The MVME133 is specified, designed and tested to operate reliably over an intake air temperature range of 0C to 55C with forced air cooling at speeds typically achievable by a 71CFM axial fan. Temperature qualification is performed in a standard Motorola VME Systems chassis. Twenty-five watt load boards were inserted into two card slots, one
VM600 IOC4T input/output card for MPC4 cards Input/output (interface) card for an MPC4 or MPC4SIL card – supports 4 dynamic channels and 2 tachometer channels Differential signal input with sensor power supply output per dynamic channel and per tachometer channel Differential buffered (raw) transducer output per dynamic channel DC output configurable as current-based signal (4
VM600 CPUR2 rack controller and communications interface card VM600 CPUR2/IOCR2 rack controller and communications interface card pair with support for Modbus TCP and PROFIBUS DP “One-Shot” configuration management of protection cards (MPC4) in a VM600 rack using an Ethernet connection to a computer running the VM600 MPSx and VibroSight® software Mathematical processing of data to
VM600 CPUR rack controller and communications interface card VM600 CPUR/IOCR rack controller and communications interface card pair with support for Modbus RTU/TCP and card pair redundancy “One-Shot” configuration management of protection cards (MPC4 and AMC8) in a VM600 rack using an Ethernet connection to a computer running the VM600 MPSx and VibroSight® software Rack controller
VM600 CPUM modular CPU card VM600 CPUM/IOCN rack controller and communications interface card pair with support for Modbus RTU/TCP or PROFINET, and a front-panel display “One-Shot” configuration management of protection cards (MPC4 and AMC8) in a VM600 rack using an Ethernet or RS-232 serial connection to a computer running the VM600 MPSx software Front-panel display
VM600 AMC8 analog monitoring card 8 temperature or process monitoring channels 1 processed output per channel and 1 processed output per multi-channel (4 per AMC8) Highly configurable card supports temperature monitoring using thermocouples and/or RTDs, and process monitoring using current and/or voltage inputs Highly integrated card pair (with IOC8T) includes DC outputs, relays and serial
The VM600Mk2 CPUMMk2 + IOCNMk2 rack controller and communications interface module is designed for operation with the second generation of VM600Mk2 rack-based machinery protection system (MPS), from Meggitt’s vibro-meter® product line. The CPUMMk2 + IOCNMk2 module consists of central processing unit (CPU) and input/output (interface) modules that act as a system controller and data communications
VM600 Mk2 / VM600 XMC16 + XIO16T combustion monitoring module The VM600Mk2/VM600 XMC16 + XIO16T condition monitoring module for combustion provides 16 dynamic channels and 4 tachometer (speed) channels, all of which are independently configurable. The VM600Mk2/VM600 XMC16 + XIO16T combustion monitoring module provides 16 dynamic channels and 4 tachometer (speed) channels, all of which
The VM600Mk2/VM600 XMx16 + XIO16T extended condition monitoring modules are designed for operation with the VM600Mk2/VM600 rack-based machinery monitoring systems, from Meggitt’s vibro-meter® product line. A XMx16 + XIO16T module consists of a processing module and a input/output (interface) module that provide 16 dynamic and 4 tachometer channels of highperformance machinery condition monitoring. Note: The
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