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 63
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
Schematic diagram: Applications and results:
Start (DC)
t
A
Start (AC)
End (
A
C)
Seq.time
End (DC)
Example 2
Focussing 1 cycle of 1 sequence from 100:
The DC values at start and end are the same but the AC (amplitude)
not. The end value is higher than the start so that the amplitude
increases with each new half sine wave continuously through the
sequence. This, of course, only if the sequence time and frequency
allow for multiple waves to be created. e.g. for f=1 Hz and Seq. time
= 3 s, three complete waves would be generated (for angle = 0°) and
reciprocally the same for f=3 s and Seq. time=1 s.
Start (DC)
t
A
Start (AC) End (AC)
Seq.time
End (DC)
Example 3
Focussing 1 cycle of 1 sequence from 100:
The DC values at start and end are unequal, as are also the AC val-
ues. In both cases the end value is higher than the start so that the
offset increases from start to end (DC) and the amplitude also with
each new half sine wave.
Additionallytherstsinewavestartswithanegativehalfwavebe-
cause the angle is set at 180°. The start angle can be shifted at will
in 1° steps between 0° and 359°.
Start (DC)
t
A
Start (AC)
f (start)
f (end)
Seq.time
End (DC)
Example 4
Focussing 1 cycle of 1 sequence from 100:
Similar to example 1 but with another end frequency. Here this is
shown as higher than the start frequency. This impacts the period
of the sine waves such that each new wave will be shorter over the
total span of the sequence time.
Start (DC)
t
A
Seq.time
End (DC)
Example 5
Focussing 1 cycle of 1 sequence from 100:
Similar to example 1 but with a start and end frequency of 0 Hz.
Without a frequency no sine wave part (AC) will be created and only
the DC settings will be effective. A ramp with a horizontal progres-
sion is generated.
Start (DC)
t
A
Seq.time
End (DC)
Example 6
Focussing 1 cycle of 1 sequence from 100:
Similar to example 1 but with a start and end frequency of 0 Hz. With-
out a frequency no sine wave part (AC) will be created and only the
DC settings will be effective. Here start and end values are unequal
and a steadily increasing ramp is generated.