EPEVER Tracer1210AN G3 MPPT Solar Charge Controller User Manual

1. Pengenalan

The Tracer-AN G3 series controllers, including the Tracer1210AN G3, are advanced MPPT solar charge controllers designed to optimize solar energy utilization and prolong battery lifespan. These controllers feature adaptive 3-stage charging, high tracking efficiency, and comprehensive electronic protections, making them suitable for various applications such as RVs, residential systems, and outdoor monitoring.

2. Arahan Keselamatan Penting

Please keep this manual for future reference. This manual contains the safety, installation, and operation instructions for the Tracer-AN G3 series MPPT solar charge controller.

Baca semua arahan dan amaran dengan teliti sebelum pemasangan.
No user-serviceable components inside. Do not disassemble or attempt to repair the controller.
Mount the controller indoors. Avoid exposure to components and do not allow water to enter.
Install in a well-ventilated place. The controller's heat sink may become hot during operation.
Adalah dicadangkan untuk memasang fius/pemutus bertindak pantas luaran yang sesuai.
Disconnect PV array connections and battery fuses/breakers before installation and adjustment.
Sambungan kuasa mesti kekal ketat untuk mengelakkan pemanasan berlebihan daripada sambungan yang longgar.

NOTIS:

Jangan pasang pengawal dalam lembap, semburan garam tinggi, kakisan, berminyak, mudah terbakar, meletup, terkumpul habuk, atau persekitaran teruk yang lain.

3. Penafian

Waranti tidak terpakai kepada syarat berikut:

Damage caused by improper use or inappropriate environment (e.g., humid, high salt spray, corrosion, greasy, flammable, explosive, dust accumulative, or other severe environments).
Actual current/voltage/kuasa melebihi nilai had pengawal.
Kerosakan yang disebabkan oleh suhu kerja melebihi julat undian.
Arc, fire, explosion, and other accidents caused by failure to follow controller stickers or manual instructions.
Pembongkaran tanpa kebenaran atau percubaan pembaikan.
Kerosakan yang disebabkan oleh force majeure.
Kerosakan berlaku semasa pengangkutan atau pengendalian.

4. Ciri-ciri

High quality and low failure rate components (ST or IR) to ensure service life.
Teknologi MPPT lanjutan, dengan Max. kecekapan pengesanan lebih tinggi daripada 99.5%.
Advanced MPPT control algorithm to minimize lost rate and time.
Accurate recognizing and tracking technology of multi-peaks maximum power point.
MPP yang lebih luas (titik kuasa maksimum) berjalan voltage untuk mengoptimumkan penggunaan PV.
Maximum DC/DC conversion efficiency of 98%.
Support multi-battery types including lithium batteries.
Dilengkapi dengan fungsi pengaktifan diri yang stabil untuk bateri litium.
Set bateri voltage parameter pada LCD.
Pampasan suhu bateri.
Limit charging power & charging current to no higher than the rated value.
Fungsi statistik tenaga masa nyata.
Charging power reduction automatically for over-temperature.
RS485 communication interface with optional 4G or Wi-Fi modules for remote monitoring.
Standard Modbus communication protocol based on the RS485 communication bus.
A power protection chip provides 5VDC/200mA power with over-current and short-circuit protections for the communication interface.
Setting parameters via PC software, APP, or remote meter.
Pemalar voltage output function.
Perlindungan elektronik yang komprehensif.
Mod kerja beban berbilang.
Low self-consumption, lower than 10mA.
Operation at full load without charging power reduced in the working temperature range.

5. Ciri-ciri Produk

5.1 Atas Pengawalview

The diagram below illustrates the main components and interfaces of the EPEVER Tracer series MPPT Solar Charge Controller.

Labeled diagram of the Tracer controller with LCD, buttons, terminals, and mounting holes. — Figure 5.1: Tracer Controller Components

Table 5.1: Controller Parts Description
Tidak.	Arahan	Tidak.	Arahan
1	Butang PILIH	6	Port RS485 (tiada pengasingan)
2	antara muka RTS	7	Lubang pelekap Φ5mm
3	Terminal PV	8	Butang ENTER
4	Terminal bateri	9	LCD
5	Muatkan terminal

The pins of the RS485 port are defined as follows:

RJ45 communication port pinout diagram — Figure 5.2: RJ45 Pin Definition

Table 5.2: RS485 Port Pin Definitions
Pin	Definisi	Pin	Definisi
1	+5VDC	5	RS485-A
2	+5VDC	6	RS485-A
3	RS485-B	7	GND
4	RS485-B	8	GND

5.2 Peraturan Penamaan

The model name Tracer1210AN G3 follows a specific naming convention:

G3: The 3rd generation product.
AN: Common negative system.
vol litar terbuka maksimum PVtage: Value*10V (e.g., 10 indicates 100V).
Bateri dinilai voltage: 2 indicates 12/24VDC.
Rated charging & discharging current: 1 indicates 10A; 2 indicates 20A; 3 indicates 30A; 4 indicates 40A.
Siri produk: Tracer.

6. Arahan Pemasangan

6.1 Langkah berjaga-jaga Pemasangan

Familiarize yourself with the installation steps before proceeding.
Jangan pasang pengawal dalam lembap, semburan garam tinggi, kakisan, berminyak, mudah terbakar, meletup, terkumpul habuk, atau persekitaran teruk yang lain.
Be careful when installing batteries. Wear eye protection when installing open-type lead-acid batteries and rinse with clean water immediately if battery acid contacts skin.
Keep batteries away from metal objects to prevent short circuits.
Ensure the surrounding environment is well ventilated, as acid gas may be generated when batteries are charged.
Avoid direct sunlight and rain infiltration when installing outdoors.
Ensure tight power connections and secure cables with clamps to prevent high heat from loose connections.
Only charge lead-acid and lithium-ion batteries within the control range of this controller.
The battery connector can be wired to a single battery or a bank of batteries.
Select system cables according to 5A/mm² or less current density.
The grounding wire size should not be less than 4mm².
The torque for tightening wiring screws should not be less than 1.2 N·m.

6.2 Requirements for the PV Array

The controller needs to suit various types of PV modules. The serial connection of PV modules suitable for different controllers can be calculated based on the open-circuit voltage (Voc) dan titik kuasa maksimum voltage (VMPP) of the MPPT controller. Refer to the technical specifications for detailed values.

6.3 Saiz Wayar

Kaedah pendawaian dan pemasangan mesti mematuhi keperluan kod elektrik nasional dan tempatan.

Saiz Wayar PV

The PV array's output current varies with size, connection method, and sunlight angle. The minimum wire size can be calculated using the ISC (short circuit current) from the PV module's specifications. The PV array's ISC must not exceed the controller's maximum PV input current.

Table 6.1: Max. PV Input Current and Wire Size
Model	Maks. Arus Input PV	Max. PV Wire Size	Pemutus Litar
Tracer1206/1210AN G3	10A	4mm²/12AWG	16A/125V/2 P
Tracer2206/2210AN G3	20A	6mm²/10AWG	32A/125V/2 P
Tracer3210AN G3	30A	10mm²/8AWG	40A/125V/2 P
Tracer4210AN G3	40A	16mm²/6AWG	63A/125V/2 P

NOTIS:

Jumlah voltage tidak boleh melebihi vol litar terbuka maksimum PVtage apabila modul PV disambung secara bersiri. Vol litar terbuka maksimum PVtage is 46V (Tracer**06AN G3) or 92V (Tracer**10AN G3) at 25°C environment temperature.

Bateri dan Saiz Wayar Beban

The battery and load wire size should conform to the rated current.

Table 6.2: Battery and Load Wire Size
Model	Kadar Caj Semasa	Arus Pelepasan Berkadar	Saiz Wayar Bateri	Load Wire Size	Pemutus Litar
Tracer1206/1210AN G3	10A	10A	4mm²/12AWG	4mm²/12AWG	16A/125V/2 P
Tracer2206/2210AN G3	20A	20A	6mm²/10AWG	6mm²/10AWG	32A/125V/2 P
Tracer3210AN G3	30A	30A	10mm²/8AWG	10mm²/8AWG	40A/125V/2 P
Tracer4210AN G3	40A	40A	16mm²/6AWG	16mm²/6AWG	63A/125V/2 P

NOTIS:

The wire size is only for reference. For long distances between the PV array and the controller or between the controller and the battery, larger wires can be used to reduce voltage turun dan meningkatkan prestasi.
Wayar yang disyorkan dipilih untuk bateri mengikut syarat bahawa terminalnya tidak disambungkan kepada mana-mana penyongsang tambahan.

6.4 Pemasangan

BAHAYA:

Explosion hazard! Never install the controller in a sealed enclosure with FLD batteries! Do not install the controller in a confined area where battery gas can accumulate.
Electric shock hazard! The PV array may generate a high open-circuit voltage semasa pendawaian modul PV. Putuskan sambungan pemutus atau fius bertindak pantas terlebih dahulu, dan berhati-hati semasa pendawaian.

Pengawal memerlukan sekurang-kurangnya 150mm kelegaan di atas dan ke bawah untuk aliran udara yang betul. Pengudaraan amat disyorkan jika dipasang di dalam kepungan.

Step 1: Determine the installation location and heat-dissipation space.

Mounting dimensions and clearance requirements for the controller. — Figure 6.1: Mounting Dimensions

6.5 Gambarajah Pendawaian

Step 2: Connect the system in the order of ①battery > ②load > ③PV array by the following schematic wiring diagram, and disconnect the system in the reverse order.

No-Battery Mode

Battery Mode (with BMS-Link)

NOTIS:

Do not connect the circuit breaker or fast-acting fuse during wiring. Ensure electrode polarity is correctly connected.
A fast-acting fuse (1.25 to 2 times the controller's rated current) must be installed on the battery side, no longer than 150mm from the battery.
Panjang kabel bateri tidak boleh melebihi 3 meter.
The recommended cable length of the PV array should not exceed 3 meters (for EN/IEC61000-6-3 requirements).
If the controller is used in an area with frequent lightning strikes or an unattended area, an external surge arrester must be installed.
Jika penyongsang hendak disambungkan ke sistem, sambungkan penyongsang terus ke bateri, bukan ke bahagian beban pengawal.

6.6 Pembumian

Tracer-AN G3 series are common-negative controllers. Negative terminals of the PV array, the battery, and the load can be grounded simultaneously, or any negative terminal can be grounded. However, the grounding terminal on its shell must be grounded to shield electromagnetic interference and avoid electric shock.

6.7 Sambung Aksesori

Step 4: Connect the temperature sensor.

Table 6.3: Temperature Sensor Models
	Penerangan	Model	Imej
Termasuk Aksesori	Sambungkan penderia suhu	RT-MF58R47K3.81A
Aksesori Pilihan	Penderia suhu jauh	RTS300R47K3.81A

NOTIS:

If the remote temperature sensor is not connected or damaged, the controller will charge or discharge the battery at the default 25°C (no temperature compensation).

Connect the accessories for RS485 communication. Refer to Section 7.4 for details.

Nota:

The internal circuit of the RS485 port has no isolation design. Connecting an RS485 communication isolator to the port is recommended before communicating.

6.8 Power On the Controller

Langkah 5: Connect the battery fast-acting fuse to power the controller. Check the battery indicator status (the controller operates normally when the indicator is lit green). Connect the fast-acting fuse and circuit breaker of the load and PV array. The system will then operate in preprogrammed mode.

Nota:

If the controller is not operating properly or the battery indicator shows an abnormality, please refer to Section 9. Troubleshooting.

7. Operasi

7.1 Paparan LCD

The LCD screen provides real-time information about the system status. The display screen can be viewed clearly when the angle between the end-user's horizontal sight and the display screen is within 90°. If the angle exceeds 90°, the information cannot be viewed dengan jelas.

7.2 Butang

Jadual 7.1: Fungsi Butang
Mod	Nota
Muatkan HIDUP/MATI	Turn the load On/Off via the ENTER button in manual load mode.
Jelas kesalahan	Tekan butang ENTER.
Mod penyemakan imbas	Tekan butang PILIH.
Mod tetapan	Press the ENTER button and hold for 5s to enter setting mode. Press the SELECT button to set parameters. Press the ENTER button to confirm settings or no operation for 10s to exit automatically.

7.3 Interface Status Description

Table 7.2: LCD Status Icons
Nama	ikon	Status
PV	☀️	Hari
	🌙	Malam
	🚫⚡	Tiada caj
	⚡	Mengecas
PV	📊	PV array's voltage, current, and generated energy
BATT.	🔋	Kapasiti bateri, Dalam pengecasan
	🌡️	Bateri Voltage, Semasa, Suhu
BATT. JENIS	⚙️	Jenis bateri
MUAT	💡	Muatkan
	🚫💡	Muat MATI
MUAT	📈	Mod tenaga semasa/Digunakan/Beban

Kod Ralat

Table 7.3: Error Codes and Instructions
Status	ikon	Arahan
Bateri terlampau dicas	⚠️🔋	Battery level shows empty, battery frame blinks, fault icon blinks.
Overvol bateritage	⚠️🔋	Paras bateri menunjukkan penuh, bingkai bateri berkelip, ikon kerosakan berkelip.
Bateri terlalu panas	⚠️🌡️	Paras bateri menunjukkan nilai semasa, bingkai bateri berkelip, ikon kerosakan berkelip.
Kegagalan beban	⚠️💡	Overload; Load short circuit.

When the load current reaches 1.02-1.05 times, 1.05-1.25 times, 1.25-1.35 times, and 1.35-1.5 times more than the rated value, the controller will automatically turn off the loads in 50s, 30s, 10s, and 2s respectively.

Semak Imbas Antara Muka

Press the SELECT button to cycle through the following interfaces:

LCD display sequence for primary controller communication interface — Figure 7.1: Primary Controller LCD Display Sequence

LCD display sequence for secondary controller communication interface — Figure 7.2: Secondary Controller LCD Display Sequence

7.4 Tetapan

Primary and Secondary Modes

The Primary mode is used for BMS communication, while the Secondary mode is used for RS485 communication, allowing remote setting of battery parameters via PC software or APP. To switch modes:

Press the SELECT button to switch to the first TYPE interface.
Press the ENTER button; the value will flash.
Press the SELECT button to switch the mode ('nn' for primary, 'S' for secondary).
Tekan butang ENTER untuk mengesahkan pemilihan.

BMS Protocol Number

When using lithium batteries with BMS, the BMS-Link module converts BMS protocols to standard protocols. To set the BMS protocol number:

In Primary mode (first TYPE interface displays 'nn'), press the SELECT button to switch to the second TYPE interface.
Press the ENTER button to switch to the BMS protocol number (default 01, scope: 0-231).
Press the SELECT button to confirm selection.

Clear Generated Energy

Press and hold the ENTER button for 5s under the PV-generated energy interface; the value will flash.
Tekan butang ENTER untuk mengosongkan tenaga yang dijana.

Switch Battery Temperature Unit

Press and hold the button for 5s under the battery temperature interface to switch the temperature unit.

Jenis Bateri

The controller supports various battery types. The default is Sealed. Lithium battery types include LiFePO4 and Li(NiCoMn)O2. A 'User' option allows custom settings.

Table 7.4: Supported Battery Types
	Jenis Bateri	Penerangan
1	Bateri	Sealed (default), Gel, FLD
2	Bateri litium	LiFePO4 (4S/12V; 8S/24V), Li(NiCoMn)O2 (3S/12V; 6S/24V; 7S/24V)
3	pengguna	Parameter boleh disesuaikan

Local Setting of Battery Type:

Tekan butang PILIH untuk melompat ke vol bateritage antara muka.
Tekan dan tahan butang ENTER sehingga antara muka jenis bateri berkelip.
Press the SELECT button to change the battery type (e.g., Sealed, Gel, FLD, Lithium types, User).
Tekan butang ENTER untuk mengesahkan.

Flowchart for local battery type setting via LCD — Figure 7.3: Battery Type Selection Flow

Remote Setting of Battery Parameters:

Before remote setting, the communication mode should be set to Secondary mode.

Via PC Software: Connect the controller's RJ45 port to the PC's USB interface via a USB to RS485 cable. When selecting 'USE' battery type, set voltage parameters via PC software.

Diagram showing connection to PC via USB to RS485 cable. — Figure 7.4: PC Software Connection

Via External WiFi 2.4G or Bluetooth Adapter: Connect the controller to an external WiFi 2.4G or Bluetooth adapter via the RS485 communication port. End-users can set voltage parameters via the APP after selecting 'USE' battery type. Refer to the cloud APP manual for details.

Diagram showing connection to WiFi/Bluetooth adapter. — Figure 7.5: WiFi/Bluetooth Adapter Connection

Via MT52 Remote Meter: Connect the controller to the remote meter (MT52) through a standard network cable. After selecting 'USE' battery type, set voltage parameters via the MT52. Refer to the MT52 manual for details.

Diagram showing connection to MT52 remote meter. — Figure 7.6: MT52 Remote Meter Connection

7.5 Pengecasan Bateri Stages

The controller employs a three-stage battery charging algorithm: Bulk Charging, Constant Charging (Equalize and Boost), and Float Charging. This method extends battery lifespan.

Pengecasan Pukal: Bateri voltage belum mencapai vol malartage. The controller operates in constant current mode, delivering maximum current (MPPT Charging).
Pengecasan Tetap: Sebaik sahaja bateri voltage mencapai vol malartage set point, the controller switches to constant charging mode. MPPT charging stops, and the charging current gradually drops. This stage includes Equalize Charging (on the 28th of each month) and Boost Charging (default 2 hours).
Pengecasan apungan: After constant charging, the controller reduces battery voltage kepada pelampung mengecas voltage by reducing current. The battery is weakly charged to maintain a fully charged state. If load power exceeds solar array power, the controller will no longer maintain float charging. The system exits float charging and re-enters bulk charging if battery voltage drops below the boost voltage sambung semula voltage.

DANGER (Equalize Charging):

Explosion hazard! Equalizing FLD batteries would produce explosive gases, so well ventilation of the battery box is recommended.

NOTICE (Equalize Charging):

Penyamaan boleh meningkatkan voltan bateritage to levels that damage sensitive DC loads. Verify that the load's allowable input voltages adalah lebih besar daripada vol pengecasan equalizetage.
Over-charging and excessive gas precipitation may damage battery plates. Too high or too long equalization can cause damage. Review battery requirements carefully.

7.6 Load Modes

The controller offers multiple load work modes. When the LCD shows the load type interface, operate as follows:

Tekan butang PILIH untuk melompat ke antara muka jenis beban.
Tekan dan tahan butang ENTER sehingga antara muka jenis beban berkelip.
Tekan butang PILIH untuk mengubah suai jenis beban.
Tekan butang ENTER untuk mengesahkan.

LCD display showing load type selection. — Figure 7.7: Load Type Selection

Table 7.5: Load Modes
1**	Pemasa 1	2**	Pemasa 2
100	Lampu HIDUP/MATI	2 n	Dilumpuhkan
101	Load on for 1 hour since sunset	201	Load on for 1 hour before sunrise
102	Load on for 2 hours since sunset	202	Load on for 2 hours before sunrise
103-113	Load on for 3-13 hours since sunset	203-213	Load on for 3-13 hours before sunrise
114	Load on for 14 hours since sunset	214	Load on for 14 hours before sunrise
115	Load on for 15 hours since sunset	215	Load on for 15 hours before sunrise
116	Mod ujian	2 n	Dilumpuhkan
117	Mod manual (Beban lalai HIDUP)
118	Always ON mode (Load always maintains output state, suitable for 24-hour power supply)	2 n	Dilumpuhkan

Nota:

When selecting Light ON/OFF mode, Test mode, and Manual mode, only Timer 1 can be set, and Timer 2 is disabled and displays "2n". Load modes can also be set via PC software, APP, or remote meter (MT52).

8. Perlindungan

Table 8.1: Controller Protections
Perlindungan	Arahan
PV lebihan arus	If PV array's charging current or power exceeds rated, controller charges at rated current/power.
PV short-circuit	Not damaged when PV array is short-circuited (not in PV charging state). Nota: Forbidden to short-circuit PV array during charging, may cause damage.
Kekutuban terbalik PV	Not damaged if PV array polarity is reversed; operates normally after correction. Nota: May be damaged if PV array is reversed and actual power is 1.5 times rated.
Night reverse charging	Avoids battery discharging to PV module at night.
Bateri terbalik	Battery can be reversely connected when PV is disconnected or reversely connected. Correct wiring to resume work. Nota: Controller will be damaged if PV connection is correct and battery connection is reversed!
Overvol bateritage	PV array stops charging when battery voltage reaches overvoltage putuskan sambungan voltage.
Penyahcasan berlebihan bateri	Battery discharging stops when battery voltage lebih rendah daripada vol rendahtage putuskan sambungan voltage.
Bateri terlalu panas	Controller detects battery temperature via external sensor. Stops working above 65°C, resumes below 55°C.
Bateri litium suhu rendah	Stops charging/discharging when temperature is below Low-Temperature Protection Threshold (LTPT). Resumes when temperature is higher than LTPT (default 0°C, settable -40°C to 10°C).
Muatkan litar pintas	Automatically cuts off output if load short circuit (4x rated current). Attempts to resume 5 times (5s, 10s, 15s, 20s, 25s delay). Press Load button, restart controller, or night-to-day change to restart auto-recovery.
Lebihan beban	Cuts off output if load current exceeds 1.05 times rating. Attempts to resume 5 times (5s, 10s, 15s, 20s, 25s delay). Press Load button, restart controller, or night-to-day change to restart auto-recovery.
Peranti terlalu panas	Internal temperature sensor detects controller temperature. Stops working above 85°C, resumes below 75°C.
Vol. tinggi TVStage sementara	Internal circuitry with TVS for protection against high-voltage surge pulses with less energy. External surge arrester recommended in lightning-prone areas.

When the controller's internal temperature reaches 81°C, the charging power automatic reduction function is enabled. Temperature increases by 1°C, and the charging power is reduced by 5%, 10%, 20%, and 40%. If the internal temperature exceeds 85°C, the controller stops charging the battery. When the internal temperature is lower than or equal to 75°C, the controller resumes charging per the rated charging power.

9. Penyelesaian masalah

Jadual 9.1: Panduan Penyelesaian Masalah
Kesilapan	Menyelesaikan masalah
PV array open-circuit (LCD shows 🌙 when plenty of direct sunlight)	Sahkan sama ada sambungan tatasusunan PV adalah betul dan ketat.
Bateri voltage is lower than 8V (wire connection correct, controller not working)	Periksa volum bateritage (sekurang-kurangnya 8V untuk mengaktifkan pengawal).
Overvol bateritage (Battery frame blinks, fault icon blinks)	Semak sama ada bateri voltage lebih tinggi daripada OVD (overvoltage putuskan sambungan voltage) dan putuskan sambungan sambungan tatasusunan PV.
Battery over-discharged (Battery frame blinks, fault icon blinks)	① When battery voltage dipulihkan ke atau di atas LVR (voltage sambung semula voltage), beban akan pulih. ② Recharge the battery using other methods.
Battery overheating (Battery frame blinks, fault icon blinks)	The controller will resume once the temperature declines below 55°C.
Load failure (Load off, Load and fault icon blink)	① Kurangkan bilangan peranti elektrik. ② Restart the controller or press the button to clear faults.
Load short-circuit (Load and fault icon blink)	① Check carefully load connections, clear the fault. ② Restart the controller or press the button to clear faults.

10. Penyelenggaraan

The following inspections and maintenance tasks are recommended at least twice yearly for good performance:

Ensure no blockage on airflow around the controller. Clear any dirt and fragments on the radiator.
Check all naked wires to ensure insulation is not damaged by sun exposure, frictional wear, dryness, insects or rats, etc. Repair or replace wires if necessary.
Verify the indicator display is consistent with actual operation. Pay attention to any troubleshooting or error conditions and take corrective action.
Confirm that terminals have no corrosion, insulation damage, high temperature, burnt/discolored signs, and tighten terminal screws to the suggested torque.
Clear dirt, nesting insects, and corrosion in time.
Check and confirm that the lightning arrester is in good condition. Replace if necessary to avoid damaging the controller and other equipment.

BAHAYA:

Electric shock hazard! Ensure that the power is turned off before performing any maintenance operations, and then follow the corresponding inspections and operations.

11. Spesifikasi Teknikal

Parameter Elektrik

Jadual 11.1: Parameter Elektrik
Parameter	Tracer1206AN G3	Tracer2206AN G3	Tracer1210AN G3	Tracer2210AN G3	Tracer3210AN G3	Tracer4210AN G3
Vol. Berkadar Bateritage	Pengecaman Auto 12/24VDC
Nilai Pengecasan Semasa	10A	20A	10A	20A	30A	40A
Arus Pelepasan Berkadar	10A	20A	10A	20A	30A	40A
Kerja Pengawal Voltage Julat	8-31V
PV Litar Terbuka Maksimum Voltage	60V (At minimum operating environment temperature), 46V (At 25°C)		100V (At minimum operating environment temperature), 92V (At 25°C)
MPPT Jldtage Julat	(Bateri voltage + 2V) kepada 36V		(Bateri voltage + 2V) kepada 72V
Kuasa Pengecasan Dinilai	130W/12V, 260W/24V	260W/12V, 520W/24V	130W/12V, 260W/24V	260W/12V, 520W/24V	390W/12V, 780W/24V	520W/12V, 1040W/24V
Kerugian Statik	≤ 8mA (12V), ≤ 5mA (24V)
Litar nyahcas Voltage Penurunan	≤ 0.23V
Pampasan Suhu	-3mV/°C/2V (Lalai)
Jenis Pembumian	Negatif biasa
Pelabuhan RS485	5VDC/200mA (RJ45)
Masa Lampu Latar LCD	Default: 60s, Range: 0-999s (0s: backlight ON all the time)

Parameter Alam Sekitar

Table 11.2: Environmental Parameters
Parameter	Nilai
Julat Suhu Kerja	-25°C to +45°C (100% loads working)
Julat Suhu Penyimpanan	-20°C hingga +70°C
Kelembapan Relatif	< 95% (NC)
Kepungan	IP30

Parameter Mekanikal

Table 11.3: Mechanical Parameters
Parameter	Tracer1206/1210AN G3	Tracer2206/2210AN G3	Tracer3210AN G3	Tracer4210AN G3
Dimensi (L × W × H)	172mm × 139mm × 44mm	220mm × 154mm × 52mm	228mm × 164mm × 55mm	252mm × 180mm × 63mm
Mounting Size (L × W)	124mm × 130mm	170mm × 145mm	170mm × 155mm	204mm × 171mm
Saiz Lubang Pemasangan	Φ5mm
Terminal	12AWG (4mm²)	6AWG (16mm²)	6AWG (16mm²)	6AWG (16mm²)
Saiz Wayar yang Disyorkan	12AWG (4mm²)	10AWG (6mm²)	8AWG (10mm²)	6AWG (16mm²)
Berat Bersih	0.57kg	0.94kg	1.26kg	1.65kg

12. Petua Pengguna

Wiring Sequence is Crucial: Always connect the battery first, then the PV array, and finally the load. Disconnect in reverse order. This prevents damage to the controller.
Pantau Bateri Voltage: Pastikan vol. bateri andatage is at least 8V for the controller to activate. If it's below this, you may need to charge it externally first.
Utilize Communication Modules: For advanced monitoring and parameter adjustments, consider using the optional WiFi or Bluetooth modules with the EPEVER APP, or connect to a PC with the appropriate cable and software.
Pengudaraan yang Betul: Adequate airflow around the controller is essential to prevent overheating, especially during high power operation. Ensure the 150mm clearance is maintained.
Custom Battery Settings: If using a 'User' defined battery type, carefully review and set all voltage parameters according to your battery manufacturer's specifications to optimize performance and lifespan.
Penyelenggaraan Tetap: Perform the recommended bi-annual maintenance checks to ensure all connections are tight, clean, and free from damage, which will prolong the life of your system.

13. Waranti dan Sokongan

For detailed warranty information, please refer to the official EPEVER warranty policy. For technical support or inquiries, you can contact EPEVER directly:

HUIZHOU EPEVER TECHNOLOGY CO., LTD.
telefon: +86-752-3889706
e-mel: info@epever.com
Webtapak: www.epever.com

Manual pengguna yang komprehensif dalam format PDF juga tersedia untuk dimuat turun: EPEVER Tracer-AN G3 Series User Manual (PDF)