Sunsoft 5B audio: Difference between revisions
Rainwarrior (talk | contribs) (further clarification, 5B is really a YM2149F, and what this means for clock speed) |
Rainwarrior (talk | contribs) (description of the YM2149F clock divider is a little inaccurate) |
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There are three channels that output a square wave tone. In addition there is one noise generator, and one envelope generator, both of which may be shared by any of the three channels. | There are three channels that output a square wave tone. In addition there is one noise generator, and one envelope generator, both of which may be shared by any of the three channels. | ||
The 5B's audio is driven by the [[Clock rate|CPU clock]] (1.78977267 MHz) | The 5B's audio is driven by the [[Clock rate|CPU clock]] (1.78977267 MHz), but the YM2149F has an optional clock divider which halves the internal clock speed. By comparison of the produced pitches in ''Gimmick!'' with the register values used, it appears that the 5B is a YM2149F operating in this mode. To use an AY-3-8910 as a substitute, you would need an external divider to reduce the clock speed by half. | ||
The frequency formulas given below assume the standard 1.78977267 MHz as the ''Clock'' value; note that each formula includes an additional divide by 2 to compensate for the | The frequency formulas given below assume the standard 1.78977267 MHz as the ''Clock'' value; note that each formula includes an additional divide by 2 to compensate for the YM2149F's internal divider. | ||
=== Tone === | === Tone === | ||
Revision as of 11:22, 11 March 2012
The Sunsoft 5B is a superset of the Sunsoft FME-7. It is identical to the FME-7 except it contains extra audio hardware. This audio hardware was only used in one game, Gimmick! Because this game did not use many features of the chip (e.g. noise, envelope), its features are often only partially implemented by emulators.
Registers
The audio hardware is a type of Yamaha YM2149F, which is itself a variant of the General Instrument AY-3-8910 PSG.
Audio Register Select ($C000)
7......0
----RRRR
++++- The 4-bit internal register to select for use with $E000
Audio Register Write ($E000)
7......0 VVVVVVVV ++++++++- The 8-bit value to write to the internal register selected with $C000
Internal audio registers
The YM2149F has 16 internal audio registers, selected with $C000 and written to with $E000.
| Register | Bitfield | Description |
|---|---|---|
| $00 | LLLL LLLL | Channel A low period |
| $01 | ---- HHHH | Channel A high period |
| $02 | LLLL LLLL | Channel B low period |
| $03 | ---- HHHH | Channel B high period |
| $04 | LLLL LLLL | Channel C low period |
| $05 | ---- HHHH | Channel C high period |
| $06 | ---P PPPP | Noise period |
| $07 | --CB Acba | Noise disable on channels C/B/A, Tone disable on channels c/b/a |
| $08 | ---E VVVV | Channel A envelope enable (E), volume (V) |
| $09 | ---E VVVV | Channel B envelope enable (E), volume (V) |
| $0A | ---E VVVV | Channel C envelope enable (E), volume (V) |
| $0B | LLLL LLLL | Envelope low period |
| $0C | HHHH HHHH | Envelope high period |
| $0D | ---- CAaH | Envelope reset and shape: continue (C), attack (A), alternate (a), hold (H) |
| $0E | ---- ---- | I/O port A (unused) |
| $0F | ---- ---- | I/O port B (unused) |
Sound
There are three channels that output a square wave tone. In addition there is one noise generator, and one envelope generator, both of which may be shared by any of the three channels.
The 5B's audio is driven by the CPU clock (1.78977267 MHz), but the YM2149F has an optional clock divider which halves the internal clock speed. By comparison of the produced pitches in Gimmick! with the register values used, it appears that the 5B is a YM2149F operating in this mode. To use an AY-3-8910 as a substitute, you would need an external divider to reduce the clock speed by half.
The frequency formulas given below assume the standard 1.78977267 MHz as the Clock value; note that each formula includes an additional divide by 2 to compensate for the YM2149F's internal divider.
Tone
The tone generators produce a square wave with a period controlled by the CPU clock and the 12-bit period value in registers $00-05.
- Frequency = Clock / (2 * 16 * Period)
- Period = Clock / (2 * 16 * Frequency)
Register $07 controls the mixing of tone and noise components of each channel. A bit of 0 enables the noise/tone on the specified channel, and a bit of 1 disables it. If both bits are 1, the channel outputs a constant signal at the specified volume. If both bits are 0, the result is the logical and of noise and tone.
If bit 4 of registers $08-$0A is set, the volume of the channel is controlled by the envelope generator. Otherwise, it is controlled by the 4-bit value in bits 3-0 of the same register.
Noise
The noise generator produces a 1-bit random wave with a period controlled by the CPU clock and the 5-bit period value in register $06.
- Frequency = Clock / (2 * 16 * Period)
- Period = Clock / (2 * 16 * Frequency)
Envelope
The envelope produces a ramp that can be directed up or down, or to oscillate by various shape parameters.
Period
The ramp has a frequency controlled by the CPU clock and the 16-bit period value in registers $0B-0C. Note this formula is the frequency of a single ramp, and not individual steps in it.
- Frequency = Clock / (2 * 256 * Period)
- Period = Clock / (2 * 256 * Frequency)
The YM2149F subdivides divides each ramp into 32 steps. Note that where alternating envelope shapes are used (triangle wave), the resulting pitch of the envelope is one octave down, since one wave cycle requires two ramps (up and down). Because the envelope is primarily intended for low (sub-audio) frequencies, its pitch control is not as accurate in audio frequency ranges as the tone channels.
The AY-3-8910 instead subdivides the ramp frequency by 16, and as a result has half the resolution for its envelopes. Because they both subdivide the same ramp frequency, the ramp's pitch will be the same as long as the clock speeds are equivalent.
Shape
Writing register $0D resets the envelope and chooses its shape. The shape has four parameters: continue, attack, alternate, and hold.
- Continue specifies whether the envelope continues to oscillate after the attack. If it is 0, the alternate and hold parameters have no effect.
- Attack specifies whether the attack goes from high to low (0) or low to high (1).
- Alternate specifies whether the signal continues to alternate up and down after the attack. If combined with hold it provides an immediate flip after the attack followed by the hold.
- Hold specifies that the value shall be held after the attack. If combined with alternate, the value at the end of the attack will be immediately flipped before holding.
| Value | Continue | Attack | Alternate | Hold | Shape |
|---|---|---|---|---|---|
| $00 - $03 | 0 | 0 | x | x | \_______ |
| $04 - $07 | 0 | 1 | x | x | /_______ |
| $08 | 1 | 0 | 0 | 0 | \\\\\\\\ |
| $09 | 1 | 0 | 0 | 1 | \_______ |
| $0A | 1 | 0 | 1 | 0 | \/\/\/\/ |
| $0B | 1 | 0 | 1 | 1 | \¯¯¯¯¯¯¯ |
| $0C | 1 | 1 | 0 | 0 | //////// |
| $0D | 1 | 1 | 0 | 1 | /¯¯¯¯¯¯¯ |
| $0E | 1 | 1 | 1 | 0 | /\/\/\/\ |
| $0F | 1 | 1 | 1 | 1 | /_______ |
Output
The tone channels each produce a 5-bit signal which is then converted to analog with a logarithmic DAC. (The AY-3-8190 is a 4-bit signal, but with a similar conversion.)
References
- YM2149 datasheet: http://pdf1.alldatasheet.com/datasheet-pdf/view/103366/ETC/YM2149.html
- GI AY-3-8910 datasheet: http://www.speccy.org/hardware/datasheet/ay38910.pdf
