NES 2.0 Mapper 266: Difference between revisions
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The circuit board mounts a [[VRC4]] clone (A2/A3) with two of its higher CPU address lines mixed up: | The circuit board mounts a [[VRC4]] clone (A2/A3) with two of its higher CPU address lines mixed up: | ||
CPU | CPU A3 -> VRC4 CPU Ax (pin 03) | ||
CPU | CPU A2 -> VRC4 CPU Ay (pin 04) | ||
CPU A13 -> VRC4 CPU A14 (pin 02) | CPU A13 -> VRC4 CPU A14 (pin 02) | ||
CPU A14 -> VRC4 CPU A13 (pin 01) | CPU A14 -> VRC4 CPU A13 (pin 01) | ||
Line 45: | Line 45: | ||
=Notes= | =Notes= | ||
[[File:City_fighter_4_dac_audio.png|thumb|Captured waveform of the audio speech when using R-2R as DAC]] | |||
The game uses the VRC4's pseudo-scanline mode during speech output. FCEUX only emulates a downward-counting CPU cycle counter, counting on every other cycle, causing speech to be played at too low a pitch compared to hardware. | The game uses the VRC4's pseudo-scanline mode during speech output. FCEUX only emulates a downward-counting CPU cycle counter, counting on every other cycle, causing speech to be played at too low a pitch compared to hardware. |
Latest revision as of 21:06, 1 June 2021
NES 2.0 Mapper 266 is used by City Fighter IV, a hack of Master Fighter II that adds (very grungy) PCM speech output. Given that its resolution (four bits) is worse than the NES/Famicom's own DAC at $4011 (seven bits), it's not immediately obvious what the purpose of including its own DAC is, other than perhaps the possibility of low-pass filtering the 3.5 kHz-sampled PCM data on the circuit board. Its UNIF board name is UNL-CITYFIGHT.
The circuit board mounts a VRC4 clone (A2/A3) with two of its higher CPU address lines mixed up:
CPU A3 -> VRC4 CPU Ax (pin 03) CPU A2 -> VRC4 CPU Ay (pin 04) CPU A13 -> VRC4 CPU A14 (pin 02) CPU A14 -> VRC4 CPU A13 (pin 01)
... and two additional registers that are selected via the VRC4 /WR9003 pin, e.g. by writing to $900C, and distinguished via CPU A11 ($0800). This results in the following effective registers:
Mirroring Control ($9000)
Mask: $F00C, see VRC4 description.
PRG Select ($900C)
Mask: $F80C D~7654 3210 --------- .... PP.. ++--- PRG A16..A15
Similar to INES Mapper 189, VRC4's fine-grained PRG banking is replaced with a single 32 KiB bank switch.
DAC Output ($980C)
Mask: $F80C D~7654 3210 --------- .... DDDD ++++- 4 bit unsigned PCM data
CHR Select ($A00x/$B00x/$D00x/$E00x)
Mask: $F00C $D000/$D004 (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $0000-$03FF $D008/$D00C (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $0400-$07FF $A000/$A004 (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $0800-$0BFF $A008/$A00C (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $0C00-$0FFF $B000/$B004 (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $1000-$13FF $B008/$B00C (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $1400-$17FF $E000/$E004 (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $1800-$1BFF $E008/$E00C (LSB/MSB): Select 1 KiB CHR-ROM bank at PPU $1C00-$1FFF
IRQ Control ($F00x)
Mask: $F00C, see VRC4 description.
Notes
The game uses the VRC4's pseudo-scanline mode during speech output. FCEUX only emulates a downward-counting CPU cycle counter, counting on every other cycle, causing speech to be played at too low a pitch compared to hardware.