VME : the solution of large systems

 

The VME bus is still one of the most used in industrial and scientific. It remains the only capable of supporting as many points of measurement or control in very compact formats. ADAS™ and supply is one of the richest market VME solutions.

Easily build your solution measurement and control: your VME can be combined with our two ranges conditioners: STB terminals or BCI cards.

And using sequencers or ICV107 ICV108, coordinate the acquisition of several VME without loading the processor.

 

 

 

 

 

 

 

 
 

BCI

 

STB

 

 

   
 

 

 

 

 

Discrete I/Os : reliable, secure and easy

Format

Model

Description

Channels

Electrical interface

Isolation

VME

ICV 196

96 Digital I/O, 70V protected inputs, open collector outputs

96 I/O

Open Coll.

no

VME

ICV 296

96 TTL I/O

96 I/O

TTL

no

VME

ICV 248

48 isolated digital inputs 5 to 48Vdc

48 Inputs

5/12/24/48 V

yes

VME

ICV 320

32 relay outputs

32 outputs

125 or 60V max

yes

VME

ICV 440

24 isolated inputs, 5 to 48V, 16 relay outputs

24 in
16 out

5/12/24/48 V
60 ou 128V

yes

VME

ICV 648

16 aircraft standard isolated inputs, 2x16 relay outputs 2T

16 in
16 out

Gnd or+ V
1A/30V

yes

 

 

 

Analog Inputs : precision, stability, still easy

Format

Model

Description

Chan
nbr

Resolution

Isol

Multiplex/
Isoch

Frequency
Filters
Gain

VME

ICV 150

32 analog inputs 12/14/16 bits,

32

12, 14, 16

option

Multip

200 Ks global

 

1, 2, 4, 8

VME

ICV 128-e

16 isochronous differential analog inputs

16

16

yes

Isochr

200 Ks/channel

 

1, 2, 4, 8

VME

ICV 132

32 analog inputs differential isochronous

32

16

no

Isochr

200 Ks/channel

 

1, 2, 5, 10

VME

ICV 138-e

8 isochronous differential analog inputs filtered

8

16

no

Isochr

200 Ks/channel

Butter. 8 th o.

1,2, 4, 8

VME

ICV 140-e

4 isochronous differential analog inputs, isolated, filtered

4

16

Yes

Isochr

200 Ks
/channel

Butter. Bessel

¼ .. 800

VME

ICV 178

8 differential analog inputs isochronous, filtered , sigma delta

8

16

no

Isochr

1 Ms to 19.2 Ms
/channel

Butter. Bessel

 

VME

ICV 608

8 LVDT or RVDT inputs. Analog output

8

16

no

Isochr

20 KHz
/channel

 

 

 

 

 

Analog outputs : control and simulation

Format

Name

Description

Channels

Resolution

Isolation

Setting time/Freq

VME

ICV 701

1 high precision output isolation/VME

1

19

yes

100µs – 5ms

VME

ICV 706

16 bits, 4 isolated function arbitrary waveform generators

4

16

yes

50 KHz

VME

ICV 714

16 analog outputs, 12 bits, isolated

16

12

yes

10-15µs

VME

ICV 716

8 analog outputs, 16 bits, isolated

8

16

yes

20 µs

VME

ICV 726

24 analog outputs, isolated

24

12/14/16

yes

30 µs

 

 

 

Counters

Format

Nom

Description

Channels

Interface

Isolation

VME

ICV 307

6 32 bits isolated counter inputs,

4 Inputs

5, 12, 24, 48 V

yes

 

 

 

Acquisition sequencers

Cards sequencer synchronizes the acquisition of several analog and digital cards to relieve the processor. It is possible to define a complex combination of channels and sampling will be performed automatically.

 

Format

Model

Description/performances

Supported Input boards

VME

ICV 107

20 M acquisitions per second

ICV118, ICV120, ICV122, ICV128-e, ICV132, ICV138-e, ICV140-e, ICV148, ICV296

VME

ICV 108

40 M acquisitions per second

ICV118, ICV120, ICV122, ICV128-e, ICV132, ICV138-e, ICV140-e, ICV148, ICV296

 

 

 

Gateways (VME to VME chassis)

Format

Model

Description

VME

PVV 900

VME-VME gateway

 

 

 

Racks and accessories

Format

Model

Description

VME

CCV 04/07

4 or 7 slots VME Rack

VME

CCV

10/12/16 or 20 slots VME Rack

VME

RCV 20

20 slots VME Rack

 

 

 

Timing and Frequencies

 

Format

Model

Description/performances

Comments – Main use

VME

ICV 502

Synchronized DDS generator for isochronous clocks