Multi-channel mechanical compression refrigeration system is used to achieve rapid temperature change of 15 ° C/min, equipped with PID adaptive algorithm to ensure Temperature Fluctuation +/- 0.5 ° C, through forced air duct system to ensure Temperature Uniformity ≤ 2 ° C, with remote monitoring function.
Adopt multi-channel adaptive refrigeration system to achieve 10 ° C/min rapid temperature change, equipped with PID adaptive algorithm to ensure Temperature Fluctuation +/- 0.5 ° C, through the top orifice plate uniform air supply to ensure temperature uniformity, support 120 groups of program editing and remote monitoring functions.
The multi-channel mechanical compression refrigeration system is used to achieve rapid temperature change of 10 ° C/min, and the PID adaptive algorithm is equipped to ensure the Temperature Fluctuation +/- 0.5 ° C. The temperature uniformity is guaranteed by the design of the top orifice air supply.
Adopt multi-channel mechanical compression refrigeration system and adaptive throttling technology to achieve rapid temperature change of 5 ° C/min; Equipped with PID adaptive algorithm to ensure Temperature Fluctuation +/- 0.5 ° C, through forced air duct system to ensure temperature uniformity.
Multi-channel mechanical compression refrigeration system is used to achieve rapid temperature change of 10 ° C/min, equipped with PID adaptive algorithm to ensure Temperature Uniformity ≤ 2 ° C, reduce energy consumption and noise through frequency conversion technology, and support 120 sets of program editing and remote monitoring functions.
The multi-channel mechanical compression refrigeration system is used to achieve rapid temperature change of 15 ° C/min, and is equipped with a two-stage throttling system and a forced air duct to ensure temperature uniformity ≤ 2 ° C. Remote visual control and fault self-diagnosis functions are supported through RS485 communication.
Adopt multi-channel mechanical compression refrigeration system and frequency conversion technology to achieve rapid temperature change of 5 ° C/min; equipped with PID adaptive algorithm to ensure Temperature Uniformity ≤ 2 ° C, support 120 groups of program editing and remote monitoring functions.
Using multi-channel mechanical compression refrigeration system and frequency conversion technology, energy consumption is reduced by 20%; with a linear temperature rise and fall rate of 15 ° C/min, Temperature Uniformity ≤ 2 ° C; through forced air duct system and special PID algorithm to achieve rapid temperature convergence and stability control.
Using multi-channel mechanical compression refrigeration system, energy saving up to 80% of congeneric pRoducts; with 5 ℃/min rapid temperature change rate; through forced air duct system to ensure Temperature Uniformity ≤ 2 ℃; equipped with remote monitoring and fault self-diagnosis function.
The multi-channel mechanical compression refrigeration system is used to achieve rapid temperature change of 15 ° C/min, and the PID adaptive algorithm is equipped to ensure that the Temperature Uniformity is ≤ 2 ° C, and the 512L studio meets the diverse testing requirements.
Adopting multi-channel mechanical compression refrigeration system and frequency conversion technology to achieve 5 ° C/min linear temperature rise and drop; equipped with PID adaptive algorithm to ensure Temperature Fluctuation +/- 0.5 ° C, built-in forced circulation air duct to ensure uniformity ≤ 2 ° C.
With a linear temperature rise and fall rate of 10 ° C/min and a wide temperature range of -60 to 150 ° C, multi-channel refrigeration system and PID adaptive algorithm are used to achieve rapid temperature convergence, and environmentally friendly refrigerants and low noise design are equipped.
Multi-channel mechanical compression refrigeration system and adaptive throttling technology are used to achieve 5 ° C/min linear temperature rise and drop and +/- 0.5 ° C Temperature Fluctuation; equipped with PID adaptive algorithm and forced air duct system to ensure temperature uniformity and rapid convergence.
Multi-channel mechanical compression refrigeration system and frequency conversion technology are used to achieve linear temperature rise and drop at 10 ° C/min, with Temperature Uniformity ≤ 2 ° C. Equipped with PID adaptive algorithm and remote visual control to improve test efficiency and Stability.
Temperature range -20~ 150 ℃, Temperature Uniformity ≤ +/- 2.0 ℃, using multi-layer conductive film tempered hollow Glass observation window and upper air supply and lower air return mode to ensure stable and reliable test environment.
