Studer RCC-02 User Manual
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Studer RCC-02 User Manual

Remote control and programming unit
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Remote control and programming unit
RCC-02 and RCC-03 for the Xtender
User manual
Studer Innotec SA
2014 – V4.4.0
4O9C

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Summary of Contents for Studer RCC-02

  • Page 1 Remote control and programming unit RCC-02 and RCC-03 for the Xtender User manual Studer Innotec SA 2014 – V4.4.0 4O9C...
  • Page 3 This document applies to versions of firmware release R542 or higher of the remote control. If any doubt about your software version, you can check it with the menu « Information on the system » page 76. Copyright © Studer Innotec SA. All rights reserved...

  • Page 5: Table Of Contents

    Foreword ..............................5 Conventions ............................. 5 Product recycling ........................... 5 EC Declaration of conformity ....................... 6 Studer Innotec contact details ......................6 Your reseller’ contact details ........................ 6 Warnings and caution ..........................7 Warranty ..............................7 Limitation of responsability ........................7 Safety instructions ...........................
  • Page 6 Studer Innotec SA RCC-02/-03 10.8.5 Advanced backup functions {5069} ..................24 10.9 Adjusting the contrast ........................25 10.10 Back-lighting {5007} .......................... 25 10.10.1 Backlight modes {5093} ......................25 10.10.2 Duration of the back-lighting {5009} ..................25 10.10.3 Red back-lighting if the Xtender is OFF and if there is a fault {5026} ....... 25 10.11...
  • Page 7 Studer Innotec SA RCC-02/-03 14.7.7 Standby level {1187} ........................41 14.7.8 Restore default configurations {1395} ..................41 14.7.9 INSTALLER - Restore factory settings {1287} ................41 14.8 Management and battery cycle {1137} ..................42 14.8.1 Authorized charger {1125} ......................45 14.8.2...
  • Page 8 Studer Innotec SA RCC-02/-03 14.11.7 Contacts activated by inverter power or Smart-Boost {1257} {1366} ......65 14.11.8 INSTALLER - Contacts activated according to the battery temperature {1503} {1504} ................................. 65 14.11.9 Contacts activated on battery state of charge (SOC) {1501} {1502} (function active only with a BSP) ..........................

  • Page 9: Foreword

    Terminology: The following terms are used in the manual to provide greater clarity: RCC is used to indicate the remote control RCC-02 or RCC-03 if the description applies to both models. Installation is used to describe all the electrical equipment connected together. This may be the source (public grid or generator), and one or more Xtender(s) with or without remote control as well as electrical consumers.

  • Page 10: Ec Declaration Of Conformity

    Studer Innotec SA RCC-02/-03 EC D ECLARATION OF CONFORMITY The remote control, RCC-02/-03, described in this manual complies with the following standards: EN 60950:2006, EN 61000-6-1:2007, EN 61000-6-3:2007 CH – 1950 Sion, September 2014 Studer Innotec (R. Studer) TUDER NNOTEC CONTACT DETAILS...

  • Page 11: Warnings And Caution

    The use of Studer Innotec devices is the responsibility of the customer in all cases. This equipment is neither designed nor guaranteed to supply installations used for vital medical care nor any other critical installation carrying significant potential damage risks to people or the environment.

  • Page 12: Compatibility

    CCESS CODE FOR EXTENDED FUNCTIONS In order to use the RCC-02, RCC-03 remote control in extended mode, you must have installer or QSP (Qualified Service Partner) level authorisation from Studer Innotec. After your accreditation you will receive a code number which will allow you to access these functions. This code number is exclusively valid for devices manufactured during the current year or older;...

  • Page 13: Introduction

    Studer Innotec SA RCC-02/-03 INTRODUCTION Congratulations! The purchase of an RCC remote control offers you unlimited access to the various functions of the devices in the Xtender series. Numerous configurations that can now be accessed allow you to optimize the operation of the installation. Despite all these options, the Xtender works on a simple basis.

  • Page 14: Sd Card

    Studer Innotec SA RCC-02/-03 CARD The RCC remote control is equipped with an SD (Secure Digital)-type memory card reader. This card (supplied) is used for various functions described in this manual. It allows, amongst others, the following functions: recording statistics, updates, backups or restoration of configurations or adjustments.

  • Page 15: Connection

    RCC-02/-03 CONNECTION The RCC-02 remote control must be firmly fastened using 3 screws on a flat support. The remote control RCC-03 is meant to be integrated. It must be mounted by means of 4 screws (not supplied) on a flat place without any mechanical constraints to the front plate. Once the RCC remote control is fastened it can be connected to the inverter using the authorized cable only.

  • Page 16: Xtender Xth

    Studer Innotec SA RCC-02/-03 4.1.1 RCC-02 RCC-02 termination activated (position T) RCC-02 termination deactivated (position O) 4.1.2 RCC-03 RCC-03 termination activated RCC-03 termination deactivated (left position) (right position) 4.1.3 Xtender XTH To activate the termination on the Xtender, move the two mini-switches to position T, and to deactivate it, move them downwards to position O.

  • Page 17: Xtender Xts

    Studer Innotec SA RCC-02/-03 4.1.5 Xtender XTS XTS termination activated (position T) XTS termination deactivated (position O) 4.1.6 VarioString VarioString termination activated (left position) VarioString termination deactivated (right position) 4.1.7 VarioTrack VarioTrack termination activated (position T) VarioTrack termination deactivated (position O) 4.1.8...

  • Page 18: Xcom-232I

    Studer Innotec SA RCC-02/-03 4.1.9 Xcom-232i Xcom-232i termination activated (position T) Xcom-232i termination deactivated (position O) User manual V4.4.0...

  • Page 19: Dimensions

    Studer Innotec SA RCC-02/-03 DIMENSIONS RCC-02 RCC-03 User manual V4.4.0...

  • Page 20: Quick Start Guide

    Studer Innotec SA RCC-02/-03 QUICK START GUIDE The remote control RCC gives you access to a many settings possibilities. However, in most cases the setting of two parameters only is required for the perfect running of your installation. ETTING OF THE LANGUAGE To begin, set your remote control RCC for a display of the information in English.

  • Page 21: Adaptation To The Battery

    Studer Innotec SA RCC-02/-03 You can now adapt your installation to the source which it is connected to. Max. current of the AC source (Input limit) {1107}. When an asterisk (*) is present, it informs you that the selected value corresponds to the one set in factory by default (factory setting).

  • Page 22: Activation Of The Function Smart-Boost

    Studer Innotec SA RCC-02/-03 You are now going to set the charge current for the batteries: Press the key SET to modify the value of this parameter (it appears in reverse video). With the keys “arrow upwards” and “arrow downwards” change the value to adapt your battery and validate your setting with the key SET (OK).

  • Page 23: Basic Displays

    Studer Innotec SA RCC-02/-03 BASIC DISPLAYS When the remote control is connected to an Xtender, it is possible to access to different display menus divided into distinct categories. Information on the system The history of events occurring in the installation...

  • Page 24: Activating And Deactivating The Combi Xtender

    Studer Innotec SA RCC-02/-03 The settings of the VarioString (Only if a VarioString MPPT is present) To go from one display to the other, use the keys UP and DOWN on the RCC remote control. To visualize or modify the options of one of the basic displays, press the key SET when this one is displayed.

  • Page 25: Setting Of The Rcc Remote Control

    The default available languages in the remote control are: English, French, German and Spanish. It is possible to change the languages memorized in the remote control. For this you must use a SD card with the latest update available on our website (www.studer-innotec.com/support). Ask your reseller to know what languages are available.

  • Page 26: Setting Of Time {5001} And Date {5002

    Studer Innotec SA RCC-02/-03 10.3 {5001} {5002} ETTING OF TIME AND DATE The Xtender has a perpetual calendar and an internal clock powered by a backup battery. The correct adjustment of the date and time allows accurate recording of events occurring in the installation as well as correct use of time-related functions, e.g.

  • Page 27: Data Logger {5057

    Studer Innotec SA RCC-02/-03 10.7 {5057} ATA LOGGER 10.7.1 Data logger enabled {5101} Activates the data logger. There are three possible values: Automatic /Yes /No. In automatic mode the data logger is activated on all RCC, Xcom-LAN and Xcom-GSM. Every day at midnight a CSV file is created on the SD card in the directory CSVFILES, in the subfile LOG.

  • Page 28: Apply Configuration Files (Master File) {5070

    "automatic" mode (which will select automatically the separator according to the language set on the RCC-02/-03), a comma (,) or a semicolon (;). For systems in French/German/Italian it is the semicolon (;) that is normally used, while for systems in English/Chinese, it is the comma (,).

  • Page 29: Adjusting The Contrast

    Studer Innotec SA RCC-02/-03 10.8.5.3.4 Loading an Xtender master file {5034} If your installer provides you with a file of parameters for your installation, you can load it by means of this menu. Insert the SD card and launch the loading by pressing the key SET. Caution, the various operations carried out by this process take some minutes.

  • Page 30: Duration Of Display For Quick Messages {5011

    Studer Innotec SA RCC-02/-03 10.11.3 Duration of display for quick messages {5011} Messages of low importance are displayed for a limited period. This adjustment enables you to adapt this duration at your convenience. 10.11.4 Acoustic alarm {5027} In the event of an alarm an acoustic signal is activated. You can always deactivate this signal by using this configuration.

  • Page 31: Information On The Operating Mode Of The Installation

    Studer Innotec SA RCC-02/-03 INFORMATION ON THE OPERATING MODE OF THE INSTALLATION There are two different views for displaying information on the system: a simplified and a configurable display. When one of these two displays is visible, it is possible to activate or deactivate the system.
  • Page 32 Studer Innotec SA RCC-02/-03 The following information is available: With regard to the grid input AC-In input voltage AC-In input current AC-In input power Input frequency The value of the source max current (Input limit) Energy from AC-In of the previous day...

  • Page 33: Display Of The Parallel And Three-Phase Systems

    Studer Innotec SA RCC-02/-03 11.1 ISPLAY OF THE PARALLEL AND THREE PHASE SYSTEMS While using several Xtenders in parallel or in three-phase, an additional view is available. This view summarizes the various electrical values of the system. Like for the display of a system with one single Xtender, you can access to the displayed values in order to modify them.

  • Page 34: Messages And Account Of Events

    Studer Innotec SA RCC-02/-03 MESSAGES AND ACCOUNT OF EVENTS This screen allows you to view the various events that have occurred in the installation. The events that occur in your installation are displayed on the remote control screen. The events are classified within two categories: ...

  • Page 35: 004) Input Frequency Ac-In Wrong

    Studer Innotec SA RCC-02/-03 12.3 (004) I AC-I NPUT FREQUENCY N WRONG The voltage at AC-In does not have a frequency included in the admissible range for the Xtender. Solution: When operating on a generator, check its speed. If you are not equiped to measure the generator frequency, measure its voltage with no load.

  • Page 36: Halted: Inverter Overload Bl

    Studer Innotec SA RCC-02/-03 12.8 (015) H ALTED NVERTER OVERLOAD The users need more power than the Xtender inverter can supply. Method:  adapt the power max. of the users to the power max. of the Xtender. 12.9 (016) W...

  • Page 37: 022) Error: Voltage Presence On Ac-Out

    Studer Innotec SA RCC-02/-03 12.14 (022) E AC-O RROR OLTAGE PRESENCE ON An unwanted voltage is present at AC-Out. Solution:  check that you have not reversed the cabling of AC input and output.  no source must be connected to the Xtender output (AC-Out).

  • Page 38: Warning: Time Security For Auxiliary Contacts

    Studer Innotec SA RCC-02/-03 12.21 (060) (061) W ARNING IME SECURITY FOR AUXILIARY CONTACTS The maximum duration that you have selected for the relay activation with the parameter {1514}, {1515} is reached and the activation conditions are still present. The contact will not be reactivated as long as the conditions are present.

  • Page 39: Data Logging

    XTENDER D NALYSIS AND VISUALIZATION OF THE DATA WITH THE NALYSIS Attached to this function, Studer Innotec offers free of charge an analysis tool in the form of a file type Microsoft Excel 2007 which allows reading specifically the CSV files generated by the remote ®...

  • Page 40: Setting Of The Xtender

    Use these adjustment options with care and only with due specialist knowledge. Changing configurations is not the responsibility of Studer Innotec. Please refer to the chapter on limitation of responsibility for more information on this topic.

  • Page 41: Access To The Parameters

    Studer Innotec SA RCC-02/-03 14.5 CCESS TO THE PARAMETERS You can access to the parameters by two different ways:  By its reference number;  Via the thematic menu. 14.5.1 Access to a parameter by its number Each Xtender parameter is directly accessible by its unique reference number. This function can be used in order to change the value of a parameter or to consult its set value.

  • Page 42: Installer - Utilisation And Access Levels

    Studer Innotec SA RCC-02/-03 14.6 INSTALLER - U TILISATION AND ACCESS LEVELS The configurations of the Xtender are defined by the following elements:  The minimum  The value  The maximum  The user level necessary to access it When in client mode (Basic or Expert), the remote control gives access to the different configuration values.

  • Page 43: Maximum Current Of The Ac Source (Input Limit) {1107

    Studer Innotec SA RCC-02/-03 14.7.2 Maximum current of the AC source (Input limit) {1107} Adjust this configuration event connection to a limited power source, for example, a generator of moderate power output dock camping connection. adjustment of this value limits the instantaneous power consumed from the source in charger mode.

  • Page 44: Smart Boost Authorized {1126

    Studer Innotec SA RCC-02/-03 14.7.4 Smart boost authorized {1126} The function Smart-Boost enables to add power from the batteries to the one supplied by source connected to the AC-In when the user load is higher than that, set by the parameter {1107}, as a maximum input.

  • Page 45: Standby Level {1187

    Studer Innotec SA RCC-02/-03 14.7.7 Standby level {1187} The standby function allows energy to be saved if there is no consumer present at the inverter output. In this case, the inverter disconnects its output and periodically emits a load search pulse. If a consumer is detected, it goes back into operational mode while measuring the power supplied and returns to standby if the consumer is deactivated.

  • Page 46: Management And Battery Cycle {1137

    Studer Innotec SA RCC-02/-03 14.8 {1137} ANAGEMENT AND BATTERY CYCLE These configurations are intended to adjust the battery charge cycle to the data supplied by its manufacturer. The basic battery cycle is described in the Xtender manual. Caution: the Xtender charger is only meant to charge lead batteries.
  • Page 47 Studer Innotec SA RCC-02/-03 The battery cycle fits a large number of batteries by default, irrespective of whether they are gel batteries or not. User manual V4.4.0...
  • Page 48 Studer Innotec SA RCC-02/-03 User manual V4.4.0...

  • Page 49: Authorized Charger {1125

    Studer Innotec SA RCC-02/-03 14.8.1 Authorized charger {1125} The battery charger function is either activated or not. If this function is not authorized, it is necessary to charge the batteries using a source of energy not connected to the Xtender.
  • Page 50 Studer Innotec SA RCC-02/-03 The battery undervoltage level is automatically adapted to the instantaneous power of the consumers to compensate for internal losses in the battery and cables. 14.8.4.2 Dynamic compensation of the batteries undervoltage {1531} 14.8.4.2.1 Dynamic battery undervoltage compensation {1191} This setting allows you to activate (or not) the dynamic battery undervoltage compensation.

  • Page 51: Maximum Operating Voltage {1121

    Studer Innotec SA RCC-02/-03 14.8.4.7 Reset voltage of the adaptable correction {1307} The battery undervoltage threshold returns to its original value if the battery reaches the voltage determined by this threshold. 14.8.4.8 Increment of the adaptative correction {1298} At each shut down by undervoltage, the shut down threshold is increased by this value.

  • Page 52: Absorption Phase {1451

    Studer Innotec SA RCC-02/-03 14.8.9.2 New priority cycle on the absorption and equalization phases {1149} Activate this configuration to accept or interrupt the absorption and equalization phases to start a new cycle. In the opposite case, even if the conditions are fulfilled for starting a new charge cycle, the battery charging proceeds normally by following the programmed phases.

  • Page 53: Equalization Phase {1452

    Studer Innotec SA RCC-02/-03 14.8.10.4 Completion of absorption released by the current {1158} The absorption phase may be interrupted if the battery charge current automatically passes below a certain threshold. This may be used in order to limit the duration of the operation of a generator while there is an acceptable battery charge.
  • Page 54 Studer Innotec SA RCC-02/-03 14.8.11.3 Equalization before absorption phase {1291} This configuration determines in the charge cycle, in which equalization will be activated, if the equalization is carried out after or before the absorption phase. The equalization phase is carried out before the absorption phase by default.

  • Page 55: Reduced Floating Phase {1453

    Studer Innotec SA RCC-02/-03 14.8.11.10 End of equalization activated by the current {1168} The equalization phase can be interrupted if the charge current of the battery goes under a certain threshold. This can be used to limit the operating period of a genset while keeping an acceptable battery charge.

  • Page 56: Inverter {1186

    Studer Innotec SA RCC-02/-03 14.8.13.1 Authorized periodic absorption {1173} Allows you to authorize the periodic absorption phase. 14.8.13.2 Periodic absorption voltage {1174} Allows you to fix the battery voltage for the periodic absorption phase. 14.8.13.3 Duration of reduced floating before periodic absorption {1175} The periodic absorption phase begins after the reduced floating phase.

  • Page 57: Increase Of The Linear Ac-Out Voltage With The Battery Voltage {1548

    Studer Innotec SA RCC-02/-03 14.9.3 Increase of the linear AC-Out voltage with the battery voltage {1548} This parameter enables you to set that the output voltage is influenced by the batteries voltage. The function depends on the batteries charge cycle and uses the reference voltage of the running cycle.

  • Page 58: Frequency Increase With The Battery Voltage {1549

    Studer Innotec SA RCC-02/-03 If you use this parameter with parameter {1549}, you will have the two corrections stacked over one another. The main application of this parameter is the automatic control of a grid inverter connected to the Xtender output.

  • Page 59: Speed Of The Change Output Voltage/Frequency According To The Battery Voltage {1534

    Studer Innotec SA RCC-02/-03 14.9.9 Speed of the change output voltage/frequency according to the battery voltage {1534} This parameter allows to modify the speed of the change of the frequency (df/dt) activated by {1549} and of the output voltage activated by {1548}. This is to best match the various brands of grid inverters when it comes to AC-coupling.

  • Page 60: Solsafe Presence, Energy Source At Ac-Out Side {1438

    Studer Innotec SA RCC-02/-03 14.9.10.4 Duration of Softstart {1599} Once the inverter is switched on the output voltage is progressively raised. This parameter sets the duration that is necessary to reach the nominal voltage. 14.9.11 Solsafe presence, energy source at AC-Out side {1438} This parameter allows the connection on the AC-Out side of an inverter for grid feeding.

  • Page 61: Maximum Current Of The Ac Source (Input Limit) {1107

    Studer Innotec SA RCC-02/-03 14.10.5 Maximum current of the AC source (Input limit) {1107} Adjust this configuration event connection to a limited power source, for example, a generator of moderate power output dock camping connection. adjustment of this value limits the instantaneous power consumed from the source in charger mode.

  • Page 62: Authorization To Exceeding The Maximum Current Of The Source (Input Limit) Without Interrupting The Transfer {1436

    Studer Innotec SA RCC-02/-03 14.10.6.4 AC-In minimum voltage to decrease the input current {1309} This parameter sets the voltage threshold where the input maximum current is lowered down to zero when the parameter {1527} is activated. 14.10.6.5 Input voltage range for adjusting the input current {1433} This parameter allows setting the input voltage range where the input current adjustment will be applied.

  • Page 63: Sensitiveness Of The Detection « Tolerating » Of Grid Loss (Ac-In) {1510

    Studer Innotec SA RCC-02/-03 14.10.9 Sensitiveness of the detection « tolerating » of grid loss (AC-In) {1510} With this parameter it is possible to set the sensitivity to detecting microcuts at the Xtender input (AC- In). A sensitivity of 60 indicates that the transfer opens by a cut equal or higher than 5ms, whereas a setting on 1 will lead the transfer to open from a cut of 80us.

  • Page 64: Ac-In Current Active Filtering {1575

    Studer Innotec SA RCC-02/-03 14.10.17 AC-In current active filtering {1575} When this parameter is activated, the current taken on AC-Input is a sinusoid in phase with voltage. That mean only active power is taken from the generator. The inverter compensates harmonics and reactive current from the source.

  • Page 65: Switching Mode {1202} {1311

    Studer Innotec SA RCC-02/-03 14.11.1 Switching mode {1202} {1311} The auxiliary contacts may be controlled in 4 different ways: Manual ON: In this mode, the contact is permanently drawn whatever the external conditions or programming Manual OFF: In this mode, the contact is permanently released whatever the external conditions or...

  • Page 66: Contacts Activated With Set Schedules {1269} {1378

    Studer Innotec SA RCC-02/-03 Once the days are selected, it is necessary to adjust the time frame where the restriction is active using the “starting time” and “finishing time” configurations. If the finishing time is programmed before the starting time, the restriction time frame is not taken into account. Below are the configurations...
  • Page 67 Studer Innotec SA RCC-02/-03 14.11.5.1 Xtender OFF {1225} {1333} The contact is activated if the Xtender inverter/charger is switched off, either following a fault or manually. 14.11.5.2 Xtender ON {1518} {1519} The auxiliary contact is activated if the Xtender inverter/charger is switched on.

  • Page 68: Contacts Activated By The Battery Voltage {1245} {1353

    Studer Innotec SA RCC-02/-03 14.11.5.13 AC-In present {1235} {1343} Activates the auxiliary contact if a voltage is present at the AC-In input. This condition is independent of the state of the transfer relay. 14.11.5.14 Transfer relay drawn {1236} {1344} Activates the auxiliary contact if the transfer relay is drawn.

  • Page 69: Contacts Activated By Inverter Power Or Smart-Boost {1257} {1366

    Studer Innotec SA RCC-02/-03  Voltage for deactivation of the auxiliary contact {1255} {1364}  Duration over battery voltage for deactivation {1256} {1365}  Deactivate if the battery is in floating mode {1516} {1517} 14.11.6.1 Dynamic compensation of the thresholds {1288} {1354} If the contacts are activated according to the battery voltage, you can use the voltage dynamically compensated for each threshold.

  • Page 70: Contacts Activated On Battery State Of Charge (Soc) {1501} {1502} (Function Active Only With A Bsp)

    Studer Innotec SA RCC-02/-03 14.11.9 Contacts activated on battery state of charge (SOC) {1501} {1502} (function active only with a BSP) You can activate the auxiliary contacts according to the battery state of charge. If the battery state of charge goes below a given threshold, the contact will be activated. A duration can be linked to the threshold, which means that the battery state of charge must be below this threshold within the choosen duration, before the contact is activated.

  • Page 71: Auxiliary Contacts 1 And 2 Extended Functions {1489

    Studer Innotec SA RCC-02/-03 14.12 A {1489} UXILIARY CONTACTS EXTENDED FUNCTIONS 14.12.1 Generator startup The two contacts may be combined in order to automatically start up a generator equiped with an electric starter. In this case the two contacts are dedicated to this function.

  • Page 72: System {1101

    Studer Innotec SA RCC-02/-03 14.13 S {1101} YSTEM 14.13.1 Command entry {1537} The following parameters allow to customize the command entry. 14.13.1.1 Command entry active {1545} This parameter allows you to determine if the command entry is activated closed or open.

  • Page 73: Battery As Priority Energy Source {1296

    Studer Innotec SA RCC-02/-03 14.13.1.11 Activated by the state AUX1 {1578} This parameter enables to put the auxiliary contact status back on the command entry. It is then possible, without cable, to use the auxiliary contact conditions to activate the command entry.

  • Page 74: Automatic Restart {1129

    Studer Innotec SA RCC-02/-03 14.13.5 Automatic restart {1129} In the event of an anomaly on the installation, the combi Xtender stops automatically. Depending on the seriousness of the fault, when this disappears, the Xtender may restart automatically without any user intervention (fault confirmation). The following functions allow the events for automatic restart to be defined.

  • Page 75: Ground/Neutral System {1484

    Studer Innotec SA RCC-02/-03 14.13.5.4 Auto-start when switched on {1111} When this setting is activated, the Xtender starts itself automatically when the battery is connected. Note that in this case, the output of the AC-Out is immediately supplied, and a lethal voltage is present on its terminals.

  • Page 76: 3-Phase Integral Mode {1283

    14.14.8 INSTALLER – Minigrid with battery energy sharing {1577} In a minigrid system, this parameter authorizes or not the inverter to share its energy with the rest of the system. For more information on minigrids, contact us on info@studer-innotec.com. User manual...

  • Page 77: Grid-Feeding {1522

    Studer Innotec SA RCC-02/-03 14.15 G {1522} FEEDING It is possible under some conditions to feed the grid with energy (AC-In). The following options allow you to control the different parameters involved. 14.15.1 Grid-feeding authorized {1127} This parameter allows to authorize or not the grid-feeding. By default setting the grid-feeding is not authorized.

  • Page 78: Forced Grid-Feeding {1524} {1525} {1526

    Studer Innotec SA RCC-02/-03 INSTALLER Whatever the setting of this parameter, the maximum current of the source is respected {1107} (Input limit). Be careful with grid-feeding function. You must among others respect the rules in force prescribed by your utility.

  • Page 79: Installer - Cos Phi At P=0% {1622

    Studer Innotec SA RCC-02/-03 14.15.5 INSTALLER - Cos phi at P=0% {1622} This parameter determines the phase of the current at minimal grid-feeding power (point to the far left on the curve). You can choose an inductive cos phi down to 0.9, a capacitive cos phi of up til 0.9 or a neutral cos phi of 1.

  • Page 80: Information On The System

    Studer Innotec SA RCC-02/-03 INFORMATION ON THE SYSTEM The system information allows you to check the versions of the various elements of your installation. 15.1 EMOTE CONTROLS You will receive information on the hardware and software versions for each remote control.

  • Page 81: Software(S) Updating

    For the remote control RCC itself it is also possible to integrate new display languages (max. 4 in each RCC). To know more about the updating or additional langagues availability, contact your installer or go to www.studer-innotec.com/support. 16.1 PDATING PROCESS Before inserting the SD card to carry out an updating, it is better to switch off all Xtenders (off).

  • Page 82: Application Examples

    Studer Innotec SA RCC-02/-03 APPLICATION EXAMPLES The examples below illustrate some implementation options for current installations. Useful configurations for these situations are also given. These are common and non-obligatory configurations. For more details on each configuration shown, please refer to the complete description given above in this manual.

  • Page 83: Use To Increase The Power On An Existing Installation

    Studer Innotec SA RCC-02/-03 17.3 SE TO INCREASE THE POWER ON AN EXISTING INSTALLATION Description: The availability of an inverter or an inverter/charger allows its power to be extended with an Xtender connected in cascade. The maximum power of the first inverter is limited by the maximum current from the transfer relay of the Xtender.

  • Page 84: Appendices

    Studer Innotec SA RCC-02/-03 APPENDICES 18.1 1: L PPENDIX IST OF CONFIGURATION INTERDEPENDENCIES N° Configuration N° Minimum limit by N° Maximum limit by Reactivation voltage Undervoltage of the Undervoltage of the {1108} {1109} {1110} after battery empty battery charged battery...

  • Page 85: Parameter Tables

    Studer Innotec SA RCC-02/-03 PARAMETER TABLES 19.1 EMOTE CONTROL PARAMETERS User Modi. Level Parameter Unit ref. Factory Factory Factory Basic 5000 Language English Expert 5036 OTHER LANGUAGES Basic 5038 Choice of the second language Text French French French Basic 5039...
  • Page 86 Studer Innotec SA RCC-02/-03 User Modi. Level Parameter Unit ref. Factory Factory Factory Expert 5045 Load Xtender parameters preset Choose Expert 5051 Save and restore BSP files Expert 5052 Save BSP parameters Expert 5053 Load BSP parameters Inst. 5054 Create BSP configuration file (masterfile)

  • Page 87: Inverter Parameters

    Studer Innotec SA RCC-02/-03 User Modi. Level Parameter Unit ref. Factory Factory Factory Expert 5094 SCOM Expert 5105 Test of the modem's GPRS signal level Inst. 5119 Device identification (LEDs) with the SCOM address Inst. 5095 SCOM watchdog enable No/Yes 19.2...
  • Page 88 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1298 Increment step of the adaptive low voltage Expert 1121 Battery overvoltage level 18.6 34.1 37.2 68.2 37.9 74.4 Expert 1122 Restart voltage level after an battery overvoltage Vdc 16.2...
  • Page 89 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1171 Floating duration before reduced floating days Expert 1172 Reduced floating voltage 13.2 26.4 52.8 37.9 Expert 1454 Periodic absorption phase Expert 1173 Periodic absorption allowed...
  • Page 90 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Decrease of the max. current of the source Expert 1554 with input voltage activated by command No/Yes entry AC input low limit voltage to allow charger...
  • Page 91 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Every Every Every Expert 1209 Day of the week (AUX 1) days None None None None None None Expert 1210 Start hour (AUX 1) hh:mm...
  • Page 92 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1227 Battery overvoltage (AUX 1) No/Yes Expert 1228 Inverter or Smart- Boost overload (AUX 1) No/Yes Expert 1229 Overtemperature (AUX 1) No/Yes Expert 1520...
  • Page 93 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1262 Power level 2 (AUX 1) % Pnom Expert 1263 Time delay 2 (AUX 1) Expert 1264 Inverter power level 3 activate (AUX 1)
  • Page 94 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Every Every Every Expert 1314 Day of the week (AUX 2) days None None None None None None Expert 1315 Start hour (AUX 2) hh:mm...
  • Page 95 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1333 Xtender is OFF (AUX 2) No/Yes Expert 1519 Xtender ON (AUX 2) No/Yes Expert 1544 Remote entry (AUX 2) No/Yes Expert 1334 Battery undervoltage alarm (AUX 2)
  • Page 96 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1367 Inverter power level 1 activate (AUX 2) No/Yes Expert 1368 Power level 1 (AUX 2) % Pnom Expert 1369 Time delay 1 (AUX 2)
  • Page 97 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1493 Number of starting attempts Expert 1492 Starter pulse duration (with AUX2) Expert 1494 Time before a starter pulse Expert 1574 Main contact hold/interrupt time...
  • Page 98 Studer Innotec SA RCC-02/-03 Mod. User Level Parameter Unit value ref. Factory Factory Factory Min Expert 1484 System earthing (Earth - Neutral) Expert 1485 Prohibited ground relay No/Yes Expert 1486 Continuous neutral No/Yes Inst. 1628 Xtender watchdog enable No/Yes Inst.

  • Page 99: Parameter Index {Xxxx

    Studer Innotec SA RCC-02/-03 PARAMETER INDEX {XXXX} {1100} ........38 {1173} ........52 {1240} ........64 {1101} ........68 {1174} ....... 51, 52, 80 {1242} ........64 {1107}17, 18, 20, 31, 32, 39, {1175} ......51, 52 {1243} ........64 40, 45, 56, 57, 58, 73, 74, 78, {1176} ......
  • Page 100 Studer Innotec SA RCC-02/-03 {1298} ........47 {1365} ........65 {1484} ........71 {1304} ........70 {1366} ........65 {1485} ........71 {1305} ........70 {1367} ........65 {1486} ........71 {1307} ........47 {1368} ........65 {1489} ........67 {1309} ......
  • Page 101 Studer Innotec SA RCC-02/-03 {1559} ........60 {1594} ........66 {5026} ........25 {1560} ........53 {1595} ........66 {5027} ........26 {1565} ........69 {1596} ........66 {5030} ........24 {1566} ......57, 68 {1597} ........66 {5031} ........26 {1567} ......
  • Page 102 Studer Innotec SA RCC-02/-03 User manual V4.4.0...
  • Page 104 Studer Innotec SA Rue des Casernes 57 1950 Sion – Switzerland Tél : +41(0) 27 205 60 80 Fax : +41(0) 27 205 60 88 info@studer-innotec.com www.studer-innotec.com...

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