At night or rainy days it automatically get grid AC power. It's mainly used for school classroom, hospital, restaurant, shops, office…
With APP monitor and control function through WIFI
Payment:
TT/LC/PAYPAL/WESTUNIONProduct Origin:
ChinaShipping Port:
Shanghai/Ningbo/ShenzhenLead Time:
15daysOrder(MOQ):
1The ACDC Hybrid Solar Air Conditioner is different as the regular DC inverter air conditioners. During the day.it runs directly on DC power from solar panels. With theintelligent Power Management technology, this systemcan directly utilize the DC power from the solar panels.no longer need an inverter, controller or battery.During the sunshine day, when the solar powergenerated is bigger than the air conditioner powerconsumption, the ACDC hybrid solar air conditioner canget most power from the solar panels, the efficiencyhigh up to SEER36 rating. The unit can be connectedwith up to 380v/10A solar DC power. This system isdesigned for hybrid operation by utilizing the solarproviding all the power required during sunshine hours.This system primarily uses solar power, and mixes it withnormal 220v~240v AC power if needed.
Specification of solar air conditioner
Model | Unit | ACDCBLW-12K | ACDCBLW-18K | ACDCBLW-24K | |
Climate Type | Tropical</= 58ºC |
|
T3/T1 | T3/T1 | T3/T1 |
Application area | m2 | 12-20 | 20-30 | 30-42 | |
Power Supply |
AC Power | Ph-V-Hz | 1Ph 208V-240V/50-60HZ | 1Ph 208V-240V/50-60HZ | 1Ph 208V-240V/50-60HZ |
DC Power (PV in Series) | V | 80-380V | 80-380V | 80-380V | |
DC Power Current | A | </=10A | </=10A | </=10A | |
Adviced Solar Panel | Pcs | (3-4)*330W in series | (3-6)*330W in series | (3-8)*330W in series | |
Rated Cooling |
Capacity(T1) |
W | 3510(900-3900) | 5070(1200-6000) | 6450(1800-7900) |
BTU | 12000(3000-13300) | 17300(4100-20400) | 22000(6100-27000) | ||
Power input(T1) | W | 940(190-1270) | 1400(220-2100) | 1790(300-3200) | |
Capacity(T3) |
W | 2910 | 4290 | 5130 | |
BTU | 9900 | 14700 | 17500 | ||
Power input(T3) | W | 1050 | 1630 | 1940 | |
Rated Heating |
Capacity |
W | 4100(1000-4500) | 6100(1200-6800) | 7800(1800-9100) |
BTU | 14000(3000-15300) | 20800(4100-23000) | 26600(6100-31000) | ||
Power input | W | 1170(190-1700) | 1770(220-2500) | 2290(300-3500) | |
T1 EER (W/W)/ (BTU/W) | / | 3.75/12.75 | 3.60/12.35 | 3.60/12.30 | |
T3 EER (W/W)/ (BTU/W) | / | 2.75/9.45 | 2.65/9.00 | 2.65/9.00 | |
COP (W/W)/ (BTU/W) | / | 3.50/11.95 | 3.45/11.75 | 3.40/11.60 | |
Dehumidification capacity | L/h | 1.3 | 1.7 | 2.5 | |
Compressor |
Model | / | WHP04200 | WHP05600 | 5RD198 |
Type | / | 2xRotary Inverter | 2xRotary Inverter | 2xRotary Inverter | |
Indoor fan motor |
Model |
|
BLDC-15W | BLDC-45W | BLDC-45W |
Speed(Turbo/Hi/Mi/Lo) | r/min | 1300/1200/1100/950 | 1050/950/850/750 | 1350/1250/1150/1000 | |
Indoor air flow(Turbo/Hi/Mi/Lo) | m3/h | 540/485/435/350 | 980/880/740/620 | 1290/1180/1070/900 | |
Indoor noise level (Turbo) | dB(A) | ≤42.5 | ≤46 | ≤50 | |
Indoor unit |
Dimension(W×H×D) | mm | 840×205×295 | 1080×330×237 | 1080×330×237 |
Packing (W×H×D) | mm | 920×290×360 | 1140×300×382 | 1140×300×382 | |
Net weight/Gross weight | Kg | 9.0/12.5 | 15.0/18.5 | 15.0/18.5 | |
Outdoor fan motor |
Model | / | BLDC-40W | BLDC-55W | BLDC-75W |
Speed | r/min | 880 | 880 | 850 | |
Outdoor air flow | m3/h | 2100 | 2200 | 3300 | |
Outdoor noise level | dB(A) | ≤52 | ≤55 | ≤58 | |
Outdoor unit |
Dimension(W×H×D) | mm | 802×564×323 | 802×564×323 | 900×700×337 |
Packing (W×H×D) | mm | 910×622×405 | 910×622×405 | 1006×755×418 | |
Net/Gross weight | Kg | 33.5/37.5 | 37/42.0 | 50/54.5 | |
Refrigerant type | / | R410A | R410A | R410A | |
Max Design pressure | MPa | 4.3/1.5 | 4.3/1.5 | 4.3/1.5 | |
Refrigerant copper pipe |
Gas side/Liquid side (inch) | inch | 3/8 1/4 | 1/2 1/4 | 1/2 1/4 |
Max. refrigerant pipe length | m | 15 | 20 | 25 | |
Max. difference in level | m | 8 | 10 | 10 | |
Drain pipe size | mm | 16 | 16 | 16 | |
Refrigerant connction copper pipe length | m | 3 | 4 | 4 | |
Connection wire length | m | 4 | 5 | 5 | |
Electronic Expansion Valve | / | Yes | Yes | Yes | |
Loading QTY 40" Hq/ 20"GP | Sets | 200/85 | 160/75 | 115/50 |
Solar panel and system installation
Below is the design how our solar power system should be installed. If you want to use solar air conditioner only in day time (approximate from 7:00am to 17:00pm), then no need to install grid power to our system. If you want to ran at night with electricity or generator or youwant to work mix power to get best cooling in heavy cloudy days you can install grid power part for 24hour working.
Solar panel choosing
STIN hybrid ACDC solar air conditioners unit suit for both Poly and mono solar panel on the market from 250w to 450w. But all the solar panel should be in series connection, parallel is not allowed.
Model |
Capacity |
Solar DC voltage |
DC Current |
Input Power request |
DGWA1-ACDCBLW-12K WiFi |
12000btu 1.5HP 1Ton |
80V-380V |
</=10A |
940(190-1270) W |
DGWA1-ACDCBLW-18K WiFi |
18000btu 2.0Hp 1.5Ton |
80V-380V |
</=10A |
1400(220-2100) W |
DGWA1-ACDCBLW-24K WiFi |
24000btu 3.0Hp 2.0Ton |
80V-380V |
</=10A |
1790(300-3200) W |
WiFi control and APP power meter
The solar hybrid AC/DC air conditioner can work without battery, it works with unstable solar panel DC power at day time. At night or rainy days it automatically get grid AC power. It's mainly used for school classroom, hospital, restaurant, shops, office… With APP monitor and control function through WIFI
The solar hybrid AC/DC air conditioner can work without battery, it works with unstable solar panel DC power at day time. At night or rainy days it automatically get grid AC power. It's mainly used for school classroom, hospital, restaurant, shops, office… With APP monitor and control function through WIFI
The solar hybrid AC/DC air conditioner can work without battery, it works with unstable solar panel DC power at day time. At night or rainy days it automatically get grid AC power. It's mainly used for school classroom, hospital, restaurant, shops, office… With APP monitor and control function through WIFI
The solar hybrid AC/DC air conditioner can work without battery, it works with unstable solar panel DC power at day time. At night or rainy days it automatically get grid AC power. It's mainly used for school classroom, hospital, restaurant, shops, office… With APP monitor and control function through WIFI
The MPPT solar charge controller uses multiphase synchronous rectification technology and common negative pole design, it chooses high speed processor and advanced MPPT algorithm to make it has high response speed, high reliability and other standards. The advanced MPPT algorithm that the solar controller adopts can trace the maximum power point of PV arrays quickly in any situation to obtain the max. power from PV arrays. And the multiphase synchronous rectification technology can achieve high conversion efficiency in any charging environment and improve the utilization rate of solar power system greatly. According to the rated voltage of battery bank system, our factory can provide the MPPT solar charge controller from 192V to 540V which suitable to almost off grid solar power system
Such hybrid solar system can work as both solar on grid system and solar off grid system. It can utilize electricity price difference, charge battery at low price and discharge at high price to maximize system profit, compensate local transformer limit. It can provide back-up power supply for unstable grid, during grid failure, seamless switches to off-grid mode within 20ms to realize uninterruptable supply
Off-grid or hybrid optional 6KW inverter, Max 3pcs in parallel Grade A battery cells, up to 6000+ cycles 5.5KWh battery, Max 12pcs in parallel Easy to install, combined freely BMS & battery capacity auto-sense WiFi/GPRS remote monitoring (optional)
The solar photovoltaic power system connected to the public grid is called on-grid photovoltaic power generation system. The system structure includes solar panel arrays, DC/DC converters, DC/AC inverters, AC loads, transformers, and other components. Inverter power: 15kW AC output voltage: three phase Solar panel type: mono or poly