GT-MPPT Solar controller

4.      The rated current of solar panel and load must be less than MPPT controllers rated current.

3.      Battery must be connected to the controller first, then the solar panels and load. To dissemble the system, Solar Panels must be removed first, then cut off the battery.

2.      Please pay attention to connection, do not connect the + - poles of battery and solar panels wrong.( Wrong connection will burn your MPPT controller)

1.      Please check the rated voltage of the solar panel, battery, load are all the same with 12V or 24V or 48V.

Attention:

If you need the MPPT controller recover work, please check the reasons and clear out the fault firstly. Then put a small stick such as toothpick, ball-pen tip inside the RESET hole, and press RESET button.

RESET Button: The rated output current of this MPPT solar charge controller is 10A, if there is short circuit or overload, the MPPT controller will switch off the output. (Load indicator off, Low voltage indicator off.)

3.      Charge Indicator, red, bright indicate the battery need to charge, flickering means float charging, off means charge has stop.

2.      It indicates that the voltage of battery is low if the Low Voltage Indicator (red) is on, and the load could not work properly. This is normal phenomenon. When the battery voltage recovers to 12.6V or (25.2v), the Load will be automatically working, at this time the indicator is off.

1.      It indicates that there is output and load could work properly if the Load light (green) is on, if its off, it indicates there is not output, load can not work.

Indicator: (Picture 1)

(Note: It is normal if the controller can not find Maximum Power Point within 10 minutes from system start.)

Simply Measure Method: For 12V system, measure the input voltage from solar panel with multi-meter (terminal 1, 2 of controller), it is normal if the voltage of solar panel more than battery voltage 0.5-6V. Generally, the higher input voltage, the better charge efficiency. For 24v and 48V system, the input voltage will be much higher than battery voltage

3.      Connect the +, - poles of the LOAD to the controller (5,6 from the left) firmly and correctly.

2.      Connect the +, - poles of the solar panel to the controller (1,2 from the left) firmly and correctly.

1.      Connect the +, - poles of the battery to the controller (3, 4 from left) firmly and correctly. The LOAD green LED is supposed to be on if the connection is right and controller is in good condition. If the LOAD green LED is not on, please check if the polarities of battery connected correctly. Only the connection could be preceded if the LOAD green LED is on.

Connection: (As indicated in Picture 3)

Solar Charge Controller: JUTA brand MPPT-10 Model solar charge controller Rated input Ampere is 10A. We have 12V, 24V and 48V three kinds of MPPT solar charge controllers. Fit for power of solar panels: 20200Wp12V, 40400Wp24V, 80-800Wp (48V).

Wires: The wires between solar panel with MPPT solar charge controller should be calculated according to the standard at 1mm? to 1 Ampere.

Solar Panel: 12V solar system should use 40pcs cells laminated solar panel. The maximum power point voltage is 18V above.  24V solar system should use 2pcs above mentioned solar panels. 48V solar system should use 4pcs above mentioned solar panels.

Choose the model:

As the related factors of solar system varies, such as the manufacture of solar panels, solar illumination intensity, environment temperature, efficiency of solar charge controller and so on, the actual power increase could be at 10-30%.

P/ PA =PB PA/ PA32.3%

Comparison: The power B is higher than power A..

 Area in drawing:

 Charge Power: PB=18.4*9.3=171.12w 

 Charge Current::  IB=9.3A 

 Charge Voltage: UB=18.4V,

MPPT Solar Charge Controller: Solar Panel works at point B state, the solar panel working voltage is much higher than battery voltage.

Area in drawing:

Charge Power: PA=13.2*9.8=129.36w

Charge Current:: IA=9.8A

Charge Voltage: UA=13.2V

Normal Solar Charge Controller: Solar Panel works at point A state, the solar panel working voltage is a little higher than battery voltage.

Schematic Diagram: Picture 2 shows typical 12V battery solar charge system V-A curve.

Reverse Polarity Connection Protection

Short Circuit Protection

Overloading Protection

Battery Reverse Current Protection

Over-discharge protection

Overcharge protection

Function: This MPPT controller not only has above mentioned special function, but also equipped with completely protecting and controlling functions:

The most important feature of this controller is intelligently tracking input voltage from solar panel, which could let solar panel always work at Maximum Power Point of V-A curve. Compared with normal solar charge controller, this MPPT controller could increase efficiency at 10%-30%.

The most important feature of this controller is intelligently tracking input voltage from solar panel