Difference between revisions of "3???" & 5???" Disk Drives"
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Besides the "big" brands' disk drives for the Amstrad CPC, there were also user solutions and garage company made disk drives for the Amstrad CPC. | Besides the "big" brands' disk drives for the Amstrad CPC, there were also user solutions and garage company made disk drives for the Amstrad CPC. | ||
− | + | These usually came without controller and own DOS, so in order to use the full capacity of such drives, you had to replace the built-in AMSDOS with a DOS like ParaDOS or a patched AMSDOS. | |
− | These usually came without | + | But even without a special DOS taking use of the higher capacity, the use of such drives made sense, as media were much cheaper than 3" media. |
− | + | Today, with supplies of 3" disks draining and company solutions no longer being produced, a self-made 3½" disk drive is the perfect supplement for every CPC user, especially as it makes the data exchange between CPC and PC much easier. | |
− | But even without a special DOS taking use of the higher capacity | + | |
− | + | ||
− | Today, with supplies of 3" disks draining and company solutions no longer being produced, a self-made | + | |
== Notes == | == Notes == | ||
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** Part Bx, which is also the full cable for the CPC464 with DDI-1, can even be used to connect the PC drive as A: on the DDI-1, though this doesn't work with all drives. | ** Part Bx, which is also the full cable for the CPC464 with DDI-1, can even be used to connect the PC drive as A: on the DDI-1, though this doesn't work with all drives. | ||
− | * Although schematics for drives without own RDY-Signal are | + | * Although schematics for drives without own RDY-Signal are included, it is highly recommended to use drives with RDY to ensure maximum compatibility. However, drives that can simply be jumpered for a proper RDY-signal aren't made any more and can probably only be bought used. Though, some drives that are still be sold or were still be sold recently can be [[Modify PC floppy drives|modified]] for a RDY-signal. Be aware that some of these drives will, especially on a CPC464 with DDI-1, still only work as drive B: after modifying them for the RDY-signal. Probably this is related to the drive's RDY-conditions during power up, which aren't met by the CPC-controller. To operate a drive under these conditions, you will need a drive which also allows the MOTOR ON conditions to be configured, or again, a permanent RDY as last resort. |
* These schematics differ from most existing schematics on the web in that way, that they don't use GND to pull signals active low, but the /DRIVE SELECT line via diode. This ensures that the other drive on the bus doesn't become influenced. You can solder the wire containing the diode directly (without the diode) to a GND-wire and you will get the same as described in other tutorials but the side switch and - if applicable - the permanent RDY will also be in effect for the other disk drive then. | * These schematics differ from most existing schematics on the web in that way, that they don't use GND to pull signals active low, but the /DRIVE SELECT line via diode. This ensures that the other drive on the bus doesn't become influenced. You can solder the wire containing the diode directly (without the diode) to a GND-wire and you will get the same as described in other tutorials but the side switch and - if applicable - the permanent RDY will also be in effect for the other disk drive then. |
Revision as of 06:04, 4 November 2007
Besides the "big" brands' disk drives for the Amstrad CPC, there were also user solutions and garage company made disk drives for the Amstrad CPC. These usually came without controller and own DOS, so in order to use the full capacity of such drives, you had to replace the built-in AMSDOS with a DOS like ParaDOS or a patched AMSDOS. But even without a special DOS taking use of the higher capacity, the use of such drives made sense, as media were much cheaper than 3" media. Today, with supplies of 3" disks draining and company solutions no longer being produced, a self-made 3½" disk drive is the perfect supplement for every CPC user, especially as it makes the data exchange between CPC and PC much easier.
Contents
- 1 Notes
- 2 Schematics
- 3 Garage companies that sold disc drives
Notes
- Whereever possible, the wire numbers from the PC standard were used! (See the article about the connector for the reason why: Connector:2nd disc drive (CPC664, CPC6128, CPC6128+)
- The universal solution connects a 3" or 3 1/2" disk drive to any CPC with disk controller
- You can even use Part A for connecting a 3" disk drive to a CPC664/CPC6128/CPC6128plus and Part Bx for connecting a 3 1/2" disk drive to a CPC464 with DDI-1 at the same time
- Part Bx, which is also the full cable for the CPC464 with DDI-1, can even be used to connect the PC drive as A: on the DDI-1, though this doesn't work with all drives.
- Although schematics for drives without own RDY-Signal are included, it is highly recommended to use drives with RDY to ensure maximum compatibility. However, drives that can simply be jumpered for a proper RDY-signal aren't made any more and can probably only be bought used. Though, some drives that are still be sold or were still be sold recently can be modified for a RDY-signal. Be aware that some of these drives will, especially on a CPC464 with DDI-1, still only work as drive B: after modifying them for the RDY-signal. Probably this is related to the drive's RDY-conditions during power up, which aren't met by the CPC-controller. To operate a drive under these conditions, you will need a drive which also allows the MOTOR ON conditions to be configured, or again, a permanent RDY as last resort.
- These schematics differ from most existing schematics on the web in that way, that they don't use GND to pull signals active low, but the /DRIVE SELECT line via diode. This ensures that the other drive on the bus doesn't become influenced. You can solder the wire containing the diode directly (without the diode) to a GND-wire and you will get the same as described in other tutorials but the side switch and - if applicable - the permanent RDY will also be in effect for the other disk drive then.
- Hints for fitting cut/squeeze plugs on flat-ribbon cable (Assuming you were building the cable according to the PC wire numbers with red wire = wire 1), connectors seen from back:
- Amstrad CPC664/CPC6128: Red wire showing away from orientation nose inside the connector
- Schneider CPC6128 (DE): Red wire showing to the right with two free pins on the right end of the connector
- Amstrad CPC6128plus: Red wire showing to the right with three unused pins on the left end of the connector (red wire not connected/overlapping end of connector)
Schematics
Universal solution (CPC464+DDI-1, CPC664, CPC6128, CPC6128 German and CPC6128plus)
Part A: Replacement cable for original Amstrad/Schneider FD-1
Part B1: Makes a PC disk drive with RDY behave like a DDI-1
Part B2: Makes a PC disk drive without RDY behave like a DDI-1
Amstrad/Schneider CPC464 with DDI-1
See Part B1 or Part B2 as shown in sections 2.1.2 or 2.1.3 accordingly.
Amstrad/Schneider CPC664/CPC6128 (Not German CPC6128s!)
Drive has RDY-signal
Drive doesn't have RDY-signal
Schneider/Amstrad CPC6128 (German models and grey imports from Germany only!)
Drive has RDY-signal
Drive doesn't have RDY-signal
Amstrad CPC6128plus
Drive has RDY-signal
Drive doesn't have RDY-signal
Garage companies that sold disc drives
- Frank Straus 5 1/4" Drive
- G+L Electronic (3 1/2" and 5 1/4" disk drives)