The EPEVER Tracer AN Sequence Photo voltaic Demand Controller is really a hugely economical solar controller made for off-grid solar programs. Depending on multiphase synchronous rectification engineering, it assures optimized Electricity conversion and procedure stability for a wide array of photovoltaic (PV) purposes.
Important Attributes in the EPEVER Tracer AN Sequence Controller
The Tracer AN sequence utilizes EPEVER Solar Cost Controller technological innovation for excellent photo voltaic Electricity harvesting. Critical capabilities involve:
Multiphase Synchronous Rectification (MSR) for enhanced Electricity conversion.
Highly developed MPPT Algorithm with >ninety nine% performance.
Twin-Phase Charging for Improved battery daily life.
LCD Screen with actual-time knowledge checking.
Many Load Regulate Modes which include guide and timer.
Thorough Electronic Protections towards overcharging, more than-discharging, brief circuits, and reverse polarity.
Stage-by-Step Guide to Creating the EPEVER Tracer AN Sequence Controller
one. Unboxing and Getting ready the Controller
Make sure all components are included: Tracer AN device, temperature sensor, interaction cables, and person handbook.
Confirm the model quantity and voltage ratings match your solar panel and battery specifications.
two. Mounting the Demand Controller
Decide on a effectively-ventilated, dry area close to the battery lender.
Safe the Tracer AN controller using the supplied mounting brackets.
Maintain good clearance for warmth dissipation.
3. Wiring the Solar Demand Controller
Warning: Often adhere to good basic safety protocols and ensure the method is run off in advance of connecting parts.
Action 1: Connect the battery terminals to your cost controller (good to positive, detrimental to adverse).
Stage two: Hook up the solar panel array into the PV input terminals.
Phase 3: Join the load terminals if utilizing a direct load link.
Stage four: Double-Test all connections for polarity and tightness.
4. Configuring the Controller Options
Energy on the controller by connecting the battery to start with.
Make use of the LCD Display screen to navigate the options menu.
Configure:
Battery Type: AGM, GEL, Flooded, Lithium.
Charging Parameters: Absorption voltage, float voltage.
Load Command Modes: Guide, timer, light control.
five. Monitoring and Facts Logging
The Tracer AN Series supports serious-time checking using the MT50 distant meter.
Information is usually logged through the RS485 communication port working with application like Photo voltaic Station Computer.
Distant monitoring can be done With all the EPEVER WiFi module.
six. Troubleshooting Frequent Issues
Situation 1: No Electric power Output
Verify battery voltage and connections.
Validate PV panel voltage exceeds battery voltage.
Challenge 2: In excess of-Voltage Protection
Confirm the photo voltaic array’s voltage score.
Regulate program parameters if vital.
Concern 3: No Battery Charging
Inspect PV wiring for continuity.
Affirm MPPT settings from the menu.
Benefits of the Tracer AN Sequence with MSR Technology
The multiphase synchronous rectification technological innovation ensures:
Increased Performance: Lowered Electrical power losses in the course of conversion.
Increased Reliability: Steady general performance below variable hundreds.
Longer Battery Daily life: Dependable and precise charging profiles.
Conclusion
The EPEVER Photo voltaic Demand Controller with multiphase synchronous rectification technologies is really an exceptional choice for optimizing solar energy technology and extending battery daily Click Here life. By adhering to the above setup guidebook, end users can assure greatest efficiency and method longevity.