Xtender Series

Catalogue

Battery chargers

Inverter-chargers

Battery monitoring

Engineered power

Inverters

Battery splitters

Battery separators

MPPT solar charge controllers

DC/DC converters

SWISS made power

Summary

T he company

A pplications

- Applications in remote areas

- Mobile applications

- Backup applications

- Self-consumption systems

P roducts

- Sine wave inverter-chargers

- Sine wave inverters

- MPPT solar charge controller

- Battery chargers

- DC/DC converters

- Battery splitters

- Battery separators

- Battery protection

- Battery monitoring

A ppendices

- Technical data

- How to find us

14

14

30

30

31

31

24

26

28

29

32

32

40

3

8

10

12

6

6

Photos credits

Robert Hofer, Céline Ribordy : Studer’s products ; Hacksss-Fotolia.com : p. 10 ; Getek AS : p. 18 ; Jeanneau : p. 8 top ;

Meteorisk : p. 3, 40 ; Perspective : p. 5, 28 ; PROSOL : p. 12 ; Siblik : p. 25 ; Steca : p. 6 bottom ; Studer Innotec Ltd. : p. 15.

Graphism

Atelier Perspective, R. Gigon, Sion.

October 2012

2

C ompany

Studer Innotec was established in 1987, not as a result of market research, but founded on my wish to improve solar systems. Therefore it was natural to focus on the main component of a battery system : the inverter.

Three years later the company was manufacturing its first inverter models, eight years later it started to export them and then gradually opened up to new application areas (mobile applications, backup systems and industrial applications).

Today Studer Innotec provides an extensive product range with over

60 products that assure storage, conversion and management of energy, of which over 95% are exported through our distributor network with over 100 partners worldwide.

The key success factor in maintaining our competitive lead is constant innovation. Through its know-how and experience, Studer Innotec ensures the renewal of its product range as well as expanding into new applications such as self-consumption systems and mini-grids.

Our company’s vision is the same as at its beginnings: more than a product, we offer innovative solutions to optimize any solar system whatever the application. These solutions are designed and manufactured at the same location, in Sion, Switzerland, as a result of the close collaboration and interaction with our customers.

Roland Studer

Founder and CEO of Studer Innotec SA

3

4

Production Integration and Flexibility

The company’s philosophy has always been to master the complete process : from development to product sales. This is why Studer

Innotec Ltd., since its beginning, is a company vertically integrated ; therefore, capable of far greater flexibility than its competitors.

In other respects, to turn the markets expectations into products and services, a 10 people team is fully dedicated to Research &

Development.

The Performance Choice

Studer Innotec’s high-tech concept of its products as well as the performance and reliability selection, drive the company to choose its components with the greatest care. This is the reason why the

Studer Innotec Ltd. has selected the latest technologies ; such as digital signal processors (DSP) that provide higher efficiency to its inverters.

C ompany

Ease in Use and Product Versatility

Quality choice will continue to guide Studer Innotec’s strategic axis towards the future. Beyond performances, the next inverters will have increased ease in use and will offer greater versatility to the users.

Proximity with Clients

From research to industrialization, Studer Innotec Ltd. endeavors to carry on its human and financial investments in order to keep its lead in terms of global offer and proximity with clients. This closeness is maintained by a network of qualified service partners. Partner addresses can be found on the company website, under « Distributors ».

5

Applications in remote areas

Security and comfort (lighting, heating, household appliances, leisure electronics, telecoms...) can now be provided by autonomous energy systems ; when far away from any electrical grid, either by choice or reason.

These systems consist firstly of an energy source ; normally a genset, a solar generator, a wind turbine or a combination of these ; secondly of a battery storage, and then thirdly of devices (inverter-charger, battery charger) able to charge the battery from this energy source and to supply users with AC voltage (inverter, inverter-charger).

The examples below show the products in some stand-alone applications.

A complete solar system

DC AC

A complete solar system can be built by combining an inverter from the AJ series and the « solar charge control » integrated function (as an option). One single device can then both supply alternating current (AC) and charge the battery with direct current (DC).

Quality AC voltage for all electrical appliances

Inverters

AJ series

(275 - 2’400VA)

p. 24

REGULATOR

DC

AC

The inverter supplies, exclusively from a battery, any kind of appliance using AC voltage, without exception. It converts the battery’s DC voltage into

AC voltage at a higher quality than what is available from the public grid. The MPPT solar charge controller optimally charges the battery from the solar generator.

Inverters

Xtender series

p. 14

(900 - 72’000VA)

Compact series

p. 22

(1’400 - 4’000VA)

AJ series

(275 - 2’400VA)

p. 24

MPPT solar charge controller

VarioTrack series

(65 - 80A)

p. 26

6

A pplications

Village electrification

GENERATOR

REGULATOR

AC

GRID

INVERTER

GRID

INVERTER

DC

Inverters

Xtender series

p. 14

(900 - 72’000VA)

MPPT solar charge controller

VarioTrack series

(65 - 80A)

p. 26

Various power sources supply energy to several consumer points.

Hybrid system : more autonomy and flexibility

GENERATOR

AC

Inverters

Xtender series

p. 14

(900 - 72’000VA)

This hybrid system provides great flexibility in supply and increased autonomy in relation to each energy source. The appliances AC voltage supply is done directly from the energy source through the transfer relay, or from the battery through the inverter function. The charger function allows battery charging with the genset. The genset’s size can be reduced thanks to the Smart-Boost function.

(Application Note AN007/www.studer-innotec.com)

Compact series

p. 22

(1’400 - 4’000VA)

MPPT solar charge controller

VarioTrack series

(65 - 80A)

p. 26

3-phase grid 3 x 400Vac for high power appliances

GENERATOR

AC AC

REGULATOR

DC

Inverters

Xtender series

p. 14

(900 - 72’000VA)

A 3 x 400Vac 3-phase grid can be built with 3 inverters for supplying high power appliances. In case of an increased power requirement, it is possible to set up to 3 inverters in parallel on each phase (Xtender only).

MPPT solar charge controller

VarioTrack series

(65 - 80A)

p. 26

7

Mobile applications

A simple on-board energy system is often necessary to power the

AC voltage appliances, while the vehicle or the boat is away from the electrical grid (port, garage, camping...).

In this case, energy is stored in the battery, which is actually charged by power sources on-board, such as a genset, solar generator, wind turbine, alternator or a combination of these. Studer Innotec offers the product range that secures the management and conversion of this energy, while securing an optimal power supply to the on-board appliances.

The examples below show our products in some mobile applications.

A simple and reliable on-board system

AC

AC

The inverter-charger charges the battery from the grid or from a genset, and powers any kind of electrical appliance.

It converts the battery DC voltage to AC voltage. The models equipped with the Smart-Boost system enable the addition of the source’s power to that of the inverter.

Inverters

Xtender series

p. 14

(900 - 72’000VA)

Compact series

p. 22

(1’400 - 4’000VA)

An upgradeable power

AC

AC

Power available to the users can be adapted in the course of time by adding inverters in parallel or by creating additional phases. Therefore, it is possible to install up to 9 inverters in a 3-phase power system.

Inverters

Xtender series

p. 14

(900 - 72’000VA)

8

A pplications

3 x 400Vac 3-phase grid on-board

AC

AC

A 3-phase grid can be built with 3 inverters. The Xtender series enables the creation of a 3-phase grid and to simultaneously charge the battery, even if only a single phase is available as a power source.

Inverters

Xtender series

p. 14

(900 - 72’000VA)

Variable power source assistance

VARIABLE POWER

SOURCE

AC AC

The source being a variable power alternator, the Smart-boost will supply the power difference in order that the power delivered is always the same (Application Note AN004/

www.studer-innotec.com).

Inverters

Xtender series

p. 14

(900 - 72’000VA)

Successive battery charging

AC

AC

DC

MOTOR

DC

In this system, a battery separator enables one or several auxiliary batteries to be charged, once the primary battery is charged.

Battery separators

MBR series

p. 30

Battery chargers

MBC series

p. 28

Simultaneous battery charging and DC/DC conversion

MOTOR

DC

AC

DC DC

A MOSFET splitter, with almost no voltage losses, splits the charge current to and among several batteries. From the battery pack, a DC/DC converter will step up or step down the voltage according to the voltage of the users, 12, 24 or 48Vdc.

9

MOSFET battery splitters

MBI series

p. 30

Battery chargers

MBC series

p. 28

DC/DC converters

MDCI-MDC series

p. 29

Backup applications

Appliances such as fridges, PCs, emergency lights, etc. which are supplied by the public grid and cannot afford any power cut, are electrically secured.

An inverter-charger with transfer relay or a combination of an inverter and a charger guarantees that the battery is well maintained and that an uninterrupted power supply to strategic appliances is sustained.

Studer Innotec Ltd. offers solutions from 275VA up to 72kVA with a one of a kind product choice that remains unchallenged on the market.

Uninterruptible power supply on-line

AC

DC AC

In this system, the battery charge functions and appliances’ power supply are separated :

On one side is a battery charger, and on the other, an inverter. Grid current fluctuations have no impact on the appliances.

10

Inverters

AJ series

(275 - 2’400VA)

p. 24

Battery chargers

MBC series

p. 28

A pplications

Uninterruptible power supply off-line

AC AC

In this configuration the grid supplies directly to the appliances, thanks to the inverter-charger’s by-pass function. In case of a power drop or cut in the grid, the inverter-charger guarantees the appliances’ power supply.

Inverters

Xtender series

p. 14

(900 - 72’000VA)

Compact series

p. 22

(1’400 - 4’000VA)

Individual Home backup

AC AC

Solsafe – a backup system for grid connected solar installations

An inverter-charger is used there to provide a backup power in case of public grid outage. As soon as the power shuts off the inverter-charger switches on inverter mode and assures an uninterruptible power supply.

Inverters

Xtender series

p. 14

(900 - 72’000VA)

Compact series

p. 22

(1’400 - 4’000VA)

Compteur

DC

AC

GRID

INVERTER

Secured

Not secured

The installation of our solution Solsafe in a grid connected solar system totally or partially secures the power supply in case of a power cut, and thus maintains the ongoing use of solar energy being produced (Application Note AN003/www.studer-innotec.com).

11

Anti-blackout system

Solsafe S-Box

p. 21

Inverters

Xtender series

p. 14

(900 - 72’000VA)

Compact series

p. 22

(1’400 - 4’000VA)

Self-consumption systems

In order to give priority to consumption of the energy generated from your own solar- or renewable installation, different systems including the Xtender inverter-chargers can be set up.

These systems store excess energy produced during daytime in batteries to be used at a later time, maximizing the self-consumption.

The public grid will only be used to import or to export small amounts of energy if absolutely necessary.

Optimising self-consumption with partial backup

AC IN

GRID

INVERTER

SCADA

SYSTEM

AC OUT

A pplications

Priority to renewable energy without grid-injection

This system has the advantage of being easily integrated into an existing grid-feeding installation even when its power is higher to that of the Xtender. The self-consumption is optimized by means of an expert system (SCADA) supplied by partners of Studer Innotec.

This system also allows creating a separate secure grid adapted for selected backup appliances (e.g. lights, cooling systems and communication).

Optimising self-consumption with full backup

Inverters

Xtender series

p. 14

(900 - 72’000VA)

AC

GENERATOR

AC

AC IN

SCADA

SYSTEM

AC IN

GRID

INVERTER

DC

REGULATOR

When it is forbidden or there is no incentive to inject energy into the public grid, an Xtender inverter-charger combined with a VarioTrack MPPT solar charge controller will minimize the grid consumption in favour of the locally produced energy. They will also guarantee an energy supply in case of grid-failure. This solution is easy to set-up using Studer products.

12

Inverters

Xtender series

p. 14

(900 - 72’000VA)

MPPT solar charge controller

VarioTrack series

(65 - 80A)

p. 26

This system will secure all users (household) however appliances it requires that the power of the

Xtender is at least equivalent to the grid inverter and that it covers the household’s power needs.

The self-consumption is optimized by means of an expert system (SCADA) supplied by partners of Studer Innotec. A correctly sized system adapted to meet the customer’s needs guarantees the energy supply during power outages of the public grid, even for longer periods.

Inverters

Xtender series

p. 14

(900 - 72’000VA)

13

Sine wave inverter-chargers

Xtender

XTS

XTS 900-12

XTS 1200-24

XTS 1400-48

Xtender

XTM

XTM 1500-12

XTM 2000-12

XTM 2400-24

XTM 2600-48

XTM 3500-24

XTM 4000-48

Xtender Series

The Xtender series provides unmatched freedom of use due to its many functions. In a basic application, it offers a total package : the functions of inverter, battery charger, transfer system and assistance to the source. These functions can be combined and controlled in a totally automatic way for exceptional ease and optimal management of available energy.

The Xtender is equipped with a command entry and 2 configurable auxiliary contacts. This allows an automatic control of the genset or a loadshedding when the battery voltage is too low. The flexibility then obtained makes it possible to implement special functionnalities, often necessary for a good energy management in standalone systems.

IP54

Features and performances

• Outstanding efficiency and overload.

• Perfect management and limitation of AC sources.

• Power shaving of the consumption peaks.

• Automatic allocation of the power available.

• Active filtering of the load steps on the genset.

• Automatic protection of the sources against overload.

• Battery priority (or to renewable sources).

• Parallel and three-phase setting, up to 9 units (72kVA).

• Powerful multi-stage PFC charger.

• Ultra-short transfer time (from 0 to 15ms max.).

• Automatic and efficient stand-by.

• 2 programmable auxiliary contacts (optional on the XTS).

• Compatible with AC coupling.

• XTS electronically protected against reverse polarity.

• Display, programming and data logging integrated

in the remote control RCC.

• Interactive with the Battery Status Processor (BSP).

• RS-232 communication for remote supervision.

Xtender

XTH

XTH 3000-12

XTH 5000-24

XTH 6000-48

XTH 8000-48

The Xtender series offer an optimal use of all sources that can be found in hybrid systems, whatever their connecting mode (AC or DC bus), up to the nominal power of the Xtender system (single, parallel and/or threephase).

GENERATOR

DC

REGULATOR

DC

DC

AC

GRID

INVERTER

P roducts

Xtender range

XTS 900-12

XTS 1200-24

XTS 1400-48

XTM 1500-12

XTM 2000-12

XTM 2400-24

XTM 2600-48

XTM 3500-24

XTM 4000-48

XTH 3000-12

XTH 5000-24

XTH 6000-48

XTH 8000-48

Battery voltage

12V

24V

48V

12V

12V

24V

48V

24V

48V

12V

24V

48V

48V

AC voltage

Output power

P30/Pnom

230Vac* 900VA** / 500VA

230Vac* 1200VA** / 650VA

230Vac* 1400VA** / 750VA

230Vac*

230Vac*

230Vac*

230Vac*

230Vac*

230Vac*

1500VA / 1500VA

2000VA / 2000VA

2400VA / 2000VA

2600VA / 2000VA

3500VA / 3000VA

4000VA / 3500VA

230Vac*

230Vac*

230Vac*

230Vac

Power Smart-

Boost

900VA**

1200VA**

1400VA**

1500VA

2000VA

2400VA

2600VA

3500VA

4000VA

Charge current

0 - 35A

0 - 25A

0 - 12A

0 - 70A

0 - 100A

0 - 55A

0 - 30A

0 - 90A

0 - 50A

3000VA / 2500VA

5000VA / 4500VA

6000VA / 5000VA

8000VA / 7000VA

3000VA

5000VA

6000VA

8000VA

0 - 160A

0 - 140A

0 - 100A

0 - 120A

50A

50A

50A

50A

* For the 120Vac/60Hz version, -01 is added to the model designation.

** These features are valid only when using the cooling module ECF-01.

Complete technical specifications on page 32.

Transfer current

16A

16A

16A

50A

50A

50A

50A

50A

50A

Function Smart-Boost and active filtering

With this function it is possible to interact directly with the AC source (Genset or grid) and to implement some basic functions such as :

• Efficient and immediate limitation of the current of the source, including fore

non linear or inductive/ capacitive loads, protecting efficiently the breakers

during connection to shore power or to a camping power counter with limited

current (function of power shaving and of power assistance) (more information

on our website and in the Application Note AN001/www.studer-innotec.com).

• Power shaving of load steps on the generator allowing therefore an optimal

sizing of the generator and asssuring the best possible efficiency of the fossile

fuels (function of filtering and of power assistance).

Generator or Grid

Xtender

Charge

Battery

The function of assistance to the source enables also to implement advanced functions such as the priority use of renewable energy, even when the grid is available (more information on our website and in the

Application Note AN002/www.studer-innotec.com).

The new alpine cabin of Monte-Rosa with a system Xtender

15

Sine wave inverter-chargers

RCC-02

RCC-03

Remote control and programming centre RCC-02 or RCC-03

Apart from the enclosure difference, adapted for wall or panel mounting, both units have exactly the same features and allow the user to survey his system and fully customize it to his needs.

RCC gives a controlled access to the many adjustable parameters of the Xtender. It enables the setting of the charge curve of the battery, the programming of the auxiliary contacts and gives access to a lot of operation options. Thanks to its graphic display RCC provides clear and comprehensive indications on the state of the system in selectable language. The unit memorizes and displays the events that occurred on an installation and so it does anticipate the problems that might appear. A slot for a SD card is available and it allow the parameters record and download as well as the full software update.

Data logging and analysis

Analyze easily your data with the RCC-02/03 Data logger function that will record on the SD card the main electrical values of your Xtender system during its operation.

These standards enable the follow up on the system’s energy consumption evolution, to check the power cuts, the state of the auxiliary contacts, the input currents and voltages, etc.

Studer Innotec Ltd. offers for free two graphical and analysis tools, Xtender Data Analysis Tool and

Xtender Matlab® Data Analysis (more information on our website and in the Application Note

AN006/www.studer-innotec.com).

Battery Status Processor BSP for XTENDER systems

One of the most important information for a safe and effective operating of an energy system with batteries is their state of charge.

The BSP offers, for Xtender systems, a highly precise measuring and an extremely efficient algorithm that calculates the state of charge in the most accurate way.

The remote control RCC-02/03 provides the display, the data logging, the graphical display of the state of charge history and the settings.

Values of the BSP can be used in the programming of the Xtender system. Besides, 17 different values can be displayed like for instance :

• State of charge

• Voltage (12-24-48Vdc)

• Current

• Time to go

• Throughput energy

• Battery temperature

The 2 models BSP 500 and BSP 1200 are supplied respectively with a shunt 500/1200A and 2 m cable for battery connection, as well as with

5 m communication cable.

16

Accessories

P roducts

XTS XTM XTH

RCC-02/-03

The remote control module (with 2m cable) enables the setting of the parameters as well as the display of the values measured. By means of a SD card it is possible to log the system data, to save and restore the parameters of the system. This module is available either for wall mounting (model RCC-02), or for panel mounting (model RCC-03).

l l l

BTS-01

Battery temperature sensor (with 5 m cable) offering the automatic compensation of the adjustable thresholds of the battery voltage.

RCM-10

Module for rail DIN mounting (with 5 m cable) giving access to the main ON/OFF and to the command entry with the models XTS and XTM.

BSP 500/1200

Module meant for the measuring and calculating of the battery state of charge (with

5 m cable). This module is connected to the communication bus of the Xtender.

It allows the display and the datalogging of the values measured and calculated (see opposite screens) and also the control of the 2 auxiliary contacts of the Xtender.

l l l l l l

Xcom-232i

Communication module with RS-232 port and 2 m RJ45 cable, allowing access to the parameters and measured values of the Xtender system. It makes the link between an Xtender system and a SCADA supervision or control system (not supplied).

l l l

Xcom-MS

Bridge for a communication between an Xtender system and one or several

MPPT chargers Tristar (with 2 m cable). With this module it is possible to set the parameters and to have access to the values measured in the solar charger, as well as to synchronize the charging profile of the battery.

The main values can be stored in the SD card of the module RCC or are accessible by means of the communication module Xcom-232i.

l l

ARM-02

This module only meant for the XTS models and for rail DIN mounting, is equipped with 2 auxiliary contacts controlled by the XTS.

This function is already integrated in the models XTM and XTH.

ECF-01

External cooling module (IP54) for models XTS. The use of this accessory will increase the power of the XTS. The ECF-01 is directly installed on top of the

XTS casing and its mounting can be done at any time after installation.

l

X-Connect

Mounting frame for multi-XTH system, supplied as a kit. The frame is equipped with DC breakers and fuses, and with rail DIN for the mounting of protection devices upstream and downstream (see p. 20).

CAB-RJ45-8-xx

Communication cable for the connection between Xtenders and to all external accessories. The cables are available in the following lengthes : 2, 5, 10, 20 or 50 m (xx stands for the length). For instance : one system with 3 Xtenders requires 2 cables of 2 m. One cable is supplied with every accessory. However a longer cable can be ordered when necessary.

l l l l l l l l

17

Sine wave inverter-chargers

The main configurations offered by the

Xtender series

Wide modularity

By the implementation of several units, it is possible to create a 3-phase source or to set them in parallel to increase the power available without extra cost. Up to 9 inverters of the Xtender serie shall therefore be combined together up to 72kVA !

Easy set up of multi-units

Xtenders in the heart of the Spitzbergen...

Compatible with standard cable channel (230 x 60 mm)

18

Inverter, charger and transfer relay

The Xtender basically works as an inverter and as a charger, combined with a transfer relay.

2 or 3 units in parallel on 1 phase

Increase of the power on one phase by setting 2 or 3 Xtender in parallel.

1 phase in and 3 phase out

Three-phase power supply from a single phase source.

3 phase in and 3 phase out

Three-phase source for a three-phase power supply.

3 phase + with one reinforced phase

Three-phase power supply with increase of the power on one phase by setting 2 or 3

Xtender in parallel on this phase.

3 Xtender in parallel on 3 phases

Three-phase power supply with 3 Xtender on each phase, for power up to 72kVA.

P roducts

GENERATOR

GENERATOR

GENERATOR

XT

GENERATOR

XT

XT

GENERATOR

XT

XT

GENERATOR

GENERATOR

GENERATOR

GENERATOR

XT

XT

GENERATOR

XT

XT

XT

XT

XT

XT

GENERATOR

XT XT

GENERATOR

GENERATOR

GENERATOR

XT XT

GENERATOR

GENERATOR

GENERATOR

GENERATOR

XT

GENERATOR

GENERATOR

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

GENERATOR

XT

GENERATOR

GENERATOR

GENERATOR

XT

GENERATOR

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT XT XT

GENERATOR

GENERATOR

GENERATOR

GENERATOR

GENERATOR

XT

XT

XT

XT

XT

XT

XT

XT XT

XT

GENERATOR

GENERATOR

GENERATOR

GENERATOR

GENERATOR

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

XT

19

Sine wave inverter-chargers

X-Connect system

GENERATOR

GENERATOR

GENERATOR

GENERATOR

XT

XT

XT

XT

XT

XT

GENERATOR

GENERATOR

GENERATOR

GENERATOR

XT

XT

XT

XT

XT

Parallell

GENERATOR

XT

XT

XT

GENERATOR

GENERATOR

GENERATOR

3-phase

XT

XT

XT

XT XT

GENERATOR

GENERATOR

GENERATOR

GENERATOR

XT XT

Parallell + 3-phase

XT

XT

917 mm

Mounting frame for Xtender multi-system

Offers a flexible and cost effective solution for high power systems based on the XTH inverter.

1

2

3

3 x

9 x

3 x

4

5

6

Up to 72kVA multi-unit system

Frame is supplied with :

1

Pre-installed DC circuit breakers

2

Pre-installed DC fuses

3

Pre-installed DIN rails

4

Interconnection pipes and gland for auxiliary contact wiring

5

Interconnection pipes and gland for AC wiring

6

Interconnection pipes and gland + 90 mm

2

wire terminated

with appropriates ring tongues for DC wiring from Xtender

to breakers and fuses

Screws set for frame assembly

20

P roducts

Solsafe : the anti-blackout system for grid connected solar installations

Despite a solar system on your house, in case of power outage, the grid inverters will shut off and the solar generator, whatever its size, will be useless. Studer Innotec Ldt has developped, already in 2004, a concept in which its inverter-chargers allow to keep energy available from the solar generator, even in case of a power cut.

Solsafe

S-Box

S-Box : a genuine cabling solution to implement the Solsafe

• Hassle free cabling

• Quick installation

• Easy commissioning

Compared to other similar solutions, it offers :

• Great system flexibility by choosing both the grid inverter

power (matching the solar generator) and the stand-alone

power (matching the needs for autonomous energy) inde-

pendently, as long as the stand-alone inverter is as big as,

or bigger than the grid inverter.

• The choice of the grid inverter allows working with

standard well known products.

• To choose the grid inverter with any voltage input range,

independently from the battery voltage.

• A possible and easy upgrade of existing grid-connected

solar installations.

The S-Box can be supplied in 4 versions :

For single phase application :

- Solsafe box 25A for Compact………………...... S-Box-25C

- Solsafe box 25A for Xtender………………….... S-Box-25X

- Solsafe box 25A for Compact with ENS-26...... S-Box-25C-E

- Solsafe box 25A for Xtender with ENS-26........ S-Box-25X-E

For Solsafe implementation in 3ph systems, a schematic is at disposal on simple request.

DC

GRID

INVERTER

AC

Not secured

Secured

21

Solsafe – a backup system for grid connected solar installations

The installation of our solution Solsafe in a grid connected solar system enables to secured totally or partially the power supply in case of a power cut, and so to keep on using the solar energy being produced (Application Note AN003/

www.studer-innotec.com).

Sine wave inverter-chargers

Compact series

The Compact series models consist of 3 fully automatic functions : a sine wave inverter, a battery charger and a transfer system. Equipped with highend technology, they optimally perform, thanks to Studer Innotec’s extensive experience in the field of electrical supply.

XP COMPACT

XPC 1400-12

XPC 2200-24

XPC 2200-48

Features and performances

• True sine wave voltage.

• Suitable for any kind of electrical appliance.

• Reliable and silent working with all kind of loads.

• Outstanding overload capabilities.

• Stand-by level adjustable over a large range and from

a very low threshold.

• 4 STEP battery charger with PFC.

• Ultra-fast transfer relay.

• High efficiency.

• Full internal protection.

• Ultra-fast regulation.

• Microprocessor controlled.

COMPACT

C 1600-12

C 2600-24

C 4000-48

E

24

Norm E certification

The XPC 1400-12, XPC 2200-24, C 1600-12 and

C 2600-24 are certified to the ECE-R 10 norm.

Compact range

XPC 1400-12

XPC 220O-24

XPC 2200-48

C 1600-12

C 2600-24

C 4000-48

Output power

P30/Pnom

1400VA / 1100VA

2200VA / 1600VA

2200VA / 1600VA

1600VA / 1300VA

2600VA / 2300VA

4000VA / 3500VA

Battery voltage

12Vdc

24Vdc

48Vdc

12Vdc

24Vdc

48Vdc

AC voltage

230Vac*

230Vac*

230Vac*

230Vac

230Vac

230Vac

Charge current

0 - 45A

0 - 37A

0 - 20A

0 - 55A

0 - 55A

0 - 50A

Transfer current

16A

16A

16A

16A

16A

16A

Solar option (-S)

30A

30A

20A

30A

30A

20A

* For the 120Vac/60Hz version, -01 is added to the model designation.

Complete technical specifications on page 33.

22

P roducts

Multifunctional contact

The 16 A. potential free contact can be programmed according to the user wishes. It reacts according to battery levels, as well as to the system status (alarm conditions, public grid presence, sunlight’s presence…), and provides :

1/ Automatic disconnection of

second priority users (condi-

tional supply).

2/ Alarm signalization, acoustic

signal, MODEM, radio alarm etc.

3/ Conditional battery charge.

GENERATOR

AC

DC

3

2

1

AC

AC

Accessories

RCC-01 Remote control

State of the system displayed by LED and remote programming* (supplied with a 20 m cable).

*compulsory for the programming of the XP Compacts

CT-35 Temperature sensor

This sensor adapts charge levels to the battery’s temperature variations

(supplied with 3 m cable).

ARM-01 Auxiliary relay module

Equipped with 3 programmed relays and a fourth one which is like the inverter-charger’s auxiliary contact, this module allows the Solsafe system to be implemented (see page 11).

CFC-01 Cover

This cover provides additional connection protection by means of glands.

C-IP22 Cover

Cover for a protection against intrusions or projections, installed after the mounting of the device. It extends the protection index of the XP Compacts and Compacts from IP 20 to IP 22.

XP COMPACT COMPACT

l l l l l l l l l l

Optional built-in solar charge controller (-S)

The XP Compact and Compact models are available with an optional built-in PWM charge controller (I/U/Uo) ; making the inverter-charger an « all in one » device for a solar installation.

DC AC

23

Sine wave inverters

AJ series

The AJ range consists of sine wave inverters that convert a battery’s

DC voltage into AC voltage, which can be used by all electrical appliances.

AJ

AJ 275-12

AJ 350-24

AJ 400-48

AJ

AJ 500-12

AJ 600-24

AJ 700-48

AJ

AJ 1000-12

AJ 1300-24

Features and performances

• High and steady efficiency.

• Outstanding overload capabilities.

• Digital regulation and control by microprocessor.

• Electrical supply to any type of appliance.

• Full internal protection.

• Battery lifetime optimization (B.L.O.) function.

• Supplied with battery and AC cables.

E

Norm E certification

24

The AJs in 12 and 24Vdc are certified to the ECE-R

10 norm.

AJ

AJ 2100-12

AJ 2400-24

AJ range

Output power

P30/Pnom

AJ 275-12 (-S)

AJ 350-24 (-S)

AJ 400-48 (-S)

AJ 500-12 (-S)

AJ 600-24 (-S)

275 VA / 200 VA

350 VA / 300 VA

400 VA / 300 VA

500 VA / 400 VA

600 VA / 500 VA

AJ 700-48 (-S)

AJ 1000-12 (-S)

700 VA / 500 VA

1000 VA / 800 VA

AJ 1300-24 (-S)

AJ 2100-12 (-S)

1300 VA / 1000 VA

2100 VA / 2000 VA

AJ 2400-24 (-S)

2400 VA / 2000 VA

Battery voltage

AC voltage

12 Vdc 230 Vac*

24 Vdc 230 Vac*

48 Vdc

12 Vdc

24 Vdc

48 Vdc

12 Vdc

230 Vac*

230 Vac*

230 Vac*

230 Vac*

230 Vac*

24 Vdc

12 Vdc

24 Vdc

230 Vac*

230 Vac*

230 Vac*

Solar option (-S)

10 A

10 A

10 A

15 A

15 A

15 A

25 A

25 A

30 A

30 A

* For the 120Vac/60HZ version, -01 is added to the model designation.

Complete technical specifications on pages 34-35.

Battery Lifetime Optimization :

B.L.O.

With this function the AJ inverters offer an advanced protection of the battery, by a smart management of the low voltage disconnection (LVD).

+

SOC

-

B.L.O.

Time

LVD

24

Accessoire

P roducts

JT8 Remote control

Enables the control (ON/OFF) and the remote display (ON / Standby /

Temporary off).

(supplied with a 5 m cable)

AJ 1000-12, AJ 1300-24

AJ 2100-12, AJ 2400-24

Option plug for remote control RCM

Connection (plugs male and female) to start/stop an inverter AJ under certain circumstances :

• RCM 01 : ON when a contact is closed.

• RCM 02 : ON when a voltage is present on the plug.

• RCM 03 : ON when a contact is open.

For the AJ inverters 275 to 700VA.

Supplied with a « connector Jack » 3.5 mm.

Option built-in solar charge controller

For a complete solar system !

The models AJ can be supplied equipped with an optional integrated

PWM solar charge controller, making the inverter an « all in one » device for a solar installation.

Rural electrification (Solar Home System)

The rural electrification and the inverters of the AJ series : excellence to the benefit of the development of remore areas and populations. Choosing AC voltage for the rural electrification systems is going for simplicity, reliability and cost saving. Indeed, compared with a DC voltage one, a system with an inverter is often more efficient from

100W of solar power.

The AJ series, due to its overload capability and to its very reliable stand-by system adjustable from

2W, is the most suitable range of inverters to meet the rural electrification technical and economical requirements.

25

VarioTrack

VT-65

VarioTrack

VT-80

MPPT solar charge controller

VarioTrack series

The VarioTrack solar charge controller maximizes the energy generated from solar panels in any solar installation. It contains a MPPT (Maximum

Power Point Tracking) algorithm that continuously tracks the maximum power point and automatically charges the batteries in an optimal way with all the available solar power.

Features and performances

• Easy and safe commissioning with full protection

against incorrect wiring

• Rugged and durable, this device is designed to

perform in harsh environmental conditions (IP54)

• High conversion efficiency, 98%

• Up to 15 VarioTrack in parallel on the same

communication bus

• 4 step charger for longer battery life

• Low self-consumption : <1W in night time mode

• Display with 7 LEDs showing status and current

• Comprehensive display, programming

and datalogging with RCC-02/-03

• Suitable for any solar system

• Optimal usage in an Xtender

system with a synchronized

battery management

VarioTrack range

VT-65

VT-80

Max. Recom. power of the solar generator

12 V

24 V

48 V

12 V

24 V

48 V

Maximum power of the solar generator

1000 W

2000 W

4000 W

1250 W

2500 W

5000 W

Maximum battery charging current

80 Vdc

150 Vdc

150 Vdc

80Vdc

150 Vdc

150 Vdc

Maximum charging current to the battery

65A

80A

* Complete technical specifications on pages 36.

26

P roducts

The VarioTrack in an Xtender system

Designed to function in any solar installation, the VarioTrack is working optimally in an Xtender system. The communication between the two devices allows in particular for a synchronized battery management.

GENERATOR

AC

Display and programming possibilities

The VarioTrack is fitted with several indicator lights and a control button for its basic operation. It is also possible to do basic programming using the DIP switches situated inside the device.

By adding a remote control and programming center RCC-02/-03, the VarioTrack can use all functions available in the remote control such as display, programming, data logging etc.

Accessories

VT-65

RCC-02/-03 Remote control and programming centre

The remote control module (with 2m cable) enables the setting of the parameters as well as the display of the values measured. By means of a SD card it is possible to log the system data, to save and restore the parameters of the system.

This module is available either for wall mounting (model RCC-02), or for panel mounting (model RCC-03).

BTS-01 Battery temperature sensor

Battery temperature sensor (with 5 m cable) offering the automatic compensation of the adjustable thresholds of the battery voltage.

l l

VT-80

l l

27

Battery chargers

MBC series

The MBC chargers enable battery charging from an AC voltage supply source (genset, public grid, shorepower, etc.). These chargers are also watertight and therefore especially designed for outdoor applications (IP 65).

Features and performances

• Universal input voltage.

• Charge of lead acid batteries with liquid or gelled

(GEL) electrolyte.

• Protection against battery overcharge.

AC

GENERATOR

MBC range

MBC 12-06/1

MBC 12-15/1

MBC 24-03/1

MBC 24-08/1

MBC 24-32/1

Battery voltage

12 Vdc

12 Vdc

24 Vdc

24 Vdc

24 Vdc

Input voltage

230 Vac ±15%

230 Vac ±15%

230 Vac ±15%

230 Vac ±15%

230 Vac ±15%

Output current

6 A

15 A

3 A

8 A

32 A

Output

1

1

1

1

1

Complete technical specifications on page 37.

28

P roducts

DC/DC converters

MDCI and MDC series

The DC/DC converters type MDCI and MDC are used, depending on the model, either to step up or to step down a DC voltage.

The MDCI range converters are electrically isolated.

Features and performances

• High efficiency.

• Low consumption.

• Protection against short-circuit, overheat,

overvoltage and reverse polarity.

• Great stability of the output voltage for a more

reliable system.

DC

DC

MDCI range

MDCI 100

MDCI 200

MDCI 360

MDCI 360 A24

Charger

A = 9-18 Vdc

Power

100 W

200 W

360 W

330 W

Output Current

8/4 A

16.5/8 A

30/15 A

30/15 A

Input variant

A/B/C/D

A/B/C/D

A/B/C/D

A

Output variant

12.5 or 24 Vdc

12.5 or 24 Vdc

12.5 or 24 Vdc

24 Vdc

Isolated

Yes

Yes

Yes

Yes

B = 20-35 Vdc C = 30-60 Vdc D = 60-120 Vdc (ex. MDCI 200 D24)

MDC range

MDC 1224-7

MDC 2412-5

MDC 2412-8

MDC 2412-12

MDC 2412-20

MDC 2412-30

Power

170 W

65 W

105 W

160 W

275 W

415 W

Output Current

7 A

5 A

8 A

12 A

20 A

30 A

Input voltage

9-18 Vdc

18-35 Vdc

18-35 Vdc

20-35 Vdc

20-35 Vdc

20-35 Vdc

Output voltage

24 Vdc

13.2 Vdc

13.2 Vdc

13.2 Vdc

13.8 Vdc

13.8 Vdc

Isolated

No

No

No

No

No

No

Complete technical specifications on page 37.

The MDC 2412-20 and 2412-30, as well as the MDCI 360 A24 « Charger » can also be used to charge a battery.

29

MOSFET battery splitters

MBI series

The MBI MOSFET battery splitters generate an insignificant voltage drop. They supply the charger’s or alternator’s current to several batteries. All batteries are thus charged at the same time, and therefore will not charge or discharge each other.

MBI range

MBI 100/2

MBI 150/2

MBI 100/3

MBI 150/3

MBI 200/3

MBI 2-100/3

Features and performances

• Automatic adjustment to the batteries voltage.

• Possible charge of the battery from an alternator

• Voltage drop < 0.4 V at 100 Amp.

• Suitable for electronic alternators.

Input

12/24 Vdc

12/24 Vdc

12/24 Vdc

12/24 Vdc

12/24 Vdc

12/24 Vdc

Charge current

100 A

150 A

100 A

150 A

200 A

100 A

Charge input

1

1

1

1

1

2

Outputs

2

2

3

3

3

3

Complete technical specifications on page 38.

AC

MOTOR

DC

DC

Batteries separators

MBR series

The MBR batteries separators allow to supply the auxiliary battery or the appliances, as soon as the mainbattery voltage is high enough.

MBR range

Battery voltage

MBR 12/24-100

12/24 Vdc

MBR 12/24-160

12/24 Vdc

MBR 12/24-500

12/24 Vdc

Charge current

100 A

160 A

500 A

Batteries

2

2

2

Complete technical specifications on page 38.

MOTOR

Features and performances

• Insignificant voltage drop.

• Protects the auxiliary battery from any

overvoltage.

DC

DC

DC DC

AC

30

P roducts

Battery protection

MBW series

The Battery Watch protects the battery from an excessive discharge and also the consumers in case of overvoltage.

Features and performances

• Programming the connection and disconnection voltages

by jumpers.

• MOSFET switches, therefore no sparks.

• Alarm output to indicate excessive voltage drops.

MBW range

MBW 40

MBW 60

MBW 200

Maximum current

40

60

200

Operating voltage range (Vdc)

6-35

6-35

8-32

Complete technical specifications on page 39.

Battery monitoring

DC DC

SBM-02

The SBM-02 is a highly accurate battery monitor with a history data memory. It is supplied together with a 500A/50mV shunt. This device is designed for 12 and 24V batteries. The optional SBM-PS-02 voltage pre-scaler extends the use of the SBM-01 to 27-175V batteries.

AUX

Features and performances

• Digital display of the 6 most important

parameters of a DC power system :

1. Battery voltage (V)

2. Current (A)

3. Consumed Ampere-hours (Ah)

4. Sate-of-charge (%)

5. Time-to-go (h:m)

6. Temperature (°C or °F)

Optional accessories

• Connection kit, type SBM-CAB-20, including 20 m of twisted pair cable (3 x 2 x 0.5 mm

2

) and

2 fuseholders.

• Communication kit, type SBM-COM, including RS232 interface box, 1.8 m of 9p DSUB serial cable

and software.

• Communication kit, type SBM-COM-USB, including USB interface box, 1.8 m of USB cable and software.

• Temperature kit, type SBM-TEMP-20, with a temperature sensor and 20 m cable.

• Shunt 1200 A / 50 mV, type SH-1200-50, for battery monitoring in large system.

31

Technical data

Xtender series

Model

Inverter

Nominal battery voltage

Input voltage range

Continuous power @ 25°C

Power 30 min. @ 25°C

Power 5 sec. @ 25°C

Maximum load

Maximum asymmetric load

* Load detection (stand-by)

Cos j

Maximum efficiency

Consumption OFF/Stand-by/ON

* Output voltage

* Output frequency

Harmonic distortion

Overload and short-circuit protection

Overheat protection

Battery charger

XTS 900-12 XTS 1200-24 XTS 1400-48 XTM 1500-12 XTM 2000-12 XTM 2400-24 XTM 2600-48 XTM 3500-24 XTM 4000-48 XTH 3000-12

12Vdc 24Vdc

9.5 - 17Vdc 19 - 34Vdc

48Vdc

38 - 68Vdc

650**/500VA 800**/650VA 900**/750VA

900**/700VA 1200**/1000VA 1400**/1200VA

2.3kVA

2.5kVA

2.8kVA

12Vdc

9.5 - 17Vdc

1500VA

1500VA

3.4kVA

2000VA

4.8kVA

24Vdc

19 - 34Vdc

2000VA

2400VA

6kVA

48Vdc

38 - 68Vdc

24Vdc

19 - 34Vdc

3000VA

2600VA

6.5kVA

3500VA

9kVA

Up to short-circuit

Up to Pcont.

2 to 25 W

0.1-1

48Vdc 12Vdc

38 - 68Vdc 9.5 - 17Vdc

3500VA 2500VA

4000VA

10.5kVA

3000VA

7.5kVA

93% 93% 93% 93% 94% 96% 94% 96% 93%

1.1W/1.4W/7W 1.2W/1.5W/8W 1.3W/1.6W/8W 1.2W/1.4W/8W 1.2W/1.4W/10W 1.4W/1.6W/9W 1.8W/2W/10W 1.4W/1.6W/12W 1.8W/2.1W/14W 1.2W/1.4W/14W

Pure sine wave 230Vac (± 2%) / 120Vac

(1)

Adjustable 45 - 60Hz

(1)

± 0.05% (crystal controlled)

<2%

Automatic disconnection with 3 time restart attempt

Warning before shut-off - with automatic restart

* Charge Characteristic

* Maximum charging current

* Temperature compensation

Power Factor Correction (PFC)

General data

* Input voltage range

Input frequency

Input current max. (transfer relay) /

Output current max.

Transfer time

Multifunction contacts

Weight

Dimension hxwxl [mm]

Protection index

Conformity

Operating temperature range

Relative humidity in operation

Ventilation

Acoustic level

Warranty

Accessoires

Remote control RCC-02 or RCC-03

Module XCOM-232i

Bridge XCOM-MS

Remote Control Module RCM-10 (3 m)

2 aux. contacts module ARM-02

Cooling Module ECF-01

Battery temp. sensor BTS-01 (3 m)

Communication cable for 3ph and // CAB-RJ45-8-2

Mounting frame X-Connect

6 steps : Bulk-Absorption-Floating-Equalization-reduced floating-periodic absorption

Number of steps, thresholds, end current and times completely adjustable with the RCC-02/-03

35A 25A 12A 70A 100A 55A 30A 90A 50A 160A

16Aac/20Aac

With BTS-01 or BSP 500/1200

EN 61000-3-2

XTS 900-12 XTS 1200-24 XTS 1400-48 XTM 1500-12 XTM 2000-12 XTM 2400-24 XTM 2600-48 XTM 3500-24 XTM 4000-48 XTH 3000-12

150 to 265Vac / 50 to 140Vac

45 to 65Hz

(1)

50Aac/56Aac

<15 ms

Module ARM-02 with 2 contacts, in option 2 independent contacts (potential free 3 points, 16Aac/5Adc)

8.2 kg 9 kg 9.3 kg 15 kg 18.5 kg 16.2 kg 21.2 kg 22.9 kg 34 kg

110x210x310 110x210x310 110x210x310 133x322x466 133x322x466 230x300x500

IP54 IP20

Directive EMC 2004/108/EC : EN 61000-6-1, EN 61000-6-3, EN 55014, EN 55022, EN 61000-3-2, 62040-2

Low voltage directive 2006/95/EC : EN 62040-1-1, EN 50091-2, EN 60950-1

-20 à 55°C

100%

Optional cooling module ECF-01

95% without condensation

Forced from 55°C

<40dB / <45dB (without/with ventilation)

5 years l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l

* Adjustable with the RCC-02/-03

** These features are valid only when using the cooling module ECF-01.

(1) With -01 at the end of the reference, means 120V/60Hz. Available for all Xtenders except XTH 8000-48

Data may change without any notice.

32

XTH 5000-24 XTH 6000-48 XTH 8000-48

24Vdc

19 - 34Vdc

4500VA

5000VA

12kVA

48Vdc

38 - 68Vdc

5000VA 7000VA

6000VA

15kVA

8000VA

21kVA

94% 96%

1.4W/1.8W/18W 1.8W/2.2W/22W 1.8W/2.4W/30W

140A 100A 120A

XTH 5000-24 XTH 6000-48 XTH 8000-48

50Aac/80Aac

40 kg

230x300x500

42 kg

230x300x500

46 kg l l l l l l l l l l l l l l l l l l

A ppendices

COMPACT series

Model

Inverter

Nominal battery voltage

XPC 1400-12 XPC 2200-24 XPC 2200-48 C 1600-12 C 2600-24 C 4000-48

Input voltage range

Continuous power @ 25°C

Power 30 min. @ 25°C

Power 5 sec. @ 25°C

Maximum power

Maximum asymmetric load

Stand-by adjustment

Cos j

Maximum efficiency

Consumption OFF/Stand-by/ON

12Vdc

94%

0.5/0.6/4W

24Vdc

0.8/0.9/7W

95%

48Vdc

9.5 – 16Vdc 19 - 32Vdc 38 - 64Vdc 9.5 - 16Vdc 19 - 32Vdc 38 - 64Vdc

1100VA 1600VA 1600VA 1300VA 2300VA 3500VA

1400VA 2200VA 2200VA

3 x Pnom

1600VA 2600VA 4000VA

Up to short-circuit

Up to Pcont.

1 to 25W

0.1 - 1

1.2/1.3/7W

12Vdc

94%

24Vdc

95%

48Vdc

0.5/0.6/6W 0.8/0.9/9W 1.2/1.4/12W

Output voltage

Output frequency

Total harmonic distortion

Overload and short-circuit protection

< 4%

Sine wave 230Vac (±5%) (XPC also available in 120Vac)

50Hz ± 0.05% (crystal controlled)

< 2%

Automatic disconnection with 3 time restart attempt

Overheat protection Acoustic warning before shut-off - with automatic restart

Battery charger (4 STEP) I-U-Uo-Equalize (every 25 cycles)

Charging current adjustable

Input current balance adjustment

Maximum input voltage

Input AC voltage range

Input frequency

Power Factor Correction (PFC)

0 - 45Adc 0 - 37Adc

Not available

0 - 20Adc 0 - 55Adc

1 - 16A

0 - 50Adc

265Vac

Adjustable threshold from 150 to 230Vac (XPC also available in 120Vac)

45 - 65Hz

EN 61000-3-2

Battery control (thresholds and times adjustable by the user)

Absorption time

End charge cycle voltage*

Floating voltage

Equalization time

Equalization voltage

Deep-discharge protection

Temparature compensation

(optional CT-35)

General data

Multifunction contact programmable

Max. current on transfer relay

Transfer time

Weight

Dimension hxwxl [mm]

Protection index

Certification ECE-R 10 (E24)

EC conformity

14.4Vdc

13.6Vdc

15.6Vdc

10.8Vdc

11.7 kg

28.8Vdc

27.2Vdc

31.2Vdc

21.6Vdc

0-4 h

57.6Vdc

54.4Vdc

0-4 h

62.4Vdc

43.2Vdc

14.4Vdc

13.6Vdc

15.6Vdc

10.8Vdc

-3mV / ° C / Cell

16A - 250Vac (potential free 3 points)

16Aac

< 40 ms

28.8Vdc

27.2Vdc

31.2Vdc

21.6Vdc

12.6 kg

124x215x410

16 kg 17.1 kg

124x215x480

IP20 (IP22 with top cover C-IP22)

57.6Vdc

54.4Vdc

62.4Vdc

43.2Vdc

29.4 kg

124x215x670 l l

Not available l l

Not available

EN 61000-6-1, EN 61000-6-3, EN 55014, EN 55022, EN 61000-3-2,

Low voltage directive 2006/95/EC : EN 62040-1-1, EN 50091-2, EN 60950-1

Operating temperature range

Relative humidity in operation

Ventilation

Accoustic level

Warranty

-20°C up to +55°C

95% without condensation

From 45°C

<40dB / <45dB (without/with ventilation)

5 years

Option solar charger (4 stages) I-U-Uo-Equalize (every 25 cycles)

Maximum PV open circuit voltage (V)

Maximum charge current (A)

Charging curve

25Vdc

30Adc

45Vdc

30Adc

90Vdc

20Adc

25Vdc

30Adc

I-U-Uo-Equalize (every 25 cycles)

45Vdc

30Adc

90Vdc

20Adc

* Factory settings

Data may change without any notice.

33

Technical data

AJ series

Model

Inverter

Nominal battery voltage

Input voltage range

Continuous power @ 25°C

Power 30 min. @ 25°C

Power 5 min. @ 25°C

Power 5 sec. @ 25°C

Maximum asymmetric load

Max. efficiency (%)

Cos j max.

Detection of the load

Current of short-circuit 2 sec. (exit)

Output voltage

Frequency

Distortion THD (resistive load)

Consumption Stand-by

Consumption « ON » no load

Overheat protection (±5°C)

Overload and short circuit protection

Reverse polarity protection per internal fuse

Deep discharge battery protection

Max. battery voltage

Acoustic alarm

General data

Weight

Dimensions hxwxl [mm]

Protection index IP

Certification ECE-R 10 (E24)

EC conformity

Operating temperature

Relative humidity in operation

Ventilation forced

Acoustic level

Warranty

Approximate correction of Pnom

Recommended battery capacity

Length cables (Battery/left AC)

Options

Voltage max.

Current max.

Solar regulator

Principle

Absorption voltage

Floating voltage

Plug for remote control (RCM)

* 120Vac/60Hz on request

** Standby with solar option -S

AJ 275-12

12Vdc

10.5 – 16Vdc

(24Vdc max.)

200VA

275VA

24Vdc

21 – 32Vdc

(44Vdc max.)

300VA

350VA

48Vdc

42 – 64Vdc

(64Vdc max.)

300VA

400VA

12Vdc

10.5 – 16Vdc

(24Vdc max.)

400VA

500VA

24Vdc

21 –32Vdc

(44Vdc max.)

500VA

600VA

48Vdc

42 –64Vdc

(64Vdc max.)

500VA

700VA

350VA

450VA

150VA

93%

500VA

650VA

150VA

94%

600VA

1000VA

200VA

94%

575VA

1000VA

250VA

93%

0.1 – 1 up to 200 VA 0.1 – 1 up to 300 VA 0.1 – 1 up to 300 VA 0.1 – 1 up to 400VA

675VA

1200VA

300VA

94%

900VA

1400VA

300VA

94%

2.3A (4.6A*)

0.3W**

2.4W

2W (only with the solar option -S)

3.2A (6.4A*) 4.6A (9.2A*) 5.2A (10.4A*)

Sine wave 230Vac (120Vac*) ±5%

50Hz (60Hz*) ± 0.05% (crystal controlled)

< 5% (@ Pnom.)

0.5W**

3.5W

1.1W**

5.2W

0.4W

4.6W

Shut down @ 75°C - Auto-restart @ 70°C

Automatic disconnection with 2 time restart attempt

0.1 – 1 up to 500VA 0.1 – 1 up to 500VA

Adjustable : 1 g 20W

5.7A (11.4A*) 7A (14A*)

0.6W

7.2W

1.5W

12W

60A 40A 25A 120A 90A 60A

Shut off @ 0.87 x Unom - Automatic restart @ Unom

Shut off @ >1.33 x Unom - Automatic restart @ < Umax

Before low battery or overheating disconnection

2.4 kg l

AJ 275-12-S

25Vdc

14.4Vdc

13.6Vdc

l

AJ 350-24 AJ 400-48 AJ 500-12 AJ 600-24

142x163x84 l

1.2m / 1m

AJ 350-24-S

45Vdc

10Adc

2.6 kg

IP 30 conforms to DIN 40050

Not available l

EN 61000-6-1, EN 61000-6-3, EN 55014, EN 55022, EN 60950-1

-20°C up to +50°C

95% without condensation

From 45°C ± 5°C

< 45 dB (with ventilation)

5 years

-1.5%/°C since +25°C

> 5 x Pnom/Unom (recommended value in Ah)

AJ 400-48-S

90Vdc

AJ 500-12-S

25Vdc

4.5 kg

142x240x84 l

1.5m / 1m

AJ 600-24-S

45Vdc

15Adc

28.8Vdc

27.2Vdc

Floating 3 stages (I/U/UO)

57.6Vdc

14.4Vdc

54.4Vdc

13.6Vdc

28.8Vdc

27.2Vdc

l l l l

AJ 700-48

Not available

AJ 700-48-S

90Vdc

57.6Vdc

54.4Vdc

l

A ppendices

AJ series

Model

Inverter

Nominal battery voltage

Input voltage range

Continuous power @ 25°C

Power 30 min. @ 25°C

Power 5 min. @ 25°C

Power 5 sec. @ 25°C

Maximum asymmetric load

Max. efficiency (%)

Cos j max.

Detection of the load

Current of short-circuit 2 sec. (exit)

Output voltage

Frequency

Distortion THD (resistive load)

Consumption Stand-by

Consumption « ON » no load

Overheat protection (±5°C)

Short circuit protection

Reverse polarity protection

Deep discharge battery protection

Max. battery voltage

Acoustic alarm

General data

Weight

Dimensions hxwxl [mm]

Protection index IP

Certification ECE-R 10 (E24)

EC conformity

Operating temperature

Relative humidity in operation

Ventilation forced

Acoustic level

Warranty

Approximate correction of Pnom

Recommended battery capacity

Length cables (Battery/left AC)

Options

Voltage max.

Solar regulator

Current max.

Principle

Absorption voltage

Floating voltage

Remote control JT8 supplied with

5 m cable

* 120Vac/60Hz on request

AJ 1000-12 AJ 1300-24 AJ 2100-12 AJ 2400-24

12Vdc

10.5 – 16Vdc (24Vdc max.)

800VA

1000VA

1200VA

2200VA

500VA

93%

0.1 – 1 up to 800VA

24Vdc

21–32Vdc (44Vdc max.)

1000VA

1300VA

2000VA

2800VA

600VA

94%

0.1 – 1 up to1000VA

Adjustable : 1 g 20W

12Vdc

10.5 – 16Vdc (20Vdc max.)

2000VA

2100VA

2450VA

5000VA

1000VA

92% @ 300VA

0.1 – 1 up to 2000VA

10Aac (20Aac*)

0.7W

10W

13Aac (26Aac*) 26Aac (52Aac*)

Sine wave 230Vac (120Vac*) ±5%

50 Hz (60Hz*) ± 0.05% (crystal controlled)

< 5% (@ Pnom. & Uin nom.)

1.2W

13W

0.7W

16W

Shut down @ 75°C - Auto-restart @ 70°C

Automatic disconnection with 2 time restart attempt

Protected by internal fuse 125A Protected by internal fuse 100A Not protected

Shut off @ 0.87 x Unom - Automatic restart @ Unom

Shut off @ >1.33 x Unom - Automatic restart @ < Umax

Before low battery or overheating disconnection

24Vdc

21–32Vdc (40Vdc max.)

2000VA

2400VA

2800VA

5200VA

1200VA

94% @ 300VA

0.1 – 1 up to 2000VA

30Aac (60Aac*)

< 3% (@ Pnom & Uin nom.)

1.2W

16W

Protected by internal fuse 150A l

AJ 1000-12-S

25Vdc

14.4Vdc

13.6Vdc

8.5 kg

142x428x84

IP 30 conforms to DIN 40050

19 kg l

273x399x117

IP 20 conforms to DIN 40050

18 kg l l

1.5m / 1m

EN 61000-6-1, EN 61000-6-3, EN 55014, EN 55022, EN 60950-1

-20°C up to +50°C

95% without condensation

From 45°C ± 5°C

< 45 dB (with ventilation)

5 years

-1.5%/°C since +25°C

> 5 x Pnom/Unom (recommended value in Ah)

1.7m / 1m

AJ 1300-24-S

45Vdc

AJ 2100-12-S

25Vdc

25A 30A

Floating 3 stages (I/U/UO)

28.8Vdc

27.2Vdc

14.4Vdc

13.6Vdc

AJ 2400-24-S

45Vdc

28.8Vdc

27.2Vdc

l l l l

Data may change without any notice.

Data may change without any notice.

34 35

Technical data

VarioTrack series

Model

Electrical characteristics PV array side

Maximum solar power recommended (@STC)

Maximum solar open circuit voltage

Maximum solar functional circuit voltage

Electrical characteristics battery side

Maximum output current

Nominal battery voltages

Operating voltage range

Performances of the device

Power conversion efficiency (in a 48 V typical-system)

Maximum stand-by self-consumption (48 V)

Maximum stand-by self-consumption (24 V)

Maximum stand-by self-consumption (12 V)

Charging stages

Battery temperature compensation (available with accessory BTS-01)

Electronic protections

PV reverse polarity

Battery reverse polarity

Battery overvoltage

Over temperature

Reverse current at night

Environment

Operating ambiant temperature range

Humidity

Ingress protection of enclosures

Mounting location

General data

Warranty

Weight

Dimensions h/w/l [mm]

Parallel operation (separated PV arrays)

Max wire size

Glands

Communication

Network cabling

Remote control and display

Menu languages

Data logging

Accordance to standards

CE compliant

Safety

EMC (Electro Magnetic Compatibility)

12 V

1000 W

80 Vdc

75 Vdc

VT-65

24 V

2000 W 4000 W

150 Vdc

145 Vdc

48 V 12 V

1250 W

80 Vdc

75 Vdc

VT-80

24 V

2500 W

150 Vdc

145 Vdc

65 A 80 A

Automatic / manual set to 12, 24 or 48 Vdc

Above battery voltage, minimum 7 V

98 %

25 mA > 1.2 W

30 mA > 0.8 W

35 mA > 0.5 W

4 stages : Bulk, Absorption, Float, Equalization

–3 mV /°C /cell (25°C ref) default value adjustable -8 to 0 mV /°C

48 V

5000 W

5.2 kg

120 / 220 / 310

Up to –150 Vdc

Up to –150 Vdc

Up to 150 Vdc

Protected

Prevented by relays

–20 to 55°C

100 %

IP54, IEC/EN 60529:2001 indoor

5 years

5.5 kg

120 / 220 / 350

Up to 15 devices

35 mm

2

M 20 × 1,5

STUDER communication BUS

RCC-02/-03 / Xcom-232i

English / French / German / Spanish

With RCC-02/03 on SD card · One point every minute

EMC 2004/108/CE · LV 2006/95/CE · RoHS 2002/95/CE

IEC/EN 62109–1:2010

IEC/EN 61000–6–3:2011 · IEC/EN 61000–6–1:2005

Data may change without any notice.

36

A ppendices

MBC series

Model

Battery voltage (Vdc)

Input voltage (Vac)

Charge voltage (boost) (Vdc)

Charge voltage (float) (Vdc)

Output (A)

Cooling

Outputs

Efficiency

Ambient temp. range

Dimensions lxwxh (mm)

Weight (kg)

Switch to Floating mode (A)

Secondary fuse (A)

Input wired

Ouput wired

Warranty

MBC 12-06/1

12

14.4

13.8

6

155x80x36

0.9

0.2

7.5

l l

MBC 12-15/1

12

14.4

13.8

15

195x100x47

1.8

0.8

20 l l

MBC 24-03/1

24

230 ±15% (40 - 60 Hz)

28.8

27.6

3

Heat sink

1

> 85 %

-25 to 50°C

155x80x36

0.9

0.2

7.5

l l

2 years

MBC 24-08/1

24

28.8

27.6

8

195x100x46

1.8

0.4

15 l l

MBC 24-32/1

24

28.8

27.2

32

158x245x47.5

3.8

3.5

40 l l

MDCI and MDC series

MDCI – DC/DC converter, switch-mode, isolated

Model

Power (W)

Input variants (Vdc)*

Output variants (Vdc/A) ± 2%

Output current (A)

Galvanic isolation

Isolation voltage (V)

Efficiency @ full load (%)

Off-load current (mA)

Operating temperature

Ambiant temp. (20°) increase after 30 min. @ full load

Cooling

Dimensions HxWxD (mm)

Weight (gr)

* A = 9-18 Vdc B = 20-35 Vdc C = 30-60 Vdc

MDCI 100

100

A-B-C-D

12.5/8-24/4

8/4 l

25°C

Convection

49x88x152

500

D = 60-120 Vdc

MDCI 200

200

A-B-C-D

12.5/16-24/8

16.5/8 l

49x88x182

600

MDC –DC/DC converter, switch-mode, not-isolated

Model

Power (W)

Output current (A)

Input (Vdc)

Output (Vdc)

Efficiency @ full load (%)

Off-load current (mA)

Operating temperature

Ambiant temp. (20°) increase after 30 min. @ full load

Cooling

Dimensions HxWxD (mm)

Weight (gr)

MDC 1224-7 MDC 2412-5 MDC 2412-8 MDC 2412-12 MDC 2412-20 MDC 2412-30

170

7

9-18

24

65

5.5

18-35

105

8

13.2

160

12

275

20

20-35

13.8

415

30

90

< 15 < 5 25

-20 / +40°C

30°C

49x88x98

300

49x88x68

170

20°C 30°C

Convection

49x98x88

250 260

33°C

Fan

49x88x126 49x88x151

480 600

400

> 85

< 25

-20 / +45°C

Data may change without any notice.

MDCI 360

360

A-B-C-D

12.5/30-24/15

30/15 l

30°C

Fan

64x163x160

1400

MDCI 360 Charger

330

A

27.6/12

13 l

Common features MDCI & MDC

Paralleling

Humidity

Protection

Overload

Overheating

Overvoltage

Max. 2 converters

Max. 95% non condensing

Up to short-circuit

Output voltage reduction

Transient protection by Varistor

Reverse polarity

Fuse

Casework Anodized aluminium

Connections

Warranty

Norms

6.3 mm Faston

2 years

EN 50081-1 (emission) EN

50082-1 (immunity) 95/54/EC

(automotive directive)

37

Technical data

MBI series

MBI – Battery isolator, voltage drop free

Model

Input nominal voltage (Vdc)

Input voltage range (Vdc)

Charge current max. (A)

Input number

Battery banks

Voltage drop @ 10a/20A (V)

Consumption (mA)

Alternator start

Operating temperature (°C)

Dimensions LxHxD (mm)

Weight (gr)

Nominal voltage 12 or 24V

Insulation to ground

Warranty

Norms

MBI 100/2 IG

100 l

780

2

146x85x92

MBI 150/2 IG MBI 100/3 IG MBI 150/3 IG MBI 200/3 IG

12/24

8-30

150 100

1

150 200

3

0.05 / 0.1

0 l l l l

810

-40 / +85

146x85x152

780

Automatic detection

810

> 500V @ 60Hz

2 years

EN 50081-1 (emission) EN 50082-1 (immunity) EN 60950-1 (safety)

815

MBI 2-100/3

100

2

780

A ppendices

MBW series

MBW – Battery watch

Model

Nominal voltage (Vdc) depends on jumpers

Max. continuous current 5’ (Amp)

Peak current (Amp)

Operating voltage range (Vdc)

Consumption (mA)

Alarm output delay

Alarm output max. current (mA)

Load disconnect delay

Voltage level accuracy

Casework

Weight (gr)

Dimensions HxDxL (mm)

Battery protection

Users protection

MOSFET switches

Norms

MBW 40 MBW 60

12/24

40

120

60

120

6-35

< 7

15 seconds

500

1 minute

0.2V

200

2%

Anodized aluminium, black

80x60x40 80x60x40

Against excessive discharge

Against overvoltages (16 / 32 Vdc)

No sparks

EN 50081-1 (emission) EN 50082-1 (immunity)

Automotive Directive 95/54/CE

MBW 200

200

480

8-32

< 3

30 secondes

0.1V

580

145x92x85

Against overvoltages

(15.5 / 31 Vdc)

EN 50081-1 (emission)

Automotive Directive 95/54/CE

Jumper selectable voltage

Disengage (V)

10

10.5

11

11.5

21.5

22

22.5

23

Engage (V)

11.5

12

13

13.8

24.5

25

25.5

26.5

MBR series

MBR – Microprocessor controlled battery separator

Model

Nominal voltage (Vdc)

Charge current max. (Amp)

Connection threshold (Vdc) ± 2%

Disconnection threshold (Vdc) ± 2%

Battery banks

Alternator start

Start contact for batteries paralleling

Micro switch for remote status indication

Dimensions LxHxD (mm)

Weight (gr)

Consumption

Protection of the auxiliary battery against overvoltage

Connection on the battery side

Other connections

Warranty

Norms

MBR 12/24-100

12/24

100

13.2/26.4

12.8/25.6

MBR 12/24-160

12/24

160

13.2/26.4

12.8/25.6

2 l l

MBR 12/24-500

12/24

500

13.2/26.4

11.8/23.6

l l l l

46x46x80

110

46x93x96

300

< 5mA

16 / 32Vdc

M6

6.3 mm Faston

2 years

EN 50081-1 (emission) EN 50082-1 (immunity) Automotive Directive 95/54/CE

72x70x80

417

M8

SBM-02

SBM-02 – Battery monitor 12 and 24 Vdc (27-175 Vdc in option)

Model

Supply voltage range

Consumption @ 12Vdc, without BL

Consumption @ 24Vdc, without BL

Input voltage range (« Auxiliary » battery)

Input voltage range (« Main » battery)

Input current range

Battery capacity range

Operating temperature range

Protection class

Front panel

Dimensions

Body diameter

Total depth

SBM-02

9-35 Vdc

9 mA

7 mA

2...35 Vdc

0...35 Vdc

-9999…+9999 A

20…9990 Ah

-20…50°C

IP20 (Frontpanel IP65)

Ø 64 mm

Ø 52 mm

79 mm

Standart equipment SBM-02

Potential free alarm contact

500A/50mV current shunt

Optional accessories

SBM-PS-02-Voltage pre-scaler 1:5 (adapting the SBM-02 to input voltage 27-175Vdc)

Connection kit, type SBM-CAB-20, including 20 m of twisted pair cable (3x2x0.5 mm2) and 2 fuseholders

Communication kit, type SBM-COM, including RS232 interface box, 1.8 m of 9p DSUB serial cable and a software

Communication kit, type SBM-COM-USB, including USB interface box, 1.8 m of USB cable and software.

Temperature kit, type SBM ;-TEMP-20, with 20 m cable

Shunt 1200 A/50 mV, type SH-1200-50

Data may change without any notice.

38

Data may change without any notice.

39

London

Brussels

Francfort

Paris

Lyon

Geneva

Sion

Zurich

Milan

Barcelona

STUDER INNOTEC Ltd.

Rue des Casernes 57

1950 Sion - Switzerland

Tél : +41 (0) 27 205 60 80

Fax : +41 (0) 27 205 60 88 [email protected]

www.studer-innotec.com

SWISS made power

Rome

Vienna

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