New Hard Drive not detected by System

Question: If you installed a new disk but the system can’t see it.

Ten steps to solive Hard drive not detected or recognized by system.

Step One
The easiest thing to check: did you attach a data cable to an appropriate port on the motherboard and a power cable to the power supply? The power cable is sometimes forgotten.

Step Two
Just where exactly is the system not seeing it? In the OS, in the BIOS, or “What is BIOS?”

  • If “What is BIOS,” go to step three
  • If “It’s not seen in the BIOS,” go to step four
  • If “It’s seen in BIOS but not in the OS”, go to step five

Step Three
You asked, “What is BIOS?” When you first apply power to the system, or boot, it starts running a tiny little program called BIOS (it’s an acronym, do you really care what for?) that resides on the motherboard. You will start seeing text messages, and one of the earliest will say “Press <someKey> for Setup.” <someKey> may be Esc, Del, F10, or something else; don’t ask me why it wasn’t standardized.

Anyway, press that key. The startup will continue for a while, and then it will send you to a really primitive-looking setup screen that depends on what your motherboard is, so I can’t give you an exact example here. Look in your Motherboard manual. Somewhere in it, you will find a list of hard drives. On my Asus P5P55D Delux, it looks like this:

New Hard Drive not detected by System

If you don’t know which of them is which of your drives, just count them. Are there enough to account for the new drive (if you had one before, do you see two now)?

If “It’s seen in the BIOS,” go to step five. Else, go to step four.

Step Four
“I don’t see it in the BIOS.” Well, that’s nasty. Some, very few, BIOSes require that the drive controller be enabled, or even the particular port be enabled. Look through your BIOS or your manual to see if this is the case. Dell systems are particularly obnoxious this way.

If you can’t get the BIOS to recognize it, exit this checklist and post a question, giving such information as your therboard make and model, disk make and model, and the fact that it is not detected in BIOS. Sorry.

If you do get the BIOS to recognize it, go to step five.

Step Five
“It’s seen in the BIOS.” But your OS does not see it. You do have an already running OS, don’t you? If not, well, I haven’t written that part yet.

Brand-new drives need to be partitioned and the partitions formatted. If you know how to do this, skip to step six. Otherwise, read on.

Log in to your Windows OS (yes, I’m only covering Windows) with an account with Administrator privileges and open the Control Panel. Select Administrative Tools, and from there select Computer Management. In the new window that opens up, navigate down the tree on the left to Disk Management. It should look something like this:

New Hard Drive not detected by System

See how on the bottom panel on the right there is one “stripe” for each of the hard (or solid-state) drives? Well, let’s look for your new one there. If you can’t figure out which is the new one, shut down the machine, take out the new drive, start up the machine, and open Disk Management again. Print out a copy of it. Then put the new drive back in (please, shut down first!) and re-open Disk Management. It’s the stripe that wasn’t there before.

If the new drive is not seen at all, you have a different problem. Please skip to step ten.
What you will probably see is your new drive represented as a single block of unallocated space. If not, it’s time once again to leave me and ask for more specific help. If that is what you see, because it is a brand-new disk it has to be partitioned and formatted, as I mentioned above. Here’s how you create one big partition so that all of the space on the drive shows up in one new drive letter in Windows Explorer.

** If you do these operations on the wrong disk you can erase all of the data on it. Be sure that you either have backups or have the identified the right disk. Or both. **

Right-click anywhere in the big block or Unallocated Space that represents your drive. Choose the action New Partition (or New Simple Volume in Windows 7). You want to create a Primary partition (or Simple Volume) that takes up the full amount of available space. If you are going through the Partition Wizard, at this point you will also choose to format the partition as NTFS, with the Default “Allocation Unit Size” and a Label like “New Big Disk.” Choose Quick Format if that choice is offered.

When it is through working (2 minutes to 2 hours), if you look in Windows Explorer you will now have a nice new drive letter with all of your new space. Enjoy! You are done. Leave this checklist.

Step Six
OK, you could skip all the detailed instructions on partitioning and formatting. One of two things happened. If you succeeded, you are done with this checklist. If, on the other hand, the Disk Manager did not show the new, unpartitioned drive, you have to go to the dreaded Step Ten.

Step Seven
There is no step seven. Or eight or nine, for that matter. I just used ten earlier to make sure that I had enough room.

Step Ten
On some motherboards, there is more than one controller. Some SATA ports are controlled by the Southbridge, and disks attached to them should always show up in Disk Management. There may be more that are controlled by an additional controller chip on the motherboard. As of January of 2011, that includes any SATA 3 ports.

Before the OS can see a drive attached to these ports, you have to load the driver for the controller chip. It was on the CD that came with the motherboard, or you can read your motherboard manual to find out what the controller chip is and download the most current version for whatever OS version you are using. Install that driver and reboot, and the drive will magically appear in the Disk Management pane (once you re-open that pane). You can go back to step five.

Note: This quick guide applies to internal hard drives added to an already bootable system only.

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How to Access Motherboard BIOS?

Access BIOS The BIOS is a program pre-installed on computers (with the exception of Macs) that the computer uses to start up. The CPU accesses the BIOS before the operating system is loaded. The BIOS then checks all your hardware connections and locates all of your devices. If everything is OK, the BIOS loads the operating system into the computer’s memory and finishes the boot-up process.

Some of the most common single key commands are:

F1, F2, ESC and DEL.

Some of the most common key combinations are:

CTRL+ALT+ESC, CTRL+ALT+DEL, or CTRL+ALT+INS.

///////////////////

ALR Advanced Logic Research, Inc. ® PC / PCI     //F2
ALR PC non / PCI     //CTRL+ALT+ESC
AMD® (Advanced Micro Devices, Inc.) BIOS     //F1
AMI (American Megatrends, Inc.) BIOS     //DEL
Award™ BIOS     //CTRL+ALT+ESC
Award BIOS     //DEL
DTK® (Datatech Enterprises Co.) BIOS     //ESC
Phoenix™ BIOS     //CTRL+ALT+ESC
Phoenix BIOS     //CTRL+ALT+S
Phoenix BIOS     //CTRL+ALT+INS

Acer®     //F1, F2, CTRL+ALT+ESC
ARI®     //CTRL+ALT+ESC, CTRL+ALT+DEL
AST®      //CTRL+ALT+ESC, CTRL+ALT+DEL
Compaq® 8700      //F10
CompUSA®     //DEL
Cybermax®      //ESC
Dell 400     //F3, F1
Dell 4400     //F12
Dell Dimension®     //F2 or DEL
Dell Inspiron®      //F2
Dell Latitude     //Fn+F1 (while booted)
Dell Latitude     //F2 (on boot)
Dell Optiplex     //DEL
Dell Optiplex     //F2
Dell Precision™     //F2
eMachine®     //DEL , F 2
Gateway® 2000 1440     //F1
Gateway 2000 Solo™     //F2
HP® (Hewlett-Packard)     //F1, F2 (Laptop, ESC)
IBM®     //F1
E-pro Laptop     //F2
IBM PS/2®     //CTRL+ALT+INS after CTRL+ALT+DEL
Intel® Tangent     //DEL
Micron®     //F1, F2, or DEL
Packard Bell®      //F1, F2, Del
Seanix     //DEL
Sony® VAIO     //F2
Sony VAIO     //F3
Tiger     //DEL
Toshiba® 335 CDS     //ESC
Toshiba Protege     //ESC
Toshiba Satellite 205 CDS     //F1
Toshiba Tecra     //ESC then F1 or F2

Fujutsu Manuals & BIOS Manuals & BIOS Download
Lenovo(formerly IBM) Lenovo BIOS Access page

Toshiba Notebook:
1. Turn on computer by Holding down power button while pressing the ESC key.
The machine will beep, then display:
Check System, then press [F1] key.
2. Release ESC key
3. Press F1 key

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Each computer and BIOS manufacturer can use a different key or combination of keys in order to enter the System BIOS. Sometimes during system boot when the screen is blank you will see some text in the bottom middle or bottom right of the screen that will tell you what the key sequence is. If not, you may need to consult your computer manual, or contact the manufacturer of your computer to find out what the key or key combination is.

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No drive letter assigned after installing a new hard drive

Disk Manager Why is my new drive recognized in the system BIOS but has no drive letter assigned to it in Windows?

Before the operating system can recognize the drive and assign it a drive letter, you must partition and format the drive. New hard drives are rarely pre-partitioned by the manufacturer. There are three options to formatting and partitioning the drive:

  • Disk Management is compatible Windows NT, 2000, and xp.
  • FDISK is compatible with Windows 9x, Me. Please refer to Microsoft’s knowledge base article Q255867 for instructions on FDISK.
  • Seagate’s MaxBlast and DiscWizard utilities are compatible with all Window operating systems. The MaxBlast and DiscWizard utilities are fast and easy ways to format a drive.
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BIOS Limitation/BIOS Capacity Barrier

BIOS Limitation/BIOS Capacity Barrier The BIOS limitation or BIOS capacity barrier is the computer’s inability to recognize hard drive capacities larger than allowed by the hard-coded programming contained in your system BIOS. For example, your system BIOS might only be capable of understanding a hard drive capacity of up to 32 GB. If you then attempt to install and auto-detect a 40 GB hard drive, the system will freeze because the BIOS is not capable of understanding the capacity reported by the hard drive. In short, that particular BIOS cannot count past 32 GB.

Seven Major BIOS Limitations:

  • Systems with BIOS dated prior to July 1994 (504 MB Limitation).
    Typically these BIOS will have a 504 megabyte (1,024 cylinders) limitation. Prior to this date, most manufacturers’ BIOS did not provide the Logical Block Address (LBA) feature needed for proper translation. Some BIOS had LBA mode in the setup, but the feature did not work properly.
  • Systems with BIOS dated after July of 1994 (2.048 GB Limitation).
    Typically, these BIOS provide support for hard drives with capacities larger than 504 megabytes. However, depending on the manufacturer’s release date and version number, different limitations may be encountered. The major limitation that surfaces is the 4,093-4,096 cylinder limitation. This barrier is derived from the fact that some BIOS manufacturers implemented Logical Block Addressing (LBA) translation in their BIOS with a 4,093 – 4,096 cylinder limitation. System hangs would occur when the cylinder limitation threshold is exceeded. A system hang is defined when the operating system hangs during initial loading, either from floppy diskette or existing hard drives. If these symptoms of system hang occur or there are questions whether the system BIOS will support the drive, contact the system or motherboard manufacturer for assistance.
  • 4.2 GB Limitation.
    The maximum parameters at the 4.2 GB barrier are 8,190 cylinders, 16 heads and 63 sectors for a capacity of 4.2 GB. A system hang is defined when the operating system stops responding during initial loading, either from floppy diskette or existing hard drives. This can be caused by the BIOS reporting the number of heads to the operating system as 256 (100h). The register size DOS/Windows 95 uses for the head count has a capacity of two hex digits. This is equivalent to decimal values 255. If these symptoms of system hang occur or there are questions whether the system BIOS will support the drive, contact the system or motherboard manufacturer for assistance.
  • 8.4 GB limitation.
    The maximum parameters at the 8.4 GB barrier are 16,383 cylinders, 16 heads and 63 sectors for a capacity of 8.455 GB. To go beyond this boundary, a new extended INT 13 function is needed from the BIOS as a support feature for the drives. The BIOS listed below are all “CORE” BIOS that will support drives larger than 8.4 GB. Even though a BIOS is dated correctly or is the current version, it may not be able to support extended interrupt 13 because of modification done to the “CORE” of the BIOS from the motherboard manufacturer.
  • 32 GB limitation.
    This condition is caused by the Award BIOS inability to address hard drives greater than 32GB. Award has been made aware of this issue and has fixed their “core” BIOS as of 6/99. They are passing this information along to the motherboard manufacturers’ that use their BIOS. Updates for the BIOS should be available soon from individual motherboard manufacturers’ to correct this problem.
  • 64 GB Limitation
    There is no 64GB BIOS Capacity Barrier. If you use FDISK to format a drive that is larger than 64 GB, FDISK will report the incorrect disk size.
  • 137 GB Limitation
    Some system BIOSes are limited to 137 GB because they can only support 28 bit Logical Block Addressing (LBA).

Procedure on how to overcome the BIOS capacity limitation:

  • Check with the system or motherboard manufacturer for any BIOS upgrades for the system. If there are no BIOS updates from the manufacturer you can visit www.esupport.com for a BIOS update.
  • (Recommended) Purchase a PCI ATA controller card that will support the capacity of the drive. The two benefits of ATA controller cards are:
    1. the ability to support large capacity drives
    2. the ability to support the faster transfer rates of the drive.
Read More

3 Ways To Check BIOS Version

3 ways To check bios version There are 3 ways to check your BIOS version easily:

  • Monitor Display:
    Most PCs display the BIOS version upon initial boot up. Watch the monitor as the system boots up. The BIOS information is frequently one of the first things to appear. Press the Pause/Break key during this display to freeze the screen so that you can make note of the BIOS version number.
  • Motherboard Model Number:
    Many vendors post lists of the BIOS version provided with various system models on their corporate web sites.
  • Software Utilities:
    Use a software based reporting utility, such as Belarc Advisor or others.
Read More

Should I update the BIOS on my SCSI controller?

SCSI Controller If you are not having any problems with your system, it is not necessary to update the BIOS for your SCSI controller or host adapter.

We recommend that you always contact the manufacturer of your SCSI controller for any available BIOS updates. SCSI controllers (and drives) reach development end-of-life. New updates may not be available. Some SCSI controllers require OEM specific versions to work with the specific chipset on the controller. This is especially true if your SCSI controller or host adapter was installed by an OEM manufacturer (such as Compaq, HP and Dell). BIOS utilities are typically updated with a manufacturer provided utility.

Before you proceed, identify your specific make, model of SCSI controller, the current BIOS revision numbers, and part number (typically printed on BIOS chip).

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Resolve O LBA, Seagate 7200.11 BIOS don’t recognize (Part II)

PART 2

If your HDD 7200.11 is not recognize by BIOS,

and after you connect him to COM1 and turn on power if you have this response for any command like:

Rst 0x10M
LED:000000CC FAddr:0025BF67
Ctrl + Z
F3 T>
LED:000000CC FAddr:0025BF67
your drive is busy!

power off your Hdd
slightly unscrew one screw near to motor connection to PCB and put plastic visit card! Or you can remove PCB.
Effect is the same…
power on your hdd,

Ctrl +Z

F3 T>/2
F3 2>
F3 2>Z

Spin Down Complete
Elapsed Time 0.138 msecs
F3 2>

now you put PCB back, or pull visit card
enter this
F3 2>U
Spin Up Complete
Elapsed Time 7.242 seconds
F3 2>

F3 T>/1
F3 1>N1
this is a S.M.A.R.T. erase

after that POWER off HDD, it means that you plug off power to hdd,
power on hdd,
reenter
CTRL+Z on terminal
F3 T>i4,1,22
this is G-list erase

after that POWER off HDD, it means that you plug off power to hdd,
reenter
CTRL+Z on terminal
F3 T>m0,2,2,0,0,0,0,22 Enter

!!!IMPORTANT, don’t turn hdd power off, or comp off, wait about 30 sec to 2 minutes until it finished!!!

then you see something like this.

Max Wr Retries = 00, Max Rd Retries = 00, Max ECC T-Level = 14, Max Certify Rewrite Retries = 00C8 Max retries Wr = 00, Max Rd retries = 00, Max T-ECC Level = 14, Max certify Rewrite retries = 00C8
User Partition Format 10% complete, Zone 00, Pass 00, LBA 00004339, ErrCode 00000080, Elapsed Time 0 mins 05 secs User Partition Format 10% complete, Zone 00, Pass 00, LBA 00004339, ErrCode 00000080, Elapsed Time 0 mins 05 secs
User Partition Format Successful – Elapsed Time 0 mins 05 secs User Partition Successful Format – Elapsed Time 0 mins 05 secs

After that hit

F3 T>/2
and
F3 2>Z
Spin Down Complete
Elapsed Time 3.038 msecs

Turn off power from your HDD, od shutdown your comp.

That’s all!

WARNING: Please do NOT try this if you have valuable data on your drive. Do not blame anyone if something goes wrong. You do it at your own risk. Remember that if something goes wrong, it is extremely unlikely that anyone will be able to help you remotely. One wrong command via terminal could easily result in a completely bricked HDD (I really do mean bricked = no one will be able to recover it, even Seagate).

Read More

Resolve O LBA, Seagate 7200.11 BIOS don’t recognize (Part I)

This tutorial is not for inexperienced users!!! Do NOT POWER OFF YOUR hdd, computer, during it, (EXCEPT IF I SAY SO)and you just to be sure connect your computer to UPS.

First you must have to build serial rs232 converter to TX,RX GND, you can use any data cable from your cell phone from Siemens 35 series custom build data cable buid on this picture with max232. Be sure that you put zener diode 2V7 at the picture..Because you could burn your Tx, Rx, on HDD-s PCB.

So, when you build, get your adapter, connect it to this pins on Seagate drive.
[ ”””””””’| |””””’ ] [ .. ..] —-> Rx.. Tx
You do not need to connect SERIAL-ATA CABEL
open hyper terminal or another type of terminal select Serial port example “COM1”
set bit rate to 38400bps
data bits 8
parity N
stop bits 1

it’s default settings except bps.
plug power to disk and after that you will see on terminal something like this:

PART 1

Rst 0x10M
hit Ctrl + Z to get “prompt”
F3 T>

now, if your BIOS recognize disk but there is 0 LBA,0 capacity

all you need is to hit this command:

F3 T>m0,2,2,0,0,0,0,22 Enter

!!!IMPORTANT, don’t turn hdd power off, or comp off, wait about 30 sec to 2 minutes until it finished!!!

then you see something like this.

Max Wr Retries = 00, Max Rd Retries = 00, Max ECC T-Level = 14, Max Certify Rewrite Retries = 00C8 Max retries Wr = 00, Max Rd retries = 00, Max T-ECC Level = 14, Max certify Rewrite retries = 00C8
User Partition Format 10% complete, Zone 00, Pass 00, LBA 00004339, Err Code 00000080, Elapsed Time 0 minutes 05 seconds User Partition Format 10% complete, Zone 00, Pass 00, LBA 00004339, Err Code 00000080, Elapsed Time 0 minutes 05 seconds
User Partition Format Successful – Elapsed Time 0 minutes 05 seconds User Partition Successful Format – Elapsed Time 0 minutes 05 seconds

After that hit

F3 T>/2
and
F3 2>Z
Spin Down Complete
Elapsed Time 3.038 msecs

Turn off power from your HDD, od shutdown your computer.

WARNING: Please do NOT try this if you have valuable data on your drive. Do not blame anyone if something goes wrong. You do it at your own risk. Remember that if something goes wrong, it is extremely unlikely that anyone will be able to help you remotely. One wrong command via terminal could easily result in a completely bricked HDD (I really do mean bricked = no one will be able to recover it, even Seagate).

WARNING: Please do NOT try this if you have valuable data on your drive. Do not blame anyone if something goes wrong. You do it at your own risk. Remember that if something goes wrong, it is extremely unlikely that anyone will be able to help you remotely. One wrong command via terminal could easily result in a completely bricked HDD (I really do mean bricked = no one will be able to recover it, even Seagate).

Read More