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view Audio-tone-amplitudes @ 95:8a45cd92e3c3
TCH-tap-modes: new article
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Mon, 19 Dec 2022 02:02:28 +0000 |
parents | 8ce3bd7c0164 |
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In our current Luna development setup, we use a wired headset (currently FC-HDS4, previously iWOW's) as our primary audio device, connected to Iota EAR output, and the same arrangement will be used on FC Venus, our planned successor to FC Luna. The gist of the situation is that the firmware "thinks" that we are in the classic handheld setup, but in reality it is a headset inserted into the developer-operator's ear canal. The amplitudes of various audio tones emitted by the firmware through the DSP need to be adjusted for this in-ear headset reality, in order to provide reasonable ear comfort to the developer-operator and to prevent hearing damage. The "classic" amplitudes for fw-generated audio tones (-7 to -5 dBfs) make sense for a true phone handset with a 32 ohm earpiece speaker, and furthermore, these "classic" tone amplitudes are only appropriate when the tones are generated while the user holds the phone away from her ear - otherwise they are too loud. But in our use case where an FC-HDS4 headset stays in the developer-operator's ear canal for an entire work session, we need much lower tone amplitudes. Basic keybeep: the empirically found amplitude for operator comfort is -26 dBfs for each of the two single tones. DTMF keybeep: the empirically found amplitude for operator comfort is -29 dBfs for the low tone and -27 dBfs for the high tone. Approximately good amplitudes for the remaining tones: Call waiting tone: -23 dBfs Ringing tone: -28 dBfs Radio acknowledge (currently unused): -26 dBfs Busy/congestion/dropped: -27 dBfs SIT error tone: -28 dBfs All of these dBfs numbers listed above should be regarded as starting points for possible further tuning once we implement the necessary framework in our firmware for generating audio tones at configurable amplitudes - and this implementation most likely won't happen before FC Venus: Condat's entanglement between audio tones and the buzzer needs to be detangled first, and that task requires a platform with a working buzzer. With our present firmware, the only way to test different audio tone amplitudes is via AT@TONE test command, which requires 16 numeric arguments. The high effort of repeatedly composing these complex AT@TONE commands for each tested amplitude of each tested tone creates fatigue, which then interferes with the original objective of psychoacoustic testing of different amplitudes.