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Connecting/disconnecting Seagate HDDs.
The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank |
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#2
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Connecting/disconnecting Seagate HDDs.
Frank Martin wrote:
The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank I've tested it and it works fine. But I don't use the feature regularly, due to the rats nest of wiring inside my computer. For the OS to recognize the drive, you'd want the equivalent of the Intel AHCI driver. I tested using a VIA chipset, and whatever driver VIA offered, seemed to support "hot plug". Bottom line, there is at least one kind of driver in use for SATA, where hot plug is not recognized, and the drive in that case, would only be seen if it was present at power up. If the wrong driver is present, the drive will not be seen after hot plugging it. The main issue with hot plug, is shock and vibration. You don't want to shake the drive while fiddling with cables. The SATA connector on the back of the drive, is actually designed for SATA backplanes. In other words, the intent was for a drive to slide on rails, and seat against a mating connector on a backplane. The SATA connector was designed for server configurations and hot plug - usage as a consumer drive in desktops is an afterthought. (A SATA backplane, where drives would slide in on some kind of carrier.) http://images.dr3vil.com/uploads/hotswapbays.jpg But you can still use cabling and do the same thing as a server backplane would be doing. This is the order I'd suggest, for manual hot-plug connection. 1) Connect data cable to the hard drive. This is to avoid shaking the drive end. 2) Connect power cable to the hard drive. You should be able to do this step as you wish. If you're using an extension power cable, you can connect the far end to the power supply, as step (2b). Or, if the power cable comes straight from the power supply, you can just connect it to the drive. (See also, Step 10 below.) 3) The drive starts to spin, once the power connector is in place. You don't want to shake it, after this point in time. 4) Connect the far end of the data cable, to the motherboard connector. Look at the connectors on each end, for the characteristic "L" shape, to make mating easier. There will be a "dimple" or retention feature on the SATA data cable, to make it fit snugly, so it won't fall off. You have to be able to tell the difference between the resistance the dimple will offer, versus getting the stupid "L" upside-down. Don't try to force it on the wrong way. 5) If the AHCI driver is running, or a chipset driver known to support hot plug is in place, the drive will now be detected. If there is a valid partition on it, you'll see that partition added to the contents of the "My Computer" window. If the drive hasn't been partitioned yet, you should see a new drive in Disk Management, and you can partition it there. 6) You'll notice a "Safely Remove" icon in the tray. There is a list of removable devices in there, and your new, hot-plugged hard drive will be one of the items. If you happen to see the C: drive in the list, don't panic - you can't remove it, even if you try. Now, to remove the hot-plug drive later, you can either do a regular shutdown from the Start menu, or you can "hot-unplug". 7) Make sure no programs have open files on the hard drive in question. Use the Safely Remove icon, to select the drive from a list of removable drives. 8) Safely Remove will either tell you the drive is now safe to remove, or that it could not remove the drive. You'll be able to remove the drive, once all opened files have been closed. If you were using Notepad to read a text file on the drive, quitting Notepad should close the connection to that file. Some programs can be very sneaky, so this step can be hard to do. 9) If "Safely Remove" reports the drive was removed, you can unplug the data cable from the motherboard end. That is to avoid shaking the drive. If you were to unplug it from the hard drive end, there would be some shock applied to the drive mechanism. In step 9, the spindle is still spinning. In theory, you should be able to tell a drive to spin down, but I don't know of a way to do that. 10) What happens to drive power now, is a tricky bit. If you were using a power extension cable for the SATA power, then you'd disconnect the far end of that. That is to avoid shaking the drive. If the power connector is coming straight from the power supply, I'd personally, wait until the next shutdown, to retrieve the drive and remove the power cable. So using an extension cable for the power, is the most flexible option. As far as I know, you can do anything you want. But if you want a long life for the hard drive, I recommend doing things in such a way, that the drive is not shaken while the spindle is in motion. With the appropriate extension cabling, that isn't too hard to arrange. I expect on servers, they just rip the drive out with the spindle still in motion. There is no way to know, whether the heads were parked by "Safely Remove" or not, or whether they're retracted by the loss of power being detected. On my drive, it was still spinning after "Safely Remove". And I can't tell if the heads were parked at that point or not. I used one of these extension cables for power, so I could remove the far end of the power connection at the end of a "session" with a drive. The drive sat on a platform, next to the open PC. I would unplug the Molex 1x4 end, to remove power, leaving the 15 pin end seated on the drive. I have enough slack in my power supply cabling, that pulling the Molex apart doesn't strain the power cable. (1x4 Molex to 1x15 SATA power extension cable) http://images17.newegg.com/is/image/newegg/12-887-006-S02?$S640W$ ******* If you use an external "ESATA" enclosure, those have their own power supply. That gives slightly more freedom regarding shaking things. ESATA connectors have a better design, which raises the number of insertions before connector wearout to about 5000 cycles. But your computer needs an ESATA plate on the back with a connector, or the addition of an ESATA card if that is missing, if you want to use ESATA. The ESATA electrical spec is almost the same as regular SATA, except the electrical levels are shifted a bit, to make it possible to use a longer cable (allows more loss budget). If you're using an ordinary SATA motherboard connector, and some kind of passive cable and adapter plate, simply reduce the length of the external cabling for best results. You can buy ESATA cables in various lengths. http://en.wikipedia.org/wiki/Esata#eSATA This is an example of a short ESATA cable, at only 0.5 meters (1.64 feet). If your computer has "real" ESATA electrical levels, the cable can be 2.0 meters long. If in doubt, keep it short. http://images17.newegg.com/is/image/newegg/12-816-035-S02?$S640W$ One of the benefits of using an ESATA enclosure, is you can keep the side of your PC closed (at least, as long as you have an ESATA connector on the back of the computer to use for the data connection). If you suspect the data cabling you bought is crappy, you have the option of fitting the "Force150" jumper on the back of the Seagate drive, to drop the cable rate to 1.5Gbit/sec versus the 3.0Gbit/sec it is capable of running. If you were seeing problems with data errors, that is something you can try. That will make next to no difference to transfer performance, so isn't a big deal. I've tested a couple Seagate drives here, with that jumper in or out, and can't really tell the difference. Paul |
#3
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Connecting/disconnecting Seagate HDDs.
Frank Martin wrote:
The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank I've tested it and it works fine. But I don't use the feature regularly, due to the rats nest of wiring inside my computer. For the OS to recognize the drive, you'd want the equivalent of the Intel AHCI driver. I tested using a VIA chipset, and whatever driver VIA offered, seemed to support "hot plug". Bottom line, there is at least one kind of driver in use for SATA, where hot plug is not recognized, and the drive in that case, would only be seen if it was present at power up. If the wrong driver is present, the drive will not be seen after hot plugging it. The main issue with hot plug, is shock and vibration. You don't want to shake the drive while fiddling with cables. The SATA connector on the back of the drive, is actually designed for SATA backplanes. In other words, the intent was for a drive to slide on rails, and seat against a mating connector on a backplane. The SATA connector was designed for server configurations and hot plug - usage as a consumer drive in desktops is an afterthought. (A SATA backplane, where drives would slide in on some kind of carrier.) http://images.dr3vil.com/uploads/hotswapbays.jpg But you can still use cabling and do the same thing as a server backplane would be doing. This is the order I'd suggest, for manual hot-plug connection. 1) Connect data cable to the hard drive. This is to avoid shaking the drive end. 2) Connect power cable to the hard drive. You should be able to do this step as you wish. If you're using an extension power cable, you can connect the far end to the power supply, as step (2b). Or, if the power cable comes straight from the power supply, you can just connect it to the drive. (See also, Step 10 below.) 3) The drive starts to spin, once the power connector is in place. You don't want to shake it, after this point in time. 4) Connect the far end of the data cable, to the motherboard connector. Look at the connectors on each end, for the characteristic "L" shape, to make mating easier. There will be a "dimple" or retention feature on the SATA data cable, to make it fit snugly, so it won't fall off. You have to be able to tell the difference between the resistance the dimple will offer, versus getting the stupid "L" upside-down. Don't try to force it on the wrong way. 5) If the AHCI driver is running, or a chipset driver known to support hot plug is in place, the drive will now be detected. If there is a valid partition on it, you'll see that partition added to the contents of the "My Computer" window. If the drive hasn't been partitioned yet, you should see a new drive in Disk Management, and you can partition it there. 6) You'll notice a "Safely Remove" icon in the tray. There is a list of removable devices in there, and your new, hot-plugged hard drive will be one of the items. If you happen to see the C: drive in the list, don't panic - you can't remove it, even if you try. Now, to remove the hot-plug drive later, you can either do a regular shutdown from the Start menu, or you can "hot-unplug". 7) Make sure no programs have open files on the hard drive in question. Use the Safely Remove icon, to select the drive from a list of removable drives. 8) Safely Remove will either tell you the drive is now safe to remove, or that it could not remove the drive. You'll be able to remove the drive, once all opened files have been closed. If you were using Notepad to read a text file on the drive, quitting Notepad should close the connection to that file. Some programs can be very sneaky, so this step can be hard to do. 9) If "Safely Remove" reports the drive was removed, you can unplug the data cable from the motherboard end. That is to avoid shaking the drive. If you were to unplug it from the hard drive end, there would be some shock applied to the drive mechanism. In step 9, the spindle is still spinning. In theory, you should be able to tell a drive to spin down, but I don't know of a way to do that. 10) What happens to drive power now, is a tricky bit. If you were using a power extension cable for the SATA power, then you'd disconnect the far end of that. That is to avoid shaking the drive. If the power connector is coming straight from the power supply, I'd personally, wait until the next shutdown, to retrieve the drive and remove the power cable. So using an extension cable for the power, is the most flexible option. As far as I know, you can do anything you want. But if you want a long life for the hard drive, I recommend doing things in such a way, that the drive is not shaken while the spindle is in motion. With the appropriate extension cabling, that isn't too hard to arrange. I expect on servers, they just rip the drive out with the spindle still in motion. There is no way to know, whether the heads were parked by "Safely Remove" or not, or whether they're retracted by the loss of power being detected. On my drive, it was still spinning after "Safely Remove". And I can't tell if the heads were parked at that point or not. I used one of these extension cables for power, so I could remove the far end of the power connection at the end of a "session" with a drive. The drive sat on a platform, next to the open PC. I would unplug the Molex 1x4 end, to remove power, leaving the 15 pin end seated on the drive. I have enough slack in my power supply cabling, that pulling the Molex apart doesn't strain the power cable. (1x4 Molex to 1x15 SATA power extension cable) http://images17.newegg.com/is/image/newegg/12-887-006-S02?$S640W$ ******* If you use an external "ESATA" enclosure, those have their own power supply. That gives slightly more freedom regarding shaking things. ESATA connectors have a better design, which raises the number of insertions before connector wearout to about 5000 cycles. But your computer needs an ESATA plate on the back with a connector, or the addition of an ESATA card if that is missing, if you want to use ESATA. The ESATA electrical spec is almost the same as regular SATA, except the electrical levels are shifted a bit, to make it possible to use a longer cable (allows more loss budget). If you're using an ordinary SATA motherboard connector, and some kind of passive cable and adapter plate, simply reduce the length of the external cabling for best results. You can buy ESATA cables in various lengths. http://en.wikipedia.org/wiki/Esata#eSATA This is an example of a short ESATA cable, at only 0.5 meters (1.64 feet). If your computer has "real" ESATA electrical levels, the cable can be 2.0 meters long. If in doubt, keep it short. http://images17.newegg.com/is/image/newegg/12-816-035-S02?$S640W$ One of the benefits of using an ESATA enclosure, is you can keep the side of your PC closed (at least, as long as you have an ESATA connector on the back of the computer to use for the data connection). If you suspect the data cabling you bought is crappy, you have the option of fitting the "Force150" jumper on the back of the Seagate drive, to drop the cable rate to 1.5Gbit/sec versus the 3.0Gbit/sec it is capable of running. If you were seeing problems with data errors, that is something you can try. That will make next to no difference to transfer performance, so isn't a big deal. I've tested a couple Seagate drives here, with that jumper in or out, and can't really tell the difference. Paul |
#4
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Connecting/disconnecting Seagate HDDs.
"Paul" wrote in message ... Frank Martin wrote: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank I've tested it and it works fine. But I don't use the feature regularly, due to the rats nest of wiring inside my computer. For the OS to recognize the drive, you'd want the equivalent of the Intel AHCI driver. I tested using a VIA chipset, and whatever driver VIA offered, seemed to support "hot plug". Bottom line, there is at least one kind of driver in use for SATA, where hot plug is not recognized, and the drive in that case, would only be seen if it was present at power up. If the wrong driver is present, the drive will not be seen after hot plugging it. The main issue with hot plug, is shock and vibration. You don't want to shake the drive while fiddling with cables. The SATA connector on the back of the drive, is actually designed for SATA backplanes. In other words, the intent was for a drive to slide on rails, and seat against a mating connector on a backplane. The SATA connector was designed for server configurations and hot plug - usage as a consumer drive in desktops is an afterthought. (A SATA backplane, where drives would slide in on some kind of carrier.) http://images.dr3vil.com/uploads/hotswapbays.jpg But you can still use cabling and do the same thing as a server backplane would be doing. This is the order I'd suggest, for manual hot-plug connection. 1) Connect data cable to the hard drive. This is to avoid shaking the drive end. 2) Connect power cable to the hard drive. You should be able to do this step as you wish. If you're using an extension power cable, you can connect the far end to the power supply, as step (2b). Or, if the power cable comes straight from the power supply, you can just connect it to the drive. (See also, Step 10 below.) 3) The drive starts to spin, once the power connector is in place. You don't want to shake it, after this point in time. 4) Connect the far end of the data cable, to the motherboard connector. Look at the connectors on each end, for the characteristic "L" shape, to make mating easier. There will be a "dimple" or retention feature on the SATA data cable, to make it fit snugly, so it won't fall off. You have to be able to tell the difference between the resistance the dimple will offer, versus getting the stupid "L" upside-down. Don't try to force it on the wrong way. 5) If the AHCI driver is running, or a chipset driver known to support hot plug is in place, the drive will now be detected. If there is a valid partition on it, you'll see that partition added to the contents of the "My Computer" window. If the drive hasn't been partitioned yet, you should see a new drive in Disk Management, and you can partition it there. 6) You'll notice a "Safely Remove" icon in the tray. There is a list of removable devices in there, and your new, hot-plugged hard drive will be one of the items. If you happen to see the C: drive in the list, don't panic - you can't remove it, even if you try. Now, to remove the hot-plug drive later, you can either do a regular shutdown from the Start menu, or you can "hot-unplug". 7) Make sure no programs have open files on the hard drive in question. Use the Safely Remove icon, to select the drive from a list of removable drives. 8) Safely Remove will either tell you the drive is now safe to remove, or that it could not remove the drive. You'll be able to remove the drive, once all opened files have been closed. If you were using Notepad to read a text file on the drive, quitting Notepad should close the connection to that file. Some programs can be very sneaky, so this step can be hard to do. 9) If "Safely Remove" reports the drive was removed, you can unplug the data cable from the motherboard end. That is to avoid shaking the drive. If you were to unplug it from the hard drive end, there would be some shock applied to the drive mechanism. In step 9, the spindle is still spinning. In theory, you should be able to tell a drive to spin down, but I don't know of a way to do that. 10) What happens to drive power now, is a tricky bit. If you were using a power extension cable for the SATA power, then you'd disconnect the far end of that. That is to avoid shaking the drive. If the power connector is coming straight from the power supply, I'd personally, wait until the next shutdown, to retrieve the drive and remove the power cable. So using an extension cable for the power, is the most flexible option. As far as I know, you can do anything you want. But if you want a long life for the hard drive, I recommend doing things in such a way, that the drive is not shaken while the spindle is in motion. With the appropriate extension cabling, that isn't too hard to arrange. I expect on servers, they just rip the drive out with the spindle still in motion. There is no way to know, whether the heads were parked by "Safely Remove" or not, or whether they're retracted by the loss of power being detected. On my drive, it was still spinning after "Safely Remove". And I can't tell if the heads were parked at that point or not. I used one of these extension cables for power, so I could remove the far end of the power connection at the end of a "session" with a drive. The drive sat on a platform, next to the open PC. I would unplug the Molex 1x4 end, to remove power, leaving the 15 pin end seated on the drive. I have enough slack in my power supply cabling, that pulling the Molex apart doesn't strain the power cable. (1x4 Molex to 1x15 SATA power extension cable) http://images17.newegg.com/is/image/newegg/12-887-006-S02?$S640W$ ******* If you use an external "ESATA" enclosure, those have their own power supply. That gives slightly more freedom regarding shaking things. ESATA connectors have a better design, which raises the number of insertions before connector wearout to about 5000 cycles. But your computer needs an ESATA plate on the back with a connector, or the addition of an ESATA card if that is missing, if you want to use ESATA. The ESATA electrical spec is almost the same as regular SATA, except the electrical levels are shifted a bit, to make it possible to use a longer cable (allows more loss budget). If you're using an ordinary SATA motherboard connector, and some kind of passive cable and adapter plate, simply reduce the length of the external cabling for best results. You can buy ESATA cables in various lengths. http://en.wikipedia.org/wiki/Esata#eSATA This is an example of a short ESATA cable, at only 0.5 meters (1.64 feet). If your computer has "real" ESATA electrical levels, the cable can be 2.0 meters long. If in doubt, keep it short. http://images17.newegg.com/is/image/newegg/12-816-035-S02?$S640W$ One of the benefits of using an ESATA enclosure, is you can keep the side of your PC closed (at least, as long as you have an ESATA connector on the back of the computer to use for the data connection). If you suspect the data cabling you bought is crappy, you have the option of fitting the "Force150" jumper on the back of the Seagate drive, to drop the cable rate to 1.5Gbit/sec versus the 3.0Gbit/sec it is capable of running. If you were seeing problems with data errors, that is something you can try. That will make next to no difference to transfer performance, so isn't a big deal. I've tested a couple Seagate drives here, with that jumper in or out, and can't really tell the difference. Paul Many thanks for this info. Given the above, my plan is to install a multi-pole switch on the computer case, close to the drive, to cut the power to the HDD in question, and I will simply leave the data plug connected. The whole purpose of the excercise it to stop the drive spinning when it is used rarely, such as for backups. This should prolong it's life and make it immune to power surges from failed power supplies, an event I suffered once when the HDD control card was cooked. |
#5
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Connecting/disconnecting Seagate HDDs.
"Paul" wrote in message ... Frank Martin wrote: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank I've tested it and it works fine. But I don't use the feature regularly, due to the rats nest of wiring inside my computer. For the OS to recognize the drive, you'd want the equivalent of the Intel AHCI driver. I tested using a VIA chipset, and whatever driver VIA offered, seemed to support "hot plug". Bottom line, there is at least one kind of driver in use for SATA, where hot plug is not recognized, and the drive in that case, would only be seen if it was present at power up. If the wrong driver is present, the drive will not be seen after hot plugging it. The main issue with hot plug, is shock and vibration. You don't want to shake the drive while fiddling with cables. The SATA connector on the back of the drive, is actually designed for SATA backplanes. In other words, the intent was for a drive to slide on rails, and seat against a mating connector on a backplane. The SATA connector was designed for server configurations and hot plug - usage as a consumer drive in desktops is an afterthought. (A SATA backplane, where drives would slide in on some kind of carrier.) http://images.dr3vil.com/uploads/hotswapbays.jpg But you can still use cabling and do the same thing as a server backplane would be doing. This is the order I'd suggest, for manual hot-plug connection. 1) Connect data cable to the hard drive. This is to avoid shaking the drive end. 2) Connect power cable to the hard drive. You should be able to do this step as you wish. If you're using an extension power cable, you can connect the far end to the power supply, as step (2b). Or, if the power cable comes straight from the power supply, you can just connect it to the drive. (See also, Step 10 below.) 3) The drive starts to spin, once the power connector is in place. You don't want to shake it, after this point in time. 4) Connect the far end of the data cable, to the motherboard connector. Look at the connectors on each end, for the characteristic "L" shape, to make mating easier. There will be a "dimple" or retention feature on the SATA data cable, to make it fit snugly, so it won't fall off. You have to be able to tell the difference between the resistance the dimple will offer, versus getting the stupid "L" upside-down. Don't try to force it on the wrong way. 5) If the AHCI driver is running, or a chipset driver known to support hot plug is in place, the drive will now be detected. If there is a valid partition on it, you'll see that partition added to the contents of the "My Computer" window. If the drive hasn't been partitioned yet, you should see a new drive in Disk Management, and you can partition it there. 6) You'll notice a "Safely Remove" icon in the tray. There is a list of removable devices in there, and your new, hot-plugged hard drive will be one of the items. If you happen to see the C: drive in the list, don't panic - you can't remove it, even if you try. Now, to remove the hot-plug drive later, you can either do a regular shutdown from the Start menu, or you can "hot-unplug". 7) Make sure no programs have open files on the hard drive in question. Use the Safely Remove icon, to select the drive from a list of removable drives. 8) Safely Remove will either tell you the drive is now safe to remove, or that it could not remove the drive. You'll be able to remove the drive, once all opened files have been closed. If you were using Notepad to read a text file on the drive, quitting Notepad should close the connection to that file. Some programs can be very sneaky, so this step can be hard to do. 9) If "Safely Remove" reports the drive was removed, you can unplug the data cable from the motherboard end. That is to avoid shaking the drive. If you were to unplug it from the hard drive end, there would be some shock applied to the drive mechanism. In step 9, the spindle is still spinning. In theory, you should be able to tell a drive to spin down, but I don't know of a way to do that. 10) What happens to drive power now, is a tricky bit. If you were using a power extension cable for the SATA power, then you'd disconnect the far end of that. That is to avoid shaking the drive. If the power connector is coming straight from the power supply, I'd personally, wait until the next shutdown, to retrieve the drive and remove the power cable. So using an extension cable for the power, is the most flexible option. As far as I know, you can do anything you want. But if you want a long life for the hard drive, I recommend doing things in such a way, that the drive is not shaken while the spindle is in motion. With the appropriate extension cabling, that isn't too hard to arrange. I expect on servers, they just rip the drive out with the spindle still in motion. There is no way to know, whether the heads were parked by "Safely Remove" or not, or whether they're retracted by the loss of power being detected. On my drive, it was still spinning after "Safely Remove". And I can't tell if the heads were parked at that point or not. I used one of these extension cables for power, so I could remove the far end of the power connection at the end of a "session" with a drive. The drive sat on a platform, next to the open PC. I would unplug the Molex 1x4 end, to remove power, leaving the 15 pin end seated on the drive. I have enough slack in my power supply cabling, that pulling the Molex apart doesn't strain the power cable. (1x4 Molex to 1x15 SATA power extension cable) http://images17.newegg.com/is/image/newegg/12-887-006-S02?$S640W$ ******* If you use an external "ESATA" enclosure, those have their own power supply. That gives slightly more freedom regarding shaking things. ESATA connectors have a better design, which raises the number of insertions before connector wearout to about 5000 cycles. But your computer needs an ESATA plate on the back with a connector, or the addition of an ESATA card if that is missing, if you want to use ESATA. The ESATA electrical spec is almost the same as regular SATA, except the electrical levels are shifted a bit, to make it possible to use a longer cable (allows more loss budget). If you're using an ordinary SATA motherboard connector, and some kind of passive cable and adapter plate, simply reduce the length of the external cabling for best results. You can buy ESATA cables in various lengths. http://en.wikipedia.org/wiki/Esata#eSATA This is an example of a short ESATA cable, at only 0.5 meters (1.64 feet). If your computer has "real" ESATA electrical levels, the cable can be 2.0 meters long. If in doubt, keep it short. http://images17.newegg.com/is/image/newegg/12-816-035-S02?$S640W$ One of the benefits of using an ESATA enclosure, is you can keep the side of your PC closed (at least, as long as you have an ESATA connector on the back of the computer to use for the data connection). If you suspect the data cabling you bought is crappy, you have the option of fitting the "Force150" jumper on the back of the Seagate drive, to drop the cable rate to 1.5Gbit/sec versus the 3.0Gbit/sec it is capable of running. If you were seeing problems with data errors, that is something you can try. That will make next to no difference to transfer performance, so isn't a big deal. I've tested a couple Seagate drives here, with that jumper in or out, and can't really tell the difference. Paul Many thanks for this info. Given the above, my plan is to install a multi-pole switch on the computer case, close to the drive, to cut the power to the HDD in question, and I will simply leave the data plug connected. The whole purpose of the excercise it to stop the drive spinning when it is used rarely, such as for backups. This should prolong it's life and make it immune to power surges from failed power supplies, an event I suffered once when the HDD control card was cooked. |
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Connecting/disconnecting Seagate HDDs.
In most cases,very few desktop boards (pcs),have the ability for
hot-plugging...Even if the SATA hd might have such a connection,the MB would determine if its available,read the owners manual..Hot plugging really is only used by server boards that have 6 or more hd running,if one goes out,another is plugged-in,the board,software,& a array of hds. "Frank Martin" wrote: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank . |
#7
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Connecting/disconnecting Seagate HDDs.
In most cases,very few desktop boards (pcs),have the ability for hot-plugging...Even if the SATA hd might have such a connection,the MB would determine if its available,read the owners manual..Hot plugging really is only used by server boards that have 6 or more hd running,if one goes out,another is plugged-in,the board,software,& a array of hds. "Frank Martin" wrote: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank . |
#8
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Connecting/disconnecting Seagate HDDs.
In ,
Frank Martin typed: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank It's OK, excepting one point: If you disconnect it when there are still data to be written to the disk, that data is going to go missing. Unless you kill the wrte-behind, data can sit in buffers a very long time before it's thrown to the disk. It's always best to follow the instructions. |
#9
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Connecting/disconnecting Seagate HDDs.
In , Frank Martin typed: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank It's OK, excepting one point: If you disconnect it when there are still data to be written to the disk, that data is going to go missing. Unless you kill the wrte-behind, data can sit in buffers a very long time before it's thrown to the disk. It's always best to follow the instructions. |
#10
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Connecting/disconnecting Seagate HDDs.
In ,
Frank Martin typed: "Paul" wrote in message ... Frank Martin wrote: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank I've tested it and it works fine. But I don't use the feature regularly, due to the rats nest of wiring inside my computer. For the OS to recognize the drive, you'd want the equivalent of the Intel AHCI driver. I tested using a VIA chipset, and whatever driver VIA offered, seemed to support "hot plug". Bottom line, there is at least one kind of driver in use for SATA, where hot plug is not recognized, and the drive in that case, would only be seen if it was present at power up. If the wrong driver is present, the drive will not be seen after hot plugging it. The main issue with hot plug, is shock and vibration. You don't want to shake the drive while fiddling with cables. The SATA connector on the back of the drive, is actually designed for SATA backplanes. In other words, the intent was for a drive to slide on rails, and seat against a mating connector on a backplane. The SATA connector was designed for server configurations and hot plug - usage as a consumer drive in desktops is an afterthought. (A SATA backplane, where drives would slide in on some kind of carrier.) http://images.dr3vil.com/uploads/hotswapbays.jpg But you can still use cabling and do the same thing as a server backplane would be doing. This is the order I'd suggest, for manual hot-plug connection. 1) Connect data cable to the hard drive. This is to avoid shaking the drive end. 2) Connect power cable to the hard drive. You should be able to do this step as you wish. If you're using an extension power cable, you can connect the far end to the power supply, as step (2b). Or, if the power cable comes straight from the power supply, you can just connect it to the drive. (See also, Step 10 below.) 3) The drive starts to spin, once the power connector is in place. You don't want to shake it, after this point in time. 4) Connect the far end of the data cable, to the motherboard connector. Look at the connectors on each end, for the characteristic "L" shape, to make mating easier. There will be a "dimple" or retention feature on the SATA data cable, to make it fit snugly, so it won't fall off. You have to be able to tell the difference between the resistance the dimple will offer, versus getting the stupid "L" upside-down. Don't try to force it on the wrong way. 5) If the AHCI driver is running, or a chipset driver known to support hot plug is in place, the drive will now be detected. If there is a valid partition on it, you'll see that partition added to the contents of the "My Computer" window. If the drive hasn't been partitioned yet, you should see a new drive in Disk Management, and you can partition it there. 6) You'll notice a "Safely Remove" icon in the tray. There is a list of removable devices in there, and your new, hot-plugged hard drive will be one of the items. If you happen to see the C: drive in the list, don't panic - you can't remove it, even if you try. Now, to remove the hot-plug drive later, you can either do a regular shutdown from the Start menu, or you can "hot-unplug". 7) Make sure no programs have open files on the hard drive in question. Use the Safely Remove icon, to select the drive from a list of removable drives. 8) Safely Remove will either tell you the drive is now safe to remove, or that it could not remove the drive. You'll be able to remove the drive, once all opened files have been closed. If you were using Notepad to read a text file on the drive, quitting Notepad should close the connection to that file. Some programs can be very sneaky, so this step can be hard to do. 9) If "Safely Remove" reports the drive was removed, you can unplug the data cable from the motherboard end. That is to avoid shaking the drive. If you were to unplug it from the hard drive end, there would be some shock applied to the drive mechanism. In step 9, the spindle is still spinning. In theory, you should be able to tell a drive to spin down, but I don't know of a way to do that. 10) What happens to drive power now, is a tricky bit. If you were using a power extension cable for the SATA power, then you'd disconnect the far end of that. That is to avoid shaking the drive. If the power connector is coming straight from the power supply, I'd personally, wait until the next shutdown, to retrieve the drive and remove the power cable. So using an extension cable for the power, is the most flexible option. As far as I know, you can do anything you want. But if you want a long life for the hard drive, I recommend doing things in such a way, that the drive is not shaken while the spindle is in motion. With the appropriate extension cabling, that isn't too hard to arrange. I expect on servers, they just rip the drive out with the spindle still in motion. There is no way to know, whether the heads were parked by "Safely Remove" or not, or whether they're retracted by the loss of power being detected. On my drive, it was still spinning after "Safely Remove". And I can't tell if the heads were parked at that point or not. I used one of these extension cables for power, so I could remove the far end of the power connection at the end of a "session" with a drive. The drive sat on a platform, next to the open PC. I would unplug the Molex 1x4 end, to remove power, leaving the 15 pin end seated on the drive. I have enough slack in my power supply cabling, that pulling the Molex apart doesn't strain the power cable. (1x4 Molex to 1x15 SATA power extension cable) http://images17.newegg.com/is/image/newegg/12-887-006-S02?$S640W$ ******* If you use an external "ESATA" enclosure, those have their own power supply. That gives slightly more freedom regarding shaking things. ESATA connectors have a better design, which raises the number of insertions before connector wearout to about 5000 cycles. But your computer needs an ESATA plate on the back with a connector, or the addition of an ESATA card if that is missing, if you want to use ESATA. The ESATA electrical spec is almost the same as regular SATA, except the electrical levels are shifted a bit, to make it possible to use a longer cable (allows more loss budget). If you're using an ordinary SATA motherboard connector, and some kind of passive cable and adapter plate, simply reduce the length of the external cabling for best results. You can buy ESATA cables in various lengths. http://en.wikipedia.org/wiki/Esata#eSATA This is an example of a short ESATA cable, at only 0.5 meters (1.64 feet). If your computer has "real" ESATA electrical levels, the cable can be 2.0 meters long. If in doubt, keep it short. http://images17.newegg.com/is/image/newegg/12-816-035-S02?$S640W$ One of the benefits of using an ESATA enclosure, is you can keep the side of your PC closed (at least, as long as you have an ESATA connector on the back of the computer to use for the data connection). If you suspect the data cabling you bought is crappy, you have the option of fitting the "Force150" jumper on the back of the Seagate drive, to drop the cable rate to 1.5Gbit/sec versus the 3.0Gbit/sec it is capable of running. If you were seeing problems with data errors, that is something you can try. That will make next to no difference to transfer performance, so isn't a big deal. I've tested a couple Seagate drives here, with that jumper in or out, and can't really tell the difference. Paul Many thanks for this info. Given the above, my plan is to install a multi-pole switch on the computer case, close to the drive, to cut the power to the HDD in question, and I will simply leave the data plug connected. The whole purpose of the excercise it to stop the drive spinning when it is used rarely, such as for backups. This should prolong it's life and make it immune to power surges from failed power supplies, an event I suffered once when the HDD control card was cooked. Actually, no it won't protect the drive if the power connector isn't also disconnected. Personally I'd just use power management to shut it down after x minutes of inactivity and forget about it. Depend on the switches to break both the power AND data lines for long periods of time; then and only then is it completely protected from surges and spikes. |
#11
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Connecting/disconnecting Seagate HDDs.
In , Frank Martin typed: "Paul" wrote in message ... Frank Martin wrote: The following is copied from the Seagate web page. Does it mean I can connect/disconnect the HDD while the computer is running? ************ 4.0Serial ATA (SATA) interface Barracuda 7200.12 Serial ATA drives incorporate connectors which enable you to hot plug these drives in accordance with the Serial ATA Revision 2.5 specification. This specification can be downloaded from www.serialata. org. ******************* Or does it mean I can only connect/disconnect the data cable? Frank I've tested it and it works fine. But I don't use the feature regularly, due to the rats nest of wiring inside my computer. For the OS to recognize the drive, you'd want the equivalent of the Intel AHCI driver. I tested using a VIA chipset, and whatever driver VIA offered, seemed to support "hot plug". Bottom line, there is at least one kind of driver in use for SATA, where hot plug is not recognized, and the drive in that case, would only be seen if it was present at power up. If the wrong driver is present, the drive will not be seen after hot plugging it. The main issue with hot plug, is shock and vibration. You don't want to shake the drive while fiddling with cables. The SATA connector on the back of the drive, is actually designed for SATA backplanes. In other words, the intent was for a drive to slide on rails, and seat against a mating connector on a backplane. The SATA connector was designed for server configurations and hot plug - usage as a consumer drive in desktops is an afterthought. (A SATA backplane, where drives would slide in on some kind of carrier.) http://images.dr3vil.com/uploads/hotswapbays.jpg But you can still use cabling and do the same thing as a server backplane would be doing. This is the order I'd suggest, for manual hot-plug connection. 1) Connect data cable to the hard drive. This is to avoid shaking the drive end. 2) Connect power cable to the hard drive. You should be able to do this step as you wish. If you're using an extension power cable, you can connect the far end to the power supply, as step (2b). Or, if the power cable comes straight from the power supply, you can just connect it to the drive. (See also, Step 10 below.) 3) The drive starts to spin, once the power connector is in place. You don't want to shake it, after this point in time. 4) Connect the far end of the data cable, to the motherboard connector. Look at the connectors on each end, for the characteristic "L" shape, to make mating easier. There will be a "dimple" or retention feature on the SATA data cable, to make it fit snugly, so it won't fall off. You have to be able to tell the difference between the resistance the dimple will offer, versus getting the stupid "L" upside-down. Don't try to force it on the wrong way. 5) If the AHCI driver is running, or a chipset driver known to support hot plug is in place, the drive will now be detected. If there is a valid partition on it, you'll see that partition added to the contents of the "My Computer" window. If the drive hasn't been partitioned yet, you should see a new drive in Disk Management, and you can partition it there. 6) You'll notice a "Safely Remove" icon in the tray. There is a list of removable devices in there, and your new, hot-plugged hard drive will be one of the items. If you happen to see the C: drive in the list, don't panic - you can't remove it, even if you try. Now, to remove the hot-plug drive later, you can either do a regular shutdown from the Start menu, or you can "hot-unplug". 7) Make sure no programs have open files on the hard drive in question. Use the Safely Remove icon, to select the drive from a list of removable drives. 8) Safely Remove will either tell you the drive is now safe to remove, or that it could not remove the drive. You'll be able to remove the drive, once all opened files have been closed. If you were using Notepad to read a text file on the drive, quitting Notepad should close the connection to that file. Some programs can be very sneaky, so this step can be hard to do. 9) If "Safely Remove" reports the drive was removed, you can unplug the data cable from the motherboard end. That is to avoid shaking the drive. If you were to unplug it from the hard drive end, there would be some shock applied to the drive mechanism. In step 9, the spindle is still spinning. In theory, you should be able to tell a drive to spin down, but I don't know of a way to do that. 10) What happens to drive power now, is a tricky bit. If you were using a power extension cable for the SATA power, then you'd disconnect the far end of that. That is to avoid shaking the drive. If the power connector is coming straight from the power supply, I'd personally, wait until the next shutdown, to retrieve the drive and remove the power cable. So using an extension cable for the power, is the most flexible option. As far as I know, you can do anything you want. But if you want a long life for the hard drive, I recommend doing things in such a way, that the drive is not shaken while the spindle is in motion. With the appropriate extension cabling, that isn't too hard to arrange. I expect on servers, they just rip the drive out with the spindle still in motion. There is no way to know, whether the heads were parked by "Safely Remove" or not, or whether they're retracted by the loss of power being detected. On my drive, it was still spinning after "Safely Remove". And I can't tell if the heads were parked at that point or not. I used one of these extension cables for power, so I could remove the far end of the power connection at the end of a "session" with a drive. The drive sat on a platform, next to the open PC. I would unplug the Molex 1x4 end, to remove power, leaving the 15 pin end seated on the drive. I have enough slack in my power supply cabling, that pulling the Molex apart doesn't strain the power cable. (1x4 Molex to 1x15 SATA power extension cable) http://images17.newegg.com/is/image/newegg/12-887-006-S02?$S640W$ ******* If you use an external "ESATA" enclosure, those have their own power supply. That gives slightly more freedom regarding shaking things. ESATA connectors have a better design, which raises the number of insertions before connector wearout to about 5000 cycles. But your computer needs an ESATA plate on the back with a connector, or the addition of an ESATA card if that is missing, if you want to use ESATA. The ESATA electrical spec is almost the same as regular SATA, except the electrical levels are shifted a bit, to make it possible to use a longer cable (allows more loss budget). If you're using an ordinary SATA motherboard connector, and some kind of passive cable and adapter plate, simply reduce the length of the external cabling for best results. You can buy ESATA cables in various lengths. http://en.wikipedia.org/wiki/Esata#eSATA This is an example of a short ESATA cable, at only 0.5 meters (1.64 feet). If your computer has "real" ESATA electrical levels, the cable can be 2.0 meters long. If in doubt, keep it short. http://images17.newegg.com/is/image/newegg/12-816-035-S02?$S640W$ One of the benefits of using an ESATA enclosure, is you can keep the side of your PC closed (at least, as long as you have an ESATA connector on the back of the computer to use for the data connection). If you suspect the data cabling you bought is crappy, you have the option of fitting the "Force150" jumper on the back of the Seagate drive, to drop the cable rate to 1.5Gbit/sec versus the 3.0Gbit/sec it is capable of running. If you were seeing problems with data errors, that is something you can try. That will make next to no difference to transfer performance, so isn't a big deal. I've tested a couple Seagate drives here, with that jumper in or out, and can't really tell the difference. Paul Many thanks for this info. Given the above, my plan is to install a multi-pole switch on the computer case, close to the drive, to cut the power to the HDD in question, and I will simply leave the data plug connected. The whole purpose of the excercise it to stop the drive spinning when it is used rarely, such as for backups. This should prolong it's life and make it immune to power surges from failed power supplies, an event I suffered once when the HDD control card was cooked. Actually, no it won't protect the drive if the power connector isn't also disconnected. Personally I'd just use power management to shut it down after x minutes of inactivity and forget about it. Depend on the switches to break both the power AND data lines for long periods of time; then and only then is it completely protected from surges and spikes. |
#12
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Connecting/disconnecting Seagate HDDs.
Twayne wrote:
It's OK, excepting one point: If you disconnect it when there are still data to be written to the disk, that data is going to go missing. Unless you kill the wrte-behind, data can sit in buffers a very long time before it's thrown to the disk. It's always best to follow the instructions. Using "Safely Remove" should flush any caches. And if a software path didn't exist to do that, we couldn't cleanly shut down computers. So it's got to be there. Paul |
#13
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Connecting/disconnecting Seagate HDDs.
Twayne wrote:
It's OK, excepting one point: If you disconnect it when there are still data to be written to the disk, that data is going to go missing. Unless you kill the wrte-behind, data can sit in buffers a very long time before it's thrown to the disk. It's always best to follow the instructions. Using "Safely Remove" should flush any caches. And if a software path didn't exist to do that, we couldn't cleanly shut down computers. So it's got to be there. Paul |
#14
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Connecting/disconnecting Seagate HDDs.
In ,
Paul typed: Twayne wrote: It's OK, excepting one point: If you disconnect it when there are still data to be written to the disk, that data is going to go missing. Unless you kill the wrte-behind, data can sit in buffers a very long time before it's thrown to the disk. It's always best to follow the instructions. Using "Safely Remove" should flush any caches. I interpreted your query to mean you weren't using that; you just wanted to hot swap and you mentioned nothing else. And if a software path didn't exist to do that, we couldn't cleanly shut down computers. So it's got to be there. lol, no idea what you meant there. It exists for a couple other things, but neither of my external terabyte drives show up in Safely Remove. It's just a piece of code, which does whatever its author wants. Paul It will be there, you're right, IF you haven't set the drive to not need it. Once you set the buffers to immediate write, it should no longer show in the Safely Remove... window. It follows that logic on my machines, but I've heard of others where it still appears in the window. |
#15
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Connecting/disconnecting Seagate HDDs.
In ,
Paul typed: Twayne wrote: It's OK, excepting one point: If you disconnect it when there are still data to be written to the disk, that data is going to go missing. Unless you kill the wrte-behind, data can sit in buffers a very long time before it's thrown to the disk. It's always best to follow the instructions. Using "Safely Remove" should flush any caches. I interpreted your query to mean you weren't using that; you just wanted to hot swap and you mentioned nothing else. And if a software path didn't exist to do that, we couldn't cleanly shut down computers. So it's got to be there. lol, no idea what you meant there. It exists for a couple other things, but neither of my external terabyte drives show up in Safely Remove. It's just a piece of code, which does whatever its author wants. Paul It will be there, you're right, IF you haven't set the drive to not need it. Once you set the buffers to immediate write, it should no longer show in the Safely Remove... window. It follows that logic on my machines, but I've heard of others where it still appears in the window. |
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