Our website uses cookies provided by us and third parties. Some cookies are necessary for the operation of the website, and you can adjust other cookies at any time, especially those that help us understand the performance of the website, provide you。

I accept
Name:
Phone Number*
Company Name:
mailbox*
Country*
Content:
Product
  • Probe Station System
  • Test System
  • Laser Repair System
  • Test Service
  • Accessories
Probe Station
{{item.CategoryName}}:
{{item1.TheFilterCriteria}}

Probe Card for Semiconductor Testing - SEMISHARE Prober

Our extensive range of cutting-edge probe card at SEMISHARE boosts your semiconductor testing efficiency. All designed for good performance and reliability.

SEMISHARE: Revolutionizing Semiconductor Testing with Advanced Probe Card Technology

In the ever-evolving landscape of semiconductor technology, the importance of precise and reliable testing cannot be overstated. At the heart of this critical process lies the probe card, a sophisticated tool that serves as the interface between test equipment and semiconductor devices. SEMISHARE, a leader in semiconductor testing solutions, is at the forefront of probe card innovation, offering cutting-edge products that are reshaping the industry standard for accuracy, efficiency, and reliability.

Understanding the Probe Card: A Cornerstone of Semiconductor Testing

What is a probe card used for? A probe card is an essential component in semiconductor testing, designed to establish electrical contact with the device under test (DUT), typically a wafer or chip. This critical tool facilitates the transmission of test signals and the collection of performance data, enabling engineers to comprehensively assess the functionality, reliability, and overall quality of semiconductor devices.

SEMISHARE's probe card technology takes this fundamental concept to new heights, offering unparalleled precision and versatility in semiconductor testing. Our advanced probe cards are engineered to meet the exacting demands of modern semiconductor manufacturing, from high-volume production to cutting-edge research and development.

The Cost-Effectiveness of High-Quality Probe Cards

How much does a probe card cost? The price of a probe card can vary significantly based on several factors, including its complexity, materials used, the number of probes, and specific testing requirements. While high-precision probe cards with specialized features may command a higher initial investment, SEMISHARE believes in providing value that extends far beyond the price tag.

Our probe cards are designed with longevity and performance in mind, offering:

1. Extended lifespan through robust construction and premium materials

2. Improved testing accuracy, reducing costly errors and retests

3. Increased throughput, enhancing overall production efficiency

4. Versatility to handle a wide range of testing scenarios, reducing the need for multiple specialized cards

By investing in SEMISHARE's high-quality probe cards, semiconductor manufacturers can achieve significant long-term cost savings through improved testing efficiency and reduced equipment downtime.

Probe Cards vs. Load Boards: Understanding the Distinction

What is the difference between load board and probe card? While both components play crucial roles in semiconductor testing, they serve distinct functions. A load board provides mechanical support and electrical connections for the device under test, often used in final testing of packaged devices. In contrast, a probe card is specifically designed to make direct electrical contact with the die on a wafer, facilitating wafer-level testing before the chips are cut and packaged.

SEMISHARE's probe cards excel in their ability to:

1. Provide precise, repeatable contact with extremely fine pitch pads

2. Maintain signal integrity at high frequencies

3. Withstand the rigors of high-volume production testing

4. Adapt to various wafer sizes and device types

The Role of Probes in Semiconductor Testing

What is a probe in semiconductor? In the context of semiconductor testing, a probe is a conductive element, typically a fine needle or pin, that makes electrical contact with specific points on the semiconductor device. These probes are the critical interface between the test equipment and the device under test, enabling the transmission of test signals and the measurement of device responses.

SEMISHARE's probe technology represents the pinnacle of this crucial component, offering:

1. Ultra-fine pitch capabilities for testing advanced semiconductor nodes

2. High-frequency performance for RF and high-speed digital applications

3. Robust design for extended operational life

4. Customizable configurations to meet specific testing requirements

The Purpose and Importance of Probes in Semiconductor Testing

What is the purpose of a probe? Why is probe important? The primary purpose of a probe is to provide a reliable and precise electrical connection to the test points on a semiconductor device. This connection is crucial for:

1. Applying test signals to the device

2. Measuring the device's electrical responses

3. Verifying functionality across various operating conditions

4. Detecting defects or performance issues

The importance of probes in semiconductor testing cannot be overstated. They are the critical link that ensures the accuracy and reliability of test results, directly impacting product quality and manufacturing yield.

Probe Devices: Enabling Comprehensive Semiconductor Testing

What does a probe device do? A probe device, such as SEMISHARE's advanced probe cards, is designed to engage with the contact pads or bumps on a semiconductor device. These sophisticated tools enable:

1. Precise alignment with test points on the wafer

2. Stable electrical contact throughout the testing process

3. Efficient signal transmission for accurate measurements

4. Adaptability to various device layouts and pad configurations

Why are probes needed? Probes are essential for performing detailed electrical testing on semiconductor devices for several reasons:

1. They allow for non-destructive testing of devices before packaging

2. They enable parallel testing of multiple dies, increasing throughput

3. They provide access to internal nodes that may be inaccessible after packaging

4. They allow for testing under various environmental conditions

Advantages of SEMISHARE's Probe Technology

What are the advantages of probes? SEMISHARE's probe technology offers numerous advantages that set our products apart in the competitive semiconductor testing market:

1. Exceptional Precision: Our probes maintain accurate contact with even the smallest pad sizes, ensuring reliable test results.

2. High Durability: Engineered for longevity, our probes withstand millions of touchdowns without degradation in performance.

3. Versatility: SEMISHARE's probe cards can be customized for a wide range of device types and testing requirements.

4. Signal Integrity: Advanced materials and design techniques ensure clean signal transmission, even at high frequencies.

5. Temperature Stability: Our probes maintain consistent performance across a wide temperature range, supporting both low-temperature and high-temperature testing.

6. Easy Maintenance: Modular design allows for easy replacement of individual probes, reducing downtime and maintenance costs.

7. Scalability: Our probe card designs can be scaled to accommodate increasing wafer sizes and shrinking device geometries.

8. Compatibility: SEMISHARE's probe cards are compatible with a wide range of test equipment, providing flexibility in test setup configurations.

SEMISHARE's Commitment to Innovation in Probe Card Technology

At SEMISHARE, we are dedicated to pushing the boundaries of probe card technology. Our ongoing research and development efforts focus on:

1. Advanced Materials: Exploring new probe materials for improved conductivity and wear resistance.

2. Novel Probe Designs: Developing innovative probe geometries for enhanced contact stability and signal integrity.

3. Intelligent Probe Cards: Integrating sensors and processing capabilities for real-time performance monitoring and optimization.

4. High-Density Solutions: Creating probe cards capable of testing increasingly dense and complex semiconductor devices.

5. Environmental Adaptability: Designing probe cards that excel in extreme temperature and humidity conditions.

Empowering Semiconductor Innovation with SEMISHARE's Probe Cards

In the rapidly evolving field of semiconductor technology, the role of precise and reliable testing cannot be overstated. SEMISHARE's advanced probe cards stand at the forefront of this critical process, offering unparalleled accuracy, efficiency, and reliability in semiconductor testing.

Our commitment to innovation in probe card technology enables semiconductor manufacturers and researchers to push the boundaries of device performance and complexity. Whether you're developing next-generation processors, high-performance memory devices, or cutting-edge sensors, SEMISHARE's probe cards provide the testing capabilities you need to ensure quality, improve yield, and accelerate time-to-market.

For more information on how SEMISHARE's advanced probe card technology can elevate your semiconductor testing capabilities, visit our website at https://www.semishareprober.com/. Discover the SEMISHARE difference and take your semiconductor development and production to the next level with our state-of-the-art probe card solutions.

 
Product Overview Functional structure Specifications Download
E Series 150mm Economical Manual Probe Station

Product Overview

E series prober has excellent mechanical system, stable structure and performance, ergonomic design, more convenient operation, support multi-function upgrade, more abundant product functions. The product is mainly used in the manufacturing and research fields of integrated circuit,LED,LCD, solar cell and other industries.

Basic Information

Product number E6 working environment Open type
electricity demand 220V,50~60Hz Control method Manual Probe Station
Product Size 640mm long *700mm wide *730mm highr equipment weight About 80 kg

Application direction

LD/LED/PD Light intensity/wavelength test electrode /PAD test PCB/ package device Test material/device IV/CV characteristic test device high-frequency characteristic test (up to 300GHZ frequency) rf test, etc.

Technical characteristics

> POMater™ Adaptive shock absorbing base

The self-adaptive shock-absorbing base is designed with imported shock-absorbing materials from Germany to enhance elastic support, to achieve different degrees of rigidity, hardness and bearing range, and effectively filter vibration source interference in the environment to ensure stable contact between the probe end and the Pad of the sample, improving the stability of the test.

>The chuck can be adjusted lifting

The chuck can be adjusted lifting, the stroke is 5mm, and the accuracy is 10μm, which is convenient for the sample to quickly separate the probe.

>Pneumatic fast lifting of microscope

The microscope is pneumatically quickly lifted, which is convenient to replace the microscope and the probe card holder.

>Large size platform design

Large-size body structure enhances operating comfort. The micropositioner platform with larger space supports the loading of probe cards and improves the efficiency of probing test.

Title

E series
Specification
Model E4 E6 E8 E12
Dimension
L: 580mm*
W: 620mm*
H: 730mm
L: 640mm*
W: 700mm*
H: 730mm
L: 660mm*
W: 660mm*
H: 700mm
L: 1030mm*
W: 820mm*
H: 730mm
Weight (about) 70KG 80KG 85KG 180KG
Electricity Demand 220VC, 50~60Hz
Chuck Size & Rotation angle 4", 360° Rotation 6", 360° Rotation 8", 360° Rotation 12", 360° Rotation
X-Y  Travel Range 4" * 4" 6" * 6" 8" * 8" 12" * 12"
Z Travel Range 6mm (Fast switching) / 6mm (Fine-tune)
Moving Resolution 10μm
Sample fixed mode Vacuum adsorption
Electrical design Electrical Floating with Banana plug adapter, can be used as a backside electrode
Platen U Shape 6 micropositioners available 8 micropositioners available 10 micropositioners avaible 12 micropositioners available
Microscope Moving range X-Y : 2" * 2",  Z : 50.8mm
Moving Resolution 1μm
Switching lens mode Microscope Manually Tilting 30°by Lever
Magnification 16~100X/20~4000X
Lens specification Eyepiece: 10X ; Objective lens : 5X, 10X, 20X, 50X 100XOption
CCD Pixel 50W (Analog) / 200W (Digital) / 500W (Digital)
Micropositioner X-Y-Z Moving range 12mm-12mm-12mm / 8mm-8mm-8mm
Mechanical resolution 10μm / 2μm / 0.7μm / 0.1μm
Current leakage accuracy Coaxial 1pA/V @25°C; Triaxial 100fA/V @25°C; Triaxial 10pA@3kv @25°C,
Test conditions: dry environment with ground shielding (air dew point below -40°C)
Cable connectors Banana head  / Crocodile clip /  Coaxial / Triaxial
Application IC/LD/LED/PD test, PCB / Packaged device test, RF test etc.
Optional Accessories Microscope tilt mechanism (Tilting 30°Manually by Lever) Gold-plated chuck
Microscope pneumatic lifting mechanism Coaxial / Triaxial chuck
Laser cutting and repairing Chuck quick pull-out mechanism
Probe clamp Chuck rotation fine adjustment

Dark field of microscope / DIC / Normarski test, Light intensity

/ wavelength test interface accessory

Light intensity / wavelength selection
Liquid crystal leakage analysis package RF Testing accessoriess
High voltage and high current measurement package Active probe
Hot chuck Low current / Capacitance test
High/Low temprature chuck intergration of intergral sphere
Shielding box Fixture for Fibre optic coupler test
Special adapter Fixture of PCB / Package test options
Vibration free table Special Custom design
Charancteristic 1. Gantry design of the Microscope
2. The Microscope can be tilted or pneumatic lifted to change objective lens easily
3. Can be upgraded to do RF, high current testing and laser repair applications.
4. high moving accuracy
Characteristics
Compact design, affordable price Driver Screws: Zero back lash
Compatible with high magnification metallographic microscope, and can fine tune the movement Available for 1um electrode / PAD probe
University / Institute / Company laboratory use LD/LED/PD Light intensity / wavelength testing
Up to 12 inch wafer testing IV/CV Characteristic testing of materials / devices
Precision  lead screw drive structure, linear movement

High frequency characteristic test of devices

(up to 300GHz)


Customer Service
Request for quotation Request for quotation
Contact number

Contact number

0755-2690 6952 turn 801/804/806/814

Send Email Send Email
© 2023 SEMISHARE CO., LTD. All Rights Reserved.粤ICP备19119103号