Vibro Meter legacy

For 70 years, vibro-meter® products and expertise have enabled superior solutions for the sensing and monitoring of vibration, pressure and air-gap in critical plants and equipment.

Our sensors and measurement chains are used in various industries where the health of rotating machinery, especially large, critical machines is a major concern.They are installed on thousands of machines worldwide and help to monitor and protect these important assets every single day.

We make it our business to provide the best solutions for your measurement and monitoring requirements in order to project your investment. This allows you to reach higher levels of reliability, machine availability and output.

Today, our products are trusted by OEMs globally and have been qualified and adopted as standard-fit components on machinery used in Power Generation, Oil & Gas and other industrial applications.

QUALITY AND RELIABILITY

Meggitt SA is recognised for higher quality standards.

First certified to ISO 9000 in 1995, we have been regularly recertified since. Our latest ISO 9001:2015 quality management and ISO 14001:2015 environmental management certificates were awarded by AFNOR Certification. The ISO 14001:2015 is now complemented with our new certification ISO 45001:2018.

In addition, for specific vibro-meter® products:
• A large number are Ex certified so that they can be used in hazardous areas (potentially explosive atmospheres), for example, installed on gas turbines.

• A number are SIL safety certified so that they can be used in safety-related applications (functional safety contexts), for example, critical protection systems.

For VM600 systems with a known configuration, Meggitt SA can perform configuration management and provide a pre-configured system.
Ordering numbers starting with 611-000-000 are for unconfigured VM600 systems and ordering numbers starting with 611-xxx-xxxY are for configured VM600 systems (where xxx-xxx is the configuration PNR and Y indicates the variant to use, if any).
Use the codes below to specify order options in the format 611-xxx-xxx(Y)/Bx-C4xx-Dx-Ex-Fxxx-Gxx-Hxx-Axx-Bxx-Cxx-Zxx.
For example, an unconfigured standard VM600 system rack with an AC mains power supply with standard rear panel and European mains lead, standard CPUM/IOCN, 4 x MPC4/IOC4T, 1 x XMV16/XIO16T, 1 x RLC16 and front and rear blank panels gives the following ordering number: 611-000-000/B0-C40S-D5-E0- F100 -G01-HEU-AA4-BB1-ZA1-ZT7-ZU2-ZX6-ZY3.

Code
Feature
Value
Description
B
Type of configuration
(see note 1 on page 9)
0
None – no configuration
1
Exact copy of an existing configuration
2
Similar to an existing configuration
3
New configuration
C
Rack
40S
ABE040 system (6U) – standard version
40C
ABE040 system (6U) – CSA version
40I
ABE040 system (6U) – separate circuits version in accordance with the IEC/CEI 60255-5 standard
40V
ABE040 system (6U) – varnished version with a conformal coating for additional environmental protection
42S
ABE042 system (6U) – version with mounting brackets positioned at the rear of the rack
D
RPS6U power supply (PS1),
installed in slots 18 to 20
2
24 VDC
3
48 VDC (270 W)
5
120/230 VAC
6
110 VDC
E
RPS6U power supply (PS2),
installed in slots 15 to 17
(see note 2 on page 9)
0
None – no second RPS6U power supply unit
2
24 VDC
3
48 VDC (270 W)
5
120/230 VAC
6
110 VDC

Code
Feature
Value
Description
F
Rear panel for RPS6U power supply
(see note 3 on page 9)
100
AC input (120 / 230 VAC), 1x mains socket, on/off switch, common input to RPS6Us
101
F100 with ASPS
110
AC input (120 / 230 VAC), 1x screw-terminal connector, on/off switch, rear-panel fuses, common input to RPS6Us
111
F110 with ASPS
120
AC input (120 / 230 VAC), 1x screw-terminal connector, rear-panel fuses, common input to RPS6Us
121
F120 with ASPS
150
AC input (120 / 230 VAC), 2x screw-terminal connectors, on/off switches, rear-panel fuses, individual inputs to RPS6Us
151
F150 with ASPS
160
AC input (120 / 230 VAC), 2x screw-terminal connectors, rear-panel fuses, individual inputs to RPS6Us
161
F160 with ASPS
200
DC input, 1x screw-terminal connector, common input to RPS6Us
220
DC input, 1x screw-terminal connector, common input to RPS6Us, special earth terminal (M.A.L.T.)
600
AC input (230 VAC only), 2x mains sockets, on/off switches, common input to RPS6Us.
Supports redundant external power-supply systems.
601
F600 with ASPS
620
AC input (120 VAC only), 2x mains sockets, on/off switches, common input to the RPS6Us.
Supports redundant external power-supply systems.
621
F620 with ASPS
630
AC input (120 / 230 VAC), 2x mains sockets, on/off switches, individual inputs to RPS6Us
631
F630 with ASPS
700
AC input (120 / 230 VAC) and DC input, 1x mains socket with on/off switch and 1x screw-terminal connector, individual inputs to RPS6Us
701
F700 with ASPS
900
DC input, 2x screw-terminal connectors, common input to RPS6Us.
Supports redundant external power-supply systems.
930
DC input, 2x screw-terminal connectors, individual inputs to RPS6Us

Code
Feature
Value
Description
G
CPUM or CPUR main processor card pair
(see note 4 on page 9)
00
None – no main processor card
01
CPUM / IOCN with one Ethernet interface and one serial interface (standard CPUM version) –
1 x Modbus TCP + 1 x Modbus RTU
02
CPUM only with one Ethernet interface and one
serial interface (standard CPUM version) –
2 x Modbus TCP + 1 x Modbus RTU (front of rack)
03
CPUM / IOCN with two Ethernet interfaces and one serial interface (Ethernet redundant CPUM version) –
2 x Modbus TCP + 1 x Modbus RTU
04
CPUM / IOCN with one Ethernet interface and two serial interfaces (Serial redundant CPUM version) –
1 x Modbus TCP + 2 x Modbus RTU
05
CPUM / IOCN with one Ethernet interface, one serial interface and one PROFINET interface –
1 x Modbus TCP + 1 x Modbus RTU + 1 x PROFINET
06
CPUM / IOCN with one Ethernet interface, one serial interface and one PROFIBUS interface –
1 x Modbus TCP + 1 x Modbus RTU + 1 x PROFIBUS
07
CPUM / IOCN with two Ethernet interfaces, one serial interface and one PROFIBUS interface –
2 x Modbus TCP + 1 x Modbus RTU + 1 x PROFIBUS
08
CPUM / IOCN with one Ethernet interface, two serial interfaces and one PROFIBUS interface –
1 x Modbus TCP + 2 x Modbus RTU + 1 x PROFIBUS
10
One CPUR / IOCR
20
Two CPUR / IOCRs for redundant operation
H
Mains power supply lead
(power cord)
(see note 5 on page 9)
00
None – no mains lead (cable)
01
No plug – flying lead with wire-end ferrules
CH
J plug as per SEV 1011 (Switzerland)
EU
E+F plug as per CEE7/VII (Europe, Russia, Ukraine)
UK
G plug as per BS 1363 (UK, Hong Kong, Malaysia, Singapore)
JP
B plug as per JIS 8303 (Japan)
US
B plug as per IEC 60906-2 (US and CA)
Ax
Number of machinery protection card pairs
AA
MPC4 / IOC4T
AB
MPC4SIL / IOC4T
AC
AMC8 / IOC8T
AD
MPC1 / IOC4T
Bx
Number of condition monitoring card pairs
BA
CMC16 / IOC16T
BB
XMV16 / XIO16T
BC
XMVS16 / XIO16T
Cx
Number of combustion monitoring card pairs
CA
XMC16 / XIO16T

Code
Feature
Value
Description
Zx
Number of relay cards
ZA
RLC16
ZB
IRC4
Zxx
Number of blank panels
(see note 6 on page 9)
ZT
Front blank panel – 1 slot wide / 4 HP (TE)
ZU
Front blank panel – 2 slots wide / 8 HP (TE)
ZV
Front blank panel – 4 slots wide / 16 HP (TE)
ZX
Rear blank panel – 1 slot wide / 4 HP (TE)
ZY
Rear blank panel – 2 slots wide / 8 HP (TE)
ZZ
Rear blank panel – 4 slots wide / 16 HP (TE)

Notes
1. The B2 order option should be used for a configuration similar to an existing configuration but with minor changes, such as network interface (IP) settings, tags (names), signal processing, the removal of cards or the addition of a single card.
2. A second RPS6U power supply (PS2) can be installed in an ABE04x system rack for one of two reasons: to operate non-redundantly and supply power when many cards are installed in the rack or to operate redundantly and ensure continued operation of the machinery monitoring system if one of the power supplies fails.
3. AC input power supplies with a mains socket have an IEC type C14 connector (IEC 60320) that mates with the plug (type C13) used by one end of the supplied mains power supply lead. See the Mains power supply lead (power cord) order option codes (Hxx).
4. The G02 order option is the only CPUM main processor card pair order option code that does not include an IOCN input/output card.
All CPUR main processor card pair order option codes include an IOCR input/output card.
The PROFIBUS interface for a CPUM / IOCN card is implemented using a VME-based PROFIBUS interface card that is installed in a slot
in the front of the ABE04x system rack.
The CPUR/IOCR card pair is the next generation of main processor card for an ABE04x system rack that will replace the CPUM/IOCN card pair. Contact Meggitt Sensing Systems for additional information.
5. The AC input power supply is supplied with a mains power supply lead (however, no lead (cable) is supplied with the DC input power supply).
6. If order options ZZ0 to ZT0 are specified, unused slots in a VM600 system rack will be populated with 1 slot wide / 4 HP (TE) blank panels.
(The width of a 19″ rack is measured in horizontal pitch (HP) units of 5.08 mm (0.2″), also known as standard width (TE) units. For the ABE04x rack, a one slot wide (one card position) blank panel corresponds to 4 HP (TE), a two slot wide blank panel corresponds to 8 HP (TE) and a four slot wide blank panel corresponds to 16 HP (TE).)