Apple II Floppy Disk Drives

 

Csa2 FAQs-on-Ground file: CSA2FDRIVE.TXT rev010

 

 

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001- How do I add a write-protect On-Off switch?

002- How do I add external speed adjustment to my Disk ][ drive?

003- How can I adjust my 5.25" drive for optimum performance?

004- How do I clean my disk drive R/W head(s)?

005- What is the pin-out for a duodisk drive connecting cable?

006- What DuoDisk mods are necessary?

007- Will a Duodisk function correctly on my ROM 3 GS?

008- How do I fix a false Write Protect?

009- My 3.5 Disk Drives don't work! What should I try?

010- I added SCSI; now, my 3.5" drives often fail to work. Why?

011- Both of my Disk ]['s come on when booting! Is there a fix?

012- In connecting a Disk II I misaligned the connectors. A fix?

013- A sound like a shotgun going off came from my drive. A fix?

014- Uni-disk and Laser drives: neither works with my IIc. Why?

015- How do I replace a 3.5" drive mechanism with one from a Mac?

016- I have one 5.25" drive. Sys6 shows two icons!? Is there a fix?

017- How can I tell a 13-sect interface card from a 16-sect model?

018- Can a Disk ][ Drive be used on a IIc or GS smartport?

019- How do I install a bi-color LED R/W indicator in my Disk ][?

020- What's the scoop on the 3.5" High Density drive?

 

 

 

 

From: Stephen Buggie

 

001- How do I add a write-protect On-Off switch

to my Disk ][ drive?

 

 

Adding an Auto/Manual Write-Protect Switch

Often, as when doing copying, it is useful to be able to guarantee

that a diskette is Write-Protected whether or not the side is notched.

Other times, it is convenient to defeat Write Protection-- for example,

when you wish to write to a diskette side which is not notched. And,

naturally, you also want a setting which permits Normal,

notch-controlled, Write-Protect.

 

Based upon a circuit suggested by David Wilson (Australia), the

A/MWP enhancement offers full user control of Write Protect. The

switch's three positions are

 

Protect OFF: Writing is allowed regardless of notching.

 

Protect ON: Writing is prohibited regardless of notching.

 

Normal: a diskette side must be notched to permit writing.

 

 

A/MWP Step-by-Step

 

Unplug the drive from the disk controller and remove the case.

 

Drill a mounting hole. This can be at a convenient spot in the back or

in the plastic front panel. On the front, a good spot is at the lower

left, above and to the left of the "in use" LED. Another open spot is at

the upper right in the space just above the diskette slot; but, we're

saving this place for Part 2's enhancement. (You can't use the lower

right, of course, because this would mess up the "Apple" logo!)

 

Cut three wires (Brown, Black, and White) long enough to run from the

mounting point to the Large Connector plugged onto the back, middle of

the Disk ][ circuit board.

 

Solder the leads to a Single-Pole Triple-Throw mini toggle Switch:

Brown to center, White to one end, Black to other end. Twist the leads

or encase them in tubing.

 

Mount the Switch. Normally, the Switch handle will point in the White

lead direction for "Protect OFF" and in the Black lead direction for

"Normal". Center is "Protect ON". Route the leads to the area next to

the Large Connector. (Make sure no wires will get in the way of an

inserted diskette.)

 

Locate the Brown and Black leads coming from the Notch Detect

micro-switch. The leads are the Brown (bottom) and Black (top) pair near

the right end of the Large Connector (as viewed from the front of the

drive).

 

Cut the Notch Detect micro-switch leads about 1" away from the Large

Connector.

 

Connect the Black Notch Detect, Black Large Connector, and Black Switch

leads (i.e. strip ends, solder, and cover in heat-shrink tubing or

tape).

 

Connect the Brown Notch Detect lead to the White Switch lead.

 

Connect the Brown Large Connector lead to the Brown Switch lead.

 

 

Viola! Now you're ready to replace the cover, plug in the drive,

and try out your A/MWP enhanced Disk ][.

 

Boot a diskette which is not write-protected and load a program,

say the HELLO program (or STARTUP on a ProDOS diskette). Set the A/MWP

to center and try SAVE HELLO. You should get a "WRITE PROTECTED" error.

 

Place a write-protect tab on the diskette. Set A/MWP to the Left or

UP position and try SAVE HELLO again. If the save works, then Left or UP

is the "Protect OFF" position and Right or Down is "Normal". If you get

a "WRITE PROTECTED" error then it's the other way around.

 

Now is a good time to mark "Normal" and, if you like, the other

positions. You can use dots punched from self-stick labels.

 

----------------------------

 

 

002- How do I add an external speed adjustment to my Disk ][?

 

Reference: FAQs Resource file R006SPDKNOB.GIF

 

 

Adding a Speed Control Knob to your Disk ][ Drive

 

This article tells how to move speed adjustment from the Disk ]['s

dark interior to a handy front-panel location and how to "tune" the

drive for optimal performance.

 

One drive-test software vendor states that Disk ][ is good for

about 500 hours of normal use between speed adjustments-- not exactly a

strong argument for placing the control on the front panel! On the other

hand many of today's Disk ][ owners are interested in applications which

go beyond "normal use".

 

Some utilities (e.g. DiversiCopy II) report rotational speed during

ongoing applications; so, relocating the speed adjuster to the front

panel is especially helpful. Similarly, users who want to back up their

old, copy-protected wares know that ready access to speed control is

essential.

 

Finally, there is no question that, whatever your applications,

periodic speed trimming will be required. When it is, you'll be very

glad _your_ Disk ][ has a front panel Speed Knob!

 

 

 

Adding Speed Knob

 

To install Speed Knob you will need a good quality, linear taper 5k

Ohm potentiometer, some wires, and a knob with a pointer mark or some

other way to show position (e.g. a ring of numbers). Most of the work,

really, consists of opening the drive and drilling a hole. There is no

need to disconnect the drive from the controller card.

 

1. Remove the 4 bottom bolts and slip off the case. Unscrew the 4 bottom

bolts holding the drive to the case bottom, and unplug the main ribbon

cable. The drive can now be moved to your work area.

 

2. Drill a hole properly sized and centered for mounting your 5k Ohm pot

in the upper right front panel.

 

3. Place the drive on its face and unscrew the 2 bolts which hold the

small daughter board to the drive. (Be ready to catch loose spacers,

washers, etc..)

 

4. Turn the small board over to the bottom side. Locate and cut the

traces going to the mini-pot speed adjuster as shown in pic

R006SPDKNOB.GIF.

 

5. Cut three wires, White, Gray, Black, long enough to reach from the

board to the front panel. Connect these to your 5k Ohm pot and to the

small circuit board as shown in pic R006SPDKNOB.GIF. (In case you cannot

view the pic, what you're doing is substituting the new pot for the

mini-pot. )

 

6. Re-mount the daughter board. Mount the 5k Ohm pot. Install knob.

 

7. Bring the drive back to the computer. Slide it onto the case bottom

plate, reconnect main ribbon cable, replace bottom bolts, slide on and

re-fasten case top.

 

You can use Copy II Plus, XPS, APEX, or one of several other

utilities to set speed (see next question). A good starting adjustment

will be near the center of Speed Knob's range. Once speed is adjusted,

you can loosen and re-set the knob so that its position indicates a

"correct" speed setting.

 

----------------------------

 

 

003- How can I adjust my 5.25" drive for the best performance?

 

The typical 5.25" drive will run for months with no need for

maintenance save an occassional dusting or session with a head-cleaner

disk. When adjustment is required, it will usually be to fine-tune Speed

or, less often, to set track centering.

 

If a 5.25" drive has difficuly reading diskettes, including those

it created, and head-cleaning does not help, then, the odds are it's

time to adjust speed. If your drive is a Disk ][ and does not have the

external 'Speed Knob' mod, look for a small hole on the lower right side

near the back-- some owners add this hole to allow easy access to the

Speed Adjustment mini-pot screw. If there is no hole, you will need to

remove the case. (Remove bolts on bottom and slide out the drive through

the front.)

 

On the 5.25" Apple 'Platinum Drive', the Speed Adjustment is

accessed through a small hole on the bottom of the drive near the front

on the right side. Non-Apple 5.25" drives may place the Speed Adjustment

almost anywhere. Look for a small hole through which you can see a screw

head. If you don't fine one, remove the case and look for a mini-pot

labeled "Speed" or something similar.

 

The most popular speed adjustment software utility is, probably,

dear old Copy II Plus. From the menu, just select "Verify", then "Drive

Speed". Put a diskette into the drive you want to adjust and, turning

the Speed Knob (or min-pot shaft) use Copy II's numeric speed display to

zero-in on the 'magic' 200ms. number. (Standard Disk ][ rotation speed

is 300 rpm, which comes out to be 0.2 seconds per revolution.)

 

Other speed adjustment utilities show an rpm number or a hires

pointer. Whatever, all speed check routines need to read AND write; so,

you will usually need a "scratch diskette" which you do not mind having

over-written.

 

Track-center realignment is needed when a Disk ][ writes and reads

its own disks fine, but does not 'communicate' with many other Apple II

5.25" drives. It generates disk errors when reading disks written by

other drives and other drives have the same problem with its diskettes.

 

CALL A.P.P.L.E's APTEST, now in the public domain, tests

track-center alignment. With this software, the user checks the

alignment of the drive with disks regarded as well aligned --- such as

Apple diskware supplied with the computer or some unprotected, original,

commercial software diskette. (In a pinch, a diskette formatted by any

drive that has no problem reading most other diskettes should be okay.)

 

Basically, a track-centering test tries to step your head between

two tracks of the 'standard' diskette and read the tracks on either

side. If the number of successful reads from each track is about equal,

the head is "centered" and your drive is well-aligned with the standard

diskette.

 

The test may indicate serious misalignment. ("Aha! That explains

why my IIgs and II+ have problems reading each other's diskettes!")

Centering adjustment is done by slightly repositioning the stepper motor

(mounted on the underside of the drive). This requires loosening the two

bolts holding the stepper-motor, rotating it clockwise or

counter-clockwise, and retightening.

 

The adjustment/test process may require several repetitions. Each

time, the program will report "differential fractions". The smaller

these numbers, the closer you are to near perfect alignment with tracks

on the diskette.

 

____________________________

 

 

 

From: Rubywand

 

004- How do I clean my disk drive R/W head(s)?

 

The easiest way to clean a drive's R/W head(s) is with a Cleaner

Diskette. This is a diskette with a paper disk such as the 5.25" and

3.5" Cleaner Diskettes available in Radio Shack's Disk Drive Head

Cleaner Kits. These kits usually include "Cleaning Fluid" (isopropyl

alcohol), too.

 

The 5.25" Cleaner Diskette has panels you pop out to expose the

cleaning surface. Apple II 5.25" drives have a single head which

contacts the disk from the bottom and a pressure pad which presses

against the top side. So, pop out the panel on the bottom side of the

Cleaner Diskette and leave the top panel in place. When cleaning, insert

the diskette with the bottom side facing down. This lets the paper disk

rub against the head and avoids wear on the pressure pad.

 

The 3.5" diskette has a small plastic panel you can snap out for

cleaning two-head drives. Since the standard 3.5" 800k Apple II drive

has two heads, snap out the panel so that both the top and bottom heads

get wiped.

 

To clean your drive head(s), you sqirt a few drops of Cleaning

Fluid onto the Cleaner Diskette disk, insert it into the drive, and get

the disk spinning for 20 seconds. (Booting the Cleaner Diskette is one

way to get it spinning. If DOS or ProDOS is installed, doing a CATALOG

is another way. For example: CATALOG,S6,D2 would get your 5.25" Drive 2

spinning.)

 

If you think it has been several months since the drive was last

cleaned, repeat the procedure-- i.e remove the Cleaner Diskette, add

more fluid, etc.. As a rule, do not let the disk spin more than 20

seconds for any cleaning cycle. This is especially a concern with 3.5"

drives where the heads are mounted on springs and much more subject to

snagging and being pulled out of alignment.

 

____________________________

 

 

 

From: Steve Jensen

 

005- I picked up an apple IIe and a duodisk drive at a thrift

store. Could someone describe the connecting cable?

 

I just checked the pinout on a Duodisk cable. The numbers for the

pins are inside the plug by the pins, but I'll draw them for you.

 

DB 19 looking at the end of the cable:

1 2 3 4 5 6 7 8 9 10

o o o o o o o o o o

o o o o o o o o o

11 12 13 14 15 16 17 18 19

 

 

DB 25 looking at the end of the cable: (x = no pin)

1 2 3 4 5 6 7 8 9 10 11 12 13

x o o o o o o o o o o o x

o o o o o o o o x o o x

14 15 16 17 18 19 20 21 22 23 24 25

 

Cable

 

DB 19 DB 25

1 2

2 4

3 9 & 21

4 10 & 14

5 23

6 7

7 19

8 20

9 8

10 12

11 15

12 16

13 17

14 18

15 5

16 24

17 11

18 3

19 6

 

____________________________

 

 

 

From: Steve Jensen

 

006- What DuoDisk mods are necessary?

 

The following is excerpted from an info file from my old bbs ...

There are TWO modifications that should be made to Duodisk drives:

The First one was recommended by Apple several ago to solve

occasional problems with trashing diskettes. The solution is to remove 2

capacitors.

 

The Second modification is only required to solve a problem with

daisy-chaining on the GS Smartport, though the modified Duodisk will

still work fine on older Apple II's. It requires removing a resistor.

 

 

DUODISK MODIFICATION #1- REMOVAL OF TWO CAPACITORS

This mod should be done on ALL Duodisks, no matter whether they're

used on //e's, IIGS's, etc. The problem was that diskettes would

sometimes be damaged when doing an Open-Apple-CTL-Reset or when using

disks with certain kinds of copy protection. The mod was in an Apple

dealer service bulletin several years ago for "analog board PN 676-[]101

or 676-[]102."

The Analog board is the one inside Drive 1 in the Duodisk. You may

have to unplug the cable near the back right of the board to see the

board's model number. Anyway, if you have the -101 or -102 board, just

snip out Capacitors C29 and C30 at board locations A1 and B1,

respectively.

 

DUODISK MODIFICATION #2- REMOVAL OF A RESISTOR

 

This mod should be done for Duodisks used with a GS; otherwise, it

is optional. The problem is that the Duodisk draws just a little too

much current when connected to the GS Smartport. This can render other

drives on the chain inoperable. Problems are MOST likely to occur when

the Duodisk is daisy-chained from a Unidisk 3.5 Drive.

 

Remove the top cover and turn the drive so that the identifying

number will be at the bottom left of the analog board. The number might

read 676-[]101, 676-[]102 or

676-[]107.

If the I.D.# for the analog board is 676-[]101 or 676-[]102, use

a pair of nippers and cut out resistor R8 (located at position A2).

If the I.D.# for the analog board is 676-[]107, use a pair of

nippers and cut out resistor R39 (located at position A1).

 

----------------------------

 

 

From: Dave Althoff

 

There are two capacitors which must be clipped from the board on

the DuoDisk regardless of what machine you intend to use them on.

Failure to do this can lead to very nasty failures. For instance, some

copy-protection schemes can cause the drive to start writing

unexpectedly-- say, during a re-boot-- thus trashing the disk without

regard to the write-protect switch.

 

----------------------------

 

 

From: Chet Gerhardt

 

I have done the capacitor removal mod with all DuoDisks I have sold

and my own DuoDisks. It is amazing that after all of this time most

still have not had the mod done.

 

____________________________

 

 

 

From: Steve Buggie

 

007- Will a Duodisk function correctly on my ROM 3 GS?

 

I have three Duodisks. The one connected to my flagship Rom 3 IIgs

has had the resistor and capacitors clipped out as recommended in a memo

from Mitch Spector. It works perfectly!

 

____________________________

 

 

 

From: John L. Graham

 

008- How do I fix a false Write Protect?

 

I recently ran into this problem with a Disk II. It insisted the

disk was write protected. I checked the write protect switch, but it was

okay. I pulled all the chips out of the analog board inside the drive,

cleaned the contacts with a clean pencil eraser (one was _really_ dirty,

almost looked burnt) and re-installed them. Voila! The problem went

away.

 

 

 

____________________________

 

 

 

from Rubywand

 

009- My 800K, 3.5 Disk Drive is no longer working on my IIGS.

When a disk is inserted the drive tries to read it and then

locks up the entire system forcing me to do a 3 finger reboot.

Any suggestions on where to start troubleshooting?

 

If you have a SCSI interface card plugged into your GS, you may

have run into a bug which seems to affect setting up of the diskette

port. (See the next question and answer.)

 

Try cleaning the heads using a Cleaner Diskette (e.g. a paper

diskette + cleaning solution kit from Radio Shack).

If cleaning does not seem to help, try wiggling the drive cable

while attempting to CAT a known-good, unprotected diskette in the drive.

If wiggling helps, you are likely to have a bad cable or a GS plug with

a loose connection to the motherboard.

 

Try formatting a diskette. A drive which can format and R/W

diskettes it has recently formatted but cannot read most other diskettes

probably has heads which have become misaligned.

 

Set your boot Slot to Slot 5 and try power-up booting a couple

bootable ProDOS diskettes known to be in good condition. If you can boot

a variety of disketts, including commercial game, etc. diskettes, the

odds are pretty good that your drive is okay.

 

A 3.5" drive that, after cleaning, cannot boot known-good diskettes

is likely to have screwed-up heads. However, it's a good idea to try

unplugging and re-plugging the drive (with the computer OFF) and, then,

try another boot.

 

If you have a 5.25" drive attached, boot ProDOS from the 5.25"

drive and try some CAT's of non-protected known good 3.5" diskettes in

the 3.5" drive. As earlier, do the cable wiggling test while attempting

the CAT's.

 

A very good test is to try out the drive on a friend's IIgs or

IIc+. If it continues to bomb, it is likely to have R/W heads which have

become badly misaligned, heads which are badly worn, or heads which have

been partially dislodged from the mountings. (The 3.5" drive's heads are

held in place by springy metal sheets. Unlike the mounting for the 5.25"

Disk ][ head, these are fairly delicate. If anyone has tried cleaning

the heads by sticking in an alcohol swab and 'swishing around', there is

a good chance the head mountings are messed up.)

 

Shops which replace heads are fairly rare. I had this done a few

years ago and the drive still works fine. However the charge is around

$80. It is cheaper and easier to get a good 2nd-hand drive at a

swap-meet. You can, also, look for a bargain Mac drive and do a

"transplant" as described by Steve Buggie in the Winter issue of II

Alive.

 

Steve Buggie is a good source of information on drive repairs.

Check out some of his recent posts to this newsgroup.

 

----------------------

 

 

010- Sometimes the 3.5" drives on my GS do not function correctly.

This started after adding a SCSI interface card.

Is there a fix?

 

This problem seems to crop up from time to time when a SCSI

interface is present, especially when no device is connected and

recognized on the SCSI chain. (For example, you may have only a Zip

Drive connected to your SCSI interface; but, it is not powered ON or no

Zip disk is inserted.)

 

Evidently, something (e.g. a register or softswitch) in the usual

GS power-up routine relating to on-line devices gets messed up.

Arranging to have some active, on-line device on the SCSI chain (or

removing the SCSI card) seems to eliminate the problem.

 

Otherwise; inserting a 3.5" diskette into Drive 1 before or just

after power-up usually forces recognition of 3.5" diskette drives and

enables correct functioning.

 

----------------------------

 

 

011- Both of my Disk ]['s come on when booting! How can I

fix this?

 

Basically, it sounds like Drive 2 does not know when to stay OFF.

There are three fairly high-probability places where a glitch may cause

this to happen:

 

1. The 74LS132 on the Disk ][ Controller card may have a blown gate or

some pins may be making poor or no contact. Try unplugging and

re-socketing the IC. This usually takes care of bad contact problems.

(Or, you can replace the 74LS132 IC with another 74LS132 or 74132. A

74LS00 or 7400 may work, too.) Also unplug and re-socket the 9334 and

556.

 

2. The ULN2003 IC on the Drive 2 main circuit board may have a bad gate

or may have developed some poor pin-to-socket contacts. Remove the drive

cover. Unplug and re-socket the ULN2003 IC. (Replacing a blown ULN2003

should not be too difficult. Both Mouser and Newark carry the IC.)

 

3. Drive 2's cable may have developed a short between pins 14 and 16.

Mark the position of the cable at the Controller card and at the Drive 2

circuit board and unplug the cable at each end. Use an Ohm meter to

check for shorts between adjacent pins. If you find a short between 14

and any other pin you can try repairing the cable or cutting out line 14

and running a new lead; or you can get a replacement cable.

 

----------------------------

 

 

012- In connecting a second Disk II drive to my Disk II card I

misaligned the connectors. The result upon turning it on was a

static-like clicking noise. Now I can't load anything from

disk. Is the Disk II card dead? Are the IIe and Drives all

right?

 

Try removing the drive which was connected incorrectly. If your

system boots from the remaining drive (connected in the Drive One

position), this is a fairly good indication that the Disk II card and

IIe are okay and that the removed drive is messed up.

 

If it looks like a drive is bad, remove the cover and inspect the

drive's main circuit board for blown components. If nothing obvious

shows up, a decent fix try is to replace the 74LS125 IC on the drive's

main circuit board. (Also, see Question 023.)

 

----------------------------

 

 

013- Last night a sound like a shotgun going off came from my 5.25"

Disk ][ drive. Now it doesn't work. How can I fix it?

 

The noise was probably an electrolytic capacitor exploding.

Sometimes, these develop internal shorts, heat up, and blow (kind of

like a sealed can of beans on a campfire).

 

The fix is to remove the drive cover and replace the blown

capacitor. (Look for a small can-like component with goo and/or shredded

foil coming from it.) Circuit board markings should help identify the

component. Here are some suggested replacement values:

 

C2 (on +12V line): 220uF-500uF at 20V-50V

C4 (on +5V line): 470uF-500uF at 10V-25V

C5 (on -12V line): 10uF-50uF at 20V-50V

 

If there is some difficulty identifying the blown capacitor,

replace it with a 500uF unit rated at 20V-50V.

 

Before removing the bad capacitor, note which lead is connected to

the outside 'can' part and mark the circuit board where this lead is

connected. This is the Negative side of the capacitor. When installing

the new capacitor make sure its negative lead goes to the marked point

on the circuit board.

 

____________________________

 

 

 

From: Wayne Stewart

 

014- Recently I picked up two 3.5" drives at a swap meet-- a

Uni-disk and a Laser 128 drive. I've tried cleaning the

heads; but, neither works with my IIc. What's the problem?

 

The 3.5 unidisk won't work on the earlier IIc unless the IIc has

had a ROM upgrade. The Laser 3.5 is actually a Macintosh drive with the

addition of an eject button. It isn't compatible with any Apple II

unless it has a special controller card, which of course a IIc doesn't.

 

____________________________

 

 

 

From: Stephen Buggie

 

015- Can I replace a bombed Apple II 3.5" drive mechanism with

one from a Mac?

 

Yes. 3.5" drive mechanisms are cheaply and abundantly available

from the Macintosh world. Although Apple II users have increased their

interest in 3.5" drives, these drives have declined in their utility for

Mac users who have shifted to hard drives, CD-ROM, and flopticals. Few

Mac owners have use for the external 3.5" drive any more; if they have

not yet discarded their external 3.5" drive, it is now in storage.

 

 

MAC AND APPLE II 3.5" DRIVES: SIMILARITIES/DIFFERENCES

 

The basic Sony 3.5" mechanism is shared by Mac and Apple II. It

stores 800K of data on a two-sided disk. Unlike the IBM version with

its constant rotational speed, Mac/Apple II drives maintain constant

head velocity by varying the rotational speed as the head assembly

approaches towards or moves away from the disk hub. Mac and Apple II

drives differ in their track sectoring arrangements, so disks cannot be

read directly without special translational software. The opportunity

for compatible disk sharing was lost during development, because rival

teams working on Mac/Apple II drives went their separate ways (Steve

Weyhrich, APPLE II HISTORY, Pt. 9, 1992).

 

The platinum 3.5" drive supplied with the IIgs is directly

compatible with the Mac, although the Mac ignores its front panel manual

eject button; Mac disk ejection is handled strictly by the desktop trash

icon command. An older version of the external Mac 3.5" drive lacks the

manual eject button and, in its casing, is plug-incompatible with Apple

II. Thanks to advice provided by Ken Watanabe, I learned that the inner

mechanism is identical among all versions of 800K Mac and Apple II

drives, including the internal drive mechanism in the Mac CPU. This is

good news for Apple II users who wish to transplant the abundantly

available Mac mechanism into their platinum 3.5" drive casing.

 

 

WHAT ABOUT THE APPLE UNIDISK 3.5" DRIVE?

 

The classic white Unidisk drive was released in 1985 as a 3.5"

platform for the IIe and IIc. This release date was 18 months prior to

the introduction of the IIgs. Disks written by the Unidisk 3.5 and

Platinum 3.5 drives are fully interchangeable; the two models differed

because the earlier Unidisk 3.5 used an intelligent

microprocessor-controlled analog board to slow the data transfer rate to

match the IIe/IIc parameters. This slowdown was not needed for the

popular platinum 3.5 drive used by the IIgs.

 

Can the Mac mechanism be transplanted to the Unidisk 3.5 casing?

Probably yes, but this has not yet been verified. I am reluctant tohack

with the working Unidisk 3.5's attached to my IIC's. I now seek a

mechanically jammed Unidisk 3.5 drive to verify whether its life can be

resurrected with a Mac transplant.

 

 

FINDING A USED MAC 3.5" DRIVE MECHANISM

 

The internall DSDD 800k drive mechanism can be salvaged from any

mid-vintage Mac except for early models (Mac 128, Fat Mac 512) ----

those two models used a quaint single-sided 400k drive. Suitable models

include the Mac Plus, Mac SE, Mac II, or other Macs that have the

standard DSDD 800K mechanism --- newer Macs have incompatible high

density drives. Get a genuine Mac Sony drive mechanism, not a clone;

the suitability of non-Sony clones is uncertain.

 

Salvaged internal drives must be removed from the Mac internal

mounting bracket --- take out the four side-mounted bolts, and slide the

mechanism forward. The early version of the external Mac mechanism is

mounted in a plastic casing that resembles the Apple II platinum drive

except that the manual eject button is absent.

 

Remove the mechanism from the casing, but save its round external

cable and db-19 plug --- that cable/plug can be used later to adapt

flat-ribbon Apple II drives for use with the IIgs or IIIc! The Mac

externaldrive's plastic casing can be saved for use as a coin bank, or

discarded.

 

You should anticipate that the older Mac drive has had plenty of

use; most Mac users have fewer drives attached to their computer than is

common for the Apple II.

 

The 3.5" drives are sturdier than hard drives, but to protect the

drive's head assembly from damage during rough shipment, the seller

should be asked to ship the unit with a disk inserted.

 

 

DISASSEMBLY OF THE APPLE 3.5" PLATINUM DRIVE

 

Use a well-light work area that gives you plenty of elbow room,

with containers to hold bolts and other small parts All dimensions

(left/right/top/bottom/front/rear) refer to the unit's own dimensions,

NOT to your own egocentric viewpoint as the observer. Standard

precautions against static or other electrical damage must be followed:

Discharge static frequently by touching grounded metal, wear a grounded

wrist strap, hand all power OFF when attaching/removing drives, put

insulating tape over the db-19 drive plug when not in use.

 

Move slowly and patiently when removing or inserting the mechanism

from its housing ---- metal parts must not be forced or bent. These

tools areneeded: (a) medium and small Phillips-head screwdrivers, (b) a

small pliers, and (c) a fine-tipped felt marker. This procedure was

outlined in an essay by Lorne Walton (Apples BC, 1992), but many further

details have been added here to facilitate disassembly and drive

replacement.

 

 

The first step is to remove the worn/defective mechanism from its

Apple II platinum casing. Flip the casing on its back and rest it on

soft cloth. Re,ove the four shiny bolts from the bottom of the casing.

With the unit inverted, slowly lift the bottom half-shell of the plastic

casing upward and push the external cable's attached grommet towards the

upper casing. The unit's bottom casing should come off cleany.

 

Use the felt marker to label the unit's own main dimensions,

writing on the metal internal shroud: front-bottom, rear-bottom, left

side, right side. Examine the metal innards as they lie upside down in

the upper casing. Note that a red and black wire pair are tucked on the

inner edge of each side --- These two wires go to the eject switch

(right front) and to the red in-use LED lamp (left front).

 

At the unit's rear, observe that the wire pairs terminate in RED

and BLACK plugs. Use the felt-tipped marker to write "R" and "B" on

nearby metal surfaces to identifythe positions of these two plugs. These

letters will help during reassembly when reinsterting the two plugs onto

their proper pins. Next, use the small pliers to grasp each plug,

slowly and carefully pulling it backwards to remove it from its mounting

pins.

 

 

With the black and red plugs each removed, slide the top plastic

cover in a rear-to-front direction, past the metal-enshrouded mechanism.

The wire-pairs from the eject-button and also from the in-use LED lamp

should remain tucked into their plastic side-braces.

 

You now hold the mechanism, enshrouded in its grey metal shielding,

with the external db-19 cable protruding from the rear. Remove the two

medium Phillips mounting bolts (with flat washers) from each side.

Remove the single medium Phillips bolt/washer that is centered on the

upper-rear metal shroud. Then lift off the upper-rear should and look

inside.

 

Note that the round external cable terminates in a familiar IDE-20

flat-ribbon connector that plugs into the inner mechanism. Unplug that

inner connector --- the small pliers can be used to rock and pull the

connector towards the rear. With the IDE-20ribbon connector unplugged,

the inner mechanism can be slid forward and out.

 

As you hold the inner mechanism in your hand, observe that a shiny

thin metal shroud covers its to and sides. Use the felt-tipped pen to

label this shrou's dimension: TOP-FRONT and TOP-REAR. This thin shroud

should be removed by rocking it and spreading its thin side-tabs. At

this point, you have the bare mechanism in your hand, with heads visible

from its top perspective, and with pancake motor visible underneath.

 

You are now ready to begin reassembly, but pause to appreciate what

is before you. Hold the old mechanism and its Mac replacement

side-by-side --- they should appear identical. The date of manufacture

is coded on a sticker on the pancake motor (e.g., 8809 = September

1989). Apply rubbing alcohol with a cotton swab to clean the surfaces

of both read/write heads.

 

 

REASSEMBLY

 

Remount the innermost top-and-sides metal shroud, taking care that

its "fingers" have clicked into place on the mechanism's sides. When

properly fited, both bolt-holes on each side will be visible through the

shroud's thin metal. If the shroud does not fit, or if the bolt-holes

are not seen, check with your dimensional labels to verify that the

front and rear have not been reversed.

 

With the top/side inner shroud correctly in place, then reverse the

disassembly steps: Slide the mechanism through the front of the metal

shroud. Reattach the IDE-20 internal ribbon connector, align the two

bolt holes on each side of the outer shroud with the mechanism and

reinstall the four medium Phillips bolts and their washers. Then

reattach the rear-upper shroud with its centered bolt and washer.

Reassembly of the outer metal shroud is now finished!

 

 

The final reassembly task is to refit the enshrouded mechanism into

the plastic outer casing. Lay the inverted UPPER plastic half-shell on

the bench,with its front facing away from you.

 

Observe the small red or black wires tucked along the sides of the

upper plastic half-shell. With the metal enshrouded drive mechanism

upside down, it should be slid into the plastic top-shell, from its

rear to its front. Check that the red-black wires remain tucked along

the inner edge between the plastic casing and the metal shroud. Insert

the black and red plugs into their respective connectors. Note the "R"

and "B" markings you wrote on the metal shroud; those markings will

guide the plugs' insertion into their proper connectors.

 

The oblong-shaped grommet attached to the round external cable

should be fitted first to the bottom plastic half-shell casing, which is

then mated to the top casing. Reattach the four small shiny Phillips

bolts through the bottom plastic half-shell, and you're done!

 

____________________________

 

 

 

From: David Empson

 

016- I have one 5.25" drive connected to my GS, but the System 6.0.1

Finder display shows two 5.25" icons!? How can I fix this?

 

You need to change the AppleDisk5.25 driver file's auxilary

filetype from $010E to $0101. You can use File Manager (an NDA utility)

to make the change.

 

For a standard GS/OS device driver, the lower six bits specify the

number of devices supported by the driver (see the file type note on

GS/OS drivers: FTN.BB.XXXX), so the maximum number of devices that can

be supported by a single driver is 63. You should NEVER increase this

higher than the original value, because the driver probably doesn't have

space in its device tables to support more drivers than it originally

claimed to.

 

The AppleDisk5.25 driver supports a maximum of 14 devices - two

5.25" drives for each available slot. (In theory, it should be able to

support 16: all seven real slots, plus the built-in disk port, but Apple

never completed the implementation of dynamic slot switching for

drivers, probably for compatibility reasons.)

 

Don't change any of the higher order bits. The high order byte

specifies the type of driver ($01 = GS/OS device driver), and the top

two bits of the low order byte specify the type of GS/OS driver (00 =

standard).

 

NOTE: All of the above applies ONLY to GS/OS standard device drivers,

not to GS/OS supervisory drivers, printer drivers, or anything else. See

the filetype note for further information.

 

There is one bit in the auxiliary type which is the same for all

types of drivers: bit 15 set ($8000) indicates the driver is inactive

(this is what Finder toggles when you click on the "Inactive" check

box).

 

____________________________

 

 

 

From: Neil Parker

 

017- How does one distinguish between a 13 and 16-sector Disk ][

interface card?

 

For a while at least, new 16-sector Disk II cards shipped with a

little white circular sticker depicting a red Apple with the number "16"

in the middle.

 

But the sticker is hardly a reliable test. A better test is to

look look at the part numbers of the P5 PROM (the lower left chip on the

card) and the P6 PROM (left column, second from the top).

 

13-sector 16-sector

--------- ---------

P5 341-0009-xx 341-0027-xx

P6 341-0010-xx 341-0028-xx

 

The 16-sector PROMs may also be labelled "P5A" and "P6A".

 

 

A program can test the card type by looking at its slot ROM space. The

signature bytes are as follows:

 

$Cn01: 20

$Cn03: 00

$Cn05: 03

$Cn07: 3C

$CnFF: 00 if 16-sector, FF if 13-sector

 

For example,

 

1 REM Scan the slots for Disk II interfaces

2 REM By Neil Parker

10 FOR S = 1 TO 7

20 A = 49152 + 256 * S

30 IF PEEK (A + 1) < > 32 OR PEEK (A + 3) < > 0 OR

PEEK (A + 5) < > 3 OR PEEK (A + 7) < > 60 THEN 100

40 PRINT "Disk II (";

50 T = PEEK (A + 255)

60 IF T = 0 THEN PRINT "16-sector";: GOTO 90

70 IF T = 255 THEN PRINT "13-sector";: GOTO 90

80 PRINT "other";

90 PRINT ") in slot "S

100 NEXT

 

____________________________

 

 

 

From: Dan DeMaggio

 

018- Can a Disk ][ Drive be used on a IIc or GS smartport?

 

Yes. Call Jameco Electronics. Get the S20-pin header- to -DB19-pin

connector module. It is intended for adapting II/II+ drives for IIc.

(Part# 10022; Product name: AAM APPLE IIC ADAPTER; price: $3.95)

 

____________________________

 

 

 

From: Rubywand

 

019- I would like to add a Read/Write indicator to my Disk ][

drive. How can I do this with a bi-color LED?

 

The circuit described below works well. It shows Red for Drive

Enabled + Write and Green for Drive Enabled + not Write. That is, a Read

is assumed if the drive is ON and no Write is occurring. The advantage

of this approach is that you always have a lighted LED 'drive ON'

indicator and, so, there is no need to drill a new hole in your drive

panel. The new LED can use the hole occupied by the old "in Use"

indicator LED.

 

 

Parts

 

IC- 74121 or 74LS121 1-Shot multi-vibrator

Qgreen- 2N2222A gen purpose NPN transistor

Qred- 2N2222A gen purpose NPN transistor

Rcath- 120 Ohm 5% 1/4 watt resistor

Rgreen- 3.3k 5% 1/8 watt resistor

Rred- 3.3k 5% 1/8 watt resistor

Rp- 20k 5% 1/8 watt resistor

Cp- 10uF/10v 10% "dipped tantalum" capacitor

LED- 2.2V 20ma 3-lead (common cathode) Green/Red bi-color LED

 

 

Building the Circuit

 

IC- locate pin-1 and mark it on bottom side with white-out.

'Dead-bug' mount the IC using epoxy in the open area near

top-middle of board with pin-1 end pointing to the right.

 

connect Rcath to solder pad at - (minus) end of C2

connect #20 wire from IC pin-7 to solder pat at - end of C2

 

connect Rp from IC pin-11 to IC pin-14

connect Cp + to IC pin-10 and Cp - to IC pin-11

 

connect #20 wire from IC pin-14 to solder pat at + end of C4

 

connect a wire from IC pin-3 to end of R16 closest to 74LS125

 

connect Rgreen to IC pin-1 (74121 "/Q" output)

connect Rred to IC pin-6 (74121 "Q" output)

 

solder transistor Qred Collector to Q1 power transistor Collector

(solder pad area at left front of circuit board just to left of

the power transistor). Position toward left edge of pad.

 

solder transistor Qgreen Collector to Q1 power transistor Collector

solder pad to the right of Qred.

 

LED- connect a 3-wire 11" cable to the LED (black to center, red to

to lead with right-angle bend, green to lead with slant bend).

Old "in Use" LED- pop off the retainer ring and push through the

LED. Leave the LED mount in the hole. Cut off the LED, spread

cable ends and tab over with cellophane tape. (Put old LED and

ring into parts box.

 

Spread apart retainer 'leaves' of LED mount (at back side of panel)

to permit easier insertion of new 3-lead LED.

 

Run LED + cable over back of board and along bottom toward the

hole in the front panel. Push through hole. (If hole is too small,

use a Dremel tool and steel 'bulb bit' to slightly enlarge front

part of hole.)

 

connect LED cable black to free end of Rcath

connect LED cable green to Emitter of Qgreen (right transistor)

connect LED cable red to Emitter of Qred.

 

position old LED cable beneath new LED cable.

 

connect a wire from the free end or Rgreen (on IC pin-1) to the

Base lead of transistor Qgreen.

 

connect a wire from the free end or Rred (on IC pin-6) to the

Base lead of transistor Qred.

 

Add epoxy to the back of the LED and holder to secure the LED.

 

 

 

 

How it Works

 

When /Enable goes low to select the Drive, the power transistor

(Q1) switches ON and supplies +12V at its Collector. If there is no

Write, 74121 output /Q is high, Qgreen conducts, and the LED shows

Green. That is: the Green LED will light during boots and for any READs.

 

If the Drive is selected (/Enabled is low) and there is a Write

operation and Write Protect is not ON, then, the /Write Request signal

at 74LS125 pin 8 will go low. This triggers the 74121 One-Shot (at pin

3) producing an aprox. 160ms pulse at 74121 output Q. For the duration

of the pulse, /Q is low and Q is high. Qred conducts, and the LED shows

RED to indicate WRITE.

 

____________________________

 

 

 

From: Dan DeMaggio

 

020- What's the scoop on the 3.5" High Density drive?

 

In order to do High Density on the Apple II, you will need both the

High Density 3.5" drive and the Apple 3.5" HD controller. If you don't

have both, you will only be able to do regular density. Of course, you

will also need High Density diskettes.

 

Once you have collected the above items, you are in for a pleasant

surprise. ProDos 8 programs not only recognize it, but most programs

format and recognize HD disks just fine. You can even boot off of a HD

disk, allowing plenty of room for GS/OS Desk Accessories and such.

 

There are a few drawbacks: You cannot boot copy-protected software

or some FTA demos. You can't daisy-chain a 5.25" on an HD card. Also, it

takes up a slot, even on the GS.