Difference between revisions of "RETRO-65C816"

From Land Boards Wiki
Jump to navigation Jump to search
Line 574: Line 574:
 
=== J8 Pin Mapping Card to FPGA pins - Left connector ===
 
=== J8 Pin Mapping Card to FPGA pins - Left connector ===
  
* Cyclone 10 notes
+
* [http://land-boards.com/blwiki/index.php?title=QMTECH_Cyclone_10CL006_FPGA_Card#U8 Cyclone 10] notes
 
** Cannot place output or bidirectional pin J8IO[35] in input pin location M16
 
** Cannot place output or bidirectional pin J8IO[35] in input pin location M16
 
** Cannot place output or bidirectional pin J8IO[36] in input pin location M15
 
** Cannot place output or bidirectional pin J8IO[36] in input pin location M15

Revision as of 09:48, 29 August 2022

RETRO-65C816 Rev 1

RETRO-65C816 REV2 FRONT.png

Features

65C816 CPU

65C816 Datasheet

Features 65C816.PNG

Block Diagram

BlockDiagram 65C816.PNG

Timing

TimingDiagram 65C816.PNG

TimingTable 65C816.PNG

Connectors

RETRO-65C816 REV2 CAD.PNG

H1 - 5V

RETRO-65C816 H1 J4 USB-B PWR.PNG

  • Install jumper to power card from USB

H2 - VREG I/O Conn

RETRO-65C816 H2 3P3V PWR PCB.PNG

RETRO-65C816 H2 3P3V PWR.PNG

  • Power to J1

J1 - I/O Connector

RETRO-65C816 REV2 J1 IO.PNG

  • 50-pin I/O Connector

J2 - Keyboard

RETRO-65C816 J2 P2 PS2 PCB.PNG

RETRO-65C816 J2 P2 PS2.PNG

  • 1x4 header

J3 - 6 FPGA pins

RETRO-65C816 REV2 J3 IO6.PNG

RETRO-65C816 REV2 J3 SCHEM IO6.PNG

J4 - USB B Serial/Power

RETRO-65C816 H1 J4 USB-B PWR.PNG

  • Serial to/from FTDI
  • Can power the card

J5 - 5V/GND

RETRO-65C816 J5 5V PWR PCB.PNG

RETRO-65C816 J5 5V PWR.PNG

  • 5V/ground for external 5V logic

J7 Pin Mapping Card to FPGA pins - Right connector

U7 PIN EP4CE15 EP4CE55 5CEFA2 CYC 10 FUNCTION U7 PIN EP4CE15 EP4CE55 5CEFA2 CYC 10 FUNCTION
1 GND GND GND GND GND 2 GND GND GND GND GND
3 3.3V 3.3V 3.3V 3.3V 3.3V 4 3.3V 3.3V 3.3V 3.3V 3.3V
5 GND GND GND GND GND 6 GND GND GND GND GND
7 PIN_R1 PIN_R1 PIN_AA2 PIN_G1 PS2CLK 8 PIN_R2 PIN_R2 PIN_AA1 PIN_G2 PS2DAT
9 PIN_P1 PIN_P1 PIN_Y3 PIN_D1 SRAMA4 10 PIN_P2 PIN_P2 PIN_W2 PIN_C2 SRAMA5
11 PIN_N1 PIN_N1 PIN_U1 PIN_B1 SRAMA3 12 PIN_N2 PIN_N2 PIN_U2 PIN_F5 SRAMA6
13 PIN_M1 PIN_M1 PIN_N1 PIN_D3 SRAMA2 14 PIN_M2 PIN_M2 PIN_N2 PIN_C3 SRAMA7
15 PIN_J1 PIN_J1 PIN_L1 PIN_B3 SRAMA1 16 PIN_J2 PIN_J2 PIN_L2 PIN_A3 SRAM0E_N
17 PIN_H1 PIN_H1 PIN_G1 PIN_B4 SRAMA0 18 PIN_H2 PIN_H2 PIN_G2 PIN_A4 SRAMA8
19 PIN_F1 PIN_F1 PIN_E2 PIN_E5 SRAMCS_N 20 PIN_F2 PIN_F2 PIN_D3 PIN_A2 SRAMD7
21 PIN_E1 PIN_E1 PIN_C1 PIN_D4 SRAMD0 22 PIN_D2 PIN_D2 PIN_C2 PIN_E6 SRAMD6
23 PIN_C1 PIN_C1 PIN_G6 PIN_C6 SRAMD1 24 PIN_C2 PIN_C2 PIN_H6 PIN_D6 SRAMD5
25 PIN_B1 PIN_B1 PIN_G8 PIN_B5 SRAMD2 26 PIN_B2 PIN_B2 PIN_H8 PIN_A5 SRAMD4
27 PIN_B3 PIN_B3 PIN_F7 PIN_B6 SRAMD3 28 PIN_A3 PIN_A3 PIN_E7 PIN_A6 SRAMA9
29 PIN_B4 PIN_B4 PIN_D6 PIN_B7 SRAMWE_N 30 PIN_A4 PIN_A4 PIN_C6 PIN_A7 SRAMA10
31 PIN_C4 PIN_C4 PIN_E9 PIN_D8 SRAMA19 32 PIN_C3 PIN_C3 PIN_D9 PIN_C8 SRAMA11
33 PIN_B5 PIN_B5 PIN_B5 PIN_D9 SRAMA18 34 PIN_A5 PIN_A5 PIN_A5 PIN_C9 SRAMA12
35 PIN_B6 PIN_B6 PIN_B6 PIN_B8 SRAMA17 36 PIN_A6 PIN_A6 PIN_B7 PIN_A8 SRAMA13
37 PIN_B7 PIN_B7 PIN_A7 PIN_B9 SRAMA16 38 PIN_A7 PIN_A7 PIN_A8 PIN_A9 SRAMA14
39 PIN_B8 PIN_B8 PIN_A9 PIN_E9 N/C 40 PIN_A8 PIN_A8 PIN_A10 PIN_E8 SRAMA15
41 PIN_B9 PIN_B9 PIN_B10 PIN_E11 CARDDET 42 PIN_A9 PIN_A9 PIN_C9 PIN_E10 N/C
43 PIN_B10 PIN_B10 PIN_G10 PIN_A10 USBRX/FPGATX 44 PIN_A10 PIN_A10 PIN_F10 PIN_B10 USBCTS/FPGARTS
45 PIN_B13 PIN_B13 PIN_C11 PIN_D12 USBTX/FPGARX 46 PIN_A13 PIN_A13 PIN_B11 PIN_D11 UBSRTS/FPGACTS
47 PIN_B14 PIN_B14 PIN_B12 PIN_B11 REDHI 48 PIN_A14 PIN_A14 PIN_A12 PIN_A11 REDMID
49 PIN_B15 PIN_B15 PIN_E12 PIN_B12 REDLO 50 PIN_A15 PIN_A15 PIN_D12 PIN_A12 GRNHI
51 PIN_B16 PIN_B16 PIN_D13 PIN_B13 GRNMID 52 PIN_A16 PIN_A16 PIN_C13 PIN_A13 GRNLO
53 PIN_B17 PIN_B17 PIN_B13 PIN_B14 BLUHI 54 PIN_A17 PIN_A17 PIN_A13 PIN_A14 BLULO
55 PIN_B18 PIN_B18 PIN_A15 PIN_D14 HSYNC 56 PIN_A18 PIN_A18 PIN_A14 PIN_C14 VSYNC
57 PIN_B19 PIN_B19 PIN_B15 PIN_B16 SDCS_N 58 PIN_A19 PIN_A19 PIN_C15 PIN_A15 SD_MOSI
59 PIN_B20 PIN_B20 PIN_C16 PIN_C16 SD_SCK 60 PIN_A20 PIN_A20 PIN_B16 PIN_C15 SD_MISO
61 GND GND GND GND GND 62 GND GND GND GND GND
63 VIN VIN VIN VIN VIN 64 VIN VIN VIN VIN VIN

J8 Pin Mapping Card to FPGA pins - Left connector

  • Cyclone 10 notes
    • Cannot place output or bidirectional pin J8IO[35] in input pin location M16
    • Cannot place output or bidirectional pin J8IO[36] in input pin location M15
    • Cannot place output or bidirectional pin J8IO[57] in input pin location E16
    • Cannot place output or bidirectional pin J8IO[58] in input pin location E15
U8 PIN EP4CE15 EP4CE55 5CEFA2 10C1006 J1 Function U8 PIN EP4CE15 EP4CE55 5CEFA2 10C1006 J1 Function
1 GND GND GND GND N/C 2 GND GND GND GND N/C
3 3.3V 3.3V 3.3V 3.3V J1-1 4 3.3V 3.3V 3.3V 3.3V J1-2
5 GND GND GND GND N/C 6 GND GND GND GND N/C
7 PIN_AA13 PIN_AA13 PIN_AA14 PIN_R9 N/C CPUE 8 PIN_AB13 PIN_AB13 PIN_AA13 PIN_T9 N/C CPURES*
9 PIN_AA14 PIN_AA14 PIN_AA15 PIN_R10 J1-4 CPUMX 10 PIN_AB14 PIN_AB14 PIN_AB15 PIN_T10 J1-3 CPUCLK
11 PIN_AA15 PIN_AA15 PIN_Y15 PIN_R11 J1-6 CPUBE 12 PIN_AB15 PIN_AB15 PIN_Y13 PIN_T11 J1-5 CPUNMIB
13 PIN_AA16 PIN_AA16 PIN_AB18 PIN_R12 J1-8 CPURWB 14 PIN_AB16 PIN_AB16 PIN_AB17 PIN_T12 J1-7 CPUIRQB
15 PIN_AA17 PIN_AA17 PIN_Y7 PIN_N9 J1-10 CPUVDA 16 PIN_AB17 PIN_AB17 PIN_Y16 PIN_M9 J1-9 CPUABORTB
17 PIN_AA18 PIN_AA18 PIN_AA18 PIN_M10 J1-12 CPUVPA 18 PIN_AB18 PIN_AB18 PIN_AA17 PIN_P9 J1-11 CPURDY
19 PIN_AA19 PIN_AA19 PIN_AA20 PIN_P11 J1-14 CPUVPB 20 PIN_AB19 PIN_AB19 PIN_AA19 PIN_N11 J1-13 CPUMLB
21 PIN_AA20 PIN_AA20 PIN_Y20 PIN_R13 I1-16 22 PIN_AB20 PIN_AB20 PIN_Y19 PIN_T13 J1-15
23 PIN_Y22 PIN_Y22 PIN_AB21 PIN_T15 J1-18 24 PIN_Y21 PIN_Y21 PIN_AB20 PIN_T14 J1-17
25 PIN_W22 PIN_W22 PIN_AA22 PIN_N12 J1-20 26 PIN_W21 PIN_W21 PIN_AB22 PIN_M11 J1-19
27 PIN_V22 PIN_V22 PIN_W22 PIN_R14 J1-22 28 PIN_V21 PIN_V21 PIN_Y22 PIN_N13 J1-21
29 PIN_U22 PIN_U22 PIN_Y21 PIN_N14 J1-24 30 PIN_U21 PIN_U21 PIN_W21 PIN_P14 J1-23
31 PIN_R22 PIN_R22 PIN_U22 PIN_P16 J1-26 32 PIN_R21 PIN_R21 PIN_V21 PIN_R16 J1-25
33 PIN_P22 PIN_P22 PIN_V20 PIN_N16 J1-28 34 PIN_P21 PIN_P21 PIN_W19 PIN_N15 J1-27
35 PIN_N22 PIN_N22 PIN_U21 PIN_M16 (Note) J1-30 36 PIN_N21 PIN_N21 PIN_U20 PIN_M15 (Note) J1-29
37 PIN_M22 PIN_M22 PIN_R22 PIN_L16 J1-32 38 PIN_M21 PIN_M21 PIN_T22 PIN_L15 J1-31
39 PIN_L22 PIN_L22 PIN_P22 PIN_P15 J1-34 40 PIN_L21 PIN_L21 PIN_R21 PIN_M12 J1-33
41 PIN_K22 PIN_K22 PIN_T20 PIN_L14 J1-36 42 PIN_K21 PIN_K21 PIN_T19 PIN_L13 J1-35
43 PIN_J22 PIN_J22 PIN_P16 PIN_K16 J1-38 44 PIN_J21 PIN_J21 PIN_P17 PIN_K15 J1-37
45 PIN_H22 PIN_H22 PIN_N20 PIN_K12 J1-40 46 PIN_H21 PIN_H21 PIN_N21 PIN_J12 J1-39
47 PIN_F22 PIN_F22 PIN_M21 PIN_J14 J1-42 48 PIN_F21 PIN_F21 PIN_M20 PIN_J13 J1-41
49 PIN_E22 PIN_E22 PIN_M18 PIN_K11 J1-44 50 PIN_E21 PIN_E21 PIN_N19 PIN_J11 J1-43
51 PIN_D22 PIN_D22 PIN_L18 PIN_G11 J1-46 52 PIN_D21 PIN_D21 PIN_L19 PIN_F11 J1-45
53 PIN_C22 PIN_C22 PIN_M22 PIN_F13 J1-48 54 PIN_C21 PIN_C21 PIN_L22 PIN_F14 J1-47
55 PIN_B22 PIN_B22 PIN_L17 PIN_F10 N/C 56 PIN_B21 PIN_B21 PIN_K17 PIN_F9 N/C
57 PIN_N20 PIN_N20 PIN_K22 PIN_E16 (Note) N/C 58 PIN_N19 PIN_N19 PIN_K21 PIN_E15 (Note) N/C
59 PIN_M20 PIN_M20 PIN_M16 PIN_D16 N/C 60 PIN_M19 PIN_M19 PIN_N16 PIN_D15 N/C
61 GND GND GND GND J1-50 62 GND GND GND GND J1-49
63 +5V +5V +5V +5V J1-50 64 +5V +5V +5V +5V J1-50

P1 - VGA

RETRO-65C816 REV2 P1 VGA.PNG

  • DB-15HD connector
  • 3:3:2 R:G:B

P2 - PS/2 Keyboard

RETRO-65C816 J2 P2 PS2.PNG

  • Purple DIN-6 for PS/2 keyboard

P4 - SD Card

RETRO-65C816 P4 SD-CARD.PNG

Mechanicals

RETRO-65C816 REV2 MECHS CAD.PNG

MultiComp On RETRO-65C816 VHDL Code

References/Notes

...potential for data bus contention during Ø2 low. My solution was two-fold: use VDA and VPA to qualify chip selects, and qualify read-accesses with Ø2. The former assures that an addressed device will not respond to selection until the address bus is truly valid—invalid bus states may occur during the execution of some instructions. The latter assures that a selected device will not drive the data bus when the '816 is presenting A16-A23 on it. This solution doesn't totally eliminate the risk of contention but greatly narrows the window of opportunity for it. The need for more stringent qualifying of D0-D7 would depend on the peripheral silicon on the bus. In the case of POC and the Ø2 rate I'm using (12.5 MHz maximum), everything gets off the data bus before the '816 starts to drive it with the bank address. That would not be the case if I were to increase Ø2 to 20 MHz, however.

Floating the buses with BE creates the odd situation where no valid address exists on A0-A15, which I daresay could cause a device to be selected solely because of a residual charge in bus capacitance. Also, BE floats the RWB signal*, which may trip up other logic that is dependent on RWB always being driven to one state or the other. The most fool-proof solution is the use of a data bus transceiver as you suggested, which is a straightforward method (74AC245 or 74AHC245 recommended if Ø2 will exceed 8 MHz).

Revision History

Rev 2

  • Fixed W65C816 footprint
    • Bigger footprint
    • Moved around a lot of tracks to remove ground trace and use ground plane
  • Changed from 2:2:2 to 3:3:2 bit video (256 colors)
  • Changed J1 pinout to not use 2 input-only J8 pins
  • Shuffled J7 pinout

Rev 1

  • W65C816 footprint is too small for part
    • Used TQFP footprint but part is clearly too big
    • Datasheet does not indicate package detail
    • 0.8mm pitch was OK
  • Works well as RETRO-EP4CE15 replacement
    • PS/2 @5V is good

Videos

Assembly Sheet