Remanufactured

$345.00
  • 13 in stock
  • Additional 346 ready to ship within 2-3 days

Repair

$241.50
  • Usually ships in 3-5 business days

For on-site repair and support, call us at 1-704-448-2212 or email sales@qualitrol.com.

  • IC660BBA100RMN

Overview

Features

  • Unit OK, I/O Enabled LEDs (I/O Block)
  • 1,500V block to block isolation
  • 6W heat dissipation
  • 18 to 56 operating range
  • 8W max. power
  • 10% max. ripple
  • 10ms power supply dropout time
  • 60dB (0 to 1KHz) common mode rejection
  • +/-170V, max. common mode voltage
  • Absolute accuracy:
    • Typical: +/-0.2% of full scale
    • Maximum: +/-0.5% of full scale
    • Within:
      • 50mV on the 10V range
      • 25mV on the 5V range
      • 100mA on the 4 to 20mA range
  • Thermal drift (from 25°C):
    • Typical: 10ppm per °C
    • Maximum: 40ppm per °C
  • External scaling resistor:
    • 1/2W or greater to set full scale to 5V
    • 100W/1W for 10mA to 50mA loops

Description

The GE-Emerson IC660BBA100 Genius Analog I/O Block includes circuits that can accept or provide signals in one of five analog ranges:

  • 0 to 10VDC  
  • -10VDC to +10VDC
  • -5VDC to +5VDC
  • 0-5VDC
  • 4-20mA/1 to 5VDC

This flexibility allows these blocks to be used with a wide variety of analog input and output devices. The block’s internal power supply drives current mode output loads up to 300 Ohms each. For loads up to 2K Ohms, an external 24 or 48VDC power supply can be used.

Configurable block features include:

  • Independent scaling for each input and output
  • Fault reports to the host can be enabled or disabled for each input and output
  • Selectable Input Filter Time up to 1024ms
  • Each input can operate in normal analog input mode, or report only its alarm status
  • Low and high alarm limits for each input, in either normal input mode or alarm input mode
  • Powerup default values for each output
  • Each output can be configured to hold last state or default if CPU communications are lost
  • Input Low Alarm and High Alarm detection
  • Open Wire detection on current mode inputs
  • Input Underrange or Overrange
  • Output Underrange or Overrange