Archive | October 2016
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The Expense Contrast of Rigid Flex PCB and typical PCB
Relocating to a rigid flex PCB design from the conventional approach of using cable assemblies to join two or even more PCB’s has evident benefits consisting of: the ability the match a smaller kind factor, less weight, enhanced transmission capacity and boosted existing lugging capabilities. A common question that we are asked is how you […]
Flex PCB & Rigid Flex PCB mechanical designs
This short article is meant to apply the design support we offer at iFastPCB in regards to our flex PCB and rigid flex PCB. Technical design and design is one of our core principles that permits us to assist our customers satisfy there product requirements. The short article will cover design locations that require unique […]
Rigid flex PCB manufacturers plan for wearables market
Deliveries of wearable gadgets worldwide will rise by 43 percent between 2014 and 2019. This means a more comprehensive application base for rigid flex PCB boards. From medical and army tools to the warm mobile phones, rigid flex PCB manufacturers in China are targeting potential customers in the possibly big wearables market. Global deliveries of […]
New Cadence Allegro System Accelerates the Design of Rigid Flex PCB Applications
On Could 3rd at CDNLive EMEA, Tempo nveiled the Allegro ® 17.2-2016 profile, which enables a more predictable and shorter design cycle. The portfolio showcases extensive in-design inter-layer checking modern technology that lessens design-check-redesign iterations and a new dynamic simultaneous group design ability that speeds up product creation time by up to HALF. Making use […]
Introduction to Rigid Flex PCB Manufacturing
Rigid flex PCB circuits are among the most complex interconnection structures in production today. Having elements of rigid and flexible circuits technologies, these flex circuit constructions offer the best and the worst each technology has to offer. Rigid flex PCB circuits provide an excellent method for interconnecting complex electronic systems. They also are capable of […]
Instructions to Flexible Circuits Boards or Flex PCB
Printed circuit boards (PCB) are of 2 kinds depending on their substrates – stiff published circuit boards and also adaptable printed circuit boards. Why Are Flexible Circuits Needed? The PCBs of yesterday were primarily inflexible. In this contemporary period of mobile modern technology where everybody is inching toward miniaturization, a need was felt for circuit […]
Flex and Rigid Flex PCB Design Principles
The developer is typically under pressure to release the paperwork and obtain the flexible circuit right into production. There is, however, a lot in jeopardy. Setting up for medium-to-high quantity PCB manufacturing needs considerable physical and monetary resources. To avoid prospective warmth from monitoring, the developer needs to demand PCB prototyping the product and a […]
Rigid Flex PCB Design Considerations
DESIGN CONSIDERATIONS – Conductor routing – corners – Cover layer – stay clear of anxiety risers (subjecting the incoming track), decrease opening in coverlayer 250um – Pad form and location – filleting, rabbit ears (securing spurs) for solitary sided flex, – panelization – relevance of orientation for flex PCB regions to fit grain of material […]
Introduction to Flex PCB and Flex PCB Design
What’s Rigid Flex PCB? As the name suggests, a flexible printed circuit is a pattern of conductors printed into a flexible insulating film. Rigid Flex PCB is the name given to a PCB that is a mix of both rigid circuits and flex circuits. This combination is excellent for manipulating the benefits of both rigid […]
Introduction to Flex PCB and Rigid Flex PCB Layer Stackup Types
Flex PCB and Rigid Flex PCB Layer Stackup Types There are a number of standard PCB stackups available for flex and Rigid Flex PCB circuits, referred to as Types. These are summarized below. Type 2– Double Layer Flex PCB Double-sided flexible printed wiring containing two conductive layers with plated through holes, with or without stiffeners. […]