CLIVET SINERGY CEC-S 5B User Manual

Explains the application of CEC-S 5B in different system types with schemes.

Describes three basic operating modes: Self Consumption, Battery Priority, and Peak Shift.

Emphasizes manual importance and outlines operator qualifications and familiarity.

Details importance of warning signs and their proper placement and maintenance.

Covers classification of hazardous chemicals and other hazards associated with Lithium Iron Phosphate batteries.

Highlights risks of electrocution, chemical burns, and physical injury.

Lists components included in CEC-S 5K, CEC-S B 5K, and CEC-S B 10K system packages.

Illustrates inverter and cable box views and identifies components with descriptions.

Lists conditions under which the manufacturer is not liable for product damage or property loss.

Provides general guidelines and restrictions for selecting an installation site and environment.

Details specific locations where the system must not be installed and protection measures.

Illustrates required minimum clearances around the SINERGY system.

Instructions for removing and placing the battery pack on its base.

Details assembling the battery mounting panel onto the battery.

Instructions for positioning the battery and drilling wall holes for mounting plates.

Important notes on RCD installation and compliance with standards.

Steps for securing the battery to the wall using screws and gaskets.

Instructions for assembling additional battery modules.

Instructions for installing the inverter.

Steps for hanging the inverter onto mounting panels and ensuring secure installation.

Instructions for making AC cables on site, including warnings and object details.

Details on assembling the AC connector plug shell and adapter.

Instructions for plugging the AC connector into the inverter and securing wiring.

Instructions for connecting AC wiring terminals and recommended breaker parameters.

Steps for connecting Backup and Grid cables to their respective board connectors.

Instructions for connecting BAT communication cable and inter-battery communication cables.

Connects battery power cables and final system connections.

Instructions for closing the lid and tightening the screw.

Covers CT connection procedure, pinout, wiring, and important notes.

Presents single line diagrams for DC, AC, and Hybrid-coupled systems.

Step-by-step guide for safely turning on the system.

Step-by-step guide for safely turning off the system.

Actions to take when the system operates abnormally and emergency handling steps.

Details on how to respond to exposure to leaked battery substances.

Specifies appropriate fire extinguishing media and provides fire-fighting instructions.

Explains the function of the EMS interface and its components.

Details the meaning of different LED states for various system modes.

Shows the display interface for PV1, PV2 input voltage, current, power, and bus voltage.

Displays battery input voltage, current, capacity, type, temperature, and SOC.

Displays battery charging voltage, charging current, and discharging current.

Shows grid voltage, current, and frequency.

Displays inverter voltage, current, and frequency.

Shows backup load voltage and current.

Displays inverter, meter, and load power values.

Shows PV input power, backup power, and system temperatures.

Provides system status information and error codes for identification.

Details system settings like status mode and grid connection standards.

Interface for user settings including setup, inquiry, and statistics.

Prompts for password entry after entering the setup interface.

Lists available options in the setup menu for system configuration.

Details various system settings like work mode, PV input, and zero export.

Allows selection of working modes: Self Consume, Peak Shift, or Battery Priority.

Options to enable or disable self-consumption mode and set charging time.

Configuration for charge time and maximum SOC in self-consumption mode.

Interface for setting the time for peak load shifting for charging and discharging.

Options for setting PV input mode: Independent, Parallel, or CV.

Configuration for the back-flow prevention function.

Enables DRM and EPS when backup load needs power; default is disabling/enabling.

Allows power switch control via remote and configures start-up delay time.

Controls CEI SPI functionality for local signals and frequency range adjustments.

Enables PV leakage protection.

Configures discharge mode and discharge depth control.

Enables generator mode and selects CT or meter connection.

Enables AC coupling and adjusts CT connection direction.

Enables or disables the anti-islanding function for grid protection.

Lists options for battery parameter configuration.

Allows selection of battery type from various options like Lead-Acid and LFP.

Configuration options for lead-acid battery parameters.

Sets the discharge depth percentage for batteries.

Configures off-grid discharge depth and grid-connected discharge depth.

Sets the battery charging current value.

Sets the battery discharge power percentage.

Sets the battery charge power percentage.

Sets the battery discharge cut-off voltage.

Enables or disables battery wake-up and adjusts wake-up time.

Configures battery wake-up function and its default status.

Sets the duration for battery wake-up.

Controls battery heating module, with automatic and manual options.

Enables or disables BMS Depth of Discharge feature.

Maintains a minimum State of Charge (SOC) for the battery.

Forces battery pack wake-up when not connected.

Selects the grid standard for country-specific regulations.

Lists various operational parameter settings.

Selects reactive mode for power factor or reactive power settings.

Sets the power factor value for the inverter.

Adjusts the reactive power setting for the inverter.

Sets the percentage of grid-connected power.

Configures maximum voltage limits for inverter and grid.

Sets the overvoltage protection point for the inverter.

Sets the overvoltage protection point for the grid.

Configures minimum voltage limits for inverter and grid.

Sets the undervoltage protection point for the inverter.

Sets the undervoltage protection point for the grid.

Configures maximum frequency limits for inverter and grid.

Sets the overfrequency protection point for the inverter.

Sets the overfrequency protection point for the grid.

Configures minimum frequency limits for inverter and grid.

Sets the underfrequency protection point for the inverter.

Sets the underfrequency protection point for the grid.

Enables or disables power derating when voltage is too high.

Configures the derating function for overvoltage.

Sets the voltage threshold for starting overvoltage derating.

Enables or disables power derating when voltage is too low.

Configures the derating function for undervoltage.

Sets the voltage threshold for starting undervoltage derating.

Enables or disables power derating when frequency is too high.

Configures the derating function for overfrequency.

Sets the frequency threshold for starting overfrequency derating.

Enables or disables power derating when frequency is too low.

Configures the derating function for underfrequency.

Sets the frequency threshold for starting underfrequency derating.

Sets the reactive response time.

Enables or disables High/Low voltage ride through capability.

Sets the power rising rate.

Sets the address and baud rate for RS485 communication.

Selects the display language for the system.

Adjusts the LCD backlight timeout duration.

Sets the current date, time, and week.

Clears inquiry/record history data.

Interface for changing the setup interface password.

Indicates that this section is for maintainer use only.

Resets the system to factory default settings.

Prompts for password to access the AutoTest function.

Displays the countdown interface for the self-test.

Lists test results for parameters like Volt Max, Volt Min, Freq Max, and Freq Min.

Shows test results for minimum AC voltage.

Displays test results for maximum AC frequency (S1 and S2).

Displays test results for minimum AC frequency (S1 and S2).

Lists options for inquiring about inverter module, serial number, firmware, and records.

Displays the machine model of the inverter.

Shows the serial number of the inverter.

Displays ARM and DSP firmware versions.

Shows records of faults, date, and time.

Provides information about battery packs, including status and cycle count.

Lists options for statistics: time, connection times, peak power, and energy generation.

Displays inverter operation length and grid-connection hours.

Shows grid-connection frequency and times.

Displays historical and daily peak power.

Shows daily energy generation and consumption data.

Displays monthly energy generation and consumption data.

Displays yearly energy generation and consumption data.

Shows total energy generation and consumption data.

Instruction to restart the system.

Details storage environment requirements for batteries.

Information on battery storage duration and recharging intervals.

Steps to inspect battery appearance before recharging.

Step-by-step guide for recharging the battery pack.

Lists alarm codes with their corresponding descriptions.

Lists error codes with their corresponding descriptions.

General advice for troubleshooting battery storage and recharging issues.

Lists common fault types, codes, and their solutions.

Provides solutions for communication faults.

Diagnoses issues related to supply voltage and frequency.

Diagnoses problems with the photovoltaic input signal.

Diagnoses issues with the battery pack input signal.

Diagnoses issues related to battery charge level.

Diagnoses phase line inversion issues.

Diagnoses FCI Over issues.

Diagnoses overloading issues.

Diagnoses problems with the ventilation system.

Diagnoses errors related to the Battery Management System.

Details electrical, operation, BMS, and physical specifications of batteries.

Lists electrical specifications for the CEC-S 5K inverter.

Lists general parameters like temperature, protective class, IP protection, and efficiency.

Lists grid regulations the system complies with.

Lists safety regulations the system complies with.

Lists EMC standards the system complies with.

Details output voltage, frequency, and boot wait time for various grid specifications.

Outlines a plan for routine maintenance tasks.

Instructions for checking the operating environment every six months.

Guidelines for cleaning equipment and ensuring access routes are clear.

Steps for inspecting cables, terminals, and equipment every six months.

Important notes regarding safety and procedures during maintenance.

Requirements for providing evidence during warranty claims.

Conditions related to product replacement and repair periods.

Lists circumstances under which the quality guarantee may be refused.