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PCB Design

PCB Design

PCB Design

IPCB design services is one of the ways that we help our customers get to market faster as our engineering team has significant real world experience designing PCBs for performance and manufacturability.

Our high speed PCB design focuses on network communication, industrial control, medical, aerospace, IC ATE testing, computer, server, automotive electronics, equipment, mobile phone design.

1.If you are just an idea or concept, or you have already completed the schematic, we can convert it into a design document and then PCB manufacture, assembly and testing. With more than 15 years of experience in the manufacture and assembly of printed circuit boards, we can ensure that the design fully meets the manufacturing requirements.

2.Our design team will work with you throughout the product development process to ensure that all aspects of the design are technically reviewed prior to first production.

3.Once the design is signed off for production our highly skilled production team are on standby to build quality prototypes for initial test and development purposes.

4.With both machine and hand placement, parts can be populated to PCB’s in as little as 48 hours, with full inspection as standard and additional tests on request.

5.We aim to make the process as seamless as possible, by offering all these services under one roof, saving you valuable time to focus on delivering your product to market.

 

Design capabilities (but not limited to)

--Microwave high frequency circuit board

--High frequency mixed voltage circuit board

--FR4 double-sided

--Ultra-high multilayer circuit board

--Stage 1 to 6 HDI circuit boards

--HDI circuit board of any layer

--Flexible and Rigid combined circuit board

--Buried blind hole circuit board

--Blind slot circuit board

--Back drill circuit board

--IC board circuit board

--IC board circuit board

--Heavy copper circuit board

 

 

High Speed PCB

 

IPCB

 

 Design Parameter

Maximum number of PCB design layers                  

Design minimum conductor width /spacing               

Minimum mechanical hole diameter                      

Copper thickness                                     

Impedance control                                     

Ratio of thickness to radial dimension                   

 

 

 70 Layers

75 um/75 um

50 um

12 oz

 ± 5%

15:1

 

Mechanical Engineering Capabilities

Our team of engineers are available to discuss any project needs that our customer may have as we are fully licensed and utilize industry leading tools, including Cadence Allegro, Mentor Expedition, Mentor's PADS, Altium, Valor for DFM Analysis.

 

 --Packaging, Enclosure, and Industrial Design

--Product/System Architecture

--Detailed Mechanical Design

--Stress Analysis (FEA) Shock/Vibration Simulation

--Thermal Simulation

--Material and Component Selection

--Solid Modeling

--PCB Linkage DFM / DFA and Cost reduction

Double side LED PCB

Four Stages of PCB Design:

1.Refine the concept.--We summarize the objectives of the project and create a document to specify the project's technical scope.

2.Feasibility Study.--We conduct a study to examine whether the project will be possible within the client's budget. Agreed terms of reference will be set out. A draft report is presented to the client for feedback.

3.Hardware and Software Design.--We design the electronic circuit and produce the schematic designs, manufacturing bench-top prototypes. Software code is drafted.

4.Test and trials.--When software and hardware designs are complete we can begin serious bench testing. We continue until the design meets the project specifications.

Pre-preparation:

Includes preparation of component libraries and schematics. Before PCB design, the schematic SCH component library and PCB component packaging library should be prepared first.

The PCB component package library is best built by the engineer according to the standard size data of the selected device. In principle, the component packaging library of PC is first established, and then the schematic SCH component library is established.

The requirement of PCB component packaging library is high, which directly affects the installation of PCB. Schematic SCH component library requirements are relatively loose, but pay attention to the definition of pin properties and the corresponding relationship with the PCB component packaging library.

PCB structure design:

According to the size of the circuit board and the mechanical positioning, draw the PCB frame in the PCB design environment, and place the required connectors, buttons/switches, screw holes, assembly holes, etc.According to the positioning requirements. Fully consider and determine the wiring area and the non-wiring area (how much area around the screw hole is the non-wiring area)