Entrench Electronics Pvt. Ltd. specifically focuses on in-house PCB manufacturing. We have the capability to handle the entire process from design to assembly, providing a complete solution for clients who need high-quality PCBs.

We are serving clients from various industries such as automotive, telecommunications, consumer electronics, medical devices and more.

1. PCB Design and Prototyping:
Design Services: The company provide PCB design services where we create custom designs tailored to meet the specific needs of our clients.
Prototyping: In-house prototyping capabilities mean we can quickly produce small batches of PCBs to test and iterate designs before moving to full-scale production.
2. PCB Manufacturing:
Single-Sided PCBs: These are PCBs with components mounted only on one side. They are simpler to manufacture and are cost-effective for basic applications.
Double-Sided PCBs: With components mounted on both sides, they offer more flexibility for complex designs.
Multilayer PCBs: Used for high-density applications, multilayer PCBs involve stacking multiple layers of the PCB to achieve a higher density of components.
Rigid and Flexible PCBs :A membrane keypad is a type of input device that consists of a set of keys that are made from multiple layers of flexible materials which are typically used in various electronic applications. These keypads are widely used in consumer electronics, medical devices, appliances and industrial equipment due to their durability, ease of use and versatility.
3. PCB Assembly:
Component Sourcing: In-house assembly means we can source components such as resistors, capacitors, and integrated circuits (ICs), and solder them onto the board.
Surface Mount Technology (SMT): SMT assembly uses machines to place tiny components directly onto the surface of the PCB.
Through-Hole Technology (THT): THT components have leads that go through holes in the PCB and are soldered to pads on the opposite side.
4. Testing and Quality Control:
Electrical Testing: Ensuring the PCB operates as intended by testing for shorts, opens, and signal integrity.
Functional Testing: Checking the performance of the final assembled PCB in real-world conditions to ensure it meets the required specifications.
Visual Inspections: Checking for manufacturing defects like solder bridges, misplaced components, and improper soldering.