Difference between revisions of "765 FDC"
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In the CPC the DS1 signal of the FDC is not connected, making it impossible to select floppy drives 2 and 3. The floppy drives 0 and 1 are selected instead. | In the CPC the DS1 signal of the FDC is not connected, making it impossible to select floppy drives 2 and 3. The floppy drives 0 and 1 are selected instead. | ||
− | == | + | == Ready / Disc Changed signal == |
− | The signal on pin34 differs between floppy drives model | + | The signal on pin34 differs between floppy drives model: |
For 3inch floppy drives, it is a "Ready" signal. The RDY signal is sent whenever a disk is installed and rotating at correct speed in the drive. | For 3inch floppy drives, it is a "Ready" signal. The RDY signal is sent whenever a disk is installed and rotating at correct speed in the drive. |
Revision as of 13:01, 7 June 2024
µPD765 - Floppy Disc Controller (used in DDI-1 and CPC 664/6128).
The ports used by Amstrad and compatible interfaces use:
- Port FA7Eh - Floppy Motor On/Off Flipflop
- Port FB7Eh - FDC 765 Main Status Register (read only)
- Port FB7Fh - FDC 765 Data Register (read/write)
The Vortex disc interface uses other ports. See its dedicated wiki page.
Contents
- 1 IC Models used in CPC
- 2 Accessing the FDC 765
- 3 FDC Command Table
- 4 FDC Status Registers
- 5 Motor On/Off Flipflop
- 6 Unconnected Pins
- 7 Ready / Disc Changed signal
- 8 Notes
- 9 FDC Track Format
- 10 Internal details of the chip
- 11 FDC Block Diagram
- 12 Generic System Diagram
- 13 3-inch Floppy Drive Interface
- 14 FDD Block Diagram
- 15 Datasheets
- 16 External links
IC Models used in CPC
More than one manufacturer made 765 compatible ICs. These are the ones known to be used in the CPC by looking at pictures of CPC mainboards.
All should operate almost identically.
- Zilog Z0765A08PSC
- NEC D765AC-2
- NEC D765AC
- UMC UM8272A
The following data seperators are used:
- FDC9216
- SED9420C
Note: The CPC464, CPC472, 464 Plus and GX4000 are not equipped with a FDC chip.
Accessing the FDC 765
The Data Register (Port FB7Fh) is used to write Commands and Parameters, to read/write data bytes, and to receive result bytes. These three operations are called Command-, Execution-, and Result-Phase. The Main Status Register signalizes when the FDC is ready to send/receive the next byte through the Data Register.
a. Command Phase
A command consists of a command byte (eventually including the MF, MK, SK bits), and up to eight parameter bytes.
b. Execution Phase
During this phase, the actual data is transferred (if any). Usually that are the data bytes for the read/written sector(s), except for the Format Track Command, in that case four bytes for each sector are transferred.
c. Result Phase
Returns up to seven result bytes (depending on the command) that are containing status information. The Recalibrate and Seek Track commands do not return result bytes directly, instead the program must wait until the Main Status Register signalizes that the command has been completed, and then it must (!) send a Sense Interrupt State command to 'terminate' the Seek/Recalibrate command.
FDC Command Table
Command Parameters Exm Result Description 02+MF+SK HU TR HD ?? SZ NM GP SL <R> S0 S1 S2 TR HD NM SZ read track 03 XX YY - specify spd/dma 04 HU - S3 sense drive state 05+MT+MF HU TR HD SC SZ LS GP SL <W> S0 S1 S2 TR HD LS SZ write sector(s) 06+MT+MF+SK HU TR HD SC SZ LS GP SL <R> S0 S1 S2 TR HD LS SZ read sector(s) 07 HU - recalib.seek TP=0 08 - - S0 TP sense int.state 09+MT+MF HU TR HD SC SZ LS GP SL <W> S0 S1 S2 TR HD LS SZ wr deleted sec(s) 0A+MF HU - S0 S1 S2 TR HD LS SZ read ID 0C+MT+MF+SK HU TR HD SC SZ LS GP SL <R> S0 S1 S2 TR HD LS SZ rd deleted sec(s) 0D+MF HU SZ NM GP FB <W> S0 S1 S2 TR HD LS SZ format track 0F HU TP - seek track n 11+MT+MF+SK HU TR HD SC SZ LS GP SL <W> S0 S1 S2 TR HD LS SZ scan equal 19+MT+MF+SK HU TR HD SC SZ LS GP SL <W> S0 S1 S2 TR HD LS SZ scan low or equal 1D+MT+MF+SK HU TR HD SC SZ LS GP SL <W> S0 S1 S2 TR HD LS SZ scan high or eq.
Parameter bits that can be specified in some Command Bytes are:
MT Bit7 Multi Track (continue multi-sector-function on other head) MF Bit6 MFM-Mode-Bit (Default 1=Double Density) SK Bit5 Skip-Bit (set if secs with deleted DAM shall be skipped)
Parameter/Result bytes are:
HU b0,1=Unit/Drive Number, b2=Physical Head Number, other bits zero TP Physical Track Number TR Track-ID (usually same value as TP) HD Head-ID SC First Sector-ID (sector you want to read) SZ Sector Size (80h shl n) (default=02h for 200h bytes) LS Last Sector-ID (should be same as SC when reading a single sector) GP Gap (default=2Ah except command 0D: default=52h) SL Sectorlen if SZ=0 (default=FFh) Sn Status Register 0..3 FB Fillbyte (for the sector data areas) (default=E5h) NM Number of Sectors (default=09h) XX b0..3=headunload n*32ms (8" only), b4..7=steprate (16-n)*2ms YY b0=DMA_disable, b1-7=headload n*4ms (8" only)
Format Track: output TR,HD,SC,SZ for each sector during execution phase Read Track: reads NM sectors (starting with first sec past index hole) Read ID: read ID bytes for current sec, repeated/undelayed read lists all IDs Recalib: walks up to 77 tracks, 80tr-drives may need second recalib if failed Seek/Recalib: All read/write commands will be disabled until succesful senseint Senseint: Set's IC if unsuccesful (no int has occured) (until IC=0)
FDC Status Registers
The Main Status register can be always read through Port FB7E. The other four Status Registers cannot be read directly, instead they are returned through the data register as result bytes in response to specific commands.
Main Status Register (Port FB7E)
b0..3 DB FDD0..3 Busy (seek/recalib active, until succesful sense intstat) b4 CB FDC Busy (still in command-, execution- or result-phase) b5 EXM Execution Mode (still in execution-phase, non_DMA_only) b6 DIO Data Input/Output (0=CPU->FDC, 1=FDC->CPU) (see b7) b7 RQM Request For Master (1=ready for next byte) (see b6 for direction)
Status Register 0
b0,1 US Unit Select (driveno during interrupt) b2 HD Head Address (head during interrupt) b3 NR Not Ready (drive not ready or non-existing 2nd head selected) b4 EC Equipment Check (drive failure or recalibrate failed (retry)) b5 SE Seek End (Set if seek-command completed) b6,7 IC Interrupt Code (0=OK, 1=aborted:readfail/OK if EN, 2=unknown cmd or senseint with no int occured, 3=aborted:disc removed etc.)
Status Register 1
b0 MA Missing Address Mark (Sector_ID or DAM not found) b1 NW Not Writeable (tried to write/format disc with wprot_tab=on) b2 ND No Data (Sector_ID not found, CRC fail in ID_field) b3,6 0 Not used b4 OR Over Run (CPU too slow in execution-phase (ca. 26us/Byte)) b5 DE Data Error (CRC-fail in ID- or Data-Field) b7 EN End of Track (set past most read/write commands) (see IC)
Status Register 2
b0 MD Missing Address Mark in Data Field (DAM not found) b1 BC Bad Cylinder (read/programmed track-ID different and read-ID = FF) b2 SN Scan Not Satisfied (no fitting sector found) b3 SH Scan Equal Hit (equal) b4 WC Wrong Cylinder (read/programmed track-ID different) (see b1) b5 DD Data Error in Data Field (CRC-fail in data-field) b6 CM Control Mark (read/scan command found sector with deleted DAM) b7 0 Not Used
Status Register 3
b0,1 US Unit Select (pin 28,29 of FDC) b2 HD Head Address (pin 27 of FDC) b3 TS Two Side (0=yes, 1=no (!)) b4 T0 Track 0 (on track 0 we are) b5 RY Ready (drive ready signal) b6 WP Write Protected (write protected) b7 FT Fault (if supported: 1=Drive failure)
Motor On/Off Flipflop
Writing 00h to Port FA7Eh turns all disk drive motors off, writing 01h turns all motors on. It is not possible to turn on/off the motor of a specific drive separately.
An exception are the Vortex F1-S, F1-D, M1-S and M1-D drives. (How are they different?)
Unconnected Pins
At the end of a successful read or write command, the program should send a Terminal Count (TC) signal to the FDC. However, in the CPC the TC pin isn't connected to the I/O bus, making it impossible for the program to confirm a correct operation. For that reason, the FDC will assume that the command has failed, and it'll return both Bit 6 in Status Register 0 and Bit 7 in Status Register 1 set. The program should ignore this error message.
The CPC doesn't support floppy DMA transfers, and the FDC's Interrupt signal isn't used in the CPC.
In the CPC the DS1 signal of the FDC is not connected, making it impossible to select floppy drives 2 and 3. The floppy drives 0 and 1 are selected instead.
Ready / Disc Changed signal
The signal on pin34 differs between floppy drives model:
For 3inch floppy drives, it is a "Ready" signal. The RDY signal is sent whenever a disk is installed and rotating at correct speed in the drive.
For 3.5inch floppy drives or Gotek, it is a "Disc Changed" signal. The DC signal determines whether the same disk loaded during the previous disk access is still in the drive.
Notes
Before accessing a disk you should issue a recalibrate command to the drive to move the head backwards until the track zero signal from the drive is sensed by the FDC. The FDC will also set its track counter for that drive to zero.
On an 80-track drive you may need to repeat that twice because some models of the FDC stop after 77 steps so if recalibrating from track 78 or above the controller might not reach track zero.
In order to format, read or write a sector on a specific track you must first seek that track using command 0Fh. That'll move the read/write head to the physical track number. If you don't do that then the FDC will attempt to read/write data from/to the current physical track, irrespective of the specified logical track ID.
The track, sector, and head IDs are logical IDs only. These logical IDs are defined when formatting the disk and aren't required to reflect the physical track, sector, or head numbers. However, when reading or writing a sector you must specify the same IDs that have been used during formatting.
Despite the name, a sector with a Deleted data Address Mark (DAM) is not deleted; the DAM-flag is just another ID bit. 'Deleted' sectors can be read/written just like normal data sectors and if that ID bit is specified correctly in the command.
Usually single sided 40-track 3" disk drives are used in CPCs. For practical purposes, 42 tracks could be used — the limit is specific to the drive and some support more tracks but 42 is a good maximum. The FDC controller can be used to control 80-tracks and/or double sided drives, though AMSDOS doesn't support such formats. AMSDOS supports a maximum of two disk drives only.
FDC Track Format
Internal details of the chip
- The decapped photos of Intel 8271, NEC D765 and Intel 8272 chips prove that NEC D765 and Intel 8272 chips are identical.
- From a comment in the hackaday website: "Internally this is a microcoded part with a primative controller of NEC’s own design. Testing microcode embedded in a part can be troublesome. The uPD765 had a few extra gates associated with the DMA Request and DMA Ack pins. Presenting a certain illegal combination here places the part into a “test” mode and allows the sequencer microcode to be output on the normal Data pins. The sequencer microcode is responsible for high level commands such as Read Track, Recalibrate, Format Track, or Write Data. There is a similar test mode for the nano-code array which serializes data at the floppy disk head."
FDC Block Diagram
Generic System Diagram
The Amstrad CPC and Amstrad Plus do not have a DMA controller associated with the FDC. The INT pin of the FDC is not connected either.
3-inch Floppy Drive Interface
FDD Block Diagram
Datasheets
- NEC uPD765 Datasheet preliminary (1979) Media:D765 NEC.pdf Media:UPD765-NEC.pdf Media:Z765A datasheet.pdf - uPD765 disc controller
- Media:Intel 8272A Datasheet preliminary (1982).pdf Intel 8272A Datasheet (1986) - Licensed clone of the uPD765
- Media:FDC9229BT Datasheet.pdf - FDC9229BT data separator
- Media:SED9420.pdf - SED9420C data separator
- Media:DDI Schematic.png - DDI-1 Schematic (disc interface for CPC464)
- Media:Panasonic-3 inch Floppy Drive EME-150.pdf Panasonic EME-150M 3inch Floppy Disk Drive Datasheet
- Media:NEC_FD1035_Floppy.pdf - NEC FD1035 3.5inch Floppy Disk Drive Datasheet (1984)