LSPC2-A2: Difference between revisions

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[[File:aes_lspc2a2.jpg|right|thumb|LSPC2-A2 graphics chip found in an AES system.]]
{{ChipInfo
|picture=aes_lspc2a2.jpg
|pkg=QFP176
|manu=fujitsu
|date=1992 ?
|gates=
|used_on={{PCB|NEO-AES3-4 board}} {{PCB|MV1FZS}}...
}}


The LSPC chips are only found in cartridge systems.
LSPC2-A2 is the second generation Line SPrite Controller, it is only found in cartridge systems.


*Generates [[S ROM]], [[C ROM]] and [[LO]] ROM addresses based on current display line and VRAM content
*Generates {{Chipname|S ROM}}, {{Chipname|C ROM}} and {{Chipname|LO}} ROM addresses based on current display line and [[VRAM]] content
*Sync output
*Sync output
*{{Chipname|NEO-B1}} control
*68k IRQs
*68k IRQs
*68k VRAM access
*68k VRAM access arbitration


LSPC-A0 chips can be found on early MVS slots and AES systems and work alongside the [[PRO-B0]] chip.  LSPC2-A2 chips are found in second revision systems and work with the [[NEO-B1]] chip.  The chips figure out what's needed from each type of video ROM on each scanline and the data outputs are fed to the Bx chip for pixel output.
First generation {{Chipname|LSPC-A0}} chips can be found in earlier systems.


==Graphics==
=Graphics=


Two separate buses run in parallel to fetch data from [[VRAM]] for rendering the screen. Each bus connects to a pair of 8bit chips, forming a 16bit bus.
Two separate busses run in parallel to fetch data from the two VRAM zones. Each bus connects to a pair of 8-bit RAM chips.


*VRAM 0000-7FFF - 2x 62256/43256 (120ns(?) or faster)
*VRAM $0000~$7FFF - 2x 62256/43256
*VRAM 8000-87FF - 2x 5814/5863/6116 (45ns or faster)
*VRAM $8000~$87FF - 2x 5814/5863/6116


The LSPC arbitrates all VRAM access and allows for 68k access at any time during rendering without display glitches. The interface is slow and data writes are ignored when games write VRAM too quickly, especially with overclocked systems *specifics go here maybe*.
The LSPC arbitrates all VRAM access and allows for {{Chipname|68k}} access at any time during rendering without display glitches if they aren't made too fast. See [[VRAM]] for timing requirements.


It shares a 24bit bus (P0~P23) with the [[NEO-B1]] which goes out to the [[Pinouts#Cartridges|CHA connector]] on the cart slot for addressing [[S ROM]]s, [[C ROM]]s and the on-board [[LO]] ROM.
It shares the 24-bit [[P bus]] (P0~P23) with NEO-B1 and the on-board [[L0 ROM]], which goes out to the [[Pinouts#Cartridges|CHA connector]] on the cart slot for addressing {{Chipname|S ROM}}s and {{Chipname|C ROM}}s.


==IRQ==
=IRQs=


All 3 [[68k interrupts]] are generated by this chip.
All 3 possible [[68k interrupts]] are generated by this chip.


==Pinout==
=Pinout=


(Max size:[[:File:lspc2-a2_pinout.png]])<br>
{{Pinout|LSPC2-A2|640}}
[[File:lspc2-a2_pinout.png|640px]]


OpenOffice Draw file: [[File:lspc2-a2.odg]]
*A1~A3: 68k address bus
 
*D0~D15: 68k data bus
Need to find: 28,87,128,133
*/LSPOE, /LSPWE: Decoded chip read/write
 
*B0~B14: Low VRAM address bus
*A1~A3: [[68k]] address bus
*E0~E15: Low VRAM data bus
*D0~D15: [[68k]] data bus
*/BOE, /BWE: Low VRAM read/write
*B0~B14: VRAM bank 0 address bus
*C0~C10: Fast VRAM address bus
*E0~E15: VRAM bank 0 data bus
*/CWE: Fast VRAM write enable
*C0~C10: VRAM bank 1 address bus
*F0~F15: Fast VRAM data bus
*F0~F15: VRAM bank 1 data bus
*P0~P23: Multiplexed [[P bus]]
*P0~P23: "Internal" multiplexed bus
*1H1: [[Clock]] used by NEO-B1
*/BOE,/BWE: VRAM bank 0 read/write
*/CWE: VRAM bank 1 write enable
*/LSPOE,/LSPWE: Chip read/write (VRAM access,...)
*/RES: Reset
*1H1:
*2H1: S ROM A3
*2H1: S ROM A3
*24M: 24MHz clock input from [[NEO-D0]]
*24M: 24MHz clock input from {{Chipname|NEO-D0}}
*4M: 4MHz clock output to [[Z80]]
*8M: 8MHz clock output to the {{Chipname|YM2610}}
*4M: 4MHz clock output to the {{Chipname|Z80}}
*CA4: C ROM A4
*CA4: C ROM A4
*DIVI/DIVO: Frequency divider ?
*DIVI, DIVO, REF, TSTD: Independant frequency division circuit used by the [[video PLL]]
*DOTA/DOTB,H,LOAD: C ROM multiplexer control, see [[NEO-ZMC2]]
*EVEN1, EVEN2, H, LOAD: C ROM serializer control, see {{Chipname|NEO-ZMC2}}
*EVEN1: Swap signal for dual pixel data
*DOTA, DOTB: Pixel opacity inputs from NEO-ZMC2
*EVEN2: ?
*IP0, IP1: 68k interrupt lines
*INT:
*PK1: Clock to latch C ROM address from P bus
*IP0/IP1: [[68k interrupts]] level
*PK2: Clock to latch S ROM address from P bus
*PK1: Clock to latch C ROM address from multiplexed bus
*RESETP: Reset pulse output
*PK2: Clock to latch S ROM address from multiplexed bus
*SYNC: Video sync signal output
*REF:
*TST: Enable test mode, uses D0~D10 (always tied to ground)
*RESETF:
*VCS: L0 ROM output enable
*SCH?:
*WE1~WE4: Synchronous write enable signals for NEO-B1
*SL1?/SL2?:
*CK1~CK4: Clocks for rendering and output for NEO-B1
*6M: 6MHz clock output to YM2610/cart edge
*SS1, SS2: NEO-B1 control
*6MB: Pixel clock
*SYNC: Video composite sync signal
*TST:
*TST0:
*VCS:
*WE1~WE4,CK1~CK4,SS1,SS2: [[NEO-B1]] communication
*BNKB: Video blanking (for V-blank)
*BNKB: Video blanking (for V-blank)
*CHBL: Video blanking (for H-blank, sent to [[NEO-B1]])
*CHBL: Video blanking (for H-blank, sent to NEO-B1)
*PAL/NTSC: Video mode selection, latched during reset


[[Category:Chips]]
[[Category:Chips]]

Latest revision as of 01:10, 8 July 2018

Package QFP176
Manufacturer
First use 1992 ?
Used on NEO-AES3-4 board MV1FZS...

LSPC2-A2 is the second generation Line SPrite Controller, it is only found in cartridge systems.

  • Generates S ROM, C ROM and LO ROM addresses based on current display line and VRAM content
  • Sync output
  • NEO-B1 control
  • 68k IRQs
  • 68k VRAM access arbitration

First generation LSPC-A0 chips can be found in earlier systems.

Graphics

Two separate busses run in parallel to fetch data from the two VRAM zones. Each bus connects to a pair of 8-bit RAM chips.

  • VRAM $0000~$7FFF - 2x 62256/43256
  • VRAM $8000~$87FF - 2x 5814/5863/6116

The LSPC arbitrates all VRAM access and allows for 68k access at any time during rendering without display glitches if they aren't made too fast. See VRAM for timing requirements.

It shares the 24-bit P bus (P0~P23) with NEO-B1 and the on-board L0 ROM, which goes out to the CHA connector on the cart slot for addressing S ROMs and C ROMs.

IRQs

All 3 possible 68k interrupts are generated by this chip.

Pinout


Edit this pinout

  • A1~A3: 68k address bus
  • D0~D15: 68k data bus
  • /LSPOE, /LSPWE: Decoded chip read/write
  • B0~B14: Low VRAM address bus
  • E0~E15: Low VRAM data bus
  • /BOE, /BWE: Low VRAM read/write
  • C0~C10: Fast VRAM address bus
  • /CWE: Fast VRAM write enable
  • F0~F15: Fast VRAM data bus
  • P0~P23: Multiplexed P bus
  • 1H1: Clock used by NEO-B1
  • 2H1: S ROM A3
  • 24M: 24MHz clock input from NEO-D0
  • 8M: 8MHz clock output to the YM2610
  • 4M: 4MHz clock output to the Z80
  • CA4: C ROM A4
  • DIVI, DIVO, REF, TSTD: Independant frequency division circuit used by the video PLL
  • EVEN1, EVEN2, H, LOAD: C ROM serializer control, see NEO-ZMC2
  • DOTA, DOTB: Pixel opacity inputs from NEO-ZMC2
  • IP0, IP1: 68k interrupt lines
  • PK1: Clock to latch C ROM address from P bus
  • PK2: Clock to latch S ROM address from P bus
  • RESETP: Reset pulse output
  • SYNC: Video sync signal output
  • TST: Enable test mode, uses D0~D10 (always tied to ground)
  • VCS: L0 ROM output enable
  • WE1~WE4: Synchronous write enable signals for NEO-B1
  • CK1~CK4: Clocks for rendering and output for NEO-B1
  • SS1, SS2: NEO-B1 control
  • BNKB: Video blanking (for V-blank)
  • CHBL: Video blanking (for H-blank, sent to NEO-B1)
  • PAL/NTSC: Video mode selection, latched during reset