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Category: Industry trends

Home / Industry trends (Page 7)
2025-01-07 BY
IN Industry trends

DS200DCFBG1BGB|Power board Mark V Turbine control system series

The DS200DCFBG1B is a power supply board manufactured by General Electric for the Mark V board series. AC2000, CB2000, DC2000, FC2000, ME2000 and EX2000 series machines can install the board in the drive. When installed, the card provides control level power and enclosure fan power to the featured Mark V Series automatic driver assembly. This DS200DCFBG1B Power Supply Board product belongs to the Mark V series, which is a legacy series from GE as it is no longer actively produced by its original retailer, although the Mark V is believed to be one of the last product lines of the GE Mark. Patented Speedtronic control system technology is used in its various products. Although the DS200DCFBG1B printed circuit board itself exists as a power board, it is not the original GE product in which this feature exists in the Mark V turbine control system family; This will be a DS200DCFBG1B parent printed circuit board that lacks this DS200DCFBG1B product Class B feature product revision.

Hardware tips and specifications

This DS200DCFBG1B printed circuit board, or PCB for short, comes with its own set of hardware component inclusions and specifications that introduce its intended Mark V Series functionality. Voltages rated between 38 and 115 VAC can be supplied directly to the board via a control power transformer. The frequency of the board depends on the input voltage, but ranges from 0 to 500 kHz. The board has a number of circuits that are used to power the board and the installed drivers. DS200DCFBG1B is composed of motor excitation power supply, driver, AC/DC monitoring and control level power supply circuit. The 12 jumpers and 7 DIP switches on the board provide users with configurable system options; The fuse switch diagnostics are displayed using two leds and a neon indicator on the board. Any jumpers on this DS200DCFBG1B product substrate will come with a JP factory printed naming label and, for DIP switches, a SW label. Three protective fuses prevent power outages. The DS200DCFBG1B can monitor the voltage using five test points integrated on the board. Similar to the fuse of the DS200DCFBG1B device, the DS200DCFBG1B product utilizes a specific family of connectors to connect to other Mark V Series products. The DS200DCFBG1B power board features a total of 18 plug connectors and 9 additional pin connectors with various functions listed in the DS200DCFBG1B data sheet provided above.
GE DS200DCFBG1BGB PLC Digital Communication Interface Board
The purpose of the three LED indicators that came with this DS200DCFBG1B board is detailed in the original DS200DCFBG1B instruction manual attached above, and each LED indicator comes with its own factory-printed naming label. The LED diagnostic indicators included in the DS200DCFBG1B PCB assembly include:

CR51 FU2 DC Voltage Regulator status LED
CR55 FU3 DC Voltage Regulator status LED
LT1 FU1 AC line status LED
The CR51 and CR55 LED diagnostic indicators in the external components of the DS200DCFBG1B power supply board exist as basic red LED status indicators, while the LT1 marked LED diagnostic indicator of the DS200DCFBG1B printed circuit board exists in the form of neon lights. These LED indicators are named by their factory-printed naming label and their combination of features relative to the DS200DCFBG1B power board and its larger Mark V Series automatic driver assembly. In addition, a total of five test points are available for the common Mark V Series component version inherent to the DS200SDCIG1A product. Each of these test points is included to identify a specific value related to the voltage signal, the common end of the DS200SDCIG1A board, or the state of the ACCT signal. Before making a final purchase decision on this DS200DCFBG1B printed circuit board, it is important to be aware that the performance specifications and dimensions it originally introduced have been affected by the product into which it is plugged B-level functional. This will prevent any accidental or preventable damage to both devices. This DS200DCFBG1B product belongs to a set of Mark V fan control System family product groupings that can be identified as the only Mark V Series group available for DCFB products. For complete guidance on circuit board wiring and installation, refer to the device’s manual and data sheet. Initially, technical support for the board and the Mark V series was provided by manufacturer General Electric. AX Control’s friendly and trusted sales staff can help you with all your automation needs. For prices for current availability and for DS200DCFBG1B and other parts, please contact our office by phone or email.

FAQ about DS200DCFBG1B
Why is DS200DCFBG1B powered?
The DS200DCFBG1B provides control level power for the driver and 115 VAC power for the case fan.
What is the function of the attenuation circuit on DS200DCFBG1B?
The DS200DCFBG1B includes a motor voltage attenuation circuit. The circuit DS200DCFBG1B provides an analog representation of the mtor voltage. The attenuating circuit on the DS200DCFBG1B is offset at 2.5 volts and can vary in the 0-5V range depending on the motor voltage.

GE DS200CTBAG1ADD - Terminal Board for Mark V Series PLCs
2025-01-07 BY
IN Industry trends

DS200CTBAG1ADD|The terminal board is used in its Mark V series control system

DS200CTBAG1ADD is a terminal board designed for use in GE Mark V Speedtronic systems. The Speedtronic family was created by General Electric to control large and small gas and steam turbine systems. MKV can be designed as a Simplex or TMR/triple modular redundant architecture to meet the needs of interconnected turbine systems. These boards are no longer manufactured and distributed by GE, but can be purchased as fully tested and refurbished models through AX Control. The Mark V turbine control system family to which this DS200CTBAG1ADD printed circuit board belongs is considered a legacy product family, as it was discontinued many years after its initial release. This DS200CTBAG1ADD printed circuit board, or PCB for short, is not an original product of the intended functionality of its particular Mark V series; This will be the DS200CTBAG1 Analog Termination Module missing all three significant product versions of the DS200CTBAG1ADD device.

Hardware tips and specifications

The DS200CTBAG1ADD is a long, narrow circuit board with only a few types of components. It drilled holes in each corner and long side to allow for the installation of hardware and other connections. Two of the holes are surrounded by conductive material. The voltage regulation in the assembly of this DS200CTBAG1ADD printed circuit board product is mainly handled by its standardized Mark V series voltage limiting hardware components; This DS200CTBAG1ADD PCB’s regular Mark V series assembly is clearly specialized with several red coated diodes. The board is marked with an identification number, including the board ID number and the company logo. DS200CTBAG1ADD is an analog terminal module. It is usually located within the <R5> kernel. The board has multiple connectors, including two COREBUS connectors (JAI and JAJ). The DS200CTBAG1ADD has two double stack terminal strips located on a long board edge with multiple connectors on each terminal board. There are 5 vertical pin cable connectors, 2 vertical pin connector connectors, and a 9-pin male serial connector. Fortunately, for this DS200CTBAG1ADD personalized product page, the various connectors for this DS200CTBAG1ADD PCB are described in detail in the manual materials available for this DS200CTBAG1ADD device. Each of these connectors comes with its own factory-printed naming label. Some of the connectors for DS200CTBAG1ADD PCB include:

8PL STCA board IONET connector
JAA TCCA board 4-20 mA output signal connector
JAI COREBUS connectors
JAJ COREBUS connector
JBB TCCA board 4-20 mA input and shaft voltage/current signal connectors
JEE STCA board COREBUS signal connector
JPC TCPD Board 24 V DC power signal connector
JX TCDA board IONET signal connector
6PL connector
All connectors listed above in this DS200CTBAG1ADD terminal module assembly have been named by their individual factory-printed naming labels, specific Mark V Series compatible products and interface opportunities, and a combination of specific Mark V turbine control system family applications and functions. The 6PL connector in this DS200CTBAG1ADD PCB assembly has not yet been named because it exists as a vesitigial structure that is normally not used during the normal function of the DS200CTBAG1ADD device. Other components on the DS200CTBAG1ADD include a resistor network array, relays, transistors, more than 20 metal oxide varistors (MOV), a dozen jumper switches, and many capacitors and resistors.

General Electric DS200CPCAG1ABB Contactor Pilot Card
2025-01-07 BY
IN Industry trends

DS200CPCAG1ABB|The contactor guide plate is manufactured by General Electric

As mentioned earlier, this DS200CPCAG1ABB printed circuit board product was manufactured for GE’s now obsolete Mark V legacy family of turbine control systems. The Mark V series of this DS200CPCAG1ABB printed circuit board, or PCB for short, is considered a traditional product family because it had to be discontinued for many years after its first release. While the larger Mark V series of this DS200CPCAG1ABB PCB is a legacy series, it is also one of the final in GE’s Mark product line, leveraging its patented Speedtronic control system technology. The technology was first released in the late 1960s along with the concept of the Mark I series. The DS200CPCAG1ABB PCB is defined in the original printed Mark V Series instruction manual material as a contactor navigation board, although the product initially developed with a specific functional role will be the DS200CPCAG1 parent contactor navigation board. However, the triple revision history of this DS200CPCAG1ABB PCB is missing, consisting of two functional product revisions and a single artwork configuration revision.

Hardware tips and specifications

As with any Mark V Series product offered to us for both new and refurbished stock, the contactor navigation board functionality of this DS200CPCAG1ABB PCB was introduced by accepting various functional induction hardware components in its components. The GE contactor navigation pad DS200CPCAG1ABB has one 12-pin connector and two 2-pin connectors. It also has 4 terminals and can connect up to 12 signal wires. The GE contactor navigation board DS200CPCAG1ABB also has a 24VDC 15A socket power relay. According to the original operating instructions of this DS200CPCAG1ABB device, the various contactor elements of this DS200CPCAG1ABB PCB have a specific coil voltage of 115 V dc. Given this specific voltage, the DS200CPCAG1ABB contactor navigation board is capable of converting the input 115 V AC voltage to 105 V DC voltage, applying the full voltage to close its contactor assembly. The high voltage used in the DS200CPCAG1ABB product assembly means that its contactors remain closed after the initial closure. Voltage regulation in the components of the DS200CPCAG1ABB Mark V Turbine Control System family is handled by the various voltage limiting hardware components that their components possess, including various rectifiers, capacitors and diodes. The components of this DS200CPCAG1ABB PCB have a thick normal style PCB surface coating, which enhances the damage to everyday wear.
General Electric DS200CPCAG1ABB Contactor Pilot Card

There are moving parts inside the relay, so careful consideration is needed when installing the board in the driver. If the relay strikes the metal structure or other components in the drive cabinet, it is easily damaged. And the relay is tall, protruding from the surface of the plate and easy to hit. When sliding the board into the drive cabinet, ensure that you have a good view of the board and the interior of the cabinet. Slowly insert the board and align it with the screws on the rack. Insert the screw into the hole with one hand and turn the screwdriver with the other hand to secure the screw. However, do not damage the board by securing it so tightly that the screws will crack it. If the gasket is supplied or used on a defective circuit board, use a gasket. Then, unscrew the junction box and insert the wire into the corresponding terminal. Insert the wire into the terminal with one hand and tighten the terminal screw with the other hand. Hold the connector of the cable and plug it into the corresponding connector. Gently press them into the connector to ensure they are fully in place.

FAQ about DS200CPCAG1ABB
How to find capacitors on DS200CPCAG1ABB?
The capacitors of the DS200CPCAG1ABB are located in the center of the DS200CPCAG1ABB board. The capacitors on the DS200CPCAG1ABB are dark red.
How many amps does DS200CPCAG1ABB have?
The DS200CPCAG1ABB has 10 amps at 250 volts, and the DS200CPCAG1ABB has 10 amps at 30 volts.
What is the size of DS200CPCAG1ABB?
The DS200CPCAG1ABB measures 4 x 3.5 inches.

GE DS200ADPBG1ABB: Precision Engineered for Industrial Control Systems
2025-01-07 BY
IN Industry trends

DS200ADPBG1ABB|Genius adapter board

The DS200ADPBG1ABB Genius adapter board is a board supplied by General Electric, which is somewhat mysterious in addition to its description of its function as a Genius adapter board and its original belonging to GE’s Mark V Series turbine control system. While it can be loosely defined as a GE product, the Mark V series was most likely originally manufactured by a shell company of GE, such as GE Drive Systems or GE Industrial Control Systems. Before deciding to buy this DS200ADPBG1ABB Mark V Genius adapter board, consider the fact that this product takes full advantage of all three of its possible important product versions, which may significantly change its originally indicated performance specifications and dimensions.

Hardware tips and specifications

As with any Mark V Series product, this DS200ADPBG1ABB Genius adapter board uses a unique and enhanced family of hardware components and component specifications to achieve its intended function. First, the Genius I/O adapter board DS200ADPBG1ABB has an 8-switch block for configuring the board. The Genius I/O adapter board DS200ADPBG1ABB also comes with a 40-pin connector and a 26-pin connector. The third and final visually recognizable hardware element is crucial to this DS200ADPBG1ABB Genius adapter board, its family of manually removable hardware jumbos that have been included in its components for the highest customization purposes. The information stored on this personalized DS200ADPBG1ABB product page is about the range of information that can be retrieved from the inspection of available DS200ADPBG1ABB manual materials. Having said that, you can still get a lot of information from the DS200ADPBG1ABB product number itself (beginning with the DS200 series label). This series label has dual naming responsibility for this Mark V series product; Indicates that it is a domestically manufactured GE product with normal assembly type. Some additional information revealed in the DS200ADPBG1ABB Feature Product number for this DS200ADPBG1ABB Genius adapter board includes:

ADPB Functional acronym
A normal PCB coating style
Group A 1 Mark V Series Group
Level A and Level B functional revisions
Class B draft revision
GE DS200ADPBG1ABB: Precision Engineered for Industrial Control Systems
Before making any final purchase decision on the DS200ADPBG1ABB Mark V Series products, it is most important to be aware that the originally introduced specifications and dimensions stored on this DS200ADPBG1ABB feature product page may be subject to change due to their aforementioned feature and illustration configuration revisions. To help implement a convenient and safe DS200ADPBG1ABB board installation practice in its larger Mark V Series automatic driver assembly, the substrate of this DS200ADPBG1ABB PCB has been factory drilled in multiple locations, and each of these GE holes appears to be surrounded with insulation. Most likely to comply with potentially destructive DS200ADPBG1ABB plate surface voltages. Typically, the voltage protection and suppression strategy of this DS200ADPBG1ABB printed circuit board involves its normal Mark V series components accepting multiple standardised voltage limiting hardware components in series, including various capacitors, resistors, and integrated circuits.

FAQ about DS200ADPBG1ABB
What type of components does the DS200ADPBG1ABB Genius adapter board have?

This DS200ADPBG1ABB Genius adapter board has a normal assembly type, as evidenced by the DS200 label in its DS200ADPBG1ABB functional product number.
Is this a large model of a GE printed circuit board?

While this DS200ADPBG1ABB Genius adapter board isn’t the largest GE printed circuit board, it’s a pretty clunky model given its unique “L” shape.

GE-FANUC DS200ADGIH1AAA Circuit Card: High-Performance Industrial Control Module
2025-01-07 BY
IN Industry trends

DS200ADGIH1AAA|The auxiliary interface board was manufactured by General Electric

General ELectric’s DS200ADGIH1AAA product is a printed circuit board originally manufactured for the Mark V family of turbine control systems, as described in the brief product description above. This DS200ADGIH1AAA printed circuit board, or PCB for short, the Mark V series, as you might have guessed from its full extended series name, has a range of specific applications in the management and control systems of GE compatible steam and gas turbine automation drive components. The Mark V series featuring this DS200ADGIH1AAA device, while related to newly developed turbine control applications, can still be considered obsolete overall, as it is GE’s legacy product line, discontinued in the years after its initial release due to obsolescent feature lines introduced by retailers. While generally obsolete, the Mark V was one of the last product families developed by GE, leveraging the patented Speedtronic control system technology that first appeared with the introduction of the previous Mark I series in the mid-to-late 1960s.

Hardware tips and specifications

As with any product offered in the Mark V family of turbine control systems, the intended functionality of this DS200ADGIH1AAA device is introduced by accepting a range of specialized hardware components and component specifications for its normal Mark V Series components. The GE auxiliary interface board DS200ADGIH1AAA has a 40-pin connector, 60 jumpers, and a 6-pin connector. The GE auxiliary interface board DS200ADGIH1AAA is also equipped with multiple test points. The board is 8 inches wide. The DS200ADGIH1AAA is 6 inches long and is designed to be installed in the driver’s board cabinet. It has four screws, which are aligned with the position of the board frame for installation with screws. As mentioned earlier, this DS200ADGIH1AAA product belongs to an older product family that is now obsolete. Because of this, it is not surrounded by any large amount of original printed online instruction manual material. In this case, the DS200ADGIH1AAA functional product number itself can be identified as a good primary source of hardware component and component specification information for the DS200ADGIH1AAA Board; Code specific details in a collection of functional named segments for the design. For example, the DS200ADGIH1AAA functional product number contains details about the normal Mark V series components of this PCB, its conformal coating style, and its three-fold product revision table, including three seemingly identical Class A product revisions.

The test point in the DS200ADGIH1AAA device assembly provides a method for testing the circuit on the board. However, only a qualified service provider can test the board. The vendor must have test equipment calibrated and designed for the task. The controls must be set up correctly, and the probe must be designed to work with the tester. Place the development board on a flat surface and place a protective bag under the development board. In addition, due to the risk of static electricity from DS200ADGIH1AAA Board service providers, a wristband must be worn at all times. When the wristband is properly installed, one end of the wristband is attached to your wrist and the other end is clipped to the metal leg of the workbench or table. It can also be attached to other metal structures. Static electricity is attracted to the metal ground and leaves the circuit board or your body. Another appropriate step to reduce static buildup is to avoid moving around while holding the board in your hand. The friction of walking causes static electricity to build up. This is especially true in cool, dry weather conditions. If you don’t have a wristband, you can also touch the static bag with the board onto a metal structure, such as a chair or metal table leg.

FAQ about DS200ADGIH1AAA
What is the size of DS200ADGIH1AAA?
The DS200ADGIH1AAA is 8 inches wide. The DS200ADGIH1AAA is 6 inches long.
How is the claw on DS200ADGIH1AAA marked?
The insert claw on DS200ADGIH1AAA is marked with EG1-EG4. On DS200ADGIH1AAA, they are located in a square format on DS200ADGIH1AAA.

GE FANUC DS200SDCCG1A - High-Performance Drive Control Module for Industrial Automation
2025-01-07 BY
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DS200AAHAG2A|ARCNET HUB LAN driver board

The DS200AAHAG2A is a MARK V LM Speedtronic ARCNET HUB LAN driver board. The board was originally created by GE, but is now a traditional series module that no longer receives any support from GE. Nonetheless, AX Control does try to keep that board in stock when there is an available surplus in the market. Although a legacy series, the larger Mark V series of this DS200AAHAG2A PCB is also considered to be one of the last products in GE’s Mark product line, utilizing their Speedtronic control system technology, which first appeared in the launch of the Mark I series in the late 1960s. The DS200AAHAG2A ARCNET HUB LAN driver board was not originally developed, its function appeared in the Mark V series; It will be A DS200AAHAG2 parent ARCNET HUB LAN drive board that lacks this DS200AAHAG2A device standard Class A feature product revision.

 

Hardware tips and specifications

 

The DS200AAHAG2A is also known as the ARCNET Connector Board (AAHA). It is made as part of the control panel in the Mark V system. The AAHA board is able to connect external devices to the control engine, which is part of the <R> Core. It uses an ARCNET connection to do this. The <R> kernel actually uses two of these boards for slightly different purposes. An AAHA board is used to facilitate Stage Link between different operator interfaces and <R> kernels. Another AAHA board is used to grant <R> core communication to the COREBUS network. Establishing this connection facilitates communication between the control engine and the I/O kernel within the <R> kernel. The board is also connected to the PANA board using APL connectors. DS200AAHAG2A (AAHA) features the following:

 

Two connection ports.

The other two ports on the right, labeled P1 and P2, are ARCBNC-B and ARCBNC-A.

Below the P1 connector is a 2PL connection. The lower right corner of the board is an APL 10-pin connector that provides a communication link between the AAHA board and the board that contains the ARCNET driver in the <R> kernel.

As with any individual hardware component in this DS200AAHAG2A printed circuit board assembly, each of these connectors comes with its own factory-printed naming label for easy identification. Some of the connectors included in this DS200AAHAG2A device in addition to the APL connectors include 2PL TCPS board R-core connectors, ARCBNC A and ARCBNC C ARCNET BNC connectors, and EBNC and EPL connectors. Each of these connectors is named by combining their functionality in the Mark V Series automatic drive components, the aforementioned naming labels, and their interface potential with other PCBS. The EBNC and EPL connectors in this DS200AAHAG2A PCB assembly have not yet been named, as they are both residual structures designed not to be used during the normal function of the DS200AAHAG2A PCB and its larger automated drive assembly. The DS200AAHAG2A device, part of the Mark V family of turbine control systems, offers a number of hardware features for analyzing the embedded function segment of the DS200AAHAG2A function product number itself. For example, the DS200AAHAG2A functional product number begins with a dual-function DS200 series label, which is used to indirectly describe the normal Mark V Series assembly version of this DS200AAHAG2A device and its original GE manufacturing location. Through diligent analysis led by technicians, through careful analysis of this DS200AAHAG2A functional product number, some other relevant pieces of hardware information were revealed, This includes the AAHA functional product acronym for DS200AAHAG2A ARCNET connectors, normal PCB coating styles, A second set of Mark V Series product groupings, and finally a single Class A functional product revision.

 

FAQ about DS200AAHAG2A

Is the DS200AAHAG2A the only AAHA board used in the <R> kernel?

 

No, the < R > kernel uses two AAHA boards. The DS200AAHAG2A can be one of the AAHA boards used in the < R > kernel, but there must be another AAHA board.

Where can I see the DS200AAHAG2A chart?

You can find the DS200AAHAG2A drawing in Figure 6353 of the Mark LM Turbine Control Manual – Manual GEH-5.2. This DS200AAHAG2A diagram in the manual depicts the DS200AAHAG2A in a simple way and shows all the connections and functions of the DS200AAHAG2A.

What hardware does the DS200AAHAG2A use?

The DS200AAHAG2A requires no hardware or software configuration to install in the control system.

Vibro-meter VM600 CPU Module 200-595-031-111
2025-01-03 BY
IN Industry trends

VM600-CPUM|VM600 frame meter

The VM600Mk2 CPUMMk2 + 1OCNMk2 rackcontroller and communicafions interface moduleis designed for operation with the secondgeneration of VM600Mk2 rack-based machineryprotection system (MPS), from Meggitt’svibro-metere product line. TheCPUMMk2 + IOCNMk2 module consists of centralprocessing unit (CPU) and input/output(interface) modules that act as a systemcontroller and data communications gateway forVM600Mk2 systems.
VM600Mk2 rack-based monitoring systemsThe vibro-meter® VM600Mk2 rack-basedmonitoring system is the evolution of Meggitt’ssolution for the protection and monitoring ofrotating machinery used in the power generationand oil & gas industries.VM600Mk2 solutions arerecommended when a centralised monitoringsystem with a medium to large number ofmeasurement points(channels)is required.lt istypically used for the monitoring and/orprotection oflarger machinery such as gassteam and hydro turbines, and generators,smallermachines such as compressors, fansmotors,pumps and propellers, as well as balanceof-plant (BOP)equipment.
A VM600Mk2 system consists of a 19″ rack, a rackpower supply and one or more monitoringmodules.Optionally,relay modules and rackcontrollerand communications interfacemodules can also be included.
Two types of rack are available: a VM600Mk2system rack (ABE04x,6U) that can house up totwelve monitoring modules, and a VM600Mk2slimline rack(ABE056,1U) that can house onemonitoring module.The racks are typicallymounted in standard 19″rack cabinets orenclosures installedin an eauipment room,
Vibro-meter VM600 CPU Module 200-595-031-111
Different VM600Mk2 monitoring modules areavailable for machinery protection, conditionmonitoring and/or combustion monitoringapplications.For example.the
MPC4Mk2 + 10C4Mk2 module supports bothmachinery protection and condition monitoringthe XMV16+ Xl016T module supports extendedcondition monitoring for vibration and theXMC16+X1016T module supports extendedcondition monitoring for combustion.
Note: For the MPC4Mk2 + 10C4Mk2 machineryprotection and condition monitoring module. themachinery protection functionality is available bydefault, while the condition monitoringfunctionality is optional and depends on thepurchased VibroSights software license.
The RLC16Mk2 relay module is an optional moduleused to provide addifional relays when the fouruser-configurable relays per MPC4Mk2 + 10C4Mk2module are not sufficient for an application.
The CPUMMk2 + lCNMk2 rack controller andcommunications interface module is an optionalmodule used to provide additional yM600Mk2system functionality such as fieldbus
communications(ModbusTCP and/orPROFBUS DP); module data aggregation,processing and sharing:rack and/or fieldbuscommunicationsredundancy:front-panel alarmreset (AR); MPS rack (CPUx) security: system eventand measurement event logging.
VM600Mk2 rack-based monitoring systemscomplement the vibroSmart distributedmonitoring systems that are also available fromMeggitt’s vibro-metere product line, and arecompatible with the same VibroSight” machinerymoniforing software suite.

VM600 IOC4T
VM600 RPS6U
VM600-204-040-100-012
VM600-ABE040
VM600-ABE042
VM600-AMC8
VM600-ASPS
VM600-CMC16
VM600-CPUM
VIBRO-METER VM600-CSA 204-040-100-211 Control System Module
2025-01-03 BY
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VM600-CMC16|Vibrometer VM 600 series condition monitoring system

The MPC4 machinery protection card is thecentral element in the VM600 series machineryprotection system (MPS], from Meggitt’sVibro-Meter” product line. This very versatile cardis capable of measuring and monitoring up tofour dynamic signal inputs and up to two speedinputs simultaneously.
The dynamic sianal inputs are fully programmableand can accept signals represenfingacceleration,velocity and displacement(proximityl.amona others.On-poard multi-channel processing allows measurement ofvarious physical parameters,including relativeand absolute vibration, Smax, eccentricity, thrustposition,absolute and differential housingexpansion,displacement and dynamic pressure
Digital processing includes digital filteringintegration or differentiation (if reguired),rectification (RMS,mean valve, true peak or truepeak-to-peak),ordertracking(amplitude andDhase)and measurement of the sensor-fargetgaD.
The speed (tachometer) inputs accept signalsfrom a varety of speed sensors,including systemsbased on proximity probes,magnetic pulse pickup sensors or TL signals. Fractional tachometerratios are also supported.
The configuration can be expressed in metric orimperial units. Alert and Danger set points are fullyprogrammable,as are alarm time delay.hysteresis and latching. The Alert and Dangerlevels can also be adapted as a function of thespeed or any extemal informafion.
A digital output is available internally (on thecoresponding lOC4T input/output card) for eachalarm level.These alarm signals can drive fourlocal relays on the lOC4T card and /or can berouted using the yM600 rack’s Raw bus or OpenCollector(OC) bus to drive relays on opfionalrelay cards such as the RLCló orlRC4.
The processed dynamic (vibration) signals andspeed signals are available at the rear of the rack(on the front panel of the lOC4T) as analogoutput signals.Voltage-based (0 to 10 V) andcurrent-based(4 to 20 mA) signals are provided.

An LED indicator on the MPC4 front panelindicates whether a processing or hardware erolhas occurred.Six additional LEDs (one per inputchannel) indicate whether the OK System hasdetected a fault and whether an alamm hasoccurred on the channel.
The MPC4 card is available in three versions: a”standard” version,a”separate circuits” versionand a “safety”(SlL) version, all of which functionas a card pair using a corresponding lOC4T input,output card.
Different versions of the MPC4 card
The MPC4 card is available in different versionsincluding “standard”,“separate circuits” and“safety” (SlL) versions.In addition, some versionsare available with a conformal coating appliecto the circuitry of the card for additionalenvironmental protection against chemicalsdust,moisture and temperature extremes.
Both the ‘standard’version and the “safety”(SlL]versions of the MPC4 card are certified tolEC 61508 and lSO 13849, for use in functionalsafety contexts,such as SlL lin accordance withEC 61508 and PL c in accordance with
ISO 13849-1.
The “standard” MPC4 card is the original versionand supports all features and processing modesThe”standard” MPC4is intended for safetysystems using a VM600 rack with a limited rangeof cards,that is,”standard”MPC4/OC4T cardpairs and RLCl6 relay cards. lt has a VME.compatible slave interface so it is softwareconfigurable via VME when there is a CPUx cardacting as a rack controller in the VM600 rack. lt isalso software configurable via RS-232 (on the frontpanel of the card).

VM600 IOC4T
VM600 RPS6U
VM600-204-040-100-012
VM600-ABE040
VM600-ABE042
VM600-AMC8
VM600-ASPS
VM600-CMC16
VM600-CPUM
Vibro-meter VM600-ABE042 204-042-100-011 - Industrial Vibration Monitoring Module
2025-01-03 BY
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VM600-ASPS|For power protection or monitoring in automated systems

The auxiliary sensor power supply (ASPS) is a powersupply unit with two 24 Voc outputs for use in theVM600 rack,from Meggitt Sensing Systems’Vibro.Meter product line.
The ASPS is mounted in the rear of the V600(ABE 04x)rack, adjacent to the rear panel of an ACinput RPS 6U from which it takes an AC mainssupply.Internally, each ASPS output consists of twoAC-DC converters wired in parallel to ensure highavailability,while the dual independent outputs canprovide redundancy.
The ASPS is designed to power external hardwaresuch asfront-end transducers andsignalconditioners, GSl-type galvanic separation units andother hardware requiring a +24 Voc power supply.
Installed in a VM600 rack, the ASPS can replace anAPF 19x mounted externally, thereby reducing wiringand simplifying the installation.
Vibro-meter VM600-ABE042 204-042-100-011 - Industrial Vibration Monitoring Module
From the Vibro-Meter@ product line
Auxiliary sensor power supply for VM600 racks
Input voltage: 100 to 240 VAc (typical)
Two independent 24 Voc outputs
Internal redundancy (two AC-DC converters peroutput) for high availability
Replaces an APF 19x and reduces externalwiring

VM600 IOC4T
VM600 RPS6U
VM600-204-040-100-012
VM600-ABE040
VM600-ABE042
VM600-AMC8
VM600-ASPS
VM600-CMC16
VM600-CPUM
Vibro-meter VM600-ABE042 204-042-100-011 - Industrial Vibration Monitoring Module
2025-01-03 BY
IN Industry trends

VM600-AMC8|Analog monitor card

The AMC8 is an analog monitoring card designedfor use with the WM600 rack-based systems formachinery monitoring and protectionapplications, from Meggitt’s Vibro-Meter®product line.This versafile card is capable ofmeasuring and monitoring up to eight analogsignal inputs simultaneously.
The AMC8 card is available in two versions: a’standard” version and a “separate circuits’version, both of which function as a card pairusing an appropriate lOC8T input/output card.
The AMC8 card is installed in the front of a VM600rack (ABE04x or ABE056) and the lOC8T input/output card is installed in the rear. Both cardsconnect directly to the rack’s backplane via twoconnectors.
An AMC8/l0C8T card pair provides eightchannels of temperature monitoring, acceptingboth resistance temperature detector(RD) andthermocouple(TC)temperature inputs, as well asprocess inputs.The source and type for eachchannel is selected when the card is configured
Cold-junction compensation (CJC) sensorprocessing,used for the thermocoupletemperature channels,is available on two of theeight channels and is also selected when thecard is configured.

An AMC8/l0C8T card pair is configured using theRS-232 port located on the front panel of theassociated AMC8 card (that is,standaloneoperation). The AMC8 card can also beaccessed via the VME bus by a CPUx cardpresent in slot 0 of the yM600 rack (ABE04x only)These interfaces allow operators to configureVM600 cards,access measurement results,viewdetailed board status,upload firmware updatesand much more.
The AMC8 card can drive four local relays on the0C8T card, as well as any of the ló relays on anRLC16 card using the VM600 rack’s Raw bus and/or Open Collector(OC) bus.
The cards also provide current-based (0 to 25 mA)analog signal outputs.Optionally, voltage-basedoutput is also supported.
Applications information
The AMC8/l0C8T card pair is highly suitable formachinery monitoring and protection in a widerange of industrial applications.
For further information on the use of AMC8/IOC8Tcard pairs in general, refer to theVM600 machinery protection system (MPS]hardware manual and the VM600 MPSx softwaremanuals.
For specific applications, contact your localMeggitt representative.

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