Nipa Itọsọna yii
This manual describes the assembly, installation, operation, and troubleshooting of the ANENJI Hybrid Solar Inverter. Please read this manual carefully before installation and operation. Keep this manual for future reference.
Iwe afọwọkọ yii n pese aabo ati awọn itọnisọna fifi sori ẹrọ gẹgẹbi alaye lori awọn irinṣẹ ati wiwọ.
Awọn Itọsọna Aabo
IKILO: Apa yii ni aabo pataki ati awọn ilana iṣiṣẹ ninu. Ka ki o si tọju iwe afọwọkọ yii fun itọkasi ọjọ iwaju.
- Ṣaaju lilo ẹyọkan, ka gbogbo awọn ilana ati awọn ami akiyesi lori ẹyọkan, awọn batiri, ati gbogbo awọn abala ti o yẹ fun afọwọṣe yii.
- Ṣọra --To reduce risk of injury, charge only deep-cycle lead-acid type rechargeable batteries. Other types of batteries may burst, causing personal injury and damage.
- Maṣe ṣajọpọ ẹyọ naa. Mu lọ si ile-iṣẹ iṣẹ ti o ni oye nigbati iṣẹ tabi atunṣe nilo. Ipejọpọ ti ko tọ le ja si eewu ti mọnamọna tabi ina.
- Lati dinku eewu ina mọnamọna, ge asopọ gbogbo awọn wirin ṣaaju ṣiṣe eyikeyi itọju tabi mimọ. Pa ẹyọ kuro kii yoo dinku eewu yii.
- Ṣọra – Nikan oṣiṣẹ eniyan le fi ẹrọ yi pẹlu batiri.
- MASE gba agbara si batiri tio tutunini.
- Fún ìṣiṣẹ́ tó dára jùlọ ti inverter/charger yìí, jọ̀wọ́ tẹ̀lé àwọn ìlànà tó yẹ láti yan ìwọ̀n okùn tó yẹ. Ó ṣe pàtàkì láti lo inverter/charger yìí dáadáa.
- Ṣọra pupọ nigbati o ba n ṣiṣẹ pẹlu awọn irinṣẹ irin lori tabi ni ayika awọn batiri. Ewu ti o pọju wa lati ju ohun elo kan silẹ si sipaki tabi awọn batiri Circuit kukuru tabi awọn ẹya itanna miiran ati pe o le fa bugbamu.
- Jọwọ muna tẹle ilana fifi sori ẹrọ nigbati o ba fẹ ge asopọ AC tabi awọn ebute DC. Jọwọ tọka si apakan INSTALLATION ti iwe afọwọkọ yii fun awọn alaye.
- Fuse ti pese bi aabo lọwọlọwọ fun ipese batiri.
- Awọn ilana Grounding -This ẹrọ oluyipada / ṣaja yẹ ki o wa ni ti sopọ si kan yẹ lori ilẹ eto onirin. Rii daju lati ni ibamu pẹlu awọn ibeere agbegbe ati ilana lati fi ẹrọ oluyipada yii sori ẹrọ.
- MASE fa AC o wu ati DC input kukuru circuited. Ma ṣe sopọ si awọn mains nigbati DC input kukuru iyika.
- Ikilo!! Awọn eniyan iṣẹ ti o peye nikan ni anfani lati ṣe iṣẹ ẹrọ yii. Ti awọn aṣiṣe ba tun wa lẹhin titẹle tabili laasigbotitusita, jọwọ fi ẹrọ oluyipada/ṣaja pada si ọdọ alagbata agbegbe tabi ile-iṣẹ iṣẹ fun itọju.
Ọja Pariview
The ANENJI Hybrid Solar Inverter is a multi-function inverter/charger, combining functions of inverter, MPPT solar charger, and battery charger to offer uninterruptible power support with a portable size. Its comprehensive LCD display offers user-configurable and easy-accessible button operation.
Awọn ẹya pataki:
- Oṣuwọn igbi ti o dara
- Inverter running without battery (for some models)
- Built-in MPPT solar controller
- Configurable igbewọle voltage ibiti fun ile onkan ati awọn ara ẹni awọn kọmputa nipasẹ LCD eto
- Gbigba agbara batiri atunto lọwọlọwọ da lori awọn ohun elo nipasẹ eto LCD
- Configurable AC / Ṣaja Ṣaja oorun nipasẹ eto LCD
- Ni ibamu pẹlu mains voltage tabi monomono agbara
- Tun bẹrẹ aifọwọyi lakoko ti AC n bọsipọ
- Apọju / Ju otutu / Idaabobo iyika kukuru
- Apẹrẹ ṣaja ṣaja Smart fun iṣapeye iṣẹ batiri
- Cold ibere iṣẹ
- Detachable dust cover for harsh environments
- WiFi remote monitoring (optional/integrated depending on model)
- EQ function to optimize battery performance and extend lifecycle
- Compatible with LiFePO4 battery via RS485
- Lithium battery activation function, which can be triggered by mains or PV
Eto Ipilẹ faaji:
The following illustration shows a basic application for this inverter/charger, including connections to solar power, generator or utility, battery, and home appliances.
This inverter can power all kinds of appliances in home or office environments, including motor-type appliances such as tube lights, fans, refrigerators, and air conditioners.
Ifilelẹ ọja:
Fifi sori ẹrọ
Ṣiṣii ati Ṣiṣayẹwo:
Before installation, please inspect the unit. Be sure that nothing inside the package is damaged. You should have received the unit and a user manual.
Igbaradi:
Before connecting all wirings, take off the bottom cover by removing two screws.
Gbigbe Ẹka naa:
- Maṣe gbe ẹrọ oluyipada sori awọn ohun elo ikole flammable.
- Òke lori kan ri to dada.
- Fi inverter yii sori ẹrọ ni ipele oju lati jẹ ki ifihan LCD naa ka ni gbogbo igba.
- Iwọn otutu ibaramu yẹ ki o wa laarin 0°C ati 55°C lati rii daju iṣiṣẹ to dara julọ.
- Ipo fifi sori ẹrọ ti a ṣe iṣeduro ni lati fi ara mọ odi ni inaro.
- Be sure to keep other objects and surfaces clear as shown in the diagram to guarantee sufficient heat dissipation and enough space for removing wires.
Dara fun iṣagbesori LORI concRETE TABI YATO dada ti kii-ijona nikan.
Install the unit by screwing three screws. It's recommended to use M4 or M5 screws.
Asopọmọra onirin:
IKILO! Gbogbo onirin gbọdọ wa ni ṣiṣe nipasẹ oṣiṣẹ oṣiṣẹ.
Asopọ batiri:
IKIRA: For safety operation and regulation compliance, it's requested to install a separate DC over-current protector or disconnect device between battery and inverter.
IKILO! It's very important for system safety and efficient operation to use appropriate cable for battery connection. To reduce risk of injury, use the proper recommended cable, stripping length, and tinning length.
| Awoṣe | O pọju Ampigba | Agbara Batiri | Waya Iwon | Cable mm² | Terminal Size (mm) L x W x D | Torque iye |
|---|---|---|---|---|---|---|
| 6.2KVA | 137A | 200AH | 2AWG | 38 | 37 x 18 x 6.4 | 2 ~ 3 Nm |
Awọn igbesẹ fun asopọ batiri:
- Make positive and negative cables based on recommended terminal size.
- Connect all battery packs as units require. It's suggested to use recommended battery capacity.
- Insert battery cable flatly into battery connector of inverter and make sure the bolts are tightened with a torque of 2-3Nm. Ensure polarity is correct.
Asopọ AC Input/Output:
Ṣọra! Before connecting to AC input power source, install a separate AC breaker between the inverter and AC power source (recommended 50A). Do not mis-connect input and output connectors.
| Awoṣe | Iwọn | Torque Iye |
|---|---|---|
| 6.2KVA | 8 AWG | 1.4 ~ 1.6Nm |
Awọn igbesẹ fun asopọ titẹ sii/o wu AC:
- Kí o tó ṣe ìsopọ̀ AC input/output, kọ́kọ́ ṣí DC protector tàbí disconnector.
- Remove insulation sleeve 10mm for six conductors. Shorten phase L and neutral conductor N 3mm.
- Insert AC input wires according to polarities indicated on the terminal block and tighten the terminal screws. Connect PE protective conductor first.
- Insert AC output wires according to polarities indicated on the terminal block and tighten terminal screws. Connect PE protective conductor first.
- Rii daju pe awọn onirin ti sopọ ni aabo.
IKIRA: Rii daju lati so awọn okun AC pọ pẹlu polarity to pe. Ti o ba ti L ati N onirin ti wa ni ti sopọ yiyipada, o le fa IwUlO kukuru-circuited nigbati wọnyi inverters ti wa ni sise ni ni afiwe isẹ ti.
IKIRA: Appliances such as air conditioners require at least 2-3 minutes to restart. If a power shortage occurs and recovers quickly, it can damage connected appliances. Check the manufacturer's specifications for time-delay functions.
Asopọ PV:
IKIRA: Kí o tó so mọ́ àwọn modulu PV, fi ẹ̀rọ fifọ DC tó yàtọ̀ síra sí àwọn modulu inverter àti PV.
Nigbati o ba yan awọn modulu PV to tọ, ronu awọn paramita wọnyi:
- Ṣiṣii Circuit Voltage (Voc) ti awọn modulu PV ko gbọdọ kọja iwọn ti o pọ julọ. PV array open circuit voltage ti awọn ẹrọ oluyipada.
- Ṣiṣii Circuit Voltage (Voc) ti awọn modulu PV yẹ ki o ga ju vol batiri min. lọtage.
| Awoṣe INVERTER | O pọju. PV orun Open Circuit Voltage | PV orun MPPT Voltage Ibiti |
|---|---|---|
| 6.2KVA | 500VDC | 60VDC ~ 500VDC |
PV Module Wire Connection steps:
- Yọ idabobo apo 10 mm fun rere ati odi conductors.
- Check correct polarity of connection cable from PV modules and PV input connectors. Connect positive pole (+) to positive pole (+) of PV input connector. Connect negative pole (-) to negative pole (-) of PV input connector.
- Rii daju pe awọn onirin ti sopọ ni aabo.
Wiring Cover Disassembly:
Use a Phillips screwdriver to remove two screws and then remove the baffle.
Apejọ ipari:
After connecting all wirings, put the bottom cover back by screwing two screws.
Isẹ
TAN/PAPA:
Nígbà tí a bá ti fi ẹ̀rọ náà sí i dáadáa, tí a sì ti so àwọn bátìrì pọ̀ dáadáa, tẹ switch On/Pa (tó wà ní ìsàlẹ̀ àpótí náà) láti tan ẹ̀rọ náà.
Isẹ ati Igbimọ Ifihan:
The operation and display panel, located on the front panel of the inverter, includes three indicators, four function keys, and an LCD display, indicating the operating status and input/output power information.
Àwọn Ìránṣẹ́ Àmì LED:
| LED Atọka | Awọn ifiranṣẹ |
|---|---|
| AC/INV (Alawọ ewe) | Rirọpo Lori: Agbara ifihan ni agbara nipasẹ ohun elo ni ipo laini. Ìmọ́lẹ̀: Agbára ìjáde náà jẹ́ agbára láti ọwọ́ bátìrì tàbí PV ní ipò bátìrì. |
| CHG (Alawọ ewe) | Rirọpo Lori: Batiri naa ti gba agbara ni kikun. Ìmọ́lẹ̀: Bátìrì ń gba agbára. |
| ALASE (Pupa) | Rirọ Lori: Àṣìṣe waye ninu inverter. Ìmọ́lẹ̀: Ìkìlọ̀ máa ń ṣẹlẹ̀ nínú inverter. |
Awọn bọtini iṣẹ:
| Bọtini iṣẹ | Apejuwe |
|---|---|
| ESC | Lati jade ni ipo eto |
| UP | Lati lọ si aṣayan iṣaaju |
| SILE | Lati lọ si aṣayan atẹle |
| WOLE | Lati jẹrisi yiyan ni ipo eto tabi tẹ ipo eto sii |
Awọn aami Ifihan LCD:
The LCD display information can be switched by pressing the "UP" or "DOWN" key. Information includes input voltage, input igbohunsafẹfẹ, PV voltage, MPPT charging current, charging power, battery voltage, iwọn didun ti o wujadetage, o wu igbohunsafẹfẹ, fifuye ogoruntage, load in VA, load in Watt, DC discharging current, and CPU versions.
LCD Setting Programs:
After pressing and holding the ENTER button for 3 seconds, the unit will enter setting mode. Use "UP" or "DOWN" to select programs and "ENTER" to confirm or "ESC" to exit.
| Eto No. | Apejuwe | Àṣàyàn Tí A Yàn | Awọn alaye |
|---|---|---|---|
| 01 | O wu orisun ayo | Solar first, Utility first (default), SBU priority, SUB priority | Configures the primary power source for loads. |
| 02 | O pọju gbigba agbara lọwọlọwọ | 60A (aiyipada) | Configures total charging current for solar and utility chargers. |
| 03 | AC igbewọle voltage ibiti | Appliances (default), UPS, Generator | Ṣeto iwọn didun titẹ sii AC ti o gbatage ibiti. |
| 04 | Ipo fifipamọ agbara mu ṣiṣẹ/muṣiṣẹ | Saving mode disable (default), Saving mode enable | Enables/disables power saving mode. |
| 05 | Iru batiri | AGM (default), Flooded, User-Defined, Standard communication Protocol, PYLON US2000, Customized Protocol, FOX ESS Lithium Battery Protocol | Selects the battery type for charging and discharge parameters. |
| 06 | Tun bẹrẹ laifọwọyi nigbati apọju ba waye | Restart disable, Restart enable (default) | Configures auto restart behavior after overload. |
| 07 | Tun bẹrẹ laifọwọyi nigbati iwọn otutu ba waye | Restart disable, Restart enable (default) | Configures auto restart behavior after over temperature. |
| 08 | O wu voltage | 220V, 230V (default), 240V | Sets the output AC voltage. |
| 09 | Igbohunsafẹfẹ jade | 50Hz (default), 60Hz | Sets the output AC frequency. |
| 10 | Aifọwọyi fori | manual (default), auto | Configures automatic bypass behavior. |
| 11 | IwUlO ti o pọju gbigba agbara lọwọlọwọ | 30A (aiyipada) | Sets the maximum charging current from utility. |
| 12 | Eto voltage ntoka pada si orisun IwUlO | 44V to 55V (48V models) | Ṣeto batiri voltage threshold for switching to utility source. |
| 13 | Eto voltage ntoka pada si ipo batiri | 48V to 62V (48V models) | Ṣeto batiri voltage threshold for switching back to battery mode. |
| 16 | Ṣaja orisun ayo | Solar first, Utility first, Solar and Utility (default), Only Solar | Configures the priority of charging sources. |
| 18 | Ipo Buzzer | Buzzer mute, Buzzer on for input source change/warning/fault | Configures buzzer behavior. |
| 19 | Pada laifọwọyi si iboju ifihan aiyipada | Return to default display screen (default), Stay at latest screen | Configures display screen auto-return. |
| 20 | Iṣakoso Backlight | Backlight on (default), Backlight off | Controls LCD backlight. |
| 23 | Apọju fori | Bypass disable, Bypass enable (default) | Transfers to line mode if overload occurs in battery mode. |
| 25 | Modbus ID Eto | 001-247 | Sets Modbus ID. |
| 26 | Olopobobo gbigba agbara voltage (CV voltage) | 48.0V to 62.0V (48V models) | Sets the bulk charging voltage. |
| 27 | Lilefoofo gbigba agbara voltage | 48.0V to Program 26 value (48V models) | Sets the floating charging voltage. |
| 28 | AC o wu mode | Single, Parallel, L1/L2/L3 phase | Configures AC output for single or parallel operation. |
| 29 | Low DC ge-pipa voltage | 40.0V to 54.0V (48V models) | Sets the low DC cut-off voltage. |
| 32 | Akoko gbigba agbara pupọ (CV stage) | Automatically (Default), 5 min, 900 min | Sets the duration for bulk charging. |
| 33 | Batiri dọgbadọgba | Battery equalization, Battery equalization disable (default) | Enables/disables battery equalization. |
| 34 | Batiri idogba voltage | 48V to 64V (48V models) | Ṣeto voltage for battery equalization. |
| 35 | Batiri dọgba akoko | 60min (default), 0min to 900min | Sets the duration for battery equalization. |
| 36 | Batiri dọgba akoko ipari | 120min (default), 0min to 900min | Sets the timeout for battery equalization. |
| 37 | Equalization aarin | 30days (default), 1 to 90 days | Sets the interval between equalization cycles. |
| 39 | Imudogba mu ṣiṣẹ lẹsẹkẹsẹ | Enable, Disable (default) | Activates battery equalization immediately. |
| 46 | O pọju idasilẹ lọwọlọwọ Idaabobo | Default OFF, 20A to 500A | Disables or sets the maximum discharge current. |
| 43 | Setting SOC point back to utility source | Aiyipada 50%, 5% ~ 50% Ṣeto | Sets the State of Charge (SOC) threshold for switching to utility. |
| 44 | Setting SOC point back to battery mode | Aiyipada 95%, 60% ~ 100% Ṣeto | Sets the State of Charge (SOC) threshold for switching back to battery. |
| 45 | Kekere DC ge-pipa SOC | Aiyipada 20%, 3% ~ 30% Ṣeto | Sets the low DC cut-off State of Charge (SOC). |
Apejuwe Ipo Iṣiṣẹ:
The inverter operates in various modes depending on power availability and configuration.
| Ipo iṣẹ | Apejuwe | LCD àpapọ |
|---|---|---|
| Ipo imurasilẹ / Ipo fifipamọ agbara | No output is supplied by the unit but it can still charge batteries. | Charging by utility and PV energy, Charging by utility, Charging by PV energy, No charging. |
| Ipo aṣiṣe | Errors caused by internal circuit issues or external factors like over temperature, output short circuit. PV energy and utility can charge batteries. | Charging by utility and PV energy, Charging by utility, Charging by PV energy, No charging. |
| Ipo ila | Unit provides output power from mains and charges battery. If solar first is selected and solar energy is insufficient, solar and utility provide loads and charge battery. | Charging by utility and PV energy, Charging by utility. |
| Ipo Batiri | Ẹyọ náà ń pese agbára ìjáde láti inú bátìrì àti agbára PV. | Power from battery and PV energy, PV energy supplies loads and charges battery, Power from battery only, Power from PV energy only. |
Batiri Idogba
Equalization function reverses the buildup of negative chemical effects like stratification and removes sulfate crystals, which can reduce battery capacity. It's recommended to equalize battery periodically.
Bí a ṣe le lo Iṣẹ́ Ìdọ́gba:
Enable battery equalization in monitoring LCD setting program 33. Then, apply by either:
- Ṣiṣeto aarin imudogba ninu eto 37.
- Isọdọgba ti nṣiṣe lọwọ lẹsẹkẹsẹ ni eto 39.
Ìgbà tí a ó fi ṣe ìbáramu:
Ninu leefofo stage, when the setting equalization interval is reached or equalization is active immediately, the controller enters Equalize stage.
Ṣe àfikún àkókò gbígbà agbára àti àkókò ìjáde:
Ni Equalize stage, oluṣakoso naa n gba agbara batiri naa titi ti yoo fi de iwọn didun iwọntunwọnsitage, then maintains it. The battery remains in Equalize stage until the set time is reached. If the battery voltage si tun kere ju iwọn idasiye naa lọtage when the timeout is over, the charge controller will stop equalization and return to float stage.
Setting for Lithium Battery
Asopọ Batiri Litiọmu:
If using a lithium battery, ensure it's a compatible model. There are two connectors: RS485 port of BMS and power cable.
- Assemble battery terminal based on recommended battery cable and terminal size (same as Lead acid).
- Connect the RS485 port of the battery to the BMS (RS485) communication port of the inverter.
Lithium Battery Communication and Setting:
If using a lithium battery, connect the BMS communication cable between the battery and the inverter. This cable delivers information and signals for:
- Re-configuring charging voltage, charging current, and battery discharge cut-off voltage according to lithium battery parameters.
- Inverter start/stop charging according to battery status.
Ensure the lithium battery RS485 port connects to the inverter is Pin to Pin. The communication cable is included in the package.
For PYLON US2000 lithium battery setting, refer to the dip switch settings for baud rate and battery group address (Dip 1 ON for 9600 baud rate, Dips 2, 3, 4 reserved for battery group address).
LCD Setting for Lithium Battery:
After connecting, configure the following settings:
- Set battery type as "USE" (user-defined) in program 05.
- Ṣeto CV voltage bi Max gbigba agbara voltage of BMS - 0.5V (Program 26).
- Ṣeto lilefoofo gbigba agbara voltage bi CV voltage (Program 27).
- Ṣeto Low DC ge-pipa voltage ≥ discharging protection voltage of BMS + 2V (Program 29).
- Set Max charging current less than the Max charging current of BMS (Program 02).
- Ṣeto voltage point back to utility source ≥ Low DC cut-off voltage + 1V (Program 12).
Akiyesi:
- It's better to finish setting without turning on the inverter (just let the LCD show, no output).
- When you finish setting, please restart the inverter.
Ni afiwe fifi sori Itọsọna
Oluyipada yii le ṣee lo ni afiwe pẹlu awọn ọna ṣiṣe oriṣiriṣi meji:
- Išišẹ ti o jọra ni ipele ẹyọkan pẹlu to awọn ẹya 12.
- Maximum 12 units work together to support three-phase equipment. 10 units support one phase maximum.
Awọn akoonu idii:
In the parallel kit, you will find the parallel communication cable.
Gbigbe Ẹka naa:
When installing multiple units, ensure proper clearances for air circulation (approx. 20 cm to the side and 50 cm above and below each unit). Install each unit at the same level.
Asopọmọra onirin:
NOTICE: It's requested to connect to battery for parallel operation.
The cable size for each inverter is the same as for single unit installation. Ensure the length of all battery cables is the same to avoid voltage iyato.
Ṣọra! Install breakers at the battery and AC input side for maintenance and overcurrent protection.
| Awoṣe | Recommended Breaker (1 unit) |
|---|---|
| 6.2KVA | 100A / 60VDC |
For parallel systems, the breaker rating should be X times the current of 1 unit, where X is the number of inverters connected in parallel.
Communicating with Battery BMS in Parallel System:
- Only common battery installation is supported.
- Use an RJ45 cable to connect any one of the inverters to the Lithium battery.
Set the inverter battery type to "Li 2" in LCD program 5. Other inverters should be set to "AGM". Ensure only one inverter is connected via RJ45 cable and set to Lithium in LCD program 5.
Parallel Operation in Single Phase:
Diagrams for two, three, four, and six inverters in parallel are provided in the full PDF manual. Ensure correct power and communication connections.
Support 3-phase equipment:
Diagrams for one inverter per phase and three inverters per phase are provided in the full PDF manual. Nmax=12 units total. N1max=10 units in one phase.
PV Connection for Parallel Systems:
IKIRA: Oluyipada kọọkan yẹ ki o sopọ si awọn modulu PV lọtọ.
Laasigbotitusita
This section provides common issues, their possible causes, and recommended solutions.
| Isoro | Fault Event / Explanation | Kin ki nse |
|---|---|---|
| Unit shuts down automatically during startup. | Batiri voltage kere ju. | 1. Tun-gba agbara si batiri. 2. Rọpo batiri. |
| Ko si esi lẹhin ti agbara. | 1. Batiri voltage is far too low. 2. Battery polarity is connected reversed. 3. Input protector is tripped. | 1. Check if batteries and wiring are connected well. 2. Re-charge battery. 3. Replace battery. 4. Check if AC breaker is tripped and AC wiring is connected well. |
| Awọn ohun elo ipilẹ wa ṣugbọn ẹrọ naa n ṣiṣẹ ni ipo batiri. | 1. Insufficient quality of AC power. 2. Set "Solar First" as the priority of output source. | 1. Check if AC wires are too thin/long. 2. Check generator or input voltage range setting. 3. Change output source priority to Utility first. |
| Unit turns on, internal relay switches on/off repeatedly. | Batiri ti ge-asopọ. | Ṣayẹwo boya awọn okun waya batiri ti sopọ daradara. |
| Awọn koodu aṣiṣe 07 | Aṣiṣe apọju. | Din awọn ti sopọ fifuye. |
| Awọn koodu aṣiṣe 05 | O wu kukuru circuited. | Ṣàyẹ̀wò wáyà kí o sì yọ ẹrù tí kò dára kúrò. |
| Awọn koodu aṣiṣe 02 | Iwọn otutu inu ti paati inverter ti kọja 100°C. | Check air flow and ambient temperature. |
| Awọn koodu aṣiṣe 03 | Battery is over-charged / voltage ga ju. | Return to repair center. Check battery specs. |
| Aṣiṣe koodu 06/22 | Abajade ajeji (Inverter voltag(e ni isalẹ 190Vac tabi ti o ga ju 260Vac lọ) | 1. Dín ẹrù tí a so pọ̀ kù. 2. Pada sí ibi tí a ti ń tún nǹkan ṣe. |
| Aṣiṣe koodu 08/09/15 | Awọn paati inu kuna. | Pada si ile-iṣẹ atunṣe. |
| Awọn koodu aṣiṣe 13 | Lori lọwọlọwọ tabi gbaradi. | Tun ẹrọ naa bẹrẹ. Ti aṣiṣe naa ba tẹsiwaju, pada si ile-iṣẹ atunṣe. |
| Awọn koodu aṣiṣe 14 | Voltage kere ju. | Tun ẹrọ naa bẹrẹ. Ti aṣiṣe naa ba tẹsiwaju, pada si ile-iṣẹ atunṣe. |
| Awọn koodu aṣiṣe 16 | O wu voltage ko ni iwontunwonsi. | If wires are connected well, return to repair center. |
| Warning Code 16 | CAN ibaraẹnisọrọ pipadanu | 1. Ṣayẹwo boya awọn kebulu ibaraẹnisọrọ ti sopọ daradara ki o tun ẹrọ oluyipada naa bẹrẹ. 2. Ti iṣoro naa ba wa, jọwọ kan si insitola rẹ. |
| Warning Code 17 | AC o wu mode eto ti o yatọ si | 1. Switch off the inverter and check LCD setting #28. 2. For parallel system in single phase, make sure "PAL" is set on #28. 3. If the problem remains, please contact your installer. |
| Warning Code 18 | Batiri naa voltage ti kọọkan ẹrọ oluyipada ni ko kanna. | 1. Make sure all inverters share same groups of batteries. 2. Remove all loads and disconnect AC input and PV input. Check battery voltage of all inverters. If values are close, check if all battery cables are same length and material type. Otherwise, contact installer for SOP to calibrate battery voltage. 3. If the problem remains, please contact your installer. |
Awọn pato
Table 1: Line Mode pato
| Paramita | 6.2KVA |
|---|---|
| Iṣagbewọle Voltage Waveform | Sinusoidal (IwUlO tabi monomono) |
| Iṣagbewọle ipin Voltage | 230Vac |
| Low Isonu Voltage (UPS) | 170Vac ± 7V |
| Low Isonu Voltage (Appliances) | 90Vac ± 7V |
| Low Ipadanu Pada Voltage (UPS) | 180Vac ± 7V |
| Low Ipadanu Pada Voltage (Appliances) | 100Vac ± 7V |
| Isonu ti o ga Voltage | 280Vac ± 7V |
| Ga Isonu Pada Voltage | 270Vac ± 7V |
| Max AC Input Voltage | 300Vac |
| Igbohunsafẹfẹ Input Igbohunsafẹfẹ | 50Hz / 60Hz (Iwari aifọwọyi) |
| Low Igbohunsafẹfẹ Isonu | 40± 1Hz |
| Low Ipadabọ Igbohunsafẹfẹ | 42± 1Hz |
| Ga Igbohunsafẹfẹ | 65± 1Hz |
| Ga Isonu Pada Igbohunsafẹfẹ | 63± 1Hz |
| O wu Kukuru Circuit Idaabobo | Ìpo ìlà: Alágbára ìfọwọ́sowọ́pọ̀; Ìpo bátìrì: Àwọn ìfọwọ́sowọ́pọ̀ ẹlẹ́ktrọ́níkì |
| Iṣiṣẹ (Ipo Laini) | > 95% (Iwọn R fifuye, batiri ti gba agbara ni kikun) |
| Akoko Gbigbe | 10ms aṣoju (UPS); 20ms aṣoju (Awọn ohun elo) |
Table 2: ẹrọ oluyipada Mode pato
| Paramita | 6.2KVA |
|---|---|
| Won won Power o wu | 6.2KVA / 6.2KW |
| O wujade Voltage Waveform | Wave Sine Sure |
| O wujade Voltage Ilana | 230Vac± 5% |
| Igbohunsafẹfẹ Ijade | 60Hz tabi 50Hz |
| Ipese ti o ga julọ | 94% |
| Agbara gbaradi | 2 * ti o ni agbara fun awọn aaya 5 |
| Iforukọsilẹ DC Input Voltage | 48Vdc |
| Cold Bẹrẹ Voltage | 46.0Vdc |
| Low DC Ikilọ Voltage (@load < 20%) | 44.0Vdc |
| Low DC Ikilọ Voltage (@20% ≤ load < 50%) | 42.8Vdc |
| Low DC Ikilọ Voltage (@load ≥ 50%) | 40.4Vdc |
| Kekere DC Ikilọ Pada Voltage (@load < 20%) | 46.0Vdc |
| Kekere DC Ikilọ Pada Voltage (@20% ≤ load < 50%) | 44.8Vdc |
| Kekere DC Ikilọ Pada Voltage (@load ≥ 50%) | 42.4Vdc |
| Low DC Ge-pipa Voltage (@load < 20%) | 42.0Vdc |
| Low DC Ge-pipa Voltage (@20% ≤ load < 50%) | 40.8Vdc |
| Low DC Ge-pipa Voltage (@load ≥ 50%) | 38.4Vdc |
Táblì 3: Àwọn Àlàyé Ìpo Ìgbàgbára
| Paramita | 6.2KVA |
|---|---|
| Ngba agbara ti o pọju lọwọlọwọ (PV+AC) | 120Amp (@ VI/P=230Vac) |
| MaxCharging Current (AC) | 80Amp (@ VI/P=230Vac) |
| Olopobobo Gbigba agbara Voltage (Batiri Ìkún omi) | 58.4Vdc |
| Olopobobo Gbigba agbara Voltage (Batiri AGM / Jeli) | 56.4Vdc |
| Lilefoofo Ngba agbara Voltage | 54Vdc |
| Overcharge Idaabobo | 63Vdc |
| Alugoridimu gbigba agbara | 3-Igbesẹ |
Solar Input Specifications:
| Paramita | 6.2KVA |
|---|---|
| Ti won won Agbara | 6500W |
| O pọju. PV orun Open Circuit Voltage | 500Vdc |
| PV orun MPPT Voltage Ibiti | 60Vdc ~ 500Vdc |
| O pọju. Ti nwọle lọwọlọwọ | 27A |
| MaxCharging Current(PV) | 120A |
Table 4: Gbogbogbo ni pato
| Paramita | 6.2KVA |
|---|---|
| Ijẹrisi aabo | CE |
| Awọn iwọn otutu ti nṣiṣẹ | -10°C si 55°C |
| Ibi ipamọ otutu | -15°C ~60°C |
| Ọriniinitutu | 5% si 95% Ọriniinitutu ibatan (ti kii ṣe itunnu) |
| Iwọn (D*W*H), mm | 450x300x130 |
| Iwọn iwuwo, kg | 9.6 |
Awọn imọran Olumulo
- Ensure your chosen model includes the WiFi module for remote monitoring if desired, as it may be optional.
- When setting up parallel systems, always ensure all inverters share the same battery bank and that battery cables are of identical length and material type to prevent operational issues.
- For lithium battery configurations, carefully follow the specific LCD settings for battery type, charging voltages, and cut-off points to ensure optimal performance and battery longevity.
Awọn ibeere Nigbagbogbo
- Q: Is a WiFi module included with the inverter?
- A: Some models include a WiFi module for remote monitoring, while others offer it as an optional feature. Please check your specific model's specifications or product description for details.
- Q: Can the 6.2 kW model work with zero emissions on the grid?
- A: ANENJI Hybrid Solar Inverters are designed to support various operating modes, including grid-tie functionality. For specific zero-emission or grid-feedback capabilities, please refer to the detailed operating mode descriptions and local regulations.
Atilẹyin ọja ati Support
For warranty claims, technical support, or service, please contact your local dealer or the authorized service center. Ensure you have your product model number and purchase details available.
Ìwé ìtọ́nisọ́nà olùlò ní ọ̀nà PDF wà fún ìgbàsílẹ̀: View Ilana olumulo (PDF)
