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VM600 ABE056 Ultra Slim Racks

(houses the MPC4 mechanical protection card)

Key Features and Benefits

– From the vibro-meter® product family

– 19-inch slim rack with 1U standard height

– Rugged metal construction

– Modular concept allows the addition of specific modules (cards) for machine protection or condition monitoring

– Rack or panel mounting

– Backplane supports open collector (OC) bus and power distribution for VM600Mk2/VM600 systems

– Integrated AC input or DC input power supply

– Power check relay

Applications

– VM600Mk2/VM600 Mechanical Protection and/or Condition Monitoring Systems

VM600Mk2/VM600 Mechanical Protection and/or Condition Monitoring Systems

The VM600Mk2/VM600 ABE056 slimline rack is used to house the hardware for the VM600Mk2/VM600 series of machine protection and/or condition monitoring systems in the Vibrometer® product line.

The VM600Mk2/VM600 ABE056 slimline rack has a standard height of 1U and provides mounting space (rack slots) for a single wide VM600Mk2/VM600 processing module (card pair) and a relay module (card).

This rack is particularly suitable for industrial environments where the equipment must be permanently installed in a 19-inch cabinet or panel.

Different versions of the integrated RPS1U power supply can power the VM600Mk2/VM600 ABE056 slimline racks from an external AC or DC power supply.

Both power supplies support a wide input voltage range.

The rack has an integrated backplane that provides electrical interconnection between the integrated power supply (RPS1U) and the installed VM600Mk2/VM600 modules (cards).

The rack also has a power check relay on the rear of the rack to indicate if the integrated power supply is functioning properly.

Key Features and Benefits

– From the Vibro-Meter® product family

– Card Pair Provides 8 Channels of Temperature and Process Monitoring for VM600 Systems Provides 8 Channels of Temperature and Process Monitoring for VM600 Systems

– 8-channel software configuration capability:

Thermocouple (TC), Resistance Temperature Detector (RTD), Current and Voltage Inputs

– Analog signal inputs from 0 to 25 mA and 0 to 10 V Range of analog signal inputs

– Cold Junction Compensation (CJC) sensor processing on two optional channels

– Current output (optional voltage output)

– Programmable alarm, hazard, and OK setpoints

– Includes 4 relays that can be used for alarm signaling under software control

– Control outputs to RLC16 relay card on VM600 frame

– Front panel LEDs indicate status and alarms

– Real-time plug-in card (hot-swappable)

– Available in ‘standard’ and ‘circuit independent’ versions

Applications

– Mechanical protection and/or condition monitoring

Description

AMC8 Card

The AMC8 is an analog monitoring card designed for use in the VM600 rack-mounted system in the Meggitt Vibrometer® product family for machinery monitoring and protection applications.

This versatile card is capable of measuring and monitoring up to eight analog signal inputs simultaneously.

The AMC8 card is available in two versions: a “standard” version and a “circuit independent” version, both of which are available as card pairs using the corresponding IOC8T input/output card.

The AMC8 card is mounted on the front of the VM600 rack (ABE04x or ABE056) and the IOC8T I/O card is mounted on the rear.

Both cards connect directly to the rack backplane via two connectors.

A pair of AMC8/IOC8T cards provides eight channels of temperature monitoring that accept resistance temperature detector (RTD) and thermocouple (TC) temperature inputs as well as process inputs.

The source and type of each channel is selectable during card configuration.

Key Features and Benefits

– From the Vibro-Meter® product family

– Signal interface card with 4 dynamic signal inputs and 2 tachometer (speed) inputs for MPC4 mechanical protection cards

– Screw terminal connectors for all input/output connections (48 terminals)

– Includes 4 relays that can be used for alarm signaling under software control

– 32 fully programmable open collector outputs (jumpers optional) for connection to IRC4 and RLC16 relay cards

– Buffered “raw” sensor signals and analog output signals (voltage or current) for vibration channels

– EMI protection for all inputs and outputs

– Real-time plug-in cards (hot-swappable)

– Available in “standard” and “circuit independent” versions

Applications

– Mechanical protection and/or basic condition monitoring

Description

IOC4T Card

The IOC4T Input/Output card is the signal interface for Meggitt’s VM600 series MPC4 machine protection card.

It is mounted on the rear of the VM600 rack and connects directly to the rack backplane via two connectors.

Each IOC4T card is associated with the corresponding MPC4 card and is mounted directly to the rear of the VM600 rack (ABE04x or ABE056).

The IOC4T operates in slave mode and communicates with the MPC4 through connector P2 using the Industrial Packet (IP) interface.

The front panel of the IOC4T (rear of the VM600 frame) contains terminal strip connectors for connecting the transmission cables from the measurement chain (sensors and/or signal conditioners).

The threaded terminal connectors are also used to input all signals from any external control system and output all signals to any external control system.

The IOC4T card protects all inputs and outputs from electromagnetic interference (EMI) and signal surges and complies with electromagnetic compatibility (EMC) standards.

The IOC4T connects raw dynamic (vibration) and velocity signals from sensors to the MPC4.

These signals are processed and passed back to the IOC4T and made available on its front panel (rear of the VM600) terminal strip.

For dynamic signals, four on-board digital-to-analog converters (DACs) provide calibrated signal outputs in the 0 to 10 V range.

In addition, four on-board voltage-to-current converters provide current output signals in the 4 to 20 mA range (jumper optional).

The IOC4T contains four local relays that can be used for any specific alarm signal under software control.

For example, in a typical application, these relays can be used to signal an MPC4 fault or a problem detected by the common alarms (Sensor Normal, Alarm, and Hazard).

In addition, 32 digital signals representing alarms are transmitted to the rack backplane and can be used by the optional RLC16 Relay Card and/or IRC4 Intelligent Relay Card (with optional jumpers) mounted in the rack.

Vibration Meter VM600 Mk2

The Vibrometer VM600Mk2 is an advanced vibration monitoring and protection system for complex and critical rotating machinery.

Its high channel density and fully configurable 19” card structure make it suitable for complex installations and large (critical) machinery.

Benefits

Modular System Architecture

The efficient 19-inch modular card structure allows the creation of application-specific monitoring, protection or combination systems.

SIL-certified protection

The VM600Mk2 protection card is designed to meet the vibration protection requirements of SIL 2 certification, making the system suitable for protecting the most critical rotating machinery.

Centralized architecture

Its centralized architecture allows for high channel density, making the VM600Mk2 excellent at providing advanced vibration protection and monitoring for large (critical) machinery.

“State-of-the-art vibration protection and monitoring system for critical rotating machinery”

Design

The Vibrometer VM600Mk2 is designed to provide state-of-the-art vibration monitoring and protection (SIL 2), especially for large critical rotating machinery with high channel counts.

Its modular 19-inch card allows the user to build a system to suit specific application requirements.

In addition, the system can be integrated with VibroSight software, which provides detailed insight into the condition of rotating machinery and a wide range of analysis options.

Applications

The VM600Mk2 is suitable for plants where rotating machinery is concentrated in one area, requiring centralized monitoring and a high channel count.

Typical applications include:

■ Gas turbines

■ Steam turbines

■ Water turbines

Key Features and Benefits

– From the Vibro-Meter® product family

– Continuously on-line machinery protection card

– Real-time measurement and monitoring with state-of-the-art DSP technology

– 4 dynamic signal channels and 2 RPM (speed) channels, all individually programmable

– Programmable broadband and narrowband filters

– Simultaneous monitoring of amplitude and phase in sequential tracking mode

– Programmable alarms, hazards and defined setpoints

– Adaptive alarm and hazard levels

– Front panel BNC connector for easy analysis of buffered “raw” transducer signals

– Front panel LEDs to indicate status and alarms

Key Benefits and Features (continued)

– Integrated power supply for sensors and signal conditioners such as IEPE accelerometers and proximity measurement systems

– Real-time plug-in cards (hot-swappable)

– Available in “standard”, “circuit independent” and “safety” (SIL) versions

Applications

– Mechanical protection and/or basic condition monitoring

Description

MPC4 Card

The MPC4 Machine Protection Card is the centerpiece of the VM600 series of Machine Protection Systems (MPS) from Meggitt’s Vibrometer® product line. The card is extremely versatile, capable of measuring and monitoring up to four dynamic signal inputs and two velocity inputs simultaneously.

The dynamic signal inputs are fully programmable and can accept the following signals

acceleration, velocity and displacement (proximity) signals. On-board multi-channel processing allows measurement of a wide range of physical parameters including relative and absolute vibration, Smax, eccentricity, thrust position, absolute and differential case expansion, displacement and dynamic pressure.

Digital processing includes digital filtering, integration or differentiation (if required), rectification (RMS, average, true peak, or true peak-to-peak), order tracking (amplitude and phase), and measurement of transducer-to-target clearance.

The speed (tachometer) input accepts signals from a variety of speed sensors, including systems based on proximity probes, magnetic pulse pickup sensors, or TTL signals. Fractional tachometer ratios are also supported.