VRC6 audio: Difference between revisions

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m (→‎Divider Control ($9003): formatting, rewording suggested practise)
(→‎Divider Control ($9003): clarify, is possibly a shift)
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== Registers ==
== Registers ==


=== Divider Control ($9003) ===
=== Frequency Control ($9003) ===


Normally you should write $00 to this register on startup to initialize it, and not make any further writes to it. This is what all three original VRC6 games do.
Normally you should write $00 to this register on startup to initialize it, and not make any further writes to it. This is what all three original VRC6 games do.


:$9003 controls the internal frequency divider
:$9003 controls the overall frequency of the VRC6 audio.


  7  bit  0
  7  bit  0
Line 17: Line 17:
       |||
       |||
       ||+- Halt
       ||+- Halt
       |+-- 16x clock
       |+-- 16x frequency (4 octaves up)
       +--- 256x clock
       +--- 256x frequency (8 octaves up)


  H - halts the frequency divider; all oscillators will stop in their current state
  H - halts all oscillators, stopping them in their current state
  B - divides the clock 16x faster (4 octave frequency increase)
  B - 16x frequency, all oscillators (4 octave increase)
  A - divides the clock 256x faster (8 octave frequency increase)
  A - 256x frequency, all oscillators (8 octave increase)


* The halt flag overrides the other flags.
* The halt flag overrides the other flags.


* The 256x flag overrides the 16x flag.
* The 256x flag overrides the 16x flag.
* The 16x/256x flags likely control a 4-bit and 8-bit right shift of the 12-bit frequency values.


=== Pulse Control ($9000,$A000) ===
=== Pulse Control ($9000,$A000) ===

Revision as of 09:07, 12 August 2012

Konami's VRC6 mapper provided 3 extra channels for sound: two pulse waves, and one sawtooth. All channels operate similarly to the native channels in the NES APU.

On some boards, the A0 and A1 lines were switched, so for those boards, registers will need adjustment when emulating ($x001 will become $x002 and vice versa). Registers listed here are how they are for 悪魔城伝説 (Akumajou Densetsu, iNES mapper 024). For Madara and Esper Dream 2 (iNES mapper 026), you will need to adjust the registers.

Registers

Frequency Control ($9003)

Normally you should write $00 to this register on startup to initialize it, and not make any further writes to it. This is what all three original VRC6 games do.

$9003 controls the overall frequency of the VRC6 audio.
7  bit  0
---- ----
.... .ABH
      |||
      ||+- Halt
      |+-- 16x frequency (4 octaves up)
      +--- 256x frequency (8 octaves up)
H - halts all oscillators, stopping them in their current state
B - 16x frequency, all oscillators (4 octave increase)
A - 256x frequency, all oscillators (8 octave increase)
  • The halt flag overrides the other flags.
  • The 256x flag overrides the 16x flag.
  • The 16x/256x flags likely control a 4-bit and 8-bit right shift of the 12-bit frequency values.

Pulse Control ($9000,$A000)

$9000 controls Pulse 1
$A000 controls Pulse 2
7  bit  0
---- ----
MDDD VVVV
|||| ||||
|||| ++++- Volume
|+++------ Duty Cycle
+--------- Mode (1: ignore duty)

Saw Accum Rate ($B000)

7  bit  0
---- ----
..AA AAAA
  ++-++++- Accumulator Rate (controls volume)

Freq Low ($9001,$A001,$B001)

$9001 controls Pulse 1
$A001 controls Pulse 2
$B001 controls Saw
7  bit  0
---- ----
FFFF FFFF
|||| ||||
++++-++++- Low 8 bits of frequency


Freq High ($9002,$A002,$B002)

$9002 controls Pulse 1
$A002 controls Pulse 2
$B002 controls Saw
7  bit  0
---- ----
E... FFFF
|    ||||
|    ++++- High 4 bits of frequency
+--------- Enable (0 = channel disabled)

Pulse Channels

The VRC6 pulse channels operate similarly to the NES's own pulse channels. The CPU clock rate (1.79 MHz) drives the 12-bit divider 'F'. Every cycle the divider counts down until it reaches zero, at which point the divider resets and the duty cycle generator is clocked.

The duty cycle generator takes 16 steps. When the current step is less than or equal to the given duty cycle 'D', the current channel volume 'V' is output. Otherwise, 0 is output. When the mode bit 'M' is true, the channel ignores the duty cycle generator and outputs the current volume regardless of the current duty.

Therefore, 'D' and 'M' values provide the following duty cycles:

D value Duty (percent)
0 1/16 6.25%
1 2/16 12.5%
2 3/16 18.75%
3 4/16 25%
4 5/16 31.25%
5 6/16 37.5%
6 7/16 43.75%
7 8/16 50%
M 16/16 100%

When the channel is disabled by clearing the 'E' bit, output is forced to 0.

Sawtooth Channel

For the sawtooth, the CPU clock rate drives a 12-bit divider 'F'. Every cycle, the divider counts down until it reaches zero, at which point it reloads and clocks the accumulator. However, it seems that the accumulator only reacts on every 2 clocks.

When clocked, the rate value 'A' is added to an internal 8-bit accumulator. The high 5 bits of the accumulator are then output (provided the channel is enabled by having the 'E' bit set). After 'A' has been added 6 times, on the 7th clock, instead of 'A' being added, the internal accumulator is reset to zero.

For an example, assume an 'A' value of $08

Step Accumulator Output Comment
0 $00 $00
1 $00 $00 (odd step, do nothing)
2 $08 $01 (even step, add 'A' to accumulator)
3 $08 $01
4 $10 $02
5 $10 $02
6 $18 $03
7 $18 $03
8 $20 $04
9 $20 $04
10 $28 $05
11 $28 $05
12 $30 $06
13 $30 $06
0 $00 $00 (14th step, reset accumulator)
1 $00 $00
2 $08 $01

If A is more than 42 (floor(255 / 6)), the accumulator will wrap, resulting in distorted sound.

References