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2MB SRAM (1Mx16) On Board (could be limited by Core)<br/>
2MB SRAM (1Mx16) On Board (could be limited by Core)<br/>
128 MB DRAM<br/>
128 MB DRAM (DDR3 (64Mx16)<br/>
Optional 256K RAM expansion module available<br/>
Optional 256K RAM expansion module available<br/>
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CODEC,  
CODEC,  
PWM<br/>
PWM<br/>
SAM2695  
SAM2695<br/>
VS1053b
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1 x Real Time Clock Battery CR2032 (internal)<br/>
1 x Real Time Clock Battery CR2032 (internal)<br/>
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1 x HDMI (digital & analog)<br/>
1 x HDMI (Digital TMDS)<br/>
1 x PS2 (Mouse / External Keyboard)<br/>
1 x PS2 (Mouse / External Keyboard)<br/>
1 x Commodore syle IEC Port<br/>
1 x Commodore style IEC Port<br/>
1 x Headphone 3.5<br/>
1 x Headphone 3.5mm<br/>
1 x RCA Line Out<br/>
1 x RCA Line Out<br/>
1 x virtual Serial Port (available over USB)<br/>
1 x virtual Serial Port (USB-C (1 of 4 Channel))<br/>
1 x Mini-USB Debug Port<br/>
1 x USB-C (1 of 4 Channel) Debug Port<br/>
1 x Power 12V / 2A, 2,5mm Barrel Connector<br/>
1 x Power 12V / 2A, 2,5mm Barrel Connector<br/>
2 x SD Card Slot (1x internal, 1x external)<br/>
2 x SD Card Slot (1x internal, 1x external)<br/>
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Phase 2 - Clock Output
Phase 2 - Clock Output
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=== PS/2 Wiring Diagram for F256Jr ===
[[File:F256 Jr PS2 Wiring Diagram.png|left|thumb|PS/2 Wiring Diagram for F256Jr]]

Latest revision as of 11:51, 1 November 2024

Hardware Overview and Comparison[edit | edit source]

F256Jr

F256K

F256K2

CPU

WDC W65C02S
WDC W65C816S
Foenix FNX6809

WDC W65C02S
WDC W65C816S
Foenix FNX6809


WDC W65C816S
Motorola 6809 (included in the FPGA)

RAM

512 KB

Optional 256K RAM expansion module available

512 KB

Optional 256K RAM expansion module available

2MB SRAM (1Mx16) On Board (could be limited by Core)
128 MB DRAM (DDR3 (64Mx16)
Optional 256K RAM expansion module available

Flash

512 KB
Optional 256K Flash Modules

512 KB
Optional 256K Flash Modules

512 KB Per Context (4x Contexts)
Optional 256K Flash Modules

Graphic Chip

TinyVicky

TinyVicky

Vicky "The Fourth"

Audio

2 x PSG (FPGA Emulation)
2 x SID sockets (Real)

2 x PSG (FPGA Emulation)
2 x SID (FPGA Emulation)
OPL3 (Real)
CODEC

2 x PSG (FPGA Emulation)

2 x SID (FPGA Emulation)
OPL3 (FPGA Emulation)
CODEC, PWM
SAM2695
VS1053b

Connections

1 x DVI (digital & analog)
1 x PS2 (Mouse / External Keyboard)
1 x Commodore syle IEC Port
1 x Headphone 3.5
1 x RCA Line Out
2 x Serial Port Pin-Header
1 x Mini-USB Debug Port
1 x Power 12V / 2A, 2,5mm Barrel Connector
1 x SD Card Slot
2 x Joystick Atari style Pin-Header
1 x PIN-Header onboard for SNES/NES Joystick Connector Box
1 x Memory Expansion Slot (on Top)
1 x JTAG Port for system updates (on bottom)
1 x Wifi Module ESP32 Feather (internal)
1 x Real Time Clock Battery CR2032 (internal)

1 x DVI (digital & analog)
1 x PS2 (Mouse / External Keyboard)
1 x Commodore syle IEC Port
1 x Headphone 3.5
1 x RCA Line Out
1 x Serial Port DB9M / 1 x Serial Pin Header
1 x Mini-USB Debug Port
1 x Power 12V / 2A, 2,5mm Barrel Connector
1 x SD Card Slot
2 x Joystick Atari style DB9 Connector
1 x Mini-DIN9 for SNES/NES Joystick Connector Box
1 x Memory Expansion Slot (on Top)
1 x JTAG Port for system updates (on bottom)
1 x Wifi Module ESP32 Feather (internal)
1 x Real Time Clock Battery CR2032 (internal)

1 x HDMI (Digital TMDS)
1 x PS2 (Mouse / External Keyboard)
1 x Commodore style IEC Port
1 x Headphone 3.5mm
1 x RCA Line Out
1 x virtual Serial Port (USB-C (1 of 4 Channel))
1 x USB-C (1 of 4 Channel) Debug Port
1 x Power 12V / 2A, 2,5mm Barrel Connector
2 x SD Card Slot (1x internal, 1x external)
2 x Joystick Atari style Pin-Header (1 Button + Analog)
1 x PIN-Header onboard for SNES/NES Joystick Connector Box
1 x Memory Expansion Slot (on Top)
1 x Wifi (Wiznet with external antenna connector)
1 x Real Time Clock Battery CR2032 (internal)
1 x Ethernet (Wiznet Ethernet)
2 x MIDI (1x in, 1x out) (optional)

Hardware Details[edit | edit source]

CPU[edit | edit source]

The basic setup of all F256 is the Western Design Center 65C02, a slightly enhanced CMOS version of the very popular 6502 CPUs. The main difference to the 6502 in the 1970s and 1980s is the faster clock speed and the lower power consumption.

The 65C02 can also be replaced with a 65816 as a drop in replacement. Note, however, that while the 65c02 includes the additional Rockwell instructions (BBS/BBR, RMB/SMB), the 65816 does NOT. Therefore, these instructions should be avoided to ensure compatibility with F256 machines using the 65816.

In the F256, the CPU is always clocked at 6,29 MHz (6,293,750 Hz to be exact, derived from 25.175 MHz / 4 as discussed on Discord).

Memory Expansion Slot[edit | edit source]

The memory expansion slot, located on the top right (above the keyboard), is intended primarily for Memory Expansion. It provides Address lines A0 - A17 (for addressing 256K), and active low Chip Select signal (CS_RAM) and Output Enable (OE) for the 256K Expansion address range $100000 - $13FFFF.

Foenix produce a 256K RAM Expansion cartridge, based on the CY7C1010DV33-10VXI, a high speed (10ns) 2Mbit (256K × 8) 3.3V Parallel Static RAM device.

The Expansion Slot itself, is based on a 36 pin PCI-Express x1 socket.

As the Expansion Slot also features pins for IRQ input, PHI2 clock output, and Reset (all signals which are unnecessary for a simple Memory interface), the Expansion Slot is also a candidate for other expansion purposes.

Utilizing the Expansion Slot (for your own purposes)[edit | edit source]

Warning: All signals on the Expansion Port are 3.3V logic level, therefore it is important that no voltage exceeding 3.3V is ever presented on any Expansion Port pin, or you risk damage to your F256!

If interfacing 5V TTL level devices to the Expansion Port, it is essential that level converters are used.

As an example, if directly interfacing to the Expansion Port pins with 5V logic, then you could use the SN74LVC8T245 bi-directional level translator, with the DIR input controlled by the Port's R/Wn signal (for the D0 - D7 bi-directional data bus), and the OEn input controlled by the Port's OEn signal. For the uni-directional Address and Control lines, the DIR input can be hardwired.

Note that the SN74LVC8T245 is designed so that the control pins (DIR and OE) are referenced to Vcca ('A' side voltage supplied). Therefore, a common practice would be to use side A for the internal (3.3V) side of the voltage translation, such that DIR and OE can be directly controlled by the Expansion Port's 3.3V level R/Wn and OEn pins. Side B (and Vccb) then being the 5V TTL level referenced (external facing) side.

As another example, if you were interfacing directly to a 3.3V peripheral chip (e.g. A W65C22 VIA powered by Vdd = 3.3V), but wanting to level translate to 5V TTL levels on the VIA's Port Pins, then an auto-direction level translator like the TI TXS010x series (TXS0108, TXS0104, TXS0101), might be more appropriate.

Note that on the TXS010x series the control pin (OE) is also referenced to Vcca ('A' side voltage supplied). With the TXS series, the 'A' side is actually limited to a 1.4V - 3.6V range, so is inherently the 3.3V internal side. Side 'B' is 1.65V - 5.5V, so is used for the external 5V TTL level referenced (external facing) side. So, if you're tying the active high OE pin of a TXS device (to permanently enable), it should be pulled to Vcca (not Vccb!).

Expansion Slot pin-out[edit | edit source]

Signal

Side B

Side A

Signal

A4

B1

A1

nRST

A3

B2

A2

A5

A2

B3

A3

A6

A1

B4

A4

A7

A0

B5

A5

A8

CS_RAMn

B6

A6

OEn

D0

B7

A7

D7

D1

B8

A8

D6

3V3

B9

A9

GND

GND

B10

A10

3V3

D2

B11

A11

D5

Key Notch

D3

B12

A12

D4

R/Wn

B13

A13

A9

A17

B14

A14

A10

A16

B15

A15

A11

A15

B16

A16

A12

A14

B17

A17

IRQn

A13

B18

A18

PHI2

Expansion Slot - Signal Descriptions[edit | edit source]

Signal

Description

A0 - A17

Address Bus output (for addressing $100000 - $13FFFF Expansion space)

D0 - D7

Data Bus (bi-directional)

RSTn

Reset output (active low)

CS_RAMn

Chip Select output for Address Range $100000 - $13FFFF (active low)

OEn

Output Enable output for a Read from Address Range $100000 - $13FFFF (active low)

3V3

3.3V Power output from the F256 (intended to power Expansion Interface only - Don't Exceed 500ma)

GND

Digital Ground reference

R/Wn

Read/Write ouput (Read = high / Write = low)

IRQn

Interrupt Request input - Internal pull-up and non-shared (compatible with open-drain or totem-pole driven)

PHI2

Phase 2 - Clock Output

PS/2 Wiring Diagram for F256Jr[edit | edit source]

PS/2 Wiring Diagram for F256Jr