Electronic & Semiconductor Manufacturing

Parts in days anywhere in the USA.

Our electronic & semiconductor component manufacturing capabilities:

Quality Matters  |  AS9100D Certified, ISO 9001:2015, ISO 13485:2016, & ITAR Registered

Certifications and Registrations

* Not all locations have all certifications and registrations. Parts requiring these will be made at facilities with the correct certifications and registrations.

Electronics & Semiconductors Manufactured Connectors

Get amped about getting your ideas made - we're here to help!

The electronics and semiconductor components world has undergone a significant transformation thanks to the introduction of additive manufacturing, CNC machining, sheet metal fabrication, and other advanced manufacturing techniques. These cutting-edge technologies have revolutionized manufacturing by enhancing precision, speed, and cost-effectiveness. Additive manufacturing has opened up new possibilities for designers by enabling the creation of intricate shapes, designs, and features previously impossible with traditional methods. Meanwhile, CNC machining delivers highly accurate, complex parts with minimal errors and repeatability, and sheet metal fabrication produces lightweight components with various applications. These manufacturing techniques are also highly versatile, accommodating a variety of materials, including plastics, metals, and composites. By integrating these capabilities, manufacturers can produce high-quality electronic and semiconductor components at lower costs, ultimately benefiting consumers by offering more innovative designs, improved efficiency, and greater accessibility to electronic devices and semiconductors.

Additive Manufacturing for Electronic & Semiconductor Component Manufacturing

Additive manufacturing, commonly known as 3D printing, has become increasingly popular in electronic and semiconductor component manufacturing due to its benefits, such as design flexibility, reduced production time, and cost-effectiveness. 3D printing is used to create molds and templates for semiconductor components, which are then used to fabricate the final product through traditional manufacturing techniques, reducing the time and cost required for tooling and prototyping. In addition, 3D printing can create interconnects and microfluidic channels in electronic components, significantly improving performance. Furthermore, it is also being explored to produce complex circuitry and devices that traditional methods cannot fabricate, thereby transforming electronic and semiconductor component manufacturing.

A few electronic and semiconductor component applications of additive manufacturing:

  • Computer Hardware
  • Concept Models
  • Connectors
  • Ear Protection
  • Electronic Packaging
  • Hearing Aids
  • Molds

CNC Machining for
Electronic & Semiconductor Component Manufacturing

CNC machining plays a critical role in manufacturing electronic and semiconductor components. These components require high accuracy, precision, and consistency to ensure optimal performance. CNC machines enable the production of complex shapes and designs with tight tolerances, making them ideal for manufacturing circuit boards, leads, connectors, and heat sinks. CNC lathes are also used for manufacturing components that require rotation, such as transistor bases and diode housings. CNC machines can use various materials, including metals such as aluminum and copper, as well as plastics and ceramics.

Advancements in CNC technology have led to increased automation, reduced lead times, and improved accuracy, allowing for faster and more efficient production. Additionally, programming and monitoring CNC machines remotely enables real-time adjustments to production processes, reducing downtime and waste. As the demand for smaller, more intricate electronic and semiconductor components grows, CNC machines will continue to play a critical role in their production.

A few electronic and semiconductor component applications of CNC machining:

  • Appliances
  • Circuit Boards
  • Capacitors
  • Computers
  • Phones
  • Televisions
  • Transistors

Sheet Metal Fabrication for Electronic & Semiconductor Component Manufacturing

Sheet metal fabrication is a critical process in manufacturing electronic and semiconductor components. This process involves cutting, bending, and shaping sheet metal to create various parts, including enclosures, chassis, brackets, and heat sinks, essential for electronic products. The sheet metal fabrication process is carried out with precision and accuracy to ensure the quality of the parts and components. CAD software is used to create accurate models of the components to be fabricated, which guide the cutting and shaping processes and help ensure that the final product is made to the required specifications. Our experienced sheet metal fabrication team use advanced equipment, including lasers, turret presses, and brake presses, to fabricate the necessary parts with high precision and quality.

A few electronic and semiconductor component applications of sheet metal fabrication:

  • Brackets
  • Computers
  • Connectors
  • Enclosures
  • Fans
  • Heat Sinks
  • Housings
  • Switches
  • Televisions

Additional Manufacturing Capabilities

Silicone and Urethane Casting are two methods for manufacturing high-quality electronic components, such as connectors, insulators, and encapsulating materials. Silicone casting is ideal for creating intricate shapes and high-temperature resistance components. In contrast, urethane casting is favored for replicating features with complex geometries and producing durable parts that can withstand harsh environments. Both methods can produce small to medium-sized batches of components quickly and cost-effectively with high precision and consistent quality.

Injection molding in the electronics and semiconductor field, it is used to manufacture components like connectors, switch housings, and device covers. Injection molding offers several advantages in electronic component production, such as low costs, high precision reproductions, and comprehensive design flexibility. Moreover, it allows the production of complex shapes and geometries that cannot be obtained using other techniques. Quality control is critical in the injection molding process, and various measures are taken to ensure that the final product complies with stringent requirements. These measures include using high-quality materials, providing proper mold design, and conducting rigorous testing and inspection of finished components. Injection molding has revolutionized electronic and semiconductor component manufacturing by offering an efficient and cost-effective method for producing high-quality products with high precision and complexity.

A few electronic and semiconductor component applications of additional manufacturing capabilities:

  • Appliance Housings
  • Connectors
  • Control Panels
  • Covers
  • Insulators
  • Switch Housings
  • Telecommunications Equipment
Why choose Prototek to manufacture your electronic and semiconductor components manufacturing project?

Our customers choose us because we take great pride in our ability to manufacture electronic and semiconductor components with unparalleled precision and efficiency. Our expertise in cutting-edge additive manufacturing, CNC machining, sheet metal fabrication, and other techniques allows us to produce parts that meet even the most exacting specifications. Our commitment to innovation and customer satisfaction has earned us a reputation as a trusted partner for companies seeking fast turnaround times and top-quality components. Whether you’re looking for a single piece or a large-scale production run, you can always count on us to deliver outstanding results.