IS-25 Pneumatic Mechanical Shock Testing System For Consumer electronics Industry
Detalhes do produto
| nome: | Sistema de teste de choque | Sistema de controle e medição: | OKS01 |
|---|---|---|---|
| Características: | Controle digital | Requisitos de energia: | 220V ± 10% AC 50Hz 2KVA |
| Padrão: | GB/T2433.5, GB/T2423.6, IEC68-2-29, JJG497-200 | ||
| Destacar |
Pneumatic mechanical shock test system,Shock testing system for electronics,Consumer electronics shock test equipment |
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Descrição do produto
IS-25 Pneumatic Mechanical Shock Testing System For Transducer Industry
IS-25 shock test system is an integrated setup that simulates, controls, and analyzes sudden mechanical impact events, used to validate a product's structural and functional reliability under shock conditions.
A complete shock test system is not a single device but a combination of multiple functional modules, each responsible for a key link in the test process.
- Shock Generation Module: The core execution unit that creates the required shock environment. Common types include drop platforms, pendulum impactors, and electromagnetic/hydraulic shakers.
- Control Module: Manages test parameters such as shock acceleration, duration, and pulse shape. It ensures the test strictly follows pre-set standards (e.g., ISO, ASTM, MIL-STD).
- Data Acquisition Module: Collects real-time data during the test, including acceleration, velocity, and displacement. It typically uses high-sensitivity sensors (e.g., accelerometers) and data loggers.
- Fixture & Mounting Module: Secures the test sample to the shock generation device. Its design directly affects whether the shock force is accurately transmitted to the sample.
Shock test systems are categorized based on how they generate shock, each suited to different application scenarios.
| System Type | Generation Principle | Advantages | Typical Applications |
|---|---|---|---|
| Drop Shock System | Lifts the sample to a fixed height and releases it to impact a surface (adjustable hardness). | Simple structure, low cost, simulates real drops. | Consumer electronics (phones, watches), packaging. |
| Pendulum Shock System | Uses a pendulum with a fixed weight to strike the sample at a controlled speed. | Stable impact force, easy to adjust energy. | Automotive parts (bumpers, lights), industrial casings. |
| Electromagnetic Shock System | Drives the test platform via electromagnetic force to generate high-acceleration, short-duration shock pulses. | High control precision, repeatable pulses. | Precision instruments (sensors), aerospace components. |
| Hydraulic Shock System | Relies on hydraulic pressure to push the platform, generating large-force, high-energy shocks. | Suitable for heavy samples, large impact energy. | Large mechanical parts (engine blocks), construction equipment. |
Shock test systems must comply with industry-specific standards to ensure test results are valid and comparable.
- MIL-STD-883H: A U.S. military standard for microelectronics, specifying shock test requirements for components like chips and circuit boards.
- ISO 1806: Applies to packaging testing, defining methods for simulating drop and impact shocks during transportation.
- ASTM D3332: An American standard for testing the impact resistance of flexible packaging materials (e.g., plastic films, bags).
- IEC 60068-2-27: An international standard for environmental testing of electronic equipment, covering shock test procedures and parameters.
| Model | IS5 | IS10 | IS25 | IS50 | IS100 | IS200 | IS300 |
|---|---|---|---|---|---|---|---|
| Maximum test load (kg) | 5 | 10 | 25 | 50 | 100 | 200 | 300 |
| Table size (mm*mm) | 120*120 | 200*200 | 350*350 | 500*500 | 700*700 | 750*750 | 800*800 |
| Shock waveform (m/s²) | |||||||
| Half sine waveform | 100~30000 | 100~20000 | 100~10000 | 100~6500 | 150~6000 | 150~5000 | 150~3500 |
| After peak saw-tooth | 100~1000 | 100~1000 | 100~1000 | 100~1000 | 100~1000 | 150~1000 | 150~1000 |
| Trapezoidal wave | 150~1500 | 150~1500 | 150~1200 | 150~1200 | 150~1200 | 150~1000 | 100~1000 |
| Pulse duration time (m/s) | |||||||
| Half sine waveform | 0.5~20 | 0.6~20 | 0.8~20 | 1.5~20 | 2~20 | 2.5~20 | 3~20 |
| After peak saw-tooth | 6~18 | 6~18 | 6~18 | 6~18 | 6~18 | 6~18 | 6~18 |
| Trapezoidal wave | 6~20 | 6~20 | 6~20 | 6~25 | 6~25 | 6~25 | 6~25 |
| Maximum impact distance (mm) | 1550 | 1500 | 1400 | ||||
| Anti-secondary impact device | Air pressure friction brake | Hydraulic friction brake | |||||
| Table weight (kg) | 1300 | 1500 | 2800 | 3800 | 4350 | 4900 | 6250 |
| Dimensions (L*W*H)(mm) | 900*450*2600 | 1000*500*2700 | 1100*800*2800 | 1100*750*2800 | 1350*850*2850 | 1420*920*2900 | 1480*1000*2950 |
Control and measurement system: OKS01
Power requirements: 220V±10% single phase AC 50Hz 2kVA
Hydraulic pump station power requirements: 380V±10% 3 phases AC 50Hz
Hydraulic pump station power consumption (kVA): 2.5 | 2.5 | 4 | 4.6 | 4.6 | 6.2 | 6.5
Applicable standard: GB/T2433.5,GB/T2423.6,IEC68-2-29,JJG497-200
Destaques do produto
IS-25 Pneumatic Mechanical Shock Testing System For Consumer electronics Industry IS-25 Pneumatic Mechanical Shock Testing System For Transducer Industry IS-25 shock test system is an integrated setup that simulates, controls, and analyzes sudden mechanical impact events, used to validate a product...
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