Family Computer Disk System

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Famicom, FDS RAM adapter, and FDS disk drive
FDS
Company Nintendo
Complexity ASIC
Pinout RP2C33 pinout
BIOS PRG ROM size 8K
PRG RAM capacity 32K
CHR capacity 8K
Disk capacity ~64K per side
Mirroring H or V, switchable
Bus conflicts No
IRQ Yes
Audio Yes

The Famicom Disk System was a Japan-exclusive storage device for the Famicom, designed to reduce Nintendo's cost of making copies of games by switching from mask ROM chips to a storage medium based on Mitsumi's Quick Disk. Unfortunately for Nintendo, it also reduced the pirates' cost of making copies of games. Games are stored on one or multiple disk sides. The FDS BIOS is used to load data from disks to PRG RAM or VRAM, and games can execute from there.

Hardware

The Famicom disk system comes in two parts: The disk drive and the RAM adapter.

The RAM adapter is a special shaped cartridge that contains the RAM chips and an ASIC with DRAM controller, IRQ hardware, sound generation hardware, serial interface for the disk drive, and parallel port. The Disk Drive has to be powered separately and is only connected to the Famicom/NES via a serial cable to the RAM adapter.

Most disk drives contain two motors: a spindle motor that spins the disk at a specific speed, and a stepper motor which moves the read/write head between each circular data track. By comparison, the FDS only contains a single motor that does both at once, so it instead stores the data in a single spiral-shaped track. There is a mechanism that detects when the head reaches the end of the disc and makes it return to the start (making an audible click). Because of this limitation, random access to the disc is impossible, making FDS disk drive data access behave similarly to a reel of tape (but much faster). Data can only be accessed by spinning the disc, waiting for the head to reach the inner edge of the disc, then waiting again until the desired data file is reached. A complete cycle through the entire disc takes about 7 seconds.

The disc drive only contains basic electronics, there is no "intelligence" in it; therefore, the serial interface almost directly represents what is stored on the disc.

Disks

The FDS disk is a modified version of the Mitsumi Quick Disk.

See:

Registers

$402x registers are write-only, $403x registers are read-only

Timer IRQ reload value low ($4020)

7  bit  0
---------
LLLL LLLL
|||| ||||
++++-++++- 8 LSB of timer IRQ reload value

Timer IRQ reload value high ($4021)

7  bit  0
---------
LLLL LLLL
|||| ||||
++++-++++- 8 MSB of timer IRQ reload value

Unlike $4022, $4020 and $4021 are not affected by the $4023.0 (disk registers enabled) flag - the reload value can be altered even when disk registers are disabled.

Timer IRQ control ($4022)

7  bit  0
---------
xxxx xxER
       ||
       |-- Timer IRQ Repeat Flag
       +-- Timer IRQ Enabled

When $4022 is written to with bit 1 (IRQ enabled) set, the reload value is copied into the IRQ's counter. Each CPU clock cycle the counter is decremented by one if the enable flag is set.

When the counter's value is 0 and the IRQ enable flag is on, the following happens on every CPU cycle:

  • An IRQ is generated.
  • The IRQ counter is reset to its reload value (contained in $4020+$4021)
  • If the IRQ repeat flag is NOT set, the IRQ enabled flag is cleared and the counter stops.

Notes:

  • This register is affected by the $4023.0 (Enable disk I/O registers) flag - if disk registers are disabled, it is impossible to start the IRQ counter (writing to $4022 has no effect).
  • Clearing $4023.0 will immediately stop the IRQ counter and acknowledge any pending timer IRQs.
  • Writing to $4022 with bit 1 (IRQ enabled) cleared will stop the IRQ counter and acknowledge any pending timer IRQs.
  • Enabling timer IRQs when the reload value is set to 0 will cause an IRQ immediately. Doing this with the repeat flag enabled will cause an infinite loop of IRQs on every CPU cycle.
  • Since the disk transfer routine also uses IRQs, it's very important to disable timer IRQs before doing any access to the disk.

There are only 3 known ways to acknowledge the timer IRQ:

  • Read $4030
  • Disable timer IRQs by writing to $4022
  • Disable disk registers by writing to $4023

Master I/O enable ($4023)

7  bit  0
---------
xxxx xxSD
       ||
       |+- Enable disk I/O registers
       +-- Enable sound I/O registers

The FDS BIOS writes $00, then $83 to it during reset. The purpose of bit 7 is unknown.

Disabling disk registers disables both disk and timer IRQs.

Write data register ($4024)

The data that this register is programmed with will be the next 8-bit quantity to load into the shift register (next time the byte transfer flag raises), and to be shifted out and appear on pin 5 of the RAM adapter cable (2C33 pin 52).

Writing to this register acknowledges disk IRQs.[citation needed]

FDS Control ($4025)

7  bit  0
---------
IS1B MRTD
|||| ||||
|||| |||+- Drive Motor Control (0: stop, 1: start)
|||| ||+-- Transfer Reset (TODO)
|||| ||      1: Reset transfer timing to the initial state.
|||| |+--- Transfer Mode (0: write; 1: read)
|||| +---- Mirroring (0: vertical; 1: horizontal)
|||+------ CRC Control (1: transfer CRC values)
||+------- Always set to '1'
|+-------- Transfer Behaviour
|            (TODO)
+--------- Interrupt Enabled
             1: Generate an IRQ every time the byte transfer flag is raised.

Notes:

  • The BIOS sets the CRC Control to 1 while handling CRC values. TODO: document CRC handling

An FDS game that wants to change mirroring probably doesn't want to touch motor related bits, so it should do a read-modify-write from the pseudo registers (see FDS BIOS).

Writing to this register acknowledges disk IRQ.

External connector ($4026)

Output of expansion terminal where there's a shutter on the back of the ram card. The outputs of $4026 (open-collector with 4.7K ohm pull-ups (except on bit 7)), are shared with the inputs on $4033.

Disk Status register ($4030)

7  bit  0
---------
IExB xxTD
|| |   ||
|| |   |+- Timer Interrupt (1: an IRQ occurred)
|| |   +-- Byte transfer flag. Set every time 8 bits have been transferred between the RAM adaptor & disk drive (service $4024/$4031). 
|| |       Reset when $4024, $4031, or $4030 has been serviced.
|| +------ CRC control (0: CRC passed; 1: CRC error)
|+-------- End of Head (1 when disk head is on the most inner track)
+--------- Disk Data Read/Write Enable (1 when disk is readable/writeable)

Reading this register acknowledges timer and disk IRQs.

Read data register ($4031)

This register is loaded with the contents of an internal shift register every time the byte transfer flag raises. The shift register receives its serial data via pin 9 of the RAM adapter cable (2C33 pin 51).

Reading this register acknowledges disk IRQs.

Disk drive status register ($4032)

7  bit  0
---------
xxxx xPRS
      |||
      ||+- Disk flag  (0: Disk inserted; 1: Disk not inserted)
      |+-- Ready flag (0: Disk readу; 1: Disk not ready)
      +--- Protect flag (0: Not write protected; 1: Write protected or disk ejected)

Reading this register acknowledges disk IRQs.[citation needed]

External connector read ($4033)

7  bit  0
---------
BIII IIII
|||| ||||
|+++-++++- Input from expansion terminal where there's a shutter on the back of the ram card.
+--------- Battery status (0: Voltage is low; 1: Good).

When a bit is clear in $4026 port it will read back as '0' here (including battery bit) because of how open collector input works. Battery bit should be checked when the motor is on, otherwise it always will be read as 0.

Sound ($4040-$4092)

For details on sound information, see FDS audio.

BIOS

The FDS contains a fixed 8KB BIOS at $E000-FFFF. This controls the Famicom at power-on and reset, dispatches the NMI and IRQ, and offers an API for accessing the data on disk.

See: FDS BIOS

See Also

References