VOTER-Audio-Analysis
Introduction
This page shows the results of analyzing the audio response through an original through-hole VOTER board. As most of the background engineering on the design was lost with Jim's passing, some reverse engineering is required to dig deeper in to the design.
The data presented here analyzes the audio response between different sections of the various circuits in both the audio path, and the squelch/RSSI path.
Audio Select Lines
If you refer to the schematic, you will note that there are two Audio Select lines (ASEL1/ASEL2) connected to the 74HC4053, which determine how audio is routed through the VOTER board.
ASEL1 determines the state of the hardware CTCSS Filter. When this line is Low, the CTCSS Filter is bypassed. When this line is High, the CTCSS Filter is inserted in the audio path (default).
ASEL2 determines the state of the hardware De-emphasis Filter. When this line is Low, the de-emphasis filter is inserted in the audio path. When this line is High, the de-emphasis filter is bypassed.
On initial boot (during the bootloader phase), ASEL1 and ASEL2 are Low. With the firmware running, default options, no host connection, and no GPS, ASEL1 = H and ASEL2 = L, which means that by default the CTCSS Filter is ENABLED and the De-emphasis Filter is ENABLED.
The state of the ASEL lines can be manually overridden by the noplfilter and nodeemp options in voter.conf
Documentation. They, obviously, will cause their respective filters to be disabled on the VOTER client they are configured for. NOTE: this is only true if there is a valid host connection.
In addition, Menu Item 11 (Offline De-emphasis Override) on the Offline Menu directly affects the state of ASEL2 (de-emphasis). This is true, regardless of whether Offline Mode is enabled, or not!! When Menu Item 11 is NORM, the de-emphasis filter is enabled (or at its default condition). When Menu Item 11 is set to OVERRIDE, the de-emphasis filter is bypassed.
Note however, the effect of this setting is also directly tied to the setting of Main Menu Item 13 (COR TYPE). If COR TYPE is set to NORMAL, you can toggle the de-emphasis filter with Menu Item 11 on the Offline Menu. If the COR TYPE is set to IGNORE COR, the de-emphasis filter is bypassed immediately, and Menu Item 11 on the Offline Menu has no effect.
Test Configuration
The data was captured using Room Eq Wizard software (version 5.20.5) on a Dell E6510, using the built-in sound card. The sound card response was calibrated out (calibration file created and applied).
The VOTER being used was built by VE7FET, and was running Firmware V3.00.
In most cases, "zero" is actually about -15.8dBm, so through measurements would be relative to that. Sorry, I didn't feel like figuring out how to reference the measurement sweeps to zero out that correction.
This is the baseline measurement, with the calibration applied, with the output of the sound card connected to the input, using a 10uF capacitor on the microphone input (DC blocking).
The sweeps presented below should be used as a general representation of the audio characteristics of the path. This is definitely not a scientific, lab-grade experiment. I was more interested in what the relative responses were of various parts of the circuit, as well as the effect and operation of various option settings in the config file (and menus).
Audio Circuitry Sweeps
Input Amplifier Response
Sweeping from Radio DB9 Pin 3 to U4 Pin7. 10uF cap on Mic input of sound card. No host connection. It appears there may be some interaction with the test setup causing a slightly non-flat response (compared to when JP2 is inserted).
Inserting JP2 (20dB Pad):
CTCSS Filter Response
Sweeping from Radio DB9 Pin 3 to U14 Pin 1 to characterize the response of the high-pass CTCSS Filter. 10uF cap on Mic input of sound card. No host connection. JP2 is OUT.
Sweeping from U14 Pin 2 to U14 Pin 1, just the CTCSS filter by itself:
Again, the interaction can be seen when sweeping through the Input Amp (a slight roll off at the higher end frequencies). Response is flat when sweeping through the CTCSS Filter directly.
The 3dB point of the filter is about 197Hz.
Anti-alias Low-pass Filter Response
Sweeping from Radio DB9 Pin 3 to U4 Pin 1 to characterize the response of the Anti-alias LPF. 10uF cap on Mic input of sound card. Host connection established (mix mode/no GPS), nodeemp and noplfilter options set on client config to bypass hardware CTCSS and De-emphasis Filters (ASEL1=L, ASEL2=H).
The Anti-alias LPF 3db point is about 3.22kHz. Fairly flat response through the audio pass band (up to 3kHz).
Sweeping from U14 Pin 4 to U4 Pin 1. Just the Anti-alias Filter directly:
There appears to be some impedance mismatch with the test setup, as there is higher loss observed... but the response is about the same.
De-emphasis Filter Response
Sweeping from Radio DB9 Pin 3 to U14 Pin 5 to characterize the response of the De-emphasis Filter. 10uF cap on Mic input of sound card. Host connection established (mix mode/no GPS), noplfilter option set in client config to bypass CTCSS Filter (ASEL1=L), don't care about ASEL2.
Not the greatest response here.
There seems to be some gain here (note the peak response is about -6dBV, expected would be -15.8dBv). The response is also not flat.
The expected de-emphasis curve for LMR should have an Fc=212Hz (for 750uS de-emphasis), and roll off at 6dB/octave. We see Fc is around 370Hz, and the roll-off isn't very flat. We have 6dB/octave from 1kHz to 2kHz, but 4dB/octave from 2kHz to 3kHz, and 3dB/octave from 3kHz to 4kHz.
Maybe more investigation is required here to see if this is interaction with the test setup, or a design flaw with the de-emphasis filter.
Tried sweeping the de-emphasis filter directly (U14 Pin 3 to U14 Pin 5), but there was too much loading, and not enough signal was recoverable (so, maybe indeed there is an interaction with the test setup).
Overall RX Audio Chain Responses
Here are the responses for the RX Audio chain, measuring from Radio DB9 Pin 3 to U4 Pin 1. 10uF capacitor on Mic input of sound card. Host connection established (mix mode/no GPS). noplfilter and nodeemp options set as needed.
No CTCSS Filter, No De-emphasis Filter
ASEL1=L, ASEL2=H
With CTCSS Filter, No De-emphasis Filter
ASEL1=H, ASEL2=H
No CTCSS Filter, With De-emphasis Filter
ASEL1=L, ASEL2=L
NOTE: this test reveals a 9dB increase in audio level. That is odd. It is pointing to a design issue with the De-emphasis Filter, as it is similar to what we saw when sweeping the De-emphasis Filter directly.
With CTCSS Filter, With De-emphasis Filter
ASEL1=H, ASEL2=L
NOTE: this test reveals a 7dB increase in audio level. Likely caused by the De-emphasis Filter response, again. However, on the positive side, we are seeing 7dB/octave de-emphasis from 300-900Hz (which is pretty close to the desired 6dB/octave), 5.8dB/octave from 1kHz to 2kHz, and 4.3dB/octave from 2kHz to 3kHz.
Summary
So, some interesting observations were revealed in these sweeps.
We see that the CTCSS Filter has a pretty good response. The Anti-alias filter too seems to have a pretty good response.
The De-emphasis Filter is a bit of an odd ball. It appears to have a decent amount of gain (unexpected), and the low-pass response is not very consistent with the desired Fc=212Hz and roll off at 6dB/octave. However, when both the CTCSS Filter and the De-emphasis Filter are both in-circuit, the de-emphasis response is better, but we still have unexpected gain.
As a result of these observations one should be very careful when aligning their audio levels, and do not change options "on-the-fly" once they are set, as it will have a direct effect on the audio response in to Asterisk.