This is quite normal. IDE stands for Intergrated Drive Electronics. It basically means that most of the drive controller electronics are on the disk drive itself. You can connect 2 drives to one cable. One will be set as the master drive and the other will be set as the slave. The master drive then controls itself and the slave drive. The setting for slave/master is normally done by small connectors joining a pair of pins together called jumpers.
RAID10 is a subsystem that increases safety of a computer. It does this by writing the same data on two computer drives. Also while doing this, it increases the speed by interleaving data across two or more mirrored virtual drives.
Two equipments of the same type - two computers, two routers, two switches - should be connected with a crossover cable.
Power cable is a thick cable connecting your computer to an electrical wall outlet. It can also be a thin wire connecting your modem or other device to a rectangular [ usually ] power supply to your electrical power bar or wall outlet. Data cables are much thinner, used mainly internally, and can be many wires attached together horizontally to form a wide ribbon of wires. However, a data cable can also be a much thicker cable connecting your modem, router, printer etc. to your computer.
The services are able to share the same data cable - because each separate signal is sent in 'packets' of data - each with its own security tag - to stop cross-over from one to the other.
The two basic types of cables are power cables and data cables. Early PCs used a ribbon cable to connect both hard drives and floppy. Later the Hard drive cable was changed from 40 wires on 40 pin to 80 wires on 40 pins. The additional wires were grounds between each data carrier. Newer computers use a smaller serial ATA (SATA) cable that uses 7 individual wires - 4 data wires and 3 ground wires. Other data cables and connectors usually use a flat ribbon cable for connections in the case. Examples are the serial ports, parallel ports, USB ports. The early PC had few connections sold with it, and we used to use a multi-purpose card to add ports and memory capability. Since the card was overcrowded, an extra "back plane connector" was included to give you a place hook up your printer of modem. It connected with a ribbon cable and a "header" block that plugged onto pins on the multi card. The power connectors on the early PC power supply were round and a keyed header attached them to the motherboard. Newer Motherboards often have an auxiliary power connector that enhances the distribution of power to the motherboard. This is only a benefit if the computer power supply has isolated rails for the different voltage supplies, or if the board must use more current than the other wires can safely carry. Hard drives and floppy all used the same size 4 pin Molex connector. The mini power connector arrived with the smaller floppy. The new SATA drives use a special power connector. New video cards that are high performance usually include one or more power headers requiring a feed just for the video card, and possibly it's fan. Early fans for the computers piggy backed across the power connectors going to the disk drives. More modern designs have dedicated sockets on the motherboard to allow reading the fan speed or better yet, controlling the fan speed. Some mother boards allow the control of "case fans". The power and sensor wiring for these fans is a 3 conductor cable, and some use a fourth conductor as a control line.
Cable Select or by the jumpers put on the hard drive
Only one master is connected to single IDE cable
There are jumpers on the drives that differentiate the master from the slave. If the jumpers aren't set correctly, the BIOS will not recognize them. In addition, some IDE ribbon cables are also labled Drive 0 (or Master) and Drive 1 (or Slave). If the jumpers are set correct, but the drives are plugged into the ribbon cable incorrectly, the computer will not recognize the drives.
The jumpers on each drive have been set to either Master or Slave, or the drive jumpers have been sent to Cable Select the bios will select the first connector as Master and second connector as Slave
Data cables (called ata cables or serial or SCSI) simply transfer data from one device to the motherboard inside or even to another device hooked up to the same cable. An example would be a cdrom drive could transfer data for listening to music via the data cable and the motherboard would process it and produce sound via speakers.
You could format two hard drives at same time but both need to be connected by the sata connector cable.
The hard drive should be on the bottom connector and all you other drives on the top connectors. Thats how mines connected!!!!!!!! :-)
Flash drives are used as data storage devices, where data can be written, read and erased. There are a number of brands for flash drives, yet all of them have the same basic functionalities.
the CMOS setup allows to configure them
if it is DVD or CDROM both,otherewise only one
The external hard disc is used to store any data, audio, or pictures. These external drives offer more storage and faster access to files than internal drives, you can carry them with you anywhere. Source: storagetechguide.com
in RJ45 connector connected cat5 cable through same cable coding, that's call parallel cable.