Product content
Model: XVME-290
Category: Digital I/O modules
Finish: New, not new
Stock: available
Brand: Xycom
Features:
68230 Parallel interface/timer chip
Buffer input and output
Shake hands
The VMEbus is interrupted. Procedure
Two 24-bit timers
The Xycom XVME-200 / XVME-201 / XVME-290 digital I/O module is a cost-effective digital I/O module. XVME-200 and XVME-201 are single-height VMEbus compatible digital I/O modules. The XVME-200 provides a VMEbus system with 32 TTL level I/O channels, as well as two 24-bit timer devices. XVME-201 provides 48 channels.
The XVME-200 contains two 68230 parallel interface/timer (PI/T) devices with VMEbus interrupt functionality. The direction of the I/O signal from the PI/T device can be selected by software into four independent 8-bit ports. All inputs and outputs of XVME-200 are buffered. The pin arrangement of the front panel connector is compatible with OPTO Type 22 signal conditioning devices.
For applications that do not allow I/O to be routed from the front panel, the XVME-290 offers 6U form factor, the same functionality as the XVME-200, and I/O is routed through a VMEbus P2 connector on the back of the board.
The XVME-290 is a powerful VME bus module designed for high-performance computing and control tasks. It combines efficient processors, large memory and rich interface resources to provide reliable solutions for industrial automation, military and aerospace.
First, the XVME-290 module is equipped with a high-performance processor that can handle large amounts of data and complex computing tasks. This makes it excellent in applications such as real-time control systems, high-speed data transmission and image processing. Whether it is an industrial production line requiring rapid response or a military system requiring precise control, the XVME-290 provides outstanding performance support.
Second, the module is equipped with sufficient memory resources to ensure high efficiency when processing large amounts of data. You can select an appropriate memory capacity to meet system performance requirements.
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