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Maxtor Firball 3 40GB
First post here...
My brother-in-law gave me a spare 40GB Maxtor Fireball 3. I was to install it on my daughters computer. Unfortunately while he was formatting it he accidentally switched the computer off at the mains. The drive is no longer detected by the BIOS. I have downloaded software from Maxtor with no success. I have tried it as a master and a slave on my computer. No success. Any other suggestions... Thanks in advance, Stewart |
#2
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Stewart Ferguson wrote:
First post here... My brother-in-law gave me a spare 40GB Maxtor Fireball 3. I was to install it on my daughters computer. Unfortunately while he was formatting it he accidentally switched the computer off at the mains. The drive is no longer detected by the BIOS. I have downloaded software from Maxtor with no success. I have tried it as a master and a slave on my computer. No success. Any other suggestions... Thanks in advance, Stewart I didn't know cutting power during format can cause this. And it seems rather strange too, because all a format does is blanking data and creating a file system. I got a feeling that your problem is caused by something else. If it did cause your problem, the only sollution I can think of, is doing a low level format, but that is kind of dangerous. And I don't know if that works when the BIOS doesn't detect it. I think so, because I believe a low level format is what makes the sectors, cylinders and so forth, which the bios detects, but I'm not sure. Use it only as a last resort. Tools should be available from several hard-disk manufacturers. Maxtors provides one I believe. -- To send me, Halfgaar, email, remove remove from my email address. |
#3
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I didn't know cutting power during format can cause this. And it seems
rather strange too, because all a format does is blanking data and creating a file system. I got a feeling that your problem is caused by something else. If it did cause your problem, the only sollution I can think of, is doing a low level format, but that is kind of dangerous. And I don't know if that works when the BIOS doesn't detect it. I think so, because I believe a low level format is what makes the sectors, cylinders and so forth, which the bios detects, but I'm not sure. Use it only as a last resort. Tools should be available from several hard-disk manufacturers. Maxtors provides one I believe. You are about 10 years in the past with the low level format. What is sometimes referred to as a low level format is not your dad's LLF as the old comercial said. The LLF where the sec,cyl and tracks are formed is done at at the factory and can not normally be changed by any software that is out. The old MFM type drives were the ones that you really did a LLF on your computer. If the bios can not see somekind of drive it is doubtful you can do anything with it. He may try getting a program from Maxtor off the intertnet and see if it will let him do anything. At this point there is nothing to loose. |
#4
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Ralph Mowery wrote:
You are about 10 years in the past with the low level format. What is sometimes referred to as a low level format is not your dad's LLF as the old comercial said. The LLF where the sec,cyl and tracks are formed is done at at the factory and can not normally be changed by any software that is out. The old MFM type drives were the ones that you really did a LLF on your computer. I know of someone who was able to low-level format a 20 gb (or so) drive with a Maxtor tool. I'm not sure about the 20 gb, but it wasn't a 10 year old drive. I know that low-level format is done at the factory, but I believe you can do it yourself with tools as well. -- To send me, Halfgaar, email, remove remove from my email address. |
#5
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Halfgaar wrote:
Ralph Mowery wrote: You are about 10 years in the past with the low level format. What is sometimes referred to as a low level format is not your dad's LLF as the old comercial said. The LLF where the sec,cyl and tracks are formed is done at at the factory and can not normally be changed by any software that is out. The old MFM type drives were the ones that you really did a LLF on your computer. I know of someone who was able to low-level format a 20 gb (or so) drive with a Maxtor tool. I'm not sure about the 20 gb, but it wasn't a 10 year old drive. I know that low-level format is done at the factory, but I believe you can do it yourself with tools as well. Ralph is correct about this. The "low level format" programs available from most drive maker's web sites are really "zero write" programs. They may be useful in some cases, but are not a real low level format which can only be done at the creation of the disk's original configuration. The old drives used a stepper motor, and a true low level format was available, often originated with debug. This re-wrote the sector IDs and tracks to correspond with the position the heads were placed in by the stepper actuator. This changed with wear, so a low level format was often needed. Modern drives use "voice coil" actuators, and the head position is controlled by a servo track on the platter(s). With the number of tracks per inch now in use, (Your Seagate 120GB drive has 94,600 tracks per inch.), a stepper head positioning mechanism would not be possible. Virg Wall -- Any sufficiently advanced technology is indistinguishable from magic. Arthur C. Clarke's Third Law |
#6
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V W Wall wrote:
Ralph is correct about this. The "low level format" programs available from most drive maker's web sites are really "zero write" programs. They may be useful in some cases, but are not a real low level format which can only be done at the creation of the disk's original configuration. The old drives used a stepper motor, and a true low level format was available, often originated with debug. This re-wrote the sector IDs and tracks to correspond with the position the heads were placed in by the stepper actuator. This changed with wear, so a low level format was often needed. Modern drives use "voice coil" actuators, and the head position is controlled by a servo track on the platter(s). With the number of tracks per inch now in use, (Your Seagate 120GB drive has 94,600 tracks per inch.), a stepper head positioning mechanism would not be possible. Cool stuff, I didn't know that. BTW, do you also know how these voice coil actuators are able to position the heads so precisely? -- To send me, Halfgaar, email, remove remove from my email address. |
#7
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Halfgaar wrote:
V W Wall wrote: .... snip ... With the number of tracks per inch now in use, (Your Seagate 120GB drive has 94,600 tracks per inch.), a stepper head positioning mechanism would not be possible. Cool stuff, I didn't know that. BTW, do you also know how these voice coil actuators are able to position the heads so precisely? They servo to patterns pre-written on the drive, either a separate surface or between sectors. Thus a 2 platter drive may have 4 surfaces, one for servo, and three for data. This is why they can't be re-initialized without precise hardware. -- Chuck F ) ) Available for consulting/temporary embedded and systems. http://cbfalconer.home.att.net USE worldnet address! |
#8
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Halfgaar wrote:
V W Wall wrote: Ralph is correct about this. The "low level format" programs available from most drive maker's web sites are really "zero write" programs. They may be useful in some cases, but are not a real low level format which can only be done at the creation of the disk's original configuration. The old drives used a stepper motor, and a true low level format was available, often originated with debug. This re-wrote the sector IDs and tracks to correspond with the position the heads were placed in by the stepper actuator. This changed with wear, so a low level format was often needed. Modern drives use "voice coil" actuators, and the head position is controlled by a servo track on the platter(s). With the number of tracks per inch now in use, (Your Seagate 120GB drive has 94,600 tracks per inch.), a stepper head positioning mechanism would not be possible. Cool stuff, I didn't know that. BTW, do you also know how these voice coil actuators are able to position the heads so precisely? There are servo tracks written to the platter(s) which define the position of the actual data tracks. These were at one time placed on a dedicated platter, but I believe they are now "embedded" in the actual data tracks. These expand and contract with the data tracks, and so can accurately control the head(s) position. Modern drives also use zones in which the actual sectors/track vary. This way the outside tracks can contain more sectors than the inner ones, thus maintaining a more constant bits/inch density. That's another reason why you cannot do a real low level format, since these zones are selected at the drive's manufacture. These are some of the reasons drive capacity has been limited by BIOSs and operating systems. There is no longer any relation between CHS (cylinder, head, sector) and the position of real sectors on the drive. Until recently the BIOS limited the LBA, (logical block access), to a 28 bit number. This limited the drive size to 2^28 times the bits/sector, or 268435456 times 512 or about 137GB (128GiB). Newer BIOSs can address LBA with a 48 bit number. Virg Wall -- Any sufficiently advanced technology is indistinguishable from magic. Arthur C. Clarke's Third Law |
#9
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I know of someone who was able to low-level format a 20 gb (or so) drive
with a Maxtor tool. I'm not sure about the 20 gb, but it wasn't a 10 year old drive. I know that low-level format is done at the factory, but I believe you can do it yourself with tools as well. The so called LLF was not really a low level format that writes the sector and cylinder information to the drive. This has not been done with any of the IDE drives. The older computers ( maybe the 486 motherboards were the last ?) had a LLF in the bios. It would seem to run on some IDE drives but did nothing. I don't recall the exect size, but anything normally seen that was around 100 MB or over would fall in the IDE catagory and would not do a true LLF. I doubt a drive that could be LLF has been made in 10 years or more. I think it was 92 or 93 that I got a 386 computer and it had an IDE drive in it. It had a LLF in the Bios but when ran on the IDE drive it seemed to run but did not do anything. |
#10
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Both of these configurations would require another drive attached to
the same cable. Did you have another drive attached to this same cable? ...although on some Maxtor drives, 'single' drive and 'master' drive are the same jumper setting. Double check your jumpers per the schematic that should be on top of the drive. Only western digital drives have a seperate 'single' setting. All other drives have to be set to master when single. -- To send me, Halfgaar, email, remove remove from my email address. |
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