Intepro systems Psi 9040-170 3u User manual

Date: 09/2018

Operating Guide

PSI 9000 3U

DC High Efficiency Power Supply

Attention! This document is

only valid for devices with TFT

display and rmware “KE: 2.24”

(standard models) resp. “KE:

2.08” (GPIB models), “HMI:

2.14” and “DR: 1.6.5” or higher.

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TABLE OF CONTENTS

1. GENERAL

1.1 About this document ......................................5

1.1.1 Retention and use ..........................................5

1.1.2 Copyright ........................................................5

1.1.3 Validity ............................................................5

1.1.4 Symbols and warnings ..................................5

1.2 Warranty .........................................................5

1.3 Limitation of liability ........................................5

1.4 Disposal of equipment ...................................6

1.5 Product key ....................................................6

1.6 Intended usage ..............................................6

1.7 Safety .............................................................7

1.7.1 Safety notices .................................................7

1.7.2 Responsibility of the user...............................8

1.7.3 Responsibility of the operator .......................8

1.7.4 User requirements .........................................8

1.7.5 Alarm signals ..................................................9

1.8 Technical Data ...............................................9

1.8.1 Approved operating conditions ......................9

1.8.2 General technical data ...................................9

1.8.3 Specic technical data (400 V AC models) . 10

1.8.4 Specic technical data (208 V AC models) . 20

1.8.5 Views ............................................................28

1.8.6 Control elements ..........................................32

1.9 Construction and function ............................33

1.9.1 General description ......................................33

1.9.2 Block diagram ..............................................33

1.9.3 Scope of delivery .........................................34

1.9.4 Accessories ..................................................34

1.9.5 Options .........................................................34

1.9.6 The control panel (HMI) ...............................35

1.9.7 USB port type B (rear side) .........................38

1.9.8 Interface module slot ...................................38

1.9.9 Analog interface ...........................................38

1.9.10 “Share” connector ........................................39

1.9.11 “Sense” connector (remote sensing) ...........39

1.9.12 Master-Slave bus .........................................39

1.9.13 GPIB port (optional) .....................................39

2. INSTALLATION &

COMMISSIONING

2.1 Transport and storage .................................40

2.1.1 Transport ......................................................40

2.1.2 Packaging ....................................................40

2.1.3 Storage .........................................................40

2.2 Unpacking and visual check ........................40

2.3 Installation ....................................................40

2.3.1 Safety procedures before installation and

use ................................................................40

2.3.2 Preparation ...................................................40

2.3.3 Installing the device .....................................41

2.3.4 Connection to AC supply .............................42

2.3.5 Connection to DC loads ...............................45

2.3.6 Grounding of the DC output ........................46

2.3.7 Connecting the analog interface .................46

2.3.8 Connection of remote sense .......................46

2.3.9 Installation of an interface module ...............47

2.3.10 Connecting the “Share” bus ........................48

2.3.11 Connecting the USB port (rear side) ...........48

2.3.12 Initial commission .........................................48

2.3.13 Commission after a rmware update or a

long period of non-use .................................48

2.3.14 System extension with slave units ..............49

3. OPERATION AND APPLICATION

3.1 Personal safety ............................................50

3.2 Operating modes .........................................50

3.2.1 Voltage regulation / Constant voltage .........50

3.2.2 Current regulation / constant current / current

limiting ..........................................................51

3.2.3 Power regulation / constant power / power

limiting ..........................................................51

3.2.4 Internal resistance regulation ......................51

3.3 Alarm conditions ..........................................52

3.3.1 Power Fail ...................................................52

3.3.2 Overtemperature ..........................................52

3.3.3 Overvoltage protection.................................52

3.3.4 Overcurrent protection .................................52

3.3.5 Overpower protection ..................................52

3.4 Manual operation .........................................53

3.4.1 Switching on the device ...............................53

3.4.2 Switching o󰀨 the device ...............................53

3.4.3 Conguration via MENU ..............................53

3.4.4 Adjustment limits ..........................................62

3.4.5 Changing the operating mode .....................62

3.4.6 Manual adjustment of set values .................63

3.4.7 Switching the main screen view ..................63

3.4.8 The meter bars .............................................64

3.4.9 Switching the DC output on or o󰀨 ...............64

3.4.10 Recording to USB stick (logging) ................65

3.5 Remote control .............................................66

3.5.1 General .........................................................66

3.5.2 Control locations ..........................................66

3.5.3 Remote control via a digital interface ..........66

3.5.4 Remote control via the analog interface

(AI) ................................................................67

3.6 Alarms and monitoring .................................71

3.6.1 Denition of terms ........................................71

3.6.2 Device alarm and event handling ................71

3.7 Control panel (HMI) lock ..............................73

3.8 Limits lock .....................................................73

3.9 Loading and saving a user prole ...............74

3.10 The function generator.................................75

3.10.1 Introduction...................................................75

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3.10.2 General .........................................................75

3.10.3 Method of operation .....................................76

3.10.4 Manual operation .........................................76

3.10.5 Sine wave function .......................................77

3.10.6 Triangular function .......................................78

3.10.7 Rectangular function ....................................78

3.10.8 Trapezoidal function .....................................79

3.10.9 DIN 40839 function ......................................79

3.10.10 Arbitrary function ..........................................80

3.10.11 Ramp function ..............................................84

3.10.12 UI and IU table functions (XY table) ............84

3.10.13 PV table function (photovoltaics) .................86

3.10.14 FC table function (fuel cell) ..........................87

3.10.15 Extended PV table function according to EN

50530 ...........................................................89

3.10.16 Remote control of the function generator....94

3.11 Other applications ........................................95

3.11.1 Parallel operation in master-slave (MS) ......95

3.11.2 Series connection ........................................99

3.11.3 Operation as battery charger .......................99

3.11.4 Two quadrants operation (2QO) ................100

4. SERVICE AND MAINTENANCE

4.1 Maintenance / cleaning ..............................102

4.2 Fault nding / diagnosis / repair.................102

4.2.1 Firmware updates ......................................102

4.3 Calibration ..................................................103

4.3.1 Preface .......................................................103

4.3.2 Preparation .................................................103

4.3.3 Calibration procedure ................................103

5. CONTACT AND SUPPORT

5.1 General .......................................................105

5.2 Contact options ..........................................105

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1. General

1.1 About this document

1.1.1 Retention and use

This document is to be kept in the vicinity of the equipment for future reference and explanation of the operation of

the device. This document is to be delivered and kept with the equipment in case of change of location and/or user.

1.1.2 Copyright

Reprinting, copying, also partially, usage for other purposes as foreseen of this manual are forbidden and breach

may lead to legal process.

1.1.3 Validity

This manual is valid for the following equipment including derived variants:

Model Article nr.. Model Article nr.. Model Article nr..

PSI 9040-170 3U 06230350 PSI 9080-340 3U 06230357 PSI 9080-510 3U 06230364

PSI 9080-170 3U 06230351 PSI 9200-140 3U 06230358 PSI 9200-210 3U 06230365

PSI 9200-70 3U 06230352 PSI 9360-80 3U 06230359 PSI 9360-120 3U 06230366

PSI 9360-40 3U 06230353 PSI 9500-60 3U 06230360 PSI 9500-90 3U 06230367

PSI 9500-30 3U 06230354 PSI 9750-40 3U 06230361 PSI 9750-60 3U 06230368

PSI 9750-20 3U 06230355 PSI 91000-30 3U 06230362 PSI 91500-30 3U 06230369

PSI 9040-340 3U 06230356 PSI 9040-510 3U 06230363

Changes and modications for special models will be listed in a separate document.

1.1.4 Symbols and warnings

Warning and safety notices as well as general notices in this document are shown in a box with a symbol as follows:

Symbol for a life threatening danger

Symbol for general safety notices (instructions and damage protection bans) or important infor-

mation for operation

Symbol for general notices

1.2 Warranty

Intepro Systems guarantees the functional competence of the applied technology and the stated performance

parameters. The warranty period begins with the delivery of free from defects equipment.

Terms of guarantee are included in the general terms and conditions (TOS) of Intepro Systems.

1.3 Limitation of liability

All statements and instructions in this manual are based on current norms and regulations, up-to-date technology

and our long term knowledge and experience. The manufacturer accepts no liability for losses due to:

• Usage for purposes other than designed

• Use by untrained personnel

• Rebuilding by the customer

• Technical changes

• Use of not authorized spare parts

The actual delivered device(s) may di󰀨er from the explanations and diagrams given here due to latest technical

changes or due to customized models with the inclusion of additionally ordered options.

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1.4 Disposal of equipment

A piece of equipment which is intended for disposal must, according to local laws and regulations be returned to

the manufacturer for scrapping, unless the person operating the piece of equipment or another, delegated person

is conducting the disposal. Our equipment falls under these regulations and is accordingly marked with the fol-

lowing symbol:

1.5 Product key

Decoding of the product description on the label, using an example:

PSI 9 080 - 510 3U zzz

Field for identication of installed options and/or special models

3W = Option 3W installed (GPIB port instead of Interface slot)

HS = High Speed option installed

WC = Water cooling installed

Construction (not always given)

3U = 19" frame with 3U

Maximum current of the device in Ampere

Maximum voltage of the device in Volt

Series: 9 = Series 9000

Type identication:

PSI = Power Supply Intelligent, always programmable

Special models are always derived from standard models and can vary in input voltage and

current from those given.

1.6 Intended usage

The equipment is intended to be used, if a power supply or battery charger, only as a variable voltage and current

source, or, if an electronic load, only as a variable current sink.

Typical application for a power supply is DC supply to any relevant user, for a battery charger the charging of vari-

ous battery types and for electronic loads the replacement of an ohmic resistor by an adjustable DC current sink

in order to load relevant voltage and current sources of any type.

• Claims of any sort due to damage caused by non-intended usage will not be accepted.

• All damage caused by non-intended usage is solely the responsibility of the operator.

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1.7 Safety

1.7.1 Safety notices

Mortal danger - Hazardous voltage

• Electrical equipment operation means that some parts can be under dangerous voltage.

Therefore all parts under voltage must be covered! This basically applies to all models,

though 40 V models according to SELV can’t generate hazardous DC voltage.

• All work on connections must be carried out under zero voltage (output not connected

to load) and may only be performed by qualied and informed persons. Improper ac-

tions can cause fatal injury as well as serious material damage.

• Never touch cables or connectors directly after unplugging from mains supply as the

danger of electric shock remains!

• Never touch the contacts on the DC output terminal directly after switching o󰀨 the DC

output, because there still can dangerous voltage present, sinking more or less slowly

depending on the load! There also can be dangerous potential between negative DC

output to PE or positive DC output to PE due to charged X capacitors which may not

discharge.

• Always follow 5 safety rules when working with electric devices:

• Disconnect completely

• Secure against reconnection

• Verify that the system is dead

• Carry out earthing and short-circuiting

• Provide protection from adjacent live parts

• The equipment must only be used as intended

• The equipment is only approved for use within the connection limits stated on the product label.

• Do not insert any object, particularly metallic, through the ventilator slots

• Avoid any use of liquids near the equipment. Protect the device from wet, damp and conden-

sation.

• For power supplies and battery chargers: do not connect users, particularly low resistance, to

devices under power; sparking may occur which can cause burns as well as damage to the

equipment and to the user.

• For electronic loads: do not connect power sources to equipment under power, sparking may

occur which can cause burns as well as damage to the equipment and to the source.

• ESD regulations must be applied when plugging interface cards or modules into the relative slot

• Interface cards or modules may only be attached or removed after the device is switched o󰀨.

It is not necessary to open the device.

• Do not connect external power sources with reversed polarity to DC input or outputs! The

equipment will be damaged.

• For power supply devices: avoid where possible connecting external power sources to the DC

output, and never those that can generate a higher voltage than the nominal voltage of the device.

• For electronic loads: do not connect a power source to the DC input which can generate a volt-

age more than 120% of the nominal input voltage of the load. The equipment is not protected

against over voltage and may be irreparably damaged.

• Never insert a network cable which is connected to Ethernet or its components into the master-

slave socket on the back side of the device!

• Always congure the various protecting features against overvoltage etc. for sensitive loads to

what the target application requires!

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1.7.2 Responsibility of the user

The equipment is in industrial operation. Therefore the operators are governed by the legal safety regulations.

Alongside the warning and safety notices in this manual the relevant safety, accident prevention and environmental

regulations must also be applied. In particular the users of the equipment:

• must be informed of the relevant job safety requirements

• must work to the dened responsibilities for operation, maintenance and cleaning of the equipment

• before starting work must have read and understood the operating manual

• must use the designated and recommended safety equipment.

Furthermore, anyone working with the equipment is responsible for ensuring that the device is at all times techni-

cally t for use.

1.7.3 Responsibility of the operator

Operator is any natural or legal person who uses the equipment or delegates the usage to a third party, and is

responsible during its usage for the safety of the user, other personnel or third parties.

The equipment is in industrial operation. Therefore the operators are governed by the legal safety regulations.

Alongside the warning and safety notices in this manual the relevant safety, accident prevention and environmental

regulations must also be applied. In particular the operator has to

• be acquainted with the relevant job safety requirements

• identify other possible dangers arising from the specic usage conditions at the work station via a risk assessment

• introduce the necessary steps in the operating procedures for the local conditions

• regularly control that the operating procedures are current

• update the operating procedures where necessary to reect changes in regulation, standards or operating con-

ditions.

• dene clearly and unambiguously the responsibilities for operation, maintenance and cleaning of the equipment.

• ensure that all employees who use the equipment have read and understood the manual. Furthermore the users

are to be regularly schooled in working with the equipment and the possible dangers.

• provide all personnel who work with the equipment with the designated and recommended safety equipment

Furthermore, the operator is responsible for ensuring that the device is at all times technically t for use.

1.7.4 User requirements

Any activity with equipment of this type may only be performed by persons who are able to work correctly and

reliably and satisfy the requirements of the job.

• Persons whose reaction capability is negatively inuenced by e.g. drugs, alcohol or medication may not operate

the equipment.

• Age or job related regulations valid at the operating site must always be applied.

Danger for unqualied users

Improper operation can cause person or object damage. Only persons who have the neces-

sary training, knowledge and experience may use the equipment.

Delegated persons are those who have been properly and demonstrably instructed in their tasks and the atten-

dant dangers.

Qualied persons are those who are able through training, knowledge and experience as well as knowledge of

the specic details to carry out all the required tasks, identify dangers and avoid personal and other risks.

All work on electrical equipment may only be performed by qualied electricians.

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1.7.5 Alarm signals

The equipment o󰀨ers various possibilities for signalling alarm conditions, however, not for danger situations. The

signals may be optical (on the display as text), acoustic (piezo buzzer) or electronic (status output of the analog

interface). All alarms will cause the device to switch o󰀨 the DC output.

The meaning of the signals is as follows:

Signal OT

(OverTemperature)

• Overheating of the device

• DC output will be switched o󰀨

• Non-critical

Signal OVP

(OverVoltage)

• Overvoltage shutdown of the DC output due to high voltage entering the device or gener-

ated by the device itself due to a defect

• Critical! The device and/or the load could be damaged

Signal OCP

(OverCurrent)

• Shutdown of the DC output due to excess of the preset limit

• Non-critical, protects the load from excessive current consumption

Signal OPP

(OverPower)

• Shutdown of the DC output due to excess of the preset limit

• Non-critical, protects the load from excessive power consumption

Signal PF

(Power Fail)

• DC output shutdown due to AC undervoltage or defect in the AC input

• Critical on overvoltage! AC input circuit could be damaged

1.8 Technical Data

1.8.1 Approved operating conditions

• Use only inside dry buildings

• Ambient temperature 0-50°C

• Operational altitude: max. 2000 m above sea level

• Max 80% relative humidity, not condensing

1.8.2 General technical data

Display: Colour TFT touch screen with gorilla glass, 4.3”, 480pt x 272pt, capacitive

Controls: 2 rotary knobs with pushbutton function, 1 pushbutton

The nominal values for the device determine the maximum adjustable ranges.

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1.8.3 Specic technical data (400 V AC models)

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value.

Example: a 80 V model has min. 0.1% voltage accuracy, that is 80 mV. When adjusting the voltage to 5 V, the actual value is allowed to di󰀨er max. 80 mV, which

means it might be between 4.92 V and 5.08 V.

(2 RMS value: LF 0...300 kHz, PP value: HF 0...20MHz

(3 Typical value at 100% output voltage and 100% power

(4 The display error adds to the error of the related actual value on the DC output

3.3 kW / 5 kW Model

PSI 9040-170 PSI 9080-170 PSI 9200-70 PSI 9360-40 PSI 9500-30

AC Input

Voltage (L-L), Frequency 340...460 V AC, 45 - 65 Hz

Connection 2ph, PE 2ph, PE 2ph, PE 2ph, PE 2ph, PE

Fusing (internal) 2x T16 A 2x T16 A 2x T16 A 2x T16 A 2x T16 A

Leak current < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA

Power factor > 0.99 > 0.99 > 0.99 > 0.99 > 0.99

DC Output

Max. output voltage UMax 40 V 80 V 200 V 360 V 500 V

Max. output current IMax 170 A 170 A 70 A 40 A 30 A

Max. output power PMax 3.3 kW 5 kW 5 kW 5 kW 5 kW

Overvoltage protection range 0...44 V 0...88 V 0...220 V 0...396 V 0...550 V

Overcurrent protection range 0...187 A 0...187 A 0...77 A 0...44 A 0...33 A

Overpower protection range 0…3.63 kW 0…5.50 kW 0…5.50 kW 0…5.50 kW 0…5.50 kW

Temperature coe󰀩cient for set

values Δ/K Voltage / current: 100 ppm

Output capacitance (approx.) 8500 μF 8500 μF 2500 μF 400 μF 250 μF

Voltage regulation

Adjustment range 0...40.8 V 0...81.6 V 0...204 V 0...367.2 V 0...510 V

Accuracy (1 (at 23 ± 5°C) < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax

Line regulation at ±10% ΔUAC < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax

Load regulation at 0...100% load < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax

Rise time 10...90% ΔU Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms

Transient time after load step < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax

Ripple (2 < 200 mVPP

< 16 mVRMS

< 200 mVPP

< 16 mVRMS

< 300 mVPP

< 40 mVRMS

< 550 mVPP

< 65 mVRMS

< 350 mVPP

< 70 mVRMS

Remote sensing compensation Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax

Fall time at no load after switching

DC output o󰀨 Down from 100% to <60 V: less than 10 s

Current regulation

Adjustment range 0...173.4 A 0...173.4 A 0...71.4 A 0...40.8 A 0...30.6 A

Accuracy (1 (at 23 ± 5°C) < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax

Line regulation at ±10% ΔUAC < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax

Load regulation at 0...100% ΔUOUT < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax

Ripple (2 < 80 mARMS < 80 mARMS < 22 mARMS < 5.2 mARMS < 16 mARMS

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax

Power regulation

Adjustment range 0…3.37 kW 0…5.1 kW 0…5.1 kW 0…5.1 kW 0…5.1 kW

Accuracy (1 (at 23 ± 5°C) < 1% PMax < 1% PMax < 1% PMax < 1% PMax < 1% PMax

Line regulation at ±10% ΔUAC < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax

Load reg. at 10-90% ΔUOUT * ΔIOUT < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.75% PMax ≤ 0.8% PMax ≤ 0.8% PMax ≤ 0.8% PMax ≤ 0.8% PMax

E󰀩ciency (3 ~ 93% ~ 93% ~ 95% ~ 95% ~ 95,5%

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PSI 9000 3U Series

3.3 kW / 5 kW Model

PSI 9040-170 PSI 9080-170 PSI 9200-70 PSI 9360-40 PSI 9500-30

Internal resistance regulation

Adjustment range 0...7 Ω 0...14 Ω 0...85 Ω 0...270 Ω 0...500 Ω

Accuracy (1 ≤2% of max. resistance ± 0.3% of rated current

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Analog interface (2

Set value inputs U, I, P, R

Actual value output U, I

Control signals DC on/o󰀨, remote control on/o󰀨, resistance mode on/o󰀨

Status signals CV, OVP, OT

Galvanic isolation to the device Max. 1500 V DC

Sample rate of inputs & outputs 500 Hz

Insulation Allowed oat (potential shift) on the DC output:

Negative terminal to PE Max. ±400 V DC ±400 V DC ±400 V DC ±400 V DC ±725 V DC

Positive terminal to PE Max. ±400 V DC ±400 V DC ±600 V DC ±600 V DC ±1000 V DC

AC input <-> PE 2.5 kV DC

AC input <-> DC output 2.5 kV DC

Miscellaneous

Cooling Temperature controlled fans, front inlet, rear exhaust

Ambient temperature 0..50°C (32...122°F)

Storage temperature -20...70°C (-4...158°F)

Humidity < 80%, not condensing

Standards IEC 61010:2010

EMC TÜV approved acc. IEC 61000-6-2:2005 and IEC 61000-6-3:2006 Class B

Overvoltage category 2

Protection class 1

Pollution degree 2

Operational altitude < 2000 m (1.242 mi)

Digital interfaces

Featured 1x USB-B for communication, 1x USB-A for functions, 1x GPIB (optional)

Slot (standard version) optional: CANopen, Probus, Pronet, RS232, CAN, Ethernet, ModBus TCP

Galvanic isolation from device Max. 1500 V DC

Terminals

Rear side Share Bus, DC output, AC input, remote sensing, analog interface, USB-B, master-

slave bus, interface module slot

Front side USB-A

Dimensions

Enclosure (WxHxD) 19“ x 3U x 609 mm (24”)

Total (WxHxD) 483 x 133 x 714 mm (19” x 5.2” x 28.1”)

Weight ~ 17 kg (37.5 lb) ~ 17 kg (37.5 lb) ~ 17 kg (37.5 lb) ~ 17 kg (37.5 lb) ~ 17 kg (37.5 lb)

Article number (3 06230350 06230351 06230352 06230353 06230354

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value

(2 For technical specications of the analog interface see „3.5.4.4 Analog interface specication“ on page 68

(3 Article number of the standard version, devices with options will have a di󰀨erent number

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PSI 9000 3U Series

5 kW / 6.6 kW / 10 kW Model

PSI 9750-20 PSI 9040-340 PSI 9040-510 PSI 9080-340 PSI 9200-140

AC Input

Voltage (L-L) 340...460 V AC

Connection 2ph,PE 3ph,PE 3ph,PE 3ph,PE 3ph,PE

Frequency 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz

Fusing (internal) 2x T16 A 4x T16 A 6x T16 A 4x T16 A 4x T16 A

Leak current < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA

Power factor > 0.99 > 0.99 > 0.99 > 0.99 > 0.99

DC Output

Max. output voltage UMax 750 V 40 V 40 V 80 V 200 V

Max. output current IMax 20 A 340 A 510 A 340 A 140 A

Max. output power PMax 5 kW 6.6 kW 10 kW 10 kW 10 kW

Overvoltage protection range 0...825 V 0...44 V 0...44 V 0...88 V 0...220 V

Overcurrent protection range 0...22 A 0...374 A 0...561 A 0...374 A 0...154 A

Overpower protection range 0…5.50 kW 0…7.26 kW 0…11.00 kW 0…11.00 kW 0…11.00 kW

Temperature coe󰀩cient for set

values Δ/K Voltage / current: 100 ppm

Output capacitance (approx.) 100 μF 16900 μF 25380 μF 16900 μF 5040 μF

Voltage regulation

Adjustment range 0...765 V 0...40.8 V 0...40.8 V 0...81.6 V 0...204 V

Accuracy (1 (at 23 ± 5°C) < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax

Line regulation at ±10% ΔUAC < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax

Load regulation at 0...100% load < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax

Rise time 10...90% ΔU Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms

Transient time after load step < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax

Ripple (2 < 800 mVPP

< 200 mVRMS

< 320 mVPP

< 25 mVRMS

< 320 mVPP

< 25 mVRMS

< 320 mVPP

< 25 mVRMS

< 300 mVPP

< 40 mVRMS

Remote sensing compensation Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax

Fall time at no load after switching

DC output o󰀨 Down from 100% to <60 V: less than 10 s

Current regulation

Adjustment range 0...20.4 A 0...346.8 A 0...520.2 A 0...346.8 A 0...142.8 A

Accuracy (1 (at 23 ± 5°C) < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax

Line regulation at ±10% ΔUAC < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax

Load regulation at 0...100% ΔUOUT < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax

Ripple (2 < 16 mARMS < 160 mARMS < 120 mARMS < 160 mARMS < 44 mARMS

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax

Power regulation

Adjustment range 0…5.1 kW 0…6.73 kW 0…10.2 kW 0…10.2 kW 0…10.2 kW

Accuracy (1 (at 23 ± 5°C) < 1% PMax < 1% PMax < 1% PMax < 1% PMax < 1% PMax

Line regulation at ±10% ΔUAC < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax

Load reg. at 10-90% ΔUOUT * ΔIOUT < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.8% PMax ≤ 0.7% PMax ≤ 0.7% PMax ≤ 0.8% PMax ≤ 0.85% PMax

E󰀩ciency (3 ~ 94% ~ 93% ~ 93% ~ 93% ~ 95%

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value.

Example: a 80 V model has min. 0.1% voltage accuracy, that is 80 mV. When adjusting the voltage to 5 V, the actual value is allowed to di󰀨er max. 80 mV, which

means it might be between 4.92 V and 5.08 V.

(2 RMS value: LF 0...300 kHz, PP value: HF 0...20MHz

(3 Typical value at 100% output voltage and 100% power

(4 The display error adds to the error of the related actual value on the DC output.

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PSI 9000 3U Series

5 kW / 6.6 kW / 10 kW Model

PSI 9750-20 PSI 9040-340 PSI 9040-510 PSI 9080-340 PSI 9200-140

Internal resistance regulation

Adjustment range 0...1125 Ω 0...3,5 Ω 0...2 Ω 0...7 Ω 0...42 Ω

Accuracy (1 ≤2% of max. resistance ± 0.3% of rated current

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Analog interface (2

Set value inputs U, I, P, R

Actual value output U, I

Control signals DC on/o󰀨, remote control on/o󰀨, resistance mode on/o󰀨

Status signals CV, OVP, OT

Galvanic isolation to the device Max. 1500 V DC

Sample rate of inputs & outputs 500 Hz

Insulation Allowed oat (potential shift) on the DC output:

Negative terminal to PE Max. ±725 V DC ±400 V DC ±400 V DC ±400 V DC ±400 V DC

Positive terminal to PE Max. ±1000 V DC ±400 V DC ±400 V DC ±400 V DC ±600 V DC

AC input <-> PE 2.5 kV DC

AC input <-> DC output 2.5 kV DC

Miscellaneous

Cooling Temperature controlled fans, front inlet, rear exhaust

Ambient temperature 0..50°C (32...122°F)

Storage temperature -20...70°C (-4...158°F)

Humidity < 80%, not condensing

Standards IEC 61010:2010

EMC TÜV approved acc. IEC 61000-6-2:2005 and IEC 61000-6-3:2006 Class B

Overvoltage category 2

Protection class 1

Pollution degree 2

Operational altitude < 2000 m (1.242 mi)

Digital interfaces

Featured 1x USB-B for communication, 1x USB-A for functions, 1x GPIB (optional)

Slot (standard version) optional: CANopen, Probus, Pronet, RS232, CAN, Ethernet, ModBus TCP

Galvanic isolation from device Max. 1500 V DC

Terminals

Rear side Share Bus, DC output, AC input, remote sensing, analog interface, USB-B, master-

slave bus, Interface module slot

Front side USB-A

Dimensions

Enclosure (WxHxD) 19“ x 3U x 609 mm (24”)

Total (WxHxD) 483 x 133 x 714 mm (19” x 5.2” x 28.1”)

Weight ~ 17 kg (37.5 lb) ~ 24 kg (52.9 lb) ~ 30 kg (66.1 lb) ~ 24 kg (52.9 lb) ~ 24 kg (52.9 lb)

Article number (2 06230355 06230356 06230363 06230357 06230358

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value

(2 For technical specications of the analog interface see „3.5.4.4 Analog interface specication“ on page 68

(3 Article number of the standard version, devices with options will have a di󰀨erent number

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PSI 9000 3U Series

10 kW / 15 kW Model

PSI 9360-80 PSI 9500-60 PSI 9750-40 PSI 91000-30 PSI 9080-510

AC Input

Voltage (L-L) 340...460 V AC

Connection 3ph,PE 3ph,PE 3ph,PE 3ph,PE 3ph,PE

Frequency 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz

Fusing (internal) 4x T16 A 4x T16 A 4x T16 A 4x T16 A 6x T16 A

Leak current < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA

Power factor > 0.99 > 0.99 > 0.99 > 0.99 > 0.99

DC Output

Max. output voltage UMax 360 V 500 V 750 V 1000 V 80 V

Max. output current IMax 80 A 60 A 40 A 30 A 510 A

Max. output power PMax 10 kW 10 kW 10 kW 10 kW 15 kW

Overvoltage protection range 0...396 V 0...550 V 0...825 V 0...1100 V 0...88 V

Overcurrent protection range 0...88 A 0...66 A 0...44 A 0...33 A 0...561 A

Overpower protection range 0…11.00 kW 0…11.00 kW 0…11.00 kW 0…11.00 kW 0…16.50 kW

Temperature coe󰀩cient for set

values Δ/K Voltage / current: 100 ppm

Output capacitance (approx.) 800 μF 500 μF 210 μF 127 μF 25380 μF

Voltage regulation

Adjustment range 0...367.2 V 0...510 V 0...765 V 0...1020 V 0...81.6 V

Accuracy (1 (at 23 ± 5°C) < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax

Line regulation at ±10% ΔUAC < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax

Load regulation at 0...100% load < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax

Rise time 10...90% ΔU Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms

Transient time after load step < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax

Ripple (2 < 550 mVPP

< 65 mVRMS

< 350 mVPP

< 70 mVRMS

< 800 mVPP

< 200 mVRMS

< 1600 mVPP

< 350 mVRMS

< 320 mVPP

< 25 mVRMS

Remote sensing compensation Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax

Fall time at no load after switching

DC output o󰀨 Down from 100% to <60 V: less than 10 s

Current regulation

Adjustment range 0...81.6 A 0...61.2 A 0...40.8 A 0...30.6 A 0...520.2 A

Accuracy (1 (at 23 ± 5°C) < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax

Line regulation at ±10% ΔUAC < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax

Load regulation at 0...100% ΔUOUT < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax

Ripple (2 < 10.4 mARMS < 32 mARMS < 32 mARMS < 22 mARMS < 240 mARMS

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax

Power regulation

Adjustment range 0…10.2 kW 0…10.2 kW 0…10.2 kW 0…10.2 kW 0…15.3 kW

Accuracy (1 (at 23 ± 5°C) < 1% PMax < 1% PMax < 1% PMax < 1% PMax < 1% PMax

Line regulation at ±10% ΔUAC < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax

Load reg. at 10-90% ΔUOUT * ΔIOUT < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.8% PMax ≤ 0.85% PMax ≤ 0.85% PMax ≤ 0.85% PMax ≤ 0.8% PMax

E󰀩ciency (3 ~ 93% ~ 95% ~ 94% ~ 95% ~ 93%

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value.

Example: a 80 V model has min. 0.1% voltage accuracy, that is 80 mV. When adjusting the voltage to 5 V, the actual value is allowed to di󰀨er max. 80 mV, which

means it might be between 4.92 V and 5.08 V.

(2 RMS value: LF 0...300 kHz, PP value: HF 0...20MHz

(3 Typical value at 100% output voltage and 100% power

(4 The display error adds to the error of the related actual value on the DC output.

Page 15

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PSI 9000 3U Series

10 kW / 15 kW Model

PSI 9360-80 PSI 9500-60 PSI 9750-40 PSI 91000-30 PSI 9080-510

Internal resistance regulation

Adjustment range 0...135 Ω 0...250 Ω 0...562 Ω 0...1000 Ω 0...5 Ω

Accuracy (1 ≤2% of max. resistance ± 0.3% of rated current

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Analog interface (2

Set value inputs U, I, P, R

Actual value output U, I

Control signals DC on/o󰀨, remote control on/o󰀨, resistance mode on/o󰀨

Status signals CV, OVP, OT

Galvanic isolation to the device Max. 1500 V DC

Sample rate of inputs & outputs 500 Hz

Insulation Allowed oat (potential shift) on the DC output:

Negative terminal to PE Max. ±400 V DC ±725 V DC ±725 V DC ±1000 V DC ±400 V DC

Positive terminal to PE Max. ±600 V DC ±1000 V DC ±1000 V DC ±1500 V DC ±400 V DC

AC input <-> PE 2.5 kV DC

AC input <-> DC output 2.5 kV DC

Miscellaneous

Cooling Temperature controlled fans, front inlet, rear exhaust

Ambient temperature 0..50°C (32...122°F)

Storage temperature -20...70°C (-4...158°F)

Humidity < 80%, not condensing

Standards IEC 61010:2010

EMC TÜV approved acc. IEC 61000-6-2:2005 and IEC 61000-6-3:2006 Class B

Overvoltage category 2

Protection class 1

Pollution degree 2

Operational altitude < 2000 m (1.242 mi)

Digital interfaces

Featured 1x USB-B for communication, 1x USB-A for functions, 1x GPIB (optional)

Slot (standard version) optional: CANopen, Probus, Pronet, RS232, CAN, Ethernet, ModBus TCP

Galvanic isolation from device Max. 1500 V DC

Terminals

Rear side Share Bus, DC output, AC input, remote sensing, analog interface, USB-B, master-

slave bus, Interface module slot

Front side USB-A

Dimensions

Enclosure (WxHxD) 19“ x 3U x 609 mm (24”)

Total (WxHxD) 483 x 133 x 714 mm (19” x 5.2” x 28.1”)

Weight ~ 24 kg (52.9 lb) ~ 24 kg (52.9 lb) ~ 24 kg (52.9 lb) ~ 24 kg (52.9 lb) ~ 30 kg (66.1 lb)

Article number (3 06230359 06230360 06230361 06230362 06230364

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value

(2 For technical specications of the analog interface see „3.5.4.4 Analog interface specication“ on page 68

(3 Article number of the standard version, devices with options will have a di󰀨erent number

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PSI 9000 3U Series

15 kW Model

PSI 9200-210 PSI 9360-120 PSI 9500-90

AC Input

Voltage (L-L) 340...460 V AC

Connection 3ph,PE 3ph,PE 3ph,PE

Frequency 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz

Fusing (internal) 6x T16 A 6x T16 A 6x T16 A

Leak current < 3.5 mA < 3.5 mA < 3.5 mA

Power factor > 0.99 > 0.99 > 0.99

DC Output

Max. output voltage UMax 200 V 360 V 500 V

Max. output current IMax 210 A 120 A 90 A

Max. output power PMax 15 kW 15 kW 15 kW

Overvoltage protection range 0...220 V 0...396 V 0...550 V

Overcurrent protection range 0...231 A 0...132 A 0...99 A

Overpower protection range 0…16.50 kW 0…16.50 kW 0…16.50 kW

Temperature coe󰀩cient for set

values Δ/K Voltage / current: 100 ppm

Output capacitance (approx.) 7560 μF 1200 μF 760 μF

Voltage regulation

Adjustment range 0...204 V 0...367.2 V 0...510 V

Accuracy (1 (at 23 ± 5°C) < 0.1% UMax < 0.1% UMax < 0.1% UMax

Line regulation at ±10% ΔUAC < 0.02% UMax < 0.02% UMax < 0.02% UMax

Load regulation at 0...100% load < 0.05% UMax < 0.05% UMax < 0.05% UMax

Rise time 10...90% ΔU Max. 30 ms Max. 30 ms Max. 30 ms

Transient time after load step < 1.5 ms < 1.5 ms < 1.5 ms

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax

Ripple (2 < 300 mVPP

< 40 mVRMS

< 550 mVPP

< 65 mVRMS

< 350 mVPP

< 70 mVRMS

Remote sensing compensation Max. 5% UMax Max. 5% UMax Max. 5% UMax

Fall time at no load after switching

DC output o󰀨 Down from 100% to <60 V: less than 10 s

Current regulation

Adjustment range 0...214.2 A 0...122.4 A 0...91.8 A

Accuracy (1 (at 23 ± 5°C) < 0.2% IMax < 0.2% IMax < 0.2% IMax

Line regulation at ±10% ΔUAC < 0.05% IMax < 0.05% IMax < 0.05% IMax

Load regulation at 0...100% ΔUOUT < 0.15% IMax < 0.15% IMax < 0.15% IMax

Ripple (2 < 66 mARMS < 15.6 mARMS < 48 mARMS

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax

Power regulation

Adjustment range 0…15.3 kW 0…15.3 kW 0…15.3 kW

Accuracy (1 (at 23 ± 5°C) < 1% PMax < 1% PMax < 1% PMax

Line regulation at ±10% ΔUAC < 0.05% PMax < 0.05% PMax < 0.05% PMax

Load reg. at 10-90% ΔUOUT * ΔIOUT < 0.75% PMax < 0.75% PMax < 0.75% PMax

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.8% PMax ≤ 0.85% PMax ≤ 0.85% PMax

E󰀩ciency (3 ~ 95% ~ 94% ~ 95%

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value.

Example: a 80 V model has min. 0.1% voltage accuracy, that is 80 mV. When adjusting the voltage to 5 V, the actual value is allowed to di󰀨er max. 80 mV, which

means it might be between 4.92 V and 5.08 V.

(2 RMS value: LF 0...300 kHz, PP value: HF 0...20MHz

(3 Typical value at 100% output voltage and 100% power

(4 The display error adds to the error of the related actual value on the DC output.

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PSI 9000 3U Series

15 kW Model

PSI 9200-210 PSI 9360-120 PSI 9500-90

Internal resistance regulation

Adjustment range 0...28 Ω 0...90 Ω 0...166 Ω

Accuracy (1 ≤2% of max. resistance ± 0.3% of rated current

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Analog interface (2

Set value inputs U, I, P, R

Actual value output U, I

Control signals DC on/o󰀨, remote control on/o󰀨, resistance mode on/o󰀨

Status signals CV, OVP, OT

Galvanic isolation to the device Max. 1500 V DC

Sample rate of inputs & outputs 500 Hz

Insulation Allowed oat (potential shift) on the DC output:

Negative terminal to PE Max. ±400 V DC ±400 V DC ±725 V DC

Positive terminal to PE Max. ±600 V DC ±600 V DC ±1000 V DC

AC input <-> PE 2.5 kV DC

AC input <-> DC output 2.5 kV DC

Miscellaneous

Cooling Temperature controlled fans, front inlet, rear exhaust

Ambient temperature 0..50°C (32...122°F)

Storage temperature -20...70°C (-4...158°F)

Humidity < 80%, not condensing

Standards IEC 61010:2010

EMC TÜV approved acc. IEC 61000-6-2:2005 and IEC 61000-6-3:2006 Class B

Overvoltage category 2

Protection class 1

Pollution degree 2

Operational altitude < 2000 m (1.242 mi)

Digital interfaces

Featured 1x USB-B for communication, 1x USB-A for functions, 1x GPIB (optional)

Slot (standard version) optional: CANopen, Probus, Pronet, RS232, CAN, Ethernet, ModBus TCP

Galvanic isolation from device Max. 1500 V DC

Terminals

Rear side Share Bus, DC output, AC input, remote sensing, analog interface, USB-B, master-

slave bus, Interface module slot

Front side USB-A

Dimensions

Enclosure (WxHxD) 19“ x 3U x 609 mm (24”)

Total (WxHxD) 483 x 133 x 714 mm (19” x 5.2” x 28.1”)

Weight ~ 30 kg (66.1 lb) ~ 30 kg (66.1 lb) ~ 30 kg (66.1 lb)

Article number (3 06230365 06230366 06230367

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value

(2 For technical specications of the analog interface see „3.5.4.4 Analog interface specication“ on page 68

(3 Article number of the standard version, devices with options will have a di󰀨erent number

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PSI 9000 3U Series

15 kW Model

PSI 9750-60 PSI 91000-40 PSI 91500-30

AC Input

Voltage (L-L) 340...460 V AC

Connection 3ph,PE 3ph,PE 3ph,PE

Frequency 45 - 65 Hz 45 - 65 Hz 45 - 65 Hz

Fusing (internal) 6x T16 A 6x T16 A 6x T16 A

Leak current < 3.5 mA < 3.5 mA < 3.5 mA

Power factor > 0.99 > 0.99 > 0.99

DC Output

Max. output voltage UMax 750 V 1000 V 1500 V

Max. output current IMax 60 A 40 A 30 A

Max. output power PMax 15 kW 15 kW 15 kW

Overvoltage protection range 0...825 V 0...1100 V 0...1650 V

Overcurrent protection range 0...66 A 0...44 A 0...33 A

Overpower protection range 0…16.50 kW 0…16.50 kW 0…16.50 kW

Temperature coe󰀩cient for set

values Δ/K Voltage / current: 100 ppm

Output capacitance (approx.) 310 μF 133 μF 84 μF

Voltage regulation

Adjustment range 0...765 V 0...1020 V 0...1530 V

Accuracy (1 (at 23 ± 5°C) < 0.1% UMax < 0.1% UMax < 0.1% UMax

Line regulation at ±10% ΔUAC < 0.02% UMax < 0.02% UMax < 0.02% UMax

Load regulation at 0...100% load < 0.05% UMax < 0.05% UMax < 0.05% UMax

Rise time 10...90% ΔU Max. 30 ms Max. 30 ms Max. 30 ms

Transient time after load step < 1.5 ms < 1.5 ms < 1.5 ms

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax

Ripple (2 < 800 mVPP

< 200 mVRMS

< 2000 mVPP

< 300 mVRMS

< 2400 mVPP

< 400 mVRMS

Remote sensing compensation Max. 5% UMax Max. 5% UMax Max. 5% UMax

Fall time at no load after switching

DC output o󰀨 Down from 100% to <60 V: less than 10 s

Current regulation

Adjustment range 0...61.2 A 0...40.8 A 0...30.6 A

Accuracy (1 (at 23 ± 5°C) < 0.2% IMax < 0.2% IMax < 0.2% IMax

Line regulation at ±10% ΔUAC < 0.05% IMax < 0.05% IMax < 0.05% IMax

Load regulation at 0...100% ΔUOUT < 0.15% IMax < 0.15% IMax < 0.15% IMax

Ripple (2 < 48 mARMS < 10 mARMS < 26 mARMS

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax

Power regulation

Adjustment range 0…15.3 kW 0…15.3 kW 0…15.3 kW

Accuracy (1 (at 23 ± 5°C) < 1% PMax < 1% PMax < 1% PMax

Line regulation at ±10% ΔUAC < 0.05% PMax < 0.05% PMax < 0.05% PMax

Load reg. at 10-90% ΔUOUT * ΔIOUT < 0.75% PMax < 0.75% PMax < 0.75% PMax

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.85% PMax ≤ 0.85% PMax ≤ 0.85% PMax

E󰀩ciency (3 ~ 94% ~ 94% ~ 95%

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value.

Example: a 80 V model has min. 0.1% voltage accuracy, that is 80 mV. When adjusting the voltage to 5 V, the actual value is allowed to di󰀨er max. 80 mV, which

means it might be between 4.92 V and 5.08 V.

(2 RMS value: LF 0...300 kHz, PP value: HF 0...20MHz

(3 Typical value at 100% output voltage and 100% power

(4 The display error adds to the error of the related actual value on the DC output.

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PSI 9000 3U Series

15 kW Model

PSI 9750-60 PSI 91000-40 PSI 91500-30

Internal resistance regulation

Adjustment range 0...375 Ω 0...810 Ω 0...1500 Ω

Accuracy (1 ≤2% of max. resistance ± 0.3% of rated current

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Analog interface (2

Set value inputs U, I, P, R

Actual value output U, I

Control signals DC on/o󰀨, remote control on/o󰀨, resistance mode on/o󰀨

Status signals CV, OVP, OT

Galvanic isolation to the device Max. 1500 V DC

Sample rate of inputs & outputs 500 Hz

Insulation Allowed oat (potential shift) on the DC output:

Negative terminal to PE Max. ±725 V DC ±1000V DC ±1000V DC

Positive terminal to PE Max. ±1000 V DC ±1500 V DC ±1800 V DC

AC input <-> PE 2.5 kV DC

AC input <-> DC output 2.5 kV DC

Miscellaneous

Cooling Temperature controlled fans, front inlet, rear exhaust

Ambient temperature 0..50°C (32...122°F)

Storage temperature -20...70°C (-4...158°F)

Humidity < 80%, not condensing

Standards IEC 61010:2010

EMC TÜV approved acc. IEC 61000-6-2:2005 and IEC 61000-6-3:2006 Class B

Overvoltage category 2

Protection class 1

Pollution degree 2

Operational altitude < 2000 m (1.242 mi)

Digital interfaces

Featured 1x USB-B for communication, 1x USB-A for functions, 1x GPIB (optional)

Slot (standard version) optional: CANopen, Probus, Pronet, RS232, CAN, Ethernet, ModBus TCP

Galvanic isolation from device Max. 1500 V DC

Terminals

Rear side Share Bus, DC output, AC input, remote sensing, analog interface, USB-B, master-

slave bus, Interface module slot

Front side USB-A

Dimensions

Enclosure (WxHxD) 19“ x 3U x 609 mm (24”)

Total (WxHxD) 483 x 133 x 714 mm (19” x 5.2” x 28.1”)

Weight ~ 30 kg (66.1 lb) ~ 30 kg (66.1 lb) ~ 30 kg (66.1 lb)

Article number (3 06230368 06230370 06230369

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value

(2 For technical specications of the analog interface see „3.5.4.4 Analog interface specication“ on page 68

(3 Article number of the standard version, devices with options will have a di󰀨erent number

Page 20

Intepro Systems www.inteproate.com

[email protected]

PSI 9000 3U Series

1.8.4 Specic technical data (208 V AC models)

(1 Related to the nominal values, the accuracy denes the maximum deviation between an adjusted values and the true (actual) value.

Example: a 80 V model has min. 0.1% voltage accuracy, that is 80 mV. When adjusting the voltage to 5 V, the actual value is allowed to di󰀨er max. 80 mV, which

means it might be between 4.92 V and 5.08 V.

(2 RMS value: LF 0...300 kHz, PP value: HF 0...20MHz

(3 Typical value at 100% output voltage and 100% power

(4 The display error adds to the error of the related actual value on the DC output

5 kW Model

PSI 9080-170 PSI 9200-70 PSI 9360-40 PSI 9500-30 PSI 9750-20

AC Input

Voltage (L-L), Frequency 208 V, ± 10%, 45 - 65 Hz

Connection 2ph,PE 2ph,PE 2ph,PE 2ph,PE 2ph,PE

Fusing (internal) 2x T32 A 2x T32 A 2x T32 A 2x T32 A 2x T32 A

Leak current < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA

Power factor > 0.99 > 0.99 > 0.99 > 0.99 > 0.99

DC Output

Max. output voltage UMax 80 V 200 V 360 V 500 V 750 V

Max. output current IMax 170 A 70 A 40 A 30 A 20 A

Max. output power PMax 5 kW 5 kW 5 kW 5 kW 5 kW

Overvoltage protection range 0...88 V 0...220 V 0...396 V 0...550 V 0...825 V

Overcurrent protection range 0...187 A 0...77 A 0...44 A 0...33 A 0...22 A

Overpower protection range 0…5.50 kW 0…5.50 kW 0…5.50 kW 0…5.50 kW 0…5.50 kW

Temperature coe󰀩cient for set

values Δ/K Voltage / current: 100 ppm

Output capacitance (approx.) 8500 μF 2500 μF 400 μF 250 μF 100 μF

Voltage regulation

Adjustment range 0...81.6 V 0...204 V 0...367.2 V 0...510 V 0...765 V

Accuracy (1 (at 23 ± 5°C) < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax < 0.1% UMax

Line regulation at ±10% ΔUAC < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax < 0.02% UMax

Load regulation at 0...100% load < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax < 0.05% UMax

Rise time 10...90% ΔU Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms

Transient time after load step < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax ≤ 0.2% UMax

Ripple (2 < 200 mVPP

< 16 mVRMS

< 300 mVPP

< 40 mVRMS

< 550 mVPP

< 65 mVRMS

< 350 mVPP

< 70 mVRMS

< 800 mVPP

< 200 mVRMS

Remote sensing compensation Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax Max. 5% UMax

Fall time at no load after switching

DC output o󰀨 Down from 100% to <60 V: less than 10 s

Current regulation

Adjustment range 0...173.4 A 0...71.4 A 0...40.8 A 0...30.6 A 0...20.4 A

Accuracy (1 (at 23 ± 5°C) < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax < 0.2% IMax

Line regulation at ±10% ΔUAC < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax < 0.05% IMax

Load regulation at 0...100% ΔUOUT < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax < 0.15% IMax

Ripple (2 < 80 mARMS < 22 mARMS < 5.2 mARMS < 16 mARMS < 16 mARMS

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax ≤ 0.2% IMax

Power regulation

Adjustment range 0…5.1 kW 0…5.1 kW 0…5.1 kW 0…5.1 kW 0…5.1 kW

Accuracy (1 (at 23 ± 5°C) < 1% PMax < 1% PMax < 1% PMax < 1% PMax < 1% PMax

Line regulation at ±10% ΔUAC < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax < 0.05% PMax

Load reg. at 10-90% ΔUOUT * ΔIOUT < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax < 0.75% PMax

Display: Resolution See section „1.9.6.4. Resolution of the displayed values“

Display: Accuracy (4 ≤ 0.8% PMax ≤ 0.8% PMax ≤ 0.8% PMax ≤ 0.8% PMax ≤ 0.8% PMax

E󰀩ciency (3 ~ 93% ~ 95% ~ 95% ~ 95,5% ~ 94%

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