MARS 6000W-21000W 9000w Hybrid MPPT Wind and Solar Controller 12V 24V 48V Dump Load Charging Regulator with WIFI GPRS Ethernet

300.00

Description

MPPT Wind Solar Hybrid Charge Controller

Two Big Power 21000W(21KW)

Wind:0 – 12000W (12KW) + Solar:0 – 9000W (9KW)

12V 24V 48V Auto Match

Remote WiFi Communication(Optional)

Product Description:

This type controller is 12/24/48V system voltage automatically reorganize, the system voltage depends on your battery bank, for example, if your battery bank is 24V, then your the system voltage is 24V, in the same way, DC load Rated Voltage is 24V.

Below is the matching recommendation for these different system voltage:

12V battery bank: 12V wind generator + about 18V Vmp solar panel array

24V battery bank: 24V wind generator + about  36V Vmp solar panel array

48V battery bank: 48V wind generator + about  72V Vmp solar panel array

Below is clarification for hybrid controller model:

eg. 14000W6080

means 0 – 8000W Wind + 0 – 6000W Solar

means The system can support MAX rated 8000W wind generator and MAX rated 6000W solar panel array.

If you need the latest parameter sheet, please share us your email, we will sent to you.

Product Highlights.

The controller adopts large screen design, the display information is more comprehensive, the display interface is clearer, the controller supports WIFI module and GPRS module to expand and implement APP cloud monitoring (optional).

Product Application.

The controller is suitable for wind solar off-grid system, automatically controls charging and discharging, and can be applied in communication base stations, household systems, street lighting systems, monitoring and other fields.

Product Features.

(1) The display adopts color screen design, the display information is more comprehensive, the display interface is clearer, and the 4-key man-machine interface and operation setting are more convenient;
(2) The MPPT control algorithm used for Wind charging ensures MPPT charging at low wind speed;
(3) Wind three-stage charging mode: MPPT charging; lifting charging; floating charging.
(4) Solar three-stage charging mode: CC (constant current); lifting charging; floating charging.
(5) 12V/24V battery system automatically recognizes, or 12V/24V/48V battery system automatically recognizes (Optional).
(6) RS485 communication can provide communication protocol to facilitate unified management and secondary development for customer;
(7) The controller operating parameters can be viewed and set through the mobile phone APP( Optional );
(8) The controller has comprehensive protection functions such as overcharge, over discharge and overload;
(9) Four battery types charging mode can be selected for operation: Lead-acid battery, Ternary lithium battery, Lithium iron phosphate, Custom ;
(10) The controller has various load control modes, the load has two outputs, and the output power and time can be set;
(11) The controller has wide adaptability, adaptive day and night.

Product Parameter:

1. Partial system parameter table

Model 6000W3030 8000W4040 9000W4545 10000W5050 15000W6090 19000W80110 21000W90120 
System Rated Voltage

12V(9V-16VDC)  /  24V(18V-32VDC)  /  48V(42V-60VDC)

Solar Module Voc

27.6V(12V)  /   55.2V(24V)  /   105V(48V)

Vmp

>Vbat+1V

Imp 166A(12V)   125A  (24V)     63A  (48V) 222A(12V) 166A  (24V)    83A  (48V) 250A(12V) 188A  (24V)     94A  (48V) 250A(12V) 208A  (24V)    104A  (48V) 250A(12V)

250A (24V)

125A  (48V)

250A(12V)   250A  (24V)      166A  (48V) 250A(12V) 250A   (24V)   189A   (48V)
Workable Power 0W~3000W 0W~4000W 0W~4500W 0W~5000W 0W~6000W 0W~8000W 0W~9000W
Wind Turbine

Rated Voltage

12VAC(20.8VDC)/  24VAC (41.6VDC)/  48VAC(83.1VDC)

Rated Current 166A(12V)   125A  (24V)     63A  (48V) 122A(12V)   166A  (24V)     83A  (48V) 250A(12V)   188A  (24V)     94A  (48V) 250A(12V)   208A  (24V)     104A  (48V) 250A(12V)   250A  (24V)     189A  (48V) 250A(12V)   250A  (24V)     230A  (48V) 250A(12V)   250A  (24V)     250A  (48V)
Workable Power 0W~3000W 0W~4000W 0W~4500W 0W~5000W 0W~9000W 0W~11000W 0W~12000W
Max Open circuit voltage

25.6VAC(12VAC)  /  51.2V(24VAC)  /  102.4V(48VAC)

Special Note: The following are the optimal parameter settings, Suggest do not modify
Uunder Over Discharge Voltage

10.8V  /  21.6V  /  43.2V

Runder Over Discharge Return

13.1V  /  26.2V  /  52.4V

Uover

Over Charge Voltage

15.5V  /  31.0V  /  62.0V

Rover Over Charge Return

15.0V   /  30.0V  /  60.0V

BCV

Increase Charge

14.4V  /  28.8V  /  57.6V

Float Floating Charge

13.8V  /  27.6V  /  55.2V

Ufanbraking

Wind Breaking Voltage

25.6V  /  51.2V  /  102.4V

DC Load output L1 & L2 Out Power 0W~1400W 0W~2800W 0W~5600W
Rated Voltage 12VDC 24VDC 48VDC
Rated Current

120A( per one 60A)

Battery Type

Lead-acid Battery , Gel Battery , LiFePO4 , Ternary lithium , etc

Operation Mode

Home use   or    Street light

Environment Temperature 1) Working:-20℃~50℃; 2)Storage:-30℃~70℃
Humidity (°C) 10% ~ 90% No condensation
Protection Grade IP30

2. Battery Parameter

Lead acid battery (single 12V)

System rated voltage / V

12V system (1 string)

24V system (2 strings)

48V system (4 strings)

12V default value

Overvoltage (overcharge) / V

13~17V

26~34V

52~68V

15.5V

Overvoltage return / V

13~17V

26~34V

52~68V

15V

Increase charging voltage / V

9~15V

18~30V

36~60V

14.4V

Floating charge voltage / V

9~15V

18~30V

36~60V

13.8V

Undervoltage /V

7~13V

14~26V

28~52V

10.8V

Undervoltage return voltage /V

9~15V

18~30V

36~60V

13.1V

Ternary lithium battery (single section 3.7V)

System rated voltage

12V system (default 3 strings)

24V system (default 6 strings)

48V system (default 12 strings)

3 string defaults

Overvoltage (overcharge) / V

10.5~15V

21~30V

42~60V

13.5V

Overvoltage return / V

10.5~15V

21~30V

42~60V

12.6V

Increase charging voltage / V

10.5~15V

21~30V

42~60V

12.4V

Floating charge voltage / V

6~13.5V

12~27V

24~54V

12.0V

Undervoltage /V

6~13.5V

12~27V

24~54V

9.3V

Undervoltage return voltage /V

6~13.5V

12~27V

24~54V

10.5V

Number of strings

3~4

6~8

14~18

3

Lithium iron phosphate (single section 3.2V)

System rated voltage

12V system (default 3 strings)

24V system (default 6 strings)

48V system (default 12 strings)

4 string defaults

Overvoltage (overcharge) / V

9~12V

18~24V

36~48V

15.6V

Overvoltage return / V

9~12V

18~24V

36~48V

14.8V

Increase charging voltage / V

9~12V

18~24V

36~48V

14.2V

Floating charge voltage / V

9~12V

18~24V

36~48V

13.6V

Undervoltage /V

6~12V

12~24V

24~48V

11.2V

Undervoltage return voltage /V

6~12V

12~24V

24~48V

12.8V

Number of strings

3~4

6~8

14~18

4

Details Images:

Product Features:

FAQ

1.Why choose MARS ENERGY as a provider of products?

(1) Mars Energy is famous brand on the world market in new energy business. We have strong R&D technical teams and professional production lines;

(2) Mars Energy is a manufacturer specializing in the production of controller from China. It has a complete quality management system and cost control advantages;

(3) Mars Energy is a leader in cross-border e-commerce. After many years of operation, Mars Energy has completed the integration of the supply chain ,Cheapest shipping cost Fastest to reach all over the world

(4) Mars Energy has established sales and after-sales teams in several countries, which can provide pre-sales guidance and after-sales service in a local language;

(5) Since becoming in 1999, Mars Energy has won praises from more and more customers around the world for its professionalism, responsible attitude and high quality.

2.How to connect these 3 terminals of controller with my wind output wires?

(1) To AC wind turbine, any one of three wires from wind turbine can be connected with any terminal of wind on your controller. For they are non-electrode;

(2) To DC wind output is 2 wires(Positive Negative) , you can connect them with any wind terminals on your controller.

3.How many connecting ways user can choose when using this controller?

For the wind charging and Solar charging are independent, so user can choose any one of the following as the connection method :

(1) Only connect wind turbine generator to charge battery;

(2) Only connect solar to charge battery;

(3) Connect wind turbine and solar to build a hybrid wind solar power system to charge battery.

4.Can i only connect wind turbine as generator to charge battery when i get my controller?

Yes, you can to do so. But for the main purpose of such controller designs for low power consumption equipment charging, such as: street lights and monitoring etc. So establish hybrid wind solar system can get better charging guarantee. Because most of low-power wind turbine is installed in or close to the residential place, wind generation efficiency is not high due to the low wind speed and short working time.

5.How to connect my system when I get this controller?

We strongly recommend user to install air switch between all DC and AC input or output. Then please turn on the breaker/ air switch in this order:

(1) First turn on the breaker between battery and controller;

(2) Second turn on the breaker between wind and controller;

(3) Third turn on the breaker between DC load and controller;

(4) Final turn on the breaker between Solar and controller.

Remark: If you want to shut down the system, please proceed in the reverse order as above.

6.Do i need to install additional light protecting for my power system?

Yes, it is best way to install additional light protecting.

7.How the controller to operate when the wind speed is too fast?

(1) For the output voltage or current from wind generator which beyond the safety range, the controller will automatically turn on the brake and gradually slow down. Meanwhile, the dump load will start to consume excess current immediately.

(2) But when encountering strong storm weather, such as hurricane, typhoon, it is strongly recommended to put down the wind turbine immediately.

8.How to design hybrid wind solar power system voltage, 12V, 24V, 48V, which one is best to me?

(1) The system voltage is equivalent to the voltage of the battery pack;

(2) Once the battery voltage designed, the input voltage from wind turbine generator and solar modules must be matched according to the specifications in the parameter table;

(3) Therefore, users cannot simply think that more lower voltage design, can get more bigger charging current but ignore that the excessive current has exceeded the working range of the controller or battery to damage the controller or battery.

9.Why designed in MPPT?

(1) Controller charging adopted booster MPPT technology, which makes under low wind speed and low Voltage, the Wind turbine’s electricity can still be used;

(2) In the high wind speed or the Wind turbine of power is beyond the scope of the battery and load absorption, the controller immediately launched the step-less unloading function,protection system of the equipment.

10.When the wind generator is connected to the controller, why its running speed becomes very slow immediately?

(1) The battery reaches the floating voltage;

(2) The rated output voltage of the wind generator is much higher than the battery, because the speed of the wind generator is proportional to the output voltage, and the voltage is dragged by the battery, so the speed will be very low;

11.Why wind generator dump load when the controller displays small current?

The controller protect the all system by detecting battery voltage, charging current and temperature and so on. When the battery reach floating charge voltage or high temperature, the wind generator will dump load, no matter how much charging current it is.

12.Why there showing no charging current on LCD screen but the wind is running or the solar is working?

Only when the input voltage of solar panels or wind generator higher than battery then it can charge.But the prerequisite is that the battery is properly connected and not fully charged.

13.Why the LCD does not light up?

For the power of controller comes from battery or solar when its working. So please check solar input or battery as follows

(1) The battery didn’t connect the controller well, please check the battery and controller connection

(2) Battery is damaged, please check and replace the battery;

(3) In good sun day the solar input is workable or not.

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