In the medical field, the reliability and performance of medical electronic equipment are of utmost importance. These devices are often used in critical situations where any malfunction could have serious consequences for patients. Medical electronic equipment is exposed to a wide range of environmental conditions, including temperature variations, humidity, electromagnetic interference, and mechanical vibrations. Our Custom Walk - in Environmental Test Chamber for Medical Electronic Equipment is a specialized solution designed to meet the unique testing requirements of these devices. This large - scale chamber provides a controlled environment where medical electronic equipment can be thoroughly tested under various real - world environmental scenarios, enabling manufacturers, healthcare providers, and researchers to evaluate their performance, durability, and safety.
The walk - in environmental test chamber features a spacious and adaptable interior. With customizable dimensions, it can accommodate different types and sizes of medical electronic equipment, from small handheld devices like glucometers and portable ultrasound scanners to large, complex systems such as magnetic resonance imaging (MRI) machines and computed tomography (CT) scanners. The standard chamber sizes range from 6 cubic meters to 100 cubic meters, allowing for the testing of multiple devices simultaneously or the setup of complex equipment configurations. The interior is equipped with adjustable racks, mounts, and electrical connection systems to securely hold and power the medical electronic equipment during testing. This flexibility enables comprehensive testing of individual components, sub - systems, and the overall functionality of the equipment.
This chamber offers precise control over a comprehensive set of environmental parameters relevant to medical electronic equipment. Temperature can be adjusted from extremely low (- 70°C) to very high (150°C) with an accuracy of ± 0.1°C. This wide temperature range is essential as medical facilities can have different temperature settings, and some equipment may need to be transported or stored in extreme conditions. Humidity levels can be regulated between 10% and 90% relative humidity, simulating various moisture conditions in medical environments. The chamber can also generate electromagnetic fields with adjustable intensity and frequency to simulate electromagnetic interference (EMI) that the equipment may encounter in a hospital setting. Additionally, it can produce mechanical vibrations with adjustable amplitude and frequency to mimic the vibrations caused by nearby machinery or patient movement.
We understand that different medical electronic equipment has unique design requirements, intended applications, and expected environmental exposures. Therefore, our chamber allows for fully customizable test profiles. Manufacturers and testers can program complex temperature and humidity cycles, electromagnetic interference levels, and vibration patterns to replicate the specific environmental conditions that the equipment will face in real - world medical scenarios. For example, a device used in a surgical operating room may require a test profile that includes exposure to a specific temperature and humidity range, along with a certain level of electromagnetic interference from other surgical equipment. A portable device used in ambulances may need a profile that focuses on high - vibration and variable temperature conditions during transportation. This flexibility ensures that each piece of medical electronic equipment is tested under the most relevant and accurate conditions, leading to reliable and actionable test results.
The walk - in environmental test chamber is equipped with a state - of - the - art monitoring and data acquisition system. Multiple sensors are strategically placed throughout the chamber and on the medical electronic equipment itself to continuously monitor environmental parameters and equipment performance. These sensors can measure temperature, humidity, electromagnetic field strength, vibration amplitude, and various equipment - specific data such as electrical current, voltage, signal strength, and diagnostic accuracy. The real - time data is accessible and analyzable through an intuitive touch - screen control panel. The system also has the ability to record and store historical data, enabling users to compare results from different tests and analyze trends over time. This comprehensive data collection and analysis capabilities provide valuable insights into the behavior of medical electronic equipment under different environmental conditions.
Built with high - quality materials and advanced engineering techniques, the walk - in environmental test chamber is designed to withstand the rigors of continuous use and the extreme conditions it simulates. The exterior is constructed from a strong, electromagnetic - shielding and corrosion - resistant alloy that can endure exposure to harsh chemicals and extreme temperatures. The internal components, including heating, cooling, humidity control, electromagnetic field generation, and vibration simulation systems, are built to last and are regularly maintained to ensure consistent performance. Safety features such as emergency stop buttons, over - temperature protection, electromagnetic leakage detection, and fire suppression systems are in place to protect operators and the valuable medical electronic equipment being tested.
The chamber is equipped with a user - friendly interface that simplifies the testing process. The intuitive touch - screen control panel allows operators to easily set up test profiles, start and stop tests, and monitor real - time data. The interface also provides access to historical test data, enabling users to compare results from different tests and make informed decisions about equipment design, improvement, and quality control. Additionally, the system can be integrated with other testing equipment and software, allowing for seamless data transfer and comprehensive analysis of the test results.
| Model |
WIC-6 |
WIC-11 |
WIC-15 |
WIC-48 |
WIC-66 |
WIC-100 |
| Inside dimension(W x D x H) mm |
200 x 220 x 150 |
250 x 220 x 200 |
350 x 220 x 200 |
500 x 240 x 400 |
500 x 240 x 400 |
100 x 100 x 100 |
| Outside dimension(W x D x H) mm |
280 x 260 x 180 |
350 x 260 x 230 |
455 x 260 x 230 |
610 x 280 x 430 |
680 x 280 x 530 |
155 x 190 x 160 |
| Internal material |
#304 Stainless Steel |
| External material |
Powder coated #304 Stainless Steel |
| Temperature range |
+ 150℃~ - 70 ℃ |
| Humidity range |
20% ~ 98% R. H |
| Temperature resolution ℃ |
0.01 |
| Humidity resolution % R. H. |
0.1 |
| Temperature stability ℃ |
±0.5 |
| Humidity stability % R. H. |
±2 |
| Heating time |
30min |
| Cooling time |
-40℃/50min, -20℃/30min |
| Air circulation system |
Mechanical convection system |
| Cooling system |
Sirocco Fan |
| Heating system |
Sus316 Stainless steel Efficient heater |
| Humidification system |
Steam Generator |
| Humidification water supply |
Reservoir, Sensor-controller solenoid valve, recovery-recycle system |
| Controller |
Touch panel |
| Electrical power requirements |
Please contact us for requirements of specific models |
| Safety device |
Circuit system load protection, compressor load protection, control system load protection, humidifier load protection, overtemperature load protection, fault warning light |
Subjecting medical electronic equipment to comprehensive environmental testing in our walk - in chamber allows manufacturers to identify and address potential weaknesses in design, material selection, and manufacturing processes. By exposing the equipment to extreme environmental conditions, manufacturers can detect issues such as component failures, electrical malfunctions, and inaccurate diagnostic results. This enables them to make necessary design modifications and manufacturing improvements, resulting in higher - quality medical electronic equipment that is more reliable and performs better in real - world medical settings.
Early detection of equipment issues through environmental testing can save the medical industry significant costs. By identifying and resolving problems before large - scale production and deployment, companies can avoid expensive rework, production delays, and potential product recalls. The ability to test multiple devices simultaneously in the large - capacity chamber also reduces testing time and costs, improving the overall efficiency of the medical equipment development process. For healthcare providers, testing equipment before use can prevent costly downtime and ensure the proper functioning of critical medical devices.
The medical industry is subject to strict international and national regulations regarding the safety and performance of medical electronic equipment. Our walk - in environmental test chamber helps manufacturers ensure that their equipment complies with these regulations. By conducting thorough testing in accordance with relevant standards, manufacturers can demonstrate compliance and gain regulatory approval more easily. This is crucial for bringing new medical electronic equipment to market and ensuring the safety and well - being of patients.
In a highly competitive medical equipment market, offering products that can withstand extreme environmental conditions gives manufacturers a significant competitive edge. By using our custom walk - in environmental test chamber to conduct in - depth and comprehensive testing, companies can differentiate their products from competitors and showcase their commitment to quality and reliability. This can lead to increased customer confidence, more market share, and a stronger position in the global medical equipment industry.
- Imaging Systems: Test imaging systems such as X - ray machines, MRI machines, and CT scanners for their performance under different environmental conditions. This includes evaluating image quality, resolution, and accuracy in varying temperature, humidity, and electromagnetic interference levels.
- Ultrasound Scanners: Evaluate ultrasound scanners for their ability to provide accurate diagnostic information in different environments. This includes testing the transducer performance, image clarity, and the system's response to mechanical vibrations.
- Blood Analyzers: Test blood analyzers for their precision and reliability in different temperature and humidity conditions. This helps ensure that the analyzers can accurately measure blood components such as glucose, cholesterol, and blood cell counts under various environmental conditions.
- Radiation Therapy Machines: Test radiation therapy machines for their safety and effectiveness under different environmental conditions. This includes evaluating the radiation output accuracy, beam stability, and the machine's response to electromagnetic interference and mechanical vibrations.
- Laser Therapy Devices: Evaluate laser therapy devices for their performance and safety in different environments. This includes testing the laser beam power, wavelength stability, and the device's resistance to temperature and humidity changes.
- Infusion Pumps: Test infusion pumps for their accuracy and reliability in delivering medications under different environmental conditions. This includes testing the pump's flow rate accuracy, the ability to handle different viscosities of medications, and its response to vibrations and electromagnetic interference.
- Patient Monitors: Test patient monitors for their ability to accurately measure vital signs such as heart rate, blood pressure, and oxygen saturation in different environmental conditions. This includes evaluating the sensor performance, signal stability, and the monitor's response to electromagnetic interference and mechanical vibrations.
- Sleep Monitoring Devices: Evaluate sleep monitoring devices for their accuracy and reliability in recording sleep patterns in different environments. This includes testing the device's ability to detect movements, breathing patterns, and the quality of the data collected under various temperature and humidity conditions.
Our Custom Walk - in Environmental Test Chamber for Medical Electronic Equipment is a state - of - the - art solution that offers a comprehensive and reliable platform for testing the performance, durability, and safety of medical electronic equipment. With its advanced features, precise environmental control, and user - friendly interface, it enables the medical industry to enhance equipment quality, reduce costs, meet regulatory requirements, and gain a competitive advantage. Whether you are a manufacturer looking to improve your medical equipment products or a healthcare provider seeking to ensure the reliability of medical devices, our chamber is the ideal choice. Contact us today to learn more about how our chamber can meet your specific testing needs.
