In the current business landscape, companies increasingly emphasize vigorous research and development to maintain a competitive edge in the swiftly evolving market. Probe table technology, witnessing continuous advancements,high voltage probe offers a diverse range of probe tables catering to various needs. The cryogenic detection station stands out due to several advantages, ensuring both versatility and stability.
1. Meeting Temperature Requirements:
One notable advantage of cryogenic detection stations is their ability to address the diverse temperature needs encountered during wafer testing. Testing wafers at low atmospheric temperatures poses challenges such as water vapor condensation,wafer chuck potentially causing leakage and failure in electrode contact. Evacuating water vapor from the vacuum chamber before testing and continuous pump operation mitigate these issues. Additionally, when testing requires elevated temperatures like 300 ℃, 400 ℃, or 500 ℃, potential oxidation reactions can occur. To counter this, the system pumps away oxygen from the vacuum chamber before testing, ensuring stable operation during the entire test process. To accommodate temperature-induced thermal expansion and contraction, the cryogenic detection station employs an automatic needle holder controlled by a joystick for selective probe position adjustments.
2. Compact Size and Enhanced Stability:
In comparison to traditional probe stations, high and low-temperature vacuum probe stations exhibit heightened stability. Leveraging advanced technology, these stations operate with increased fluency and stability,manual prober guaranteeing the reliability of experimental data. This enhanced stability contributes to more accurate experimental results, a crucial factor in the rapid development of new products. Despite their compact size, cryogenic detection stations provide a robust and stable platform for various testing scenarios.
3. Cost-Effectiveness and Compatibility:
Cryogenic detection stations offer a cost-effective solution without compromising functionality and accuracy. Utilizing advanced synthetic materials, they manage to keep costs lower than traditional probe tables while delivering superior performance. This cost-effectiveness, combined with compatibility with both DC and RF test applications, enhances the appeal of these probe tables in the market.
In summary, the success of cryogenic detection station sales can be attributed not only to their affordable pricing but also to their superior functional design. These stations empower small and medium-sized enterprises by meeting diverse technical requirements, making them a preferred choice for companies aiming to stay at the forefront of technological advancements.