Production Overview
A Three-Chamber Thermal Shock Chamber is a precision testing equipment designed to evaluate product reliability by subjecting specimens to extreme temperature transitions. Unlike conventional chambers, it features three independent zones that maintain stable temperature conditions, enabling rapid exposure cycling between hot, cold, and ambient environments without compromising test integrity.
Key Features
Triple-Zone Architecture: Includes a high-temperature chamber(e.g., +150℃ to +200℃), a low-temperature chamber(e.g., -55℃ to -80℃), and an ambient/test zone.
Basket Transfer Mechanism: An automated basket shuttles samples between zones within seconds, achieving industry-standard transition times of <10secs.
Independent Control System: Each chamber maintains precise temperature stability (±0.5℃)with minimal cross-interference.
Technical Specfication
Temperature Range: -80℃ to +220℃(customizable based on requirements)
Transition Time: <10s between zones
Recovery Times: ≤5mins to stabilize at target temperatures
Capacity: Standard models accommodate 80L ~1000L load volumes
Compliance: Meets IEC60068-2-1, MIL-STD-810 thermal shock methodologies.
Applications
Electronics: Testing PCBAs, semiconductors, and connectors for solder joint reliability
Automotive: Validating sensors, batteries, and infotainment systems under extreme conditions
Aerospace: Qualifying components for rapid altitude/temperature changes
Medical Devices: Ensuring device functionality after sterilization cycles
Advantages Over Two-Chamber Designs
Reduced Thermal Stress: Pre-conditioned zones minimize thermal shock to samples
Continuous Testing: One zone can be maintained while another undergoes setup
Energy Efficiency: Isolated zones prevent unnecessary cooling/heating crossover
Data Integrity: Stable pre-and-post-test conditions improve result accuracy
Customization Options
Material Compatibility: Optional stainless steel interiors for corrosive environments
Monitoring Systems: Integrated data loggers with Ethernet/RS-485 connectivity
Safety Features: Over-temperature protection, dual-pressure switches, and emergency stops
Workflow Integration
Pre-Test Setup: Define parameters (voltage limits, cycle count) via intuitive touchscreen.
Test Execution: Chamber automates charge-discharge cycles while monitoring safety metrics.
Post-Test Analysis: Export Excel data for capacity fade analysis and compliance reporting.
Why Choose Us?
ISO 9001 Certified Manufacturer with 13+ years of R&D experience
Customizable Configurations: Support non-standard sizes and temperautre ranges per project needs.
Global Compliance: Meets IEC, GB, GJB, and UL standards
Global Recognition: Trusted by Fortune 500 companies and R&D labs worldwide.
Production Overview
A Three-Chamber Thermal Shock Chamber is a precision testing equipment designed to evaluate product reliability by subjecting specimens to extreme temperature transitions. Unlike conventional chambers, it features three independent zones that maintain stable temperature conditions, enabling rapid exposure cycling between hot, cold, and ambient environments without compromising test integrity.
Key Features
Triple-Zone Architecture: Includes a high-temperature chamber(e.g., +150℃ to +200℃), a low-temperature chamber(e.g., -55℃ to -80℃), and an ambient/test zone.
Basket Transfer Mechanism: An automated basket shuttles samples between zones within seconds, achieving industry-standard transition times of <10secs.
Independent Control System: Each chamber maintains precise temperature stability (±0.5℃)with minimal cross-interference.
Technical Specfication
Temperature Range: -80℃ to +220℃(customizable based on requirements)
Transition Time: <10s between zones
Recovery Times: ≤5mins to stabilize at target temperatures
Capacity: Standard models accommodate 80L ~1000L load volumes
Compliance: Meets IEC60068-2-1, MIL-STD-810 thermal shock methodologies.
Applications
Electronics: Testing PCBAs, semiconductors, and connectors for solder joint reliability
Automotive: Validating sensors, batteries, and infotainment systems under extreme conditions
Aerospace: Qualifying components for rapid altitude/temperature changes
Medical Devices: Ensuring device functionality after sterilization cycles
Advantages Over Two-Chamber Designs
Reduced Thermal Stress: Pre-conditioned zones minimize thermal shock to samples
Continuous Testing: One zone can be maintained while another undergoes setup
Energy Efficiency: Isolated zones prevent unnecessary cooling/heating crossover
Data Integrity: Stable pre-and-post-test conditions improve result accuracy
Customization Options
Material Compatibility: Optional stainless steel interiors for corrosive environments
Monitoring Systems: Integrated data loggers with Ethernet/RS-485 connectivity
Safety Features: Over-temperature protection, dual-pressure switches, and emergency stops
Workflow Integration
Pre-Test Setup: Define parameters (voltage limits, cycle count) via intuitive touchscreen.
Test Execution: Chamber automates charge-discharge cycles while monitoring safety metrics.
Post-Test Analysis: Export Excel data for capacity fade analysis and compliance reporting.
Why Choose Us?
ISO 9001 Certified Manufacturer with 13+ years of R&D experience
Customizable Configurations: Support non-standard sizes and temperautre ranges per project needs.
Global Compliance: Meets IEC, GB, GJB, and UL standards
Global Recognition: Trusted by Fortune 500 companies and R&D labs worldwide.
