PVT Photovoltaic-Thermal Integrated Module

Total Power: 1780W

Photovoltaic Power: 450W

Thermal Power: 1330W

Technical Advantages

Space Saving

Under limited space conditions, it generates electricity and supplies heat simultaneously, avoiding the waste of roof resources caused by separate installation of PV systems and solar water heaters.

Higher Efficiency

Photovoltaic modules operate at high temperatures under sufficient irradiation. The heat pump circulation system lowers the panel temperature, improving power generation efficiency by more than 10%.

Multi-Energy

It integrates multiple green energy technologies including PV, solar thermal and heat pump, meeting demands for electricity, hot water and heating at the same time.

COP  Boost

Based on air-source heat pumps, the PVT module acts as an external evaporator, increasing energy efficiency ratio (COP) by 20–50% compared with conventional air-source heat pumps.

System Schematic Diagram

Electrical Performance Parameters (STC*)

STC* (Standard Test Conditions): Irradiance 1000 W/m², Cell Temperature 25 ℃, Spectrum AM1.5

Mechanical Parameters

Temperature Coefficients

Temperature coefficient of maximum power: -0.290%/℃
Open‑circuit voltage (Voc): -0.250%/℃
Short‑circuit current (Isc): +0.045%/℃
Peak power (Pmax): -0.280%/℃
Nominal operating cell temperature: 45±2℃

Application Parameters

Maximum system voltage: DC 1500V
Power tolerance: 0~+5W
Operating temperature: -40~85℃
Maximum fuse current: 25A
Wind load / Snow load: 2400Pa/5400Pa
Heat exchange medium: R410a or R290
Heat exchange inlet: 2‑point external thread
Heat exchange outlet: 3‑point external thread
Overseas packaging: 30 pieces per pallet; 40HQ: 720 pieces; 20HQ: 360 pieces

Characteristic Curve Diagram (450W)

Pressure Burst Test (6.OMPa)

Temperature Uniformity Test

Application Scenarios

Hotels, Schools, Family Villas, Hospitals