Bridges, interfaces and external storage devices. External storage media Hard disk drives

External storage devices have somehow suddenly entered our lives. You could say jump. Currently, people highly appreciate the mobility of information, as well as the speed of its transfer. That is why an external drive is a very valuable device that allows you to quickly exchange movies, games and other files (it should be noted, even a considerable size) between two computer devices.

general information

The question that appeared in connection with the problem of storing user data, as well as access to them, is quite relevant. This problem is very acute in families, where everyone tries to knock out as much space as possible on the computer for their own needs. And an external drive can easily be the solution to such problems.

Optimal at present are, of course, various network storages, which in many companies are located right inside the buildings. In general, they have quite a lot of advantages. Previously, creating a network storage required the purchase of a separate computer that would play this role. Now, with the development of wireless technology, this is no longer necessary. Enough to put into action wireless router- and the problem is solved.

Modern models are available with support for USB 3.0 ports. And this also has weight, since the functionality is greatly expanded. What could be better than network resource, located at home, which, if necessary, is quite realistic to take with you on a trip? And this device will have such mobile dimensions that it will not burden absolutely anyone with its carrying!

All in all, external USB drive will solve several problems at once. Models of external hard drives differ in characteristics, and in this article we will analyze several devices, get acquainted with them in general and in general, and understand what advantages and disadvantages they have. This is done so that anyone can then go to the store, and based on the material read, if necessary, choose an external drive model for themselves.

So, many hard drives now have an interesting innovative interface. These are USB 3.0 ports. They also have a large form factor. Next, we will talk about whether it makes sense to purchase such drives, which are large enough and require power from an external source.

ADATA HD 710

This external memory drive is available in different versions, which differ in the amount of built-in memory. We are talking about the allocation of 500 gigabytes, 1 terabyte, and 2 terabytes. 500 GB, in our opinion, is not enough for now active use hard disk . But 1, and even more so 2 TB will be an excellent solution.

This external disk drive in three colors at once. The following colors are available: blue, yellow, black. All hard drives belonging to this series have a shock-resistant and waterproof case. You can lay the USB cable without any problems in the groove, which was specially fixed around the disk enclosure. Thus, the developers of the device solved the problem with the convenience of storing the cable. Its length is about 30 centimeters. And to be more precise, then 31. The dimensions are quite average: with its mass of 220 grams, this is an external USB stick 3.0 has dimensions of 132 by 99 by 22 millimeters.

Hard drive. External hard drive HGST Touro Mobile MX3

This model, like its predecessor, has three modifications at once, equipped with different amounts of built-in long-term memory. We are talking about variations of 500 gigabytes, as well as models with a capacity of 1 TB and 1.5 TB.

Among the shortcomings, it is worth noting the lack of legs that could deal with vibration hard drive during his work. But the use of matte plastic as a material for the manufacture of the case cannot be unambiguously considered. The USB cable does not fit anywhere. It has a length of 43 centimeters. This external hard drive is 126mm long, 80mm wide and 15mm high.

Seagate Expansion Portable

All Seagate Expansion portable external hard drive models share the same form factor. It is equal to 2.5''. The model range of the series has three memory drives, which have the corresponding volumes. This is, according to the standard, 500 gigabytes, 1 and 2 TB.

Like the model we reviewed earlier, the Seagate Expansion Portable doesn't have rubber feet. The case of devices of a series is made of opaque plastic. These external drives have a 44 cm long USB cable. Hard drive dimensions - 122.3 mm long, 81.1 mm wide, 15.5 mm high. The mass of the drive is 170 grams.

Seagate Expansion

Models of this series differ from their predecessors not only in memory capacity, but also in a large form factor. It is 3.5''. Thus, the models automatically increase in size, weight, and also require an additional power source. Corps of such hard drives everything is made of the same matte plastic. To combat the vibration that occurs during the operation of the device, four rubber feet are provided on its bottom. In the lineup of this series, you can see external hard drives, the amount of internal memory of which is 1, 2, 3, 4 and 5 terabytes.

The USB 3.0 type cable is 118 centimeters long. The hard drive requires a special power adapter to operate. It works at a voltage of 12 volts, as well as at a current of 1.5 amperes. In length, such a drive reaches 179.5 millimeters. The width is 118 millimeters, and its height is 37.5 mm. In this case, the mass of the drive is 940 grams.

Silicon Power Armor A80

External drives of this series have a good case, protected from moisture penetration, as well as from mechanical damage. The outer surface of the hard drive is made of anodized brushed aluminum. There are no rubber feet to resist the vibration that occurs when working with the drive.

The model range consists of drives with three different memory capacities. These are 1 and 2 terabytes, as well as 500 gigabytes. The models in the series are slightly different from all the external drives we've reviewed so far. The fact is that they have two cables at once, which are designed to synchronize the device with a personal computer or laptop. The first cable is 79 centimeters long. The second one is shorter by 70 cm. There is an end in the case where you can hide a short wire. Also series hard disks use socket USB type 3.0 A. All models that have been described earlier use USB 3.0 Micro-B. With a mass of 270 grams, the hard drives of the series have a size of 139.45 mm by 94 mm by 18.1 mm.

TOSHIBA Stor.E Basics

The case of this line of external memory drives is made of matte black plastic. At the bottom of the gadget there are four legs, which simply cannot but rejoice. But as for the volume, then the series may not please all users. The maximum amount of non-volatile memory that is available in such drives is 1 terabyte. The remaining two modifications of the series have, respectively, volumes of 500 GB and 750 GB.

The USB 3.0 cable is not short, but not long either. Its length is 52.5 centimeters. Interestingly, the models of the series differ in size. The version of the hard drive, which has a capacity of 1 TB, is represented by a mass of 180 grams and a thickness of 16.5 centimeters. At the same time, the rest of the models will be thinner and smaller in terms of weight: their height is only 13.5 millimeters, and their weight is 150 grams.

Transcend StoreJet 25H3

External disks of this brand have a case that is covered with a rubber layer. Thus, the manufacturer took care of the mechanical strength by adapting external rigid disks of this series to unexpected mechanical shocks and loads. Models produced in the line have a memory capacity of 500 gigabytes, as well as 1 and 2 TB. If we talk about the color scheme, then the hard drives of the series are available in purple-black design, as well as in blue. The length of the cable for synchronization with a PC is about 45 centimeters.

A distinctive feature, a feature of this model range is that there is a button on the case that serves for quick reconnection. It helps to activate the special mode. There is no need to disconnect and turn off the hard drive, and then again synchronize it with the computer. With a mass of 216 grams, the 500 GB and 1 TB versions of the disk have the following dimensions: length - 131.8 mm, width - 80.8 mm, and thickness - 19 millimeters. The model, which is designed for 2 terabytes of internal memory, is slightly thicker (24.5 mm) and weighs a little more (284 grams).

Western Digital My Passport Ultra

Like almost all other models, the serial range of this external hard memory drive is made of matte black plastic. At the bottom there are four legs that will save the device from vibration during operation. The hard drive cover, depending on its modification, may be of a different color. On the this moment available in black, blue, red and metallic color.

The amount of built-in memory is standard: 500 gigabytes, 1 TB or 2 TB. The USB cable does not fold anywhere, its length is 46 centimeters. For transportation, a special bag made of velvet is provided. Weight (depending on the model) varies from 130 to 230 grams. Dimensions also vary. The length can be from 110 to 110.5 millimeters, the width can be from 81.6 to 82 millimeters. This is not so noticeable, but how the thickness of the hard disk grows with an increase in its memory capacity can be seen quite well. It falls in the interval from 12.8 to 20.9 millimeters.

Accumulators and carriers of information.

Information storage - a device that reads and/or writes information.

Information storage devices are:

· internal and external:

· with removable and non-removable storage media;

· stationary and portable.

Internal drives are located in the PC system unit and are connected to special connectors on the motherboard.

External and portable storage is in its own case and connects to the computer through standard input / output ports. External storage devices are used to back up and store information, as well as to transport data from one computer to another.

Information carrier - this is a device on which information is directly recorded (stored), for example, a disk, a magnetic tape cassette, etc.

The drive and the information carrier can be made in the same housing, i.e. be one whole, for example, a hard disk HDD (Fig. 13).

Rice. 13. Hard Disk Drive HDD

The drive may have removable media, for example:

at the FDD drive removable media - floppy disk floppy disk);

at DVD drive - RW (Fig. 14) removable storage medium - DVD disc.

Rice. 14. DVD-RW drive

In some cases, the division into storage and media is conditional. For example, the internal storage of information random access memory (RAM ) and portable storage FLASH A card is both a storage device and a carrier of information.

Main drives and storage media

Storage device	Russian designation	International designation	Drive type	Carrier	Media type
			interior	she is
Persistent memory			interior	she is
HDD hard drive (hard disk drive)			interior	HDD	fixed built-in
FDD drive (floppy disk drive)			interior	diskette (floppy disk)	removable portable
CD-ROM, CD-RW - drive for reading and writing CDs			interior	CD-disk (compact disc)	removable portable
DVD-RW - drive for reading and writing CDs and DVDs		DVD-R DVD-RW	interior		removable portable
FLASH card			external, portable	she is

The main characteristic of a carrier (drive) is its capacity, i.e. the maximum amount of information that can be written to this device. Drive capacity is measured in the following units:

	designation	International designation
kilobyte
megabyte
gigabyte

Lately floppy disks and CDs - disks are outdated, they will no longer be used in the near future and are being actively replaced by more capacious media FLASH -cards (Fig. 15) and DVD discs.

Rice. 15.. FLASH card

The capacity of the main media (drives).

are falling into disuse

are falling into disuse

DVDs can be single or double sided, single layer or double layer.

FLASH card

256 Mb , 512 Mb ,

Internal media / storage media

RAM RAM

standard for Windows XP

HDD hard drive

Typical HDD capacity of a modern PC

A storage device is a device on which all computer data is stored. In addition to the drive, this device is called a hard drive or hard drive. A hard disk differs from a conventional "floppy" disk, or in other words, a floppy disk, in that information is recorded on hard plates made of aluminum or ceramics, and on top they are covered with a ferrimagnetic material. Hard drives are equipped with one or more platters on an axle.

The data storage device (HDD) is composed of a sealed unit and an electronic board. The hermetically sealed unit is filled with normal, dust-free air by atmospheric pressure and is equipped with all mechanical parts. The kinematics of the data drive includes one or more magnetic disks, which are rigidly fixed to the motor spindle, as well as a system responsible for positioning the magnetic heads. The magnetic head occupies a place on one of the sides of a moving magnetic disk and its functional duties include reading and writing data from the rotating surface of the magnetic disk. The heads themselves are attached with special holders, and their movement is carried out using a positioning system between the edge and the center of the disc. It is possible to achieve precise positioning of magnetic heads by means of servo information recorded on the disk. The positioning system, reading this information, is able to determine the strength of the current passed through the coil of electromagnetic wire so that the magnetic head can be fixed over the required track.

After the power is turned on, the processor of the hard drive (drive) begins to test the electronics, after which a command is issued to enable the process of directly turning on the spindle motor. As soon as the initialization is completed, the positional system is tested, during which the tracks are enumerated in the specified sequence. If the test went well, the hard drive sends a signal that it is ready to go. To increase the level of reliability of computer information storage, hard drives (drives) are equipped with a special firmware that monitors the technological parameters available for the reading and analysis program. If the computer is in danger of failure, then with the help of this program the user will know about it in a timely manner.

In addition, the data storage is a hybrid hard drive, which consists of a traditional hard drive equipped with additional flash memory. This flash memory is completely non-volatile and is assigned the role of a buffer in which the most frequently used data is stored. As a result of the activity of this device, access to the magnetic disk is reduced, which accordingly leads to a decrease in power consumption. The level of reliability of storing information is also increased, the time required to boot and to wake the system from sleep mode is reduced, and the temperature and acoustic noise that the hard drive emits are significantly reduced.

The device of all hard drives is completely similar and absolutely all types of data drives can fail, therefore, the main thing that every user needs to remember is that in order for the hard drive to be as reliable as possible in use, it must be properly operated. Namely, to protect against overheating, shock, increased vibration of the case, frequent on or off. In addition, you do not need to use a power supply that is of poor quality.

Any electronic computers include memory drives. Without them, the operator would not be able to save the result of his work or copy it to another medium.

Punch cards

At the dawn of its appearance, punched cards were used - ordinary cardboard cards with printed digital markings.

One punched card contained 80 columns, each column could store 1 bit of information. The holes in these columns corresponded to the unit. The data was read sequentially. It was impossible to re-record anything on a punch card, so a huge number of them were required. It would take 22 tons of paper to store a 1 GB data array.

A similar principle was used in perforated tapes. They wound on a reel, took up less space, but often torn and did not allow you to add and edit data.

floppy disks

The advent of floppy disks was a real breakthrough in information technology. Compact, capacious, they allowed to store from 300 KB on the earliest samples to 1.44 MB on the latest versions. Reading and writing were carried out on a magnetic disk enclosed in a plastic case.

The main disadvantage of diskettes was the fragility of the information stored on them. They were vulnerable to action and could be demagnetized even in public transport - a trolleybus or tram, so they tried not to use them for long-term data storage. Floppy disks were read in disk drives. At first there were 5-inch floppy disks, then they were replaced by more convenient 3-inch ones.

Flash drives have become the main competitor of floppy disks. Their only drawback was the price, but as microelectronics developed, the cost of flash drives dropped dramatically and floppy disks became history. Their production was finally discontinued in 2011.

streamers

Streamers were previously used to store archived data. They were similar to video cassettes in appearance and in principle. A magnetic tape and two reels made it possible to sequentially read and write information. The capacity of these devices was up to 100 MB. Such drives have not received mass distribution. Ordinary users preferred to store their data on hard drives, and it was more convenient to keep music, movies, programs on CDs, and later DVDs.

CD and DVD

These storage media are still in use today. An active, reflective and protective layer is applied to the plastic substrate. Information from the disc is read by a laser beam. A standard disk has a capacity of 700 MB. This is enough for example to record a 2-hour movie in average quality. There are also double-sided discs where the active layer is deposited on both sides of the disc. Mini-CDs are used to save a small amount of information. Drivers, instructions for computer products are now written on them.

DVDs replaced CDs in 1996. They allowed to store information already in the amount of 4.7 GB. Their advantage was also that the DVD drive could read both CDs and DVDs. At the moment it is the most massive memory storage device.

Flash drives

The CD and DVD drives discussed above have a number of advantages - cheapness, reliability, the ability to store large amounts of information, but they are designed for one-time recording. You cannot make changes, add or remove unnecessary things on a recorded disc. And here a fundamentally different drive comes to our aid - flash memory.

For some time he competed with floppy disks, but quickly won this race. The main limiting factor was the price, but now it has been reduced to an acceptable level. Modern computers are no longer equipped with disk drives, so the flash drive has become an indispensable companion for everyone dealing with computer technology. The maximum amount of information that can fit on a flash drive reaches 1 Tb.

Memory cards

The attractiveness of the USB interface is in its simplicity - just plug in a USB flash drive or other storage device and you can work, no driver installation or other additional steps are required. The development of the interface and the appearance of USB 2.0 first, and then USB 3.0, dramatically increased the speed of data exchange over this channel. The performance now differs little from the internal one, and their size cannot but rejoice. An external memory drive fits easily in the palm of your hand, while it allows you to store hundreds of gigabytes of information.

Articles

In most laptops, you cannot insert a second hard drive, and changing the main one is not always easy. External storage devices come to the rescue.

For storage, transfer and Reserve copy data in computer systems external drives are used. The main types of such drives are devices based on hard drives and flash memory. In some cases, external optical drives are used as such drives, but since most computers have internal drives for reading and writing CD, DVD or Blu-ray, such drives are of limited distribution and we will not dwell on them here (more on optical drives, see a separate article).

Flash drives

Due to the decrease in prices for flash memory, external drives based on it are becoming more common. A typical flash drive is a small device, about the size of a disposable lighter, equipped with a built-in USB connector. At the same time, the volume of such miniature drives can vary in a very wide range: from one to 128 GB. To date, the most popular models with a capacity of 8 to 16 GB can be purchased for 500-900 rubles, modifications in protected rubberized and sealed aluminum cases are slightly more expensive. As a rule, 8-16 gigabyte flash drives are purchased not for storage and backup, but for quick data transfer.

High-capacity flash drives are significantly more expensive: 64 GB models are already estimated at about 5,000 rubles, and 128 GB models at 11,000 rubles and more. It is easy to calculate that the cost of a gigabyte of disk space in such drives is about one and a half times higher (from 85 rubles) than in drives of a small capacity. In addition, an external mini-hard drive of the same volume will cost about three times cheaper, so consumers prefer it.

External HDs

Hard drives have been the best solution for storing and backing up large amounts of data for several decades now. Modern hard drives are highly reliable, large capacity and low cost of data storage: in the best models it is from 3 to 4 rubles per gigabyte.

External hard drives can be divided into four broad categories: drives based on 2.5-inch drives, drives based on 3.5-inch drives, multimedia drives and NAS systems.

Drives based on 2.5-inch "notebook" hard drives are the smallest: they are considered portable and easily fit into a shirt pocket. However, compared to 3.5-inch drives, they have significantly lower write and read speeds, limited capacity, and the cost of a gigabyte of storage is one and a half to two times higher. A typical read speed for such disks is 35 MB / s, writes - 30 MB / s, best models read and write speeds can reach 50 MB / s.

The volume of 2.5-inch external hard drives is from 120 to 500 GB, the cost of storing a gigabyte of data is, on average, from 8 to 12 rubles.

As a rule, 2.5-inch hard drives are equipped with a USB 2.0 interface, sometimes eSATA, and almost never support FireWire, with the exception of ZIV-branded drives. In many cases, USB power is sufficient for these drives.

It is also worth mentioning models based on 1.8-inch "subnotebook" hard drives, which are even smaller than 2.5-inch ones. Typically, the capacity of such drives is limited to 120 GB and they are equipped exclusively with a USB 2.0 interface. These discs are rarely found in stores, usually they are distributed at various events as souvenirs.

The most popular and popular category is external drives based on standard 3.5-inch hard drives. They can consist of one or two hard drives placed in one case, and in the latter case, it is usually possible to organize RAID arrays of levels 0 (disk pooling) and 1 (mirroring).

For drives based on 3.5-inch hard drives, a read speed of 70-90 MB / s and a write speed of 60-80 MB / s are typical. For the most productive models, the read speed can reach 120 MB / s, and the write speed - 110 MB / s. The volume of such drives is usually from 500 GB to 2 TB in single-drive models and up to 4 TB in dual-drive models. The cost of storing one gigabyte, on average, is from 4 to 8 rubles, for the best models - from 3 to 4 rubles.

3.5-inch external drives can be equipped with a full range of a wide variety of modern interfaces: in addition to the obligatory USB 2.0, they are equipped with eSATA, FireWire 400 and FireWire 800 controllers, as well as a promising USB 3.0 interface.

Multimedia drives are a special category of external hard drives based on 2.5- or 3.5-inch hard drives, which are equipped with a built-in decoder for popular audio and video formats, as well as a software media player with hardware controls. In fact, these drives are hard disk-based multimedia players and are usually equipped with a remote control.

Such devices can be directly connected to the TV and audio system and they will act as a stand-alone multimedia player that is not connected to a computer. To do this, they are equipped with "household" video interfaces (composite, component, HDMI), as well as analog and digital audio outputs. In many cases, a card reader is built into these devices, which allows direct playback of multimedia content from removable flash cards. There are modifications designed exclusively for connecting removable hard drives, purchased separately.

The standard arsenal of multimedia drives includes support for MPEG-1/2/4, DivX and XviD video formats, MP3, WAV, AAC audio formats, as well as digital imaging JPEG. The possibility of working with other formats should be clarified separately when choosing each specific model.

At the same time, of course, such devices can also be used as ordinary computer external drives - usually via USB 2.0 and eSATA interfaces.

The most complex and expensive type of external drives are NAS systems, that is, network storage devices. These are external devices with one or more 3.5-inch hard drives equipped with network interface Ethernet (for all modern models - gigabit) and having the functionality of a mini-server.

NAS drives are network computers, the main function of which is to provide access to the data stored in them for any computer that is part of the local network. At the same time, many of these devices have the extended functionality of a "real" server that can connect to the Internet and exchange data via FTP and HTTP protocols.

Some NAS have built-in multimedia servers that allow you to play and broadcast content stored on hard drives over a local network, as well as print servers: printers connected to the NAS will be available to all computers on the network. Many models are equipped software for data backup.

However, the most requested feature, for which NAS drives are most often purchased or assembled, is the built-in peer-to-peer client, thanks to which you can upload and download files from the BitTorrent and eMule networks without turning on the computer. Such devices are able to work around the clock, consuming much less electricity than a full-fledged PC, and making almost no noise (however, this depends on the specific design).

Despite the fact that NAS drives are usually built on the basis of 3.5-inch drives, in terms of speed they are often inferior even to 2.5-inch external hard drives. Manufacturers rely on reliability, rightly believing that low speed access via local network makes it pointless to use drives with high speed characteristics. Of course, when connected directly to a computer via USB 2.0 or eSATA interfaces, the drives demonstrate quite typical performance for 3.5-inch hard drives.

Prices for NAS drives vary quite widely: extremely simple single-disk models without an FTP / HTTP server cost about 4,000 rubles, and multifunctional systems with support for five hot-swap hard drives can cost more than 30,000 rubles. At the same time, for quite a bit of money, you can independently assemble a NAS from an old computer or from inexpensive components for nettops. For such "self-assembly", a special and completely free assembly of the FreeBSD operating system, called FreeNAS, is often used. This software allows you to set up a network storage device with almost any required functionality.

External storage devices appeared a very long time ago, in fact, at the dawn of the computer era, all data storage devices were external. This approach to connectivity was largely due to the storage technology used at the time and the general level of development of the semiconductor industry. However, over time, data drives moved inside nice and compact cases. personal computers(PC).

Progress is progress, miniaturization reaches new and new heights. However, for some tasks there is still a need for external data storage devices. For example: a designer who has to pass large files customer or there is a need to work with this material at home. Again, it may be necessary to absolutely protect your information from access by strangers: disconnect the disk and take it with you - what is called absolute protection :).

Below I will consider the main ways to connect external data drives and their characteristic features - a kind of historical tour.

Naked interface

Initially, the only way to connect an external storage device to a PC was to use the SCSI interface. It is worth noting that the SCSI interface implemented the ability to connect not only data drives, but also all kinds of external peripherals. For the first time, I had a chance to deal with external storage devices on the example of a hard drive and a CD-ROM with a SCSI interface back in 1992. The disk and CD-ROM were convenient and not very large boxes that could be disconnected from one PC and quickly connected to another PC without disassembling them. Well, if the operating system was perfect enough, then this could be done in a "hot" mode. The classic appearance of such a case can be seen in the photo.

True, for this method of connection it was required that both machines had a SCSI interface, and at that time this pleasure was very expensive. big money. However, for some tasks, this ability to quickly transfer and connect storage media of large amounts of data was simply invaluable. As an interface, SCSI had and still has a lot of possibilities, but they are all locked into a rigid framework of high price. However, this method of connection has other disadvantages. Perhaps the main ones can be considered the use of thick and bulky 50-core connecting cables and the low prevalence of the SCSI interface. The photo shows SCSI and USB interface cables for comparison.

The IDE interface, which began its triumphal march on the PC market a little later, was very primitive in its capabilities, but had a huge advantage over SCSI - it was very cheap. But the old rule that “cheap is not good” has not stopped working. The wider the IDE interface spread to the PC, the more urgently there was a need to implement such functions that SCSI already had, including the ability to use the IDE to connect external storage media. The industry took the shortcut to solve this problem. This, as you guessed, is about the so-called Mobile Rack devices. This is a primitive basket that houses a hard drive and a socket, which is usually installed in a 5 inch slot on the front of the PC.

This whole design allows you to connect / disconnect the hard drive without disassembling the computer. To call such a method of connecting data drives "external" the language does not turn, however, without fish and cancer - a fish, it turns out, although not very convenient, but cheap. Moreover, for a very narrow range of tasks, this method is almost ideal. Over time, the capabilities provided by new operating systems even made it possible to implement a primitive possibility hot swap IDE drives. But too frequent cases of disk failures with such a connection sharply limit both the scope of this method and the number of users who want to risk their hardware. In addition, Mobile Rack baskets made by different companies were often physically incompatible with the jacks due to the non-standard location of the connectors. However, the Mobile Rack connection method is still alive and well.

But let's go back a little. The possibilities that the primitive Mobile Rack provided, of course, could not fully satisfy users, and the computer industry once again launched the process of evolution.

building bridges

So, the industry had to evolve within the framework of certain requirements for external data storage.

1. Devices must be hot-pluggable/unpluggable
2. It is necessary to use existing technologies
3. The solution must be cheap and massive

As usual, the designers went the simplest way. What does every computer have and is worth a penny? That's right, any computer has a port like LPT! Of course, it is not fast, and it is not very convenient to work with it, but what we have is what we start from. From that moment on, a class of devices called bridges appeared on the data storage market. Bridges are a software and hardware system that allows a computer to work with an external IDE or SCSI storage device using a peripheral bus or interface.

In the following, I will mainly use IDE device examples, since it is more common. But everything that will be said about the IDE can just as well be said about SCSI, since the ideology remains the same regardless of the interface.

This approach - using the LPT interface - was certainly not ideal, but it worked nonetheless. So, what the user could get in the end.

1. Ability to connect external storage devices to any PC.
2. No need to upgrade your computer.
3. Cheapness.
4. Ease of connection.

1. Low speed, several orders of magnitude lower than that of SCSI or IDE (with direct connection).
2. The need to install drivers.
3. A primitive set of commands and features.

Well, the first pancake always turns out lumpy. Nevertheless, it is important for us that the industry first applied bridge technology in practice. This was the first step in the development of a whole class of similar devices.

However, as time went on, the capacity of hard drives grew, and the amount of data grew. The speed provided by the LPT interface has become sorely lacking. The industry began to look for new ways to connect faster and more capacious drives.

The idea of ​​connecting devices through bridges began to develop in new directions. By that time, almost all more or less modern computers were equipped with such a peripheral data transfer bus as USB. Although USB was the most common bus, it also turned out to be the most unclaimed at that time. A fairly promising development, integrated by INTEL into its chipsets and therefore practically worthless, it was present at many motherboards, but the lack of devices that could work with this tire turned it into a beautiful toy. Now the time has come. In fact, USB was designed as a peripheral bus for connecting computer peripherals outside the car body according to the plug "n" play standard. The old man LPT simply could not resist such pressure. So, what could users get when switching from an LPT-IDE bridge to a USB-IDE bridge.

1. Significant increase in speed. USB - 750-950 Kb/s versus 250-300 Kb/s for LPT
2. Ideal hot-pluggable/unpluggable.
3. No setup issues, completely P&P.
4. Convenient cables for connection.

It was impossible to pass by such an opportunity to use USB, and users received a whole range of IDE devices capable of working via USB 1.1. Here are some examples.

USB-IDE bridge board - what is called a do-it-yourself constructor. The user can, if desired, easily convert any external storage enclosure he has.

Outer case for 3 inch hard drive.

External case for 2-inch hard disk, with some models of hard disks, even operation without external power is possible.

Integration is a curious process

A small lyrical digression. Despite the fact that the methods of connecting drives using a bare interface and using a bridge have fundamental differences, the market is a market, and if there are unoccupied niches in it, then they should be taken. Apparently, guided by such motives, some companies have developed such curious combi devices that can work in different guises.

Allows you to work in two modes: as a universal Mobile Rack for computer devices, and as an external device connected using a USB bridge. In the first case, you have the ability to quickly remove the storage medium from the computer without disassembling it, and in the second case, you can easily connect the removed storage media to any computer that does not have a Mobile Rack slot, but has a USB bus.

The bridge must be wide!

Agree, it's a shame to have a hard drive that can, for example, issue a transfer of 20 Mb / s, and connect it via a USB bridge at a speed of 900Kb / s. Not everyone has the patience to, say, rewrite 10 GB of information at that speed. Faced with such problems, the computer industry turned to the FireWire (IEEE 1394) peripheral data bus, which came to the PC world from the world of MAC computers. Possessing outstanding characteristics and capabilities, this tire initially, due to the policy of the Apple developer, was not widely used in the world. But what a chance Apple had to become a leader in this area! However, if there is a need for speed, then it is necessary to satisfy it somehow. Incidentally, the fact that the industry has chosen to use FireWire in this way has had a positive effect on the cost of FireWire devices. During the year, their price has decreased by more than three times. With the transition from USB 1.1 to FireWire, users have received the following key benefits.

1. Increased maximum transfer rate from 10 MBit/s (USB) to 400 MBit/s (FireWire).
2. Ability to power external devices from the bus 1.25A/12V (FireWire) against the maximum 500 mA/5V (USB).

Again, a small example. Here is the case for the 2" hard drive.

However, unlike USB, the user does not have to puzzle over how to find a suitable hard drive that will work without additional power. Power is taken directly from the bus (1.25A 12V = 15W), so absolutely any hard drive will do.

However, progress does not stand still, and clouds hang over FireWire in the form of USB 2.0. Possessing several the best performance, it can become its serious competitor. The main trump cards in the fight were to be an increase in speed from 10 MBit / s to 480 MBit / s and support for all old USB 1.1 devices. True, when introducing USB 2.0 to the market, some bewilderment is caused by the policy of Intel. Previously, the corporation actively promoted this bus, but, contrary to the expectations of users, did not integrate it into their latest i845D and i850 chipsets. Why this did not happen remains a mystery. However, there is already everything that is needed for the widespread adoption of USB 2.0 in the PC market. Firstly, the market is more than provided with chips for creating expansion cards to support USB 2.0, and secondly, external storage devices that use USB 2.0-IDE bridges are actively moving into the market.

Here, for example, is a bridge on a chip from In-System. It is designed in such a way that it can very easily replace the previous generation bridge (photo a little higher in the text). And that is not all, price policy The company is such that the cost of a USB 2.0 bridge is almost equal to the cost of the previous USB 1.1 model.

Bridge to the bridge of strife

The market is a market, and if there is a demand, then everyone who can will try to get into this niche in the market. Therefore, it is not surprising that a natural process of competition was observed in this segment of the market. As usual, competing firms presented their products one after another. This is where we get some differences in transmission speed for practically similar products, but using bridges from different companies.

For USB 1.1, this difference was not so fatal due to the low transfer rate. The values ​​of the maximum possible transmission speed, as a rule, ranged from 750-950 Kb/s. However, a 20% difference looks quite large.

Much more interesting was the situation on the market for high-speed IDE-FireWire bridges. Here the maximum speed could differ several times. Moreover, I observed such a difference in devices of the same company, assembled on different chips of FireWire-IDE bridges. Curiously, both chips were from the same manufacturer. Below you can take a look at the comparison results.

Chip Oxford semi. OXFW910

Chip Oxford semi. OXFW911

Well, is the difference impressive? I can understand those who, for example, need to connect a CD-RW recorder through a similar bridge. By and large, they will not give a damn about speed, but what about those who want to connect a modern high-speed hard drive? So, as they say, be careful when choosing such a device for yourself. Below I will give the test data of some of the most commonly used chips on the basis of which IDE-FireWire bridges are built. Data obtained from Skymaster. This company is engaged in the production of all kinds of USB and FireWire devices. An IBM DTLA-307020 hard disk was used as a test device; testing was carried out under OS Windows 2000.

Unfortunately, there is no way to compare at least two USB 2.0-IDE bridges, since at the moment only In-System supplies such devices to the market. But recently two more large companies - NEC and ALI - have announced similar devices, so let's see what they come up with and in the future we will try to compare them.

Bridges of all countries, unite!

In one place you have FireWire, in another you only have USB, but you really want, for example, to bring a friend a couple of new films in DVD format, but rewritten to the hard drive. However, you have a FireWire drive, and your friend only has USB 1.1, well, he shouldn’t get a FireWire controller for this. Well, the controller can and should be started, especially since peripheral manufacturers have long been hinting at the need for all widely used peripheral buses in every computer. Just take a look at this universal hub, isn't it cute and practical?

But this card can make you happy with two high-speed buses at once - USB 2.0 and FireWire.

Well, versatility is a sacred thing, - the manufacturers decided and, without thinking twice, they set about developing bridges with combined interfaces. In principle, the main difficulty is to compactly place all the necessary components on the bridge board and try at the same time so that the cost of such a device does not turn out to be excessively high. The first bird was such a FireWire / USB1.1 bridge - IDE.

And this is just the beginning, as the FireWire/USB2.0 -IDE versions are ready and will soon be put into production. Here the user can afford to forget about the compatibility of his external drive with computers, since the computer has some kind of peripheral bus for sure :).

Bridges, say ... well, well

This year was marked by the final version of the Serial ATA interface. And although for now it is intended only to replace the outdated IDE, it already has the manners of Napoleon. Judge for yourself, this interface is almost identical in its functions to both a FireWire device and USB 2.0, but at the same time even faster. The data transfer rate of Serial ATA can reach 150 Mb/s. Of course, it will be some time before it hits the market in all its glory. Although for now it is positioned exclusively as an internal interface, it nevertheless has all the makings of an interface for connecting external devices. See for yourself, the interface uses a star topology to connect devices. So you can bring out one or two connectors for connecting external devices without any problems, and at the same time the devices will function similarly to internal ones. The maximum cable length is 1 meter - this is also quite enough to connect most external devices.

The cable consists of two pairs of data wires and three ground wires, so the cable is very compact and convenient. Of course, the future will show whether this interface will invade the external storage market or not, but this possibility must be kept in mind.

Classification of storage devices

According to the stability of the recording and the possibility of rewriting, the memory is divided into:

According to the type of access, the memory is divided into:

• Devices with serial access (for example, magnetic tapes).
• Random access devices (RAM) (for example, magnetic disks).

Geometrically:

• disk (magnetic disks, optical, magneto-optical);
• tape (magnetic tapes, perforated tapes);
• drum (magnetic drums);
• card (magnetic cards, punched cards, flash cards, CDRAM cards and others).

According to the physical principle:

See what "Data Drive" is in other dictionaries:

drive (data)- A device for recording and (or) reproducing data signals. Notes 1. Depending on the recording system and the name of the recording medium, specific terms are used, for example, "magnetic storage", "optical storage", ... ...

drive (data)- 377 storage device (data): A device for recording and (or) reproducing data signals. Notes: 1. Depending on the recording system and the name of the recording medium, specific terms are used, for example, "magnetic storage", "optical storage" ...

hard disk drive- I/O device computer, providing data output from a computer, their conversion, recording on a hard magnetic disk for long-term storage, reading data from a magnetic disk and entering them into a computer. [GOST 25868 91] drive for ... ... Technical Translator's Handbook

An input/output device of a computer that provides data output from a computer, their conversion, recording on a floppy disk for long-term storage, reading data from a floppy disk and entering them into a computer. [GOST 25868 91] Topics… Technical Translator's Handbook

magnetic tape drive- An input/output device of a computer that provides data output from a computer, their conversion, recording on a magnetic tape for long-term storage, reading data from a magnetic tape and entering them into a computer. [GOST 25868 91] Equipment topics ... ... Technical Translator's Handbook

Hard disk drive (hard drive)- Hard drive magnetic disks HDD, hard drive, hard disk, HDD, HMDD or hard drive is a non-volatile, rewritable computer storage device. It is the main storage of data in almost all modern ... ... Official terminology

Not to be confused with UDMH, a propellant component. Floppy disk drive (English ... Wikipedia

"HDD" redirects here. See also other meanings. Schematic diagram of a hard disk drive. Hard disk drive, HDD, hard disk, hard drive (Eng. Hard (Magnetic) Disk Drive, HDD, HMDD; in ... ... Wikipedia

Translation memory (TM, sometimes referred to as "Translation Memory") is a database containing a set of previously translated texts. One entry in such a database corresponds to a segment or "translation unit" (English ... ... Wikipedia

floppy disk drive- 35 floppy disk drive: An input/output device of a computer that provides data output from a computer, its conversion, recording on a floppy disk for long-term storage, reading data from a floppy disk ... ... Dictionary-reference book of terms of normative and technical documentation

Books

• Magazine "World of PC" No. 08/2014, World of PC. In the issue: Theme of the issue: Bricks of the future. Reading for pleasure We decided to test the most popular models of e-books in order to tell readers about their advantages and… electronic book

Let's say right away that "data drives" is an official term that is rarely used in everyday life. True, they tried to revive it with the introduction of the concept of "solid-state drive". Apparently, someone needed it. However, people still say "SSD", rarely using clerical terms.

Well, okay, let's move on to devices for storing digital information. Life forces us to understand all this at least a little.

Ancient data drives

Once upon a time, computers did not fit in your pocket or bag. They were the size of a two-story house. Programs were entered into them using paper tapes with holes punched into them (punched tapes), and information was recorded on tapes. Yes, on ordinary tape recorders! But only instead of sound - signals of zeros and ones.

Tape recorders lasted quite a long time, even for a while after the invention of floppy disks. Don't know what a floppy disk is? It's a plastic disc with a floppy disk inside. The disk was magnetic, it was possible to record all the same zeros and ones on it. A special "tape recorder" was built into the computer. That's what it was called: "floppy drive".

Hard drives

As opposed to flexible, there are hard drives (hard drives, "hard drives", hence the slang "hard" and "screw"). Metal, in cases, with their own motors and microcircuit controllers. They are used to this day, moreover, as the main keepers of information. They are built into laptops and desktop computers, they record the operating system, and also store all sorts of files.

However, there are not only built-in bowels of the computer, but also external hard drives connected to the USB port. These are small boxes that fit easily into a bag and even into a rather spacious jacket pocket. It is very convenient if you need to take fifty films to a friend, for example.

Optical discs

These are CD, DVD and Blueray. As data stores, CDs are now used to contain drivers for different devices. We bought a printer, and in the box - a disk from which you need to install these drivers.

DVDs are the most popular because they are not much more expensive than CDs and they hold six times as much data. If you urgently need to make a backup copy of, say, forty gigabytes, then it is cheaper to purchase a dozen blank DVDs than any other drives of sufficient capacity.

Well, for the time being, Blueray discs record mainly high-definition films. Just as CDs were previously audio discs and DVDs were video, so Blueray has not yet matured to mass use as arbitrary data drives, although the process has already begun.

It is better to purchase rewritable discs (labeled as RW). They are more practical, and the quality is always higher.

Flash drives

These are not only ordinary flash drives, but also flash memory players, and various MicroSD for cameras, mobile phones and other compact devices. In short, there are quite a few variations.

Of course, a flash drive is the most popular type of such drives when it comes to working with computers. Plugged into a USB port - record, copy, view, do whatever you want. At least run the operating system from it and install it on your hard drive (this is true for Linux-based OS).

However, it should be remembered that flash drives are not designed for an infinite number of writes and erasures. Maybe three years is enough, and then you have to buy a new one.

SSD

Solid-state drive, abbreviated SSD - these are the same solid-state drives mentioned in the preamble. At the moment - the highest stage of the evolution of flash memory.

SSD drives are commonly found in netbooks and tablet computers instead of hard drives.

They work faster than any disks in general, they are not afraid of vibrations (therefore they are used at the International Space Station), and in general they are utterly progressive ...

What? Do you think there is a slight irony in my words? Yes there is a bit. Why? Now I will explain.

First, SSD is not cheap. Secondly, only modern technologies are optimized to work with them. Operating Systems. Why optimize? This is third.

The fact is that SSD is an advanced, but still flash technology. Solid-state drives wear out too quickly if the netbook torrented for days, constantly downloading something, giving it away, picking up files piece by piece, writing and overwriting. And these are not flash drives, not external devices; to replace them, you will have to carry the computer for repair.

Therefore, it is necessary to optimize the work with data. For example, Windows 7 does not apply defragmentation.

conclusions

Optical discs are too early to send to the museum computer technology where the floppy disks are already located.

Yes, you need a program to burn data. Yes, not as convenient as simply connecting the device to USB. Not for the lazy. But very economical.

Of course, the future is for the SSD, but it has not yet arrived. Inexpensive options for such drives are designed for a miserable ten thousand rewrite cycles. Long enough for a flash drive, which you remember one and a half times a day, but not for an operating system carrier on a heavily used computer. So hard drives (including external ones) have not yet become history either.

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