EPEVER Tracer MPPT Solar Charge Controller User Manual

1. Produktua amaitu daview

The EPEVER Tracer-AN G3/Tracer-AN G3 BLE series solar charge controllers are designed with advanced Maximum Power Point Tracking (MPPT) technology. These controllers serve as the main component in solar power systems, optimizing energy harvesting from photovoltaic (PV) arrays and managing battery charging efficiently.

The Tracer-AN G3 BLE series includes a built-in Bluetooth module for convenient parameter reading and writing via a smartphone application. These controllers are suitable for various applications, including RVs, household systems, and field monitoring.

Ezaugarri nagusiak:

Advanced MPPT technology with tracking efficiency higher than 99.5%.
Advanced MPPT control algorithm to minimize power loss and tracking time.
Accurate recognition and tracking of multi-peak maximum power points.
Wide Maximum Power Point (MPP) running voltage for optimized PV utilization.
Gehienezko DC/DC bihurketa-eraginkortasuna % 98koa da.
Support for multiple battery types, including lithium batteries.
Stable self-activation function for lithium batteries.
Adjustable battery voltage parameters via LCD.
Bateriaren tenperatura konpentsazioa.
Charging power and current limited to rated values.
Denbora errealeko energia estatistiken funtzioa.
Automatic charging power reduction for over-temperature conditions.
RS485 communication interface with optional 4G or Wi-Fi modules for remote monitoring.
Standard Modbus communication protocol.
Power protection chip for the communication interface (5VDC/200mA, over-current, short-circuit protections).
Parameters configurable via PC software, APP, or remote meter.
Bolumen konstanteatage output function.
Babes elektroniko integralak.
Hainbat karga lan egiteko modua.
Low self-consumption (less than 10mA).
Operation at full load without charging power reduction in the working temperature range.

EPEVER Tracer MPPT Solar Charge Controller with key features highlighted — Figure: EPEVER Tracer MPPT Solar Charge Controller with highlighted features.

2. Segurtasun-argibide garrantzitsuak

Please read and retain this manual for future reference. This manual provides safety, installation, and operation instructions for the Tracer-AN G3/Tracer-AN G3 BLE series MPPT solar controller.

Irakurri arretaz argibide eta abisu guztiak instalatu aurretik.
The controller contains no user-serviceable components; do not disassemble or attempt repairs.
Mount the controller indoors. Protect it from exposure to elements and water ingress.
Install the controller in a well-ventilated area. The heat sink may become hot during operation.
Instalatu kanpoko ekintza azkarreko fusible/haustura egokiak.
Disconnect PV array connections and battery fuses/breakers before any installation or adjustment.
Ensure power connections are tight to prevent excessive heating from loose connections.

OHARRA:

Do not install the controller in humid, high salt spray, corrosive, greasy, flammable, explosive, dust-accumulative, or other severe environments.

3. Ezespen-oharra

The product warranty does not cover damages resulting from the following conditions:

Damage caused by improper use or installation in inappropriate environments (e.g., humid, high salt spray, corrosive, greasy, flammable, explosive, dust-accumulative, or other severe conditions).
Actual current/voltage/power exceeding the controller's limit values.
Lan-tenperatura nominala gainditzeagatik sortutako kalteak.
Accidents (arc, fire, explosion) due to failure to follow controller stickers or manual instructions.
Baimenik gabeko desmuntatzea edo konponketa saiatzea.
Ezinbesteko kasuak eragindako kalteak.
Garraioan edo manipulatzean sortutako kalteak.

4. Product Characteristics and Components

The EPEVER Tracer MPPT Solar Charge Controller features a clear LCD display and intuitive buttons for easy operation. Key components are designed for robust performance and connectivity.

EPEVER Tracer MPPT Solar Charge Controller front view — Figure: EPEVER Tracer MPPT Solar Charge Controller.

EPEVER Tracer MPPT Solar Charge Controller with remote meter and cables — Figure: EPEVER Tracer MPPT Solar Charge Controller with included accessories.

Component Identification (Figure 1-1 from PDF):

Diagram of EPEVER Tracer MPPT Solar Charge Controller with numbered components — Figure 1-1: Product Characteristics (Note: Image is a placeholder for the actual diagram from PDF page 8, which is not directly embeddable as a separate image URL. The text description below provides the details.)

Ez.	Osagaia	Ez.	Osagaia
1	Aukeratu botoia	6	RS485 ataka (isolamendurik gabe)
2	RTS interfazea	7	Muntatzeko zuloa Φ5mm
3	PV terminalak	8	SARTU botoia
4	Bateriaren terminalak	9	LCDa
5	Kargatu terminalak

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

5. Naming Rules

Products without Bluetooth module:

Tracer 4 2 10 AN G3

Trazatzailea: Produktuen seriea
4: Rated charging & discharging current (value*10A, e.g., 4 means 40A)
2: Bateria boltage (2 means 12/24VDC)
10: PV gehienezko zirkuitu irekiko boltage (value*10V, e.g., 10 means 100V)
AN: Common negative system
G3: The 3rd generation product

Products with built-in Bluetooth module:

Tracer 4 2 10 AN G3 BLE

Trazatzailea: Produktuen seriea
4: Rated charging & discharging current (value*10A, e.g., 4 means 40A)
2: Bateria boltage (2 means 12/24VDC)
10: PV gehienezko zirkuitu irekiko boltage (value*10V, e.g., 10 means 100V)
AN: Common negative system
G3: The 3rd generation product
BLE: Bluetooth modulua integratua

6. Instalazioa

6.1 Attentions Before Installation:

Familiarize yourself with installation steps.
Avoid installing in severe environments (humid, high salt spray, corrosive, greasy, flammable, explosive, dust-accumulative).
Exercise caution when installing batteries. Wear eye protection, especially with open-type lead-acid batteries, and rinse with clean water if battery acid contact occurs.
Keep batteries away from metal objects to prevent short circuits.
Ensure the installation area is well-ventilated, as acid gas may be generated during battery charging.
Avoid direct sunlight and rain infiltration if installing outdoors.
Ensure tight power connections and secure cables with clamps to prevent overheating, melting insulation, or fire.
Only charge lead-acid and lithium-ion batteries within the controller's control range.
The battery connector can be wired to a single battery or a bank of batteries.
Select system cables with a current density of 5A/mm² or less.

6.2 Requirements for the PV Array:

The serial connection (string) of PV modules must be chosen to suit the MPPT controller's open-circuit voltage (Voc) eta potentzia-puntuko bolumen maximoatage (VMPP). Refer to the table below for guidance (values are for STC: 25°C, 1.5 air mass, 1000W/m²).

Sistema voltage	36cell Voc< 23V		48cell Voc< 31V		54cell Voc< 34V		60cell Voc< 38V
	Max.	Onena	Max.	Onena	Max.	Onena	Max.	Onena
12V	2	2	1	1	1	1	1	1
24V	2	2	-	-	-	-	-	-

For Tracer1210/2210/3210/4210AN G3/Tracer1210/2210/3210/4210AN G3 BLE, refer to the PDF manual page 16 for detailed PV array configuration tables.

6.3 Wire Size:

Wiring and installation must conform to national and local electrical codes. The PV array's output current determines the minimum wire size. The PV array's short circuit current (ISC) must not exceed the controller's maximum PV input current.

Eredua	Max. PV sarrerako korrontea	Max. PV hariaren tamaina
Tracer1206/1210AN G3/BLE	10A	4 mm²/12AWG
Tracer2206/2210AN G3/BLE	20A	6 mm²/10AWG
Tracer3210AN G3/BLE	30A	10 mm²/8AWG
Tracer4210AN G3/BLE	40A	16 mm²/6AWG

KONTUZ:

Bolumen osoatage-k ez du gainditu behar PV zirkuitu irekiko gehienezko bolumenatage (46V for 06AN models, 92V for 10AN models at 25°C). Wire sizes are for reference; use larger wires for long distances to minimize voltage tanta.

6.4 Muntaketa:

Step 1: Determine Installation Location and Heat-Dissipation Space

Kontrolagailuak gutxienez 150 mm-ko tartea behar du aire-fluxu egokia izateko. Aireztapena oso gomendagarria da itxitura batean muntatuta badago.

Diagram showing mounting dimensions and clearance for EPEVER MPPT controller — Figure: Mounting dimensions and required clearance (150mm top/bottom).

OHARRA:

Risk of explosion! Never install the controller in a sealed enclosure with flooded batteries. Do not allow battery gas to accumulate.
Risk of electric shock! The PV array may generate high open-circuit voltage. Disconnect breakers/fuses before wiring.

6.5 Connection Diagram:

Step 2: Connect the system in the order: Battery → Load → PV Array. Disconnect in reverse order.

Schematic wiring diagram for EPEVER MPPT solar charge controller in battery mode — Figure 2-2: Schematic Wiring Diagram (Battery Mode).

KONTUZ:

Do not connect circuit breakers or fuses during wiring. Ensure correct electrode polarity.
Install a fast-acting fuse (1.25 to 2 times rated current) on the battery side, no more than 150mm from the battery.
If an inverter is used, connect it directly to the battery, not to the load side of the controller.

6.6 Lurreratzea:

Tracer-AN G3/Tracer-AN G3 BLE series are common-negative controllers. Negative terminals of the PV array, battery, and load can be grounded simultaneously, or any negative terminal can be ungrounded. However, the grounding terminal on the controller's shell must always be grounded to shield electromagnetic interference and prevent electric shock.

KONTUZ:

Using a common-positive controller in a common-negative system (like an RV system) can damage the controller. It is recommended to use a common-negative controller for common-negative systems.

6.7 Connect Accessories:

Connect the temperature sensor:

Included Accessory: RT-MF58R47K3.81A
Optional Accessory: RTS300R47K3.81A

Connect one end of the remote temperature sensor cable to the RTS interface (labeled '2' in Figure 1-1) and place the other end close to the battery.

EPEVER Temperature Sensor Cable RTS300R47K3.81A — Figure: Remote Temperature Sensor Cable.

KONTUZ:

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

Connect accessories for RS485 communication:

EPEVER USB-RS485 Communication Cable — Figure: USB-RS485 Communication Cable.

KONTUZ:

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

6.8 Power On the Controller:

Connect the battery fast-acting fuse to power the controller. Check the battery indicator status (it should be green for normal operation). Then, connect the fast-acting fuse and circuit breaker of the load and PV array. The system will then operate in preprogrammed mode.

KONTUZ:

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

7. Operation (LCD Interface)

The LCD display provides real-time information and allows for parameter settings. Ensure the viewing angle is within 90° for clear visibility.

EPEVER Tracer MPPT Solar Charge Controller LCD display — Figure: Controller LCD Display.

7.1 Botoiak:

Modua	Oharra
Kargatu ON/OFF	Sakatu SARTU button to turn the load On/Off in manual load mode.
Akatsa garbitu	Sakatu SARTU botoia.
Arakatze modua	Sakatu AUKERATU botoia.
Ezarpen modua	Eduki sakatuta SARTU button for 5 seconds to enter setting mode. Use AUKERATU to set parameters, then SARTU to confirm. The interface exits automatically after 10 seconds of inactivity.

7.2 Status Description:

Izena	Ikonoa	Egoera
PV array	☀️	Eguna
	🌙	Gaua
	🚫	Ez dago kargurik
Bateria	🔋	Kargatzen
PV	⚡	PV array's voltage, current, and generated energy
Bateria	📊	Bateriaren edukiera, Kargatzean
BATT. BATT. TYPE	🌡️	Bateria Voltage, Korrontea, Tenperatura
	⚙️	Bateria mota
Kargatu	💡	Kargatu ON
	❌	Kargatu OFF
ZARGA	📈	Korrontea/Kontsumitutako energia/Karga modua

7.3 Errore kodeak:

Egoera	Ikonoa	Instrukzioa
Bateria gehiegi deskargatuta dago	⚠️🔋	Battery level empty, battery frame blink, fault icon blink.
Bateria boltage	⚠️🔋	Battery level full, battery frame blink, fault icon blink.
Bateria gainberotzea	⚠️🌡️	Bateriaren mailak uneko balioa erakusten du, bateriaren markoaren keinua, akatsen ikonoa keinuka.
Gainkarga	⚠️💡	Overload, Load short circuit.

Oharra: When the load current exceeds rated value by 1.02-1.05, 1.05-1.25, 1.25-1.35, and 1.35-1.5 times, the controller automatically turns off loads in 50, 30, 10, and 2 seconds respectively.

7.4 Browse Interface:

Sakatu AUKERATU button to cycle through different display interfaces.

7.5 Setting Parameters:

7.5.1 Clear the generated energy:

Eduki sakatuta SARTU button for 5 seconds under the PV-generated energy interface; the value will flash.
Sakatu SARTU button again to clear the generated energy.

7.5.2 Switch the battery temperature unit:

Eduki sakatuta AUKERATU button for 5 seconds under the battery temperature interface to switch the temperature unit.

7.5.3 Battery type:

The controller supports various battery types. The default is Sealed. Other types include Gel, Flooded, LiFePO4, Li(NiCoMn)O2, and User-defined.

Local set the battery type:

Sakatu AUKERATU button to navigate to the battery voltage interfazea.
Eduki sakatuta SARTU botoia bateria motako interfazeak keinu egin arte.
Sakatu AUKERATU button to change the battery type (e.g., Sealed, Gel, Flooded, LCNM3S, LFP8S, LFP4S, LCNM6S, LCNM7S, User).
Sakatu SARTU botoia berresteko.

If "USE" battery type is selected, parameters like Boost Charging Voltage (BCV), Float Charging Voltage (FCV), Behe Voltage Deskonektatu Voltage (LVD), eta Low Voltage Reconnect Voltage (LVR) can be modified via the LCD. Refer to PDF page 26-29 for detailed parameter tables and logic.

Remote set the battery parameters:

Parameters can be set via PC software or mobile APP.

1) Setting by PC software:

Connect the controller's RJ45 port to the PC's USB interface via a USB to RS485 cable. When "USE" battery type is selected, set voltage parameters using the PC software.

Diagram showing EPEVER controller connected to PC via USB-RS485 cable — Figure: Controller connected to PC for parameter setting.

2) Setting by APP:

Via an external WiFi 2.4G adapter: Connect the controller to an external WiFi 2.4G adapter via the RS485 communication port. Set voltage parameters via the APP after selecting "USE" battery type.
Via an external Bluetooth adapter: Connect the controller to an external Bluetooth adapter via the RS485 communication port. Set voltage parameters via the APP after selecting "USE" battery type.
Via a built-in Bluetooth adapter (Tracer-AN G3 BLE series only): Connect the mobile phone directly to the built-in Bluetooth adapter. Set voltage parameters via the APP after selecting "USE" battery type.

EPEVER Remote Meter MT50 with manual and mounting hardware — Figure: Remote Meter MT50, an optional accessory for monitoring and programming.

3) Setting by Remote Meter (MT52):

Connect the controller's RJ45 port to the remote meter (MT52) through a standard network cable. After selecting "USE" battery type, set voltage parameters using the MT52. Refer to the MT52 manual for details.

7.6 Load Modes:

The controller offers various load modes. When the LCD shows the load mode interface, operate as follows:

Sakatu AUKERATU botoia karga motako interfazera joateko.
Eduki sakatuta SARTU botoia karga motako interfazeak distiratzen duen arte.
Sakatu AUKERATU button to modify the load type.
Sakatu SARTU botoia berresteko.

Load mode list:

1**	1 tenporizadorea	2**	2 tenporizadorea
100	Argia ON/OFF	2 n	Ezindua
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	Proba modua	2 n	Ezindua
117	Eskuzko modua (karga lehenetsia ON)
118	Always ON mode (24-hour power supply)	2 n	Ezindua

KONTUZ:

When selecting Light ON/OFF, Test mode, or Manual mode, only Timer 1 can be set; Timer 2 will be disabled and display "2 n".

8. Maximum Power Point Tracking (MPPT) Technology

Due to the nonlinear characteristics of solar arrays, there is a unique maximum energy output point (Max Power Point) on their curve. Traditional controllers (with switch charging or PWM charging) cannot charge the battery at this maximum power point, thus failing to obtain the maximum available energy from the PV array.

EPEVER's MPPT algorithm continuously compares and adjusts operating points to locate the array's maximum power point. This tracking process is fully automatic and requires no user adjustment. MPPT technology "boosts" the battery charge current by tracking the MPP. Assuming 100% conversion efficiency, the input power (P_PV) equals the output power (P_Bat).

Normally, the PV array's maximum power point voltage (V_Mpp) is always higher than the battery voltage (V_Bat). Due to energy conservation, the battery current (I_Bat) is always higher than the PV current (I_PV). The greater the difference between V_Mpp eta V_Bat, the greater the difference between I_PV eta nik_Bat. A larger difference between the array and the battery can decrease system conversion efficiency, highlighting the importance of the controller's conversion efficiency in the PV system.

MPPT controllers can increase efficiency by 20%-30% compared to PWM controllers.

Diagram illustrating Maximum Power Point Tracking (MPPT) technology — Figure: Maximum Power Point Tracking Technology (Conceptual Diagram).

In real-world applications, PV panels may exhibit multiple local maximum power points due to shading from clouds, trees, or snow. However, there is only one true global Maximum Power Point. The EPEVER MPPT algorithm is designed to quickly and accurately track this real MPP, improving PV array utilization and preventing energy waste.

9. Battery Charging Stages

The controller employs a three-stage battery charging algorithm: Bulk Charging, Constant Charging, and Float Charging. This method effectively prolongs battery lifespan and significantly improves system performance.

Bateria kargatzea stage curve showing Bulk, Constant, and Float charging phases — Figure: Battery Charging Stage Curve.

A) Bulk Charging:

Bateria boltage ez da bolumen konstantera iritsitage (Berdindu edo areagotu karga bolumenatage), the controller operates in constant current mode, delivering its maximum current (MPPT Charging) to the batteries.

B) Constant Charging:

Behin bateria boltage bolumen konstantera iristen datage set point, the controller switches to constant charging mode. MPPT charging stops, and the charging current gradually decreases. This stage includes two phases: Equalize Charging and Boost Charging. These are not repeated in a single full charge cycle. Equalized charging typically occurs on the 28th of each month.

Bultzada-karga: The default duration is 2 hours. Users can adjust this time and preset value. The system switches to float charging when the duration is met.
Equalize Charging: Some battery types benefit from equalizing charging to stir electrolytes, balance voltage, and complete chemical reactions. This increases battery voltage above the standard complement voltage, gasifying the battery electrolyte. If automatically controlled, the equalizing charging time is 120 minutes. Equalize and boost charges are not performed constantly to avoid excessive gas precipitation or overheating.

WARNING (Equalize Charging):

Explosive Risk! Equalizing flooded batteries produces explosive gases; ensure good ventilation of the battery box.

CAUTION (Equalize Charging):

Ekipamenduaren kalteak! Berdinketak bateriaren bolumena handitu dezaketage to levels that damage sensitive DC loads. Verify load's allowable input voltages.
Over-charging and excessive gas precipitation can damage battery plates. Review specific requirements of your battery.
The controller accumulates time when battery voltage equals the set value. If not adjusted, it equalizes charging based on internal timing.

C) Float Charging:

After constant charging, the controller reduces battery voltage flotagailu kargatzeko aurrez ezarritako voltage by lowering the charging current. During this stage, the battery is maintained in a fully charged state. Loads can draw almost all power from the solar panel. If load power exceeds solar array power, the controller will no longer maintain float charging. If battery voltage drops below the boost voltage reconnect voltage, the system exits float charging and re-enters bulk charging.

10. Babes-funtzioak

Ez.	Babesa	Instrukzioa
1	Korrontearen gaineko PV	Controller charges battery at rated current/power if actual PV current/power exceeds it.
2	PV Short-circuit	Controller is not damaged if PV array is short-circuited when not charging. OHARRA: Do not short-circuit PV array during charging, controller may be damaged.
3	PV alderantzizko polaritatea	Controller not damaged, resumes work after correcting mis-wiring. KONTUZ: Controller may be damaged if PV array is reversed and power is 1.5x rated.
4	Gaueko Alderantzizko Kargatzea	Prevents battery discharge to PV module at night.
5	Bateriaren alderantzizko babesa	Battery can be reversely connected when PV is disconnected. Correct wiring to resume. OHARRA: Controller damaged if PV connection is correct but battery is reversed.
6	Bateria Voltage	PV array stops charging automatically when battery voltage reaches over voltage deskonektatu voltage.
7	Battery Over-discharging	Battery discharging stops automatically when battery voltage bolumen baxuaren azpitik dagotage deskonektatu voltage.
8	Bateria gainberotzea	Controller stops working if battery temperature exceeds 65°C, resumes below 55°C (detected by external sensor).
9	Litiozko bateria tenperatura baxua	Stops charging/discharging if temperature is below LTPT (default 0°C, adjustable 10 ~ -40°C), resumes above LTPT.
10	Kargatu Zirkuitu Laburra	Controller cuts off output if load short circuit (4x rated current). Attempts 5 auto-recoveries (5, 10, 15, 20, 25s delays). To restart: press Load button, restart controller, or wait for night-to-day change (>3h).
11	Gainkargaren babesa	Controller cuts off output after delay if load current exceeds 1.05x rating. Attempts 5 auto-recoveries (5, 10, 15, 20, 25s delays). To restart: press Load button, restart controller, or wait for night-to-day change (>3h).
12	Gailua gainberotzea	Controller stops working if internal temperature > 85°C, resumes below 75°C.
13	TVS High Voltage Iragankorrak	Internal TVS protects against high-voltage surge pulses with less energy. For frequent lightning, install external surge arrester.

Oharra: When the controller's internal temperature reaches 81°C, the charging power automatically reduces (5%, 10%, 20%, 40% for each 1°C increase). Charging stops at 85°C and resumes below 75°C.

11. Arazoak

Akatsak	Sintomak	Arazoak konpontzea
PV-matrizea zirkuitu irekia	LCD shows no PV input during direct sunlight.	Confirm PV array connection is correct and tight.
Bateria boltage 8V baino txikiagoa	Controller not working.	Egiaztatu bateria bolumenatage (must be at least 8V to activate controller).
Bateria boltage	Battery frame blinks.	Egiaztatu bateria boltage OVD baino handiagoa da (boltage deskonektatu voltage) and disconnect PV array.
Bateria gehiegi deskargatuta dago	Battery frame blinks.	Load recovers when battery voltage restores to or above LVR (low voltage reconnect voltage). Recharge battery using other methods.
Bateria gainberotzea	Battery frame blinks.	Controller resumes when temperature declines below 55°C.
Gainkarga	Kargatu off.	Reduce number of electric devices. Restart controller or press button to clear faults.
Karga-zirkuitulaburra	Load and fault icon blink.	Carefully check load connections, clear fault. Restart controller or press button to clear faults.

12. Mantentzea

Regular inspections and maintenance are recommended at least twice yearly for optimal performance.

Ensure no obstructions block airflow around the controller. Clean any dirt or debris from the radiator.
Inspect all bare wires for insulation damage (sun exposure, wear, dryness, insects, rats). Repair or replace damaged wires.
Verify that the indicator display matches actual operation. Address any troubleshooting or error conditions promptly.
Confirm terminals have no corrosion, insulation damage, high temperature, or discoloration. Tighten terminal screws to the recommended torque.
Clean dirt, nesting insects, and corrosion.
Check the lightning arrester's condition. Replace if necessary to prevent damage to the controller and other equipment.

KONTUZ:

Risk of electric shock! Ensure power is turned off before performing any maintenance operations.

13. Zehaztapenak

Detailed electrical and mechanical parameters for the Tracer-AN G3/Tracer-AN G3 BLE series controllers.

Parametro elektrikoak:

Parametroa	Tracer1206AN G3/BLE	Tracer2206AN G3/BLE	Tracer1210AN G3/BLE	Tracer2210AN G3/BLE	Tracer3210AN G3/BLE	Tracer4210AN G3/BLE
Bateria Voltage	12/24VDC Auto-ezagutza
Kargatutako korronte nominala	10A	20A	10A	20A	30A	40A
Deskarga-korronte nominatua	10A	20A	10A	20A	30A	40A
Controller Work Voltage Barrutia	8~31V
PV Gehienezko zirkuitu irekiko boltage	60 V (46 V)		100 V (92 V)
MPPT Voltage Barrutia	(Bateria voltage +2V)~36V		(Bateria voltage +2V)~72V
Kargatzeko potentzia nominala	130 W/12 V, 260 W/24 V	260 W/12 V, 520 W/24 V	130 W/12 V, 260 W/24 V	260 W/12 V, 520 W/24 V	390 W/12 V, 780 W/24 V	520 W/12 V, 1040 W/24 V
Galera estatikoak	<8mA(12V), <5mA(24V)
Deskarga-zirkuitu Voltage Tanta	≤0.23V
Tenperatura-konpentsazioa	-3mV/°C/2V (lehenetsia)
Lurreratzeko mota	Ezezko arrunta
RS485 ataka	5VDC/200mA (RJ45)
LCD atzeko argiaren denbora	Default:60S, Range:0~999S (0 seconds: backlight is ON all the time)

Ingurumen-parametroak:

Parametroa	Balioa
Laneko tenperatura-tartea	-25°C~+45°C (100% loads working)
Biltegiratze-tenperatura-tartea	-20°C~+70°C
Hezetasun erlatiboa	<% 95 (NC)
Itxitura	IP30

Parametro mekanikoak:

Eredua	Tracer1206/1210AN G3/BLE	Tracer2206/2210AN G3/BLE	Tracer3210AN G3/BLE	Tracer4210AN G3/BLE
Tamaina (L x W x H)	172x139x44mm	220x154x52mm	228x164x55mm	252x180x63mm
Muntatzeko tamaina (L x W)	124x130mm	170x145mm	170x155mm	204x171mm
Muntatzeko zuloaren tamaina	Φ5mm
Terminala	12AWG (4 mm²)	6AWG (16 mm²)	6AWG (16 mm²)	6AWG (16 mm²)
Gomendatutako alanbrearen tamaina	12AWG (4 mm²)	10AWG (6 mm²)	8AWG (10 mm²)	6AWG (16 mm²)
Pisu garbia	0.57kg	0.94kg	1.26kg	1.65kg

14. Conversion Efficiency Curves

The following graphs illustrate the conversion efficiency of the EPEVER Tracer MPPT controllers under various conditions (Test condition: Illumination Intensity: 1000W/m², Temperature: 25°C).

Tracer1206AN G3/Tracer1206AN G3 BLE:

13V Conversion Efficiency Curves for Tracer1206AN G3/BLE — Figure: 13V Conversion Efficiency Curves (MPPT: 17V, 34V).

26V Conversion Efficiency Curves for Tracer1206AN G3/BLE — Figure: 26V Conversion Efficiency Curves (MPPT: 34V, 45V).

For other models (Tracer1210AN, Tracer2206AN, Tracer2210AN, Tracer3210AN, Tracer4210AN), please refer to the full PDF manual for their specific conversion efficiency curves (pages 39-43).

15. Erabiltzaileentzako aholkuak

Bateriaren bateragarritasuna: The Tracer series is compatible with various battery types, including LiFePO4. For LiFePO4 batteries, ensure the correct model is selected (e.g., 3210AN is suitable for LiFePO4).
liburukiatage Bateratzea: When connecting solar panels, ensure the panel voltage is compatible with the controller and battery system. For example, a 42V solar panel can charge a 12V battery using this controller.
Parametroen doikuntza: If using a "USE" battery type, you can manually regulate charging voltage and other parameters via the LCD, PC software, or mobile app.
Urruneko monitorizazioa: Utilize the MT50/MT52 remote meter or the EPEVER APP (via built-in Bluetooth or external adapters) for convenient monitoring and programming.
Kablearen tamaina: Always use appropriate wire sizes, especially for longer distances between the PV array/battery and the controller, to minimize voltagErrendimendua jaitsi eta hobetu.

16. Bermea eta Laguntza

For detailed warranty information, service terms, and technical support, please refer to the official EPEVER documentation or contact your vendor. The full user manual in PDF format provides comprehensive details on product usage and support.

Erreferentzia: A comprehensive user manual (PDF) is available for download. View Erabiltzailearen eskuliburua (PDF)

EPever Tracer-AN G3/Tracer-AN G3 BLE series (1206AN, 2206AN, 1210AN, 2210AN, 3210AN, 4210AN)

1. Produktua amaitu daview

Ezaugarri nagusiak:

2. Segurtasun-argibide garrantzitsuak

3. Ezespen-oharra

4. Product Characteristics and Components

Component Identification (Figure 1-1 from PDF):

5. Naming Rules

Products without Bluetooth module:

Products with built-in Bluetooth module:

6. Instalazioa

6.1 Attentions Before Installation:

6.2 Requirements for the PV Array:

6.3 Wire Size:

6.4 Muntaketa:

6.5 Connection Diagram:

6.6 Lurreratzea:

6.7 Connect Accessories:

6.8 Power On the Controller:

7. Operation (LCD Interface)

7.1 Botoiak:

7.2 Status Description:

7.3 Errore kodeak:

7.4 Browse Interface:

7.5 Setting Parameters:

7.6 Load Modes:

8. Maximum Power Point Tracking (MPPT) Technology

9. Battery Charging Stages

A) Bulk Charging:

B) Constant Charging:

C) Float Charging:

10. Babes-funtzioak

11. Arazoak

12. Mantentzea

13. Zehaztapenak

Parametro elektrikoak:

Ingurumen-parametroak:

Parametro mekanikoak:

14. Conversion Efficiency Curves

Tracer1206AN G3/Tracer1206AN G3 BLE:

15. Erabiltzaileentzako aholkuak

16. Bermea eta Laguntza