Studer Innotec XTH 3000-12 دليل المستخدم

دليل المستخدم للجهاز Studer Innotec XTH 3000-12

جهاز: Studer Innotec XTH 3000-12
فئة: شاحن بطارية
الصانع: Studer Innotec
مقاس: 1.73 MB
مضاف: 4/8/2013
عدد الصفحات: 40
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ملخص المحتوى في الصفحة رقم 1

PHOTOVOLTAIK - PHOTOVOLTAIC - PHOTOVOLTAIQUE - FOTOVOLTAICA
Installation and Operating Instructions
Unit combining inverter, battery charger and transfer system.
Xtender
XTH 3000-12
XTH 5000-24
XTH 6000-48
XTH 8000-48
BTS-01 temperature sensor
EN
723.932 | V 0.511

ملخص المحتوى في الصفحة رقم 2

Steca Xtender TABLE OF CONTENTS 1 INTRODUCTION................................................................................................................ 3 2 GENERAL INFORMATION................................................................................................ 4 2.1 Operating instructions................................................................................................... 4 2.2 Conventions ..................................................................

ملخص المحتوى في الصفحة رقم 3

Steca Xtender 1 Introduction Congratulations! You are about to install and use a device from the Xtender range. You have chosen a high-tech device that will play a central role in energy saving for your electrical installation. The Xtender has been designed to work as an inverter / charger with advanced functions, which can be used in a completely modular way and guarantee the faultless functioning of your energy system. When the Xtender is connected to a generator or network, the latt

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Steca Xtender 2 General information 2.1 Operating instructions This manual is an integral part of each inverter/charger from the Xtender series. It covers the following models and accessories: Xtender: XTH 3000-12 – XTH 5000-24 – XTH 6000-48 – XTH 8000-48 Temperature sensor: BTS-01 For greater clarity, the device is referred to in this manual as Xtender, unit or device, when the description of its functioning applies indiscriminately to different Xtender models. Thes operating instru

ملخص المحتوى في الصفحة رقم 5

Steca Xtender 2.3 Quality and warranty During the production and assembly of the Xtender, each unit undergoes several checks and tests. These are carried out with strict adherence to the established procedures. Each Xtender has a serial number allowing complete follow-up on the checks, according to the particular data for each device. For this reason it is very important never to remove the type plate (appendix I – fig. 3b) which shows the serial number. The warranty for this equipment d

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Steca Xtender DC voltage coming from the battery as well as the source of AC voltage coming from a generator or network have been disconnected from the electrical installation. Even when the Xtender has been disconnected from the supply sources (AC and DC), a dangerous voltage may remain at the outputs. To eliminate this risk you must switch the Xtender OFF using the ON/OFF button (1). After 10 seconds the electronics is discharged and intervention may take place without any danger. A

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Steca Xtender 3.3 Unpacking When unpacking, check that the equipment has not been damaged during transportation and that all accessories listed below are present. Any fault must be indicated immediately to the product distributor or the contact given at the back of this manual. Check the packaging and the Xtender carefully. Standard accessories: Installation and operating instructions, c.f. Appendix 1 Mounting plate – fig. 2a (18) 2 conduit glands for the battery cable 3.4 Installati

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L L AUX1 AC Input AC O utput AUX2 Steca Xtender 3.6 Connections 3.6.1 GENERAL RECOMMENDATIONS The Xtender falls within protection class I (has a PE connection terminal). It is vital that a protective earth is connected to the AC IN and/or AC OUT PE terminals. An additional protective earth is located between the two fastening screws at the bottom of the unit (fig. 2b-(17)). In all cases, the PE conductor for the equipment must at least be connected to the PE for all equipment in prote

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Steca Xtender Pos. Denominati Description Comment on 1 ON/OFF Main on/off switch See chapter Automatic load shedding of Main switch the inverter (2 sequences) 7.1 – p 26. 2 Temp. Sens Connector for the battery See chapter 6.2.11 – p. 23. temperature sensor Only connect the original Steca BTS-01 sensor 3 Com. Bus Double connector for See chapter 4.5.8 – p. 16. connecting peripherals such as The two termination switches (4) for the the RCC002/03 or other communication bus both rem

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Steca Xtender 4.1 Choice of system The Xtender may be used in different system types, each of which must meet the standards and particular requirements associated with the application or site of installation. Only an appropriately qualified installer can advise you effectively on the applicable standards with regard to the various systems and the country concerned. Examples of cabling are presented in appendix I of this manual, fig. 5 and following. Please carefully read the notes asso

ملخص المحتوى في الصفحة رقم 11

Steca Xtender 4.2 Earthing system The Xtender is a protection class I unit, which is intended for cabling in a grid type TT, TN-S or TNC-S. The earthing of the neutral conductor (E) is carried out at a sole installation point, upstream of the RCD circuit breaker (D). The Xtender can be operated with any earthing system. In all cases it is imperative that the protective earth be connected in compliance with the applicable standards and regulations. The information, notes, recommendations

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Steca Xtender 4.3 Recommendations for dimensioning the system 4.3.1 DIMENSIONING THE BATTERY The battery capacity is dimensioned according to the requirements of the user – that is 5 to 10 times its average daily consumption. The discharge depth of the battery will therefore be limited and the service life of the battery will be extended. On the other hand, the Xtender must have a battery capacity that is large enough to be able to take full advantage of the performance of the equipment

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Steca Xtender 4.5 Connecting the battery Lead batteries are usually available in 2 V, 6 V or 12 V block types. In the majority of cases, in order to obtain an operating voltage that is correct for Xtender usage, several batteries must be connected in series or in parallel depending on the circumstances. . In multi-unit systems, all Xtenders from the same system must be connected according to the same battery bank. The various cabling options are presented in figures 5a-5b (12 V

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Steca Xtender BATTERY-SIDE CONNECTION 4.5.3 Before connecting the battery, carefully check the voltage and polarity of the battery using a voltmeter. Incorrect polarity or surge voltage may seriously damage the device. Prepare the batteries for connection: appropriate battery clamps, protection device (f), cable in good conditions with correctly fitted clamps. Fasten the black cable on to the negative pole (-) of the battery and the red cable on the open protection device (f).

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Steca Xtender EARTHING THE BATTERY 4.5.4 One of the two battery conductors can be earthed. This may be either the positive or negative pole. In all cases the installation must conform to the local regulations and usage or specific standards associated with the application. In case of earthing, the earthing conductor section must at least be equivalent to the section of the battery conductor. The earthing of the equipment must also adhere to these regulations. In this case the use of th

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Steca Xtender 4.5.6 CONNECTING THE AC SUPPLY SOURCES The Xtender is intended to be supplied by alternative voltage sources such as the public grid or a generator. Check that the rated voltage of the source corresponds to the rated voltage (34) of the Xtender specified on the type plate (fig. 3b). The source must be connected to the input terminals marked “AC INPUT” (13) with sufficient wire section, depending on the power output of the source, and protected by a protection device of the

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Steca Xtender 5 Energisation of the installation It is imperative that the closing cap for the connection compartment be installed and screwed tight before the installation is energised. There are dangerous voltages within the interior of the connection compartment. The connection of the Xtender must be carried out in the order given below. Any disassembly must be carried out in the reverse order. 1. Connecting the battery Too high or inappropriate a battery voltage may seriousl

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AC IN Steca Xtender 6 Description and functioning The Xtender is a sine wave inverter with a battery charger. It has been developed for use as a standalone installation to supply AC voltage (not connected to the grid) or as a continuous supply. 6.1 Circuit diagram 17 K1 100nF 2,2nF 2,2nF K3 K4 2,2nF 2,2nF K2 13 14 f 10nF 10nF 9 AC DC t 12 f 10 1x 6 AC out AC in 1x 1x Charge 2x 1x ON RJ45 1x Battery low 2x RJ11 O T 3x 4x Remote 4 6p 8p 8p 7 On/Off Swiss Made Bus termination Temp. 2 CAN b

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Steca Xtender technical data p. 37). The detection threshold for the absence of loads can be adjusted according to the configuration range {1187} by means of the RCC-02/03 remote control. When the configuration is set to 0 the inverter will still operate even in the absence of any consumer. 6.2.3 TRANSFER RELAY The Xtender can be connected to an alternative power source such as a generator or public network. When the voltage at the entry satisfies the voltage {1199+470} and frequency {15

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Steca Xtender The charge cycle, programmed by default, ACin=OK as shown in the example described in the figure opposite, runs automatically. {1138} The line (28) indicates the development of {1156} the battery voltage. {1140} The lower line (29) indicates the battery 28 current (input and output). {1159} The cycle starts with a continuous current charge (a) adjusted by default according 29 a e d to the configuration {1138}. If the ambient temperature is increased or the ventilation


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