1. Ọja Ipariview
The Epever Tracer-BN series MPPT solar charge controller, including the Tracer3215BN model, is designed for advanced solar power systems. It features a common negative design, an advanced Maximum Power Point Tracking (MPPT) control algorithm, and a durable die-cast aluminum heat dissipation case. The integrated Modbus communication protocol with an RS485 interface allows for extended applications in various settings such as telecommunication base stations, household systems, RV systems, street lighting systems, and field monitoring systems.
2. Key Awọn ẹya ara ẹrọ
- MPPT tracking efficiency above 99.5%
- Maximum charge conversion efficiency as high as 98%
- Multiple load work modes for diverse applications
- Awọn iṣiro agbara akoko gidi iṣẹ
- Battery type selection: Sealed, Gel, Flooded, and User-programmable
- Extensive electronic protection mechanisms
- Standard Modbus communication protocol with RS485 interface
- Robust die-cast aluminum case design for durability and heat dissipation
3. Ọja irinše
The Tracer3215BN controller features clearly labeled terminals for PV input, battery connection, and load output, along with a communication port.
4. Technical Specifications (Tracer3215BN)
The following table details the technical specifications for the Tracer3215BN model, part of the Tracer-BN series.
| Paramita | Specification (Tracer3215BN) |
|---|---|
| Orukọ eto voltage | 12/24VDC or Auto |
| Iru batiri | Igbẹhin (aiyipada) / jeli / Ikun omi / olumulo |
| Batiri igbewọle voltage ibiti | 8-32V |
| Idiyele idiyele lọwọlọwọ | 30A |
| Ti won won yosita lọwọlọwọ | 20A |
| Agbara idiyele idiyele | 390W / 12V, 780W / 24V |
| O pọju. iyipada ṣiṣe | ≥98.0% |
| Titele ṣiṣe | ≥99.5% |
| Max. PV ìmọ Circuit voltage | 150V (at minimum operating environment temperature), 138V (at 25°C environment temperature) |
| MPP voltage ibiti | Batiri voltage +2V ~ 108V |
| Isọdọkan voltage | Sealed:14.6V, Flooded:14.8V, User-defined:9-17V |
| Igbega voltage | Gel:14.2V, Sealed:14.4V, Flooded:14.6V, User-defined:9-17V |
| Leefofo voltage | Gel/Sealed/Flooded:13.8V, User-defined:9-17V |
| Vol kekeretage atunso voltage | Gel/Sealed/Flooded:12.6V, User-defined:9-17V |
| Vol kekeretage ge asopọ voltage | Gel/Sealed/Flooded:11.1V, User-defined:9-17V |
| Ijẹ-ara-ẹni | ≤60mA (12V); ≤30mA (24V) |
| Iwọn otutu biinu | -3mV/°C/2V (aiyipada) |
| Ojulumo ọriniinitutu | ≤95% (N.C.) |
| Apade | IP30 |
| Ibaraẹnisọrọ ni wiwo | RS485 (RJ45) |
| Ilẹ-ilẹ | Odi ti o wọpọ |
| Iwọn iwọn otutu ti nṣiṣẹ | -35°C ~ +55°C |
| Awọn iwọn (LxWxH) | 280.7 x 159.7 x 60 mm |
| Apapọ iwuwo | 2.2 kg |
Akiyesi: Voltage point is for a 12V system; multiply by 2 for a 24V system.
5. Fifi sori ẹrọ ati Oṣo
5.1 Awọn iṣọra aabo
- Ensure all wiring is done by qualified personnel.
- Maṣe yọ ideri kuro; ko si awọn ẹya olumulo-iṣẹ inu.
- This equipment is designed for DC voltage to DC equipment.
- Always disconnect power sources before making or breaking connections.
5.2 Iṣagbesori
- Mount the controller vertically on a wall or other suitable surface.
- Ensure adequate air circulation around the controller for proper heat dissipation. Avoid mounting in enclosed spaces without ventilation.
- Keep the controller away from flammable materials, corrosive gases, and direct sunlight.
5.3 Wiring Sequence
Follow this sequence carefully to avoid damage to the controller or other components:
- So batiri pọ: Connect the battery to the controller's battery terminals (BATT). Ensure correct polarity (positive to positive, negative to negative). The controller will detect the system voltage (12V tabi 24V) laifọwọyi.
- Connect the Solar Panel (PV): Connect the solar panel array to the controller's PV terminals. Ensure correct polarity. The controller will begin charging the battery.
- Connect the DC Load (Optional): Connect the DC load to the controller's load terminals. Ensure correct polarity.
- Connect Communication Cable (Optional): If using the Modbus communication feature, connect the RS485 (RJ45) cable to the COM port.
WARNING: Never connect the solar panel array to the controller without a battery connected first. This can cause damage to the controller.
6. Awọn ilana Iṣiṣẹ
6.1 Ibẹrẹ Agbara-soke
Once all connections are secure and correctly wired, the controller will power on automatically. Observe the indicator lights for proper operation. The controller will automatically detect the system voltage (12V/24V) and begin the MPPT charging process.
6.2 Batiri Iru Yiyan
The Tracer3215BN supports various battery types: Sealed, Gel, Flooded, and User-programmable. Refer to the controller's display or accompanying software (if applicable) to select the appropriate battery type for optimal charging and battery longevity. Incorrect battery type settings can lead to undercharging or overcharging.
6.3 Load Work Modes
The controller offers multiple load work modes to manage the DC output. These modes typically include:
- Iṣakoso Afowoyi: Turn the load on or off manually.
- Iṣakoso ina: Fifuye wa ni titan ni aṣalẹ ati pipa ni owurọ.
- Light Control + Timer: Fifuye wa ni titan ni aṣalẹ ati duro si titan fun iye akoko ti a ṣeto.
- Dual-Time Control: Allows for two separate timer periods.
- Ipo Idanwo: For system testing.
Consult the controller's interface or communication software for detailed instructions on configuring load work modes.
6.4 Real-time Energy Statistics
The controller provides real-time energy statistics, allowing users to monitor power generation from solar panels, battery charge/discharge status, and load consumption. This data can be accessed via the controller's display or through the Modbus communication interface with compatible software.
7. Itọju
Regular maintenance ensures the longevity and optimal performance of your Tracer3215BN solar charge controller.
- Mimọ: Periodically clean the exterior of the controller with a dry cloth. Ensure ventilation openings are free from dust and debris.
- Awọn isopọ: Annually check all wiring connections for tightness and corrosion. Loose connections can lead to power loss or overheating.
- Ayika: Ensure the installation environment remains within the specified operating temperature range (-35°C to +55°C) and relative humidity (≤95% N.C.).
- Ayewo: Visually inspect the controller for any signs of damage, such as cracks, discoloration, or unusual odors.
- Ko si Awọn apakan Iṣẹ Olumulo: As stated in the safety warnings, the controller contains no user-serviceable parts. Do not attempt to open or repair the unit yourself. Refer servicing to qualified service personnel.
8. Laasigbotitusita
If you encounter issues with your Tracer3215BN controller, consider the following basic troubleshooting steps:
- Ko si Agbara/Ifihan:
- Check battery connections and ensure they are secure and have correct polarity.
- Daju batiri voltage is within the acceptable range (8-32V).
- Ko si gbigba agbara lati PV:
- Ensure solar panel connections are secure and have correct polarity.
- Check PV open circuit voltage and ensure it is within the controller's limits (Max. 150V).
- Verify there is sufficient sunlight reaching the solar panels.
- Fifuye ko ṣiṣẹ:
- Check load connections and polarity.
- Ensure the battery has sufficient charge. The controller will disconnect the load if battery voltage kere ju.
- Verify the selected load work mode is appropriate (e.g., not in "off" mode).
- Check for overcurrent protection; if the load draws too much current, the controller may shut off the output.
- Iwa Alailẹgbẹ:
- Ensure the correct battery type is selected in the controller settings.
- Check for any error codes or indicators on the controller's display.
For persistent issues or complex problems, please contact Epever customer support or your local dealer.
9. Atilẹyin ọja ati Support
The Epever Tracer3215BN MPPT Solar Charge Controller is CE certified, indicating compliance with European safety, health, and environmental protection requirements.
For warranty information, technical support, or service inquiries, please contact the vendor or manufacturer directly. Keep your purchase receipt and product serial number handy when seeking support.
