User manual

ManualsBrandsEA ELEKTRO-AUTOMATIK ManualsLaboratory & Bench PSUs19" bench PSU (adjustable voltage) EA-PSI 81000-30 3U HS PV S01 0 - 1000 Vdc 0 - 30 A 1 x progra

Table Of Contents

1. Einleitung
2. Technische Daten
- 2.1 Bedien- und Anzeigeeinheit
- 2.2 Gerätespezifische Daten
3. Gerätebeschreibung
- 3.1 Ansichten
- 3.2 Lieferumfang
4. Allgemeines zum Gerät
- 4.1 Vorwort
- 4.2 Kühlung
- 4.3 Gerät öffnen
- 4.4 Redundanz
5. Installation
- 5.1 Sichtprüfung
- 5.2 Netzanschluß (Einzelgerät)
- 5.3 Netzanschluß (mehrere Geräte)
- 5.4 Netzsicherungen
- 5.5 Anschluß DC-Ausgang
  - 5.5.1 Anschlußtypen
- 5.6 Erdung des Ausganges
- 5.7 Anschlußklemme Fernfühlung (Sense)
- 5.8 Anschlußklemme Share
- 5.9 Slot für Erweiterungskarte
6. Bedienung
- 6.1 Die Anzeige
- 6.2 Verwendete Symbolik
- 6.3 Übersicht über die Anzeigeelemente
- 6.4 Einschalten des Ausgangs
- 6.5 Sollwerte einstellen
- 6.6 Schrittweiten bei Sollwerteinstellung
- 6.7 Tastenfeld umschalten
- 6.8 Bedieneinheit sperren
- 6.9 Bedienort wechseln
- 6.10 Umschalten in den Funktionsmanager
- 6.11 Umschalten ins Menü
- 6.12 Parameterseiten
- 6.13 Alarme, Warnungen und Meldungen
- 6.14 Quittieren von Alarmen und Warnungen
- 6.15 Der Funktionsmanager
7. Gerätekonfiguration
- 7.1 Betriebsparameter definieren
- 7.2 Voreinstellung von Sollwertsätzen
- 7.3 Einstellgrenzen
- 7.4 Bedieneinheit konfigurieren
- 7.5 Display einstellen
- 7.6 Überwachung
- 7.7 Grundeinstellung wiederherstellen
- 7.8 Aktivierung der Photovoltaik-Funktion
- 7.9 Freischaltung der U/I/R Betriebsart
- 7.10 Sperren der Geräte-Konfiguration
8. Verhalten bei ...
- 8.1 Einschalten mit dem Netzschalter
- 8.2 Ausschalten mit dem Netzschalter
- 8.3 Umschalten auf Fernsteuerung (Remote)
- 8.4 Überspannung
- 8.5 Übertemperatur
- 8.6 Spannungs-, Strom- und Leistungsregelung
- 8.7 Fernfühlungsbetrieb
- 8.8 Netzüber-/Netzunterspannung
- 8.9 Anschluß verschiedener Lasttypen
9. Wechselbare Schnittstellen
- 9.1 Allgemeines
- 9.2 Schnittstellenkarten konfigurieren
10. Eingebaute Analogschnittstelle
- 10.1 Allgemeines
- 10.2 Pin-Übersicht
- 10.3 Einstellungen im Setup-Menü
- 10.4 Pinspezifikation
- 10.5 Beispiel-Anwendungen
11. PV - Solarmodul-Simulation
- 11.1 Besondere Gegebenheiten
- 11.2 Einstellungen und Bedienung
- 11.3 Hinweise & Einschränkungen
12. HS - High-Speed-Modifikation
- 12.1 Einschränkungen
- 12.2 Begriffserläuterungen
- 12.3 Allgemeine Hinweise zum Betrieb
- 12.4 Gesonderte Hinweise zum 1500V-Modell
- 12.5 Abweichende technische Daten
13. Sonstiges
- 13.1 Parallelschaltung im Sharebus-Betrieb
- 13.2 Reihenschaltung
- 13.3 Zubehör und Optionen
- 13.4 Vernetzung
- 13.5 Ersatzableitstrommessung nach DIN VDE 0701
- 13.6 Firmwareaktualisierung
1. Introduction
2. Technical specifications
- 2.1 Control panel and display
- 2.2 Device specifications
3. Device description
- 3.1 Views
- 3.2 Scope of delivery
4. General
- 4.1 Prologue / Warning
- 4.2 Cooling
- 4.3 Opening the device
- 4.4 Redundancy
5. Installation
- 5.1 Visual check
- 5.2 Input connection (single unit)
- 5.3 Input connection (multiple units)
- 5.4 Input fuses
- 5.5 DC output terminal
  - 5.5.1 Terminal types
- 5.6 Grounding the output
- 5.7 Terminal „Sense“ (Remote sense)
- 5.8 Terminal „Share“
- 5.9 Interface card slot
6. Handling
- 6.1 The display
- 6.2 Used symbols
- 6.3 Short overview about the display elements
- 6.4 Switching the power output on
- 6.5 Adjusting set values
- 6.6 Step widths for set value adjustment
- 6.7 Switching the button panel
- 6.8 Locking the control panel
- 6.9 Changing the location mode
- 6.10 Switching to the function manager
- 6.11 Activating the menu
- 6.12 Parameter pages
- 6.13 Alarms, warnings and signals
- 6.14 Acknowledging alarms and warnings
- 6.15 The function manager
7. Device configuration
- 7.1 Defining operation parameters
- 7.2 Predefining preset lists
- 7.3 Adjustment limits
- 7.4 Configuring the control panel
- 7.5 Configuring the graphic display
- 7.6 Supervision
- 7.7 Reset to default configuration
- 7.8 Activating the photovoltaics feature
- 7.9 Unlocking the U/I/R mode
- 7.10 Locking the device configuration
8. Behaviour of the device when...
- 8.1 Switching on by power switch
- 8.2 Switching off by power switch
- 8.3 Switching to remote control
- 8.4 Overvoltage occurs
- 8.5 Overtemperature occurs
- 8.6 Voltage, current and power are regulated
- 8.7 Remote sense is active
- 8.8 Mains undervoltage or overvoltage occurs
- 8.9 Connecting different types of loads
9. Pluggable interface cards
- 9.1 General
- 9.2 Configuring the interface cards
10. Built-in analogue interface
- 10.1 General
- 10.2 Pin overview
- 10.3 Settings in the device setup
- 10.4 Pin specifications
- 10.5 Example applications
11. PV - Solar panel simulation
- 11.1 Special conditions
- 11.2 Setup and handling
- 11.3 Notes & limitations
12. HS - High speed ramping
- 12.1 Restrictions
- 12.2 Terms explained
- 12.3 General operation instructions
- 12.4 Specific instructions for the 1500V model
- 12.5 Altered technical specifications
13. Miscellaneous
- 13.1 Parallel connection in Share bus mode
- 13.2 Series connection
- 13.3 Accessories and options
- 13.4 Firmware update

Irrtümer und Änderungen vorbehalten

Instruction Manual

PSI 8000 3U HS PV Series

Date: 10-28-2011

Operating the device

Figure 9. Wiring remote sense

The product of both values, the actual power, would sink below

the previously set power limit and the device would change from

constant power regulation (CP) to constant current regulation

(CC).

Those three conditions CC, CV and CP are also indicated on the

appropriate pins of the optional, analogue interface cards or can

be read out as status bits via an optional, digital interface card.

8.7 Remote sense is active

Remote sense operation is used to compensate voltage drops

of the conductors between the power supply and the load.

Because the compensation is limited to a certain level, it is

recommended to match the cross section of the conductors to

the output current and thus minimise the voltage drop.

The sense input is located on the rear at terminal Sense, where

the sense conductors are connected to the load with correct

polarity. The power supply will detect the external sense au-

tomatically and compensate the output voltage by the actual

voltage at the load instead of the output. The output voltage

will be raised by the value of the voltage drop between power

supply and load.

Maximum compensation: see technical specications, will vary

from model to model.

Also see gure 9 below.

8.8 Mains undervoltage or overvoltage occurs

The units require two or three phases of a three-phase supply

with 400V phase conductor voltage and tolerate max. +15%.

This results in an input voltage range of 340...460V AC. Within

this range, the units can be operated without any restrictions.

Input voltages below 340V AC are considered as supply under-

voltage and will store the last condition, as well as switch the

power output off. Same happens at overvoltage above 460V AC.

Permanent input undervoltage or overvoltage must be

avoided!

8.9 Connecting different types of loads

Different types of loads, such as ohmic loads (lamp, resistor),

electronic loads or inductive loads (motor) behave differently

and can retroact to the power supply. For example, motors

can induce a countervoltage which may cause the overvoltage

protection of the power supply to shut off the output.

Electronic loads have regulator circuits for voltage, current and

power that can counteract to the ones of the power supply and

may result in increased output ripple or other, unwanted side

effects. Ohmic loads are almost 100% neutral. It is recommen-

ded to consider the load situation when planning applications.