DB0FHN

G8MNY  > TECH     27.09.05 19:12l 100 Lines 5000 Bytes #999 (0) @ WW
BID : 63887_GB7CIP
Read: DJ9UI GUEST DL1LCA OE7FMI
Subj: Sound Levels, dBA dBB & dBC
Path: DB0FHN<DB0MRW<DB0WUE<DK0WUE<7M3TJZ<SP7MGD<GB7YKS<GB7PZT<GB7YFS<GB7CIP
Sent: 050927/0917Z @:GB7CIP.#32.GBR.EU #:63887 [Caterham] $:63887_GB7CIP
From: G8MNY@GB7CIP.#32.GBR.EU
To  : TECH@WW

                                                      (updated Jul 05)
The human ear has a very wide frequency & level range. From 0dBA that
approximates to the threshold of hearing & represents an ear drum movement in
the order of the width of an atom, to energy levels > million million times
stronger, or > million times that movement. This dynamic range is achieved by
an AGC action in the ear that uses a muscles to dampen the movement of the
acoustic path to the cochlea. The minimum level change that can be detected is
about 2dB over this range.

Too much sound for short time results in ringing in the ear, some damage
usually has happened if you hear this. Long periods of loud sound actually
breaks off the frequency sensing hairs in the cochlea, resulting in permanent
loss of that frequency!

Frequency resolution is about 2% at most frequencies, eg 20Hz @ 1KHz.

This chart shows a young human ear response dBP (phons) of equal loudness
measured against Sound Pressure Level, (0dB = 2 dynes/cm2 old units).

  \ Hz 20     50    100    200    500    1K     2K     5K     10K    20K
 SPL\ ÚÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÁ¿
140dB ´`-.__                                                        ./ Ã140dB
130dB ´_    ```---...___     Threshold of Pain                   _./   Ã130dB
120dB ´ `--..           ``````--------------..____         _..-''     .Ã120dB
110dB ´`-._  ``--...___         120dBP            ``-....-'     __ _./ Ã110dB
100dB ´-.  `-._        ````--.._____..------....____      _..-''  '    Ã100dB
 90dB ´-.``-._ ``Ä--..          100dBP              ``--''    _.._   ./Ã 90dB
 80dB ´-.`-._ `-._    ```---...._______..----.....___    _..-'    `''  Ã 80dB
 70dB ´\ `-. `-._ `-..__          80dBP              `--'     _.._   ./Ã 70dB
 60dB ´  \  `-.  `-._   ```---..._______..----.....___   _..-'    `-'  Ã 60dB
 50dB ´     \  `-._  ``--..__      60dBP              `-'     _.._   ./Ã 50dB
 40dB ´       \    `--..__   ``--._____.-----.....____   __.-'    `-'  Ã 40dB
 30dB ´          ` .      ``--..__   40dBP            `''    _.._    ./Ã 30dB
 20dB ´     Threshold` - _   20dBP``---------.....____  __.-'  _ `--' /Ã 20dB
 10dB ´        Of Hearing  ` - . _                    `'     /   \ _ / Ã 10dB
  0dB ´                   0dBP     ` ` ` ' ' ' ' - . _ . . /           Ã  0dB
      ÀÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÄÄÄÂÙ
       20     50    100    200    500    1K     2K     5K     10K    20K

You will see that the response is far from flat, & that the bass end is also
very compressed a 20dB change only seems like 10dB.

Frequency range & sensitivity changes with age, from 20Hz-20KHz when young, to
-20dB @ 4KHz when old with some 20-40dB reduction in overall sensitivity as
well, but the threshold of pain remains the same.

Here are some typical sound levels taken from a 1963 DAWE Instruments Meter
handbook. Some sounds may be louder now! (eg noisy Jets, louder HGVs etc)

EXAMPLE                 dB  Wtg     NOISE     Pressure mPa
Jet Aircraft @ 500ft   120 dBC    Deafening    20,000
Boiler Making Factory  110 dBC    Deafening     6,300
Pneumatic Drill        110 dBC    Deafening
Motor Horn             105 dBC    Deafening
Inside Old Tube Train   95 dBC    Very Loud       
Busy Street             93 dBC    Very Loud
Workshop                88 dBC    Very Loud
Small car @ 24ft        83 dBB    Very Loud
Noisy Office            78 dBB    Loud
Inside small Car        73 dBB    Loud
Large Shop              68 dBB    Loud
Radio Set @ Full Volume 65 dBB    Loud             68
Normal Conversation     58 dBB    Moderate
Urban House             53 dBA    Moderate
Quiet Office            48 dBA    Moderate
Rural House             43 dBA    Moderate
Public Library          38 dBA    Faint
Quiet Conversation      33 dBA    Faint
Rustle of Paper         28 dBA    Faint
Whisper                 23 dBA    Faint
Quiet Church            18 dBA    Very Faint
Sill Night in Country   13 dBA    Very Faint
Sound Proof Room         5 dBA    Very Faint        0.6
Threshold of Sound       0 dBA    Extremely Faint   0.2

dBC is a frequency response weighting & not dBc which is dBs with respect to an
RF carrier. The weighting changes with level to reflect the human ear response.

Weighting dBA is for sound levels up to 55dB it has a response peaking at 2KHz
with heavy LF cut of -50dB @ 20Hz & -10dB @ 20KHz.

Weighting dBB is for sound levels between 55dB & 85dB, it is flatter than dBA
with only -24dB @ 20Hz LF roll off & -10dB @ 20KHz.

And dBC Weighting is level above 85dB, it is quite flat 30Hz-10KHz, and only
-10dB roll off at 10Hz & 20KHz.

These ear responce tonal level changes are the principle behind Loudness
controls on modern audio domestic systems, eg boost low frequency Bass & top
end Treble when the volume control is set low, as it will sound much louder to
the ear.


Why Don't U send an interesting bul?

73 De John, G8MNY @ GB7CIP


Read previous mail | Read next mail