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Radio Shack SPL Meter mods corrections

I know that others here were interested in the specs to correct the non-linearities of the factory stock RS SPL meter. The figures below are to be either added to (+) or subtracted from (-) the readings that you obtain from your factory stock meter. In other words, the meter in stock form is EXTREMELY deficient when it comes to taking low frequency measurements. Keep in mind that these corrections are only valid under the following conditions. The meter must be set to C weighting, using 1/3 octave pink noise (easily available from various CDs), with the mic pointed at the speaker. These measurements were verified on both the RS analogue and digital meters using laboratory grade test equipment. Baseline testing was done using the 80 dB scale for reference purposes. While on the low side, this should give you a good baseline as to what your actually getting out of your system. Needless to say, if you had BIG peaks in the bass region with the stock meter and you weren't calculating in these correction figures, you're in even worse shape than you thought.

10Hz +20.5
12.5Hz +16.5
16Hz +11.5
20Hz +7.5
25Hz +5
31.5Hz +3
40Hz +2.5
50Hz +1.5
63Hz +1.5
80Hz +1.5
100Hz +2
125Hz +0.5
160Hz -0.5
200Hz -0.5
250Hz +0.5
315Hz -0.5
400Hz 0
500Hz -0.5
630Hz 0
800Hz 0
1KHz 0
1.25Khz 0
1.6KHz -0.5
2Khz -1.5
2.5Khz -1.5
3.15Khz -1.5
4KHz -2
5KHz -2
6.3KHz -2
8KHz -2
10Khz -1
12.5KHz +0.5
16KHz 0
20KHz +1

In order to correct the low frequency roll-off, you can do the following modifications to your meter. This will make the meter FAR more sensitive to low frequencies and allow measurements with very good accuracy to well below 20 Hz. Due to the increased sensitivity at very low frequencies, it is possible for low frequency "thumps" to slam the meter if using a very low SPL setting. In order to prevent meter movement damage, take precaution not to peg the meter off scale on a regular basis. If this is occuring regularly, you either need to move up to a higher SPL range on the meter or take more caution as to how your performing your tests.

All of the following capacitors must be rated for AT LEAST 15 volts or so. Size does matter, so try to use the smallest package possible.
C1 & C2 are changed from 1 uF to 10 uF
C3 & C4 are changed from 1 uF to 47 uF
C7* is changed from 10 uF to 220 uF
C8 is changed from 100 uF to 470 uF
C9 is changed from 22 uF to 220 uF
C15 is changed from 100 uF 220 uF

While all of the above parts are spec'd as microfarads, the following is in picofarads. Do not confuse the two values or the meter will not work very well at all. This last change helps minimize high frequency roll-off that is inherit in the stock microphone

C12 is changed from 33 pF to 12 pF.

Please note that all of the above parts can be soldered directly in place of the originals EXCEPT C7. Due to its location, a "normal sized" 220 uF cap will be too big to allow the case to close correctly. In order to get around this, simply solder it on the "solder side" of the board instead of on the "parts side" of the board. Pay special attention to the POLARITY of ALL of the caps as you pull them out to replace them. For this reason, i recommend pulling and replacing the caps one at a time to minimize confusion. Once all of these mods are done, the meter is more than accurate enough for anything that a home audio enthusiast would ever need use of. If you really want to "get crazy", you can remove the factory installed mic and either remotely mount it on a "wand" or make use of a calibrated mic like those available from Old Colony.

I hope this helps some of you out and sorry it took so long to dig all of this up. Sean
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sean
sean OP
6,231 posts
 
Lightningman, thanks for posting your results. Your comments about rolled off highs were echoed in some of the original info that i culminated this from. The change to C12 addresses that problem. Due to production tolerances, some mic elements and / or circuitry do have slightly different measurements. Lowering the value of C12 helps to restore more uniform high frequency coverage to the unit even if you happened to have one that "nose dived" from the factory. Don't get me wrong, i'm not saying that these mods turn the RS meter into a piece of laboratory grade test gear, just that it will alleviate the need for factoring in major corrections in terms of non-linearity. In plain English, it will give you more of a "what you see is what you get" type of reading. As stated previously though, the biggest problem with the RS meter is the factory mic element and how they have it mounted. Doing the above listed mods and then substituting a calibrated microphone will give you excellent results. After the mods have been done, the electronics themselves are basically flat from below 20 Hz to appr 20 kHz. Any major variations in the response would be due to the microphone. I would expect pretty linear results using the factory stock mic with the modified electronics to give solid results from appr. 20 Hz to 10+ kHz as long as your taking your measurements directly on axis. Some may extend beyond 10 kHz with good accuracy, but that would just be icing on the cake. Sean
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blue_max
4 posts
 
Does the current analogue model 33-4050 also require corrections?
eldartford
4,262 posts
 
For those who are lazy, or are arithmetically challenged, the Rives audio Test CD has a set of tracks that are compensated for error of the Radio Shack meter.

For those who are really, really, lazy, get a spectrum analyser and calibration mic.

Sean...Why do you think that the meter is made with so many wrong-value capacitors?
sean OP
6,231 posts
 
Bluemax: I do not know if the 33-4050 is built / designed in the same fashion. Given that RS is primarily interested in increasing profits via cosmetic changes rather than re-designing products, my "guess" would be that it is probably quite similar.

El: I have no idea why this or many other products are built and designed the way that they are. My guess is that many manufacturers simply trust the engineering department to get things right without ever really testing any prototypes and market it as is. This would explain why new models come out quite frequently, why there are Mk II and Mk III revisions and why products are recalled by those same manufacturers.

What i can't figure out is how there is always enough time and money to do something twice ( or more ) in order to correct problems that were overlooked in the initial design phases when there is never enough time or money to do it right the first time. Like the song says, "Kinda makes you go hmmmm"...... Sean
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eldartford
4,262 posts
 
Sean...In my old business, where I was responsible for test design (software definition) the problem was like this...

1...You must get the software delivered by this date. Don't worry about making it perfect.

Then, after the SW is delivered, and some problems or potential upgrades becomne evident..

2...What we have is working. Why change?

In between there are about 100 millisconds of time to make changes.
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