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Part Number |
VMIVME-2120-175 |
---|---|
Manufacturer |
GE Fanuc |
Product Name |
VMIVME Digital Output Board |
Series |
VMIC |
Form Factor |
1-Slot, B-size VMEbus Card |
Current Capacity |
600 mA Sink |
Voltage Range |
5 VDC to 48 VDC |
Breakdown Voltage |
55 V |
Channels |
64 Channels |
Output Type |
Open Collector |
High-Voltage Output: Supports output voltages from 5 VDC to 48 VDC, making it adaptable for a wide range of industrial control applications.
Powerful Current Handling: Each of the 64 open collector channels can sink up to 600 mA, enabling direct control of high-power devices like motors and lamps.
Self-Diagnostic Features: Built-in test (BIT) logic for software-controlled verification of each output, ensuring operational reliability.
VMEbus Integration: A 1-slot, B-size VMEbus card that integrates seamlessly into VMEbus-based systems for easy system upgrades.
Industrial Durability: Designed for industrial environments, offering robust performance and reliability in demanding automation tasks.
Q: What is the VMIVME-2120-175 Digital Output Board?
A: It’s a GE Fanuc VMIC digital output board designed to provide reliable, high-speed digital signal outputs for VMEbus-based control systems.
Q: What systems is it compatible with?
A: This output board is compatible with GE Fanuc VMIC systems, providing seamless integration for digital output requirements in industrial automation setups.
Q: What does the digital output board do?
A: It converts processed data into digital signals to control external devices, such as relays, solenoids, or actuators, in real-time automation processes.
Q: Why choose the VMIVME-2120-175?
A: It offers reliable performance, high-speed signal output, and easy integration into GE Fanuc VMEbus systems, making it ideal for demanding industrial applications.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring full compatibility, superior performance, and long-term reliability.
Inspect for Physical Damage: Regularly check the digital output board for cracks, burn marks, or loose components.
Clean the Board: Use dry compressed air or an anti-static brush to remove dust and debris from the board and its connectors.
Check Output Signal Integrity: Test the output signals to ensure they are functioning correctly and within the required voltage levels.
Verify Power Supply: Ensure the board is receiving the correct and stable power supply (voltage and current) to prevent operational issues.
Inspect Connectors: Check all connectors for secure attachment and ensure there is no corrosion, damage, or loose connections.
Monitor Temperature: Ensure the board operates within the recommended temperature range and is properly ventilated to avoid overheating.
Check for Short Circuits: Regularly check for short circuits in the output wiring and ensure proper insulation.
Run Functional Tests: Test the functionality of the digital outputs regularly to confirm they are triggering devices correctly and responding accurately.