User Manual
Table Of Contents
- 06230350_DE
- 1. Allgemeines
- 1.1 Zu diesem Dokument
- 1.2 Symbolerläuterungen
- 1.3 Gewährleistung und Garantie
- 1.4 Haftungsbeschränkungen
- 1.5 Entsorgung des Gerätes
- 1.6 Produktschlüssel
- 1.7 Bestimmungsgemäße Verwendung
- 1.8 Sicherheit
- 1.9 Technische Daten
- 1.10 Aufbau und Funktion
- 1.10.1 Allgemeine Beschreibung
- 1.10.2 Blockdiagramm
- 1.10.3 Lieferumfang
- 1.10.4 Zubehör
- 1.10.5 Optionen
- 1.10.6 Die Bedieneinheit (HMI)
- 1.10.7 USB-Port Typ B (Rückseite)
- 1.10.8 Steckplatz für Schnittstellenmodule
- 1.10.9 Analogschnittstelle
- 1.10.10 Share-Bus-Anschluß
- 1.10.11 Sense-Anschluß (Fernfühlung)
- 1.10.12 Master-Slave-Bus
- 2. Installation & Inbetriebnahme
- 2.1 Transport und Lagerung
- 2.2 Auspacken und Sichtkontrolle
- 2.3 Installation
- 2.3.1 Sicherheitsmaßnahmen vor Installation und Gebrauch
- 2.3.2 Vorbereitung
- 2.3.3 Aufstellung des Gerätes
- 2.3.4 Anschluß an das Stromnetz (AC)
- 2.3.5 Anschluß von DC-Lasten
- 2.3.6 Erdung des DC-Ausgangs
- 2.3.7 Anschluß der Fernfühlung
- 2.3.8 Installation eines AnyBus-Schnittstellenmoduls
- 2.3.9 Anschluß der analogen Schnittstelle
- 2.3.10 Anschließen des „Share-Bus“
- 2.3.11 Anschluß des USB-Ports (Rückseite)
- 2.3.12 Erstinbetriebnahme
- 2.3.13 Erneute Inbetriebnahme nach Firmwareupdates bzw. längerer Nichtbenutzung
- 3. Bedienung und Verwendung
- 3.1 Personenschutz
- 3.2 Regelungsarten
- 3.3 Manuelle Bedienung
- 3.4 Fernsteuerung
- 3.5 Alarme und Überwachung
- 3.6 Bedieneinheit (HMI) sperren
- 3.7 Nutzerprofile laden und speichern
- 3.8 Der Funktionsgenerator
- 3.8.1 Einleitung
- 3.8.2 Allgemeines
- 3.8.3 Arbeitsweise
- 3.8.4 Manuelle Bedienung
- 3.8.5 Sinus-Funktion
- 3.8.6 Dreieck-Funktion
- 3.8.7 Rechteck-Funktion
- 3.8.8 Trapez-Funktion
- 3.8.9 DIN 40839-Funktion
- 3.8.10 Arbiträr-Funktion
- 3.8.11 Rampen-Funktion
- 3.8.12 UI- und IU-Tabellenfunktion (XY-Tabelle)
- 3.8.13 PV-Tabellenfunktion (Photovoltaik)
- 3.8.14 FC-Tabellenfunktion (Brennstoffzelle)
- 3.8.15 Fernsteuerung des Funktionsgenerators
- 3.9 Weitere Anwendungen
- 4. Instandhaltung & Wartung
- 5. Zubehör und Optionen
- 6. Service & Support
- 1. Allgemeines
- 06230350_EN
- 1. General
- 1.1 About this document
- 1.2 Explanation of symbols
- 1.3 Warranty
- 1.4 Limitation of liability
- 1.5 Disposal of equipment
- 1.6 Product key
- 1.7 Intended usage
- 1.8 Safety
- 1.9 Technical Data
- 1.10 Construction and function
- 1.10.1 General description
- 1.10.2 Block diagram
- 1.10.3 Scope of delivery
- 1.10.4 Accessories
- 1.10.5 Options
- 1.10.6 The control panel (HMI)
- 1.10.7 USB port type B (rear side)
- 1.10.8 Interface module slot
- 1.10.9 Analog interface
- 1.10.10 Share Bus-Connection
- 1.10.11 Sense connector (remote sensing)
- 1.10.12 Master-Slave bus
- 2. Installation & commissioning
- 2.1 Transport and storage
- 2.2 Unpacking and visual check
- 2.3 Installation
- 2.3.1 Safety procedures before installation and use
- 2.3.2 Preparation
- 2.3.3 Installing the device
- 2.3.4 Connection to AC supply
- 2.3.5 Connection to DC loads
- 2.3.6 Grounding of the DC output
- 2.3.7 Connecting the “Share” bus
- 2.3.8 Connection of remote sense
- 2.3.9 Installation of an AnyBus interface module
- 2.3.10 Connecting the analog interface
- 2.3.11 Connecting the USB port (rear side)
- 2.3.12 Initial commission
- 2.3.13 Commission after a firmware update or a long period of non-use
- 3. Operation and application
- 3.1 Personal safety
- 3.2 Operating modes
- 3.3 Manual operation
- 3.4 Remote control
- 3.5 Alarms and monitoring
- 3.6 Control panel (HMI) lock
- 3.7 Loading and saving a user profile
- 3.8 The function generator
- 3.8.1 Introduction
- 3.8.2 General
- 3.8.3 Method of operation
- 3.8.4 Manual operation
- 3.8.5 Sine wave function
- 3.8.6 Triangular function
- 3.8.7 Rectangular function
- 3.8.8 Trapezoidal function
- 3.8.9 DIN 40839 function
- 3.8.10 Arbitrary function
- 3.8.11 Ramp Function
- 3.8.12 UI and IU table functions (XY table)
- 3.8.13 PV table function (photovoltaics)
- 3.8.14 FC table function (fuel cell)
- 3.8.15 Remote control of the function generator
- 3.9 Other applications
- 4. Service and maintenance
- 5. Accessories and options
- 6. Service & Support
- 1. General
Page 51
EA Elektro-Automatik GmbH
Helmholtzstr. 31-33 • 41747 Viersen
Germany
Fon: +49 2162 / 3785-0
Fax: +49 2162 / 16230
www.elektroautomatik.de
ea1974@elektroautomatik.de
PSI 9000 3U Series
3.4.4 Remote control via the analog interface (AI)
3.4.4.1 General
The built-in, galvanically separated, 15-pole analog interface (short: AI) is on the back side of the device offers the
following possibilities:
• Remote control of current, voltage and power
• Remote status monitoring (CC/CP, CV)
• Remote alarm monitoring (OT, OVP)
• Remote monitoring of actual values
• Remote on/off switching of the DC output
Setting the three set values via the analog interface always takes place concurrently. It means, that for example
the voltage can not be given via the AI and current and power set by the rotary knobs, or vice versa.
The OVP set value and other supervision (events) and alarm thresholds cannot be set via the AI and therefore
must be adapted to the given situation before the AI is put in operation. Analog set values can be fed in by an ex-
ternal voltage or generated by the reference voltage on pin 3. As soon as remote control via the analog interface
is activated, the values displayed will be those provided by the interface.
The AI can be operated in the common voltage ranges 0...5 V and 0...10 V in each case 0...100% of the nominal
value. The selection of the voltage range can be done in the device setup. See section „3.3.3. Conguration via
MENU“ for details.
The reference voltage sent out from Pin 3 (VREF) will be adapted accordingly and is then:
0-5 V: Reference voltage = 5 V, 0...5 V set values (VSEL, CSEL, PSEL) correspond to 0...100% nominal values,
0...100% actual values correspond to 0...5 V at the actual value outputs (CMON, VMON).
0-10 V: .Reference voltage = 10 V, 0...10 V set values (VSEL, CSEL, PSEL) correspond to 0...100% nominal values,
0...100% actual values correspond to 0...10 V at the actual value outputs (CMON, VMON).
Input of excess set values (e.g. >5 V in selected 5 V range or >10 V in the 10 V range) are clipped by setting the
set value at 100%.
Notes for use of the interface.
• Analogremotecontrolofthedevicemustbeactivatedbyswitchingpin“REMOTE”(5)rst
• Beforethehardwareisconnectedthatwillcontroltheanaloginterface,itshallbecheckedthatitcan’tprovide
voltagetothepinshigherthanspecied
• Setvalueinput,suchasVSEL,CSELandPSEL,mustnotbeleftunconnected(i.e.oating)
• It is always required to provide all three set values at once. In case any of the set values is not used for adjust-
ment,itcanbetiedtoadenedlevelorconnectedtopinVREF(solderbridgeordifferent),soitgives100%
The analog interface is galvanically separated from DC output. Therefore do not con-
nect any ground of the analog interface to the DC- or DC+ output!
3.4.4.2 Acknowledging device alarms
Device alarms (see 3.5.2) are always indicated in the front display and some of them are also reported as signal on
the analog interface socket (see 3.4.4.3), for example the overvoltage alarm (OV), which is considered as critical.
In case of a device alarm occurring during remote control via analog interface, the DC output will be switched off
the same way as in manual control. While alarms OT and OV can be monitored via the corresponding pins of the
interface,otheralarmslikepowerfail(PF)can’t.Thosecouldonlybemonitoredanddetectedviatheactualvalues
of voltage and current being all zero contrary to the set values.
All device alarms (OT, OV, PF, OCP and OPP) have to be acknowledged, either by the user of the device or by the
controlling unit. Also see „3.5.2. Device alarm and event handling“. Acknowledgement is done with pin REM-SB
switching the DC output off and on again, means a HIGH-LOW-HIGH edge (min. 50ms for LOW).