GE IC695CPU315

Description

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Parameters and Specifications

• Processor: RX3i PacSystems 1.0 Gigahertz Celeron M CPU¹²
• User Memory: 20 MB¹²
• Discrete I/O Memory: 32 KB reserved¹²
• Analog I/O Memory: 32 KB reserved¹²
• Program Block Support: Up to 512 program blocks, each with a size of 128 KB¹²
• Communication Ports: Two integrated serial ports, one supporting RS-232 communication and the other supporting RS-485 communication¹
• Serial Protocols: Supports serial I/O, Modbus RTU slave, and SNP protocols¹
• Current Consumption: 1.2 amps at 5V DC, 1 amp at 3.3V DC¹
• Operating Temperature Range: From 32°F to 140°F¹
• Internal Clock Accuracy: Maximum internal timing accuracy of 0.01%, with a rated peak drift of 2 seconds per day¹

Dimensions and Weight

• The exact dimensions and weight are not readily available for the IC695CPU315 module.

Series

• It belongs to the RX3i PacSystems series of industrial automation and control products from GE Fanuc.

Features

• High Performance: Utilizes an Intel Celeron M processor for powerful computing and data processing capabilities¹²³.
• Large Memory Support: Supports large user memory and NVRAM for storing user programs, data, and system configurations¹²³.
• High-Speed Communication: Supports high-speed serial communication and RX3i PCU bus for fast and reliable data transmission¹²³.
• Flexible Programming: Supports multiple programming languages, including C, ladder logic, and structured text³.
• Multiple Battery Options: Compatible with GEIP-approved auxiliary battery packs¹².

Applications and Role

• The IC695CPU315 is a servo drive module used in industrial automation and control systems for driving and controlling various applications⁴. It is commonly used in areas such as:
  • Industrial Machinery: Driving and controlling mechanical motions in machines like lathes, packaging machines, and conveyors⁴.
  • Automated Production Lines: Driving and controlling actuators like conveyor belts, robotic arms, and lifts⁴.
  • Robotics: Driving and controlling robotic joint movements and end effectors⁴.
  • Chemical and Process Control: Driving and controlling valves, pumps, and actuators for precise flow, pressure, and temperature control⁴.
  • Precision Instrumentation: Driving and controlling motion components in precision instruments for tasks like focus adjustment and platform movement⁴.
  • Laboratory Research: Driving and controlling motion components in experimental equipment for automation and precise control of experiments⁴.

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