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C Series/High/Low Temperature

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Cryogenic High Temperature Probe Station | SEMISHARE

SEMISHARE's cryogenic probe station is a high and low temperature probe station designed for accurate measurements across a wide temperature range of -100°C to 300°C.

SEMISHARE: Pioneering Cryogenic Probe, Cryogenic Probe Station, and High Temperature Probe Station Solutions for Advanced Semiconductor Testing

In the rapidly evolving world of semiconductor technology, the need for precise and reliable testing across extreme temperature ranges has never been more critical. SEMISHARE stands at the forefront of this technological revolution, offering cutting-edge cryogenic probe and high temperature probe station solutions that are reshaping the landscape of semiconductor testing. Our commitment to innovation is evident in our state-of-the-art cryogenic probe station technology, designed to meet the most stringent demands of modern semiconductor research and production.

Understanding Cryogenic Probes and Their Applications

What is a cryo probe? A cryogenic probe, or cryo probe, is a specialized testing instrument engineered to measure the electrical properties of materials at extremely low temperatures. These sophisticated devices are essential for evaluating the performance of semiconductors under conditions that simulate deep space or superconducting environments.

SEMISHARE's cryogenic probe technology represents the pinnacle of low-temperature testing capabilities. Our cryo probes are designed to maintain stability and accuracy even at temperatures approaching absolute zero, allowing researchers and manufacturers to push the boundaries of semiconductor performance.

The Cryogenic Probe Station: A Cornerstone of Low-Temperature Semiconductor Testing

The cryogenic probe station is the centerpiece of low-temperature semiconductor testing. This advanced platform integrates our cutting-edge cryo probe technology with precision sample handling and measurement systems. SEMISHARE's cryogenic probe station offers unparalleled capabilities for characterizing semiconductor devices under extreme cold conditions.

Key features of our cryogenic probe station include:

1. Ultra-stable temperature control from 4K to room temperature

2. High-precision probe positioning with nanometer-scale accuracy

3. Integrated radiation shielding for sensitive measurements

4. Compatibility with a wide range of measurement instruments

5. Customizable sample holders for various device types

The cryogenic probe station is not just a piece of equipment; it's a complete testing environment. Our cryogenic probe station systems are designed to provide a controlled, low-temperature space where researchers can manipulate and test semiconductor devices with unprecedented precision. The cryogenic probe station's ability to maintain stable, ultra-low temperatures while allowing for precise probing is what sets it apart from conventional testing equipment.

Advancements in Cryogenic Probe Station Design

SEMISHARE's commitment to innovation is evident in our continuous improvements to cryogenic probe station technology. Recent advancements in our cryogenic probe station designs include:

1. Enhanced thermal isolation: Our latest cryogenic probe station models feature improved thermal isolation techniques, reducing heat leakage and allowing for more efficient cooling.

2. Advanced vibration damping: The cryogenic probe station now incorporates state-of-the-art vibration damping systems, ensuring stable measurements even in challenging environments.

3. Integrated cryogen management: Our cryogenic probe station designs now feature sophisticated cryogen management systems, optimizing the use of liquid helium or nitrogen and reducing operating costs.

4. Improved probe arm design: The probe arms in our cryogenic probe station have been redesigned for greater stability and precision at ultra-low temperatures.

5. Enhanced software integration: Our cryogenic probe station now comes with advanced software that allows for easier control and data analysis, streamlining the testing process.

Applications of Cryogenic Probe Stations

The applications of cryogenic probe stations are vast and growing. Some key areas where our cryogenic probe station technology is making a significant impact include:

1. Superconductor Research: The cryogenic probe station is essential for studying and characterizing superconducting materials and devices.

2. Quantum Computing: As quantum computers rely on ultra-low temperature operations, our cryogenic probe station plays a crucial role in the development and testing of quantum bits (qubits).

3. Space Technology: The cryogenic probe station helps in testing components designed for deep space missions, where devices must function in extremely cold environments.

4. Cryogenic CMOS: Our cryogenic probe station is instrumental in the development of cryogenic CMOS technology, which promises significant improvements in computing power and energy efficiency.

5. Low-Temperature Physics: Researchers use our cryogenic probe station to explore fundamental physical phenomena that only manifest at extremely low temperatures.

Cryogenic Sensors: The Eyes and Ears of Low-Temperature Testing

Working hand-in-hand with our cryogenic probe technology are cryogenic sensors. These specialized devices are designed to operate effectively at extremely low temperatures, providing crucial data on device performance under cryogenic conditions.

SEMISHARE's cryogenic sensors offer:

1. High sensitivity across a wide range of parameters

2. Minimal thermal noise for accurate measurements

3. Compatibility with various cryogenic probe station configurations

4. Long-term stability for extended testing periods

The Importance of Cryogenic Storage and Equipment

Is cryogenic storage possible? Absolutely. In fact, it's essential in many areas of semiconductor research and production. SEMISHARE provides comprehensive cryogenic storage solutions that complement our testing equipment, ensuring the integrity of sensitive devices throughout the testing process.

Our cryogenic equipment goes beyond just storage and testing. We offer a full suite of tools designed to create and maintain the ultra-cold environments necessary for cutting-edge semiconductor research. From cryogenic cooling systems to specialized handling tools, SEMISHARE provides everything needed to set up a complete cryogenic testing facility.

High Temperature Probe Stations: Testing at the Other Extreme

While cryogenic testing pushes the limits of low-temperature performance, high temperature probe stations are equally crucial for evaluating semiconductor devices under elevated thermal conditions. SEMISHARE's high temperature probe station technology is designed to provide accurate and reliable measurements at temperatures up to 300°C and beyond.

Our high temperature probe stations offer:

1. Precise temperature control with minimal thermal gradients

2. Robust probes designed to withstand high-temperature operation

3. Advanced cooling systems to protect sensitive measurement equipment

4. Compatibility with a wide range of high-temperature test scenarios

Innovations in High Temperature Probe Station Technology

SEMISHARE's high temperature probe station technology has seen significant advancements in recent years. Some key innovations include:

1. Novel materials: We've incorporated new heat-resistant materials in our high temperature probe station design, allowing for testing at even higher temperatures.

2. Improved thermal management: Our high temperature probe station now features advanced thermal management systems, ensuring more uniform heating and cooling across the testing area.

3. Enhanced probe tip materials: We've developed new probe tip materials for our high temperature probe station that maintain their electrical properties even at extreme temperatures.

4. Integrated environmental controls: Our latest high temperature probe station models include sophisticated environmental control systems, allowing for testing under various atmospheric conditions.

5. Advanced imaging systems: We've incorporated high-resolution imaging systems into our high temperature probe station, enabling real-time observation of samples during high-temperature tests.

The Dual-Purpose Solution: SEMISHARE's High and Low Temperature Analysis Probe Station

Recognizing the need for versatility in semiconductor testing, SEMISHARE has developed the C series prober, a high and low temperature probe station capable of operating across an extensive temperature range. This innovative system combines the capabilities of both cryogenic and high temperature probe stations in a single, flexible platform.

Key features of the C series high and low temperature probe station include:

1. Temperature range from -60°C to +300°C

2. Excellent mechanical stability across the entire temperature range

3. Ergonomic design for easy operation and maintenance

4. Support for multi-function upgrades to adapt to evolving testing needs

5. Comprehensive shielding for low-noise, high-accuracy measurements

The Purpose and Functionality of Probe Stations

At their core, probe stations serve as controlled environments for testing the electrical characteristics of semiconductor wafers and devices. SEMISHARE's probe stations, whether cryogenic, high temperature, or dual-purpose, are designed to ensure the quality, reliability, and performance of semiconductor components under a wide range of conditions.

Our probe stations facilitate:

1. Precise I-V and C-V measurements

2. High-frequency RF testing

3. Reliability and stress testing

4. Failure analysis and device characterization

Using a Probe Station: Best Practices

To use a probe station effectively, operators must follow a series of precise steps:

1. Sample preparation and mounting

2. Probe alignment and contact

3. Test execution and data collection

4. Analysis and interpretation of results

SEMISHARE provides comprehensive training and support to ensure that our customers can maximize the potential of their probe stations, whether working with cryogenic probe, high temperature probe station, or dual-purpose systems.

Understanding Probe Temperature and Its Significance

Probe temperature is a critical parameter in semiconductor testing, particularly when working with cryogenic probe or high temperature probe station setups. The ability to precisely control and monitor probe temperature is essential for accurate and repeatable measurements.

SEMISHARE's probe temperature control systems offer:

1. High-precision temperature sensing and regulation

2. Rapid temperature stabilization for efficient testing

3. Minimal thermal interference with the device under test

4. Compatibility with both cryogenic and high-temperature testing scenarios

The Science Behind Probe Thermometers

Probe thermometers are essential tools in temperature-controlled semiconductor testing. These devices work by converting thermal energy into electrical signals, providing accurate temperature readings across the extreme ranges encountered in cryogenic probe and high temperature probe station applications.

SEMISHARE's probe thermometers utilize advanced sensing technologies, including:

1. Platinum resistance temperature detectors (RTDs) for high accuracy

2. Thermocouples for wide temperature range coverage

3. Silicon diode sensors for cryogenic applications

4. Optical fiber sensors for environments with high electromagnetic interference

Temperature Probe Operation in Extreme Conditions

The operation of temperature probes in the extreme conditions of cryogenic and high temperature testing requires specialized design and materials. SEMISHARE's temperature probes are engineered to maintain accuracy and reliability across the full range of testing conditions.

Our temperature probes feature:

1. Materials selected for minimal thermal expansion and contraction

2. Robust construction to withstand thermal cycling

3. High-sensitivity sensing elements for precise measurements

4. Advanced calibration techniques to ensure accuracy across the entire temperature range

Future Directions in Probe Station Technology

As semiconductor technology continues to advance, so too must the capabilities of probe stations. SEMISHARE is at the forefront of developing next-generation probe station technologies. Some areas of ongoing research and development include:

1. Integration of machine learning algorithms for automated testing and analysis

2. Development of probe stations capable of testing 3D-stacked semiconductors

3. Advancements in non-contact probing techniques for ultra-sensitive devices

4. Exploration of new materials for probe tips to enhance performance and durability

SEMISHARE's Commitment to Advanced Semiconductor Testing

In the dynamic field of semiconductor technology, the ability to test devices under extreme temperature conditions is becoming increasingly crucial. SEMISHARE's comprehensive range of testing solutions, from cryogenic probe stations to high temperature probe stations, offers semiconductor manufacturers and researchers the tools they need to push the boundaries of device performance and reliability.

Our commitment to innovation, precision, and customer support positions SEMISHARE as a trusted partner in the semiconductor industry. By continually advancing our cryogenic probe and high temperature probe station technologies, we enable our clients to stay at the forefront of semiconductor development, driving progress in fields ranging from quantum computing to high-power electronics.

Whether you're exploring the behavior of superconducting materials, developing high-temperature electronics for aerospace applications, or anywhere in between, SEMISHARE has the probe station solutions you need to ensure the quality and reliability of your innovations. Visit https://www.semishareprober.com/ to discover how our advanced cryogenic and high temperature testing technologies can elevate your semiconductor research and production capabilities, propelling your success in this dynamic and challenging industry.

 
Product Overview Functional structure Specifications Download Video
High And Low Temperature Analysis Probe Station

Product Overview

C series prober has excellent mechanical system, stable structure and performance, ergonomic design, easy operation, support multi-function upgrade, rich and comprehensive functions. This product is mainly used in the manufacturing and research fields of integrated circuit,LED,LCD, solar cell and semiconductor industry.

Basic Information

Product number C series working environment High and low temperature environment
electricity demand 220VC,50~60Hz Control method Manual
Product Size Dimensions: 1400 mm * 920 mm * 920 mm equipment weight 150KG/170KG/250KG

Application direction

LD/LED/PD test,PCB/ package device test, MATERIAL/device IV/CV characteristic test, internal circuit/electrode /PAD test, hf RF test, etc.r

Technical characteristics

Technical characteristics

Pneumatic type mobile platform has the function of fast moving chuck, can meet the needs of efficient manual test by the corresponding gas float switch, provides three kinds of method of fast moving;Three - stage lifting needle base platform,the needle seat platform can rise and fall rapidly (0,300um,3mm)+ fine adjustment (40mm, moving resolution 2~5μm);built-in 3 zoom multi-view, triple-rate concentric focal path system (internal optical zoom: 0.6:1;2.5:1;9:1);shielding cavity structure design,provides the best low noise and low leakage current capacity.At the same time, it keeps the sample under nitrogen or positive pressure environment at low temperature without frosting, and the unique cavity blowing structure prevents cryogenic frosting.

Title

C series
Specification
Model C6 C8 C12
Dimension
L: 860mm*
W: 850mm*
H: 700mm
L: 880mm*
W: 860mm*
H: 750mm
L: 1400mm*
W: 920mm*
H: 920mm
Weight (about) 150KG 170KG 250KG
Electricity Demand 220VC, 50~60Hz
Chuck Size & Rotation angle 6", 360° Rotation 8", 360° Rotation 12", 360° Rotation
X-Y Moving range 6" * 6" 8" * 8" 12" * 12"
Moving resolution 1μm
Sample exchange Chuck quick move out mechanism for  sample change
Sample fixed mode Vacuum adsorption
Electrical design Chuck Surface is Electrical Floating with Banana plug adapter, can be used as a backside electrode
Platen O shape platen 8 micropositioners available 10 micropositioners available 12 micropositioners available
Move range & adjustment Platen can be quickly lifted up and down 6mm with automatic locking function
Platen can be fine tuned up and down 25mm precisely with 1μm resolution
Temperature specification Temperature range - 100 ~ 300 - 80 ~ 300 - 60 ~ 300
Temperature precision 0.01°C resolution
heating method Low voltage DC(LVDC)
Minimum temperature control rate ± 0.1°C / hour
Refrigerant Liquid nitrogen or Refrigeration compressor
Microscope Moving range X-Y axis : 2" * 2",  Z axis : 50.8mm
Switching lens mode Microscope tilting 30°manually by Lever
Magnification 16~100X / 20~4000X
Lens specification Eyepiece: 10X ; Objective lens : 5X, 10X, 20X, 50X 100XOption
CCD pixels 50W (Analog) / 200W (Digital) / 500W (Digital)
Micropositioner X-Y-Z Travel 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 / SMA / K
Application IC/ LD / LED / PD test, PCB /Packaged IC test , RF test under High and low temperature
Optional Accessories Probe clamp
Dark field of microscope / DIC / Normarski Testing light intensity / wavelength testing
RF Testing
High voltage and high current test
Shielding box
Special adapter
Vibration free table
Gold-plated chuck
Coaxial / Triaxial chuck
Light intensity / Spectrum / Wavelength test
Active probe
Low current / Capacitance test
Intergartion of intergral sphere
Fixture of Packaged IC test
Fixture of PCB test
Special Custom design
Characteristics
Low temperature test in non-vacuum environment Comfortable large handle, Driver Screws: Zero back lash
Compatible with high magnification metallographic microscope 0.2 um or above  internal circuit / electrode / PAD probe
Suitable in University and Research laboratory LD/LED/PD Light intensity / wavelength testing
Up to 12 inch wafer testing IV/CV Characteristic testing of materials / devices
High precision lead screw drive structure, linear movement High frequency characteristic test of devices (up to 300GHz )

Customer Service
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Contact number

Contact number

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

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