
Product status:
regular delivery
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| Technical data | EL1262-0050 |
|---|---|
| Connection technology | 4-wire |
| Number of inputs | 2 |
| Sampling rate | max. 1 Msample/s |
| Nominal voltage | 5 V DC |
| “0” signal voltage | < 0.8 V |
| “1” signal voltage | > 2.4 V |
| Input current | typ. 50 µA |
| Input filter | typ. < 1 µs |
| Oversampling factor | n = integer multiple of the cycle time, 1…1000, see documentation |
| Oversampling/multi-timestamping factor | n = integer multiple of the cycle time, 1…1000, see documentation |
| Precision of timestamp in the terminal | 10 ns (+ input delay) |
| Distributed clock precision | << 1 µs |
| Distributed clocks | yes |
| Time resolution signal | – |
| Current consumption power contacts | typ. 6 mA + load |
| Current consumption E-bus | typ. 70 mA |
| Electrical isolation | 500 V (E-bus/field potential) |
| Bit width in the process image | n x 2 inputs + 64 bit CycleCounter/latch |
| Special features | oversampling, 5 V inputs |
| Weight | approx. 55 g |
| Operating/storage temperature | 0…+55 °C/-25…+85 °C |
| Relative humidity | 95 %, no condensation |
| Vibration/shock resistance | conforms to EN 60068-2-6/EN 60068-2-27 |
| EMC immunity/emission | conforms to EN 61000-6-2/EN 61000-6-4 |
| Protect. rating/installation pos. | IP20/variable |
| Approvals/markings | CE, UL, ATEX |
| Ex marking | II 3 G Ex nA IIC T4 Gc Ex nA IIC T4 Gc Ex tc IIIC T135 °C Dc |
| Housing data | EL-12-8pin |
|---|---|
| Design form | compact terminal housing with signal LEDs |
| Material | polycarbonate |
| Dimensions (W x H x D) | 12 mm x 100 mm x 68 mm |
| Installation | on 35 mm DIN rail, conforming to EN 60715 with lock |
| Side by side mounting by means of | double slot and key connection |
| Marking | labeling of the BZxxx series |
| Wiring | solid conductor (e), flexible conductor (f) and ferrule (a): spring actuation by screwdriver |
| Connection cross-section | s*: 0.08…2.5 mm², st*: 0.08…2.5 mm², f*: 0.14…1.5 mm² |
| Connection cross-section AWG | s*: AWG 28…14, st*: AWG 28…14, f*: AWG 26…16 |
| Stripping length | 8…9 mm |
| Current load power contacts | Imax: 10 A |
*s: solid wire; st: stranded wire; f: with ferrule
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