Studer Innotec SA
Xtender
User manual
V4.6.0
5
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 latter directly supplies the consumers,
and the Xtender works like a battery charger and backup device if necessary. The powerful battery
charger has an exceptionally high efficiency and a power factor correction (PFC) close to 1. It
guarantees excellent battery charging in all situations. The charge profile is freely configurable
according to the type of battery used or the method of usage. The charge voltage is corrected
depending on the temperature, thanks to the optional external sensor. The power of the charger is
modulated in real time dependent according to the demand of the equipment connected at the
Xtender output and the power of the energy source (network or generator). It can even temporarily
backup the source if the consumer demand exceeds the source capacity.
The Xtender continuously monitors the source to which it is connected (network or generator) and
disconnects itself immediately if the source is missing, disturbed or does not correspond to the quality
criteria (voltage, frequency, etc.). It will then function in independent mode, thanks to the integrated
inverter. This inverter, which has an extremely robust design, benefits from Studer Innotec’s many
years of experience and expertise in this area. It could supply any type of load without faults, enjoying
reserves of additional power that is unmatched in the market. All your equipment will be perfectly
provided with energy and protected from power outages in systems where energy supply is
unpredictable (unreliable network) or voluntarily limited or interrupted, such as hybrid installations on
remote sites or mobile installations.
The parallel and/or three-phase network operation of the Xtender offers modularity and flexibility and
enables optimum adaptation of your system to your energy requirements.
The RCC-02/-03 control, display and programming centre (optional) enables optimum configuration
of the system and guarantees the operator continuous control for all important parameters in the
installation.
In order to guarantee flawless commissioning and functioning of your installation, please read this
manual carefully. It contains all the necessary information relating to the functioning of the
inverters/chargers in the Xtender series. The setting up of such a system requires special expertise and
may only be carried out by qualified personnel familiar with the applicable local regulations.
2
GENERAL INFORMATION
2.1
O
PERATING INSTRUCTIONS
This manual is an integral part of each inverter/charger from the Xtender series.
It covers the following models and accessories
1
:
Inverter/charger:
XTH 3000-12 – XTH 5000-24 – XTH 6000-48 – XTH 8000-48
XTM 1500-12, XTM 2000-12, XTM 2400-24,
XTM 3500-24, XTM 2600-48, XTM 4000-48
XTS 900-12, XTS 1200-24, XTS 1400-48
External cooling fan: ECF-01
Temperature sensor: BTS-01
Remote command module: RCM-10
Auxiliary relay module: ARM-02
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.
These operating instructions serve as a guideline for the safe and efficient usage of the Xtender.
Anyone who installs or uses an Xtender can rely completely on these operating instructions, and is
bound to observe all the safety instructions and indications contained. The installation and
commissioning of the Xtender must be entrusted to a qualified professional. The installation and
usage must conform to the local safety instructions and applicable standards in the country
concerned.
1
Also for 120Vac model (-01)