APU Pulse: Difference between revisions
(Sweep registers are conspicuous by absence. IMO the least astonishing thing is to link to the page describing them.) |
(Period divider is not reset on 4003/4007 write) |
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| '''$4007''' || <tt>llll.lHHH</tt> || '''Pulse 2''' [[APU Length Counter|length counter load]] and timer '''H'''igh 3 bits | | '''$4007''' || <tt>llll.lHHH</tt> || '''Pulse 2''' [[APU Length Counter|length counter load]] and timer '''H'''igh 3 bits | ||
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|colspan=2| Side effects || The sequencer is immediately restarted at the first value of the current sequence. The [[APU Envelope|envelope]] is also restarted. | |colspan=2| Side effects || The sequencer is immediately restarted at the first value of the current sequence. The [[APU Envelope|envelope]] is also restarted. The period divider is ''not'' reset.[//forums.nesdev.org/viewtopic.php?p=186129#p186129] | ||
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Revision as of 05:25, 7 January 2017
Each of the two NES APU pulse (square) wave channels generate a pulse wave with variable duty.
Each pulse channel contains the following: envelope generator, sweep unit, timer, 8-step sequencer, length counter. Note: the addresses below are write-only!
Sweep -----> Timer
| |
| |
| v
| Sequencer Length Counter
| | |
| | |
v v v
Envelope -------> Gate -----> Gate -------> Gate --->(to mixer)
| Address | Bitfield | Description |
|---|---|---|
| $4000 | DDlc.vvvv | Pulse 1 Duty cycle, length counter halt, constant volume/envelope flag, and volume/envelope divider period |
| $4004 | DDlc.vvvv | Pulse 2 Duty cycle, length counter halt, constant volume/envelope flag, and volume/envelope divider period |
| Side effects | The duty cycle is changed (see table below), but the sequencer's current position isn't affected. | |
| $4001 | EPPP.NSSS | See APU Sweep |
| $4005 | EPPP.NSSS | See APU Sweep |
| $4002 | LLLL.LLLL | Pulse 1 timer Low 8 bits |
| $4006 | LLLL.LLLL | Pulse 2 timer Low 8 bits |
| $4003 | llll.lHHH | Pulse 1 length counter load and timer High 3 bits |
| $4007 | llll.lHHH | Pulse 2 length counter load and timer High 3 bits |
| Side effects | The sequencer is immediately restarted at the first value of the current sequence. The envelope is also restarted. The period divider is not reset.[1] | |
Duty Cycle Sequences
| Duty | Waveform sequence |
|---|---|
| 0 | 0 1 0 0 0 0 0 0 (12.5%) |
| 1 | 0 1 1 0 0 0 0 0 (25%) |
| 2 | 0 1 1 1 1 0 0 0 (50%) |
| 3 | 1 0 0 1 1 1 1 1 (25% negated) |
- The reason for these odd sequences is that the sequence counter is initialized to zero but counts downward rather than upward
The sequencer is clocked by an 11-bit timer. Given the timer value t = HHHLLLLLLLL formed by timer high and timer low, this timer is updated every APU cycle (i.e., every second CPU cycle), and counts t, t-1, ..., 0, t, t-1, ..., clocking the waveform generator when it goes from 0 to t. Since the period of the timer is t+1 APU cycles and the sequencer has 8 steps, the period of the waveform is 8*(t+1) APU cycles, or equivalently 16*(t+1) CPU cycles.
Hence
- fpulse = fCPU/(16*(t+1)) (where fCPU is 1.789773 MHz for NTSC, 1.662607 MHz for PAL, and 1.773448 MHz for Dendy)
- t = fCPU/(16*fpulse) - 1
A period of t < 8, either set explicitly or via a sweep period update, silences the corresponding pulse channel. The highest frequency a pulse channel can output is hence about 12.4 kHz for NTSC. (TODO: PAL behavior?)
The mixer receives the current envelope volume except when
- The sequencer output is zero, or
- overflow from the sweep unit's adder is silencing the channel, or
- the length counter is zero, or
- the timer has a value less than eight.
The behavior of the two pulse channels differs only in the effect of the negate mode of their sweep units.
Notice that a few Famiclone units have swapped APU duty cycles, as 12.5, 50, 25 and 25 negated instead.
