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Electrodynamic Vibration Test System
Product Details:
- Usage Industrial
- Product Type Vibration Test System
- Material Metal
- Power Supply Electric
- Click to View more
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Electrodynamic Vibration Test System Price And Quantity
- 1 Unit
Electrodynamic Vibration Test System Product Specifications
- Vibration Test System
- Industrial
- Metal
- Electric
Electrodynamic Vibration Test System Trade Information
- Cash Advance (CA)
- 30 Days
- Asia Central America South America Western Europe Middle East Eastern Europe North America Australia Africa
- All India
Product Description
Electrodynamic Vibration Test System that our well-established and reliable enterprise puts forward is ideal for mechanical shock, transportation simulation, Environmental Stress Screening, and mission profile tests. This kind of test system has capability of simulating a large array of situations that helps in improving product, test quality as well as reliability, by enhanced and dynamic performance in acceleration, force, displacement, and velocity. Electrodynamic Vibration Testing Machine is well featured with air spring load support, fully sealed & double magnetic circuit structure, strong ear-shaft design along with bearing guide, built-in rubber vibration isolation device or airbag for reducing ground dynamic vibration.
Specification:
| Item | Specification |
| Electrodynamic vibration generator system | |
| Rated Force (peak) under sinusoidal | 32KN |
| Impact thrust | 64KN |
| Frequency range | 200 Hz |
| Continuous displacement | 59 mm p-p |
| Impact displacement | 59 mm p-p |
| Maximum rated speed (sin peak) | 2m/s |
| Maximum Acceleration (sin) | 0.53 m/s2 |
| Diameter of moving coil | 445 mm |
| Allowable unbiased load torque | 300 N.m |
| Equivalent mass of moving parts | 301 g |
| Axial vibration isolation frequency | 2.5 Hz |
| Maximum load for sample | 500 kg |
| Magnetic flux leakage | 10 gauss |
| Vertical vibration tester size | 4505x2500x840 mm(LxWxH, without package) |
| Vertical vibration tester weight | About5800 kg (without package) |
| Power amplifier | |
| Maximum output power | 32 kVA |
| S/N (Signal-to-noise Ratio) S-/N | 65 dB |
| Rated output voltage | 100 V |
| Conversion efficiency | 90% |
| System protection | Output over-voltage, output over flow, amplifier over temperature, vibration table over displacement, horizontal slide over the displacement, cooling system failure, output power under-voltage, amplifier unit failure, excitation power failure, three-phase power supply failure, etc. |
| Power amplifier size | 1720x1200x850 mm (LxWxH, without package) |
| Vertical spreading table | |
| Table size | 1100 x1100mm |
| Material | Aluminum alloy |
| Upper operating frequency | 500Hz (Sine) |
| Fan | |
| Fan power | 15 kW |
| Blowing rate | 22 m3/min |
| Vibration controller | |
| Host hardware | 2 analog voltage/IEPE/electric charge/TEDS(can be optional) input channel, built-in 24-bit ADC and IEPE constant current source and charge amplifier per channel, 32-bit floating-point DSP processor, 1 analog voltage output channel, 24 DAC resolution rugged chassis design with emergency stop button and earthing terminal |
| Control software | Random control: Test bandwidth 1-5000hz, support multi-channel control strategy, random channel limit (notching) control, etc. |
| Sine control: Test bandwidth 1-5000hz, including constant frequency, stepping, sweep sine, support multi-channel control strategy, sinusoidal channel limit (notching) control, harmonic distortion measurement. | |
| Typical impact: support electromagnetic requirements according to international standards. | |
| Resonance search and reside | |
| Acceleration sensor | |
| The host hardware | Sensitivity 30pc/g, frequency response 0.5-7000hz, mileage 500g, weight 10g, side-end outlet, 6-meter-long dedicated low noise cable temperature range -40 degree to 160deree |
| Computer | |
| Model | LENOVO M4500 |
| Configure | I3-4170-3.7GHz/DDR3-4GB/500GB/17 inches |
| Spare parts | |
| fuse links and fuse cutout, etc. | |
FAQ
1. What is a system for testing electrodynamic vibration?
Ans - To assure a product's performance and dependability, a technology called an electrodynamic vibration test system is utilised to replicate a variety of vibration scenarios. It is frequently used to evaluate the effectiveness of mechanical, electrical, and other components.
2. What advantages can electrodynamic vibration test systems offer?
Ans - Manufacturers can assess a product's performance and reliability using an electrodynamic vibration test system. Additionally, it may be utilised to simulate a variety of vibrational settings, enabling more precise testing outcomes.
3. What kinds of parts can an electrodynamic vibration test system test?
Ans -Many different types of components, including electrical components, mechanical components, and other products, can be tested using an electrodynamic vibration test system.
4. How do systems for measuring electrodynamic vibrations operate?
Ans - The method by which Electrodynamic Vibration Test Systems generate a variety of various vibrational frequencies and amplitudes is the use of a shaker or other vibration instrument. The product being tested is then subjected to these vibrations in an effort to imitate the various vibration situations it would experience in usage.
5. Is operating an electrodynamic vibration test system challenging?
Ans - No, using an electrodynamic vibration test system is typically simple. The systems often have simple controls and user-friendly interfaces, making setup and use simple.
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Contact Details
- Lida Road, Changchun Economic Development Zone,Yiyang - 413000, Hunan, China
HUDA TECHNOLOGY
- Ms. Sara Wong (Sales Manager)
- Mobile : +8613450054136
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