Solar Charge Controller Max-MPPT User Manual
Solar charge controller
Dear Clients,
Thanks for selecting the Max-MPPT series solar controller. Please take the time to read this user manual, this will help you to make full use of many advantages the controller can provide your solar system.
This manual gives important recommendations for installing and using and so on. Read it carefully in your own interest please.
3.Dimensions
1.Description of Function
Max-MPPT series solar controller is based on an advanced maximum power point tracking (MPPT) technology developed, dedicated to the solar system, the controller conversion efficiency up to 98%.
It comes with a number of outstanding features, such as:
Innovative MPPT technology, conversion efficiency up to 98%
Many choices of battery type and working mode
Clear readable display of charge/discharge, battery and error description
12V/24V automatic recognition
Temperature compensation
Perfect EMC design
Four stage charge way: MPPT, boost, equalization, float
Full automatic electronic protect function
189
73
164
2.Safety instructions and waiver of liability
2.1 Safety
①The solar charge controller may only be used in PV systems in accordance with this user manual and the specifications of other modules manufacturers. No energy source other than a solar generator may be connected to the solar charge controller.
②Batteries store a large amount of energy, never short circuit a battery under all circumstances. We strongly recommend connecting a fuse directly to the battery to protect any short circuit at the battery wiring.
③Batteries can produce flammable gases. Avoid making sparks, using fire or any naked flame. Make sure that the battery room is ventilated.
④Avoid touching or short circuiting wires or terminals.
Be aware that the voltages on special terminals or wires can be as much as twice the battery voltage. Use isolated tools, stand on dry ground, and keep your hands dry.
⑤Keep children away from batteries and the charge controller.
2.2 Liability Exclusion
The manufacturer shall not be liable for damages, especially on the battery, caused by use other than as intended or as mentioned in this manual or if the recommendations of the battery manufacturer are neglected. The manufacturer shall not be liable if there has been service or repair carried out by any unauthorized person, unusual use, wrong installation, or bad system design.
4.Installation
The following diagrams provide an overview of the connections and the proper order.
③ ④ ② ① ⑥ ⑤
To avoid any voltage on the wires, first connect the wire to the controller, then to the battery, panel or load.
Make sure the wire length between battery and controller is as short as possible.
Recommended minimum wire size:
10A : 2.5mm²; 15/20A : 4mm².
Be aware that the negative terminals of Max-MPPT are connected together and therefore have the same electrical potential. If any grounding is required, always do this on the negative wires.
Connecting capacitive load may trigger short circuit protection.
Page 1 of 4 pages
Solar Charge Controller Max-MPPT User Manual
4.1 Mounting location requirements
Do not mount the solar charge controller outdoors or in wet rooms. Do not subject the solar charge controller to direct sunshine or other sources of heat. Protect the solar charge controller from dirt and moisture. Mount upright on the wall on a non-flammable substrate. Maintain a minimum clearance of 10cm below and around the device to ensure unhindered air circulation. Mount the solar charge controller as close as possible to the batteries.
4.2 Fastening the solar charge controller
Mark the position of the solar charge controller fastening holes on the wall, drill 4 holes and insert dowels, fasten the solar charge controller to the wall with the cable openings facing downwards.
4.3 Connection
We strongly recommend connecting a fuse directly to the battery to protect any short circuit at the battery wiring.
Solar PV modules create current whenever light strikes them. The current created varies with the light intensity, but even in the case of low levels of light, full voltage is given by the modules. So, protect the solar modules from incident light during installation. Never touch uninsulated cable ends, use only insulated tools, and make sure that the wire diameter is in accordance with the solar charge controller’s expected currents. Connections must always be made in the sequence described below.
1st step: Connect the battery
Connect the battery connection cable with the correct polarity to the middle pair of terminals on the solar charge controller (with the battery symbol). If the system is 12V, please make sure that the battery voltage is within 10V~16V, else if the system is 24V, the battery voltage should between 20V~30V. If the polarity is correct, the LED on the controller will begin to show.
2nd step: Connect the solar module
Ensure that the solar module is protected from incident light. Ensure that the solar module does not exceed the maximum permissible input current.
Connect the solar module connection cable to the correct pole of the left pair of terminals on the solar charge controller (with the solar module symbol).
3rd step: Connect loads
Connect the load cable to the correct pole of the right pair of terminals on the solar charge controller
(with the lamp symbol). To avoid any voltage on the wires, first connect the wire to the load, then to the controller.
4th step: Final work
Fasten all cables with strain relief in the direct vicinity of the solar charge controller (clearance of approx.10cm).
5.Starting up the controller
T e con r lle a t e o o .
t ry the co r ll r a V l i bat e voltage is within 20 V to 30V, n impl s 4 V s ys tem .
e le op ra ing ran g( 1 u , a tat us display ac o d
Charge & Error disp ay .
5.
3B at tery Ty pe and Ge a r s h lt s e i
V a h o de t e o 1 ch an t g
Day/Night threshold
Day/Night threshold
Sunset
Light on
Standard
Sunrise
Light on
Light off
D2D(Dusk to Dawn)
Page 2 of 4 pages
Solar Charge Controller Max-MPPT User Manual
6.Display Functions
The controller is equipped with 6 LEDS.
In normal operation, the controller shows charge or discharge status, battery capacity and load status.
7. Interface Description
DIP Switch
Reserved
Interface
6.1 Battery Capacity display:
Yellow 1 Yellow 2
Red Green
Red On, Energy of Battery <25%.
Yellow 1 On, Energy of Battery is about 25~50%.
Yellow 2 On, Energy of Battery is about 50~75%.
Green On, Energy of Battery is about 75~100%.
!
The percentage corresponds to the available energy until low voltage disconnect in relation to a fully charged battery.
6.2 C harge & Error display (INFO):
INFO green flashing, that is charging (fast flash
Red Green for MPPT charge state, slow flash for non MPPT charge state); otherwise, no charge;
INFO Red On, is Error Status. For more details,
Error please see table below.
Display Reason Remedy
Loads are not supplied
Battery is not being charged during the day
Red(INFO and Bat.)
LED are lighted
Battery is low
Red
Red LED is flashing
Fast flash: over current/short
circuit of loads
Slow flash: over temperature protection
Red Green
Green LED is off
Solar array faulty or wrong polarity
Over voltage protection
Does not recognize the system
voltage
Load will reconnect as soon as battery is recharged
Switch off all loads.
Remove short circuit.
Auto recovery when
the temperature is below set value.
Remove faulty
connection/ reverse polarity
All LED
Lighted
Battery voltage too high
Red(INFO) and
Green(Bat.)
LED are lighted
(>15.5V/31V)
Battery wires or battery fuse damaged, battery has high resistance
Check if other sources overcharge the battery.
If not, controller
is damaged.
Check battery wires, fuse and battery.
The battery voltage is not within the normal operating rang at start-up
Charge or discharge the battery to make the voltage within the normal range
7.1 DIP Switch ON
1 2
7.1.1 DIP switch stall 1 -- Work mode (Standard and D2D) settings, the default is Standard(As shown in figure). If slide the DIP switch to “ON”, the controller works in D2D mode.
ON ON
D2D
Standard
1 2 1 2
7.1.2 DIP switch stall 2 -- Battery type selection, the default setting is liquid battery (As shown in figure). If slide the DIP switch to "ON", the battery type is selected as GEL.
ON ON
GEL
Liquid
1 2 1 2
7.2 Reserved Interface
External temperature sensor and COM communication interface , please consult the supplier.
Solar terminal Battery terminal Load terminal
Reverse polarity
Short circuit
Protected *1
Protected
Protected *1
Protected *3
Protected *2
Switches off immediately
Switches off with delay
Over current
Reverse
Current
Protected
Over voltage Max.100V *4
Under voltage
Max. 40V
Over temp.
Switches off switches off the load if the temperature reaches the set value.
*1 Controller can not protect itself in a 24V system when polarity of battery or solar is reversed.
*2 Controller can protect itself, but loads might be damaged.
*3 Battery must be protected by fuse, or battery will be permanently damaged.
*4 The solar panel voltage should not exceed this limit for a long time as voltage protection is done by a varistor.
!
Warning: The combination of different error conditions may cause damage to the controller.
Always remove the error before you continue connecting the controller.
Page 3 of 4 pages
Solar Charge Controller Max-MPPT User Manual
9.Technical Data
Technical Data
System voltage
Max solar current or load current
Max MPPT efficiency
Max PV input power
Float voltage
Boost voltage
Equal voltage
Day/Night threshold
M a x - M P P T 1 0 1 0 M a x - M P P T 1 5 1 0
12V/24V automatic recognition
1 5 A 1 0 A
98%
12V: 150W ,24V: 300W
)
)
12V: 225W, 24V: 450W
) (Liquid)
5.0V/10.0V
Load disconnect voltage
Load reconnect voltage
11.2~11.8V/22.4~23.6V
12.5V/25.0V
Battery type
Work mode
Temperature compensation
Max solar voltage
Max battery voltage
Dimensions/Weiht
Max power consumption
Temp. Range during operation
Storage temperature
Relative humidity
Case protection
Liquid, Gel
Standard, D2D(Dusk to Dawn)
-4.17 mV/K per cell (Boost and Equal charge),
-3.33 mV/K per cell (Float charge)
100 V
40 V
164*189*73mm / 800g
10mA
-35℃ ~ +55 ℃
164*189*73mm / 900g
-40℃ ~ +80 ℃
10%~90% Non-condensation
IP22
M a x - M P P T 2 0 1 0
2 0 A
12V: 300W, 24V: 600W
Page 4 of 4 pages