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Technical Reviews
Each issue of Technical Review contains a collection of technical, scientific articles including theory, measurement techniques, and instrumentation for acousticians and vibration engineers.
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- Technical Review: No. 1 2011
Technical Review
(2012)
Size:
2587 kb
- Technical Review No. 1 2010 - Time Selective Response Method, In situ Measurement of Absorption Coefficient, Transverse Motion in Accelerometer Calibration
Time Selective Response, TSR, is a frequency response measurement method based on linearly swept sine signals. Because TSR can be used for free-field measurements in ordinary rooms and is fast, accurate and relatively insensitive to background noise, it is convenient for measurements of microphone and sound level meter free-field responses. However, the method’s combination of time and frequency weighting can make it complicated to estimate the uncertainty of the measured response. This paper briefly summarizes the method and presents some experience with and guidelines for choosing measurement and weighting parameters and considerations on the associated uncertainty on the results. The results are discussed on the basis of practical measurements of microphone and sound level meter free-field responses at Brüel&Kjær.
Technical Review
(2010)
Size:
1723 kb
- Technical Review No. 1, 2009 - Use of Volume Velocity Sound Source in FRF Measurements, Turnkey Free-field Reciprocity System
This paper describes the design of a Volume Velocity Source and verifies its use in the measurement of p/Q FRFs. Two designs of Volume Velocity Source are presented, one for low-mid frequencies, and one for mid-high frequencies, both taking advantage of the two-microphone technique for estimating volume velocity at the orifice during operation.
Technical Review
(2010)
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5343 kb
- Technical Review 2008-1 Primary Calibration using Laser Interferometry, Infrasound Calibration of Microphones, High-temperature IEPE Accelerometer
Laser interferometry – using counters for fringe counting and determination of zeroes at higher frequencies – has been used for accelerometer calibration since the late 1960s. As digital techniques evolved during the 1980s and 90s, it became possible to make a more sophisticated approach towards interferometer detectors’ complex output signals. This evolution was described in a revision of the previous standard, ISO 5347.1, which resulted in the new ISO 16063.11 in 1999. In the new standard, the sine approximation method was introduced. As the input is known to be a sine, a least square fitting of the results calculated from the interferometer output gives good results. The fitting is essentially a filtering at the known frequency. Therefore, with the advanced high-resolution FFT analysers available today, it is logical to use such analysers to do the filtering.
A system following these concepts has been realised. This system will be described, and an evaluation of the system’s sensitivity to different imperfections (e.g., noise and gain differences in the interferometer output) will be reported. The evaluation is made using computer-generated test signals, and the technique can also be used to verify the system whenever needed.
 Technical Review
(2009)
Size:
2899 kb
- Technical Review 2007-1 Measurement of Normal Incidence Transmission Loss and Other Acoustical Properties of Materials Placed in a Standing Wave Tube
A method for measuring the normal incidence transmission loss and related acoustical properties of a sample placed in a four-microphone standing wave tube is described. - Technical Review No. 2 1996
While traditional spectral analysis techniques based on Fourier Transform or Digital Filtering provide a good description of stationary and pseudo-stationary signals, they face some limitations when analysing highly non-stationary signals. These limitations are overcome using Time-frequency analysis techniques such as Wavelet Transform, Short-time Fourier Transform, and Wigner-Ville distribution. These techniques, which yield an optimum resolution in the time and frequency domain simultaneously, are described in this article and their advantages and benefits are illustrated through examples.
Technical Review
(2007)
Size:
3413 kb
- Technical Review 2006-1 Dyn-X Technology Order Tracking; Comparison of IBEM, PNAH, and LDV Methods
Dyn-X Technology, Order Tracking, and Comparison of IBEM PNAH and LDV Methods - Technical Review 2005-1 Surface Microphone; NAH and Beamforming using the same Array; SONAH
Acoustical Solutions in the Design of a Measurement Microphone for Surface Mounting; Combined NAH and Beamforming Using the Same Array; Patch Near field Acoustical Holography Using a New Statistically Optimal Method - Technical Review 2004-1 Beamforming
This article explains the basic principles of Beamforming, including the main performance parameters Resolution and Sidelobe Level. Special attention is given to the influence of array design and to cross-spectral beamforming. Different array designs, including Brüel&Kjær’s newly patented wheel array design, are described and compared, and the basic principle of Brüel&Kjær’s geometry optimisation method is outlined. A new, improved version of cross-spectral beamforming used in Beamforming Software Type 7768 is introduced and its benefits are verified. The article also provides some guidelines for performing good measurements and finally, describes a set of measurements representing typical applications. - Technical Review No. 1 - 2002
In a previous paper (SENSOR 1997), the principle of a triaxial, piezoelectric accelerometer was described.
This paper describes a similar design but with the piezoelectric ring suspended on only three simple supports. The basic theory behind the principle is explained and measurement results from a very compact, practical unit are also described. Technical Review
(2002)
Size:
483 kb
- Technical Review 2001-1 Properties and Calibration of Laboratory Standard Microphones; Uncertainties in Microphone Frequency Responses
The Influence of Environmental Conditions on the Pressure Sensitivity of Measurement Microphones; Reduction of Heat Conduction Error in Microphone Pressure Reciprocity Calibration; Frequency Response for measurement microphones – a question of Confidence; Measurement of microphone random-incidence and pressure-field responses and determination of their uncertainties - Technical Review 2000-1 Non-stationary STSF
This article gives a general introduction to the principles and applications of the Brüel & Kjær Non-stationary STSF measurement technique, with special emphasis on the new functionality included with Version 2.0 of the software package Type 7712. After a general introduction, the principles of Bad Measurement Point Interpolation and Envelope Intensity are descibed. Two case studies of typical applications are then outlined: the first one, which is measurement of brake squeal, is an example of transient noise source localisation. The second case study is mapping and analysis of microphenomena and orders in engine noise radiation.
- Technical Review 1999-1 Characteristics of the Vold-Kalman Order Tracking Filter
In this article the filter characteristics of the Vold-Kalman Order Tracking Filter are presented. Both frequency response as well as time response and their time-frequency relationship have been investigated. Some guidelines for optimum choice of filter parameters are presented. The Vold-Kalman filter enables high performance simultaneous tracking of orders in systems with multiple independent shafts. With this new filter and using multiple tacho references, waveforms, as well as amplitude and phase may be extracted without the beating interactions that are associated with conventional methods. The Vold-Kalman filter provides several filter shapes for optimum resolution and stop-band suppression. Orders extracted as waveforms have no phase bias, and may hence be used for playback, synthesis and tailoring. - Technical Review 1998-1 Danish Primary Laboratory of Acoustics, Microphone Reciprocity Calibration, Calculation Program for Reciprocity, Calibration
Danish Primary Laboratory of Acoustics (DPLA) as Part of the National Metrology Organisation; Pressure Reciprocity Calibration – Instrumentation, Results and Uncertainty; MP.EXE, a Calculation Program for Pressure Reciprocity Calibration of Microphones Technical Review
(1998)
Pages:
40 - Technical review 1997-1 A New Design Principle for Triaxial Piezoelectric Accelerometers; A Simple QC Test for Knock Sensors; Torsional Operational Deflection Shapes (TODS) Measurements
A simple set-up for quick and purely electrical QC testing of knock sensors is described in this paper. The main goal is to measure the “impedance” frequency response function of the sensors. The advantages of the test procedure described in this paper are as follows: Simple “pseudo” one channel measurement, from the operator’s point of view. Electrical testing, i.e. no need for shakers, power amplifiers, elaborate fixtures etc.. Pulse excitation, thus very fast — in the order of 100ms for one measurement test. No averaging needed. Standard frequency response function display is used, whereby no complex postprocessing is required. The only requirement is a small junction box with the necessary transformer and some electronics. The power supply for the junction box is fed from the analyzer. The testing method can be extended to other types of transducers such as accelerometers.
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