Flex, Rigid, & Rigid Flex PCB Boards
Flexible circuit solutions for innovative electronic designs
Flex, Rigid, & Rigid Flex PCB Boards
Flexible circuit solutions for innovative electronic designs
Product Highlights
Key features of our FLEX PCB BOARDS
- Higher circuitry density per unit area
- Finer lines and spaces (≤ 3 mil)
- Smaller vias and capture pads
- High-speed signal integrity
- Reduced board size and weight
- Improved electrical performance
- Enhanced thermal management
From single-sided flex circuit boards to multi-layer PCBs, we have the capability to assemble & produce a wide range of flexible PCB designs to the highest standards. Our assembly process uses the highest quality PCB components available on the market, ensuring your flexible PCBs are reliable and cost effective. We offer a range of custom assembly options to make sure our finished flexible printed circuit boards meet your specifications and requirements. Our quick turn prototyping services will ensure your design iterations are performed rapidly. In addition to flexible PCB assembly, we can also design custom PCBs to your specifications and manufacture both small lots and large orders of flexible and rigid flex printed circuit boards. Designers benefit from design freedom, as they will have the opportunity to reduce the weight, enhance reliability & achieve reduction in space.
◆Flex PCBs (Flexible PCBs)
Made of flexible plastic substrates (like polyimide), flex PCBs can bend and twist without damage They’re ideal for compact, dynamic applications like wearables, medical devices, and mobile electronics, where space-saving and movement are essential.
◆Rigid PCBs
The most common type, made from solid materials like FR4, rigid PCBs retain a fixed shape and are used in devices where flexibility isn’t required. Found in computers, TVs, and industrial control systems, they offer mechanical stability and cost-efficiency.
◆Rigid-Flex PCBs
Combining the best of both worlds, rigid-flex PCBs have both rigid and flexible layers laminated together. They allow complex 3D configurations and reduce connectors and wiring, improving reliability. Common in military, aerospace, medical, and high-end consumer electronics.
◆ Product Variants
- Rigid PCBs
- Single-Sided Rigid PCB – Copper layer on one side; low-cost, basic applications.
- Double-Sided Rigid PCB – Copper on both sides with plated through-holes; very common.
- Multi-Layer Rigid PCB – 4+ layers for high-density, complex systems like servers, industrial, and telecom.
- Flex PCBs
- Single-Sided Flex – Lightweight, bendable; used in printers, antennas, etc.
- Double-Sided Flex – Adds routing flexibility; better for compact, layered designs.
- Multi-Layer Flex – For EMI shielding, controlled impedance, or more complex layouts.
- ZIF Flex – Tailored for Zero Insertion Force connectors, great for easy plugin-out devices.
- Sculptured Flex – Tapered or shaped copper traces, often with exposed fingers for connections.
- HDI Flex – High-density interconnects for fine-pitch or high-speed circuitry.
- Rigid-Flex PCBs
- Standard Rigid-Flex – Combines rigid and flexible layers into one integrated unit.
- Multi-Layer Rigid-Flex – Several rigid and flexible sections; used in aerospace, medical devices, and compact electronics requiring durability and reliability.
◆ Features
Flexible, Rigid, and Rigid-Flex PCBs:Durable Solutions for Advanced Designs
● Flexible PCBs offer unmatched design versatility. Their ability to bend, fold, and wrap around edges and contours makes them ideal for compact, lightweight devices requiring interconnections across all three axes. Thanks to their slim and lightweight construction, they enable significant reductions in both size and weight — a crucial advantage in modern electronics like wearables, aerospace, and medical devices.
● Flex circuits also excel in environments subject to shock and vibration. Their inherent flexibility helps absorb mechanical stress, protecting solder joints and improving overall reliability. Many flex designs meet or exceed performance standards of up to 200,000 bend cycles, ensuring longevity even in dynamic applications.
● Rigid PCBs, on the other hand, provide a stable and cost-effective platform for high-density and multi-layer designs. They are widely used in everything from consumer electronics to automotive and industrial control systems where structural integrity is key.
● Rigid-Flex PCBs combine the best of both worlds — the durability of rigid boards and the adaptability of flex circuits. These hybrid solutions simplify complex assemblies, reduce interconnects, and improve signal integrity, making them ideal for mission-critical applications where space, weight, and reliability are top priorities.
Flex, Rigid, & Rigid Flex PCB Boards
Flexible circuit solutions for innovative electronic designs
From single-sided flex circuit boards to multi-layer PCBs, we have the capability to assemble & produce a wide range of flexible PCB designs to the highest standards. Our assembly process uses the highest quality PCB components available on the market, ensuring your flexible PCBs are reliable and cost effective. We offer a range of custom assembly options to make sure our finished flexible printed circuit boards meet your specifications and requirements. Our quick turn prototyping services will ensure your design iterations are performed rapidly. In addition to flexible PCB assembly, we can also design custom PCBs to your specifications and manufacture both small lots and large orders of flexible and rigid flex printed circuit boards. Designers benefit from design freedom, as they will have the opportunity to reduce the weight, enhance reliability & achieve reduction in space.
◆Flex PCBs (Flexible PCBs)
Made of flexible plastic substrates (like polyimide), flex PCBs can bend and twist without damage. They’re ideal for compact, dynamic applications like wearables, medical devices, and mobile electronics, where space-saving and movement are essential.
◆Rigid PCBs
The most common type, made from solid materials like FR4, rigid PCBs retain a fixed shape and are used in devices where flexibility isn’t required. Found in computers, TVs, and industrial control systems, they offer mechanical stability and cost-efficiency.
◆Rigid-Flex PCBs
Combining the best of both worlds, rigid-flex PCBs have both rigid and flexible layers laminated together. They allow complex 3D configurations and reduce connectors and wiring, improving reliability. Common in military, aerospace, medical, and high-end consumer electronics.
◆ Product Variants
- Rigid PCBs
- Single-Sided Rigid PCB – Copper layer on one side; low-cost, basic applications.
- Double-Sided Rigid PCB – Copper on both sides with plated through-holes; very common.
- Multi-Layer Rigid PCB – 4+ layers for high-density, complex systems like servers, industrial, and telecom.
- Flex PCBs
- Single-Sided Flex – Lightweight, bendable; used in printers, antennas, etc.
- Double-Sided Flex – Adds routing flexibility; better for compact, layered designs.
- Multi-Layer Flex – For EMI shielding, controlled impedance, or more complex layouts.
- ZIF Flex – Tailored for Zero Insertion Force connectors, great for easy plugin-out devices.
- Sculptured Flex – Tapered or shaped copper traces, often with exposed fingers for connections.
- HDI Flex – High-density interconnects for fine-pitch or high-speed circuitry.
- Rigid-Flex PCBs
- Standard Rigid-Flex – Combines rigid and flexible layers into one integrated unit.
- Multi-Layer Rigid-Flex – Several rigid and flexible sections; used in aerospace, medical devices, and compact electronics requiring durability and reliability.
◆ Features
Flexible, Rigid, and Rigid-Flex PCBs:Durable Solutions for Advanced Designs
● Flexible PCBs offer unmatched design versatility. Their ability to bend, fold, and wrap around edges and contours makes them ideal for compact, lightweight devices requiring interconnections across all three axes. Thanks to their slim and lightweight construction, they enable significant reductions in both size and weight — a crucial advantage in modern electronics like wearables, aerospace, and medical devices.
● Flex circuits also excel in environments subject to shock and vibration. Their inherent flexibility helps absorb mechanical stress, protecting solder joints and improving overall reliability. Many flex designs meet or exceed performance standards of up to 200,000 bend cycles, ensuring longevity even in dynamic applications.
● Rigid PCBs, on the other hand, provide a stable and cost-effective platform for high-density and multi-layer designs. They are widely used in everything from consumer electronics to automotive and industrial control systems where structural integrity is key.
● Rigid-Flex PCBs combine the best of both worlds — the durability of rigid boards and the adaptability of flex circuits. These hybrid solutions simplify complex assemblies, reduce interconnects, and improve signal integrity, making them ideal for mission-critical applications where space, weight, and reliability are top priorities.