Studer Innotec XTH 5000-24, XTH 6000-48 Figure elements DC part, Elem Description Comment

Page 29

 

STUDER Innotec

Xtender

 

 

 

 

 

Fig.

Description and comment

 

 

16

Example of cabling of 9 Xtenders in three-phase and parallel – AC part

 

 

 

Special feature: In fixed high power installations, it is advised that a shared neutral be

 

 

retained, distributed to all parties in the grid (see (C))

 

 

 

The comments for figs. 12 to 15 are valid.

 

 

17

Example of cabling of 9 Xtenders in three-phase and parallel – DC part (distribution

 

 

bar)

 

 

18

Example of cabling of 9 Xtenders in three-phase and parallel – DC part in star

 

 

formation

 

 

19

Connection of remote controls RCC-02/03

 

 

 

At a Xtender or at a system with several Xtender maximally 3 remote controls can be

 

 

attached.

 

12 Figure element's (DC part)

Elem.

Description

Comment

a

RCC-02/03

 

This device allows complete configuration of the installation as well as

 

remote control

displaying the system behaviour. It is recommended but not

 

 

 

necessary for the installation to function well. See chapter 6.4.1 – p.

 

 

 

23.

b

Battery

 

The battery capacity is constituted according to figures 5a to 6d

 

 

 

based on the required voltage. Note: It is vital that the voltage and the

 

 

 

polarity of the battery be checked before connecting to the inverter.

 

 

 

An overload or incorrect polarity could seriously damage the Xtender.

 

 

 

Correct dimensioning of the batteries is essential for trouble free

 

 

 

operation of the system. See chapter 4.3.1 – p. 11.

e

Communications

Communications cable. Only an original cable supplied by Studer

 

cable

 

Innotec may be used. The total length of the communications cable

 

 

 

must not exceed 100 m for 3 x RCC-02/03 or 300 m for a single

 

 

 

RCC-02/03.

f

Protection devices

A fuse-type device, thermal circuit breaker or magnetic-thermal circuit

 

 

 

breaker (see fig. 8a) must be installed on at least one of the two

 

 

 

battery conductors. It will ideally be placed on the positive pole of the

 

 

 

battery and as close as possible to this. The calibre of the device is

 

 

 

selected according to the cable section used.

 

 

 

If the negative pole of the battery is not earthed, it must also be

 

 

 

protected by such a device.

h

Distribution bar

Positive pole of the battery

j

Distribution bar

Negative pole of the battery

k

Wind-powered

One or more wind-powered generators or/and micro-hydro with their

 

or/and

micro-

own regulation system may be used to directly charge the battery. Its

 

hxdro generator

dimensioning does not depend on the Xtender and does not interfere

 

 

 

with it.

L

 

 

 

m

Solar generator

One or more solar-powered generators with their own regulation

 

 

 

system may be used to directly charge the battery. Its dimensioning

 

 

 

does not depend on the Xtender and does not interfere with it.

r

Remote

control

A control device may be connected to the terminals (7) of the

 

via dry contact

Xtender. See chapter 6.2.12 – p. 21.

 

 

 

The length of the connection cable must not exceed 5 m.

t

BTS-01

 

The sensor is placed in immediate proximity to the battery. If the

 

temperature

installation comprises several Xtenders, a single sensor is connected

 

sensor

 

to one of the units. See chap. 6.4.2 p.24

 

 

 

 

 

 

 

 

Installation and operating Instructions

Xtender V1.3

Page 29

Image 29
Contents Xtender Table of Contents Operating instructions IntroductionGeneral information Conventions Quality and warrantyExclusion of Liability Installation site Assembly and installationHandling and moving StorageConnections FasteningDescription Comment PosChoice of system CablingEarthing system Recommendations for dimensioning the system Connecting the battery Wiring diagramsFuse on the battery side XTH3000-12 XTH5000-24 XTH6000-48 XTH8000-48BATTERY-SIDE Connection Connecting the Consumers AT the 230 V AC Output Connecting the battery Powering up the installationDescription of the main functions Circuit diagramDescription and functioning Fast voltage loss detection mode fast transfer Temperature is increased or the ventilation Limiting the Input Current by Limiting the Charger Current Input Current Controlled by Input Voltage Auxiliary Contacts Multi-unit configurations RCC-02 RCC-03 AccessoriesControl Indicated alarm CommentMain on/off control Display and control partsCheck the cause of this excess voltage. The equipment will EC declaration of conformity Maintenance of the installationProduct recycling Comments of annexes’ figures Installation example in a boat, with isolation transformer Example of installation in a vehicle AC partExample of a hybrid installation Example of parallel connection of 2 or 3 XtendersElem Description Comment Figure elements DC partFigure elements AC part Elements of connexion cabinet a Type plate elements b Control and display parts for the Xtender bStuder Innotec Xtender Table of standard configurations Studer Innotec Xtender Model XTH 3000-12 XTH 5000-24 XTH 6000-48 XTH Technical data