Studer Innotec RCC-03, RCC-02 user manual Maximum current of the AC source power sharing

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Studer Innotec

 

Stop Inverter overvoltage

25

Stop Overtemperature

25

Stop Excessive battery voltage ripple

25

Message Power sharing exceeded; transfer prohibited

26

Error Voltage at AC Out

26

Error Phase not defined

26

Stored events

26

Adjustment of the combi Xtender

27

General

27

Configuration on a system with several Xtenders

27

Utilisation and access levels

27

Pre-defined functions of the auxiliary relays

27

Menu

27

Basic configurations {1100}

28

Maximum current of the AC source (power sharing) {1107}

28

Locking {1123}

28

Authorised inverter {1124}

28

Authorised charger {1125}

29

Smart boost authorised {1126}

29

Authorised transfer {1128}

29

Automatic restart {1129}

29

Number of battery under-voltages allowed before final stop {1304} and

29

Leadtime to counting the battery under-voltages allowed before final stop {1404}

29

Number of critical battery under-voltages before final stop {1305} and

30

Leadtime to counting the critical battery under-voltages allowed before final stop {1405}

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30

Restore default configurations {1395}

30

Battery cycle and charger {1137}

30

Charge current {1138}

33

Temperature correction coefficient {1139}

33

Battery maintenance voltage (floating) {1140}

33

Force passage to floating mode {1467}

33

New cycle {1141}

33

Force new cycle {1142}

33

Voltage 1 for a new cycle {1143} and Duration at undervoltage 1 for a new cycle {1144}

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33

Voltage 2 for a new cycle {1145} and Duration at undervoltage 2 for a new cycle {1146}

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33

New priority cycle on the absorption and equalization phases {1149}

33

Absorption phase {1451}

34

Authorised absorption {1155}

34

Absorption voltage {1156}

34

Duration of absorption {1157}

34

Completion of absorption released by the current {1158}

34

Current at end of absorption {1159}

34

Equalization phase {1452}

34

Start equalization {1162}

34

Authorised equalization {1163}

34

Equalization before absorption phase {1291}

35

Equalization current {1290}

35

Equalization voltage {1164}

35

Duration of equalization {1165}

35

Number of cycles prior to equalization {1166}

35

Equalization at set intervals {1284]

35

Weeks between equalizations {1285}

35

End of equalization activated by the current {1168}

36

End of equalization current {1169}

36

Inverter configurations {1186}

36

Standby level {1187}

36

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Contents Studer Innotec Rue des Casernes CH 1950 Sion Studer Innotec Table of contents Maximum current of the AC source power sharing RCC Studer Innotec Conventions ForewordProduct Recycling Studer Innotec Contact Details Your RESELLER’ Contact DetailsWarranty Safety InstructionsAcceptance of the Software Licence and Updates Limitation of ResponsabilityStuder Innotec Controls and Indicators IntroductionModels Concerned SD CardConnection Series ConnectionDimensions RCC-02 RCC-03Quick Start Guide Adjustment of the LanguageAdaptation to the Source Adaptation to the Batterie Activation of the Function SMART-BOOST Basic Displays Activating and Deactivating the Combi Xtender Adjustment of the RCC Remote Control Adjustment of Date 5002 and TimeAdjustment of the Contrast Adjustment of the BACK-LIGHTINGBackup of statistics Duration of the back-lightingBackup of remote control configurations Backup of Xtender configurationsLoading the remote control configurations Loading the Xtender configurationsInformation on the Operating Mode of the Installation Display of the Parallel and THREE-PHASE Systems Alarm LOW Battery Voltage Stop Battery Voltage TOO LOWStop High Battery Voltage Event HistoryError Incorrect Input Frequency Error Input Voltage TOO HighError Input Voltage TOO LOW Stop OvertemperatureMessage Power Sharing Exceeded Transfer Prohibited Error Voltage AT AC OUTError Phase not Defined Stored EventsAdjustment of the Combi Xtender Basic configurations Maximum current of the AC source power sharingLocking Authorised inverterAutomatic restart Authorised chargerSmart boost authorised Authorised transferBattery cycle and charger Restore default configurationsRCC Studer Innotec Temperature correction coefficient Battery maintenance voltage floatingForce passage to floating mode Charge currentAbsorption phase Equalization phaseEqualization before absorption phase Equalization currentEqualization voltage Duration of equalizationInverter configurations Standby levelOutput voltage End of equalization activated by the currentCombi configurations Inverter-Charger Configurations for auxiliary contacts 1 and 2 1201 Combination of events mode 1497 Switching mode 1202Simple functions Battery undervoltage alarm 1226 Battery overvoltage 1227Temporal restrictions 1203 Contacts activated by an event 1455Contacts activated by the battery voltage 1245 Contacts activated by inverter power or smart boost 1257 Deactivate if the battery is in floating mode 1516Contacts activated with set schedules 1269 Dynamic compensation of the thresholds 1288Extended functions Phase integral modeMulti Xtender Information on the System Remote ControlsXtender Updating Process UpdatesCompatibility Application Examples USE of a Limited Power SourceGénéral USE INVERTER, Charger with Grid USE to Increase the Power on AN Existing Installation Load Shedding of the Second Priority LoadsAnnexe 1 List of Configuration Interdependencies AnnexesRCC Studer Innotec RCC

RCC-03, RCC-02 specifications

Studer Innotec, a renowned Swiss company in the field of power electronics, has made significant strides with its range of battery management systems, particularly the RCC-02 and RCC-03 models. These units are renowned for their cutting-edge technologies, impressive features, and superior performance in managing energy systems for both off-grid and hybrid applications.

The RCC-02 and RCC-03 Remote Control Displays provide end-users with an intuitive interface to monitor and control their energy systems seamlessly. With a clear and easy-to-read display, these units offer real-time data, allowing users to view essential information such as battery voltage, current, and state of charge. This vital information empowers users to make informed decisions regarding energy consumption and system management.

One of the standout features of the RCC-02 and RCC-03 models is their compatibility with a wide range of Studer Innotec products, including inverters and battery chargers. This versatility ensures seamless integration into existing systems, making it an ideal choice for both new installations and upgrades of existing systems.

Both models incorporate advanced communication technologies such as RS-232 and CAN-bus, allowing for easy data logging and system monitoring. This connectivity not only ensures that the user has access to real-time data but also enables remote monitoring and diagnostics, significantly enhancing the overall user experience.

Another characteristic that sets the RCC-02 and RCC-03 apart is their robust design. These units are engineered to withstand the harsh conditions often found in off-grid environments, ensuring reliability and durability over an extended lifespan. The thoughtful design also includes user-friendly controls, making it easy to configure settings and manage system parameters for a wide array of applications.

Energy efficiency is paramount in today's energy-conscious world, and the RCC-02 and RCC-03 are designed to optimize battery usage. By providing timely information about battery status and energy flow, these units assist users in maximizing the lifespan of their batteries and ensuring that their energy resources are used effectively.

In summary, Studer Innotec’s RCC-02 and RCC-03 Remote Control Displays are essential components for anyone looking to harness the power of reliable battery management systems. With their advanced technologies, user-friendly interfaces, and robust construction, they represent the cutting edge of energy management in both off-grid and hybrid applications. Whether for residential, commercial, or industrial use, these units deliver efficiency, reliability, and peace of mind to users.
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