Pinouts - Controller Ports and Memory-Card Ports
Pinouts - Audio, Video, Power, Expansion Ports
Pinouts - SIO Pinouts
Pinouts - Chipset Summary
Pinouts - CPU Pinouts
Pinouts - GPU Pinouts (for old 160-pin GPU)
Pinouts - GPU Pinouts (for new 208-pin GPU)
Pinouts - SPU Pinouts
Pinouts - DRV Pinouts
Pinouts - VCD Pinouts
Pinouts - HC05 Pinouts
Pinouts - MEM Pinouts
Pinouts - CLK Pinouts
Pinouts - PWR Pinouts
Pinouts - Component List and Chipset Pin-Outs for Digital Joypad, SCPH-1080
Pinouts - Component List and Chipset Pin-Outs for Analog Joypad, SCPH-1150
Pinouts - Component List and Chipset Pin-Outs for Analog Joypad, SCPH-1200
Pinouts - Component List and Chipset Pin-Outs for Analog Joypad, SCPH-110
Pinouts - Component List and Chipset Pin-Outs for Namco Lightgun, NPC-103
Pinouts - Component List and Chipset Pin-Outs for Multitap, SCPH-1070
Pinouts - Memory Cards
Mods - Nocash PSX-XBOO Upload
Mods - PAL/NTSC Color Mods
1 In JOYDAT Data from joypad/card (data in) _______________________
2 Out JOYCMD Data to joypad/card (command out) | | | |
3 - +7.5V +7.5VDC supply (eg. for Rumble) | 9 7 6 | 5 4 3 | 2 1 | CARD
4 - GND Ground |_______|_______|_______|
5 - +3.5V +3.5VDC supply (normal supply) _______________________
6 Out /JOYn Select joypad/card in Slot 1/2 | | | |
7 Out JOYCLK Data Shift Clock | 9 8 7 | 6 5 4 | 3 2 1 | PAD
8 In /IRQ10 IRQ10 (Joy only, not mem card) \______|_______|______/
9 In /ACK IRQ7 Acknowledge (each eight CLKs)
Shield Ground (Joypad only, not memory card)
/JOYn are two separate signals (/JOY1 for left card/pad, /JOY2 for right
card/pad) (whether it is an card or pad access depends on the first CMD bit).
All other signals are exactly the same on all four connectors (except that pin8
and shield are missing on the card slots).
Most or all controllers leave pin8 unused, the pin can be used as lightpen
input (not sure if the CPU is automatically latching a timer somewhere?), if
there's no auto-latched timer, then the interrupt would be required to be
handled as soon as possible; ie. don't disable interrupts, and don't "halt" the
CPU for longer periods (as far as I understood, the GTE can halt the CPU when
trying to read results of incomplete operations; to avoid that, one could wait
by software, eg. inserting NOPs, before reading GTE results...?)
(Some (or maybe all?) existing psx lightguns are reportedly connected to the
Video output on the Multiout port for determining the current cathode ray
position though).
1 RGB-Video Green
2 RGB-Video Red
3 Supply +5.0V (eg. supply for external RF adaptor)
4 RGB-Video Blue
5 Supply Ground
6 S-Video C (chrominance)
7 Composite Video (yellow cinch)
8 S-Video Y (luminance) ____________________________
9 Audio Left (white cinch) | |
10 Audio Left Ground | 12 11 10 9 8 7 6 5 4 3 2 1 |
11 Audio Right (red cinch) |____________________________|
12 Audio Right Ground
Shield Video Ground
The standard AV-cable connects only to Pins 7,9,10,11,12,Shield (with pin 1 and
3 and Shield shortcut with each other, used for both audio and video ground).
The plug on that cable does have additional sparings for pin 1,3,5 (though
without any metal-contacts installed in there) (pin 3,5 would be used as supply
for external RF modulators) (no idea what pin 1 could be used for though?).
RGB displays may (or may not) be able to extract /SYNC from the Composite
signal, if that doesn't work, note that /SYNC (and separate /VSYNC, /HSYNC
signals) are found on the GPU pinouts, moreover, the GPU outputs 24bit digital
RGB.
Not sure if a VGA monitor can be connected? The SYNC signals are there (see GPU
pinputs), but the vertical resolution is only 200/240 lines... standard VGA
displays probably support only 400/480 lines (or higher resolutions for newer
multisync SVGA displays) (as far as I know, the classic 200 lines VGA mode is
actually outputting 400 lines, with each line repeated twice).
This port exists only on older PSX boards (not on newer PSX boards, and not on
PSone boards).
The parallel port is used by Gameshark, Game Enhancer II, and Gold Finger cheat
devices (not used by the Code Breaker CDROM cheat software).
________
| | Console Rear View
GND ==| 1 35 |== GND .-------------------------.
/RESET =| 2 36 |= DACK5 |1 2 3 ... ... 32 33 34|
DREQ5 =| 3 37 |= /IRQ10 |35 36 37 ... ... 66 67 68|
/EXP? =| 4 38 |= /WR1? (CPU99) |__.-------------------.__|
NC?GND? =| 5 39 |= GND?NC?
D0 =| 6 40 |= D1
D2 =| 7 41 |= D3
D4 =| 8 42 |= D5
D6 =| 9 43 |= D7
D8 =|10 44 |= D9
D10 =|11 45 |= D11
D12 =|12 46 |= D13
D14 =|13 47 |= D15
A0 =|14 48 |= A1
A2 =|15 49 |= A3
NC?GND? =|16 50 |= GND?NC?
+3.5V ==|17 51 |== +3.5V
+7.5V ==|18 52 |== +7.5V
GND? =|19 53 |= GND?NC?
A4 =|20 54 |= A5
A6 =|21 55 |= A7
A8 =|22 56 |= A9
A10 =|23 57 |= A11
A12 =|24 58 |= A13
A14 =|25 59 |= A15
A16 =|26 60 |= A17
A18 =|27 61 |= A19
A20 =|28 62 |= A21
A22 =|29 63 |= A23
/RD =|30 64 |= /WR0
NC!X? =|31 65 |= X?NC!
SYSCK? =|32 66 |= LRCK (44.1kHz)
SCLK? =|33 67 |= SDATA?
GND ==|34 68 |== GND
|________|
Lots of pins are still unknown?
EDIT: see http://cgfm2.emuviews.com/new/psx-pio.png
apparently, many of the "unknown" pins are just GROUND, is that possible?
The PSX contains an internal power supply, however, like the PSone, it's only
having a "Standby" button, which merely disconnects 3.5V and 7.9V from the
mainboard. The actual power supply remains powered, and wastes energy day and
night, thanks Sony!
Inner +7.5V DC 2.0A (inside diameter 0.8mm)
Outer GND (outside diameter 5.0mm)
That port exists only on original Playstation (not on the PSone). The shape of
the Serial Port is identical to the 12pin Multiout (audio/video) port, but with
only 8pins.
1 SIO1 In RXD receive data (from remote TXD)
2 SIO2 - VCC +3.5VDC (supply, eg. for voltage conversion)
3 SIO3 In DSR (from remote CTS) _________________
4 SIO4 Out TXD transmit data (to remote RXD) | |
5 SIO5 In CTS clear to send (from remote RTS) | 8 7 6 5 4 3 2 1 |
6 SIO6 Out DTR (to remote DSR) |_________________|
7 SIO7 - GND Ground (supply, eg. for voltage conversion)
8 SIO8 Out RTS request to send (to remote CTS)
Shield GND Ground (to/from remote GND)
Can be used to communicate with another PSX via simple cable connection. With
an external RS232 adaptor (for voltage conversion) it could be also used to
communicate with a PC, a mouse, a modem, etc.
The PSone doesn't have an external serial connector, however, easy to use
soldering points for serial port signals are found as cluster of 5 soldering
points (below CPU pin52), and a single soldering point (below CPU pin100),
arranged like so (on PM-41 boards) (might be different on PM-41(2) boards):
CPU70.RTS
CPU71.CTS CPU74.TxD
CPU72.DTR CPU75.RxD CPU73.DSR
The three outputs (RTS,DTR,TXD) are left floating, the RXD input is wired via a
1K ohm pull-up resistor to 3.5V, the other two inputs (CTS,DSR) are wired via
1K ohm pull-down resistors to GND.
If you want to upgrade the PSone, remove that resistors, and then install the
PSX-style serial circuit (as shown below), or, think of a more simplified
circuit without (dis-)inverted signals.
The PSX serial circuit basically consists of a few transistors, diodes, and
resistors. The relevant part is that most of the signals are inverted -
compared with RS232 signals, the CPU uses normal high/low levels (of course
with 0V and 3.5V levels, not -12V and +12V), and the signals at the serial port
socket are inverted. Ie. if you want to built a RS232 adaptor, you must either
externally undo the inversion, or, disconnect the transistors, and wire your
circuit directly to the CPU signals.
SIO8 SIO6 SIO4 SIO1 SIO3 SIO5 SIO2 SIO7---GND
| | | | | | |
FB112 FB114 FB116 FB115 FBnnn FBnnn o--L102-------3.5V
| | | | | |
| | o-------|-------|-------|--------diode-------GND
| | | o-------|-------|--------diode-------GND
| | | | o-------|--------diode-------GND
| | | | | o--------diode-------GND
| | | | | |
| | | o-------|-------|--------[1K]--------3.5V
| | | | o-------|--------[1K]--------3.5V
[22] [22] [22] [22] | o--------[1K]--------3.5V
| | | | | |
Q105-----|-------|-------|-------|-------|--------------------GND
| Q105-----|-------|-------|-------|--------------------GND
| | | | Q106-----|--------------------GND
| | | | | Q106------------------GND
| | | | | |
| | | | o-------|--------[470]-------3.5V
| | | | | o--------[470]-------3.5V
| | | | | |
RTS DTR TxD RxD DSR CTS
CPU70 CPU72 CPU74 CPU75 CPU73 CPU71 <-- CPU Pin Numbers
out out out in in in
All six signals are passed through fuses (or loops or so). The three inputs
have 1K ohm pull-ups, and diodes as protection against negative voltages, two
of the inputs are inverted via transistors, with 470 ohm pull-ups at the CPU
side, the other input is passed through 22 ohm to the CPU. The three outputs
are also passed through 22 ohm, one of them having a diode as negative voltage
protection, the other two are inverted via transistors (which may also serve as
negative voltage protection).
Note that there is no positive voltage protection (ie. +12V inputs would do no
good, also strong -12V inputs might overheat the diodes/fuses, so if you want
to use RS232 voltages, better use a circuit for voltage conversion).
The PSX serial port uses 0V/3.5V logic, whilst RS232 uses -5V/+5V...-15V/+15V
logic. An example circuit for converting the logic levels would be:
PSX.VCC--+||--PSX.GND PSX.GND----DSUB.5.GND----DSUB.SHIELD DSUB.1,9----NC
______ ______
,-----------||+-|1 16|-------PSX.VCC ,-----------||+-|1 16|-------PSX.VCC
| PSX.GND---||+-|2 15|-------PSX.GND | PSX.GND---||+-|2 15|-------PSX.GND
'---------------|3 14|----DSUB.3.TXD '---------------|3 14|--- N/A
,---+||--|4 13|----DSUB.2.RXD ,---+||--|4 13|--- N/A
'--------|5 12|-------PSX.RXD '--------|5 12|--- N/A
PSX.GND--+||--|6 11|-------PSX.TXD PSX.GND--+||--|6 11|--- N/A
DSUB.7.RTS----|7 10|--o<|--PSX.RTS DSUB.4.DTR----|7 10|--o<|--PSX.DTR
DSUB.8.CTS----|8 9|--|>o--PSX.CTS DSUB.6.DSR----|8 9|--|>o--PSX.DSR
|______| |______|
Parts List: 1 or 2 MAX232 chips (voltage conversion), 0 or 1 7400 (NAND, used
as inverter), 4 or 8 1uF/16V capacitors, 1x 10uF/16V capacitor, 1x 9pin male
SubD plug.
The four inverters are needed only for external adapters (which need to undo
the transistor inversion on the PSX mainboard) (ie. the inverters are not
needed when when connecting the circuit directly to the PSX CPU).
The second MAX232 chip is needed only if DTR/DSR "not ready" conditions are
required (for an "always ready" condition: DSUB.4.DTR can be wired to -8.5V,
which is available at Pin6 of the first MAX232 chip, and PSX.DSR can be wired
to +3.5V).
With the above DSUB pin numbers, peripherals like mice or modems can be
connected directly to the circuit. For connection to another computer, use a
"null modem" cable (with crossed RXD/TXD, RTS/CTS, DTR/DSR wires).
The circuit works with both VCC=5V (default for MAX232) and with VCC=3.5V
(resulting in slightly weaker signals, but still strong enough even for serial
mice; which are mis-using the RS232 signals as power supply).
Board Expl.
PU-7 PSX, with AV multiout+cinch+svideo, GPU in two chips (160+64pins)
PU-8 PSX, with AV multiout+cinch, four 8bit Main RAM chips
EARLY-PU-8: "PU-8 1-658-467-11, N4" --> old chipset, resembles PU-7
LATE-PU-8: "PU-8 1-658-467-22, N6" --> new chipset, other as PU-7
PU-9 PSX, without SCPH-number (just sticker saying "NOT FOR SALE, SONY)
PU-16 PSX, with extra Video CD daughterboard (for SCPH-5903)
PU-18 PSX, with AV multiout only, single 32bit Main RAM (instead 4x8bit)
PU-20 PSX, unknown if/how it differs from PU-18
PU-22 PSX, unknown if/how it differs from PU-18
PU-23 PSX, with serial port, but without expansion port
PM-41 PSone, older PSone, for GPU/SPU with RAM on-board (see revisions)
PM-41(2) PSone, newer PSone, for GPU/SPU with RAM on-chip
There are at least two revisions of the "PM-41" board:
PM-41, 1-679-335-21 PSone with incomplete RGB signals on multiout port
PM-41, 1-679-335-51 PSone with complete RGB signals on multiout port
The "incomplete" board reportedly requires to solder one wire to the multiout
port to make it fully functional... though no idea which wire... looks like the
+5V supply? Also, the capacitors near multiout are arranged slightly
differently.
IC103 - 208pin - "SONY CXD8530BQ" ;seen on PU-7 board
IC103 - 208pin - "SONY CXD8530CQ" ;seen on PU-7 and PU-8 boards
IC103 - 208pin - "SONY CXD8606Q" ;seen in PU-18 schematic
IC103 - 208pin - "SONY CXD8606AQ" ;seen on PU-xx? board
IC103 - 208pin - "SONY CXD8606BQ" ;seen on PM-41, PU-23, PU-20 boards
IC103 - 208pin - "SONY CXD8606CQ" ;seen on PM-41 board, too
These chips contain the MIPS CPU, COP0, and COP2 (aka GTE), MDEC and DMA.
IC203 - 160pin - "SONY CXD8514Q" ;seen on PU-7 and EARLY-PU-8 boards
IC203 - 208pin - "SONY CXD8561Q" ;seen on LATE-PU-8 board
IC203 - 208pin - "SONY CXD8561BQ" ;seen on PU-18, PU-20 boards
IC203 - 208pin - "SONY CXD8561CQ" ;seen on PM-41 board
IC203 - 208pin - "SONY CXD9500Q" ;with on-chip RAM ;for PM-41(2) board
IC21 - 208pin - "SONY CXD8538Q" ;seen on GP-11 (namco System 11) boards
IC103 - 208pin - "SONY CXD8654Q" ;seen on GP-15 (namco System 12) boards
IC308 - 100pin - "SONY CXD2922Q" (SPU) ;PU-7 and EARLY-PU-8
IC308 - 100pin - "SONY CXD2922BQ"(SPU) ;EARLY-PU-8
IC308 - 100pin - "SONY CXD2925Q" (SPU) ;LATE-PU-8, PU-18, PU-20
IC732 - 208pin - "SONY CXD2938Q" (SPU+CDROM) ;PSone/PM-41 Board
IC732 - 176pin - "SONY CXD2941R" (SPU+CDROM+SPU_RAM) ;PSone/PM-41(2) Board
IC402 - 24pin - "AKM AK4309VM" (Serial 2x16bit DAC);older boards only
IC405 - 8pin - "NJM2100E (TE2)" Audio Amplifier ;PU-8 and PU-22 boards
IC405 - 14pin - "NJM2174" Audio Amplifier with Mute ;later boards
IC106/IC107/IC108/IC109 - NEC 424805AL-A60 (28pin, 512Kx8) (PU-8 board)
IC106 - "Samsung K4Q153212M-JC60" (70pin, 512Kx32) (newer boards)
IC106 - "Toshiba T7X16 (70pin, 512Kx32) (newer boards, too)
IC201 - 64pin NEC uPD482445LGW-A70-S ;VRAM ;\on PU-7 and EARLY-PU-8 board
IC202 - 64pin NEC uPD482445LGW-A70-S ;VRAM ;/split into 2 chips !
IC201 - 64pin SEC KM4216Y256G-60 ;VRAM ;\on other PU-7 board
IC202 - 64pin SEC KM4216Y256G-60 ;VRAM ;/split into 2 chips !
IC201 - 100pin - Samsung KM4132G271BQ-10 (128Kx32x2) ;-on later boards
IC201 - 100pin - Samsung K4G163222A-PC70 (256Kx32x2) ;-on PM-41
Note: The older 64pin VRAM chips are special dual-ported DRAM, the newer 100pin
VRAM chips are just regular DRAM.
Note: The PM-41 board uses a 2MB VRAM chip (but allows to access only 1MB)
Note: The PM-41(2) board has on-chip RAM in the GPU (no external memory chip)
IC310 - 40pin - "TOSHIBA TC51V4260DJ-70" ;seen on PU-8 board
IC310 - 40pin - EliteMT M11B416256A-35J (256K x 16bit)
Note: The PM-41(2) board has on-chip RAM in the SPU (no external memory chip)
IC102 - 40pin - "SONY ..." ;seen on PU-7 & early-PU-8 board (40pin!)
IC102 - 44pin - "SONY M538032E-02" ;seen on PU-16 (video CD, 1Mbyte BIOS)
IC102 - 32pin - "SONY M534031C-25" ;seen on later-PU-8 board
IC102 - 32pin - "SONY 2030" ;seen on PU-18 board
IC102 - 32pin - "SONY M534031E-47" ;seen on PM-41 board and PM-41(2)
IC102 - 32pin - "SONY M27V401D-41" ;seen on PM-41 board, too
X101 - 4pin - "67.737" (NTSC, presumably) ;PU-7 .. PU-20
X201 - 2pin - "17.734" (PAL) or "14.318" (NTSC) ;PU-22 .. PM-41(2)
IC204 - 8pin - "2294A" (PAL) or <unknown?> (NTSC) ;PU-22 .. PM-41(2)
IC601 - 3pin - "78M05" or "78005" ;used in PSone
IC606 16pin/10mm "TL594CD" (alternately to IC607) ;seen on PM-41 board
IC607 16pin/5mm "T594" (alternately to IC606) ;seen on PM-41 board, too
The PM-41 board has locations for both IC606 and IC607, some boards have the
bigger IC606 (10mm) installed, others the smaller IC607 (5mm), both chips have
exactly the same pinouts, the only difference is the size.
IC002 - 8pin - <not installed> (would be alternately to IC003) ;\on PSone
IC003 - 5pin - <usually installed> ;/
IC101 - 5pin - M51957B (Reset Generator) (on PSX-power supply boards)
U42 80pin SUB-CPU (CXP82300) with piggyback EPROM ;DTL-H2000
IC304 80pin SUB-CPU (MC68HC05L16) 80pin package ;PU-7 and EARLY-PU-8
IC304 52pin SUB-CPU (MC68HC05G6) 52pin package ;LATE-PU-8 and up
IC305 - 100pin SONY CXD1199BQ (Decoder/FIFO) ;PU-7
IC305 - 100pin SONY CXD1815Q (Decoder/FIFO) ;PU-8, PU-18
IC309 - 100pin SONY CXD2516Q (Signal Processor) ;PU-7 (100pin!)
IC309 - 80pin SONY CXD2510Q (Signal Processor) ;PU-8 and DTL-H2510
IC702 - 48pin SONY CXA1782BR (Servo Amplifier) ;PU-7, PU-8
IC101 - 100pin SONY CXD2515Q (=CXD2510Q+CXA1782BR) ;DTL-H2010
IC701 - 100pin SONY CXD2545Q (=CXD2510Q+CXA1782BR) ;PU-18
IC720 - 144pin SONY CXD1817R (=CXD2545Q+CXD1815Q) ;PU-20
IC102 - 28pin - "BA6297AFP" ;seen on DTL-H2010 drives
IC704 - 28pin - "BA6398FP" ;seen on PU-7
IC722 - 28pin - "BA6397FP" ;seen on late PU-8
IC722 - 28pin - "BA5947FP" ;seen on PM-41 and various boards
IC722 - 28pin - "Panasonic AN8732SB" ;seen on PM-41 board
ICxxx - 20pin SONY CXA1571N (RF Amplifier) (on DTL-H2010 drives)
IC703 - 20pin SONY CXA1791N (RF Amplifier) (on PU-18 boards)
IC723 - 20pin SONY CXA2575N-T4 (RF Matrix Amplifier) (on PU-22 .. PM-41(2))
Note: The SUB-CPU contains an on-chip BIOS (which does exist in at least seven
versions, plus US/JP/PAL-region variants, plus region-free debug variants).
IC207 64pin "SONY CXD2923AR" VRAM Data to Analog RGB ;\oldest
IC501 24pin "SONY CXA1645M" Analog RGB to Composite ;/
IC202 44pin "Philips TDA8771H" Digital RGB to Analog RGB ;\old boards
IC202 44pin "Motorola MC141685FT" Digital RGB to Analog RGB ;/
IC? 48pin "H7240AKV" 24bit RGB to Analog+Composite ;-SCPH-7001?
IC502 48pin "SONY CXA2106R-T4" 24bit RGB to Analog+Composite ;-newer boards
CDROM Drive: "KSM-440BAM" ;seen used with PM-41 board
IC602 5pin "L/\1B" or "<symbol> 3DR"
U? 24pin "9625H, CFS8121" ;SCPH-1080, digital pad (alternate?)
U? ?pin "SC438001" ;SCPH-1080, digital pad (alternate?)
U? 32pin "(M), SC401800" ;SCPH-1080, digital pad
U? 32pin "(M), SC442116" ;SCPH-xxxx, mouse
IC? 64pin "SONY CXD103, -166Q" ;SCPH-1070, multitap
U1 42pin "SD657, 9702K3006" ;SCPH-1150, analog pad, single motor
U1 42pin "SD657, 9726K3002" ;SCPH-1180, analog pad, without motor
U1 44pin "SONY CXD8771Q" ;SCPH-1200, analog pad, two motors (PSX)
U1 44pin "SD707, 039 107" ;SCPH-110, analog pad, two motors (PSone)
U1 44pin "SD787A" ;SCPH-xxx, analog pad, two motors (PS2?)
U? 64pin "SONY CXD8732AQ" ;SCPH-1020, memory card, on-chip FLASH
U? XXpin other chips ;SCPH-xxxx, memory card, external FLASH
U1 44pin "NAMCO103P" ;NPC-103, namco lightgun
1-3.5V 27-GND 53-3.5V 79-3.5V 105-3.5V 131-3.5V 157-3.5V 183-3.5V
2-3.5V 28-DQ12 54-3.5V 80-/JOY1 106-3.5V 132-A5 158-3.5V 184-GD19
3-67/NC 29-DQ11 55-A11:A8 81-JOYCLK 107-D0 133-A6 159-HBLANK 185-GD20
4-67MHz 30-DQ10 56-A10:NC 82-/IRQ7 108-D1 134-A7 160-DOTCLK 186-GD21
5-DQ31 31-DQ9 57-A9 83-JOYCMD 109-D2 135-A8 161-GD0 187-GD22
6-DQ30 32-DQ8 58-A8:NC 84-JOYDAT 110-D3 136-A9 162-GD1 188-GD23
7-DQ29 33-DQ7 59-A7 85-DACK5 111-D4 137-A10 163-GD2 189-GD24
8-DQ28 34-DQ6 60-A6 86-DREQ5 112-D5 138-A11 164-GD3 190-GD25
9-DQ27 35-DQ5 61-A5 87-DMA4 113-D6 139-A12 165-GD4 191-GD26
10-DQ26 36-DQ4 62-A4 88-/SPUW 114-D7 140-A13 166-GD5 192-GD27
11-DQ25 37-DQ3 63-A3 89-/IRQ10 115-D8 141-A14 167-GD6 193-GD28
12-DQ24 38-3.5V 64-A2 90-/IRQ9 116-D9 142-A15 168-GD7 194-GD29
13-DQ23 39-GND 65-GND 91-GND 117-GND 143-GND 169-GD8 195-GND
14-3.5V 40-DQ2 66-3.5V 92-3.5V 118-3.5V 144-3.5V 170-GND 196-3.5V
15-GND 41-DQ1 67-A1 93-GND 119-D10 145-A16 171-3.5V 197-GD30
16-DQ22 42-DQ0 68-A0 94-/IRQ2 120-D11 146-A17 172-GD9 198-GD31
17-DQ21 43-/W 69-3.5V 95-/CD 121-D12 147-A18 173-GD10 199-VBLANK
18-DQ20 44-/RAS1 70-RTS 96-/SPU 122-D13 148-A19 174-GD11 200-GPU12
19-DQ19 45-/RAS 71-CTS 97-/BIOS 123-D14 149-A20 175-GD12 201-33MHzG
20-DQ18 46-/CAS3 72-DTR 98-/EXP 124-D15 150-A21 176-GD13 202-GPU5
21-DQ17 47-/CAS2 73-DSR 99- CPU99 125-A0 151-A22 177-GD14 203-/GWR
22-DQ16 48-/CAS1 74-TxD 100-/WR 126-A1 152-A23 178-GD15 204-/GRD
23-DQ15 49-/CAS0 75-RxD 101-/RD 127-A2 153-GPU.A2 179-GD16 205-/GPU
24-DQ14 50-3.5V 76-/RES 102-/IRQ1 128-A3 154-33MHzS 180-GD17 206-67MHzG
25-DQ13 51-GND 77-/JOY2 103-GND 129-A4 155-GND 181-GD18 207-GND
26-3.5V 52-GND 78-GND 104-GND 130-GND 156-GND 182-GND 208-GND
Pin5-68 = Main RAM bus. Pin 95-152 = System bus. Pin 102,153,159-206 = Video
bus.
85=DACK5 93=GND=/CSHTST 199=/INT0 44=/RAS1:NC
86=DREQ5 99=/SWR1=NC 200=DREQ2 45=/RAS0
87=DACK4 100=/SWR0 201=SYSCLK0
88=DREQ4 154=SYSCLK1 202=DACK2
Pin 3,4: 67MHz is Pin3/old or Pin4/new (with Pin3=NC/new or Pin4=GND/old)
Pin 43,45..49,100,101,125(A0!),201,203..206 are connected via 22 ohm.
Pin 77,80,81,83 are connected via 470 ohm.
Pin 82,84,89 are connected via 47 ohm.
Pin 95,96,97 are connected via 100 ohm.
Pin 44: goes LOW for a short time once every N us (guessed: maybe /REFRESH ?)
Pin 4: 67MHz (from IC204.pin5)
Pin 87/88: SPU-DMA related (/SPUW also permanent LOW for Manual SPU-RAM Write)
Pin 154: 33MHzS (via 22ohm and FB102 to SPU) (and TESTPOINT near MainRAM pin70)
Pin 160: DOTCLK (via 22ohm), and IC502.Pin41 (without 22ohm)
Pin 56,58 are maybe additional address lines for the addressable 8MB RAM.
The System Bus address lines are latched outputs (containing the most recently
used /BIOS /EXP /SPU /CD address) (not affected by Main RAM and GPU
addressing).
Old 160-pin GPU is used on PU-7 boards and EARLY-PU-8 boards.
Unlike the later 208pin GPU's, the old 160pin GPU has less supply pins, and, it
doesn't have a 24bit RGB output (nor any other video output at all), instead,
it's used with a RGB D/A converter that reads the video data directly from the
Dual-ported VRAM chips (ie. from special RAM chips with two data busses, one
bus for GPU read/write access, and one for the RGB video output).
1-VCC 21-GND 41-D16 61-D2 81-D12'a 101-GND 121-D7'b 141-GND
2-GND 22-D31 42-D15 62-D1 82-D11'a 102-DT/OE'b 122-D6'b 142-53MHz
3-/GPU 23-D30 43-VCC 63-D0 83-D10'a 103-DT/OE'a 123-D5'b 143-VCC
4-GPU.A2 24-D29 44-GND 64-GND 84-D9'a 104-/RAS 124-D4'b 144-GND
5-/GRD 25-D28 45-D14 65-VCC 85-D8'a 105-/WE'a 125-D3'b 145-FSC
6-/GWR 26-D27 46-D13 66-A8'a 86-VCC 106-/WE'b 126-D2'b 146-VCC
7-DACK2 27-D26 47-D12 67-A7'a 87-GND 107-/SE 127-D1'b 147-GND
8-/RES 28-VCC 48-D11 68-A6'a 88-D7'a 108-SC 128-D0'b 148-DOTCLK
9-VCC 29-GND 49-D10 69-A5'a 89-D6'a 109-VCC 129-VCC 149-VCC
10-GND 30-D25 50-GND 70-GND 90-D5'a 110-GND 130-GND 150-GND
11-33MHzG 31-D24 51-VCC 71-A4'a 91-D4'a 111-D15'b 131-A8'b 151-MEMCK1
12-VCC 32-D23 52-D9 72-A3'a 92-D3'a 112-D14'b 132-A7'b 152-MEMCK2
13-GND 33-D22 53-D8 73-A2'a 93-D2'a 113-D13'b 133-A6'b 153-BLANK
14-DREQ2 34-D21 54-D7 74-A1'a 94-D1'a 114-D12'b 134-A5'b 154-/24BPP
15-/IRQ1 35-D20 55-D6 75-A0'a 95-D0'a 115-D11'b 135-A4'b 155-/SYNC
16-HBLANK 36-VCC 56-D5 76-GND 96-VCC 116-D10'b 136-A3'b 156-/HSYNC
17-VBLANK 37-GND 57-D4 77-VCC 97-DSF 117-D9'b 137-A2'b 157-/VSYNC
18-high? 38-D19 58-D3 78-D15'a 98-/CAS'b 118-D8'b 138-A1'b 158-VCC
19-high? 39-D18 59-GND 79-D14'a 99-/CAS'a 119-VCC 139-A0'b 159-GND
20-VCC 40-D17 60-VCC 80-D13'a 100-VCC 120-GND 140-VCC 160-67MHzG
Pin 1-63,148,160 = CPU Bus, Pin 66-139 = VRAM Bus (two chips, A and B), Pin
142-155 = Misc (CXA and RGB chips), Pin 18-19,156-157 = Test points.
Pin 3,5,6,11,98,99,102,103,108,148,160 via 22 ohm. Pin 104,105,106 via 100 ohm.
Pin 107 via 220 ohm. Pin 155 via 2200 ohm. Pin 145 via 220+2200 ohm.
151-? --- (mem clock?)
152-? (mem clock?)
153-BLANK (high in HBLANK & VBLANK)
154-/24BPP (high=15bpp, low=24bpp)
156-/HSYNC rate:65us=15KHz, low:3.5us
157-/VSYNC rate:20ms=50Hz, low:130us=TwoLines
This chip is used with the old 160pin GPU and two Dual-ported VRAM chips. The
2x16bit databus is capable of reading up to 32bits of VRAM data, and the chip
does then extract the 15bit or 24bit RGB values from that data (depending on
the GPU's current color depth).
The RGB outputs (pin 5,7,9) seem to be passed through transistors and
capacitors... not sure how the capacitors could output constant voltage
levels... unless the RGB signals are actually some kind of edge-triggering PWM
pulses rather than real analog levels(?)
1-test? 9-BLUE 17-GND 25-D0'a 33-D8'a 41-D15'a 49-D7'b 57-D13'b
2-test? 10-Vxx 18-MEMCK1 26-D1'a 34-D9'a 42-D0'b 50-D8'b 58-D14'b
3-Vxx 11-test? 19-/24BPP 27-D2'a 35-D10'a 43-D1'b 51-D9'b 59-D15'b
4-Vxx 12-test? 20-MEMCK2 28-D3'a 36-D11'a 44-D2'b 52-D10'b 60-GND
5-RED 13-test? 21-BLANK 29-D4'a 37-D12'a 45-D3'b 53-D11'b 61-GND
6-Vxx 14-aGND? 22-DOTCLK 30-D5'a 38-D13'a 46-D4'b 54-D12'b 62-GND
7-GREEN 15-aGND? 23-GND 31-D6'a 39-D14'a 47-D5'b 55-GND 63-test?
8-GND 16-aGND? 24-Vxx 32-D7'a 40-GND 48-D6'b 56-Vxx 64-GND
Pin 5,7,9 = RGB outputs (via transistors and capacitors?), Pin 18-22 = GPU, Pin
25-59 = VRAM (chip A and B), Pin 1-2,11-13,63 = Test points.
These are special Dual-ported VRAM chips (with two data busses), the D0-D15
pins are wired to the GPU (for read/write access), the Q0-Q15 pins are wired to
the RGB D/A converter (for sequential video output).
1-VCC 9-Q2 17-D5 25-/UWE 33-GND 41-DSF 49-Q10 57-VCC
2-/DT/OE 10-D2 18-VCC 26-/RAS 34-A3 42-GND 50-D11 58-D14
3-GND 11-Q3 19-Q6 27-A8 35-A2 43-D8 51-Q11 59-Q14
4-Q0 12-D3 20-D6 28-A7 36-A1 44-Q8 52-GND 60-D15
5-D0 13-GND 21-Q7 29-A6 37-A0 45-D9 53-D12 61-Q15
6-Q1 14-Q4 22-D7 30-A5 38-QSF 46-Q9 54-Q12 62-GND
7-D1 15-D4 23-GND 31-A4 39-/CAS 47-VCC 55-D13 63-/SE
8-VCC 16-Q5 24-/LWE 32-VCC 40-NC 48-D10 56-Q13 64-SC
The 8bit /LWE and /UWE write signals are shortcut with each other and wired to
the GPU's 16bit /WE write signal.
1-GND1 4-BIN 7-NPIN 10-SYNCIN 13-IREF 16-YOUT 19-VCC2 22-GOUT
2-RIN 5-NC 8-BFOUT 11-BC 14-VREF 17-YTRAP 20-CVOUT 23-ROUT
3-GIN 6-SCIN 9-YCLPC 12-VCC1 15-COUT 18-FO 21-BOUT 24-GND2
Used only on older boards (eg. PU-7, PU-8, PU-16), newer boards generate
composite signal via 48pin IC502.
Pin7 (NPIN): NTSC=VCC, PAL=GND. Pin6 (SCIN aka FSC): Sub Carrier aka PAL/NTSC
color clock, which can be derived from three different sources:
GPU pin 145 (old 160-pin GPU)
GPU pin 154 (new 208-pin GPU)
IC204 (on later boards, eg. PSone)
for the color clocks from GPU pins, the GPU does try to automatically generate
PAL or NTSC clock depending on current frame rate, which is resulting in
"wrong" color clock when chaning between 50Hz/60Hz mode).
New 206-pin GPU is used LATE-PU-8 boards and up.
1-/GPU 27-GD28 53-GD10 79-D29 105-GND 131-CLK 157-/PAL 183-R3
2-GPU.A2 28-GD27 54-GD9 80-3.5V 106-3.5V 132-GND 158-/VSYNC 184-GND
3-/GRD 29-3.5V 55-GD8 81-GND 107-D17 133-3.5V 159-/HSYNC 185-3.5V
4-/GWR 30-GND 56-GD7 82-D28 108-D16 134-CLK 160-B0 186-R4
5-CPU202 31-GD26 57-GD6 83-D27 109-D7 135-GND 161-B1 187-R5
6-/RES 32-GD25 58-GD5 84-D26 110-D6 136-3.5V 162-B2 188-R6
7-3.5V 33-GD24 59-GD4 85-D25 111-D5 137-(A10) 163-B3 189-R7
8-GND 34-GD23 60-GND 86-D24 112-D4 138-A9/AP 164-GND 190-GND
9-33MHzG 35-GD22 61-3.5V 87-3.5V 113-GND 139-A7 165-3.5V 191-3.5V
10-3.5V 36-GD21 62-GD3 88-GND 114-3.5V 140-A6 166-B4 192-53MHzP
11-GND 37-3.5V 63-GD2 89-D15 115-D3 141-3.5V 167-B5 193-3.5V
12-CPU200 38-GND 64-GD1 90-D14 116-D0 142-GND 168-B6 194-GND
13-/IRQ1 39-GD20 65-GD0 91-D13 117-D1 143-A5 169-B7 195-3.5V
14-HBLANK 40-GD19 66-GND 92-D12 118-D2 144-A4 170-G0 196-53MHzN
15-GND 41-GD18 67-3.5V 93-D11 119-GND 145-A3 171-G1 197-3.5V
16-3.5V 42-GD17 68-(high) 94-D10 120-3.5V 146-GND 172-G2 198-GND
17-VBLANK 43-3.5V 69-(high) 95-D9 121-NC 147-3.5V 173-G3 199-DOTCLK
18-(pull) 44-GND 70-(high) 96-GND 122-/CS 148-A2 174-GND 200-GND
19-(low) 45-GD16 71-3.5V 97-3.5V 123-DSF 149-A1 175-3.5V 201-3.5V
20-GND 46-GD15 72-3.5V 98-D8 124-/RAS 150-A0 176-G4 202-BLANK
21-(low) 47-GD14 73-3.5V 99-D18 125-/CAS 151-3.5V 177-G5 203-(low)
22-3.5V 48-GD13 74-3.5V 100-D19 126-/WE 152-GND 178-G6 204-GND
23-3.5V 49-GD12 75-3.5V 101-D20 127-DQM1 153-FSC 179-G7 205-3.5V
24-GD31 50-GD11 76-GND 102-D21 128-DQM0 154-3.5V 180-R0 206-67MHzG
25-GD30 51-3.5V 77-D31 103-D22 129-GND 155-GND 181-R1 207-GND
26-GD29 52-GND 78-D30 104-D23 130-3.5V 156-/SYNC 182-R2 208-3.5V
Pin 77..150 = Video RAM Bus. Pin 156..189 = Video Out Bus. Other = CPU Bus. Pin
153: Sub Carrier (NC on newer boards whick pick color clock from IC204).
Pin 1,3,4,9,122..128,199,206 are connected via 22 ohm.
Pin 18 has a 4K7 ohm pullup to 3.5V
Pin 77..118 data lines (DQ0..DQ31) are connected via 82 ohm.
Pin 192/196: via 220 ohm to IC204.pin1 (53MHz)
At RAM Side: CKE via 4K7 to 3.5V, and, A8 is GROUNDED!
DQM0 is wired to both DQM0 and DQM2, DQM1 is wired to both DQM1 and DQM3.
CLK is wired to both GPU pin 131 and 134.
RGBnn = IC502 pin nn
/VSYNC, /HSYNC, (and BLANK?) are test points (not connected to any components).
/SYNC = (/VSYNC AND /HSYNC). BLANK = (VBLANK OR HBLANK).
Region Japan+Europe: TDA8771AN
Region America+Asia: MC151854FLTEG or so?
1-IREF 6-GNDd1 11-R1 16-G4 21-B7 26-B2 31-CLK 36-OUTB 41-NC
2-GNDa1 7-VDDd1 12-R0 17-G3 22-B6 27-VDDd2 32-VDDa1 37-NC 42-GNDa2
3-R7 8-R4 13-G7 18-G2 23-B5 28-GNDd2 33-VREF 38-NC 43-VDDa4
4-R6 9-R3 14-G6 19-G1 24-B4 29-B1 34-NC 39-VDDa3 44-OUTR
5-R5 10-R2 15-G5 20-G0 25-B3 30-B0 35-VDDa2 40-OUTG
Used only LATE-PU-8 boards (and PU-16, which does even have two TDA8771AH
chips: one on the mainboard, and one on the VCD daughterboard).
Earlier boards are generating analog RGB via 64pin IC207, and later boards RGB
via 48pin IC502.
1-(cap) 7-Comp. 13-/PAL 19-R4 25-G7 31-G1 37-B3 43-NC
2-GND 8-Chro. 14-/SYNC 20-5.0V 26-G6 32-G0 38-B2 44-(cap)
3-Red 9-5.0V 15-4.4MHz 21-R3 27-G5 33-B7 39-B1 45-GND
4-Green 10-YTRAP 16-R7 22-R2 28-G4 34-B6 40-B0 46-(cap)
5-Blue 11-NC 17-R6 23-R1 29-G3 35-B5 41-DOTCLK 47-5.0V
6-Lum. 12-NC 18-R5 24-R0 30-G2 36-B4 42-GND 48-(cap)
Pin 3..8 (analogue outputs) are passed via external 75 ohm resistors.
Pin 6,7 additionally via 220uF. Pin 8 additionally via smaller capacitor.
Pin 10 (YTRAP) wired via 2K7 to 5.0V.
Pin 1,44,46,48 (can) connect via capacitors to ground (only installed for 44).
The 4.4MHz clock is obtained via 2K2 from IC204.Pin6.
The /PAL pin can be reportedly GROUNDED to force PAL colors in NTSC mode, when
doing that, you may first want to disconnect the pin from the GPU.
Note: Rohm BH7240AKV has same pinout (XXX but with pin7/pin8 swapped?)
Measuring in the region near GPU Pin10 is the nocash number one source for
blowing up components on the mainboard. If you want to measure that signals
while power is on, better measure them at the CPU side.
1-D0 14-D11 27-A8 40-GND 53-3.5V 66-A15 79-5V 92-LRIA
2-D1 15-GND 28-3.5V 41-SYSCK 54-GND 67-A14 80-A3 93-DTIA
3-3.5V 16-D12 29-GND 42-GND 55-D7 68-A13 81-A2 94-BCIB
4-GND 17-D13 30-A9 43-TEST 56-D6 69-A12 82-A1 95-LRIB
5-D2 18-D14 31-/SPU 44-TES2 57-D5 70-A11 83-A0 96-DTIB
6-D3 19-D15 32-/RD 45-D15 58-D4 71-A10 84-/WE0 97-BCKO
7-D4 20-A1 33-/WR 46-D14 59-D3 72-A9 85-/OE0 98-LRCO
8-D5 21-A2 34-DACK 47-D13 60-D2 73-A8 86-/WE1 99-DATO
9-D6 22-A3 35-/IRQ 48-D12 61-D1 74-A7 87-/OE1 100-WCKO
10-D7 23-A4 36-DREQ 49-D11 62-D0 75-A6 88-GND
11-D8 24-A5 37-MUTE 50-D10 63-/RAS 76-A5 89-XCK
12-D9 25-A6 38-/RST 51-D9 64-/CAS 77-A4 90-GND
13-D10 26-A7 39-NC 52-D8 65-GND 78-GND 91-BCIA
Pin 1..36 = MIPS-CPU bus. Pin 45..87 = SPU-RAM bus (A0,A10-A15,/WE1,OE1=NC).
Pin 91..99 = Digital serial audio in/out (A=CDROM, B=EXP, O=OUT).
1-DA16 23-FILO 45-LOCK 67-FSTO 89-SCSY 111-XCS 133-HD9 155-VSS5
2-DA15 24-FILI 46-SSTP 68-COUT 90-SCLK 112-XRD 134-HD8 156-HA1
3-DA14 25-PCO 47-SFDR 69-XDRST 91-SQSO 113-XWR 135-HD7 157-HA0
4-VDDM0 26-CLTV 48-SRDR 70-DA11 92-SENS 114-HINT 136-HD6 158-VDDM3
5-DA13 27-AVSSO 49-TFDR 71-DA10 93-DATA 115-XIRQ 137-VDD4 159-XCK
6-DA12 28-RFAC 50-TRDR 72-DA09 94-XLAT 116-VDDM2 138-HD5 160-DTIB
7-LRCK 29-BIAS 51-VSSM1 73-DA08 95-CLOK 117-XSCS 139-HD4 161-BCKO
8-WDCK 30-ASYI 52-FFDA 74-AVSMO 96-XINT 118-XHCS 140-HD3 162-LRCO
9-VDD0 31-AVDDO 53-FRDA 75-AVDMO 97-A4 119-XHRD 141-HD2 163-DAVDD0
10-VSS0 32-ASYO 54-MDP 76-DA07 98-A3 120-XHWR 142-VSS4 164-DAREFL
11-PSSL 33-VC 55-MDS 77-DA06 99-A2 121-DACK 143-HD1 165-AOUTL
12-ASYE 34-CE 56-VDD2 78-VDDM1 100-A1 122-DREQ 144-HD0 166-DAVSS0
13-GND 35-CEO 57-VSS2 79-DA05 101-A0 123-XRST 145-VSSM3 167-DAVSS1
14-C4M 36-CEI 58-MIRR 80-DA04 102-D7 124-VDD3 146-HA9 168-AOUTR
15-C16M 37-RFDC 59-DFCT 81-DA03 103-D6 125-SYSCK 147-HA8 169-DAREFR
16-FSOF 38-ADIO 60-AVSM1 82-DA02 104-D5 126-VSS3 148-HA7 170-DAVDD1
17-XTSL 39-AVDD1 61-AVDM1 83-DA01 105-D4 127-HD15 149-HA6 171-MUTO
18-VDD1 40-IGEN 62-FOK 84-WFCK 106-VSSM2 128-HD14 150-HA5 172-DATO
19-GND 41-AVSS1 63-PWMI 85-SCOR 107-D3 129-HD13 151-HA4 173-MTS3
20-VPCO1 42-TE 64-FSW 86-SBSO 108-D2 130-HD12 152-VDD5 174-MTS2
21-VPCO2 43-SE 65-MON 87-EXCK 109-D1 131-HD11 153-HA3 175-MTS1
22-VCTL 44-FE 66-ATSK 88-SQCK 110-D0 132-HD10 154-HA2 176-MTS0
1-SCLK 27-RFAC 53-TrckR 79-/XINT 105-A0 131-3.5V 157-(tst) 183-A8
2-GNDed 28-GNDed 54-TrckF 80-SQCK 106-3.5V 132-D9 158-(tst) 184-A7
3-GNDed 29-CLTV 55-FocuR 81-SQSO 107-A1 133-D8 159-GND 185-A6
4-SBSO 30-PCO 56-3.5V 82-SENSE 108-A2 134-D7 160-D15 186-A5
5-WFCK 31-FILI 57-FocuF 83-GND 109-A3 135-D6 161-D0 187-GND
6-GNDed 32-FILO 58-SledR 84-GND 110-A4 136-D5 162-D14 188-A4
7-C16M 33-VCTL 59-SledF 85-CD.D7 111-A5 137-3.5V 163-D1 189-A3
8-3.5V 34-VPC02 60-NC 86-CD.D6 112-3.5V 138-D4 164-D13 190-A2
9-C4M 35-VPC01 61-GND 87-CD.D5 113-A6 139-D3 165-3.5V 191-A1
10-GNDed 36-VC 62-NC 88-CD.D4 114-A7 140-D2 166-D2 192-A0
11-4.3MHz 37-FE 63-GND 89-CD.D3 115-A8 141-D1 167-D12 193-3.5V
12-12MHz 38-SE 64-(tst) 90-CD.D2 116-A9 142-D0 168-D3 194-NC
13-V16M 39-TE 65-(tst) 91-CD.D1 117-/IRQ2 143-GND 169-D11 195-(tst)
14-DOUT 40-CE 66-note 92-CD.D0 118-/IRQ9 144-33MHzS 170-D10 196-GND
15-LACK 41-CEO 67-note 93-3.5V 119-/RD 145- 171-D4 197-(tst)
16-WDCK 42-CEI 68-(tst) 94-CD/CS 120-/WR 146-3.48V 172-D9 198-NC
17-3.5Ved 43-RFDC 69-3.5V 95-CD/WR 121-DMA4 147-ZZ11 173-GND 199-NC
18-LOCK 44-ADIO 70-(tst) 96-CD/RD 122-GND 148-GND 174-D5 200-NC
19-GND 45-GND 71-(tst) 97-CD.A0 123-GND 149-GND 175-D8 201-3.5V
20-MDS 46-IGEN 72-(tst) 98-CD.A1 124-/SPUW 150-ZZ7 176-D6 202-NC
21-MDP 47-AVD1 73-(tst) 99-CD.A2 125-D15 151-3.48V 177-D7 203-NC
22-3.5Ved 48-GNDed 74-DATA 100-GND 126-D14 152-/RES 178-/CAS 204-NC
23-AVDO 49-GNDed 75-XLAT 101-CDA3 127-D13 153-3.5V 179-/WE 205-GND
24-ASYO 50-GND 76-CLOK 102-CDA4 128-D12 154-ZZ5 180-3.5V 206-(tst)
25-ASYI 51-GNDed 77-SCOR 103-/CD 129-D11 155-(tst) 181-/OE 207-(tst)
26-BIAS 52-GNDed 78-GND 104-/SPU 130-D10 156-(tst) 182-/RAS 208-GND
Pin 74..102 = SubCPU. Pin 103..144 = MainCPU. Pin 160..192 = Sound RAM Bus.
Pin 21 and 53..59 = Drive Motor Control (IC722).
Pin 1..47 are probably mainly CDROM related.
Pin 39 "TE9" = IC723.Pin16 - CL709, and via 15K to SPU.39
Pin 66 connects via 4K7 to IC723.Pin19.
Pin 67 not connected (but there's room for an optional capacitor or resistor)
The (tst) pins are wired to test points (but not connected to any components)
Pin 74,75,76,119,120 are connected via 22 ohm.
Pin 103,104 are connected via 100 ohm.
ZZnn = IC405 Pin nn (analog audio related, L/R/MUTE).
Pin 103..142 = System Bus (BIOS,CPU). Pin 160..192 = Sound RAM Bus.
Pin 178 used for both /CASL and /CASH (which are shortcut with each other).
Pin 146 and 151 are 3.48V (another supply, not 3.5V).
Pin 147 and 150 are connected via capacitors.
Pin 195 and 197 testpoints are found below of the pin 206/207 testpoints.
SPU155 (tst) always low ;=maybe external audio (serial) this?
SPU156 (tst) 45kHz (22us) ;=probably 44.1kHz (ext audio sample-rate)
SPU157 (tst) 2777kHz (0.36us) ;=probably 64*44.1kHz (ext audio bit-rate)
SPU158 (tst) always high ;=maybe external audio (serial) or this?
SPU.Pin5 connects to MANY modchips
SPU.Pin42 connects to ALL modchips
SPU.Pin42 via capacitor to SPU.Pin41, and via resistor?/diode? to IC723.10
SPU197 (*) 7.35kHz (44.1kHz/6) (stable clock, maybe DESIRED drive speed)
SPU5 (*) 7.35kHz (44.1kHz/6) (unstable clock, maybe ACTUAL drive speed)
SPU15 (*) 44.1kHz (44.1kHz*1)
SPU16 (*) 88.2kHz (44.1kHz*2)
SPU206 (*) circa 2.27MHz
SPU70 (*) whatever clock (with SHORT low pulses)
(*) these frequencies are twice as fast in double speed mode.
SPU207 fastsignal?
SPU195 slowsignal?
SPU18 usually high, low during seek or spinup or so
SPU44 superslow hi/lo with superfast noise on it
SPU73 mainly LOW with occasional HIGH levels...
SPU71 LOW=SPIN_OK, PULSE=SPIN_UP/DOWN_OR_STOPPED
SPU72 similar as SPU71
SPU64 LOW=STOP, HI=SPIN
SPU68 always low...?
SPU65 whatever?
SPU75 mainly HIGH, short LOW pulses when changing speed up/down/break
| | SPU73
| CXD2938Q (SPU) | SPU72
| (on PM-41 board) | SPU70 SPU71
| | SPU64 SPU65 SPU68
SPU206 SPU207 |_______________________________________|
SPU197
SPU195 SPU16 SPU44
SPU18 SPU5 SPU15
SPU12
1-TST? 4-/PD 7-CKS 10-LRCK 13-NC? 16-AOUTL 19-GNDa 22-VREFH
2-VCCd 5-/RST 8-BICK 11-NC? 14-NC? 17-VCOM 20-NC? 23-VREFL
3-GNDd 6-MCLK 9-SDATA 12-NC? 15-AOUTR 18-VCCa 21-NC? 24-DZF?
Used only on older boards (eg. PU-8), newer boards seem to have the DAC in the
208pin SPU.
No 24pin AK4309VM datasheet exists (however it seems to be same as 20pin
AK4309B's, with four extra NC pins at pin10-14).
Called "NJM2174" in service manual. Audio Amplifier with Mute.
1 GND
2 NC ? via 100ohm to multiout pin 9 ;Audio Left (white cinch)
3 OUT-R ?
4 MUTE1 ;specified as LOW = Mute
5 MUTE2 ;specified as HIGH = Mute
6 MUTEC ;unspecified, maybe capacitor, or output based on MUTE1+MUTE2?
7 IN-R via capacitor to SPU.150
8 BIAS
9 NC
10 NC
11 IN-L via capacitor to SPU.147
12 OUT-L ?
13 NC ? via 100ohm to multiout pin 11 ;Audio Right (red cinch)
14 VCC +5.0V (via L401)
Audio amplifier, for raising the signals to 5V levels.
1-ROUT
2-RIN- IC732.SPU.150
3-RIN+
4-GND
5-LIN+
6-LIN- IC732.SPU.147
7-LOUT
8-VCC 4.9V (+5.0V via L401)
1-D0 14-/XINT 27-/HRD 40-GND 53-VDD 66-/MWR 79-GND 92-LRCO
2-D1 15-GND 28-VDD 41-HDRQ 54-GND 67-MDB0 80-CLK 93-WCKO
3-VDD 16-A0 29-GND 42-/HAC 55-MA8 68-MDB1 81-HCLK 94-BCKO
4-GND 17-A1 30-/HWR 43-MA0 56-MA9 69-MDB2 82-CKSL 95-MUTE
5-D2 18-A2 31-HD0 44-MA1 57-MA10 70-MDB3 83-RMCK 96-TD7
6-D3 19-A3 32-HD1 45-MA2 58-MA11 71-MDB4 84-LRCK 97-TD6
7-D4 20-A4 33-HD2 46-T01 59-MA12 72-MDB5 85-DATA 98-TD5
8-D5 21-TD0 34-HD3 47-T02 60-MA13 73-MDB6 86-BCLK 99-TD4
9-D6 22-/HRS 35-HD4 48-MA3 61-MA14 74-MDB7 87-C2PO 100-TD3
10-D7 23-/HCS 36-HD5 49-MA4 62-MA15 75-MDBP 88-EMP
11-/CS 24-HA0 37-HD6 50-MA5 63-MA16 76-XTL2 89-/RST
12-/RD 25-HA1 38-HD7 51-MA6 64-/MOE 77-XTL1 90-GND
13-/WR 26-HINT 39-HDP 52-MA7 65-GND 78-VDD 91-DATO
Pin 1..20 to HC05 CPU, pin 22..42 to MIPS cpu, pin 43..75 to SRAM cd-buffer.
The pinouts/registers in CXD1199AQ datasheet are about 99% same as CXD1815Q.
Note: Parity on the 8bit data busses is NC. SRAM is 32Kx8 (A15+A16 are NC).
Later boards have this integrated in the SPU.
1-FEO 7-FE_M 13-RA_O 19-CLK 25-FOK 31-RF_O 37-FE_BIAS 43-LPFI
2-FEI 8-SRCH 14-SL_P 20-XLT 26-CC2 32-RF_M 38-F 44-TEI
3-FDFCT 9-TGU 15-SL_M 21-DATA 27-CC1 33-LD 39-E 45-ATSC
4-FGD 10-TG2 16-SL_O 22-XRST 28-CB 34-PD 40-EI 46-TZC
5-FLB 11-FSET 17-ISET 23-C.OUT 29-CP 35-PD1 41-GND 47-TDFCT
6-FE_O 12-TA_M 18-VCC 24-SENS 30-RF_I 36-PD2 42-TEO 48-VC
Datasheet exists. Later boards have CXA1782BR+CXD2510Q integrated in CXD2545Q,
and even later boards have it integrated in the SPU.
1-FOK 11-PDO 21-GNDa 31-WDCK 41-DA09-XPLCK 51-APTL 61-EMPH 71-DATA
2-FSW 12-GND 22-VLTV 32-LRCK 42-DA08-GFS 52-GND 62-WFCK 72-XLAT
3-MON 13-TEST0 23-VDDa 33-VDD 5V 43-DA07-RFCK 53-XTAI 63-SCOR 73-VDD
4-MDP 14-NC 24-RF 34-DA16-SDTA48 44-DA06-C2PO 54-XTAO 64-SBSO 74-CLOK
5-MDS 15-NC 25-BIAS 35-DA15-SCLK48 45-DA05-XRAOF 55-XTSL 65-EXCK 75-SEIN
6-LOCK 16-VPCO 26-ASYI 36-DA14-SDTA64 46-DA04-MNT3 56-FSTT 66-SQSO 76-CNIN
7-NC 17-VCKI 27-ASYO 37-DA13-SCLK64 47-DA03-MNT2 57-FSOF 67-SQCK 77-DATO
8-VCOO 18-FILO 28-ASYE 38-DA12-LRCK64 48-DA02-MNT1 58-C16M 68-MUTE 78-XLTO
9-VCOI 19-FILI 29-NC 39-DA11-GTOP 49-DA01-MNT0 59-MD2 69-SENS 79-CLKO
10-TEST 20-PCO 30-PSSL 40-DA10-XUGF 50-APTR 60-DOUT 70-XRST 80-MIRR
Datasheet exists. Later boards have CXA1782BR+CXD2510Q integrated in CXD2545Q,
and even later boards have it integrated in the SPU.
1-SRON 14-TEST 27-TE 40-VDDa 53-DA09-XPLCK 66-FSTI 79-MUTE 92-DFCT
2-SRDR 15-GND 28-SE 41-VDD 54-DA08-GFS 67-FSTO 80-SENS 93-FOK
3-SFON 16-TES2 29-FE 42-ASYE 55-DA07-RFCK 68-FSOF 81-XRST 94-FSW
4-TFDR 17-TES3 30-VC 43-PSSL 56-DA06-C2PO 69-C16M 82-DIRC 95-MON
5-TRON 18-PDO 31-FILO 44-WDCK 57-DA05-XRAOF 70-MD2 83-SCLK 96-MDP
6-TRDR 19-VPCO 32-FILI 45-LRCK 58-DA04-MNT3 71-DOUT 84-DFSW 97-MDS
7-TFON 20-VCKI 33-PCO 46-DA16-SDTA48 59-DA03-MNT2 72-EMPH 85-ATSK 98-LOCK
8-FFDR 21-VDDa 34-CLTV 47-DA15-SCLK48 60-DA02-MNT1 73-WFCK 86-DATA 99-SSTP
9-FRON 22-IGEN 35-GNDa 48-DA14-SDTA64 61-DA01-MNT0 74-SCOR 87-XLAT 100-SFDR
10-FRDR 23-GNDa 36-RFAC 49-DA13-SCLK64 62-XTAI 75-SBSO 88-CLOK
11-FFON 24-ADIO 37-BIAS 50-DA12-LRCK64 63-XTAO 76-EXCK 89-COUT
12-VCOO 25-RFC 38-ASYI 51-DA11-GTOP 64-XTSL/GNDed 77-SQSO 90-VDD
13-VCOI 26-RFDC 39-ASYO 52-DA10-XUGF 65-GND 78-SQCK 91-MIRR
Datasheet exists. The CXD2545Q combines the functionality of CXA1782BR+CXD2510Q
from older boards (later boards have it integrated in the SPU). XTAI/XTAO input
is 16.9344MHz (44.1kHz*180h), with XTSL=GND. Clock outputs are
FSTO=16.9344MHz/3, FSOF=16.9344MHz/4, C16M=16.9344MHz/1.
Pinouts are same as CXD2545Q, except, three pins are different: Pin24=ADII
(instead of ADIO), Pin25=ADIO (instead of RFC), Pin68=C4M (instead of FSOF).
1..48 - unknown
49 - SCOR
50..144 - unknown
1-8 Unknown (maybe CDROM related, at least it's near other CDROM chips)
Drive Motor related.
1 to pin24,27
2 SPINDLE - via 15K to SPU21
3 SW (ON/OFF) - IC304.27
4 TRACKING FORWARD
5 TRACKING REVERSE
6 FOCUS FORWARD
7 FOCUS REVERSE
8 GND - CN702 pin 11
9 NC (INTERNAL) - via C731 (10uF) to GND
10 +7.5V (Pow VCC ch1,2)
11 FOCUS COIL (1) - CN702 pin 15
12 FOCUS COIL (2) - CN702 pin 14
13 TRACKING COIL (1) - CN702 pin 16
14 TRACKING COIL (2) - CN702 pin 13
15 SPINDLE MOTOR (1) - CN701 pin 4
16 SPINDLE MOTOR (2) - CN701 pin 3
17 SLED MOTOR (1) - CN701 pin 1
18 SLED MOTOR (2) - CN701 pin 2
19 +7.5V (Pow VCC ch3,4)
20 MUTE - /RES (via 5K6)
21 GND
22 SLED REVERSE
23 SLED FORWARD
24 to pin1
25 via capacitors to pin1
26 BIAS 1.75V
27 to pin1
28 +7.5V (Pre VCC)
Additionally to the above 28pins, the chip has two large grounded pins (between
pin 7/8 and 21/22) for shielding or cooling purposes.
1 LD O APC amplifier output
2 PD I APC amplifier input
3 PD1 I Input 1 for RF I-V amplifiers
4 PD2 I Input 2 for RF I-V amplifiers
5 GND/VEE - Supply Ground
6 F I Input F for I-V amplifier
7 E I Input E for I-V amplifier
8 VR O DC Voltage Output (VCC+VEE)/2
9 VC I Center Voltage Input
10 NC - NC
11 NC - NC
12 EO O Monitoring Output for I-V amplifier E
13 EI - Gain Adjust for I-V amplifier E
14 TE O Tracking Error Amplifier Output
15 FE_BIAS I BIAS Adjustment for Focus Error
16 FE O Focus Error Amplifier Output
17 RFO O RF Amplifier Output
18 RFI I RF Amplifier Input
19 /LD_ON I APC amplifier ON=GND, OFF=VCC
20 VCC - Supply
Datasheet for CXA1791N does exist. Later boards have IC703 replaced by IC723.
Older PU-7/PU-8 boards appear to have used a bunch of smaller components (8pin
chips and/or transistors) instead of 20pin RF amplifiers.
1-TEIM
2-TEIG
3-VEE GND
4-E via 33K to CN702 pin 4
5-F via 33K to CN702 pin 8
6-PD2 via 36K to CN702 pin 6
7-PD1 via 36K to CN702 pin 7
8-PD to CN702 pin 9
9-LD
10-VC CL710, and CN702.Pin3, and via resistor?/diode? to SPU42
11-LD_ON IC304.Pin49 "LDON" ..... XXX or is that Pin 20 "LD_ON" ?
12-G_CONT ;or AL/TE?
13-RF0 CL704, and...
14-RFM
15-FE CL708, and... (maybe focus error?)
16-TE CL709, and via 15K to SPU.39 (maybe tracking error?)
17-TE0
18-COMP+
19-MIRR via 4K7 to SPU66
20-VCC 3.48V (not 3.5V)
Used only on PU-22 .. PM-41(2) boards (PU-18 boards used IC703 "CXA1791N", and
even older boards... maybe had this in CXA1782BR... or maybe had it in a bunch
of 8pin NJMxxxx chips?).
There is no CXA2575N datasheet (but maybe some signals do resemble
CXA2570N/CXA2571N/CXA1791N datasheets).
1-LD to Q701
2-VCC to Q701
3-VC to IC723.Pin10 (and CL710)
4-F- to IC723.Pin4 (via 33K ohm)
5-NC to CL776
6-PD2 to IC723.Pin6 (via 33K ohm)
7-PD1 to IC723.Pin7 (via 33K ohm)
8-E- to IC723.Pin5 (via 33K ohm)
9-M1 to IC723.Pin8
10-VR via 91 ohm to GND
11-GND GND
12-LS /POS0 (switch, GNDed when at head is at inner-most position)
13-FCS+ TRACKING COIL (2) ;\
14-TRK+ FOCUS COIL (2) ; or swapped?
15-TRK FOCUS COIL (1) ;
16-FCS TRACKING COIL (1) ;/
PU-23 and PM-41 board seem to be using exactly the same Drive, the only
difference is the length (and folding) of the attached cable.
1-SL- SLED MOTOR (1)
2-SL+ SLED MOTOR (2)
3-SP+ SPINDLE MOTOR (2)
4-SP- SPINDLE MOTOR (1)
CL616 +7.5V (PM-41 only, not PM-23) (before power switch)
CL617 GND (PM-41 only, not PM-23)
CL316 to IC304 pin 21
CL704 to IC723.Pin13
CL706 GND
CL708 to IC723.Pin15
CL709 to IC723.Pin16
CL710 to IC723.Pin10, and CN702.Pin3
CL711 via 1K to IC723.Pin15
CL776 to CN702.Pin5
Probably test points for drive calibration or so.
SCPH-5903 Video CD PlayStation
The overall design is very close to LATE-PU-8 boards (1-658-467-2x). Changed
components are IC102/IC304 (different kernel and cdrom firmware),
C318/C325/C327 (height reduced capacitors for mounting the daughterboard above
of them). Plus some extra components: Three triple multiplexors (for switching
between PSX and VCD audio/video), and the daughterboard connector.
IC102 44pin SONY, M538032E-02, JAPAN 6465401 (uncommonly big BIOS, 1Mx8)
IC304 52pin C 4021 SC430924PB (HC05 sub-cpu, with extra Video CD command 1Fh)
C318 2pin S5 ;\tantalum capacitors with lower height (instead
C325 2pin CA7 ; of the electrolytic capacitors on PU-8 boards)
C327 2pin CA7 ;/
ICnnn 16pin 4053C (Triple multiplexor, for Audio LRCK,BCLK,DATA) (PCB top)
ICnnn 16pin 4053C (Triple multiplexor, for Video FSC,CSYNC) (PCB bottom)
ICnnn 16pin 2283 (Triple multiplexor, for Video R,G,B) (PCB bottom)
CNnnn 30pin Connector to daughterboard (PCB top)
IC102 3pin TA78M05F voltage regulator (7.5V to 5V) (Toshiba)
IC104 120pin CXD1852AQ Video CD decoder (Sony)
IC106 40pin MB814260-70 (256Kx16 DRAM) (Fujitsu) ;see also: IC114
IC107 20pin 6230FV 649 115 (OSD, similar to BU6257AFV-E2) (PCB back)
IC109 14pin Y2932 (TLC2932 PLL) (TI) (for RGB.DAC.CLK)
IC110 44pin TDA8771AH Triple Video DAC for RGB (Philips) (PCB back)
IC111 64pin CXP10224-603R 732A02E (MCU) (Sony)
IC112 14pin HCT32A (74HCT32 Quad OR gate) (TI) (PCB back) (for RGB.DAC.CLK)
IC113 8pin H74 7H (single D-type flip-flop; OSD clock divider) (PCB back)
IC114 40pin MB814260-70 (256Kx16 DRAM) (Fujitsu) ;see also: IC106
CN101 30pin Male Connector (to female 30pin socket on PU-16 mainboard)
X103 2pin 45.00MHz (for VCD decoder chip)
X104 4pin 12.000MHz (for MCU chip)
X105 2pin 28.636MHz (for VCD decoder chip) (8*3.579545 NTSC clock)
.--.---.
GND / 1 2 | GND
(CXD1815Q.86) CD.BCLK | 3 4 | CD.LRCK (CXD1815Q.84)
(CXD1815Q.87) CD.C2PO | 5 6 | CD.DATA (CXD1815Q.85)
GND | 7 8 | CD.SQCK (CXD2510Q.67) CXP.31
(TDA.44) VIDEO.OUTR | 9 10 | CD.SQSO (CXD2510Q.66) CXP.29
GND | 11 12 | SIO.OUT (HC05.51.PORTF1 to CXP.47)
(TDA.40) VIDEO.OUTG | 13 14 | SIO.IN (HC05.50.PORTF0 from CXP.48)
GND | 15 16 | SIO.CLK (HC05.52.PORTF2 to CXP.49)
(TDA.36) VIDEO.OUTB | 17 18 | VIDEO.FSC (CXD1852AQ.95)
GND | 19 20 | VIDEO.CSYNC(CXD1852AQ.96)
(PSU.3) 3.5V | 21 22 | 3.5V (PSU.3)
(PSU.1) 7.5V | 23 24 | AUDIO.FSXI (CXD1852AQ.103 to VCD)
(PSU.7) /RES | 25 26 | AUDIO.DATA (CXD1852AQ.100)
(CXD1852AQ.102) AUDIO.BCLK | 27 28 | AUDIO.LRCK (CXD1852AQ.101)
GND | 29 30 | GND
'--------'
1-GND 16-HD7 31-GND 46-MD4 61-GND 76-G/Y3 91-GND 106-XTL2O
2-XTL0O 17-MA3 32-MA7 47-MD11 62-/VOE 77-G/Y4 92-HSYNC 107-XTL2I
3-XTL0I 18-MA4 33-MA8 48-MD3 63-R/Cr0 78-G/Y5 93-VSYNC 108-VDD
4-VDD 19-MA2 34-/RAS 49-MD12 64-R/Cr1 79-G/Y6 94-FID/FHREF 109-C2PO
5-HA2 20-MA5 35-/MWE 50-MD2 65-R/Cr2 80-G/Y7 95-CBLNK/FSC 110-LRCI
6-HA3 21-MA1 36-/CAS2 51-MD13 66-R/Cr3 81-B/Cb0 96-CSYNC 111-DATI
7-HD0 22-GND 37-/CAS0 52-MD1 67-R/Cr4 82-B/Cb1 97-/SGRST 112-BCKI
8-HD1 23-MA6 38-MD7 53-MD14 68-R/Cr5 83-B/Cb2 98-CLK0O 113-DOIN
9-HD2 24-MA0 39-MD8 54-MD0 69-R/Cr6 84-B/Cb3 99-DOUT 114-/HCS
10-HD3 25-BC 40-MD6 55-MD15 70-R/Cr7 85-B/Cb4 100-DATO 115-/HDT
11-HD4 26-TCKI 41-MD9 56-OSDEN 71-G/Y0 86-B/Cb5 101-LRCO 116-HRW
12-HD5 27-TDI 42-MD5 57-OSDB 72-G/Y1 87-B/Cb6 102-BCKO 117-/HIRQ
13-HD6 28-TENA1 43-MD10 58-OSDG 73-G/Y2 88-B/Cb7 103-FSXI 118-/RST
14-VDD 29-TDO 44-VDD 59-OSDR 74-VDD 89-DCLK 104-VDD 119-HA0
15-GND 30-VST 45-GND 60-VDD 75-GND 90-VDD 105-GND 120-HA1
The Hxxx pins are for the Host (the 8bit CXP CPU), the Mxxx for the RAM chips,
the R/G/B pins are 24bit RGB video. Pin36 can be /CAS2 or MA9 (and, the VCD
daughterboard has alternate solderpads for one large RAM instead of two small
RAMs).
1-SIO.CLK 5-VDD 9-TEST 13-BLK2 17-OSDG
2-SIO./CS 6-/CKOUT 10-GND 14-VC2 18-OSDB
3-SIO.DTA 7-OSCOUT 11-BLK1 15-OSDEN 19-/VSYNC
4-/RESET 8-OSCIN 12-VC1 16-OSDR 20-/HSYNC
SIO pin1/2/3 are wired to CXP pin38/37/36. OSCIN is the RGB DAC CLK divided by
two (from H74 chip pin5). OSD/SYNC on pin15-20 connect to the MPEG1 decoder
chip.
No datasheet (but pinouts are same/similar as for BU6257AFV, documented in
several service manuals for tape decks with vcd player: HCD-V5500,
HCD-V8900/V8900AV, HCD-V909AV).
1-PB5=TP 17-PD5=/HCS 33-AVREF=VDD 49-PG5/SCK1=HC05.PF2
2-PB4=TP 18-PD4=TP 34-AVDD=VDD 50-PG4=/RST.OUT
3-PB3=HA3 19-PD3=TP 35-PF7/AN7=TP 51-PG3/TO=TP
4-PB2=HA2 20-PD2=TP 36-PF6/AN6=OSD.DTA 52-PA7=TP
5-PB1=HA1 21-PD1=TP 37-PF5/AN5=OSD./CS 53-PA6=TP
6-PB0=HA0 22-PD0=TP 38-PF4/AN4=OSD.CLK 54-PA5=TP
7-PC7=HD7 23-MP/TEST=GND 39-PF3/AN3=GND 55-PA4=TP
8-PC6=HD6 24-XTAL=12MHZ 40-PF2/AN2=GND 56-VPP=VDD
9-PC5=HD5 25-EXTAL=12MHZ 41-PF1/AN1=GND 57-VDD=VDD
10-PC4=HD4 26-VSS=GND 42-PF0/AN0=10KtoGND 58-VSS=GND
11-PC3=HD3 27-/RST=/RES 43-PE3/PWM1=TP 59-PA3=TP
12-PC2=HD2 28-/CS0=VDD 44-PE2/PWM0=TP 60-PA2=TP
13-PC1=HD1 29-SI0=CD.SQSO 45-PE1/INT2/EC=/VSYNC 61-PA1=TP
14-PC0=HD0 30-SO0=TP 46-PE0/INT0=/HIRQ 62-PA0=TP
15-PD7=HRW 31-/SCK0=CD.SQCK 47-PG7/SI1/INT1=HC05.PF1 63-PB7=TP
16-PD6=/HDT 32-AVSS=GND 48-PG6/SO1=HC05.PF0 64-PB6=TP
Pin 3-15,45,46,50 connect to MPEG1 decoder. Pin 36-38 to OSD. Pin 47-49 to
HC05.PortF. Pin 27 is /RESET from PSU. Pin 29,31 are SUBQ from CXD2510Q. The
"TP" pins connect to test points (but seem to be NC otherwise).
Pinouts are same as in CXP811P24 datasheet (which uses SPC700 instruction set;
that instruction set is also used by SNES sound CPU).
1-LOGIC_VDD=5V 5-FIN-B=HSYNC.PLL 9-PFD_INHIBIT=GND 13-BIAS
2-SELECT=5V 6-PFD_OUT 10-VCO_INHIBIT=GND 14-VCO_VDD=5V
3-VCO_OUT=RGB.DAC.CLK.PLL 7-LOGIC_GND=GND 11-VCO_GND=GND
4-FIN-A=FID/FHREF.PLL 8-NC 12-VCO_IN
Used to generate the CLK for the TDA chip (that is, the dotclk, paused during
VSYNC, or so?). The same CLK, divided by two, is also used as OSD.OSCIN.
1-FID/FHREF.MPEG 4-HSYNC.MPEG 8-(low) 11-RGB.DAC.CLK.TDA 7-GND
2-FID/FHREF.MPEG 5-HSYNC.MPEG 9-GNDed 12-RGB.DAC.CLK.PLL 14-VCC/5V
3-FID/FHREF.PLL 6-HSYNC.PLL 10-GNDed 13-RGB.DAC.CLK.PLL
Used to sharpen the output from the PLL chip, and to level-shift signals for
the two PLL inputs from 3.5V to 5V. The input-pairs for the OR gates are
shortcut with each other, so the chip isn't actually ORing anything.
1-CLK 2-D 3-/Q 4-GND 5-Q 6-/RES 7-/SET 8-VCC
Used to divide the RGB DAC CLK by two. CLK comes from TDA.pin31, D and /Q are
shortcut with each other, /RES and /SET are wired to VDD, and Q goes to
OSD.OSCIN.
1-IN2B=DATA.VCD 5-IN3A=LRCK.SPU 9-SEL3=LRCK.SEL 13-IN1B=BCLK.VCD
2-IN2A=DATA.SPU 6-/OE=GNDed 10-SEL2=DATA.SEL 14-OUT1=BCLK.OUT
3-IN3B=LRCK.VCD 7-VEE=GNDed 11-SEL1=BCLK.SEL 15-OUT2=DATA.OUT
4-OUT3=LRCK.OUT 8-GND=GND 12-IN1A=BCLK.SPU 16-VDD=VDD/3.5V
The three SEL pins are wired to HC05.PortF3, the three SPU pins are wired via
10Kohm.
1-IN2B=FSC.VCD 5-IN3A=CSYNC.PSX 9-SEL3=CSYNC.SEL 13-IN1B=GNDed
2-IN2A=FSC.PSX 6-/OE=GNDed 10-SEL2=FSC.SEL 14-OUT1=NCed
3-IN3B=CSYNC.VCD 7-VEE=GNDed 11-SEL1=DUMMY.SEL 15-OUT2=FSC.OUT
4-OUT3=CSYNC.OUT 8-GND=GND 12-IN1A=GNDed 16-VDD=VCC/5V
The three SEL pins are wired to HC05.PortF3, the two OUTx pins are wired via
2.2Kohm.
1-IN1B=R.VCD 5-OUT2=G.OUT 9-IN3B=B.VCD 13-V=VCC/5V
2-SEL1=R.SEL 6-OUT3=B.OUT 10-GND3=81ohm/GND 14-IN2B=G.VCD
3-OUT1=R.OUT 7-SEL3=B.SEL 11-IN2A=G.PSX 15-GND1=GND
4-GND2=GND 8-IN3A=B.PSX 12-SEL2=G.SEL 16-IN1A=R.PSX
The three SEL pins are wired to HC05.PortF3, the six INxx pins wired through
resistors and capacitors, the three OUTx pins are wired through capacitors.
80pin "4246xx" - MC68HC05L16, on-chip ROM (DTL-H120x & old retail consoles)
80pin "MC68HC705L16CFU" - MC68HC705L16, on-chip ROM (DTL-H100x, and PU-9)
52pin "SC4309xx" - MC68HC05G6, on-chip ROM (newer retail consoles)
The early DTL-H2000 devboard is also using a 80pin CPU (with piggyback EPROM
socket), but that CPU is a Sony CXP82300 SPC700 CPU, not a Motorola HC05 CPU.
Called "MC68HC05G6PB" in service manual (=8bit CPU).
1 NC NC (TEST:DTR/out) (VCD:AVSEL/out) ;-Port F ;PortF.Bit3
2 VDD 3.5V
3 NC NC ;\ ;maybe PortE.Bit7?
4 NC NC ; maybe MSBs of Port E ;maybe PortE.Bit6?
5 NC NC ;/ ;maybe PortE.Bit5?
6 DECA4 SPU102 ;\ ;PortE.Bit4
7 DECA3 SPU101 ; Port E [04h], aka Address/Index ;PortE.Bit3
8 DECA2 SPU99 ; ;PortE.Bit2
9 DECA1 SPU98 ; ;PortE.Bit1
10 DECA0 SPU97 ;/ ;PortE.Bit0
11 VSS GND
12 NDLY GND reserved for factory test, should be wired to VDD, not GND?
13 /RES /RES (via 5K6)
14 OSC1 4.3MHz (SPU11)(used as external clock for some modchips)(low volts)
15 OSC2 NC
16 F-BIAS aka FOK=NC (in SCPH-5500) ;PortB.Bit0
17 CG NC aka CG=CG (in SCPH-5500) ;this IS portb.1! ;PortB.Bit1
18 LMTSW /POS0 (switch, GNDed when head at inner-most position) ;PortB.Bit2
19 DOOR SHELL_OPEN ;PortB.Bit3
20 TEST2 NC ;PortB.Bit4
21 TEST1 to CL316 ;PortB.Bit5
22 COUT NC ;PortB.Bit6
23 SENSE SPU82 ;CXD2510Q.69 ;PortB.Bit7
24 SUBQ SPU81 ;CXD2510Q.66 ;PortC.Bit0
25 NC NC ;NC ;PortC.Bit1
26 SQCK SPU80 ;CXD2510Q.67 ;PortC.Bit2
27 SPEED IC722.Pin3 (SW) ;PortC.Bit3
28 AL/TE ;transisor aka MIRROR=.. (in SCPH-5500);ISN'T PortB.Bit1 !
29 ROMSEL ;NC aka ROMSEL=SCLK (in SCPH-5500) ;PortC.Bit5
30 /XINT SPU79 ;CXD1815Q.14 ;PortC.Bit6
31 SCOR SPU77 ;CXD2510Q.63 ;PortC.Bit7
32 VDD 3.5V
33 DECD0 CD.D0 ;\ ;PortA.Bit0
34 DECD1 CD.D1 ; ;PortA.Bit1
35 DECD2 CD.D2 ; ;PortA.Bit2
36 DECD3 CD.D3 ; Port A [00h], aka Data ;PortA.Bit3
37 DECD4 CD.D4 ; ;PortA.Bit4
38 DECD5 CD.D5 ; ;PortA.Bit5
39 VSS GND ;
40 DECD6 CD.D6 ; ;PortA.Bit6
41 DECD7 CD.D7 ;/ ;PortA.Bit7
42 NC NC ;maybe PortD.Bit0?
43 DATA SPU74 (via 22 ohm) ;PortD.Bit1
44 XLAT SPU75 (via 22 ohm) ;PortD.Bit2
45 CLOK SPU76 (via 22 ohm) ;PortD.Bit3
46 DECCS SPU94 ;PortD.Bit4
47 DECWR SPU95 ;PortD.Bit5
48 DECRD SPU96 ;PortD.Bit6
49 LDON IC723.Pin11 ;PortD.Bit7
50 NC NC (TEST:TX/out) (VCD:SIO.IN/in) ;\PortF (used by ;PortF.Bit0
51 NC NC (TEST:RX/in) (VCD:SIO.OUT/out) ; Motorola Testmode;PortF.Bit1
52 NC NC (TEST:RTS/out) (VCD:SIO.CLK/out) ;/and VCD version) ;PortF.Bit2
This chip isn't connected directly to the CPU, but rather to a Fifo Interface,
which is then forwarding data to/from the CPU. On older PSX boards, that Fifo
Interface has been located in a separate chip, on newer PSX boards and PSone
boards, the Fifo stuff is contained in the SPU chip. The CDROM has a 32K
buffer, which is also implemeted at the Fifo Interface side.
OSC input (internally HC05 is running at OSC/2, ie. around 2MHz):
PU-8 4.0000MHz from separate 4.000MHz oscillator (X302)
PU-16 4.0000MHz from separate 4.000MHz oscillator (X302)
DTL-H2000 4.1900MHz from separate 4.1900MHz oscillator (SPC700, not HC05)
PU-18 4.2336MHz from CXD2545Q.pin68 (Servo+Signal) (FSOF=16.9344MHz/4)
PU-20 4.2xxxMHz from CXD1817R.pin? (Servo+Signal+Decoder)
PM-41 4.2xxxMHz from CXD2938Q.pin11 (Servo+Signal+Decoder+SPU)
1 VDD
2 FP28/PE6 ;\
3 FP29/PE5 ;
4 FP30/PE4 ;
5 FP31/PE3 ; Port E LSBs
6 FP32/PE2 ;
7 FP33/PE1 ;
8 FP34/PE0 ;/
9 FP35/PD7 ;\
10 FP36/PD6 ; Port D MSBs
11 FP37/PD5 ;
12 FP38/PD4 ;/
13 VLCD3
14 VLCD2
15 VLCD1
16 VSS
17 NDLY
18 XOSC1
19 XOSC2
20 /RESET
---
21 OSC1
22 OSC2
23 PA0 ;\
24 PA1 ;
25 PA2 ;
26 PA3 ; Port A
27 PA4 ;
28 PA5 ;
29 PA6 ;
30 PA7 ;/
31 PB0/KWI0 ;\
32 PB1/KWI1 ;
33 PB2/KWI2 ;
34 PB3/KWI3 ; Port B
35 PB4/KWI4 ;
36 PB5/KWI5 ;
37 PB6/KWI6 ;
38 PB7/KWI7 ;/
39 PC0/SDI ;\
40 PC1/SDO ;
--- ;
41 PC2/SCK ; Port C
42 PC3/TCAP ;
43 PC4/EVI ;
44 PC5/EVO ;
45 PC6/IRQ2 ;
46 PC7/IRQ1 ;/
47 VDD
48 BP3/PD3 ;\
49 BP2/PD2 ; Port D LSBs
50 BP1/PD1 ;
51 BP0 (no "PD0") ;/
52 FP0
53 FP1
54 FP2
55 FP3
56 FP4
57 FP5
58 FP6
59 FP7
60 VSS
---
61 FP8
62 FP9
63 FP10
64 FP11
65 FP12
66 FP13
67 FP14
68 FP15
69 FP16
70 FP17
71 FP18
72 FP19
73 FP20
74 FP21
75 FP22
76 FP23
77 FP24
78 FP25
79 FP26
80 FP27/PE7 ;- Port E MSB
Sony's Digital Joypad and Mouse contain 32pin CPUs, which are probably also
HC05's:
Pinouts - Component List and Chipset Pin-Outs for Digital Joypad, SCPH-1080
Moreover, some old memory cards contain a 64pin Motorola SC419510FU (probably
also a HC05) with separate Atmel AT29LV010A (128Kx8 FLASH).
1-A19 5-A7 9-A3 13-D0 17-D3 21-D7 25-A11 29-A14
2-A16 6-A6 10-A2 14-D1 18-D4 22-/CE 26-A9 30-A17 ;/CE=/BIOS
3-A15 7-A5 11-A1 15-D2 19-D5 23-A10 27-A8 31-A18
4-A12 8-A4 12-A0 16-GND 20-D6 24-/OE 28-A13 32-3.5V ;/OE=/RD
Uses standard EPROM pinouts, VCC is 3.5V though, when replacing the ROM by an
EPROM, it may be required to replace the supply by 5V. Note that, on PM-41
boards at least, Pin 1 is connected to A19 (allowing to install a 1MB BIOS chip
on that board, however, normally, a 512KB BIOS chip is installed, and, the CPU
is generating an exception when trying to access more than 512KB, but that 512K
limit can be disabled via memory control registers).
Datasheet for (MS-)M534031E does exist.
1-A18 6-A4 11-GND 16-D9 21-VCC 26-D6 31-GND(/BYTE) 36-A13
2-A8 7-A3 12-/OE 17-D2 22-D4 27-D14 32-A17 37-A12
3-A7 8-A2 13-D0 18-D10 23-D12 28-D7 33-A16 38-A11
4-A6 9-A1 14-D8 19-D3 24-D5 29-A0(D15) 34-A15 39-A10
5-A5 10-/CS 15-D1 20-D11 25-D13 30-GND 35-A14 40-A9
The chip supports 8bit/16bit mode, on the PSX D0-D14 are actually wired, but
A0/D15 is wired to A0, and /BYTE is wired to GND, so 16bit mode doesn't work.
Datasheet for MX23L4100 does exist.
1-NC 5-A7 9-A3 13-GND 17-D1 21-D3 25-D12 29-D14 33-/BYT 37-A14 41-A10
2-A19 6-A6 10-A2 14-/OE 18-D9 22-D11 26-D5 30-D7 34-A17 38-A13 42-A9
3-A18 7-A5 11-A1 15-D0 19-D2 23-VCC 27-D13 31-D15/A0 35-A16 39-A12 43-NC
4-A8 8-A4 12-/CE 16-D8 20-D10 24-D4 28-D6 32-GND 36-A15 40-A11 44-NC
Pinouts are from OKI MSM538032E datasheet.
Unknown.
Note: The newer 70pin RAM comes up without external /REFRESH signal, but maybe
the 28pin RAMs required refresh (the CPU has some odd delays once and when).
"Samsung K4Q153212M-JC60" (70pin, 512Kx32) (newer boards)
"Toshiba T7X16" (70pin, 512Kx32) (newer boards, too)
1-VCC 11-N.C 21-DQ15 31-A3 41-N.C 51-DQ17 61-DQ24
2-DQ0 12-VCC 22-N.C 32-A4 42-N.C 52-DQ18 62-DQ25
3-DQ1 13-DQ8 23-N.C! 33-A5 43-/OE 53-DQ19 63-DQ26
4-DQ2 14-DQ9 24-N.C 34-A6 44-/W 54-VSS 64-DQ27
5-DQ3 15-DQ10 25-N.C 35-VCC 45-/CAS3 55-DQ20 65-VSS
6-VCC 16-DQ11 26-N.C 36-VSS 46-/CAS2 56-DQ21 66-DQ28
7-DQ4 17-VCC 27-/RAS 37-A7 47-/CAS1 57-DQ22 67-DQ29
8-DQ5 18-DQ12 28-A0 38-A8 48-/CAS0 58-DQ23 68-DQ30
9-DQ6 19-DQ13 29-A1 39-A9 49-N.C 59-VSS 69-DQ31
10-DQ7 20-DQ14 30-A2 40-N.C 50-DQ16 60-N.C 70-VSS
Notes: Pin23 must NC or VSS. In the PSone, /OE is wired to GND.
Datasheet for K4Q153212M-JC60 does exist (the chip supports 27ns Hyper Page
mode access, which seems to be used for DMA).
SEC KM48V514BJ-6 (DRAM 512Kx8) (four pieces = 512Kx32 = 2Mbyte)
1-VCC 5-DQ3 9-A9 13-A3 17-A5 21-NC 25-DQ5
2-DQ0 6-NC 10-A0 14-VCC 18-A6 22-/OE 26-DQ6
3-DQ1 7-/W 11-A1 15-GND 19-A7 23-/CAS 27-DQ7
4-DQ2 8-/RAS 12-A2 16-A4 20-A8 24-DQ4 28-GND
Datasheet for KM48V514B-6 and BL-6 exist (though none for BJ-6). The chips
support 25ns Hyper Page mode access.
EliteMT M11B416256A-35J (256K x 16bit) (40pin SOJ, PM-41 boards)
Nippon Steel NN514256ALTT-50 (256K x 16bit) (40pin TSOP-II, PU-23 boards)
Toshiba TC51V4260DJ-70 (40pin, PU-8 board) (PseudoSRAM)
1-5.0V 6-5.0V 11-NC 16-A0 21-VSS 26-A8 31-I/O8 36-I/O12
2-I/O0 7-I/O4 12-NC 17-A1 22-A4 27-/OE 32-I/O9 37-I/O13
3-I/O1 8-I/O5 13-/WE 18-A2 23-A5 28-/CASH 33-I/O10 38-I/O14
4-I/O2 9-I/O6 14-/RAS 19-A3 24-A6 29-/CASL 34-I/O11 39-I/O15
5-I/O3 10-I/O7 15-NC 20-5.0V 25-A7 30-NC 35-VSS 40-VSS
Note: SPU-RAM supply can be 3.5V (PU-8), or 5.0V (PU-22 and PM-41).
Note: The /CASL and /CASH pins are shortcut with each other on the mainboard,
both wired to the /CAS pin of the SPU (ie. always accessing 16bit data at
once).
Note: The TSOP-II package (18mm length, super-flat and with spacing between pin
10/11 and 30/31) is used on PU-23 boards. The pinouts and connections are
identical for SOJ and TSOP-II.
Note: Nippon Steels NN514256-series is normally 256Kx4bit, nethertheless, for
some bizarre reason, their 256Kx16bit chip is marked "NN514256ALTT"... maybe
that happened accidently in the manufacturing process.
Note: The PM-41(2) board has on-chip RAM in the SPU (no external memory chip).
"HM62W256LFP-7T" (SRAM 32Kx8) (PCB bottom side) (PU-8)
"SONY CXK5V8257BTM" 32Kx8 SRAM (PU-18)
1-A14 4-A6 7-A3 10-A0 13-D2 16-D4 19-D7 22-/OE 25-A8 28-VCC
2-A12 5-A5 8-A2 11-D0 14-GND 17-D5 20-/CS 23-A11 26-A13
3-A7 6-A4 9-A1 12-D1 15-D3 18-D6 21-A10 24-A9 27-/WE
Used only on older boards (eg. PU-8, PU-18), newer boards seem to have that RAM
included in the 208pin SPU chip.
Samsung KM4132G271BQ-10 (128K x 32bit x 2 Banks, Synchronous Graphic RAM) 1MB
Samsung K4G163222A-PC70 (256K x 32bit x 2 Banks, Synchronous Graphic RAM) 2MB
1-DQ3 13-DQ19 25-/WE 37-N.C 49-A6 61-DQ9 73-VDDQ 85-VSS 97-DQ0
2-VDDQ 14-VDDQ 26-/CAS 38-N.C 50-A7 62-VSSQ 74-DQ24 86-N.C 98-DQ1
3-DQ4 15-VDD 27-/RAS 39-N.C 51-A8 63-DQ10 75-DQ25 87-N.C 99-VSSQ
4-DQ5 16-VSS 28-/CS 40-N.C 52-N.C 64-DQ11 76-VSSQ 88-N.C 100-DQ2
5-VSSQ 17-DQ20 29-A9(BA) 41-N.C 53-DSF 65-VDD 77-DQ26 89-N.C
6-DQ6 18-DQ21 30-NC(GND) 42-N.C 54-CKE 66-VSS 78-DQ27 90-N.C
7-DQ7 19-VSSQ 31-A0 43-N.C 55-CLK 67-VDDQ 79-VDDQ 91-N.C
8-VDDQ 20-DQ22 32-A1 44-N.C 56-DQM1 68-DQ12 80-DQ28 92-N.C
9-DQ16 21-DQ23 33-A2 45-N.C 57-DQM3 69-DQ13 81-DQ29 93-N.C
10-DQ17 22-VDDQ 34-A3 46-VSS 58-NC 70-VSSQ 82-VSSQ 94-N.C
11-VSSQ 23-DQM0 35-VDD 47-A4 59-VDDQ 71-DQ14 83-DQ30 95-N.C
12-DQ18 24-DQM2 36-N.C 48-A5 60-DQ8 72-DQ15 84-DQ31 96-VDD
Newer boards often have 2MB VRAM installed (of which only 1MB is used,
apparently the 2MB chips became cheaper than the 1MB chips). At the chip side,
the only difference is that Pin30 became an additional address line (that,
called A8, and, accordingly, the old A8,A9 pins were renamed to A9,A10). At the
mainboard side, the connection is exactly the same for both 1MB and 2MB chips;
Pin30 is grounded on both PU-23 boards (which typically have 1MB) and PM-41
boards (which typically have 2MB).
Note: The PM-41(2) board has on-chip RAM in the GPU (no external memory chip).
The "should-be" CPU clock is 33.868800 Hz (ie. the 44100Hz CDROM/Audio clock,
multiplied by 300h). However, the different PSX/PSone boards are using
different oscillators, multipliers and dividers, which aren't exactly reaching
that "should-be" value. The PSone are using a single oscillator for producing
CPU/GPU clocks, and for producing the TV/color signal:
For PAL, Fsc=4.43361875MHz (5^6*283.75Hz+25Hz) --> 4*Fsc=17.734MHz
For NTSC, Fsc=3.579545MHz (4.5*455/572 MHz) --> 4*Fsc=14.318MHz
Clock Multiplier/Divider
1 53MHz ;17.734MHz*3 = 53.202 MHz (?)
2 GND
3 X1 17.734MHz
4 X2 17.734MHz
5 67MHz ;17.734MHz*3*2*7/11 = 67.711636 MHz (?)
6 4.4Mhz ;17.734MHz/4 = 4.4335MHz (?) ;via 2K2 to IC502.pin15
7 3.5V
8 3.5V
Unknown. Uses a 14.318MHz oscillator, so multiply/divide factors must be
somehow different.
3*3*7*5/2/11 = 14.3181818
3*3*7*7*100 = 44100
The "optimal" conversion would be (hardware is barely able to do that):
14.3181818 * 3*7*11*64 / (5*5*5*5*5) = 67.737600
So, maybe it's doing
14.3181818 * 2*2*13/11 ... or so?
PU-7 and PU-8 boards are using three separate oscillators:
X101: 67.737MHz (div2 = CPU Clock = 33.8685MHz) (div600h = 44.1kHz audio)
X201: 53.20MHz (GPU Clock) (div12 = PAL color clock)
X302: 4.000MHz (for CDROM SUB CPU)
PU-18 does have same X101/X201 as above, but doesn't seem to have X302.
PU-7 and PU-8 boards are using three separate oscillators:
X101: 67.737MHz (div2 = CPU Clock = 33.8685MHz) (div600h = 44.1kHz audio)
X201: 53.69MHz (GPU Clock) (div15 = NTSC color clock)
X302: 4.000MHz (for CDROM SUB CPU)
PU-20 works more like PSone (a single oscillator, and CY2081 SL-500 divider)
+7.5V Used to generate other voltages and CDROM/Joypad/MemoryCard/Expansion
+5.0V Used for Multiout, IC405, and IC502, and IC602
+3.5V Used for most ICs, and for Joypad/MemoryCard/Expansion
+3.48V Used for SPU and CDROM
GND Ground, shared for all voltages
There are a lot of SMD elements marked FBnnn, these are NOT fuses (at least
they don't seem to blow-up whatever you do). The actual fuses are marked PSnnn,
found near the power switch and near the power socket.
1 +7.5V
2 GND
3 +5.0V (used for Multiout, IC405, and IC502)
Called "LP29851MX-3.5" in service manual.
1 VIN 5.0V (in)
2 GND GND
3 ON/OFF 5.0V (in)
4 NOISE ?
5 VOUT 3.48V (out)
IC002 IC003 Expl.
2 2 connected to Q002 (reset input?)
5 5 connected via capacitor to GND
6 1 reset-output (IC002=wired to /RES, IC003: via Q004 to /RES)
7 - 7.5V
4 3 GND
1,3,8 4 NC
/RES is connected via 330 ohm to GPU/CPU, and via 5K6 SPU/IC722/IC304.
Note: Either IC002 or IC003/Q004 can be installed on PM-41 boards. Most or all
boards seem to contain IC003/Q004.
Note: PSX consoles have something similar on the Power Supply boards (IC101:
M51957B).
1 1IN+
2 1IN-
3 FEEDBACK
4 DTC
5 CT
6 RT
7 GND
8 C1
9 E1
10 E2
11 C2
12 VCC
13 OUTPUT CTRL
14 REF
15 2IN-
16 2IN+
x +7.5V
y +3.5V
z REG
1 Brown 7.5V (actually 7.69V)
2 Red GND Ground
3 Orange 3.5V (actually 3.48V)
4 Yellow GND Ground
5 White STAND-BY (3.54V, always ON, even if power switch is off)
6 Blue GND Ground
7 Magenta /RES Reset input (from power-on logic and reset button)
Purpose of the standy-by voltage is unknown... maybe to expansion port?
1 Brown 7.5V (actually 7.92V or so) (ie. higher than in PSone)
2 Red GND Ground
3 Orange 3.5V (actually 3.53V or so) (ie. quite same as PSone)
4 Yellow GND Ground
5 White /RES Reset input (from power-on logic and reset button)
1 /IRQ10 (/IRQ10)
2 /ACK (/IRQ7)
3 /JOY2
4 7.5V (or actually 7.92V)
5 /JOY1
6 DAT
7 GND
8 CMD
9 3.5V
10 CLK
Case: "SONY, CONTROLLER, Sony Computer Entertainment Inc. H"
Case: "SCPH-1080 Made in China"
PCB: "CMK-PIHB /\, CFS8121-200010-01"
U?: 32pin "(M), SC401800, FB C37B, JSJD520C" (Motorola) (TQFP-32 package)
U?: 14pin "BA10339F, 528 293" (Quad Comparator) (/ACK,JOYDAT,and reset or so)
X?: 3pin "4.00G1f" (on PCB bottom side)
Z1: 2pin z-diode or so (on PCB bottom side) (+1.7V VREF for BA10339F)
CN?: 7pin cable to controller port (plus shield; but not connected to PCB)
C1 2pin to GND and R5
C2 2pin capacitor for power supply input (between +3.5V and GND)
C3 2pin between BA.pin8 and (via R6) BA.pin15
R1 2pin 1M ohm (for X1)
R2 2pin 2.7K
R3 2pin 8xK ohm?
R4 2pin 100K
R5 2pin 22K ohm
R6 2pin 56K ohm
RN1 8pin 4x200 ohm (/JOYn,JOYCMD,JOYCLK)
RN2 8pin 4x22K ohm (pull-ups for button bit0..3)
RN3 8pin 4x22K ohm (pull-ups for button bit12..15)
RN4 8pin 4x22K ohm (pull-ups for button bit8..11)
RN5 8pin 4x22K ohm (pull-ups for button bit4..7)
PSX.1 -------brown---- PAD.2 JOYDAT
PSX.2 -------orange--- PAD.6 JOYCMD
PSX.3 --- NC +7.5V
PSX.4 -------black---- PAD.3 GND
PSX.5 -------red------ PAD.4 +3.5V
PSX.6 -------yellow--- PAD.5 /JOYn
PSX.7 -------blue----- PAD.7 JOYCLK
PSX.8 --- NC /IRQ10
PSX.9 -------green---- PAD.1 /ACK
PSX.Shield --shield--- NC (cable is shielded but isn't connected in joypad)
1 Bit14 SW-X
2 Bit13 SW-O
3 Bit12 SW-/\
4 Bit11 SW-R1 (via cable pin1, white wire)
5 Bit10 SW-L1 (via cable pin1, white wire)
6 Bit9 SW-R2 (via cable pin3, black wire)
7 Bit8 SW-L2 (via cable pin3, black wire)
8 via BA10339F.pin7 to cn.2 JOYDAT (PSX.1)
---
9 via RN1 (200 ohm) to cn.5 /JOYn (PSX.6)
10 via RN1 (200 ohm) to cn.6 JOYCMD (PSX.2)
11 via RN1 (200 ohm) to cn.7 JOYCLK (PSX.7)
12 GND to cn.3 (PSX.4)
13 Bit7 SW-LEFT
14 Bit6 SW-DOWN
15 Bit5 SW-RIGHT
16 via BA10339F.pin5 to cn.1 /ACK (PSX.9)
---
17 Bit4 SW-UP
18 Bit3 SW-START
19 Bit2 (HI) (would be R3 on Analog Pads) ;\unused, but working button inputs
20 Bit1 (HI) (would be L3 on Analog Pads) ;/(each fitted with a RN2 pullup)
21 Bit0 SW-SELECT
22
23
24 wired to SC401800.pin25
---
25 wired to SC401800.pin24
26 4.00MHz'a
27 4.00MHz'b
28 +3.5V to cn.4 (PSX.5)
29 wired to SC401800.pin32, and via 22K ohm to +3.5V, and to BA.14
30
31 Bit15 SW-[]
32 wired to SC401800.pin29
1 OUT2 CN.2 JOYDAT (PSX.1)
2 OUT1 CN.1 /ACK (PSX.9)
3 VCC +3.5V
4 -IN1 +1.7V VREF via Z1 to GND
5 +IN1 CXD.16 /ACK
6 -IN2 +1.7V VREF via Z1 to GND
7 +IN2 CXD.8 JOYDAT
---
8 -IN3 +1.7V VREF via Z1 to GND
9 +IN3 C3,R3,R4
10 -IN4 C1 to +3.5V
11 +IN4 GND
12 GND GND
13 OUT4 NC ??
14 OUT3 CXD.29/32
This applies for two controller versions:
SCPH-1150 Analog Pad with Single Rumble Motor (japan only)
SCPH-1180 Analog Pad without Rumble Motor
Both are using the same PCB, and the same SD657 chip. The difference is that
the motor, transistors, and some resistors aren't installed in SCPH-1180.
Case "SONY, ANALOG, CONTROLLER, SonyCompEntInc. A, SCPH-1150 MADE IN CHINA"
PCB1 "DD1P09A" (mainboard with digital buttons)
PCB2 "DD1Q14A" (daughterboard with analog joysticks)
PCB3 "DD1Q15A-R" (daughterboard with R-1, R-2 buttons) (J3)
PCB4 "DD1Q15A-L" (daughterboard with L-1, L-2 buttons) (J2)
U1 42pin "SD657, 9702K3006" (2x21pins, L=17.8mm, W=7mm, W+Pins=11mm)
U2 3pin "DR, 4.Z"
Q1 3pin "BQ03" or so (motor post-amp)
Q2 3pin "S6","SG","9S" or so (motor pre-amp)
Y1 3pin "400CMA"
CN1 8pin cable to PSX controller port
CN2 8pin ribbon cable to analog-joystick daughterboard (not so robust cable)
J1 2pin wires to rumble motor (in left handle) (digital, on/off)
J2 3pin ribbon cable to L-1, L-2 button daughterboard
J3 3pin ribbon cable to R-1, R-2 button daughterboard
LED1 4pin red/green LED (optics without mirror)
D1,D2 diodes
plus resistors/capacitors
CN1 (cable to PSX controller port) (same for SCPH-1150 and SCPH-1200)
PSX.1 -------brown---- PAD.2 JOYDAT
PSX.2 -------orange--- PAD.6 JOYCMD
PSX.3 -------magenta-- PAD.8 +7.5V
PSX.4 -------black---- PAD.3 GND
PSX.5 -------red------ PAD.4 +3.5V
PSX.6 -------yellow--- PAD.5 /JOYn
PSX.7 -------blue----- PAD.7 JOYCLK
PSX.8 --- NC /IRQ10
PSX.9 -------green---- PAD.1 /ACK
PSX.Shield --shield--- NC (cable is shielded but isn't connected in joypad)
CN2 (ribbon cable to analog-joystick daughterboard) (SCPH-1150)
8 +3.5V to POT pins
7 Button L3 pins A,C
6 GND to POT pins and Button L3/R3 pins B,D
5 Button R3 pins A,C
4 Axis R_Y middle POT pin (SD657.18)
3 Axis R_X middle POT pin (SD657.17)
2 Axis L_Y middle POT pin (SD657.16)
1 Axis L_X middle POT pin (SD657.15)
J3 (ribbon cable to R-1, R-2 button daughterboard) (SCPH-1150)
1 (red) R1
2 (gray) GND
3 (gray) R2
J2 (ribbon cable to L-1, L-2 button daughterboard) (SCPH-1150)
1 (red) L1
2 (gray) GND
3 (gray) L2
J1 wires to small rumble motor (SCPH-1150)
1 (red) +7.5V
2 (black) Q1
U1 42pin "SD657, 9702K3006"
1 NC?
2 NC?
3 /RESET? (U2.3)
4 OSC
5 OSC
6 BUTTON Bit3 START SW1
7 BUTTON Bit2 R3 (via CN2.5)
8 BUTTON Bit1 L3 (via CN2.7)
9 BUTTON Bit0 SELECT SW3
10 GND
11 BUTTON Bit7 LEFT SW4
12 BUTTON Bit6 DOWN SW5
13 BUTTON Bit5 RIGHT SW6
14 BUTTON Bit4 UP SW7
15 Analog Axis L_X (via CN2.1)
16 Analog Axis L_Y (via CN2.2)
17 Analog Axis R_X (via CN2.3)
18 Analog Axis R_Y (via CN2.4)
19 NC?
20 3.5V
21 3.5V
---
22 BUTTON Bit15 [] SW11
23 BUTTON Bit14 >< SW10
24 BUTTON Bit13 () SW9
25 BUTTON Bit11 R1 (via J3.1)
26 BUTTON Bit12 /\ SW8
27 BUTTON Bit10 L1 (via J3.1)
28 BUTTON Bit9 R2 (via J3.3)
29 BUTTON Bit8 L2 (via J3.3)
30 PSX.2/CN1.6 JOYCMD orange (via 220 ohm R14)
31 PSX.1/CN1.2.JOYDAT brown (via 22 ohm R13 and diode D2)
32 PSX.7/CN1.7 JOYCLK blue (via 220 ohm R12)
33 PSX.6/CN1.5./JOYn yellow (via 220 ohm R11)
34 LED.GREEN (LED.4)
35 LED.RED (LED.3)
36 MOTOR (via 4.7Kohm R8 to Q2, then via Q1 to motor)
37 NC?
38 NC?
39 PSX.9/CN1.1./ACK green (via 22 ohm R10)
40 NC?
41 MODE SW2 (analog button)
42 GND
U2 (probably reset signal related)
1 from 3.5V (via R1,D1,R2)
2 to U1.3 (/RESET?) (U2.rear contact = same as U2.pin2)
3 GND
Q1 "BQ03" or so (motor post-amp)
1 Q2.2 (via 1Kohm R7)
2 to Motor (-)
3 GND
Q2 "S6","SG","9S" or so (motor pre-amp)
1 SD657.36 (via 4.7Kohm R8)
2 Q1.1 (via 1Kohm R7) (and via 100Kohm R13 to GND)
3 3.5V
Left/Single Motor (SCPH-1150)
27.5mm Total Length (18.5mm Motor, 2mm Axis, 7mm Weight/block)
12.0mm Width/Diameter (of Weight, and of Motor at flat side)
Case "SONY, ANALOG, CONTROLLER, SonyCompEntInc. H, SCPH-1200 MADE IN CHINA"
PCB1 "01, /\YG-H2, (r)RU" (mainboard with digital buttons)
PCB2 "M-29-01, YG-H3, (r)RU" (daughterboard with analog joysticks)
PCB3 "E, /\YG-H2, (r)RU, 01" (daughterboard with R-1, R-2 buttons) (J1)
PCB4 "01, W, /\YG-H2, (r)RU" (daughterboard with L-1, L-2 buttons) (J2)
U1 44pin "SONY, CXD8771Q 4A03, JAPAN 9840 HAL, 148896"
U2 4pin ",\\ 29" (PST9329) (System Reset with 2.9V detection voltage)
U3 8pin "2904, 8346G, JRC" (NJM2904) (Dual Operational Amplifier)
Q1 3pin ".Y S'" (big transistor for big M1 rumble motor)
Q2 3pin "Z" (small transistor for small M2 rumble motor)
Y1 3pin "800CMLX" or so (hides underneath of the CN2 ribbon cable)
CN1 8pin cable to PSX controller port
CN2 8pin ribbon cable to analog-joystick daughterboard
J1 3pin ribbon cable to R-1, R-2 button daughterboard
J2 3pin ribbon cable to L-1, L-2 button daughterboard
M1 2pin wires to left/big rumble motor (analog, slow/fast)
M2 2pin wires to right/small rumble motor (digital, on/off)
ZD1,ZD2 some Z-diodes
D1,D2 diodes near M1,M2 motors (these diodes aren't installed)
LED1 red analog mode LED (with transparent optics/light direction mirror)
plus resistors/capacitors
Note: There's also a different SCPH-1200 revision, which having a smaller
mainboard with analog joysticksonboard, plus a single sided PCB for the digital
buttons (that is, similar to SCPH-110, but with the single sided PCB instead of
membrane foil).
CN1 (cable to PSX controller port) (same for SCPH-1150 and SCPH-1200)
PSX.1 -------brown---- PAD.2 JOYDAT
PSX.2 -------orange--- PAD.6 JOYCMD
PSX.3 -------magenta-- PAD.8 +7.5V
PSX.4 -------black---- PAD.3 GND
PSX.5 -------red------ PAD.4 +3.5V
PSX.6 -------yellow--- PAD.5 /JOYn
PSX.7 -------blue----- PAD.7 JOYCLK
PSX.8 --- NC /IRQ10
PSX.9 -------green---- PAD.1 /ACK
PSX.Shield --shield--- NC (cable is shielded but isn't connected in joypad)
CN2 (ribbon cable to analog-joystick daughterboard) (SCPH-1200)
1 +3.5V to POT pins
2 Button L3 pins C,D
3 GND to POT pins and Button L3/R3 pins A,B
4 Button R3 pins C,D
5 Axis R_Y middle POT pin (CXD.20)
6 Axis R_X middle POT pin (CXD.19)
7 Axis L_X middle POT pin (CXD.21)
8 Axis L_Y middle POT pin (CXD.22)
J1 (ribbon cable to R-1, R-2 button daughterboard) (SCPH-1200)
1 (red) R1
2 (gray) GND
3 (gray) R2
J2 (ribbon cable to L-1, L-2 button daughterboard) (SCPH-1200)
1 (red) L1
2 (gray) GND
3 (gray) L2
M1 wires to big rumble motor (SCPH-1200)
+ (red) Q1.E
- (black) GND
M2 wires to small rumble motor (SCPH-1200)
+ (red) +7.5V
- (black) Q2.C
U1 SONY CXD8771Q
1 PSX.7/CN1.7 JOYCLK (via 220 ohm R2)
2 via R10 to U3.3 (for big M1 motor)
3 via R15 to Q2.B (for small M2 motor)
4 GND
5 BUTTON Bit15 []
6 BUTTON Bit14 ><
7 BUTTON Bit13 ()
8 BUTTON Bit12 /\
9 BUTTON Bit11 R1 (via J1.1)
10 BUTTON Bit10 L1 (via J2.1)
11 BUTTON Bit9 R2 (via J1.3)
---
12 BUTTON Bit8 L2 (via J2.3)
13 GND
14 U2.Pin3 (reset)
15 Y1'a
16 Y1'b
17 GND
18 +3.5V
19 Analog Axis R_X via CN2.6
20 Analog Axis R_Y via CN2.5
21 Analog Axis L_X via CN2.7
22 Analog Axis L_Y via CN2.8
---
23 GND
24 GND
25 GND
26 GND
27 GND
28 +3.5V
29 BUTTON Bit0 SELECT
30 BUTTON Bit1 L3 (via CN2.2)
31 BUTTON Bit2 R3 (via CN2.4)
32 BUTTON Bit3 START
33 BUTTON Bit4 UP
---
34 BUTTON Bit5 RIGHT (aka spelled RIHGT on the PCB)
35 BUTTON Bit6 DOWN
36 BUTTON Bit7 LEFT
37 PSX.6/CN1.5./JOYn (via 220 ohm R1)
38 ANALOG BUTTON
39 GND
40 +3.5V
41 /LED (to LED1, and from there via 300 ohm R6 to +3.5V)
42 PSX.9/CN1.1./ACK (via 22 ohm R5)
43 PSX.1/CN1.2.JOYDAT (via 22 ohm R3)
44 PSX.2/CN1.6 JOYCMD (via 220 ohm R4)
U2 PST9329 (System Reset with 2.9V detection voltage)
1 NC GND
2 GND GND
3 Vout U1.14
4 VCC +3.5V
U3 NJM2904 (Dual Operational Amplifier)
1 A.OUTPUT Q1.B (big motor M1 transistor)
2 A.INPUT- to R11/R12
3 A.INPUT+ to R10/R17
4 GND PSX.4/CN1.3 GND
5 B.INPUT+ GND
6 B.INPUT- NC?
7 B.OUTPUT NC?
8 VCC PSX.3/CN1.8 +7.5V
Q1 (transistor for big M1 motor)
E M1+
B U3.1 (NJM2904)
C +7.5V
Q2 (transistor for small M2 motor)
E GND
B via 1K ohm R15 to U1.3 (CXD), and via 100K ohm R16 to GND
C M2-
Left/Large Motor (SCPH-1200)
24.0mm Total Length (12.0mm Motor, 2.5mm Axis, 9.5mm Weight/plates)
24.0mm Diameter (Motor), 20.0mm Diameter (Weight/plates)
Right/Small Motor (SCPH-1200)
25.4mm Total Length (18.7mm Motor, 2mm Axis, 4.7mm Weight/plates)
12.0mm Width/Diameter (of Weight, and of Motor at flat side)
Case "SONY, ANALOG CONTROLLER, SonyCompEntInc. A, SCPH-110 MADE IN CHINA"
PCB1 "SA1Q22A, <PF-LP>, KPC, 7694V-0" (mainboard with joysticks onboard)
PCB2 "..." (membrane/foil with digital buttons)
U1 44pin "SD707, 039 107"" (4x11pin)
Q1 3pin "KA" (big transistor for left/big M1 rumble motor)
Q2 3pin "LG" (small transistor for right/small M2 rumble motor)
D1 2pin diode (for large motor, reference Z-diode with pull-up?)
D2 3pin dual-diode (R5/IRQ7 to GND and R3/DAT to GND)
CN1 9pin cable to PSX controller port
J1 16pin ribbon cable from membrane/foil
M1 2pin wires to left/big rumble motor (analog, slow/fast)
M2 2pin wires to right/small rumble motor (digital, on/off)
LED1 2pin red analog mode LED (with long legs, without mirror/optics)
plus resistors/capacitors
CN1 (cable to PSX controller port)
1 +3.5V (logic supply)
2 GND3 (logic supply)
3 /IRQ7
4 /SEL
5 CMD
6 DAT
7 CLK
8 GND7 (motor supply)
9 +7.5V (motor supply)
J1 (ribbon cable with membrane/foil with digital buttons)
1 BUTTON Bit8 L2
2 BUTTON Bit10 L1
3 BUTTON Bit4 UP
4 BUTTON Bit5 RIGHT
5 BUTTON Bit6 DOWN
6 BUTTON Bit7 LEFT
7 GND3
8 ANALOG BUTTON
9 BUTTON Bit0 SELECT
10 BUTTON Bit3 START
11 BUTTON Bit15 SQUARE []
12 BUTTON Bit14 CROSS ><
13 BUTTON Bit13 CIRCLE ()
14 BUTTON Bit12 TRIANGLE /\
15 BUTTON Bit11 R1
16 BUTTON Bit9 R2
M1 wires to left/big rumble motor (SCPH-110)
1 (red) Q1
2 (black) GND (via some ohm)
M2 wires to right/small rumble motor (SCPH-110)
1 (red) +7.5V
2 (black) Q2
1 via R9/Q2 to M2 (right/small) (digital 0V=off, 3V=on)
2 via "JP1" to LED (330 ohm)
3 +3.5V
4 BUTTON Bit2 R3
5 vr2 RX (lt/rt)
6 vr1 RY (up/dn)
7 vr4 LX (lt/rt)
8 vr3 LY (up/dn)
9 BUTTON Bit1 L3
10 GND3
11 GND7
---
12 via Q1 to M1 (left/large) (1V=off, 6V=fast)
13 via D1/R7 to M1 (left/large) (6.7V)
14 +7.5V
15 +7.5V
16 BUTTON Bit8 L2
17 BUTTON Bit10 L1
18 BUTTON Bit4 UP
19 BUTTON Bit5 RIGHT
20 BUTTON Bit6 DOWN
21 BUTTON Bit7 LEFT
22 GND3
---
23 BUTTON Bit9 R2
24 BUTTON Bit11 R1
25 BUTTON Bit12 TRIANGLE /\
26 BUTTON Bit13 CIRCLE ()
27 BUTTON Bit14 CROSS ><
28 BUTTON Bit15 SQUARE []
29 BUTTON Bit3 START
30 BUTTON Bit0 SELECT
31 ANALOG BUTTON
32 NC
33 +3.5V
---
34 GND3
35 NC
36 via R5 to /IRQ7
37 via R1 to /SEL
38 via R4 to CMD
39 via R3 to DAT
40 via R2 to CLK
41 +7.5V
42 +7.5V
43 GND7
44 GND7
VR1..VR4 -- analog inputs
R1..R5 -- signals to/from psx
R6 ?
R7 M1
R8
R9
R10
JP1
C1 3.5V to GND3 (22uF)
C2 3.5V to GND3 (U1)
C3 VR1 to GND3
C4 VR2 to GND3
C5 VR3 to GND3
C6 VR4 to GND3
C7 M2+ to M2-
C8 M1+ to M1-
C9 M1 related
S5
S6
Left/Large Motor (SCPH-110)
23.0mm Total Length (12.0mm Motor, 3mm Axis, 8.0mm Weight/plates)
24.0mm Diameter (Motor), 20.0mm Diameter (Weight/plates)
Right/Small Motor (SCPH-110)
25.4mm Total Length (18.7mm Motor, 2mm Axis, 4.7mm Weight/plates)
12.0mm Width/Diameter (of Weight, and of Motor at flat side)
M1+ --o---Q1---o--------- U1.12
| | | analog
Left | | C9
Large | | |
| o----o--------- 7.5V
| |
C8 R7
| D1 | 6.7V
o---|>|--o--------- U1.13
|
M1- --o------------------ GND7
D1 is probably a Z-diode with R7 as pull-up, creating a reference/source
voltage at U1.13 for the analog output at U1.12.
M2+ --o------------------ 7.5V
|
Right | o-------o--R9-- U1.1
Small | | | on/off
C7 | R10
| | |
M2- --o---Q2------o------ GND7
___ ___ ____
axis | | / \ \
__/___ ______| m | __.____________|__. | |
/__/__/ | | w | | | | | | axis | | |
| |/ weight |___| |___| \___/_/ \___/____/
\____/ weight motor
http://www.nicolaselectronics.be/reverse-engineering-the-playstation-g-con45/
PCB "DNP-0500A, NPC10300, namco, CMK-P3X"
U1 44pin "NAMCO103P, 1611U1263, JAPAN 9847EAI, D0489AAF"
U2 8pin "7071, 8C19" (=BA7071F, Sync Separator IC with AFC)
XTAL 2pin "CSA 8.00WT"
PS1 3pin Light sensor with metal shielding
J1 9pin Connector for 9pin cable to PSX controller and GunCon plugs
plus resistors and capacitors, and A1,A2,B1,B2,T1,T2 wires to buttons
PCB "DN-P-0501"
DIP Button (with black T1,T2 wires) (trigger)
PCB "DN-P-0502"
Button A (with red A1,A2 wires) (left side)
Button B (with white B1,B2 wires) (right side)
Other Components
Lens (20mm)
Cable Pinouts
J1.Pin1 green PSX.Controller.Pin5 +3.5V
J1.Pin2 brown PSX.Controller.Pin4 GND
J1.Pin3 black PSX.Controller.Pin9 /ACK/IRQ7
J1.Pin4 red PSX.Controller.Pin6 /JOYn
J1.Pin5 yellow PSX.Controller.Pin1 JOYDAT
J1.Pin6 orange PSX.Controller.Pin2 JOYCMD
J1.Pin7 blue PSX.Controller.Pin7 JOYCLK
J1.Pin8 gray GunCon shield (GND)
J1.Pin9 white GunCon composite video
N/A PSX.Controller.Pin3 +7.5V
N/A PSX.Controller.Pin8 /IRQ10
N/A PSX.Controller Shield
U1 "NAMCO103P" Pinouts (44pin, arranged as 4x11pin)
1 GND 12 SYNC (from U2) 23 3.5V 34 SW1 (A)
2 GND 13 3.5V 24 3.5V 35 3.5V
3 GND 14 3.5V 25 3.5V 36 3.5V
4 GND 15 SW3 (TRIGGER) 26 GND 37 SW2 (B)
5 GND 16 JOYCLK (J1.Pin7 via 220 ohm R7) 27 GND 38 3.5V
6 GND 17 3.5V 28 GND 39 3.5V
7 GND 18 JOYCMD (J1.Pin6 via 220 ohm R8) 29 GND 40 LIGHT (from PS1)
8 GND 19 JOYDAT (J1.Pin5 via 0 ohm R10) 30 - 41 GND
9 - 20 /JOYn (J1.Pin4 via 220 ohm R9) 31 GND 42 GND
10 GND 21 /ACK/IRQ7 (J1.Pin3 via 0 ohm R11) 32 GND 43 OSC 8MHz
11 GND 22 GND 33 GND 44 OSC 8MHz
U2 "7071" Pinouts (=BA7071F, Sync Separator IC with AFC) (2x4pin)
1 VIN = SYNC.IN from J1.Pin9 Composite Video (via C5/C6/C7/R6)
2 HD_OUT = NC
3 GND = GND
4 PD_OUT = NC
5 HOSC_R = via 100K to GND
6 VCC = 3.5V
7 VD_OUT = NC
8 SYNC_OUT = SYNC.OUT to U1.pin12 (with R4 pull-up)
Case "SONY, MULTITAP, SonyComputerEntertainmentInc, SCPH-1070 MADE IN CHINA"
PCB1 "SONY 1-659-343-11" (mainboard with Slot A,B, ICs, X1, PSX-cable)
PCB2 "SONY 1-711-414-11" (daughterboard with Slot C,D)
IC? 64pin "SONY JAPAN, CXD103, -166Q, 550D66E" (smd/back side)
IC02 8pin "7W14, 5K" some tiny SMD chip (for JOYCLK) (smd/back side)
X1 2pin "4.00G CMj" oscillator (front side)
J34 2pin fuse or 1 ohm resistor or so (for +3.5V input) (front side)
Jxx 2pin normal wire bridges (except: J34 is NOT a wire) (front side)
Cables from Multitap PCB1 to PCB2:
1pin black wire Shield/GND (lower edge)
1pin black wire Shield/GND (upper edge)
2x8pin red/gray ribbon cable (side edge)
2x2pin red/gray ribbon cable (lower edge)
2pin red/gray ribbon cable (upper middle) (gray=+3.3V, red=+7.5V)
plus a bunch of SMD capacitors and around 70 SMD resistors.
PSX.1 -------brown------ TAP.1 JOYDAT ;via 47 ohm (R57) to CXD.35
PSX.2 -------orange----- TAP.2 JOYCMD ;via 220 ohm (R58) to CXD.37
PSX.3 -------magenta---- TAP.3 +7.5V ;directly to +7.5V on JOY/CARD's
PSX.4 -------black------ TAP.4 GND ;directly to GND
PSX.5 -------red-------- TAP.5 +3.5V ;via 1 ohm or so (J34) to +3.3V
PSX.6 -------yellow----- TAP.6 /JOYn ;via 220 ohm (R59) to CXD.46
PSX.7 -------blue------- TAP.7 JOYCLK ;via 220 ohm (R60) to IC02.pin6
PSX.8 -------gray------- TAP.8 /IRQ10 ;via 47 ohm (R02/R16/R30/R44) to JOY's
PSX.9 -------green------ TAP.9 /ACK ;via 47 ohm (R61) to CXD.51
PSX.Shield --shield----- TAP.shielding.plate (GND)
1 JOYDAT Via 47 ohm (R11/R25/R38/R5x) to CXD.18/29/60/5 (and to JOY slot)
2 JOYCMD Via 220 ohm (R10/R24/R39/R52) to CXD.19/30/62/6
3 +7.5V Directly to PSX.3
4 GND Directly to PSX.4
5 +3.3V Via J34 to PSX.5 (+3.5V)
6 /JOYn Via 220 ohm (R09/R2x/Rxx/R51) to CXD.11/22/52/61
7 JOYCLK Via 220 ohm (R08/R2x/Rxx/R50) to CXD.33/33/47/47
9 /ACK Via 47 ohm (R07/R2x/Rxx/R49) to CXD.12/21/45/64
1 JOYDAT Via 47 ohm (R06/Rxx/R34/R5x) to CXD.18/29/60/5 (and to CARD slot)
2 JOYCMD Via 220 ohm (R05/R19/R35/R5x) to CXD.17/28/59/4
3 +7.5V Directly to PSX.3
4 GND Directly to PSX.4
5 +3.3V Via 1 ohm or so (J34) to PSX.5 (+3.5V)
6 /JOYn Via 220 ohm (R04/R18/R32/R4x) to CXD.16/20/55/63
7 JOYCLK Via 220 ohm (R03/R17/R31/R45) to CXD.15/23/56/2
8 /IRQ10 Via 47 ohm (R02/R16/R30/R44) to PSX.8
9 /ACK Via 47 ohm (R01/R15/R29/R43) to CXD.13/27/54/7
Shield Directly to Shield/GND
1
2
3
4 GND
5
6 via 220 ohm (R60) to PSX.7 (JOYCLK)
7 to CXD.Pin48
8 +3.3V, aka via 1 ohm (J34) to PSX.5 (+3.5V)
1 via to 10K (R63) to +3.3V, and via C13 to GND (probably power-on reset)
2 JOY.D.7.JOYCLK
3
4 JOY.D.2.JOYCMD
5 JOY/CARD.D.1.JOYDAT
6 CARD.D.2.JOYCMD
7 JOY.D.9./ACK
8 4MHz X1/C12
9 4MHz X1/C11
10 GND
11 CARD.A.6./JOYn
12 CARD.A.9./ACK
13 JOY.A.9./ACK
14
15 JOY.A.7.JOYCLK
16 JOY.A.6./JOYn
17 JOY.A.2.JOYCMD
18 JOY/CARD.A.1.JOYDAT
19 CARD.A.2.JOYCMD
---
20 JOY.B.6./JOYn
21 CARD.B.9./ACK
22 CARD.B.6./JOYn
23 JOY.B.7.JOYCLK
24
25 GND
26 +3.3V
27 JOY.B.9./ACK
28 JOY.B.2.JOYCMD
29 JOY/CARD.B.1.JOYDAT
30 CARD.B.2.JOYCMD
31 GND
32
---
33 CARD.A/B.7.JOYCLK
34
35 PSX.1.JOYDAT
36
37 PSX.2.JOYCMD
38
39
40
41
42 GND
43
44 GND
45 CARD.C.9./ACK
46 PSX.6./JOYn
47 CARD.C/D.7.JOYCLK
48 IC02.Pin7.PSX.JOYCLK
49
50
51 PSX.9./ACK
---
52 CARD.C.6./JOYn
53
54 JOY.C.9./ACK
55 JOY.C.6./JOYn
56 JOY.C.7.JOYCLK
57 GND
58 +3.3V
59 JOY.C.2.JOYCMD
60 JOY/CARD.C.1.JOYDAT
61 CARD.D.6./JOYn
62 CARD.C.2.JOYCMD
63 JOY.D.6./JOYn
64 CARD.D.9./ACK
The "SONY CXD8732AQ" chip is installed on memory cards with "SPC02K1020B"
boards, however, the text layer on the board says that it's an "LC86F8604A"
chip. So, the CXD8732AQ is most probably a standard LC86F8604A chip (more on
that below) with a Sony Memory Card BIOS ROM on it.
The "SONY CXD8732AQ" comes in a huge 64pin package, but it connects only to:
5 = /IRQ7 (via 22 ohm) 2 = /RESET (from U2)
6 = JOYCLK (via 220 ohm) 30,31 = CF1,CF2 (12 clock pulses per 2us)
7 = /JOYn (via 220 ohm) 14,16,25,32,38,39,61 = 3.5V (via 3.3 ohm)
12 = JOYCMD (via 220 ohm) 8,15,28,29 = GND
13 = JOYDAT (via 22 ohm) All other pins = Not connected
Aside from that chip, the board additionally contains some resistors,
capacitors, z-diodes (for protection against too high voltages), a 6MHz
oscillator (for the CPU), and a 5pin reset generator (on the cart edge
connector, the supply pins are slightly longer than the data signal pins, so
when inserting the cartridge, power/reset gets triggered first; the 7.5V supply
pin is left unconnected, only 3.5V are used).
Caution: The "diagonal edge" at the upper-left of the CXD8732AQ chip is Pin 49
(not pin 1), following the pin numbers on the board (and the Sanyo datasheet
pinouts), pin 1 is at the lower-left.
8bit CPU with 132Kbyte EEPROM, 4Kbyte ROM, 256 bytes RAM, 2 timers, serial
port, and general purpose parallel ports. The 132K EEPROM is broken into 128K
plus 4K, the 4K might be internally used by the CPU, presumably containing the
BIOS (not too sure if it's really containing 4K EEPROM plus 4K ROM, or if it's
meant to be only either one).
1=P40/A0 9=P13 17=TP0 25=VDD 33=A11 41=NC 49=A7 57=NC
2=/RES 10=P14 18=TP1 26=NC 34=A9 42=NC 50=A6 58=NC
3=TEST2 11=P15 19=TP2 27=NC 35=A8 43=NC 51=A5 59=NC
4=TEST1 12=P16 20=TP3 28=NC 36=A13 44=NC 52=A4 60=NC
5=P10 13=P17 21=TP4 29=VSS 37=A14 45=A17 53=NC 61=NC61
6=P11 14=/CE 22=TP5 30=CF1 38=/WE 46=A16 54=NC 62=P43/A3
7=P12 15=A10 23=TP6 31=CF2 39=VDD 47=A15 55=NC 63=P42/A2
8=VSS 16=/OE 24=TP7 32=VDD 40=EP 48=A12 56=NC 64=P41/A1
Ports P10..P17 have multiple functions (I/O port, data bus, serial, etc):
P10/DQ0/SEPMOD P12/DQ2/FSI0 P14/DQ4 P16/DQ6/SI0/FSTART
P11/DQ1/SCLK0/FSCLK P13/DQ3 P15/DQ5 P17/DQ7/SO0/FRW
In March 1998, Sanyo has originally announced the LC86F8604A as an 8bit CPU
with "2.8V FLASH, achieved for the first time in the industry", however,
according to their datasheet, what they have finally produced is an 8bit CPU
with "3.5V EEPROM". Although, maybe the 3.5V EEPROM version came first, and the
2.8V FLASH was announced to be a later low-power version of the old chip;
namely, otherwise, it'd be everyones guess what kind of memory Sony used in
memory cards before 1998?
For the actual pin-outs of the cart-edge connector, see
Pinouts - Controller Ports and Memory-Card Ports
GND (BOARD) --------- GND (SUBD.18-25, CNTR.19-30)
A16 (ROM.2) --------- SLCT (SUBD.13, CNTR.13) ;\
A17 (ROM.30) --------- PE (SUBD.12, CNTR.12) ; 4bit.dta.out
A18 (ROM.31) --------- /ACK (SUBD.10, CNTR.10) ;
A19 (ROM.1) --------- BUSY (SUBD.11, CNTR.11) ;/
/RESET ---|>|--- /INIT (SUBD.16, CNTR.31) ;-reset.in
D0..D7 (74HC541) --------- DATA (SUBD.2-9, CNTR.2-9) ;\
Y0..Y7 (74HC541) --------- D0..D7 (ROM.13-15,17-21) ; 7bit.dta.in, and
/OE1 (74HC541.1) --------- /EXP (CPU.98) ; 1bit.dta.clk.in
/OE2 (74HC541.19) --------- /OE (ROM.24) ;
GND (74HC541.10) --------- GND (BOARD) ;
VCC (74HC541.20) --------- +5V (BOARD) ;/
A0..A19 (ROM) --------- A0..A19 (EPROM)
D0..D7 (ROM) --------- D0..D7 (EPROM)
/BIOS (CPU.97)--------- /CS (EPROM.22)
/OE (ROM.24) --------- /OE (EPROM.24)
+5V (BOARD) --------- VCC (EPROM.32)
GND (BOARD) --------- GND (EPROM.16)
/CS (ROM.22) --/cut/-- /BIOS (CPU.97)
/CS (ROM.22) --------- +5V (BOARD) (direct, or via 100k ohm)
SPU.Pin42 "data" -------|>|------ CPU.Pin149 (A20)
SPU.Pin5 "sync" ---------------- IC723.Pin17
The nocash PSX bios outputs the "data" signal on the A20 address line, so
(aside from the BIOS chip) one only needs to install a 1N4148 diode and two
wires to unlock the CDROM. For more variants, see:
CDROM Protection - Chipless Modchips
32pin socket for EPROM
EPROM (or FLASH)
74HC541 (8-bit 3-state noninverting buffer/line driver)
1N4148 diode (for reset signal)
1N4148 diode (for optional "modchip" feature)
36pin Centronics socket for printer cable (or 25pin dsub)
The required BIOS is contained in no$psx (built-in in the no$psx.exe file), the
Utility menu contains a function for creating a standalone ROM-image (file
PSX-XBOO.ROM in no$psx folder; which can be then burned to FLASH or EPROM).
______ ______ ____ ____
| \/ | | \/ |
A19,VPP12 | 1 32 | VCC6 /OE1 |1 20| VCC
A16 | 2 31 | A18,/PGM D0 |2 19| /OE2
A15 | 3 30 | A17 D1 |3 18| Y0
A12 | 4 29 | A14 D2 |4 17| Y1
A7 | 5 28 | A13 D3 |5 74541 16| Y2
A6 | 6 27 | A8 D4 |6 15| Y3
A5 | 7 26 | A9,IDENT12 D5 |7 14| Y4
A4 | 8 25 | A11 D6 |8 13| Y5
A3 | 9 24 | /OE,VPP12 D7 |9 12| Y6
A2 | 10 23 | A10 GND |10 11| Y7
A1 | 11 22 | /CE,(/PGM) |__________|
A0 | 12 21 | D7
D0 | 13 20 | D6
D1 | 14 19 | D5
D2 | 15 18 | D4
GND | 16 17 | D3
|______________|
Instead of the above internal mod, the nocash kernel clone can be also
installed on cheat devices, which do also include DB25 connectors for parallel
port uploads, too.
For DB25 parallel port uploads, do the following mods to the cheat device:
- Datel: use the FiveWire mod to get it parallel port compatible
- Xplorer: simply wire DB25./INIT to EXP./RESET (with diode, if needed)
The PSX hardware is more or less capable of generating both PAL and NTSC
signals. However, it's having the bad habbit to do this automatically depending
on the game's frame rate. And worse, it's doing it regardless of whether the
board is having matching oscillators installed (eg. a PAL board in 60Hz mode
will produce NTSC encoding with faulty NTSC color clock).
color encoding PAL NTSC
color clock 4.43361875MHz 3.579545MHz
frame rate 50Hz 60Hz
RGB cables don't rely on composite PAL/NTSC color encoding, and thus don't need
any color mods (except, see the caution on GNDed pins for missing
53.20MHz/53.69MHz oscillators below).
These consoles have 17.734MHz (PAL) or 14.318MHz (NTSC) oscillators with
constant dividers, so the color clock will be always constant, and one does
only need to change the color encoding:
/PAL (IC502.pin13) ---/cut/--- /PAL (GPU.pin157)
/PAL (IC502.pin13) ----------- GND (PAL) or VCC (NTSC)
This forces the console to be always producing the desired composite color
format (regardless of whether the GPU is in 50Hz or 60Hz mode).
That works for NTSC games on PAL consoles (and vice-versa). However, it won't
work for NTSC consoles with PAL TV Sets (for that case it'd be easiest to
install an extra oscillator, as done on older consoles).
These consoles have 53.20MHz (PAL) or 53.69MHz (NTSC) oscillators and the GPU
does try to change the clock divider depending on the frame rate (thereby
producing a nonsense clock signal that's neither PAL nor NTSC). Best workaround
is to install an extra 4.43361875MHz (PAL) or 3.579545MHz (NTSC) oscillator
(with internal amplifier, ie. in 4pin package, which resembles DIP14, hence the
pin 1,7,8,14 numbering):
GPU ------------------/cut/--- CXA1645M.pin6 SCIN
GPU ------------------/cut/--- CXA1645M.pin7 /PAL
Osc.pin14 VCC ---------------- CXA1645M.pin12 VCC (5V)
Osc.pin7 GND ---------------- CXA1645M.pin1 GND
Osc.pin8 OUT ---------------- CXA1645M.pin6 SCIN
Osc.pin1 NC --
GND (PAL) or VCC (NTSC) ------ CXA1645M.pin7 /PAL
Caution: Many mainboards have solder pads for both 53.20MHz and 53.69MHz
oscillators, the missing oscillator is either GNDed or shortcut with the
installed oscillator (varies from board to board, usually via 0 ohm resistors
on PCB bottom side). If it's GNDed, remove that connection, and instead have it
shortcut with the installed oscillator.
Alternately, instead of the above mods, one could also install the missing
oscillator (and remove its 0 ohm resistor), so the board will have both
53.20MHz and 53.69MHz installed; that will produce perfect PAL and NTSC signals
in 50Hz and 60Hz mode accordingly, but works only if the TV Set recognizes both
PAL and NTSC signals.
External 4.433MHz/3.579MHz osciallors won't be synchronized with the GPU frame
rate (normally you don't want them to be synchronized, but there's some small
risk that they might get close to running in sync, which could result in static
or crawling color artifacts).
For the CXA1645 chip modded to a different console region, one should also
change one of the resistors (see datasheet), there's no noticable difference on
the TV picture though.
Some kernel versions contain regions checks (additionally to the SCEx check),
particulary for preventing NTSC games to run on PAL consoles, or non-japanese
games on japanese consoles. Some PAL modchips can bypass that check (by
patching the region byte in BIOS). Expansions ROMs or nocash kernel clone could
be also used to avoid such checks.