Integrated Circuits (IC) Sockets

Precision IC Sockets Designed for OEMs & Electronics Manufacturers

Reliable IC Sockets for Precise & Secure Integrated Circuits Connections. Discover our range of high-performance IC sockets designed to protect and enhance your electronic assemblies.

High-Performance IC Sockets for Testing & Production

At Miniate, we specialize in supplying high-quality IC sockets that help engineering teams and electronics manufacturers simplify testing, prototyping, and assembly of integrated circuits.  Whether you’re designing new boards, running burn-in tests, or building small to mid-scale production, our IC sockets deliver unmatched reliability and precision.

Why  Companies Choose Miniate IC Sockets

  • Engineered for testing & prototyping – Reduce soldering cycles and avoid thermal damage during IC evaluation and functional testing.

  • High durability & contact reliability – Gold-plated or tin-plated precision contacts ensure stable connections through repeated insertions.

  • Wide range of package support –  From DIP, SIP, PGA to QFP sockets, we cover common and custom IC packages.

  • Custom & bulk supply – Tailored solutions and consistent supply for your assembly line or test labs.

  • Consistent quality & compliance – All products manufactured under strict quality standards to meet industrial and global requirements.

 

Product Range

We Offer:

  • QFP sockets,
  • BGA sockets,

  • DIP IC sockets,

  • SIP sockets,

  • PGA sockets,

  • Custom integrated circuits (IC) sockets for unique applications,
  • PCB Connectors, CFP connectors , QSFP connectors.

All designed to improve reworkability, extend PCB life, and simplify maintenance.

Industries & Applications

Our IC sockets support:

  • OEMs and EMS providers

  • PCB design and testing labs

  • Semiconductor R&D teams

  • Industrial automation

  • Consumer and communication device prototyping

Especially valuable during:

  • IC validation

  • Functional and burn-in testing

  • Prototyping and pre-production runs

  • Maintenance & field replacement

Integrated Circuits Sockets for High-Volume & Niche Needs

We understand that every B2B project has unique technical and logistical requirements.


Miniate supports:

  • Bulk orders for consistent production,

  • Fast delivery for critical development timelines,

  • Technical support for custom design and selection.

MiniATE continuously advances technology by staying ahead of semiconductor trends. Among the IC socket contact solutions we offer  advanced designs for high-frequency measurements, and thermal resistance technology for higher temperature ratings, ensuring BGA sockets, QFP sockets, and other solutions meet the demanding requirements of semiconductor testing.

Challenges in the IC Manufacturing Process and Their Solutions

Custom IC sockets used during the IC manufacturing process face various challenges that require specific solutions to ensure efficiency and reliability. Below are the key concerns and corresponding solutions:

1. Thermal Runaway

Thermal runaway is a common issue during burn-in (BI) testing. To address this, BI sockets should be designed using thermal simulation data and equipped with optimized solutions like heat sinks, heat pipes, or systems for individual temperature control.

2. High Current

High current can exacerbate thermal runaway. Effective thermal management strategies, such as using heat sinks or multiple contact pins to dissipate heat, are essential for preventing damage.

3. High Frequency

Modern ICs like CPUs and GPUs operate at high frequencies. Test sockets must be designed to minimize insertion loss and return loss by selecting contact pins specifically suited for high-frequency applications.

4. Durability

Contact pins in IC sockets often face issues such as plating wear and solder transfer. Applying appropriate plating and coatings to the contact pin tips, based on the test environment, can improve durability and prevent these problems.

5. Ease of Operation

Maintaining a reliable connection between the IC and contact pins often requires significant pressing force, making manual insertion and removal difficult. Sockets with mechanisms such as bail systems can simplify this process while ensuring sufficient contact force.

6. Compatibility with Auto Loaders

In mass production, ICs are typically inserted into sockets using auto-loading machines. IC sockets must be designed to be fully compatible with auto-loaders to streamline the production process.

7. Contact Stability

IC sockets endure both electrical and thermal stress during testing. Ensuring stable contact requires the use of specialized plating and modifications to the shape of contact pin tips, tailored to the specific testing environment.

8. Foreign Materials

In applications like testing CMOS image sensors, physical contamination can obstruct inspections. Designing IC sockets with features to prevent the entry of foreign materials is critical to ensure accurate testing.

9. Versatility

Custom IC sockets often incur higher costs. However, combining a molded frame with customizable modules to accommodate varying package thicknesses can enhance flexibility and reduce expenses.

10. High Pin Count

As IC functionality increases, the number of pins rises, and pin spacing becomes tighter. Selecting cost-effective contact pins that meet the necessary specifications is essential to manage these requirements effectively.

11. Cost Management

The cost of custom IC sockets can be high. Using modular designs, such as combining molded frames and modules, helps achieve cost efficiency while maintaining performance standards.

By addressing these challenges with appropriate solutions, IC sockets can meet the rigorous demands of the IC manufacturing process.

Selecting the Ideal IC Socket

When specifying a custom IC socket for the manufacturing process, it is crucial to define the testing objectives and understand the conditions in which the tests will be conducted.

Equally important is gaining insight into the innovative solutions and technologies offered by IC socket manufacturers.

This approach ensures that the selected socket meets both the functional and environmental requirements of the testing process.

Solutions We Provide –

Our IC Sockets: Reliable, Cost-Effective Connectivity for PCBs

Miniate’s IC sockets are specifically crafted to deliver secure, durable compressive interconnects between component leads and printed circuit boards (PCBs).

Designed with user convenience in mind, our sockets simplify PCB design, allowing quick and hassle-free reprogramming, expansion, repairs, or component replacement—without the complications of direct soldering.

Miniate offers a comprehensive range of BGA (Ball Grid Array) and QFP (Quad Flat Package) sockets and other sockets, each engineered for maximum performance. Our advanced contact tip geometry protects against damage during package installation and handling, ensuring longevity and exceptional signal integrity.

Choose Miniate for cost-effective, high-quality IC socket solutions that make your PCB projects more efficient and reliable.

We offer a comprehensive range of solutions tailored to meet your IC Sockets testing and manufacturing needs. Our products include:

Open Top Solution

NP631 Series

Features

  • Tweezer Contact Design: Minimizes ball damage during use.
  • Dual-Point Contact Structure: Ensures superior contact reliability.
  • Versatile Compatibility: Supports a wide range of package thicknesses.
  • Pitch Support: Designed for 0.65-mm pitch applications.

Specifications (operating temperature range)

-40°C to 150°C

Category 1 – Micro, Logic, Analog

Category 2 – BGA

NP584 Series

Features

  • Tailored for Low-Volume, High-Variety Production: Designed to meet diverse manufacturing needs.
  • Wide Range of Contacts: Extensive options to suit various applications.
  • Pitch Compatibility: Supports pitches of 0.30 mm and above, including staggered and irregular configurations.
  • Package Size Range: Accommodates sizes from 2.00 mm to 20.00 mm square.
  • Supported Package Types: Compatible with BGA, LGA, QFN, and SON packages.

Category 1 – Micro, Logic, Analog

Category 2 – BGA, LGA, QFN, SON

Specifications (operating temperature range)

-40°C to 150°C

NP583 Series

Features

  • 0.5-mm Pitch Open-Top Socket: Specifically designed for QFN packages.
  • Center-Ground Pad Compatibility: Ensures seamless functionality with center-ground pads.
  • Compact Design: Optimized for space-saving applications.

Category 1 – Micro, Logic, Analog

Category 2 – QFN

Specifications (operating temperature range)

-40°C to 150°C

NP566 Series

Features

  • Tweezer Contact Design: Minimizes ball damage during operation.
  • Dual-Point Contact Structure: Provides enhanced contact reliability.
  • Wide Thickness Compatibility: Supports a variety of package thicknesses.
  • 0.8-mm Pitch Support: Suitable for applications with 0.8-mm pitch.

Category 1 – Micro, Logic, Analog

Category 2 – BGA

Specifications (operating temperature range)

-40°C to 150°C

NP560 Series

Features

  • Twin Beam Press Contacts: Designed to minimize pad scratches.
  • Versatile Compatibility: Supports a broad range of package thicknesses.

Category 1 – Micro, Logic, Analog

Category 2 – SON

Specifications (operating temperature range)

-40°C to 150°C

NP559 Series

Features

  • Tweezer Contact Design: Reduces ball damage during use.
  • Dual-Point Contact Structure: Ensures high reliability in connections.
  • Broad Thickness Compatibility: Suitable for various package thicknesses.
  • 1.0-mm Pitch Support: Optimized for applications with 1.0-mm pitch.

Category 1 – Micro, Logic, Analog

Category 2 – BGA

Specifications (operating temperature range)

-55°C to 150°C

NP556 Series

Features

  • U-Shaped Contact Design: Protects the underside of the ball from damage.
  • Surface-Mount Contacts: Available for versatile applications.
  • Low-Profile Ball Compatibility: Suitable for packages with low-profile balls.
  • 0.65-mm Pitch Support: Designed for precision in 0.65-mm pitch applications.

Category 1 – Micro, Logic, Analog

Category 2 – BGA

Specifications (operating temperature range)

-40°C to 150°C

NP506 Series

Features

  • Open-Top Socket for QFNs: Designed for 0.5-mm pitch applications.
  • Center-Ground Pad Compatibility: Ensures reliable performance with center-ground pads.
  • Compact Size: Engineered for space-efficient use.

Category 1 – Micro, Logic, Analog

Category 2 – QFN

Specifications (operating temperature range)

-40°C to 150°C

NP483 Series

Features

  • Tweezer Contact Design: Reduces ball damage for improved durability.
  • Dual-Point Contact Structure: Ensures reliable and stable connections.
  • Anti-Sticking Mechanism: Prevents balls from adhering to the contact surface.
  • Versatile Thickness Compatibility: Supports a wide range of package thicknesses.
  • 1.0-mm Pitch Support: Optimized for 1.0-mm pitch applications.

Category 1 – Micro, Logic, Analog

Category 2 – BGA

Specifications (operating temperature range)

-40°C to 150°C

Clamshell

IC642 Series

Features

  • Ideal solutions for low-volume, high-variety production.
  • Pitch options starting from 0.40 mm, including staggered and irregular pitches.

Category 1-Logic, Analog, Power device

Category 2- BGA, LGA, QFN, SON

IC630 Series

IC630 Series

Features

  • Tailored solutions for low-volume, high-variety production.
  • Pitch options starting at 0.30 mm, with staggered and irregular pitches available.
  • Standard cartridge heaters and temperature sensors offered.
  • Compatible with BGA, LGA, QFN, and SON packages.

Category 1- Micro, Logic, Analog

 Category 2 – BGA, LGA,QFN, SON

IC610 Series

IC610 Series

Features

  • 50-mm pitch clamshell socket designed for QFNs.
  • Compatible with center-ground pads.
  • Compact and space-efficient design.

Category 1 -Micro, Logic, Analog

Category 2 – QFN

Test Sockets – Probe

IC588 Series

Features

  • Fully customizable sockets with spring probe pins to meet specific customer requirements.
  • In-house component production enables the creation of special shapes and packages.

Category 1 – Memory, Micro, Logic, Analog, Power device, Sensor, RF device, Optical device, Module

Category 2 – BGA, LGA, QFN, QFJ

IC544 Series

Features

  • Custom socket with a 1.6-mm test length for BGAs and LGAs.
  • Supports high-frequency applications.
  • Compatible with 0.8-mm pitch or larger.

Category 1 – Memory, Micro, Logic, Analog, Power device, Sensor, RF device, Optical device, Module

Category 2 – BGA, LGA

IC434 Series

Features

  • Custom socket with spring probe pins.
  • 5-mm pitch with a test length of up to 4.0 mm.

Category 1 – Memory, Micro, Logic, Analog, Power device, Sensor, RF device, Optical device, Module

Category 2 – BGA, LGA, QFP, QFN, SOP, SON

Cantilever

IC53 Series

Features

  • Compatible with various surface-mount IC packages, including SOP, QFP, and more.
  • High reliability, exceptional heat resistance, and durability, backed by extensive sales experience.
  • Custom-made solutions available for specialized packages, such as multi-pole and ultra-small pitch sockets.

Category 1 – Memory, Micro, Logic, Analog, Sensor, Optical device

Category 2 – QFP, QFN, SOP, SON

IC51 Series

Features

  • Sockets for SOP/QFP
    • High reliability and excellent heat resistance and durability achieved through long-term sales experience.
    • Custom-made products for special packages, such as multi-pole and ultra-small pitch sockets, available.

Category 1 – Memory, Micro, Logic, Analog, Sensor, Optical device

Category 2 – SOP

IC299 Series

Features

  • High-frequency socket with pressed contacts for SOPs/QFPs
    • Supports 0.4-mm to 0.8-mm pitches.

Category 1 – Memory, Micro, Logic, Analog

Category 2 – QFP, SOP

FAQs

What is an IC socket and why is it used?

An IC socket (or integrated circuit socket) is a mechanical connector that allows an IC chip to be securely mounted on a PCB without soldering, enabling easy insertion, removal, and replacement.

IC sockets are used to securely mount integrated circuits (ICs) on printed circuit boards (PCBs) without soldering. They allow easy replacement or upgrades of ICs in electronic devices.

What types of IC sockets are available?

Common types of IC Sockets include burn-in sockets, test sockets, BGA , LGA, QFN, QFP,  PGA sockets, each designed for specific testing, development, or production purposes.

How do I choose the right IC socket?

Consider factors like the type of IC, pin count, pitch, and the intended application (e.g., testing or permanent installation).

Can I customize IC sockets for specific needs?

Yes, we offer customizable IC sockets to meet specific requirements, such as unique pin configurations or materials.

How can I request a quote for IC sockets?

To request a quote, please contact us directly via  email. Provide details like the type, quantity, and any specific requirements.

What is the minimum order quantity for IC sockets?

The minimum order quantity (MOQ) varies depending on the socket type and customization needs. Contact us for specific MOQ information.

How do I order an exact match IC socket?

To order an exact match, provide the IC part number , IC POD / Mechanical Drawing, socket type, and any specific pin configurations. Our team will assist in ensuring you get the correct socket.

What is the key difference between IC Sockets and Semiconductor sockets?

IC sockets and semiconductor sockets are similar but not exactly the same. All IC sockets are a type of semiconductor socket, but not all semiconductor sockets are designed exclusively for ICs. Semiconductor sockets serve a wider range of devices beyond traditional ICs and are commonly used in high-end testing and validation processes.

What are the main applications of semiconductor sockets?

Semiconductor sockets are used to securely connect integrated circuits (ICs) to test equipment or circuit boards without soldering. Their main applications include:

  • IC Testing & Validation – Used in burn-in, functional, and reliability testing to assess IC performance before final assembly.
  • Prototyping & Development – Enable engineers to test different chips without permanent soldering, allowing for quick modifications.
  • Production & Quality Control – Facilitate efficient testing in manufacturing processes to ensure ICs meet quality standards.
  • Device Programming – Used in programming and reprogramming ICs, such as microcontrollers and memory chips.

What are the components of a semiconductor socket?

A semiconductor socket consists of several key components designed to provide a secure and reliable connection for integrated circuits (ICs). These components include:

  • Contact Pins/Leads – Spring-loaded or fixed metal contacts that establish electrical connections with the IC’s pins.
  • Socket Base – The main body, typically made of high-temperature plastic or ceramic, which houses the contacts and provides mechanical support.
  • Retention Mechanism – Clips, latches, or zero insertion force (ZIF) mechanisms that hold the IC securely in place.
  • Insulation Material – Prevents electrical short circuits and enhances signal integrity by isolating contacts.
  • Heat Dissipation Features – Some sockets include thermal pads, heat sinks, or vents to manage heat during high-power applications.
  • Guide Pins & Alignment Features – Ensure proper IC positioning and prevent misalignment or damage during insertion.
  • Mounting Interface – Surface-mount or through-hole solder pads for attaching the socket to a printed circuit board (PCB).

How do IC sockets benefit B2B testing and prototyping?

  • Fast IC swaps during test iterations and debugging

  • Protection from repeated soldering and thermal stress

  • Improved workflows in labs and production lines

When should I avoid using an IC socket?

  • High-frequency/high-speed circuits, where electrical performance is critical

  • Volume production with stable ICs: direct soldering avoids extra cost, BOM complexity, and a potential source of failure .

Learn more from trusted sources:

Manufacturer’s Representative MiniATE Systems specializes in sales & marketing of innovative interconnect solutions with technologically advanced features. Our product range offers high reliability in development, test, validation, and production level device-to-board and board-to-board applications.

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