In the fast-paced and highly competitive electronics industry, the reliability and durability of electronic components and devices are of paramount importance. The Customized Climate Chamber with Vibration Test is a state-of-the-art solution that allows manufacturers and researchers to subject electronics to a comprehensive range of environmental and mechanical stressors, simulating real-world conditions to optimize product design and quality.
This specialized chamber is designed to evaluate the performance and integrity of electronic products such as circuit boards, semiconductors, mobile devices, and aerospace electronics. It serves electronics manufacturers, aerospace and defense contractors, research institutions, and quality control laboratories. The primary goal is to determine how these components respond to simultaneous temperature, humidity, and vibration variations, which are common in various applications and during transportation. By conducting such tests, potential weaknesses can be identified and addressed, leading to enhanced product reliability, reduced field failures, and increased customer satisfaction.
- Compact & High-Performance Design:
- Precision Environmental & Vibration Control:
- Advanced Instrumentation & Data:
- Enhanced Safety & Compliance:
- Automatic emergency shutdown for malfunctions.
- Fire suppression and ventilation systems.
- Safety interlocks and warning indicators.
- Compliance with IEC 60068 and MIL-STD-810 standards.
| Rated Sine/ Random/ Shock Force | 1,100 kgf/1,100 kgf/2.200 kgf | Armature Mass | 11kg |
| Frequency Range | 5-3.000 Hz | Inserts Size (Standard) | M8 |
| Max./Continuous Displacement p-p | 51 mm/ 51 mm | Load Attachment Points (Standard) | 17 |
| Max. Velocity | 2.0 m/s | Natural Frequency-Thrust Axis | <3Hz |
| Max.Sine/ Random Acceleration | 100/60g | Mac Vertical Load Support | 300 kg |
| Armature Diameter | 235 mm | Stray field @ 152 mm above table | ≤1mT (10 gauss) |
| Fundamental Resonance frequency | 2,500 Hz (nom.) ± 5% | Dimension LxWxH | 940 mmx715 mmx780 mm |
| Allowable Armature Overturning Moment | 300 Nm | Weight (Uncrated) | 1.000 kg |
| PA10K Power Amplifier Specifications | Blower Specifications |
| Rated Output Capacity | 10kVA | Bl ewer Power | 4kW |
| Signal to Noise Ratio | ≥65 dB | Air Flow | 0.38 m3/s |
| Amplifier Efficiency | ≥90% | Air Pressure | 0 048kgf/cm2 |
| System Protection | Multiple | Air Duct Diameter/ Length | 120/4000mm |
| Dimension (Uncrated) LxWxH | 610mmx900mmx 1,550mm | Dimension (Uncrated) LxWxH | 610mmx750mmx 1,450mm |
| Weight (Uncrated) | 400 kg | Weight (Uncrated) | 120Kg |
| Chamber | Dimensions (mm) |
| Capacity | 512L |
| Inner Chamber Dimensions | 800×800×800mm (W width × D depth × H height mm) |
| Temperature Range | -40℃~+150℃ |
| Cooling Rate | +20℃~-40℃ Average throughout the range: 2℃/min |
| Humidity Range | 20%RH~98%RH |
| Overall Dimensions | 1200×2500×1500 (W width × D depth × H height mm) excluding lifting table dimensions |
| Weight | 1500kg |
- Consumer Electronics
- A leading smartphone manufacturer used the Customized Climate Chamber with Vibration Test to test a new model. The tests revealed that the camera module was sensitive to vibration and temperature changes, causing image quality degradation. By implementing a better vibration isolation system and improving the thermal management of the camera, they were able to enhance the overall performance and durability of the smartphone, leading to better user experience.
- A consumer electronics company tested their new laptop in the chamber. The testing identified a problem with the hard drive's performance in high-vibration and high-temperature conditions. By using a more shock-resistant hard drive and optimizing the laptop's cooling system, they were able to improve the reliability of the product, reducing the risk of data loss and system failures.
- Semiconductor and Component Manufacturing
- A semiconductor manufacturer used the chamber to test a new type of memory chip. The tests showed that the chip had issues with data retention in high-temperature, high-humidity, and vibrating environments. By adjusting the manufacturing process and adding a protective layer, they were able to enhance the chip's data retention capabilities and overall reliability, ensuring its suitability for a wide range of applications.
- An electronics component supplier tested their new connectors in the chamber. The testing identified weaknesses in the connector's mechanical integrity under vibration and temperature cycling. By using a different material and improving the design, they were able to increase the durability and reliability of the connectors, reducing the risk of connection failures in various electronic systems.
- Aerospace and Defense Electronics
- An aerospace electronics company tested their new avionics system in the chamber. The testing helped them identify and address potential issues with the system's performance in the harsh vibration and temperature conditions of an aircraft. By adding vibration damping and improving the thermal design, they were able to enhance the reliability and safety of the avionics system, ensuring the proper functioning of the aircraft's navigation and communication systems.
- A defense contractor tested their military-grade electronics in the chamber. The tests revealed that the components were vulnerable to electromagnetic interference (EMI) in vibrating and temperature-changing environments. By implementing better EMI shielding and optimizing the component layout, they were able to improve the performance and survivability of the electronics in combat and other military operations.
- Research and Development
- A research institution focused on electronics materials used the chamber to study the effects of extreme environmental and vibration conditions on new materials for flexible electronics. The data obtained led to the development of more resilient materials and manufacturing processes, opening up new possibilities for the future of flexible and wearable electronics.
- Another research institution investigated the impact of vibration and temperature cycling on the performance of quantum computing systems. The results of their studies enabled the development of better vibration isolation and thermal management techniques, improving the stability and accuracy of quantum computing operations.
Why Choose Us:
We are a leading provider of advanced environmental testing solutions, specializing in climate vibration test chambers for electronic component reliability testing. Our expertise and commitment to quality ensure reliable and accurate results.
Contact Us:
Contact us today to discuss your electronic component testing needs and request a personalized quote.
