Revised 2 slot board with the second generation chipset.
Pinouts
todo: formatting, maybe pics
C ROM / LSPC2 / NEO-ZMC2
todo. Pair of NEO-257 on far left of board used for this? 32 bits per slot multiplexed to NEO-ZMC2?
S ROM / LSPC2 / NEO-B1
FIXD0~FIXD7 is multiplexed from each slot by NEO-257 @ J9. Same one is used for Z80 D0~D7 for cart M1 access.
NEO-257 |
CHA slot #1
|
A0(4) |
FIXD0(B39)
|
A1(6) |
FIXD1(B40)
|
A2(13) |
FIXD2(B41)
|
A3(15) |
FIXD3(B42)
|
A4(19) |
FIXD4(B43)
|
A5(21) |
FIXD5(B44)
|
A6(29) |
FIXD6(B45)
|
A7(31) |
FIXD7(B46)
|
NEO-257 |
CHA slot #2
|
B0(5) |
FIXD0(B39)
|
B1(7) |
FIXD1(B40)
|
B2(14) |
FIXD2(B41)
|
B3(16) |
FIXD3(B42)
|
B4(20) |
FIXD4(B43)
|
B5(22) |
FIXD5(B44)
|
B6(30) |
FIXD6(B45)
|
B7(32) |
FIXD7(B46)
|
Selected FIX data is output to NEO-B1 from Y0~Y7.
NEO-257 |
NEO-B1
|
Y0(8) |
FIXD0(131)
|
Y1(9) |
FIXD1(132)
|
Y2(11) |
FIXD2(133)
|
Y3(12) |
FIXD3(134)
|
Y4(23) |
FIXD4(135)
|
Y5(24) |
FIXD5(136)
|
Y6(27) |
FIXD6(137)
|
Y7(28) |
FIXD7(138)
|
The 257 seems to have common enable/select lines. See M ROM section for those as cart M ROM/S ROM are always enabled together.
V ROM / YM2610 access
ADPCM-A
YM2610 RAD0~RAD7 goes through NEO-G0 @ K9 and out to each cart slot through a separate set of pins. (NEO-G0 needs a proper set of pin names).
NEO-G0 |
YM2610
|
(2) |
RAD0(17)
|
(3) |
RAD1(16)
|
(4) |
RAD2(15)
|
(5) |
RAD3(14)
|
(15) |
RAD4(13)
|
(16) |
RAD5(12)
|
(17) |
RAD6(11)
|
(18) |
RAD7(10)
|
NEO-G0 |
PROG slot #1
|
(6) |
SDRAD0(B49)
|
(7) |
SDRAD1(B50)
|
(8) |
SDRAD2(B51)
|
(9) |
SDRAD3(B52)
|
(11) |
SDRAD4(B53)
|
(12) |
SDRAD5(B54)
|
(13) |
SDRAD6(B55)
|
(14) |
SDRAD7(B56)
|
NEO-G0 |
PROG slot #2
|
(62) |
SDRAD0(B49)
|
(63) |
SDRAD1(B50)
|
(64) |
SDRAD2(B51)
|
(1) |
SDRAD3(B52)
|
(21) |
SDRAD4(B53)
|
(22) |
SDRAD5(B54)
|
(23) |
SDRAD6(B55)
|
(24) |
SDRAD7(B56)
|
Control signals and other address lines buffered through NEO-E0 to both cart slots @ F8.
NEO-E0 |
YM2610
|
A7(16) |
RA8(23)
|
A8(17) |
RA9(22)
|
A9(18) |
RA20(35)
|
A10(19) |
RA21(36)
|
A11(20) |
RA22(37)
|
A12(21) |
RA23(38)
|
A13(31) |
RMPX(20)
|
A14(32) |
/ROE(21)
|
NEO-E0 |
PROG slot #1 & #2
|
Y6(12) |
SDRA8(A49)
|
Y7(13) |
SDRA9(A50)
|
Y8(14) |
SDRA20(A51)
|
Y9(22) |
SDRA21(A52)
|
Y10(23) |
SDRA22(A53)
|
Y11(24) |
SDRA23(A54)
|
Y12(27) |
SDRMPX(A55)
|
Y13(28) |
SDROE(A56)
|
Direction control of NEO-G0 (D0~D7) @ K9 is set to inverted /ROE from YM2610.
NEO-E0 |
74AS04
|
Y13(28) |
A5(11)
|
NEO-G0 |
74AS04
|
D0~D7 dir(40) |
Y5(10)
|
ADPCM-B
YM2610 PAD0~PAD7 goes through NEO-G0 @ K9 and out to each cart slot through a separate set of pins.
NEO-G0 |
YM2610
|
(31) |
PAD0(48)
|
(32) |
PAD1(49)
|
(33) |
PAD2(50)
|
(34) |
PAD3(51)
|
(47) |
PAD4(52)
|
(48) |
PAD5(53)
|
(49) |
PAD6(54)
|
(50) |
PAD7(55)
|
NEO-G0 |
PROG slot #1
|
(27) |
SDPAD0(B41)
|
(28) |
SDPAD1(B42)
|
(29) |
SDPAD2(B43)
|
(30) |
SDPAD3(B44)
|
(43) |
SDPAD4(B45)
|
(44) |
SDPAD5(B46)
|
(45) |
SDPAD6(B47)
|
(46) |
SDPAD7(B48)
|
NEO-G0 |
PROG slot #2
|
(35) |
SDPAD0(B41)
|
(36) |
SDPAD1(B42)
|
(37) |
SDPAD2(B43)
|
(38) |
SDPAD3(B44)
|
(53) |
SDPAD4(B45)
|
(54) |
SDPAD5(B46)
|
(55) |
SDPAD6(B47)
|
(56) |
SDPAD7(B48)
|
Control signals and other address lines buffered through NEO-E0 to both cart slots @ F8.
NEO-E0 |
YM2610
|
A15(33) |
PA8(41)
|
A16(34) |
PA9(42)
|
A17(36) |
PA10(43)
|
A18(37) |
PA11(44)
|
A19(38) |
PMPX(47)
|
A20(48) |
/POE(46)
|
NEO-E0 |
PROG slot #1 & #2
|
Y14(29) |
SDPA8(A43)
|
Y15(30) |
SDPA9(A44)
|
Y16(39) |
SDPA10(A45)
|
Y17(40) |
SDPA11(A46)
|
Y18(41) |
SDPMPX(A47)
|
Y19(43) |
SDPOE(A48)
|
Direction control of NEO-G0 (D8~D15) @ K9 is set to inverted /POE from YM2610.
NEO-E0 |
74AS04
|
Y19(43) |
A6(13)
|
NEO-G0 |
74AS04
|
D8~D15 dir(52) |
Y6(12)
|
P ROM / 68k access
todo. some NEO-G0 for D0~D15? NEO-E0 for A1~A23?
M ROM / Z80 access
Z80 A0~A15 is buffered through NEO-E0 @ K10 to SDA0~SDA15 of both cart slots.
Z80 |
NEO-E0
|
A0(30) |
A1(64)
|
A1(31) |
A2(1)
|
A2(32) |
A3(2)
|
A3(33) |
A4(3)
|
A4(34) |
A5(4)
|
A5(35) |
A6(15)
|
A6(36) |
A7(16)
|
A7(37) |
A8(17)
|
A8(38) |
A9(18)
|
A9(39 |
A10(19)
|
A10(40) |
A11(20)
|
A11(1) |
A12(21)
|
A12(2) |
A13(31)
|
A13(3) |
A14(32)
|
A14(4) |
A15(33)
|
A15(5) |
A16(34)
|
NEO-E0 |
CHA slot #1 & #2
|
Y0(5) |
SDA0(A43)
|
Y1(6) |
SDA1(A44)
|
Y2(7) |
SDA2(A45)
|
Y3(8) |
SDA3(A46)
|
Y4(9) |
SDA4(A47)
|
Y5(11) |
SDA5(A48)
|
Y6(12) |
SDA6(A49)
|
Y7(13) |
SDA7(A50)
|
Y8(14) |
SDA8(A51)
|
Y9(22) |
SDA9(A52)
|
Y10(23) |
SDA10(A53)
|
Y11(24) |
SDA11(A54)
|
Y12(27) |
SDA12(A55)
|
Y13(28) |
SDA13(A56)
|
Y14(29) |
SDA14(A57)
|
Y15(30) |
SDA15(A58)
|
Z80 D0~D7 is multiplexed from each slot by NEO-257 @ J9. No need for bidirectional D0~D7 since only reads can be done from cart.
Z80 |
NEO-257
|
D0(14) |
Y8(40)
|
D1(15) |
Y9(41)
|
D2(12) |
Y10(43)
|
D3(8) |
Y11(44)
|
D4(7) |
Y12(55)
|
D5(9) |
Y13(56)
|
D6(10) |
Y14(59)
|
D7(13) |
Y15(60)
|
NEO-257 |
CHA slot #1
|
A8(36) |
CHA SDD0(B51)
|
A9(38) |
CHA SDD1(B52)
|
A10(45) |
CHA SDD2(B53)
|
A11(47) |
CHA SDD3(B54)
|
A12(51) |
CHA SDD4(B55)
|
A13(53) |
CHA SDD5(B56)
|
A14(62) |
CHA SDD6(B57)
|
A15(64) |
CHA SDD7(B58)
|
NEO-257 |
CHA slot #2
|
B8(37) |
CHA SDD0(B51)
|
B9(39) |
CHA SDD1(B52)
|
B10(46) |
CHA SDD2(B53)
|
B11(48) |
CHA SDD3(B54)
|
B12(52) |
CHA SDD4(B55)
|
B13(54) |
CHA SDD5(B56)
|
B14(63) |
CHA SDD6(B57)
|
B15(1) |
CHA SDD7(B58)
|
Multiplexer slot selection from NEO-F0, /OE from NEO-D0 and OE from 74HC259 to NEO-257. The 257 must only output to Z80 when it is trying to read ROM (NEO-D0) and the cart M1/S1 is selected (74HC259).
NEO-D0 |
NEO-257
|
SDROM(11) |
Y8~Y15 /OE(33)
|
NEO-F0 |
NEO-257
|
SLOTA(39) |
SELECT(17)
|
74HC259 |
NEO-257
|
Q5(10) |
Y8~Y15 OE(35)
|
NEO-D0 signals for Z80 reads are also buffered through NEO-E0 @ K10.
NEO-D0 |
NEO-E0
|
SDMRD(39) |
A17(36)
|
SDROM(11) |
A18(37)
|
SDRD0(45) |
A19(38)
|
SDRD1(46) |
A20(48)
|
NEO-E0 |
CHA slot #1 & #2
|
Y16(39) |
SDMRD(B50)
|
Y17(40) |
SDROM(B49)
|
Y18(41) |
SDRD0(B47)
|
Y19(43) |
SDRD1(B48)
|