Anern 5KW 6.5KW Hybrid Solar Inverter User Manual

1. Ifihan

This manual provides essential information for the safe and efficient installation, operation, and maintenance of your Anern 5KW or 6.5KW Hybrid Solar Inverter. This high-frequency inverter features a pure sine wave AC output, MPPT solar charging, and dual AC output capabilities. It is designed to integrate solar power with utility grids and can operate with or without a battery, supporting both lithium and lead-acid battery types.

Anern 5000W Hybrid Solar Inverter front view pẹlu pato

Figure 1: Anern FGI-S5000 Hybrid Solar Inverter

2. Key Awọn ẹya ara ẹrọ

Rated power 5.0KW/5.0KVA (AN-FGI-S5000) or 6.5KW/6.5KVA (AN-FGI-S6500), with a power factor of 1.
MPPT (Maximum Power Point Tracking) range: 60V~450V, 500Voc.
High-frequency inverter design for small size and light weight.
Ìmújáde AC ìgbì omi sínì mímọ́ fún àwọn ẹ̀rọ itanna onímọ̀lára.
Capable of powering loads simultaneously from solar and utility grid.
Equipped with CAN/RS485 for Battery Management System (BMS) communication.
Ability to operate without a battery (batteryless mode).
Optional WiFi remote monitoring.
Dual AC output for flexible load management.
Feed-in to grid functionality.

3. Ọja Ipariview

The inverter features a user-friendly interface and clearly labeled connection ports.

3.1 Iwaju Panel ati Ifihan

Inverter front panel with LCD display and buttons

olusin 2: Iwaju Panel Loriview

Atọka AC
Àmì Ìyípadà
Atọka gbigba agbara
Atọka aṣiṣe
Ifihan LCD
Bọtini ESC
Bọtini Up
Bọtini isalẹ
Tẹ Bọtini
Imọlẹ RGB

Awọn ọna Imọlẹ RGB:

Standby mode: White
Battery mode: Red
City electricity mode: Blue
PV mode: Orange

3.2 Ru Panel ati awọn isopọ

Inverter rear panel showing connection ports

olusin 3: Ru Panel Awọn isopọ

AC Ninu: Utility grid input.
Ifilelẹ akọkọ: Primary AC output for rated power loads.
Second Output: Secondary AC output for loads up to one-third of the rated power.
WiFi: Port for optional WiFi remote monitoring module.
BMS: Communication port for Battery Management System (RJ45).
BAT+/-: Battery connection terminals.
PV In: Solar panel input terminals.
TAN/PA: Agbara yipada.

4. Awọn pato

Paramita	AN-FGI-S5000	AN-FGI-S6500
Iṣagbewọle AC
Oṣuwọn Input Voltage (VAC)	208/220/230/240; L+N+PE
Voltage Ibiti (VAC)	90~280 (APP mode); 170~280 (UPS mode)
Igbohunsafẹfẹ (Hz)	50/60 (Adaptọ Aifọwọyi)
Ijade AC
Agbara ti a fun ni idiyele (kW)	5 (Output Power rating will be reduced to 90%, when setting the Output Voltage si 208V)	6.5 (Output Power rating will be reduced to 90%, when setting the Output Voltage si 208V)
Agbára Ìbílẹ̀ (kVA)	10	12
Voltage (VAC)	208/220/230/240
Ohun elo Agbara (PF)	1
Igbohunsafẹfẹ (Hz)	50/60±0.1%
Akoko Yipada (ms)	10 (APP/UPS mode)/ 20 (GEN mode)
WaveForm	SineWave mimọ
Agbara Gbigbe Ju (Ipo Batiri)	1min@102%~120% load, 10s@ >120% load
Ìṣiṣẹ́ tó pọ̀ jùlọ (Ipò Bátìrì)	93.5%@24V	94%@48V
Agbára ẹ̀rọ (PV/AC)
Solar Ṣaja Iru	MPPT
Ìṣíṣẹ́/Agbára PV tó pọ̀ jùlọ	27A/9000W
Ipele MPPT@Iwọn ṣiṣiṣẹtage (VDC)	60~450
PV Ibẹrẹ Voltage	60Vdc
Max PV Ṣii Circuit Voltage (VDC)	500
Agbara PV to pọ julọ (A)	160	120
Agbara AC to pọ julọ (A)	160	120
Agbara to pọ julọ (PV+AC) (A)	160	120
Batiri
Deede Voltage (VDC)	24	48
Batiri Iru	Lithium and Lead-acid
Gbogbogbo Data
HMI	LCD
Ni wiwo	RS485/CAN/RS232
Abojuto	WiFi (Eyi je eyi ko je)
Ayika
Idaabobo Ingress	IP21
Awọn iwọn otutu ti nṣiṣẹ	-10℃ ~ 60℃
Ọriniinitutu ibatan	5% ~ 95% (ti kii ṣe itọlẹ)
Ibi ipamọ otutu	-15℃ ~ 60℃
O pọju. Giga iṣẹ	4000m (Derating above 1000m)

Table 1: imọ ni pato

5. Eto ati fifi sori

5.1 aworan atọka

The following diagram illustrates a typical hybrid solar energy storage system setup:

Figure 4: Hybrid Solar Energy Storage System Diagram

This diagram shows the connection of solar panels, grid, generator, inverter, battery (lithium/lead-acid), and home loads, with cloud and app monitoring capabilities.

5.2 Batteryless Mode

The inverter supports a batteryless mode, allowing it to power loads directly from PV/AC sources without a connected battery. This offers a simpler, plug-and-play wiring solution compared to traditional battery-dependent systems.

Figure 5: Batteryless Mode Operation

5.3 Battery Connection and Type Selection

The inverter is compatible with both lithium and lead-acid batteries. When connecting a lithium battery, ensure compatibility with the inverter's communication protocol via the RJ45 BMS port.

Figure 6: Selectable Battery Types

The inverter supports the following battery types, configurable via the display:

AGM (aiyipada)
FLD (Flooded)
LIB (Lithium Ternary Battery)
FEL (Lithium Iron)
CUS (User-Defined)

For lithium battery connections, verify the compatibility of the battery's protocol with the inverter. There are two connectors on the lithium battery: an RJ45 port for BMS communication and a power cable.

5.4 Dual AC Output

The inverter provides two AC outputs:

Ifilelẹ akọkọ: Designed for connecting to a rated power load.
Second Output: Can be connected to a load of up to one-third of the rated power.

6. Isẹ

6.1 Solar Charging Priority Modes

The inverter offers flexible solar charging priority settings to optimize energy usage:

Figure 7: Solar Charging Priority Options

Oòrùn Àkọ́kọ́: Solar energy is prioritized to charge the battery. The utility grid will only charge the battery if solar energy is unavailable.
Oorun ati Ohun elo: Both solar energy and the utility grid will charge the battery simultaneously.
Only Solar Charging: Solar energy is the exclusive charging source, regardless of utility availability.

These modes can be configured via the inverter's LCD display or optional WiFi monitoring application.

7. Itọju

To ensure optimal performance and longevity of your Anern Hybrid Solar Inverter, regular maintenance is recommended:

Ninu: Keep the inverter's exterior clean and free from dust and debris. Ensure ventilation openings are unobstructed.
Awọn isopọ: Lojoojumọ, ṣayẹwo gbogbo awọn asopọ ina (PV, batiri, titẹ sii AC/output) fun wiwọ ati awọn ami ibajẹ.
Ayika: Ensure the inverter is operating within its specified temperature and humidity ranges. Avoid exposure to direct sunlight or excessive moisture.
Awọn imudojuiwọn famuwia: If available, consider updating the inverter's firmware via the optional WiFi module to benefit from performance improvements and new features.

8. Laasigbotitusita

This section provides guidance on common issues you might encounter:

Ko si Agbara/Ifihan Pipa: Check AC input, battery connections, and the ON/OFF switch. Ensure sufficient PV input if operating in solar-only mode.
Àmì Àṣìṣe Lórí: Refer to the inverter's display for specific error codes. Common faults include over-voltage, labẹ-voltage, overload, or short circuit. Address the underlying cause before restarting.
Agbara Ijade Kekere: Ṣe àyẹ̀wò ìpele ìtẹ̀síwájú PVtage and current are within specifications. Check battery charge level and health. Ensure loads do not exceed the inverter's rated capacity.
Batiri Ko Ngba agbara: Check PV panel connections and ensure sufficient sunlight. Verify AC input if utility charging is enabled. Confirm battery type settings are correct.
BMS Communication Issues: Ensure the RJ45 cable is securely connected and the lithium battery's protocol is compatible with the inverter.

For persistent issues, consult a qualified technician or contact customer support.

9. Awọn imọran olumulo

Ibamu Batiri: The inverter is suitable for LiFePo4 batteries, as it supports both Lithium and Lead-acid types. Always ensure the specific battery's BMS protocol is compatible.
Iṣawọle PV lọwọlọwọ: The inverter is designed to handle a maximum PV input current of 27 Amperes, as indicated in the specifications (Max PV Input Current/Power: 27A/9000W).
Abojuto: Utilize the optional WiFi module for remote monitoring to keep track of your system's performance and settings from anywhere.

10. Atilẹyin ọja ati Support

For warranty information, technical support, or service inquiries, please refer to the documentation provided with your purchase or contact Anern customer service. Keep your purchase receipt as proof of purchase.

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Anern Hybrid Solar Inverter User Manual