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December 25, 2025 BY
IN Vibro-Meter

Vibro-Meter Description of the RLC16 Relay Card

Description of the RLC16 Relay Card

The RLC16 relay card is designed for use in Meggitt Sensing Systems’ VM600 Series 

Vibrometer® product line for mechanical protection systems as well as condition and performance

monitoring systems.

It is an optional card for use when the four relays on the IOC4T I/O card

are insufficient for the application and additional relays are required.

The RLC16 is mounted on the rear of the VM600 (ABE04x) rack and connects directly to the rack

backplane via a connector.

The RLC16 contains 16 relays with changeover contacts.

Each relay is associated with 3 terminals on the screw terminal strip at the rear of the VM600 rack.

The relays are controlled by software-controlled open collector actuators.

Jumpers on the RLC16 card allow selection of either Normal Energized (NE) or Normal De-energized

(NDE) relays.

Relay Characteristics

Relay Name: RL1 to RL16

Type: PE014005

Contact Arrangement: 1 COM, 1 NC, and 1 NO contact/relay.

All relay contacts are on J1. J2 and J3.

Rated voltage: 250 VAC

Current Rating: 5 AAC

Maximum breaking capacity (no contact protection): 1250 VA

Storage

– Temperature : -40 to +85°C (-40 to +185°F) -40 to +85°C (-40 to +185°F)

– Humidity: 0 to 95% non-condensing

Vibration and shock: See general specifications for VM600 racks

Physical Dimensions

Height: 6U (262 mm, 10.3 inches)

Width: 20 mm (0.8 in)

Depth: 125 mm (4.9 in)

Weight: 0.30 kg (0.66 lbs)

Translated with DeepL.com (free version)
December 25, 2025 BY
IN IBA

IBA ibaLink-SM-128V-i-2o Relevant specifications

Relevant specifications (VITA standards):

 VMEbus

 IEEE 1014-1987

 VME64

 ANSI VITA 1-1994 VME64X; VITA 1.1-19

Remarks Since an analog channel always corresponds to a digital channel in the iba bus concept,

an analog value and a digital value are referred to as a channel or a signal for simplicity of description.

Scope of delivery

The goods are checked for completeness and integrity after unpacking.

The scope of delivery includes

 Device ibaLink-SM-128V-i-2o

 Manual

Safety instructions

Specified use

The device is an electrical device. It can only be used for the following applications:

 Automation of industrial systems

 Measurement data logging and analysis

 Application of ibaSoftware products (ibaPDA, ibaLogic, etc.)

The device may only be used for the applications shown in chapter 11. Technical data.
December 25, 2025 BY
IN IBA

IBA ibaLink-SM-128V-i-2o VMEbus Interface Card

The following non-privileged modes of VME access are possible:

 A24 and A32 in the following VMEbus data formats

 D08 (E0)

 D16

 D32

 A40 MD32 (on special request)

The BLT and MBLT modes as well as the auto-configuration and geo-addressing functions are being

prepared, but are not available at this time.

The 2eVME mode has not yet been implemented. Access is only allowed in unprivileged data access

mode.

The SM128V is a passive board on the VMEbus, i.e., it will not be actively accessed or interacted with on

the VMEbus.

The board uses 256 kbytes of address space on the VMEbus.

Relevant specifications (VITA standards):

 VMEbus

 IEEE 1014-1987

 VME64

 ANSI VITA 1-1994 VME64X; VITA 1.1-19

Remarks Since an analog channel always corresponds to a digital channel in the iba bus concept,

an analog value and a digital value are referred to as a channel or a signal for simplicity of description.
December 25, 2025 BY
IN Vibro-Meter

Vibro-Meter VM600Mk2/VM600 ABE056 SPECIFICATIONS

SPECIFICATIONS

OVERVIEW

Housing: Painted galvanized steel sheet

Color: Off-white (RAL 9002)

Power supply: Integrated RPS1U power supply for VM600Mk2/VM600

The integrated RPS1U power supply provides +5 VDC and ±12 VDC for the VM600Mk2/VM600 and all

installed modules (cards).

See also AC Input Power on page 3 and DC Input Power on page 3.

Power Input: The power input has an AC or DC connector (with RFI filter) and an on/off switch.

See Ordering Information on page 6 for information on the main power cord (power strip).

Backplane: Proprietary VM600Mk2/VM600 rack bus (open collector (OC) bus) for data/signal sharing

between modules (cards)

Rack Slots (module (card) locations):

Front of rack:

– 1 × slot – module (card) position 01 – for handling modules (cards) such as MPC4Mk2. XMx16. MPC4. or

AMC8.

Rear of rack:

– 1 × Slot – Module (Card) Position 01 – For associated input/output modules (cards) such as IOC4Mk2.

XIO16T, IOC4T or IOC8T.

– 1 × slot – module (card) position 00 – for the relevant relay module (card), e.g. RLC16Mk2 or RLC16.
December 22, 2025 BY
IN Vibro-Meter

Vibro-Meter The VM600Mk2/VM600 ABE056 slimline rack has a standard height of 1U

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.

The VM600Mk2/VM600 Processing Module (Card) is mounted at the front of the rack and the

associated Input/Output Module (Card) is mounted at the rear of the rack.

The input/output modules (cards) provide connectors for connecting sensors/measurement

chains and for sharing various signals with external systems such as DCS or PLC.

In general, the VM600Mk2/VM600 ABE056 Ultra Slim Racks are factory-configured before shipment and

are therefore ready for use.

Optionally, each module (card) can be reconfigured to meet the needs of a specific machinery monitoring

application.

Each module (card) can be reconfigured to meet the needs of a specific machinery

monitoring application using the appropriate software package from Meggitt Vibro-Meter: VibroSight®

or VM600 MPSx.
December 22, 2025 BY
IN Vibro-Meter

Vibro-Meter VM600Mk2/VM600 ABE056 Slimline Racks Applications

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.
December 22, 2025 BY
IN ABB

ABB uns 0884a-v1 3BHE004385R0001 UNITROL Current sensor CUs

Product Details

General Information

Product ID: 3BHE004385R0001

Catalog Description: UNS 0884a, V1: Current Sensor 2000A

Long Description: UNS 0884a, V1: Current Sensor 2000A

Additional Information

Country of Origin: Switzerland (CH)

Customs Tariff Number: 85371092

Gross Weight: 0 kg

Invoice Description: UNS 0884a, V1: Current Sensor 2000A

Made To Order: No

Minimum Order Quantity: 1 piece

Order Multiple: 1 piece

Package Level 1 Gross Weight: 0 kg

Package Level 1 Units: 1 piece

Part Type: New

Product Net Depth/Length: 230 mm

Product Net Height: 50 mm

Product Net Weight: 2 kg

Product Net Width: 165 mm

Product Type: Undefined

Selling Unit of Measure: Piece

Stocked At (Warehouses): Baden, Switzerland

WEEE Category: Product Not in WEEE Scope
December 22, 2025 BY
IN Woodward

Woodward MSLC-2XT Master Synchronizer and Load Control DSLC-2 / MSLC-2 Systems

DSLC-2 / MSLC-2 Systems

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The network addressing of the DSLC-2 / MSLC-2 allows up to 32 DSLC-2s and 16 MSLC-2s in an ap

plication. A DSLC-2 and MSLC-2 application can handle 8 segments. Discrete inputs inform the DSLC

2s and MSLC-2s which segments each generator and utilities are operating on. If a MSLC-2 receives a

discrete input to activate segment 1 and 2. it will share this information with all controls over the Ether

net bus. It is not necessary to provide a segment activation discrete input to all controls. Segmenting

allows the DSLC-2s and MSLC-2s to remain connected thru the Ethernet bus, but be operating on sep

arate load buses.

The DSLC-2 / MSLC-2 system can be applied according to following rules:

• The maximum number of DSLC-2s (Gen-CB) is 32.

• The maximum number of MSLC-2s (Utility- or Tie-CB) is 16.

• The maximum number of segments is 8.

• The segment numbers have to follow a line, which can finally be closed to a ring.

• For DSLC-2 it can be selected between two segmenting modes:

o Bus segmenting determining generators running together via an algorithm.
December 22, 2025 BY
IN Woodward

Woodward The DSLC-2 / MSLC-2 system can be applied according to following rules

The DSLC-2 / MSLC-2 system can be applied according to following rules:

• The maximum number of DSLC-2s (Gen-CB) is 32.

• The maximum number of MSLC-2s (Utility- or Tie-CB) is 16.

• The maximum number of segments is 8.

• The segment numbers have to follow a line, which can finally be closed to a ring.

• For DSLC-2 it can be selected between two segmenting modes:

o Bus segmenting determining generators running together via an algorithm.

o Device segmenting determining generators running together from outside.

• Only one MSLC-2 can be used as master control, when multiple MSLC-2 is resided in one segment.

o The MSLC-2 with the lower device number will control if multiple Utility MSLC-2s are

active on the same segment

• The generator is not counted as a segment.

• The utility is not counted as a segment.
December 22, 2025 BY
IN Woodward

Woodward The var/PF function controls the power factor on all of the DSLC-2

Var/PF Control

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The var/PF function controls the power factor on all of the DSLC-2 equipped machines operating in

isochronous load sharing. The PF control begins on breaker closure. The MSLC-2 has three modes of

Var/PF control (which are selected in Menu 4):

• Constant generator power factor – sets the power factor reference on all of the DSLC-2 con

trols to the internal reference chosen in the MSLC-2. The power factor can then be adjusted

using the voltage raise and lower inputs. The voltage raise command will make the power fac

tor more lagging. Conversely, the voltage lower command will make the power factor more leading.

• Utility tie power factor control – adjusts the power factor reference on all of the DSLC-2 con

trols in isochronous load sharing in order to maintain the power factor across the utility tie.

• Utility tie var control – adjusts the power factor reference on all of the DSLC-2 controls in

isochronous load sharing in order to maintain the level of vars being imported or exported from the

utility.

The var/PF control mode begins with the load control mode selected. The constant generator power

factor and the utility tie power factor control can have the reference setting controlled by an analog in

put (see Menu 6). By closing the voltage raise and lower discrete inputs, you can select the analog re

mote input for reference control.

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