NES 2.0 Mapper 534: Difference between revisions
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==Note== | ==Note== | ||
* Outer bank registers overlay any WRAM, and can only be written to if WRAM is enabled in the MMC3 ($A001=$80). | * Outer bank registers overlay any WRAM, and can only be written to if WRAM is enabled in the MMC3 ($A001=$80). | ||
* Register $6002 | * Register $6002 bits 0-1 are not affected by the Lock bit in register $6003. | ||
* [[INES Mapper 126]] is almost identical. It connects the higher CHR address lines differently, and MMC3 register $C000 functions normally. | * [[INES Mapper 126]] is almost identical. It connects the higher CHR address lines differently, and MMC3 register $C000 functions normally. |
Revision as of 17:58, 26 January 2021
NES 2.0 Mapper 534 denotes an MMC3-based multicart mapper with an optional (C)NROM-like PRG and CHR banking modes.
- Atari Flashback Mini 7800
- TV Play Power - Intellivision 25-in-1
- 2-in-1 数独/五子棋 (NJ064) by Shenzhen Nanjing
- 18-in-1 Educational Computer by Zhuhai S.E.Z. Liming Electronic Co. Ltd.
- 8-in-1 (kk3311) by Waixing
- 8-in-1 (kk3314) by Waixing
- 101-in-1 (a variant of which uses INES Mapper 045).
MMC3-compatible registers ($8000-$FFFF, write)
These registers function identically to a normal MMC3, except that the scanline counter latch register ($C000) takes the inverted value (XOR $FF) compared to a regular MMC3.
Outer Bank/PRG Mask Register ($6000, write)
Mask: $E003 D~7654 3210 --------- XYBB CPPp |||| |||+- PRG A17 if Y=1 ||++-|+++- PRG A21..A18 ||++-+---- CHR A19..A17 |+-------- PRG A17 mode | 0: PRG A17=MMC3 PRG A17 (256 KiB inner PRG bank size) | 1: PRG A17=p (128 KiB inner PRG bank) +--------- CHR A17 mode 0: CHR A17=MMC3 CHR A17 (256 KiB inner CHR bank size) 1: CHR A17=C (128 KiB inner CHR bank)
Miscellaneous Register ($6001, write)
Mask: $E003 D~7654 3210 --------- .... ..?M +- 0: CPU $8000-$FFFF reads PRG-ROM 1: CPU $8000-$FFFF reads solder pad (D0/D1)
Inner CHR Bank Register ($6002, write)
Mask: $E803 D~7654 3210 --------- .... CCCC ++++- CHR A16..A13 in CNROM mode, ignored otherwise
Mode Register ($6003, write)
Mask: $E003 D~7654 3210 --------- L..C .?PP | | ++- PRG Banking Mode | | 0: MMC3 | | 1: NROM-128: PRG A14=MMC3 PRG A14 | | 2: NROM-128: Same as 1 | | 3: NROM-256: PRG A14=CPU A14 | +------ CHR Banking Mode | 0: MMC3 | 1: CNROM +--------- Lock registers $6000 and $6003
NROM PRG banking mode is implemented by holding the MMC3 clones' CPU A13 and A14 input low. This means that...
- MMC3 register #6 applies across the entire CPU $8000-$FFFF address range;
- the MMC3's PRG A13 output is substituted with CPU A13;
- in NROM-256 mode, the MMC3's PRG A14 output substituted with CPU A14;
- MMC3 $8000.6 bits 1-3 therefore select a 16 KiB inner bank number.
CNROM CHR banking mode is implemented by using register $6002 as a source for an 8 KiB inner bank number instead of the MMC3's CHR registers.
Note
- Outer bank registers overlay any WRAM, and can only be written to if WRAM is enabled in the MMC3 ($A001=$80).
- Register $6002 bits 0-1 are not affected by the Lock bit in register $6003.
- INES Mapper 126 is almost identical. It connects the higher CHR address lines differently, and MMC3 register $C000 functions normally.