Caen A1536 User manual
CAEN
Tools for Discovery
n
Electronic Instrumentation
Rev. 10 -
Es
A1536 AG536 Family Power Supply Boards
Rev. 10 - 11 February 2015
Purpose of this Manual
This document is the A1536 AG536 Family Power Supply Boards user manual; it contains information about the
installation, the configuration and the use of the board.
Change Document Record
Date
Revision
Changes
3 January 2012
0
PRELIMINARY Release
11 February 2015
1
Updated table 1
22 November 2012
2
Updated Output control and monitoring
8 March 2013
3
Updated displays description
18 June 2103
4
Added Mod. AG536
25 July 2013
5
Added SHV versions
15 May 2014
6
Added “H” versions; updated Output Enable
16 July 2014
7
Updated description and technical specifications
4 September 2014
8
Added “V” versions
29 January 2015
9
Updated description and technical specifications
11 February 2015
10
Updated description, technical specifications, Output Enable, Output control
Symbols, abbreviated terms and notation
T.B.D.
Reference Documents
Disclaimer
No part of this manual may be reproduced in any form or by any means, electronic, mechanical, recording, or
otherwise, without the prior written permission of CAEN SpA.
CAEN will repair or replace any product within the guarantee period if the Guarantor declares that the product is
defective due to workmanship or materials and has not been caused by mishandling, negligence on behalf of the User,
accident or any abnormal conditions or operations.
CAEN declines all responsibility for damages or injuries caused by an improper use of the Modules due to negligence on
behalf of the User. It is strongly recommended to read thoroughly the CAEN User's Manual before any kind of
operation. CAEN reserves the right to change partially or entirely the contents of this Manual at any time and without
giving any notice.
Disposal of the Product The product must never be dumped in the Municipal Waste. Please check your local regulations
for disposal of electronics products.
Made In Italy : We stress the fact that all the boards are made in Italy because in this globalized world, where getting
the lowest possible price for products sometimes translates into poor pay and working conditions for the people who
make them, at least you know that who made your board was reasonably paid and worked in a safe environment. (this
obviously applies only to the boards marked "Made in Italy", we cannot attest to the manufacturing process of "third
party" boards).
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
3
Index
1. Overview............................................................................................................................4
Channel Characteristic Table .................................................................................................................................... 5
Front Panel................................................................................................................................................................ 6
Technical Specifications ............................................................................................................................................ 7
Packaging ...............................................................................................................................................................................7
External connections..............................................................................................................................................................7
Multipin connector pin assignment ................................................................................................................................7
Other components .................................................................................................................................................................7
Configuration jumpers ...........................................................................................................................................................8
2. Safety and installation requirements ..................................................................................9
General safety information....................................................................................................................................... 9
Injury Precautions ..................................................................................................................................................................9
Safety Terms and Symbols on the Product............................................................................................................... 9
Installation ................................................................................................................................................................ 9
3. Operating modes..............................................................................................................10
Output control and monitoring .............................................................................................................................. 10
Output Enable......................................................................................................................................................... 11
Grounding specifications ........................................................................................................................................ 11
Safety Earth connection .......................................................................................................................................................11
List of Figures
Fig. 1 –A1536, A1536D and A1536S front panel.....................................................................................................................................6
Fig. 2 –JA jumper location.......................................................................................................................................................................8
Fig. 3 –Earth configuration connection examples.................................................................................................................................12
List of Tables
Table 1 –Channel characteristics of the Mod. A1536 / AG536 HV Board ...............................................................................................5
Table 2 –52 pin connector assignment ...................................................................................................................................................7
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
4
1. Overview
The Mod. A1536 –AG536 is a family of HV boards, available with either positive or negative polarity, compatible
with the CAEN Universal Multichannel Power Supply System (SY1527, SY2527, SY3527, SY4527, SY5527).
The A1536 and A1536H channels share a common floating return, which allows on-detector grounding reducing the
noise level; the floating return is insulated from the crate earth up to ±50 V (with a 65 V hardware limit); the return
of the AG536 channels is wired to the crate Earth reference.
A1536 and AG536 output range is 0 ÷ 3 kV, with 1 mA maximum output current (800µA for A1536V and AG536V)
and 100mV set and monitor resolution. A1536H output channels offer dual current ranges (software selectable):
High Power: 0 ÷ 1 mA (Iset res.: 20 nA; Imon res.: 1 nA; 1.5W maximum channel power) and High Resolution:
0 ÷ 100 µA (Iset res.: 20nA; Imon res.: 100 pA); it features also 50mV and 5mV set and monitor resolution
respectively.
The boards are provided with both current and voltage protections. If overcurrent occurs, the relevant channel can
be programmed either to turn off after a programmable trip time or to keep on providing the maximum allowed
current: this particular feature allows the modules to work as current generator. The maximum output voltage can
be fixed, through a potentiometer located on the front panel, at the same common value for all the board channels
and this value can be read out via software.
The HV RAMP-UP and RAMP-DOWN rates may be selected independently for each channel in the 1 ÷ 500 V/s range
(1 V/s step).
The 12 channel versions output voltages are provided via SHV connectors; 24 channel versions are available with
either SHV connectors or Radiall 52-pin connector; all other models feature a Radiall 52-pin connector. 24 channel
SHV versions are double width boards (10 TE); all other versions are single width (5 TE). “Multipin” versions have
also the safety board interlock: this protection allows to disable the primary HV generation when the HV outputs
are not connected to their loads.
Tab. 1 –Available versions
Version
Ch Nr.
Polarity
Connector
Return
Size
IMax
A1536DN
12
Negative
SHV
Common Floating
1U
1 mA
A1536DP
12
Positive
SHV
Common Floating
1U
1 mA
A1536DM
12
Mixed
SHV
Common Floating
1U
1 mA
A1536HDN
12
Negative, dual range
SHV
Common Floating
1U
1 mA
A1536HDP
12
Positive, dual range
SHV
Common Floating
1U
1 mA
A1536HDM
12
Mixed, dual range
SHV
Common Floating
1U
1 mA
AG536DN
12
Negative
SHV
Ground
1U
1 mA
AG536DP
12
Positive
SHV
Ground
1U
1 mA
AG536DM
12
Mixed
SHV
Ground
1U
1 mA
A1536LN
24
Negative
Multipin
Common Floating
1U
1 mA
A1536LP
24
Positive
Multipin
Common Floating
1U
1 mA
A1536HLN
24
Negative, dual range
Multipin
Common Floating
1U
1 mA
A1536HLP
24
Positive, dual range
Multipin
Common Floating
1U
1 mA
AG536LN
24
Negative
Multipin
Ground
1U
1 mA
AG536LP
24
Positive
Multipin
Ground
1U
1 mA
A1536SN
24
Negative
SHV
Common Floating
2U
1 mA
A1536SP
24
Positive
SHV
Common Floating
2U
1 mA
A1536SM
24
Mixed
SHV
Common Floating
2U
1 mA
A1536HSN
24
Negative, dual range
SHV
Common Floating
2U
1 mA
A1536HSP
24
Positive, dual range
SHV
Common Floating
2U
1 mA
A1536HSM
24
Mixed, dual range
SHV
Common Floating
2U
1 mA
AG536SN
24
Negative
SHV
Ground
2U
1 mA
AG536SP
24
Positive
SHV
Ground
2U
1 mA
AG536SM
24
Mixed
SHV
Ground
2U
1 mA
A1536N
32
Negative
Multipin
Common Floating
1U
1 mA
A1536P
32
Positive
Multipin
Common Floating
1U
1 mA
A1536HN
32
Negative, dual range
Multipin
Common Floating
1U
1 mA
A1536HP
32
Positive, dual range
Multipin
Common Floating
1U
1 mA
AG536N
32
Negative
Multipin
Ground
1U
1 mA
AG536P
32
Positive
Multipin
Ground
1U
1 mA
A1536VN
32
Negative, dual range
Multipin
Common Floating
1U
800µA
A1536VP
32
Positive, dual range
Multipin
Common Floating
1U
800µA
AG536VN
32
Negative
Multipin
Ground
1U
800µA
AG536VP
32
Positive
Multipin
Ground
1U
800µA
“Mixed” polarity means that half of the channels are negative and half positive
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
5
Channel Characteristic Table
Table 1 –Channel characteristics of the Mod. A1536 / AG536 HV Board
Version
A1536 / AG536
A1536H
Polarity
Positive or Negative (depending on purchased version)
Output Voltage
0 ÷ 3 kV
Max. Output Current
1 mA (800µA for A1536V and AG536V)
High Power: 1 mA; High Resolution: 100 µA
VSet Resolution
100 mV
50 mV
VMon Resolution
100 mV
5 mV
ISet Resolution
50 nA
20 nA
IMon Resolution
50 nA
High Power: 1 nA; High Resolution: 100 pA
VMAX hardware
0 ÷ 3 kV common for all the board channels
VMAX hardware accuracy
2% of FSR
VMAX software
0 ÷ 3 kV settable for each channel
VMAX software resolution
1 V
Ramp Up / Ramp Down
1÷ 500 Volt/sec, 1 Volt/sec step
Voltage Ripple 1
<15 mV typical; 30mV max
<10 mV typical; 15mV max
VMon vs. VOut Accuracy 2,3
typical: ± 0.3% ± 0.25 V
VSet vs. VOut Accuracy 2
typical: ± 0.3% ± 2.5 V
IMon vs. IOut Accuracy 2
typical: ± 2% ± 500 nA
High Power:
typical: ± 2% ± 50 nA
High Resolution:
typical: ± 2% ± 5 nA
ISet vs. IOut Accuracy 2
typical: ± 2% ± 1µA
Maximum output power
3 W (per channel)
1.5W (per channel)
Power consumption
160 W, 120 W, 60W @ full power (32, 24,
12 channel respectively)
80 W, 60 W, 30W @ full power (32, 24, 12
channel respectively)
1
From 10 Hz to 100 MHz at full load; ripple may exceed such limits whenever OVC and UNV occur (see Output control and
monitoring); noise measured with 1m cable length terminated on 2nF capacitance
2
From 10% to 90% of Full Scale Range
3
During operation in Overcurrent or when VMAX Hardware is reached (and/or exceeded), VMON values have to be assumed as
“indication”; possible monitor drifts are caused by the different regulation mode.
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
6
Front Panel
Fig. 1 –A1536, A1536D and A1536S front panel
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
7
Technical Specifications
Packaging
24 channel SHV versions (A1536S, AG536S) are double width boards (10 TE); all other versions are single width (5 TE);
height is 6U.
External connections
The function and electro-mechanical specifications of the external connectors are listed in the following
subsections.
Version:
A1536, A1536L, AG536, AG536L
A1536S, A1536D, AG536S, AG536D
Output Channels:
Multipin connector Radiall 691803004 type, 52 pin
male (to be mated with Radiall 691802002 [SCEM
09.41.34.700.2]type4); see Table below
HV coaxial connectors Radiall
SHVR317580
Return:
Radiall R921921 socket, Ø 2mm (A1536x only)
Not present on A1536D AG536D
AGND:
Radiall R921921 socket, Ø 2mm (A1536x only)
Not present on A1536D AG536D
PASSIVE INTERLOCK:
00-type LEMO connector
AMP 280371-2 (A1536D, AG536D)
SIGNAL INTERLOCK:
00-type LEMO connector
AMP 280371-2 (A1536D, AG536D)
Multipin connector pin assignment
Table 2 –52 pin connector assignment
1
N.C.
11
Return
22
N.C.
32
Return
43
N.C.
2
N.C.
12
N.C.
23
N.C.
33
N.C.
44
N.C.
3
HVOUT23
13
N.C.
24
HVOUT12
34
HVOUT6
45
HVOUT0
4
HVOUT24
14
HVOUT18
25
HVOUT13
35
HVOUT7
46
HVOUT1
5
HVOUT25
15
HVOUT19
26
HVOUT14
36
HVOUT8
47
HVOUT2
6
HVOUT26
16
HVOUT20
27
HVOUT15
37
HVOUT9
48
HVOUT3
7
HVOUT27
17
HVOUT21
28
HVOUT16
38
HVOUT10
49
HVOUT4
8
HVOUT28
18
HVOUT22
29
HVOUT17
39
HVOUT11
50
HVOUT5
9
INT_A
19
HVOUT29
30
HVOUT31
40
N.C.
51
N.C.
10
INT_B
20
HVOUT30
31
SHIELD
41
N.C.
52
SHIELD
21
Return
42
Return
HV OUT 24 through 31 are “N.C.” on A1536L and AG536L.
Other components
HV ON LED:
Function: lights up as at least one channel is on
Type: red LEDs for positive polarity version; yellow green LEDs for negative polarity
version.
INTERLOCK LED:
Function: lights up as the board is in INTERLOCK (channel are disabled).
Type: red LED
VMAX trimmer:
Function: it allows to adjust the hardware maximum voltage VMAX common to all the
channels. Its value can be read out via software.
4
Requires 52 pins Radiall 691804300 [SCEM 09.41.33.830.7]type, to be inserted using the insertion/extraction tool
Radiall 282549024 [SCEM 34.95.17.125.3] type.
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
8
Configuration jumpers
The Connector Configurator allows to optimize the connection of the shield, of the return and of AGND (Earth); see
also p. 11.
1-2
Agnd - Shield
Connects Agnd (Earth) to HV cable shield
A1536, A1536L
3-4
Agnd - Return
Connects Agnd (Earth) to HV channels return
A1536, A1536L, A1536S
5-6
Shield - Return
Connects Shield to HV channels return
A1536, A1536L
On the 1536D, RTN and AGND (Earth) may be connected, by short circuiting JA jumper pins on the motherboard
(see figure below). The protection shield must be screwed off in order to access JA.
.
Fig. 2 –JA jumper location
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
9
2. Safety and installation requirements
General safety information
This section contains the fundamental safety rules for the installation and operation of the board. Read thoroughly
this section before starting any procedure of installation or operation of the product.
Injury Precautions
Review the following precautions to avoid injury and prevent damage to this product or any products connected to
it. To avoid potential hazards, use the product only as specified. Only qualified personnel should perform service
procedures.
Avoid Electric Overload.
To avoid electric shock or fire hazard, do not power a load outside of its specified range.
Avoid Electric Shock.
To avoid injury or loss of life, do not connect or disconnect cables while they are connected to a voltage source.
Do Not Operate Without Covers.
To avoid electric shock or fire hazard, do not operate this product with covers or panels removed.
Do Not Operate in Wet/Damp Conditions.
To avoid electric shock, do not operate this product in wet or damp conditions.
Do Not Operate in an Explosive Atmosphere.
To avoid injury or fire hazard, do not operate this product in an explosive atmosphere.
Do Not Operate With Suspected Failures.
If you suspect this product to be damaged, have it inspected by qualified service personnel.
Safety Terms and Symbols on the Product
These terms may appear on the product:
DANGER indicates an injury hazard immediately accessible as you read the marking.
WARNING indicates an injury hazard not immediately accessible as you read the marking.
CAUTION indicates a hazard to property including the product.
The following symbols may appear on the product:
DANGER
WARNING
High Voltage
Refer to Manual
Installation
The Mod. A1536 / AG536 is a SYx527 board. At power ON the SYSTEM, the processor will scan all the slots in the
crate to find out where the module is plugged and what kind of module it is.
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
10
3. Operating modes
The Mod. A1536 / AG536 board can be controlled, either locally or remotely, through the SYSTEM software
interface. For details on SYSTEM operation, please refer to the User's Manual of this product. The following sections
contain a description of commands available for the board control and status monitoring.
Output control and monitoring
For each output channel, it is possible, through the system, to access the following parameters:
CHANNEL NAME (settable)
descriptive name for the relevant channel
V0SET (settable)
the first of the two allowed voltage programmable values.
I0SET (settable)
the first of the two allowed current limit programmable values
V1SET (settable)
the second of the two allowed voltage programmable values
I1SET (settable)
the second of the two allowed current limit programmable values
RUp (settable)
the Ramp-Up parameter value, i.e. the maximum voltage programmable increase rate.
RDWn (settable)
the Ramp-Down parameter value, i.e. the maximum voltage programmable decrease rate.
TRIP (settable)
the TRIP parameter value, i.e. the maximum time an Over Current condition is allowed to last.
SVMAX (settable)
the maximum voltage value programmable for the channel. If the value set as SVMAX is less than
the current value of the V0SET/ V1SET parameter, the latter will automatically decrease to the
SVMAX value.
VMON (monitor)
monitored voltage value
IMON (monitor)
monitored current value
STATUS (monitor)
it displays the channel status.
PW (ON/OFF)
the Power parameter shows the ON/OFF channel status. As this parameter is set ON, the channel
is switched on (if the INTERLOCK is not active and if the channel is enabled either locally or
remotely) highlighted in green when channel ON; onstate = ON; offstate = OFF
POn (EN/DIS)
Power-On option, which can be enabled or disabled. If this option is enabled, at Power-On or
after a Restart each channel is restored in the same condition (defined by the Power parameter)
it was before the Power-Off or Reset. If this option is disabled, at Power-On or after a Restart all
the channels are off, independently from the condition in which they were before the Power-Off
or Reset ; onstate = Enabled; offstate = Disabled
PDwn (Kill/Ramp)
Power-Down option, which can be set as KILL or RAMP. It affects the way the channels react at a
Power-Off command caused by a TRIP condition. If the KILL option is selected, the relevant
channel will be switched off at the maximum rate available. If the RAMP option is selected, the
voltage will drop to zero at a rate determined by the value of the Ramp-Down parameter
programmed for that channel; onstate = Ramp; offstate = Kill
TripInt (settable)
2N-bit word (hexadecimal) maximum 16 lines, where N is the number of the board’s Internal Trip
Bus lines. Bits [0;N-1] allow the channel to sense the trip status from the corresponding lines
when set to one; in the same way, bits [N;2N-1] allow the channel to propagate the trip status
over the Trip Bus: bit N on line 0 and so on (see SY4527 User’s manual).
TripExt (settable)
Must be set in the 0÷255 range (hexadecimal). Bits [0;3] allow the channel to sense the trip
status from the corresponding lines when set to one; in the same way, bits [4;7] allow the
channel to propagate the trip status over the trip bus: bit 4 on line 0 and so on (see SY4527
User’s manual).
If the POWER ON option is enabled, the channel, at POWER ON, is restored in the same condition it was before the
POWER OFF or RESET; if this option is disabled, at POWER ON or after a RESET, the channel is kept OFF
independently from its previous condition.
The following messages may be returned by the SYSTEM when monitoring the channel status:
OFF (channel turned OFF)
RUP (channel ramping up)
RDWN (channel ramping down)
OVC (channel in OVERCURRENT condition)
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
11
OVV (channel in OVERVOLTAGE condition)
UNV (channel in UNDERVOLTAGE condition)
5
EXTTRIP (channel OFF due to external TRIP line signal)
6
INTTRIP (channel OFF due to internal OVERCURRENT condition)
EXT_DIS (channel disabled by board INTERLOCK protection)
Moreover it is possible to monitor board temperature and to check board status; the following messages may be
returned by the SYSTEM when monitoring the board status:
UNDER_TEMP (board temperature < 5°C )
OVER_TEMP (board temperature > 65°C)
Output Enable
In order to enable the HV output channels, first of all it is necessary that pin 9 and 10 on the Radial 52pin output
connector are short circuited (see p.7); if the board features SHV connectors, skip this step.
Then the enable procedure is completed in one of the following ways:
Boards with LEMO interlock connectors
terminating the PASSIVE INTERLOCK [P] (see External connections) connector on 50 Ohm.
supplying the SIGNAL INTERLOCK [S] (see External connections) connector with a +5 V (3-4mA) signal.
Boards with AMP interlock connectors
Short circuit pin 3 and 4 [the lower ones]. Leave contact open between pin 1 (+) and 2 (-) [upper ones]
Apply +5 V (3-4mA) differential signal between pin 1 (+) and 2 (-); pin 1 is the upper one. Leave contact open
between pin 3 and 4.
The INTERLOCK LED (red) is turned off as one of the actions above is performed.
When the channels are disabled the voltage outputs drop to zero at the maximum rate available; when the output
disable cause is removed (see above), the channels remain OFF until the User turns them ON via software.
Grounding specifications
The A1536 channels share a common floating return (RTN), insulated from the crate ground (AGND/EARTH). This
feature allows on-detector grounding, thus avoiding loops which may increase noise level. RTN and AGND may be
coupled in several ways, according to environment requirements. Examples refer to 32 channel version (A1536).
Safety Earth connection
The connection of shield and return to Earth is fundamental for User safety. The connection must always be at the
level of detector or power supply system. Return and Shield connections, even if not present or performed
incorrectly, due to protection circuits implemented on the A1536 are bound to Earth; in this case the voltage
difference between return and Earth (System), shield and Earth is limited to approximately 50V. Please note that
this is a status of emergency-protection, not a working one. The Connector Configurator allows to optimize the
5
UNV is also reported when Hvmax limit is reached, it is up to the User to verify that VMON value does not exceed HVMAX.
6
EXTTRIP and INTTRIP parameters are expressed in Hexadecimal format
CAEN
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
12
connection of the shield, of the return and of AGND (Earth). The best configuration must be determined by the user
upon application, the optimal connection depends on many characteristics of the related experiment.
The following diagrams show four examples of configuration:
HV Generator
Load
PMT
0
HV Channel 0
RETURN
Load
PMT
31
HV Channel 31
EARTH of
DETECTOR
Cable SHIELD
Circuit Protected
SHIELD
Circuit Protected
RETURN
HV CABLE
AGND
2 1
43
6 5
FRONT PANEL
JUMPERS
CLOSED LOOP EARTH CONFIGURATION
HV Generator
Load
PMT
0
HV Channel 0
RETURN
Load
PMT
31
HV Channel 31
EARTH of
DETECTOR
Cable SHIELD
Circuit Protected
SHIELD
Circuit Protected
RETURN
HV CABLE
AGND
2 1
43
6 5
FRONT PANEL
JUMPERS
CLOSED LOOP EARTH CONFIGURATION WITH
PROTECTION STAGE ON LOAD GND
HV Generator
Load
PMT
0
HV Channel 0
RETURN
Load
PMT
31
HV Channel 31
EARTH of
DETECTOR
Cable SHIELD
Circuit Protected
SHIELD
Circuit Protected
RETURN
HV CABLE
AGND
2 1
43
6 5
FRONT PANEL
JUMPERS
SEMI OPEN LOOP EARTH CONFIGURATION
HV Generator
Load
PMT
0
HV Channel 0
RETURN
Load
PMT
31
HV Channel 31
EARTH of
DETECTOR
Cable SHIELD
Circuit Protected
SHIELD
Circuit Protected
RETURN
HV CABLE
AGND
2 1
43
6 5
FRONT PANEL
JUMPERS
OPEN LOOP EARTH CONFIGURATION
Fig. 3 –Earth configuration connection examples
CAEN
Tools for Discovery
n
Electronic Instrumentation
UM2679 –A1536 AG536 Family Power Supply Boards
13
CAEN SpA is acknowledged as the only company in the world providing a complete range of High/Low Voltage Power
Supply systems and Front-End/Data Acquisition modules which meet IEEE Standards for Nuclear and Particle Physics.
Extensive Research and Development capabilities have allowed CAEN SpA to play an important, long term role in this field.
Our activities have always been at the forefront of technology, thanks to years of intensive collaborations with the most
important Research Centres of the world. Our products appeal to a wide range of customers including engineers, scientists
and technical professionals who all trust them to help achieve their goals faster and more effectively.
CAEN S.p.A.
CAEN GmbH
CAEN Technologies, Inc.
Via Vetraia, 11
Klingenstraße 108
1140 Bay Street - Suite 2 C
55049 Viareggio
D-42651 Solingen - Germany
Staten Island, NY 10305
Italy
Phone +49 (0)212 254 4077
USA
Tel. +39.0584.388.398
Fax +49 (0)212 25 44079
Tel. +1.718.981.0401
Fax +39.0584.388.959
Mobile +49 (0)151 16 548 484
Fax +1.718.556.9185
info@caentechnologies.com
www.caen.it
www.caen-de.com
www.caentechnologies.com
CAEN
Tools for Discovery
Electronic Instrumentation
UM2679 - A1536 AG536 Family Power Supply Boards rev. 10 - 11 February 2015
00109-11-A1536-MUTX
Copyright © CAEN SpA. All rights reserved. Information in this publication supersedes all earlier versions. Specifications subject to change without notice.
This manual suits for next models
1
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