EUROPE


Software

SINE

SINE

  Specifcations
Control Algorithm Continuous closed-loop control of true rms level
Control Frequency Range 0.1-20000Hz
Control Dynamic Range More than 114dB
Operation Modes 1) Continuous sweep, Spot, Manual
2) Closed-loop, Open-loop
Measurement Method Average, RMS, Tracking
Multiple-Channel Control Modes Average control, Maximum control, Minimum control
Input Channels Maximum 64

* Specifications may be affected by other conditions

Optional software Outline
R_DWELL: Resonance Dwell Resonance is detected by measuring the phase difference between the control point and the response signal from a resonant part of the item under test. The test frequency is controller to maintain resonance as the structure fatigues.
After holding at the resonance for a pre-defined duration, sweeping can be resumed, until the next resonance is detected.
A_DWELL: Amplitude Dwell A transmissibility plot is taken from two points on the structure under test and resonances listed.
A sine test can then be run at each resonant frequency, with tracking of the resonance by either amplitude or phase.
LIMIT CONTROL Response channels can be specified as limit control channels. If the level on a limit control channel would exceed its limit, the test level is reduced accordingly.
Multi Sweep Sine A traditional wide-band sine sweep is divided into several narrower-band sine sweeps, which when added together combine to cover the original wide band. Running the narrow band sweeps in parallel significantly reduces the test time required.

RANDOM

RANDOM

  Specifcations
Control Algorithm Closed-loop control of PSD within each spectral line
Control Frequency Range 20 kHz maximum
Number of Control Lines Maximum 25600 lines
Control Dynamic Range More than 94dB
Loop Time 200ms (fmas=2000Hz, at L=400line)
Multiple-Channel Control Modes Average control, Maximum control, Minimum control
Input Channels Maximum 64

* Specifications may be affected by other conditions

Optional software Outline
SOR: Sine on Random Random vibration and sine vibration frequencies are combined. Sine vibration can be swept.
ROR: Random on Random Broad-band random combined with sweeping or non-sweeping narrow-band random overlaid.
Extended ROR The extended ROR makes it possible to operate an ROR test with greater freedom when defining separate NBR references.
PSD LIMIT: PSD limit control Response channels can be specified as limit control channels. If the PSD on a limit control channel would exceed its limit, the test level is reduced over that range of frequencies to keep with the limit level.
Non-Gaussian A vibration testing method which precisely reproduces non-Gaussian vibration, such as transportation vibrations with large spikes.
Soft-Clipping A clipping function that can reduce the peak value of the output voltage without affecting control performance.

SHOCK

SHOCK

  Specifcations
Control Algorithm Finite-length waveform controlled by feed forward method
Control Frequency Range Maximum 20000Hz
Number of Control Lines Maximum 25600 lines
Control Dynamic Range More than 84dB
Type of Reference Waveform Classical shock waveform (Half-sine, Haversine,
Saw-tooth, Triangle, Trapezoid etc. ), Sine beat waveform,
Measured waveform etc.
Input Channels Maximum 64

* Specifications may be affected by other conditions

Optional software Outline
LONG WAVEFORM The length of a reference waveform is 16K points as standard. This can be increased to 200 K points by adding the LONG WAVEFORM option. At a sampling frequency of 512Hz for example , this produces approximately 6.5 minutes of waveform, compared to the standard length of approximately 30 seconds.
MEGAPOINT A further increase in waveform duration can be obtained by adding the MEGAPOINT option to the LONG WAVEFORM option. This increases the record length to 5000K points, about 163 minutes at 512-Hz sampling rate.
SRS: Shock Response Spectrum SRS (Shock Response Spectrum) can execute the test in which the test condition and evaluation are conducted not based on waveform itself, but on SRS analysis.
With standard shock test selected, SRS analysis of response waveform is also possible.

BMAC

BMAC

  Specifcations
Control Algorithm Finite-length waveform controlled by feed forward method
Control Frequency Range Maximum 20000Hz
Number of Control Lines Maximum 25600 lines
Control Dynamic Range More than 84dB
Type of Reference
Waveform
Classical shock waveform (Half-sine, Haversine, Saw-tooth,
Triangle, Trapezoid etc.), Sine beat waveform, Measured waveform etc.
Length of Reference
Waveform
Maximum 5000k points
Input Channels Maximum 32
Output Channel Maximum 32

* Specifications may be affected by other conditions

Optional software Outline
ENDURANCE2 A drive file created in K2/BMAC can be used to run a durability test. Multiple drive files may be combined to create
an equivalent of complex real-life vibrations.

Multi RANDOM

Multi RANDOM

  Specifcations
Control Algorithm
(Three modes of control)
1) PSD of random signal closed loop control by spectrum density for each frequency segment
2) Real-time waveform controlled by feed forward method
3) Monitoring and minimising of cross-axis component
Control Frequency Range Maximum 10000Hz
Number of Control Lines Maximum 3200 lines
Control Dynamic Range More than 90dB
Loop Time 450ms
(3-input, 3-output control, 120 DOF, fmax = 2000 Hz, L=200 line cross-talk information averaging times = 8 times/loop)
Multiple-Channel Control Modes Average control, Maximum control, Minimum control
Input Channels Maximum 64 (Maximum of 32 control channels)
Output Channel Maximum 16

* Specifications may be affected by other conditions

Optional software Outline
PSD LIMIT If a response point is specified to be a limit control channel, the level of PSD doesn’t exceed the specified PSD
level in the test.
Non-Gaussian A vibration testing method which precisely reproduces non-Gaussian vibration, such as transportation vibrations with large spikes.

Multi SINE

Multi SINE

  Specifcations
Control Algorithm
(Three modes of control)
1) Amplitude:Continuous closed-loop control of true rms level
2) Phase:Real-time waveform controlled by feed forward method
3) Monitoring and minimising of cross-axis component
Control Frequency Range 0.1-10000Hz
Frequency Resolution Better than 10-4 of frequency
Control Dynamic Range More than 114dB
Operation Modes 1) Continuous sweep, Spot test
2) Control and monitoring in various physical units
Estimation Method Average, RMS, Tracking
Multiple-Channel Control Modes Average control, Maximum control, Minimum control
Input Channels Maximum 64 (Main control channel is Maximum 32Chs)
Output Channel Maximum 16

* Specifications may be affected by other conditions

Optional software Outline
LIMIT CONTROL If a response point is specified to be a limit control channel, the level of that response point will not exceed the level specified in the test.