Temperature and humidity test chamber

The volume of this series of test chambers ranges from compact models of 16, 60, 110, and 200 liters to the latest models of 340 to 1400 liters, equipped with PLC (Programmable Logic Controller) to manage all functions and safety interlocks of the test chamber. It can be connected to remote devices (PC, tablet, smartphone) through Wi Fi, Ethernet, or mobile network from a 10 inch car display to manage and monitor the test box, meeting the new requirements for integration, interconnection, and communication machines related to industrial IoT and Industry 4.0 in the current and future.

Thermal shock test chamber

Air to air thermal shock test chamber

Traditional method: Two temperature methods, the sample moves with the basket

       Vertical (130 and 320 liters) or horizontal (500 and 1000 liters) test chambers correspond to two different temperature levels, equipped with an electric transmission system connected by screws for transferring samples between cold and hot chambers. Equipped with PLC (Programmable Logic Controller)

       Another method: two temperature methods, with the sample fixed in its position, the design of these test chambers (130 and 320 liters) can significantly improve the spatial congestion of many testing laboratories, as the sample is fixed in its position and the chambers are alternately connected to cold and hot chambers.

Liquid to liquid thermal shock test chamber

In order to fully meet the needs of customers and comply with the standards for liquid to liquid thermal shock testing, there are two CSTL models available for selection (12 liters and 20 liters). Move the basket from one well to another (hot/cold) through electric transmission operation.

Vibration test chamber

By using a worm type lifting system, horizontal motion or three-axis vibration can also be added as required. The available volumes for the constant temperature and climate standard versions are 600, 1200, and 2200 liters, respectively- The 70/+180 ° C model has three temperature change rates to choose from: 5, 10, or 15 ° C/min, while the -40/+180 ° C model only has 5 ° C/min.

       For all climate series, the humidity range is 10% to 95% (temperature range is+10/+95 ℃). Equipped with PLC (Programmable Logic Controller), the test chamber can be managed, monitored, and assisted through mobile and desktop devices connected via wireless network, Ethernet, or mobile network. Including remote assistance system (activated on demand), providing test chambers suitable for any test volume according to customer specifications, and capable of conducting various rapid temperature change test conditions or test specifications, such as MIL-STD 810 G standard.

Standardized modular walk-in test box

It can shorten delivery time and reduce design and engineering costs associated with customized walk-in test chambers. The four basic elements of walk-in test chambers can be mixed and matched to provide configurations suitable for most requirements.


Customized walk-in test chamber

Prefabricated test chambers can only be used for temperature or humidity testing and are suitable for testing electronic modules or complete components.


High acceleration stress screening test chamber

High acceleration testing is used to detect and correct any inherent design and manufacturing defects, and determine the reliability of the product. Adopting a series of individual and combined stresses such as multi axis vibration, temperature cycling, and product power cycling, gradually increasing strength, high acceleration life testing is mainly used for timely corrective measures in the product design stage, and high acceleration stress screening is mainly used for defect detection in the product production stage.


Low pressure test chamber

Used for vacuum low-pressure testing up to 1 millibar (equivalent to an altitude of 150000 feet). There are capacities of 150, 500, and 1000 liters, in the shape of a parallelepiped. A special wall temperature regulation system (optional) ensures functionality below 300 millibars, regulating the temperature of the testing environment through radiation. There are two versions: constant temperature (temperature and pressure control) and climate (temperature, pressure, and humidity control).

We can provide dedicated test chambers for high vacuum testing, combined vibration testing, icing testing, and vacuum impact testing according to customer specifications or standards, such as MIL-STD 810 G and RTCA-DO-160.


Hot vacuum test chamber

The hot vacuum test chamber can artificially create operating conditions (temperature and high vacuum) for the entire satellite or equipment used on the satellite.


Control the pressure value to 10-8mbar

Stable pressure value (as required)

Program pressure loop

Program temperature cycle

Thermal differential configuration of "shield" and "cold plate".


Environmental stress screening test chamber

ESS can achieve two main product improvements for manufacturers:

Improve the reliability of the product, thereby enhancing the reputation of the company's products in the market

By identifying factory malfunctions to reduce warranty costs, defects can be avoided from appearing only after they reach the user and are put into use.

The ESS process aims to emphasize the relatively high failure defects that may occur in the early stages of the product's lifecycle during the manufacturing process. If not detected early, these defects will become apparent after shipment, resulting in higher warranty costs. This process typically involves subjecting the product to temperature, vibration, and electrical or electronic stress stimuli, and monitoring to expose potential defects in the product.


Battery test box

By collaborating with other companies, battery life cycle testing and environmental testing chambers can be integrated into a complete and efficient system, supporting the entire battery development and testing process.

The climate test chamber can be equipped with a specific set of settings based on the type of test and sample.


Explosion proof test box

We will provide appropriate test chamber configurations as consultants based on our own experience and user requirements, ensuring our cooperation with important and professional companies operating in the fields of chemistry (solvents), defense (explosive materials), and automotive (gasoline).


Lighting simulation test chamber

According to the spectral area that needs to be tested, several different methods are used to simulate natural sunlight to examine the damage caused by different solar radiation to the environment.

The recommended use is to accelerate equipment aging under radiation, combined with environmental phenomena such as temperature, humidity, rainwater, and corrosion.

The following types of lights can be used:

Metal halide lamps can cover the entire spectrum of solar radiation

UV lamp, used to test whether equipment is damaged by UV rays

Infrared light is used to inspect equipment defects caused by solar radiation heating.

To comply with international standards such as DIN 75220 and other standards.


Dry corrosion test chamber

Mainly used in the automotive field: the entire vehicle or related components can withstand high and low temperatures, wet dry alternation, and direct washing with salt solution (i.e. splash test, salt rain test) in global cyclic testing for up to several weeks.


Sand/dust and rainwater test chamber

In addition to the well-known temperature, humidity, and corrosion, many industrial products are also exposed to several atmospheric media during their service life. Sand, dust, and rain can cause serious degradation. The ACS equipment used for sand and dust testing complies with all major international standards and is capable of reproducing all conditions required for continuous ventilation standards (DIN 40046, MIL-STD 331, and MIL-STD 810 G), dust reduction tests (DIN 40052), and irregular compressed air odor tests (SAE J 575).


Calorimeter

This device is mainly used to test the efficiency and heating or cooling capacity of air conditioners, in order to find a suitable compromise between power and unit size. There are several configurations for the main versions of hygrometers, balances, or calibrated calorimeters based on the power of the device being tested (BTU). Choosing the appropriate test chamber configuration to test components of air conditioning, heat pumps, split systems, as well as automotive and household electrical equipment, can meet important standards of ASHRAE, International Organization for Standardization, or European Organization for Standardization.