Rev 1242 | Show entire file | Regard whitespace | Details | Blame | Last modification | View Log | RSS feed
| Rev 1242 | Rev 1257 | ||
|---|---|---|---|
| Line 59... | Line 59... | ||
| 59 | to get maximum output swing thus power |
59 | to get maximum output swing thus power |
| 60 | 60 | ||
| 61 | 3. To compensate for inevitable series resistors at the TPA6120 outputs, |
61 | 3. To compensate for inevitable series resistors at the TPA6120 outputs, |
| 62 | use opamps. |
62 | use opamps. |
| 63 | 63 | ||
| 64 | 4. Output resistors should be of high thermal power, preferably MELF |
64 | 4. Output resistors should be of high thermal power, preferably MELF or 1205 |
| 65 | 65 | ||
| 66 | 66 | ||
| 67 | (general) |
67 | (general) |
| 68 | 68 | ||
| 69 | 1. Use metal film feedback resistors (bigger than 0805, best if MELF), |
69 | 1. Use metal film feedback resistors (bigger than 0805, best if MELF), |
| Line 81... | Line 81... | ||
| 81 | 81 | ||
| 82 | 82 | ||
| 83 | (low-pass filtering) |
83 | (low-pass filtering) |
| 84 | 84 | ||
| 85 | 3-rd order butterworth, 30kHz -3dB. |
85 | 3-rd order butterworth, 30kHz -3dB. |
| - | 86 | First stage for AY is 2nd order Q=1, (multiple-feedback). 1st stage is 2nd order to keep input impedance more or less constant for AY/YM. |
|
| 86 | First stage for AY and for BEEP is 2nd order Q=1, (multiple-feedback), |
87 | For beeper there's low impedance buffer, we use single 3rd-order opamp based stage. |
| 87 | Second stage is just 1st-order RC |
88 | Second stage is just 1st-order RC |
| 88 | 89 | ||
| 89 | Some extra filtering for BEEP at higher freq. |
- | |
| 90 | - | ||
| 91 | - | ||
| 92 | (high-pass filtering) |
90 | (high-pass filtering) |
| 93 | 91 | ||
| 94 | distributed (?) "synchronous" (or not so) 1st-order high-pass filters with electrolytics. |
92 | "distributed" 2nd-order high-pass filters with electrolytics. |
| 95 | <<20Hz cutoffs |
93 | <<20Hz cutoffs |
| 96 | 94 | ||
| - | 95 | (line output vs. headphones output) |
|
| - | 96 | ||
| - | 97 | for headphones there's a need for huge output capacitor. |
|
| - | 98 | For line output relaxation time would be then too big (like tens of seconds), so need different (smaller) cap. |
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| - | 99 | Also maybe have line output without volume regulation, from summing opamps. |
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| 97 | 100 | ||