Maximum Power Point Tracking (MPPT) solar charge controllers are significantly more efficient than the cheaper Pulse Wave Modulation (PWM) solar charge controllers. Please be very careful when buying this type of MPPT charge controller as there are charge controllers on the market which have model numbers such as MPPT T40 which are only PWM charge controllers. See YouTube review videos below. A true MPPT solar charge controller needs a large transformer coil and capacitors inside, it is a bigger heavier unit and will usually takes at least 100V-150V input.
An MPPT solar charge controller in cool conditions can produce 25-30% more battery charging power than a simple PWM controller and you can connect high voltage panels to lower voltage battery banks. By using higher voltage on the panel side will also benifit by less volt drop and can use thinner cables. On large arrays we run everything at 100V - 150V.
EPSolar charge controllers have established themselves for almost 10 years. We are offering their latest EPEver range of excellent value Tracer A series and iTracer MPPT solar charge controllers. Epsolar/ EpEver has passed ISO9001. All products have CGC-solar, CE, ROHS, FCC and ETL certificates and are sold in over 120 countries worldwide
Cheaper PWM charge controllers are a good low cost solution for small systems only. To fully exploit the potential of MPPT charge controllers, the solar panel array voltage should be substantially higher than the battery voltage and is generally recommended for systems of 100-150W and upwards. The MPPT controller enables higher PV system voltages which can then reduce cabelling costs by allowing for smaller cable cross sectional areas. The MPPT controller will also harvest substantially more power when the solar cell temperature is low (below 45°C), or very high (above 75°C).
To calculate which size controller you need, take the peak solar panel watts and divide by the / battery voltage to give the MPPT rated charge current in Amps, for example 150W/12V = 12.5A, therefore a 20A rated charge controller is recommended.
Technical - Tracer A Series 4210A
Nominal System Voltage 12/24V Auto
Battery Input Voltage Range 8V ~ 32V
Max Charge/ Discharge Current 40A
Max. PV Open Circuit Voltage 100V (At minimum operating environment temperature)
Max. PV Open Circuit Voltage 92V (At 25 DegC operating environment temperature)
MPPT Voltage Range +2V ~ 72V
Max Rated Charging Power (40A), 520W (12V), 1040W (24V)
Max. PV Array Input Power 1560W (12V), 3120W (24V)
Wiring Connections, Solar +/-, Battery +/-, Power Output +/-, Temp Sensor, COM RJ45
Working Environment Temperature Range - 25 to +45 DegC
Humidity Range <95%
Dimensions 252mm x 180mm x 63mm
Power Terminals 6AWH (12mm sq)
Battery Temperature Sensor Cable
RS485 to USB Computer Cable
MT50 Remote Metre