2l Kb6160a Driveboard Pcba Printed Circuit Board Assembly Filled With Resin
Contact Person : Ingrid
Phone Number : +86 18126235437
WhatsApp : +8618774804503
Detail Information |
|||
Type: | OEM PCBA | Copper Thickness: | 1 OZ |
---|---|---|---|
Supplier Type: | OEM | Layer Count: | 1~28 Layers |
Material Type: | FR-4, CEM-1, CEM-3, High TG, FR4 Halogen Free, Rogers | ||
High Light: | PCB circuit control board,28 layers circuit control board,jbc pcb |
Product Description
12V Dc a 220V Ac 600W 1000W 3000W Solar Hybrid Power Inverter PCB Circuit Control Board PCBA Mcpcb scheda madre Assembly
Description | Capability |
Surface finishing |
HASL / HASL lead free, Immersion Silver/Gold, OSP, Gold plating |
Application |
Communications, automobile, consumer electronics |
Profiling |
Punching, Routing, V-CUT, Beveling |
Service |
One Stop OEM services provided |
The 12V DC to 220V AC solar hybrid power inverter PCB circuit control board PCBA (Printed Circuit Board Assembly) is a crucial component in a solar power system, responsible for converting the DC power generated by solar panels into AC power for use in various electrical devices. Here's a description of the key aspects related to this project:
Power Inverter Functionality: The power inverter PCB circuit control board is designed to convert the 12V DC input from the solar panels into a stable 220V AC output. The power rating can vary, ranging from 600W to 1000W or even up to 3000W, depending on the specific requirements of the solar power system.
PCB Materials: The PCBA manufacturer will select suitable PCB materials for the power inverter PCB, considering factors such as thermal management, electrical conductivity, and durability. Common choices include FR4, which offers good overall performance, and high TG (Glass Transition Temperature) materials to handle higher operating temperatures.
PCB Layer Count and Stack-up: The layer count of the PCB will depend on the complexity of the circuit design and the required functionality. For power inverters, the layer count is typically higher due to the complexity of the power conversion circuitry. The PCBA manufacturer will optimize the layer stack-up to ensure efficient power distribution, signal integrity, and thermal management.
Enter Your Message