The Spectral Dynamics Lynx Shaker Controller is a vibration control and analysis system that features sine, random and sweep control as well as closed loop capabilities. Lynx shaker controllers utilize the innovative Computer-Aided Test Suite™ architecture, which takes advantage of advanced hardware with distributed processing (using powerful 128-bit Floating Point DSP’s) and the PC’s powerful Intel processor and software. Optimized for multi-tasking, and founded on industry connectivity and data interchange protocols, LYNX increases the efficiency of the entire test and validation process.
Features
- 4 input channels with ICP®
- Powerful multiple DSP architecture
- Comprehensive vibration test capabilities: Random | Sine | Classical Shock with SRS displays
- Autoranging input and output attenuators for over 90 dB usable dynamic range
- Extensive safety, automation, and test configuration features
- Flexible data storage with display overlays of current and stored test results
- Powerful hardware processor for the fastest and most accurate control possible
- Fully documented post-test summary with and without Microsoft Office
Specifications
General Specifications |
Power - Voltage |
100 to 125 Volts or 200 to 240 Volts |
Power - Frequency |
50 or 60 Hz |
Typical power usage |
150 watts |
Temperature (operating) |
50 deg F to 104 deg F (10 deg C to 40 deg C) |
Temperature (nonoperating) |
-13 deg F to 140 deg F (-25 deg C to 60 deg C) |
Humidity |
20% to 80% non-condensing |
Hardware - Dynamic range |
>92 dB |
Analog-to-digital converter |
24-bit |
Random control - control method |
Patented adaptive control algorithm with separate controls loops dedicated to controlling the shape of the drive spectrum and overall RMS level optimizes both control speed and stability |
Out-of-Band Noise Rejection |
Digital Brick wall filter on each channel after the analog
Aliasing filter and the A/D converter |
Input channels |
4 (four) Independent Channels |
Sine control - control loop |
True analog-quality sine sweep with a double precision integrated phase algorithm for low distortion |
Shock control - control loop |
Patented adaptive control algorithm with transfer function updating and coherence smoothing to accurately and quickly compensate for nonlinearities or time varying changes in the dynamic load |