Toshiba and Seagate both had drives that were known for this, (Toshiba "DeathStar" DeskStar, and Seagate "Click of Death" drives). The downside is that this is the highest likelyhood to find a failure, and if it does, it can fail utterly. The big issue with these drives is that when they turn on, they do a quick self-test (POST stands for Power-on-self-test), including moving the heads around in the drive.
#Sleep vs hibernate toshiba windows 7
In the day right through, well Windows 7 even, spinning hard disks were the primary OS drive. Specifically it is more about mechanical hard drives. Cause honestly that's more likely than the other stuff. Now that I have an open loop though, I turn it off so that if, for whatever reason, a leak occurs, it's where I can quickly rip a cord out of the wall and hopefully save some stuff haha.
I, personally, used to leave my unit on all the time. Surge, ESD, overcurrent, and overvoltage protections have come a looong way since these arguments were first started. Long story short, it's your choice and with how robust new tech has become, you should get a lot of hours either way lol. Those that turn off their units argue that their units have less overall hours of operation and therefore will last longer. In broad strokes, those who leave their units on have arguments that their components experience less voltage spike and amperage dips that are created when power is initially turned on and will last longer before a breakdown is experienced. Really, it's a debate that's been had since home computers were first introduced. With a UPS, your computer can be given enough emergency power and a signal to automatically go into hibernation mode before all power is gone, thus saving your most recent state for the next reboot it can also allow you to ride out brief power blips seamlessly and avoid rebooting entirely. TLDR: Without a UPS, your computer mostly loses its current state when next rebooted. Another is riding out brief power blips seamlessly, so that you don't reboot from a brief power loss at the wall outlet. That's one useful capability of a consumer UPS. Then that is exactly what will happen: whether or not you are in front of the computer, PowerChute will force your computer to hibernate, thus saving the exact state it was in before all power in the emergency battery is lost. (2) You configured PowerChute to send your computer into Hibernation mode when the APC battery began to lose too much charge (or after a certain amount of time on battery charge) (1) The wall outlet is out and your computer is running off the APC's emergency battery power
#Sleep vs hibernate toshiba install
This is why it's called an uninterruptable power supply, because it's providing smooth, emergency power when the main power supply jitters or goes down.įurther, you can install an APC software utility on your computer called PowerChute: it allows you to configure how the APC unit maintains its charge and responds to various power-related events.Īmong those events, if PowerChute detects that: This is key, because if the wall outlet ever wavers or loses power, the battery in the APC can automatically supply emergency power to anything plugged into it for a time - which is usually your computer and monitor, at least. Note that the APC unit also contains an internal battery that is constantly kept charged by the wall outlet (hence, why it is chunky), even as it sends power through its strip-like outlets to the computer and peripherals. It installs and looks like a chunky power strip: plug it into your wall outlet, then plug your computer (and related peripherals, such as monitor) into the APC unit's power strip sockets. Let's say you obtained this APC 650W uninterruptable power supply for your computer:
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