Caen DT5519EN, DT5519EM, DT5521EN, DT5521EM, DT5521EP User Manual

CAEN

Tools for Discovery

n

Electronic Instrumentation

Es

DT55xxE Desktop HV Power Supply

Rev. 6 - 11 April 2017

Purpose of this Manual

This document is the DT55xxE User's Manual; it contains information about the installation, the configuration and the
use of the Power Supply System.

Change Document Record

Date

Revision

Changes

18 December 2015

0

Preliminary

5 February 2016

1

Software tools updated; Technical specifications table updated

12 February 2016

2

Technical specifications table updated, Firmware upgrade

26 July 2016

3

Updated Ethernet configuration

11 October 2016

4

Updated Ethernet configuration

26 January 2017

5

Channel Status bit description

11 April 2017

6

Updated inspection and installation instructions

Symbols, abbreviated terms and notation

T.B.D.

Reference Documents

T.B.D.

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).

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Electronic Instrumentation

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Index

1. General description ............................................................................................................ 4

Overview ................................................................................................................................................................... 4

2. Technical specifications ...................................................................................................... 5

Packaging .................................................................................................................................................................. 5

Power requirements ................................................................................................................................................. 5

Front and Back panel ................................................................................................................................................ 5

Front panel components .......................................................................................................................................... 6

HV Channel Output ................................................................................................................................................................6

Back panel components ............................................................................................................................................ 6

Ethernet connector ................................................................................................................................................................6

USB Port .................................................................................................................................................................................6

Channel control section .........................................................................................................................................................7

HV Status control section .......................................................................................................................................................7

Alarm signal .........................................................................................................................................................................7

Interlock signal.....................................................................................................................................................................8

DC Input .................................................................................................................................................................................8

IMON Range .............................................................................................................................................................. 8

Technical specifications table ................................................................................................................................... 9

3. Unit operation .................................................................................................................. 10

Initial inspection and Safety requirements ............................................................................................................. 10

Installation .............................................................................................................................................................. 10

USB installation ....................................................................................................................................................................10

Ethernet installation.............................................................................................................................................................10

Software tools ......................................................................................................................................................... 10

GECO2020 ............................................................................................................................................................................10

CAEN HV Wrapper ................................................................................................................................................................11

Power Supply Modules LabVIEW Instrument Driver ............................................................................................................11

4. VT emulator control ......................................................................................................... 12

Module access ........................................................................................................................................................ 12

Ethernet configuration .........................................................................................................................................................12

Firmware upgrade ................................................................................................................................................................13

Format EEPROM ...................................................................................................................................................................14

Channels settings .................................................................................................................................................................14

Communication Protocol ........................................................................................................................................ 15

Board commands .................................................................................................................................................................15

Channel Commands .............................................................................................................................................................15

Monitor commands ...........................................................................................................................................................15

Set Commands ...................................................................................................................................................................16

List of Figures

Fig. 1: Mod. DT55xxE HV Desktop Power Supply .....................................................................................................................................4

Fig. 2: Mod. DT55xxE front and back panel .............................................................................................................................................5

Fig. 3: HV Channel panel and test point electrical scheme ......................................................................................................................6

Fig. 4: Ethernet Connector .......................................................................................................................................................................6

Fig. 5: USB Connector ..............................................................................................................................................................................6

Fig. 6: Channel control panel and Kill scheme .........................................................................................................................................7

Fig. 7: HV Status control panel.................................................................................................................................................................7

Fig. 8: ALARM TTL configured ..................................................................................................................................................................7

Fig. 9: 12V DC Input .................................................................................................................................................................................8

Fig. 10: Terminal Board Menu ...............................................................................................................................................................12

Fig. 11: Terminal Ethernet settings ........................................................................................................................................................13

Fig. 12: Format EEPROM Menu .............................................................................................................................................................14

Fig. 13: Channels Menu .........................................................................................................................................................................14

List of Tables

Table 1: DT55xxE Series Channel technical specifications .......................................................................................................................9

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1. General description

Overview

Fig. 1: Mod. DT55xxE HV Desktop Power Supply

The DT55xxE series provide 4 independent High Voltage channels in Desktop package (Powered via
external AC/DC stabilized power supply); the following versions are available:

Model

Output range

Polarity

DT5519EM

500 V/3 mA

Mixed

DT5519EN

500 V/3 mA

Negative

DT5519EP

500 V/3 mA

Positive

DT5521EM

6 kV/300 µA

Mixed

DT5521EN

6 kV/300 µA

Negative

DT5521EP

6 kV/300 µA

Positive

DT5521HEM

6 kV/20 µA

Mixed

DT5521HEN

6 kV/20 µA

Negative

DT5521HEP

6 kV/20 µA

Positive

DT5533EM

4 kV/3 mA (4 W)

Mixed

DT5533EN

4 kV/3 mA (4 W)

Negative

DT5533EP

4 kV/3 mA (4 W)

Positive

DT5534EM

6 kV/1 mA (4 W)

Mixed

DT5534EN

6 kV/1 mA (4 W)

Negative

DT5534EP

6 kV/1 mA (4 W)

Positive

HV outputs are delivered through SHV connectors. “Mixed” versions have two positive and two negative
channels.
The HV output RAMP-UP and RAMP-DOWN rates may be selected independently for each channel with 1
V/s steps. The module features 16bit ISET/IMON resolution. Optionally, the modules can be ordered with
current monitor resolution extended by 10x in a Lower range (selectable via software).
Safety features include:

• OVERVOLTAGE and UNDERVOLTAGE warning when the output voltage differs from the programmed

value

• OVERCURRENT detection: if a channel tries to draw a current larger than its programmed limit, it is

turned off

• Channels can be enabled or disabled through the Interlock logic

• Channels individually enabled via front panel jumpers (passive or active mode available)

Functional parameters can be programmed and monitored via USB and Ethernet (external PC required),
supported OS: Windows 7 or later; Linux kernel Rel. 2.4 or later.

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2. Technical specifications

Packaging

The DT55xxE unit is a Desktop module housed in a 154x50x164 mm3 alloy box. The kit includes:

• DT55xxE desktop power supply unit

• External AC/DC power supply with separate power cord

• USB cable

• 10BASE-T Ethernet cable

Power requirements

The module is powered by the external AC/DC stabilized power supply included in the delivered kit
(Switchbox Model FRA045-S12-4; see specifications in table p.5)

Note.: Using a different power supply source, like battery or linear type, it is recommended the source to
provide +12V and, at least, 2.5A; the power jack is a 2.1mm type, a suitable cable is the RS 656-3816 type
(or similar).

Front and Back panel

Fig. 2: Mod. DT55xxE front and back panel

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Front panel components

HV Channel Output

Fig. 3: HV Channel panel and test point electrical scheme

NAME:

TYPE:

ON

GREEN LED; lights when the channel is active

OVC

RED LED; lights when channel draws a current > ISET (OVC detected)

POL

RED/YELLOW LED; RED (positive channel) or YELLOW (negative channel)

HV OUT

HV Channel Output; Mod. SHV RADIALL R317580; Impedance: 50 Ohm; Frequency range: 0 –

2 GHz; VSWR: <1.20 + 0.3 F (GHz) – (plug and jack); Test voltage: 10kV DC – 1mn (unmated
connectors); Ratings: 12kV DC – 1mn (mated pairs); Current rating: 10 A

WARNING! These connectors produce extremely hazardous high voltages at a potentially
lethal current level; never connect or disconnect the HV OUT connector with the power
ON/OFF switch ON; always switch power OFF and wait at least 30s before connecting or
disconnecting HV cables.

Back panel components

Ethernet connector

Fig. 4: Ethernet Connector

NAME:

TYPE:

SIGNAL:

FUNCTION:

ETH

10Base-T female connector

I/O

TTL signals (TCP/IP)

USB Port

Fig. 5: USB Connector

NAME:

TYPE:

SIGNAL:

FUNCTION:

USB

B type USB connector

I/O

USB 2.0 and USB 1.1 compliant

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Channel control section

Fig. 6: Channel control panel and Kill scheme

NAME:

TYPE:

FUNCTION:

KILL

PUSH BUTTON

Channel KILL; channel is turned off at the fastest available rate

KILL

RED LED

Signals Channel KILL

REMOTE KILL

AMP 280371-2

leave contact open: KILL
voltage level (0÷1V, ~5mA current) between pin 2 and 3: KILL
short circuit pin 1 with pin 2, and pin 3 with pin 4: ENABLED
voltage level (4÷6V, ~5mA current) between pin 2 and pin 3: ENABLED

HV Status control section

ALARM

INTERLOCK

Fig. 7: HV Status control panel

NAME:

TYPE:

SIGNAL:

FUNCTION:

ALARM

RED LED/ AMP 280371-2.

Out

Alarm status signalled (active LOW)

INTERLOCK

RED LED/ AMP 280371-2

In

Interlock signal (channels hardware disabled)

Alarm signal

As an Alarm condition is detected (see p.) pins 2 and 3 (- and +) are closed; the contact can be used to
switch an external device supplied by an external source, otherwise the VB and GND references can be
used to provide a TTL compatible level on pin 2 and 3.

In the first case (externally supplied device) the maximum allowed ratings are:

• Maximum voltage between + and -: 12V

• Maximum sink current across + and -: 100mA

In the latter case, to produce a TTL compatible Alarm Out, pin 3 (+) must be connected with pin 4 (VB) and
pin 1 (GND) with pin 2 (-); see the diagram below:

Fig. 8: ALARM TTL configured

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Interlock signal

With reference to diagram of the Interlock input shown above, the diode is part of opto-coupler stage.
Interlock means that channels are hardware disabled. The interlock operation is as follows:

CONFIGURATION

INTERLOCK STATUS

leave contact open

INTERLOCK

voltage level (0÷1V, ~5mA current) between pin 2 and pin 3

INTERLOCK

short circuit pin 1 with pin 2, and pin 3 with pin 4

ENABLED

voltage level (4÷6V, ~5mA current) between pin 2 and pin 3

ENABLED

The front panel Interlock LED is ON when the INTERLOCK is active; as INTERLOCK is active, channels are
turned off at the fastest available rate, regardless the RAMP DOWN setting.

DC Input

Fig. 9: 12V DC Input

NAME:

TYPE:

SIGNAL:

FUNCTION:

12V In

RAPC722X SWITCHCRAFT PCB 2.1mm DC Power Jack

Input

+12V DC Input

ON/OFF switch

Molveno A11331122000 A1 switch

O → power supply OFF.
I → power supply ON

IMON Range

The channel current can be monitored with an increased resolution (10x) in the following ranges (“low”
range):

DT5519E

0 – 300 µA

DT5521E

0 – 30 µA

DT5521HE

0 – 2 µA

DT5533E

0 – 300 µA

DT5534E

0 – 100 µA

By selecting IMON Range = LOW the output current is monitored with

DT5519E

5 nA resolution (instead of 50 nA), in the 0 – 300 µA range

DT5521E

500 pA resolution (instead of 5 nA), in the 0 – 30 µA range

DT5521HE

100 pA resolution (instead of 1 nA), in the 0 – 2 µA range

DT5533E

5 nA resolution (instead of 50 nA), in the 0 - 300 µA range

DT5534E

2 nA resolution (instead of 20 nA), in the 0 - 100 µA range

It is important to notice that, if IMON Range = LOW (see p.15) is selected, and the channel draws a current
larger than

300 µA

DT5519E

then Overcurrent is signalled.

30 µA

DT5521E

2 µA

DT5521HE

300 µA

DT5533E

100 µA

DT5534E

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DT55xxE Desktop HV Power Supply

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Technical specifications table

Table 1: DT55xxE Series Channel technical specifications

Model

DT5519E

DT5521E

DT5521EH

DT5533E

DT5534E

Packaging

Desktop module housed in a 154x50x164 mm3 alloy box; weight:~800g

Output channels

Positive, Negative and Mixed (2+2) Polarity available

Output ranges

500 V/3mA

6kV/300 µA

6kV/20 µA

4kV/3mA

6kV /1mA

Max. Ch. Output Power

1.5 W

1.8 W

180 mW

4W

Vset Resolution

10 mV

100 mV

Vmon Resolution

1 mV

50 mV

10 mV

50 mV

ISET Resolution

50nA

5 nA

500 pA

50 nA

20 nA

IMON Resolution
High range

10nA

1 nA

100 pA

10 nA

5 nA

Low range1

1nA

100 pA

10 pA

1 nA

500 pA

VMAX hardware

0 ÷ 510 V

0 ÷ 6100 V

0 ÷ 4100 V

0 ÷ 6100 V

VMAX hardware resolution

1 V

VMAX hardware accuracy

± 2% of FSR

IMAX

3100 µA

310 µA

21 µA

3100 µA

1050 µA

Alarm output

Open collector, 100 mA maximum sink current

Interlock input

LOW: <1V; current~5mA; HIGH: 4÷6 V

Ramp Up/Down

1÷100 V/s, 1 V/s step

1÷500 Volt/s, 1 Volt/s step

Accuracy

2

Vmon vs. Vout

±0.05% of read ±0.5V

±0.05% of read ±1V

±0.05% of read ±1V

±0.05% of read ±1V

±0.05% of read ±1V

Vset vs. Vout

±0.05% of read ±0.5V

±0.05% of read ±1V

±0.05% of read ±1V

±0.05% of read ±1V

±0.05% of read ±1V

IMON vs.
Iout

High range

±2% of read ±1µA

±2% of read ±50nA

±2% of read ±5nA

±2% of read ±1µA

±2% of read ±500nA

Low range

±2% of read ±100nA

±2% of read ±5nA

±2% of read ±500pA

±2% of read ±100nA

±2% of read ±50nA

ISET vs.
IMON

High range

±2% of read ±1µA

±2% of read ±50nA

±2% of read ±5nA

±2% of read ±1µA

±2% of read ±500nA

Low range

±2% of read ±100nA

±2% of read ±5nA

±2% of read ±500pA

±2% of read ±100nA

±2% of read ±50nA

Voltage Ripple3

typical

<3 mVpp

<12 mVpp

<15 mVpp

max

<5 mVpp

<20 mVpp

<25 mVpp

Ventilation Fans

Two Sunon MC35101V1-000U-A99

Humidity range

0 ÷ 80%

Operating temperature

0 ÷ 45°C

Storage temperature

-10 ÷ 70°C

Vout / Temperature coefficient

max. 50ppm / °C

IMON / Temperature coefficient

max 100ppm/C°

Long term stability Vout vs. Vset

± 0.02% (after one week @ constant temperature)

External power supply

Switchbox FRA045-S12-4 (12 VDC, 3.75 A, 45 W); Universal Input C14 receptacle;
INPUT Voltage range 100-240VAC 1.2A 50-60Hz. Inrush current 40A at 115VAC / 80A at 230VAC max. Dielectric
withstand Input/output 3,000VDC.
OUTPUT Output voltage +12V. Ripple and noise 2% p-p max. Load regulation ±5% max. No load stand by power <0.5W
@ 230VAC. Efficiency >=85% for CEC requirement. Hold up time 10ms at nominal line. Protections OCP, OVP, over
power & short circuit.
GENERAL Std output connector Dc barrel jack. Std output cable/length UL1185, #18AWG / 5 ft.
ENVIRONMENTAL Operating temperature 0°C to +40°C. Storage temperature –20°C to +85°C.
STANDARDS Safety standards IEC/UL/EN60950-1, CE, CB. EMC EN55022 (CISPR 22) class B, FCC class B.

1

Available as optional customization

2

Accuracy values are measured from 10% to 90% of Full Scale Range

3

Measured with: 1m cable length; 2nF capacitance, 100MHz band width

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Electronic Instrumentation

DT55xxE Desktop HV Power Supply

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3. Unit operation

Initial inspection and Safety requirements

N.B. read carefully the “Precautions for Handling, Storage and Installation” document provided with

the product before starting any operation!

The following HAZARD SYMBOLS are reported on the unit:

CAUTION: indicates the need to consult the “Precautions for Handling, Storage and
Installation” document provided with the product. A potential risk exists if the operating

instructions are not followed

HIGH VOLTAGE: indicates the presence of electric shock hazards. Enclosures marked with

these symbols should only be opened by CAEN authorized personnel.

To avoid risk of injury from electric shock, do not open this enclosure

Prior to shipment this unit was inspected and found free of mechanical or electrical defects. Upon
unpacking of the unit, inspect for any damage, which may have occurred in transport. The inspection
should confirm that there is no exterior damage to the unit, such as broken knobs or connectors, and that
the panels are not scratched or cracked. Keep all packing material until the inspection has been
completed. If damage is detected, file a claim with carrier immediately and notify CAEN. Before installing
the unit, make sure you have read thoroughly the safety rules and installation requirements, then place
the package content onto your bench; you shall find the following parts:

 DT55xxE desktop power supply unit;
 External AC/DC power supply with separate power cord
 USB cable
 10BASE-T Ethernet cable

Moreover, an external PC is required (supported OS: Windows 7 or later; Linux kernel Rel. 2.4 or later)

Installation

USB installation

Connect the DT55xxE to the AC/DC power supply through the DC input rear connector;
Connect the external AC/DC power supply to Mains (AC) via the separate power cord
Connect the DT55xxE to the PC via the USB cable
Power up the DT55xxE through the ON/OFF rear switch (see p. 8)
Download and install the USB driver for your OS, available at the DT55xxE page on the www.caen.it site
Now the DT55xxE is ready for operation, upon installation of one of the available software tools.

Ethernet installation

Connect the DT55xxE to the AC/DC power supply through the DC input rear connector;
Connect the external AC/DC power supply to Mains (AC) via the separate power cord
Connect the Ethernet port of the unit to the relevant port of the PC, using the 10BASE-T Ethernet cable
Power up the DT55xxE through the ON/OFF rear switch (see p. 8)
Now the DT55xxE is ready for operation, upon installation of one of the available software tools.

Software tools

GECO2020

CAEN GECO2020 is a graphical application that allows to control the DT55xxE HV Desktop Power Supplies
(and all other CAEN Power Supplies). Once the DT55xxE is correctly installed, download and install the

GECO2020 software package related to your OS; follow the instructions in the GECO2020 User manual
and the DT55xxE will be ready to be operated. For more info please visit www.caen.it

(products>firmware/software section).

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DT55xxE Desktop HV Power Supply

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CAEN HV Wrapper

CAEN HV Wrapper is a library, available either as a set of ANSI C functions or LabVIEW™ VI’s. Such set
provides the software developer an unified software interface for the control of CAEN Power Supplies.
This is a low level application in which the writing of the Control SW is assigned to the user. It contains a
generic software interface independent by the Power Supply models and by the communication path used
to exchange data with them.

CAEN HV Wrapper is logically located between an higher level application, such as GECO2020, and the
lower layer software libraries. For more info please visit www.caen.it (products>firmware/software

section).

Power Supply Modules LabVIEW Instrument Driver

Power Supply Modules LabVIEW Instrument Driver is a set of VI’S, developed for LabVIEW 2009 and later

releases (LabVIEW™ is a Trademark of National Instruments Corp.), that allow to configure and monitor

all parameters of remotely controlled CAEN Programmable HV Power Supply modules. Host PC shall run
LabVIEW 2009 or later releases and NI-VISA Run-Time Engine 5.3.

To install the Power Supply Modules LabVIEW Instrument Driver, go to CAEN web site in the “Software”
area, download the Power Supply Modules LabVIEW Instrument Driver installation package and follow
the Set Up instructions.

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Electronic Instrumentation

DT55xxE Desktop HV Power Supply

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4. VT emulator control

Module access

The module is provided with a USB2.0 compliant interface and Ethernet Port (TCP/IP).
For link connection, refer to instructions given at page 10.
CAEN provides the CAEN GECO2020 Control Software that allows a friendly remote management of all
Unit’s functional parameters (see www.caen.it software support page); anyway, the connection can be
performed also via VT emulators, we suggest to use Tera Term (see https://ttssh2.osdn.jp/index.html.en)

USB

Launch the terminal emulator (we suggest using
Tera Term), select the serial communication link
and set the virtual communication port
associated to the module. Select USB connection
and the used port number; set port as follows

baud rate 9600
Data bits: 8
Parity: none
stop bit: 1
Flow control: none

Launch communication

Type caen then <enter>;

Ethernet

Launch the terminal emulator (we suggest using
Tera Term), select port number 23
Please note that line editing must be disabled prior
to Ethernet access.
Default settings are:

IP address 192.168.0.1
Subnet mask 255.255.255.0
Gateway 255.255.255.0
Launch communication
Type caen then <enter>;

as the communication is established, the Main Menu will be displayed:

Fig. 10: Terminal Board Menu

Five options are available:

• Display

• Format

• Update

• Ethernet

• Quit

Ethernet configuration

To configure the Ethernet Port; with reference to Fig. 10: Terminal Board Menu, Type E; the following
screen will open:

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Electronic Instrumentation

DT55xxE Desktop HV Power Supply

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Fig. 11: Terminal Ethernet settings

At first Power On the module is configured with default static IP (factory setting); such IP can be updated
using the “arrows” to select the fields, typing the new values and confirming with <Enter>.

Type S to save the new setting in the EEPROM and go back to Main Menu.

The new setting will become active at next Power On; if a DHCP Server is available, then the module can
be enabled or disabled as DHCP client; type S to save the new setting in the EEPROM and go back to Main
Menu: the DHCP server will automatically assign a new IP to the module at next Power On.

Firmware upgrade

To upgrade the firmware:

• download from www.caen.it unit page the most recent firmware revision for your module

• connect to the module via USB using Tera Term VT Emulator

• in the Tera Term options, select “set up” > “serial port” and enter the following settings

• click OK to confirm

• regarding Fig. 10: Terminal Board Menu, type U in order to upgrade the firmware

• Type y

• The following message will be shown:

• Select “File” > disconnect

• unplug the USB cable

• do not turn off the module!

• connect once again to the module, via USB

• the following message will be shown:

• Press any key

• Wait until the following message is shown:

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• Select “File” > send file

• Browse the image file (for example DT55XXE.102)

• Select “open”

• Wait the upload to complete until this message is shown:

• Select “File” > disconnect

• unplug the USB cable

• connect once again to the module, via USB

• now the unit is ready to operate running the upgraded firmware

Format EEPROM

By typing F on Terminal Board Menu (Fig. 10) it is possible to access the format EEPROM menu.

Fig. 12: Format EEPROM Menu

Channels settings

By typing D on Terminal Board Menu (Fig. 10) it is possible to access channels settings.

To change one parameter: point the parameter with the “arrow keys”, and type the desired value, confirm
by pressing <Enter>; Imon range, Power and Power Down can be changed using the <Space> bar.

Fig. 13: Channels Menu

By typing G, the channels are accessed in “group” mode (one setting applies to all channels).

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Electronic Instrumentation

DT55xxE Desktop HV Power Supply

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Communication Protocol

The following Protocol is based on commands made of ASCII characters strings.

Board commands

The general board commands have the format: $CMD:***,PAR:***** <CR><LF>

$CMD:SET,PAR:BDCLR

Clears board alarms

$CMD:MON,PAR:BDILK

Monitor Interlock status

$CMD:MON,PAR:BDNCH

Number of channels

$CMD:MON,PAR:BDNAME

Board name

$CMD:MON,PAR:BDSNUM

Serial Number

$CMD:MON,PAR:BDFREL

Firmware release

$CMD:MON,PAR:BDALARM

Alarm Mask = 0x1ff8

IS_OVC

8

At least one ch. in Overcurrent

IS_OVV

0x10

At least one ch. in OverVoltage

IS_UNV

0x20

At least one ch. in UnderVoltage

IS_MAXV

0x40

At least one ch. in MaxV

IS_TRIP

0x80

At least one ch. in Trip

IS_MAXPW

0x100

At least one ch. in MaxPower

IS_TWARN

0x200

At least one ch. in Temp warning (>80°C)

IS_OVT

0x400

At least one ch. in OVT (>125°C)

IS_KILL

0x800

At least one ch. Killed

IS_INTLCK

0x1000

At least one ch. in Interlock

$CMD:MON,PAR:MACADDR

Board MAC Address

$CMD:MON,PAR:IPADDR

Board IP Address

$CMD:MON,PAR:SUBMASK

Subnet mask

$CMD:MON,PAR:GATEWAY

Gateway

$CMD:MON,PAR:DHCPEN

DHCP (Enable / Disable)

Channel Commands

The channel commands have the format: $CMD:***,CH:*,PAR:***,VAL:xxx.xx<CR,LF>
Where:
CMD : SET, MON
CH : Channel (0..4); CH = 4 “group commands”
PAR : VSET, ISET, ON ...
VAL : value

Response string has the format : #CMD:***,VAL:xxx.xx<CR,LF>
Where:
CMD : OK, ERR
VAL : value
In case of MON commands related to all channels, the returned value are separated by ';'

Monitor commands

$CMD:MON,CH:XX,PAR:VSET

VSET value

$CMD:MON,CH:XX,PAR:VSRES

Resolution of VSET in Volt

$CMD:MON,CH:XX,PAR:VSDEC

Decimal digits of VSET

$CMD:MON,CH:XX,PAR:VMAX

Max value of VSET

$CMD:MON,CH:XX,PAR:VMIN

Min value of VSET

$CMD:MON,CH:XX,PAR:VMON

VMON value

$CMD:MON,CH:XX,PAR:VMRES

VMON resolution

$CMD:MON,CH:XX,PAR:VMDEC

Decimal digits of VMON

$CMD:MON,CH:XX,PAR:ISET

ISET value

$CMD:MON,CH:XX,PAR:ISRES

Resolution of ISET in µA

$CMD:MON,CH:XX,PAR:IMAXH

Max value of ISET in high range

$CMD:MON,CH:XX,PAR:IMAXL

Max value of ISET in low range

CAEN

Electronic Instrumentation

DT55xxE Desktop HV Power Supply

16

$CMD:MON,CH:XX,PAR:IMIN

Min value of ISET

$CMD:MON,CH:XX,PAR:ISDEC

Decimal digits of ISET

$CMD:MON,CH:XX,PAR:IMON

IMON value

$CMD:MON,CH:XX,PAR:IMRANGE

IMON range (high /low)

$CMD:MON,CH:XX,PAR:IMRESL

IMON resolution in low range

$CMD:MON,CH:XX,PAR:IMRESH

IMON resolution in high range

$CMD:MON,CH:XX,PAR:IMDECL

Decimal digits of IMON in low range

$CMD:MON,CH:XX,PAR:IMDECH

Decimal digits of IMON in high range

$CMD:MON,CH:XX,PAR:MAXV

VMAX value

$CMD:MON,CH:XX,PAR:MVMIN

VMAX minimum value

$CMD:MON,CH:XX,PAR:MVMAX

VMAX maximum value

$CMD:MON,CH:XX,PAR:MVRES

VMAX resolution

$CMD:MON,CH:XX,PAR:MVDEC

Decimal digits of VMAX

$CMD:MON,CH:XX,PAR:PDWN

Power down mode Ramp / Kill

$CMD:MON,CH:XX,PAR:POL

Polarity

$CMD:MON,CH:XX,PAR:STAT

Status

IS_ON

1

Channel On

IS_UP

2

Channel Ramping Up

IS_DOWN

4

Channel Ramping Down

IS_OVC

8

Channel in Overcurrent

IS_OVV

0x10

Channel in OverVoltage

IS_UNV

0x20

Channel in UnderVoltage

IS_MAXV

0x40

Channel in MaxV

IS_TRIP

0x80

Channel in Trip

IS_MAXPW

0x100

Channel in MaxPower

IS_TWARN

0x200

Channel in Temperature warning (>80°C)

IS_OVT

0x400

Channel in OVT (>125°C)

IS_KILL

0x800

Channel Killed

IS_INTLCK

0x1000

Channel in Interlock

$CMD:MON,CH:XX,PAR:RUP

RAMP UP value

$CMD:MON,CH:XX,PAR:RUPMIN

RAMP UP minimum value

$CMD:MON,CH:XX,PAR:RUPMAX

RAMP UP maximum value

$CMD:MON,CH:XX,PAR:RUPRES

RAMP UP resolution

$CMD:MON,CH:XX,PAR:RUPDEC

Decimal digits of RAMP UP

$CMD:MON,CH:XX,PAR:RDW

RAMP DOWN value

$CMD:MON,CH:XX,PAR:RDWMIN

RAMP DOWN minimum value

$CMD:MON,CH:XXPAR:RDWMAX

RAMP DOWN maximum value

$CMD:MON,CH:XX,PAR:RDWRES

RAMP DOWN resolution

$CMD:MON,CH:XX,PAR:RDWDEC

Decimal digits of RAMP DOWN

$CMD:MON,CH:XXPAR:TRIP

Trip value

$CMD:MON,CH:XX,PAR:TRIPMIN

Trip minimum value

$CMD:MON,CH:XX,PAR:TRIPMAX

Trip maximum value

$CMD:MON,CH:XX,PAR:TRIPRES

Trip resolution

$CMD:MON,CH:XX,PAR:TRIPDEC

Decimal digits of Trip

Set Commands

$CMD:SET,CH:XX,PAR:VSET,VAL:XXX.XX

VSET value

$CMD:SET,CH:XX,PAR:ISET,VAL:XXXX.XX

ISET value

$CMD:SET,CH:XX,PAR:IMRANGE,VAL:LOW

IMON range low

$CMD:SET,CH:XX,PAR:IMRANGE,VAL:HIGH

IMON range high

$CMD:SET,CH:XX,PAR:RUP,VAL:XXX

RAMP UP value

$CMD:SET,CH:XX,PAR:RDW,VAL:XXX

RAMP DOWN value

$CMD:SET,CH:XX,PAR:PDWN,VAL:RAMP

POWER DOWN ramp mode

$CMD:SET,CH:XX,PAR:PDWN,VAL:KILL

POWER DOWN kill mode

$CMD:SET,CH:XX,PAR:ON

Set Ch ON

$CMD:SET,CH:XX,PAR:OFF

Set Ch OFF

CAEN

Tools for Discovery

n

Electronic Instrumentation

DT55xxE Desktop HV Power Supply

17

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

Eckehardweg 10

1140 Bay Street - Suite 2 C

55049 Viareggio

42653 Solingen

Staten Island, NY 10305

Italy

Germany

USA

Tel. +39.0584.388.398

Tel. +49.212.2544077

Tel. +1.718.981.0401

Fax +39.0584.388.959

Mobile +49(0)15116548484

Fax +1.718.556.9185

info@caen.it

Fax +49.212.2544079

info@caentechnologies.com

www.caen.it

info@caen-de.com

www.caentechnologies.com

www.caen-de.com

CAEN

Tools for Discovery

Electronic Instrumentation

DT55xxE Desktop HV Power Supply rev. 6 - 11 April 2017

Copyright © CAEN SpA. All rights reserved. Information in this publication supersedes all earlier versions. Specifications su bject to change without notice.