Data Logging Thermal Shockers: Real-time Monitoring, Comprehensive ReportingOur Data Logging Thermal Shock Chambers are engineered to provide not only rapid and precise temperature
cycling but also unparalleled capabilities for real-time monitoring and comprehensive reporting. These advanced systems are crucial for meticulous product
reliability testing, offering complete visibility into every aspect
of the thermal shock process. By continuously capturing and storing
critical test data, our chambers ensure the integrity of your
results, facilitate in-depth analysis, and streamline compliance
documentation for rigorous thermal stress evaluations. Key Features- Integrated Data Logging System: Continuously records all essential parameters, including actual
chamber temperatures (hot and cold zones), setpoint temperatures,
transfer times, cycle counts, and potentially environmental
conditions.
- Real-time Monitoring: Provides live graphical display of temperature profiles and test
progress, allowing operators to oversee tests and detect anomalies
instantly.
- Comprehensive Reporting Capabilities: Generates detailed, customizable reports that can include graphs,
tables, summary statistics, and timestamped events, crucial for
analysis, validation, and auditing.
- Data Export Options: Easily export collected data in various formats (e.g., CSV, Excel,
PDF) for further analysis, archiving, and sharing.
- Rapid Temperature Change Rates: Capable of achieving extremely fast temperature transitions
between hot and cold zones, accurately simulating severe thermal
shocks.
- Precise Temperature Control & Uniformity: Advanced control systems ensure stable and uniform temperature
conditions within each zone, crucial for accurate and repeatable
test results.
- Two-Zone (or Multi-Zone) Design: Utilizes physically separated hot and cold chambers with an
automated transfer mechanism for instantaneous thermal shocking.
- Robust & Durable Construction: Built with high-quality materials, often stainless steel, for
long-term reliability and resistance to continuous thermal cycling.
- User-Friendly Interface: Intuitive touchscreen controls and advanced software simplify test
programming, real-time monitoring, and data management.
- Enhanced Safety Features: Equipped with multiple interlocks, over-temperature protection,
and alarm systems to safeguard both the equipment and the test
samples.
Applications- Electronics & Semiconductors: Detailed analysis of thermal fatigue on solder joints, ICs, and
PCBs, with complete data traceability.
- Automotive Components: Documenting thermal stress resilience for ECUs, sensors, and
battery components for stringent automotive standards.
- Aerospace & Defense: Comprehensive record-keeping for qualification and reliability
testing of critical components under extreme thermal changes.
- Medical Devices: Validating and documenting the thermal performance of devices
where data integrity is paramount for regulatory compliance.
- Materials Science: Precise tracking of material behavior during thermal shock for
research and development purposes.
- Quality Assurance & Compliance: Providing indisputable data for internal quality control, customer
requirements, and regulatory audits.
Benefits- Unquestionable Data Integrity: Ensures all test parameters are accurately recorded, providing
verifiable results for compliance and analysis.
- In-depth Analysis: Comprehensive data allows for detailed post-test analysis, helping
engineers understand failure mechanisms and optimize designs.
- Streamlined Reporting: Automated report generation saves time and resources, simplifying
documentation for audits and customer deliverables.
- Accelerated Fault Isolation: Real-time monitoring helps in quickly identifying and
troubleshooting anomalies during testing.
- Enhanced Product Reliability: By precisely tracking thermal stress, weaknesses are more easily
identified and addressed, leading to more robust products.
- Regulatory Compliance: Provides the necessary data and reporting capabilities to meet
stringent industry standards and certifications.
Specifications| Model | TSC-49-3 | TSC-80-3 | TSC-150-3 | TSC-216-3 | TSC-512-3 | TSC-1000-3 | | Inside dimension(W x D x H) cm | 40 x 35 x 35 | 50 x 40 x 40 | 65x 50 x 50 | 60 x 60 x 60 | 80 x 80 x 80 | 100 x 100 x 100 | | Outside dimension(W x D x H)cm | 128x 190 x 167 | 138 x 196 x 172 | 149 x 192 x 200 | 158 x 220 x 195 | 180 x 240 x 210 | 220 x 240x 220 | | Internal material | #304 Stainless Steel | | External material | Powder coated #304 Stainless Steel | | High temperature range | 60 ℃ ~ 200 ℃ | | Low temperature range | 0 ℃ ~ -70 ℃ | | Test temperature range | 60 ℃ ~ 180 ℃ / 0 ℃ ~ -70 ℃ | | Temperature recovery time | 1-5min | | Temperature stability ℃ | ±2 | | Cylinder switching time | 10s | | High temperature ℃ | 150 | 150 | 150 | 150 | 150 | 150 | | Heating time (min) | 20 | 30 | 30 | 30 | 30 | 30 | | Low temperature | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | | Cooling time (min) | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | | Air circulation system | Mechanical convection system | | Cooling system | Imported compressor, fin evaporator, gas condenser | | Heating system | Fin heating system | | Humidification system | Steam Generator | | Humidification water supply | Reservoir, Sensor-controller solenoid valve, recovery-recycle
system | | Controller | Touch panel | | Electrical power requirements | 3 phase 380V 50/60 Hz | | Safety device | Circuit system load protection, compressor load protection, control
system load protection, humidifier load protection, overtemperature
load protection, fault warning light |
Seeking ultimate precision and verifiable data from your thermal
shock testing? Contact our experts today to discuss your
requirements for a Data Logging Thermal Shock Chamber and empower your product validation with comprehensive insights. |
