Laser Microphone: Difference between revisions
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=== Low-pass filter === | === Low-pass filter === | ||
[[File:NMLMpassivefilters.png|thumb|300px|First order passive low-pass filter (top) and second order passive low-pass filter (bottom) demonstrating how higher order filters can be obtained by chaining together lower order filters.]] | |||
A low pass filter is a filter that passes frequencies lower than a selected cutoff frequency and attenuates signals with frequencies higher than the cutoff. Low-pass filters provide a smoother form of a signal, removing the short-term fluctuations and leaving the longer-term trend. | A low pass filter is a filter that passes frequencies lower than a selected cutoff frequency and attenuates signals with frequencies higher than the cutoff. Low-pass filters provide a smoother form of a signal, removing the short-term fluctuations and leaving the longer-term trend. | ||
====RC filter==== | ====RC filter==== | ||
The cutoff frequency of a passive first order low-pass filter is given by | The cutoff frequency of a passive first order low-pass filter is given by | ||
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====Butterworth Filter==== | ====Butterworth Filter==== | ||
[[File:NMLMbworth filter gain.png|right|thumb| | [[File:NMLMbworth filter gain.png|right|thumb|500px|Plot of the (power) gain <math>G(f)</math> of low-pass Butterworth filters of different orders with cutoff frequency <math>f=1</math>, showing the increasing rate of frequency rejection as the order of the filters increase.]] | ||
The Butterworth filter is a signal processing filter that is designed to have a uniform sensitivity in the passband ("desired" frequencies), while having a sufficient rejection in the stopband ("unwanted" frequencies)<ref name="butterworth">S. Butterworth, "On the Theory of Filter Amplifiers," ''Experimental Wireless and the Wireless Engineer'', Vol. '''7''', 1930, pp. 536-541</ref>. | The Butterworth filter is a signal processing filter that is designed to have a uniform sensitivity in the passband ("desired" frequencies), while having a sufficient rejection in the stopband ("unwanted" frequencies)<ref name="butterworth">S. Butterworth, "On the Theory of Filter Amplifiers," ''Experimental Wireless and the Wireless Engineer'', Vol. '''7''', 1930, pp. 536-541</ref>. |
Revision as of 05:24, 18 April 2022
A laser spot illuminating a vibrating surface should move along with it, and tracking the motion of the spot should theoretically allow us to retrieve some of the information regarding the vibrations of the surface. If a loud enough sound causes the surface to vibrate, this should theoretically be enough for the transmission of audio information through visual means.
Team Members
A0166927N | Marcus Low Zuo Wu
A0171267A | Nicholas Chong Jia Le
Methods and Requirements
Using a photodiode / array of photodiodes, we attempt to record audio by measuring the signal from a laser reflecting off a surface near the sound.
Due to the nature of the setup mentioned, we require a decently dim environment to minimise noise, a visible light laser (does not need to be high powered but needs to be decently collimated), an optical bench, a set of photodiodes that can detect the laser light and produce a signal, and an electronic setup that allows us to capture and export the signal from the photodiodes.
Background
Level (logarithmic quantity)
A power level is a logarithmic quantity used to measure power, power density or sometimes energy, with commonly used unit decibel (dB).
Power level
Level of a power quantity, denoted LP, is defined by
where
- P is the power quantity;
- P0 is the reference value of P.
Field (or root-power) level
The level of a root-power quantity (also known as a field quantity), denoted LF, is defined by
where
- F is the root-power quantity, proportional to the square root of power quantity;
- F0 is the reference value of F.
Low-pass filter
A low pass filter is a filter that passes frequencies lower than a selected cutoff frequency and attenuates signals with frequencies higher than the cutoff. Low-pass filters provide a smoother form of a signal, removing the short-term fluctuations and leaving the longer-term trend.
RC filter
The cutoff frequency of a passive first order low-pass filter is given by
where is the value of the resistance and is the value of the capacitance.
The top circuit on the right shows a configuration that forms such a low-pass filter. As seen on the bottom circuit on the right, higher order passive filters can be made simply by chaining together lower order filters.
Butterworth Filter
The Butterworth filter is a signal processing filter that is designed to have a uniform sensitivity in the passband ("desired" frequencies), while having a sufficient rejection in the stopband ("unwanted" frequencies)[1].
The (power) gain of such a filter, with a cutoff frequency and filter order is given by:
The gain curves for various orders of low-pass Butterworth filters are shown in the plot on the right, showing a roll-off of dB/decade of frequency. The
Citations
- ↑ S. Butterworth, "On the Theory of Filter Amplifiers," Experimental Wireless and the Wireless Engineer, Vol. 7, 1930, pp. 536-541