100 % original. Más de 100 000 piezas en stock. Listas para enviar.

  • es

The GE Fanuc IC697PWR711, also cataloged as the IC697PWR711 Power Supply Module, operates as a dedicated hardware component for power conversion and load distribution within Series 90-30 PLC platforms. The module accepts selectable input voltages of 120 VAC or 240 VAC through an external jumper setting to provide regulated direct current outputs and logic level sequencing across the system backplane.

Hardware Specifications

Parameter Specification
Model IC697PWR711
Brand GE Fanuc Emerson
Origin United States
Weight 1.64 kg (3.63 lbs)
Dimensions Slide-in plug-in rack construction
Operating Temp 0 to 60 deg C
Power Consumption 160 Watts maximum input power at full load
Load Capacity 100 Watts maximum total output across all 3 rails
Input Voltage Range, AC 90 to 132 VAC or 180 to 264 VAC
Input DC Range 100 to 150 VDC
Input Frequency Range 47 to 63 Hz
Power Factor > 0.93 (Power factor correction enabled with AC voltage)
Output Rail 1 +5 VDC (4.90 to 5.25 VDC), 18 Amps maximum
Output Rail 2 +12 VDC (11.75 to 12.6 VDC), 2 Amps maximum
Output Rail 3 -12 VDC (-12.6 to -11.75 VDC), 1 Amp maximum
Inrush Current 55 Amps typical, 77 Amps maximum half-cycle peak
Holdup Time 21 milliseconds minimum
Overvoltage Limit +5 VDC Output: 5.7 to 6.7 Volts

Backplane Bus Communication Velocity & Firmware Integration

The IC697PWR711 mounts into the leftmost position of a GE IC697 rack or a VME integrator rack, establishing physical pathways via a 48-pin backplane connector. While the supply does not require backplane bus communication velocity licences to perform its power conversion tasks, it executes precise hardware logic level sequencing signals directly toward the backplane to coordinate power-up and shutdown phases with the host CPU. The architecture allows for flexible I/O density scaling by supporting a 2-rack operation from a single supply unit, provided that the secondary chassis is joined via an approved 3-feet connecting cable and the net drawing current remains under 5.2 Amps.

Frequently Asked Questions

Q: Can the IC697PWR711 be replaced or serviced while the PLC backplane is energized?

A: No. The IC697PWR711 requires full isolation of incoming field lines before extraction or installation. It features an integrated front-panel ON/OFF switch to manually activate or deactivate secondary outputs, but primary field power must be isolated externally before disconnecting the module.

Q: Does the module contain onboard protection circuits against output faults?

A: Yes. The module features internal electronic short-circuit and overcurrent protection loops. The hardware limits current peaks to 26 Amps on the +5 VDC line, 4 Amps on the +12 VDC line, and 2 Amps on the -12 VDC line to safeguard attached backplane modules from electrical damage.

Q: Under what conditions must the technical ratings of this power supply be derated?

A: For continuous operations in environments where high ambient temperatures and low line voltages occur simultaneously, the output specifications must be derated to ensure thermal profiles remain within safe tolerances.

Field Installation Guidelines

  • Chassis Mounting: Slide the module into the leftmost slot position of the GE IC697 or VME rack structure, ensuring the 48-pin rear connector aligns true and seats fully.
  • Input Voltage Jumper Validation: Prior to applying electrical power, verify the position of the external jumper to match the field supply (120 VAC or 240 VAC nominal) to prevent hardware overvoltage failures.
  • Secondary Rack Connection: When utilizing the 2-rack operational capability, use only the designated 3-feet connecting cable. Do not exceed 3 ft of physical separation as loop impedance may induce voltage degradation.
  • Branch Fusing Requirements: Install an appropriately sized external branch circuit switch or fuse block upstream of the module to isolate line power during field servicing and maintenance routines.

¿Qué dicen nuestros clientes sobre nosotros?

Translation missing: es.general.search.loading