Ìwé Ìtọ́sọ́nà Olùlò Olùṣàkóso Oòrùn EPEVER 60A MPPT

1. Ifihan

This manual provides instructions for the installation, operation, and maintenance of the EPEVER 60A MPPT Solar Charge Controller (Model 6415AN). This controller is designed for 12V/24V/36V/48V auto-sensing systems, features common negative grounding, and supports a maximum PV input of 150V and 4500W. It is compatible with various battery types, including lead-acid (sealed, gel, flooded) and lithium batteries.

Figure 1: EPEVER 60A MPPT Solar Charge Controller (Model 6415AN) showing front and back views with terminals.

2. Awọn ilana aabo

• Ensure all wiring is correctly polarized and securely connected to prevent damage to the controller or batteries.
• Máa so batiri náà pọ̀ ní àkọ́kọ́, lẹ́yìn náà so páànẹ́lì oòrùn, àti ní ìparí ẹrù náà. Jà á padà ní ìtòlẹ́sẹẹsẹ.
• Fi sori ẹrọ oluṣakoso ni agbegbe ti o ni itunnu daradara, kuro lati awọn ohun elo ina ati imọlẹ orun taara.
• Lo awọn fifọ Circuit tabi awọn fuse ti o yẹ fun gbogbo awọn asopọ lati daabobo lodi si agbara ti o pọ ju.
• The controller is common negative ground. Ensure proper grounding for safety.

3. Ọja Ipariview

The EPEVER Tracer AN series controller utilizes multiphase synchronous rectification technology (MSRT) and an advanced MPPT control algorithm. It features a dual-core processor architecture and common negative design, offering high response speed, reliability, and industrial standard performance.

Nọmba 2: Alaye view of the EPEVER 60A MPPT Solar Charge Controller with key components labeled, including terminals, buttons, and indicators.

1. Fiusi: Overcurrent protection for the battery circuit.
2. Awọn ibudo batiri: Sopọ si banki batiri.
3. Àwọn Ibùdó PV: Ó so mọ́ àkójọpọ̀ páànẹ́lì oòrùn.
4. Load Control Relay: Output for controlling external loads.
5. RBVS Port: Latọna batiri Voltage Sensor port.
6. Utility/Generator Relay ON: Relay for utility or generator control.
7. Utility/Generator Relay OFF: Relay for utility or generator control.
8. RS485 Port (5V/DC/200mA): Communication port for PC or remote meter.
9. RTS Port: Remote Temperature Sensor port.
10. Generator and Load Relay Enable: Terminal for enabling generator and load relays.
11. PV Reverse Polarity Alarm Indicator: LED indicator for incorrect PV polarity.
12. Ipari Ilẹ -ilẹ: For system grounding.
13. Bọtini Yan: Used for navigating menus and changing settings.
14. Atọka LED gbigba agbara: Tọkasi ipo gbigba agbara.
15. Fault LED Indicator: Indicates system faults.
16. Tẹ Bọtini: Used for confirming selections and entering menus.

4. Eto ati fifi sori

4.1 Wiring aworan atọka

Olusin 3: Example connection diagram illustrating the wiring of the solar charge controller with PV array, battery bank, and load. Consult local and national electrical codes for compliance.

4.2 fifi sori Igbesẹ

1. Iṣagbesori: Mount the controller vertically on a non-flammable surface in a well-ventilated area, ensuring adequate clearance for heat dissipation.
2. Ilẹ: Connect the grounding terminal to earth ground. The controller features common negative grounding.
3. Asopọ batiri: Connect the battery cables to the battery terminals on the controller. Ensure correct polarity (positive to positive, negative to negative). The PV input voltage must be at least 2V greater than the battery voltage lati bẹrẹ gbigba agbara.
4. PV Array Asopọ: Connect the solar panel cables to the PV terminals. Verify correct polarity. The maximum PV open circuit voltage ko gbodo koja 150V.
5. Asopọmọra fifuye: Connect the load to the load control relay terminals.
6. Awọn ẹya ẹrọ iyan: Connect the Remote Temperature Sensor (RTS) to the RTS Port and the Remote Battery Voltage Sensor (RBVS) to the RBVS Port for accurate temperature compensation and voltage wiwọn.
7. Agbara Tan: After all connections are secure and verified, the controller will power on automatically.

5. Awọn ilana Iṣiṣẹ

5.1 LCD Display and Interface

Figure 4: The LCD display shows various system parameters such as PV voltage, gbigba agbara lọwọlọwọ, batiri voltage, load status, and energy statistics. The browse interface illustrates different screens accessible via the SELECT and ENTER buttons.

The LCD provides real-time system information. Use the Yan button to navigate through different display screens and the WOLE button to confirm selections or enter settings menus.

5.2 Battery Type Settings

The controller supports various battery types. It is crucial to set the correct battery type for optimal charging and battery longevity. The supported types include:

• Ti di (aiyipada)
• Jeli
• Ikun omi
• Litiumu
• User-defined (for custom parameters)

Access the battery type settings through the controller's menu using the SELECT and ENTER buttons or via the RS485 communication port with appropriate software/remote meter.

5.3 Ibaraẹnisọrọ Interface

The controller features an RS-485 communication bus interface and supports the Modbus communication protocol. This allows for connection to a PC or a remote meter (e.g., MT50) for advanced monitoring, parameter setting, and data logging.

6. Itọju

Itọju deede ṣe idaniloju igbesi aye gigun ati iṣẹ ti o dara julọ ti oludari idiyele oorun rẹ.

• Ayewo wiwo: Periodically check all wiring connections for tightness and corrosion. Ensure no insulation damage.
• Ninu: Keep the controller's heat sink and enclosure clean and free from dust or debris to ensure proper heat dissipation. Use a dry cloth for cleaning.
• Afẹfẹ: Ensure the installation area remains well-ventilated and free from obstructions that could impede airflow.
• Ilera Batiri: Bojuto batiri voltage and health regularly. Ensure battery terminals are clean and free of corrosion.

7. Laasigbotitusita

The controller includes a fault LED indicator to signal issues. Refer to the following common troubleshooting steps:

• Ko si Ifihan/Ko si Agbara:
  • Ṣàyẹ̀wò àwọn ìsopọ̀ bátìrì kí o sì rí i dájú pé wọ́n wà ní ààbò àti pé wọ́n wà ní ìṣọ̀kan tó tọ́.
  • Daju batiri voltage wa laarin iwọn iṣẹ.
  • Check the battery fuse.
• Ko si gbigba agbara lati PV:
  • Check PV array connections and polarity. The PV reverse polarity alarm indicator will light up if polarity is incorrect.
  • Rii daju PV input voltage is at least 2V higher than battery voltage.
  • Verify solar panels are receiving adequate sunlight and are not shaded.
• Fifuye ko ṣiṣẹ:
  • Ṣayẹwo awọn asopọ fifuye ki o rii daju pe wọn wa ni aabo.
  • Verify load settings in the controller menu.
  • Rii daju pe batiri voltage is sufficient to power the load.
• Fault LED Indicator On:
  • Consult the detailed fault codes in the complete product manual (not provided here) for specific error identification. Common faults include over-voltage, labẹ-voltage, over-temperature, or short circuits.

8. Awọn pato

Figure 5: Dimensions of the EPEVER 60A MPPT Solar Charge Controller: Length 340mm, Width 236mm, Height 119mm.

Figure 6: Detailed technical specifications for the EPEVER Tracer AN Series, including the 6415AN model.

9. atilẹyin ọja Information

The EPEVER 60A MPPT Solar Charge Controller (Model 6415AN) comes with a manufacturer's warranty for 2 years from the date of purchase. Please retain your proof of purchase for warranty claims. The warranty covers defects in materials and workmanship under normal use. It does not cover damage caused by improper installation, misuse, accidents, or unauthorized modifications.

10. Atilẹyin

For technical assistance, troubleshooting beyond this manual, or warranty inquiries, please contact EPEVER customer support. Refer to the official EPEVER website for the most up-to-date contact information and additional resources, including detailed manuals and software downloads.