Inspiron 5160 Review

A desktop computer is a major purchase – after all not only are you investing a significant amount of money, but you also have to make a lot of decisions about exactly what you want and need – not only for this week but for perhaps the next 2-3 years.

The number of choices you are faced with can be overwhelming, so it's difficult to decide which computer to purchase and what components are necessary for your uses. For instance, if you are intending on buying an Inspiron 5160 then it is probably a good idea to read an Inspiron 5160 review so you can see clearly what other people think of the product before you lay any money down. It is always a good idea to read computer reviews before you make your decision.

Because everything changes so quickly in the computer world, it is strongly suggested that you use the Internet to do your Inspiron 5160 review research. Computer sites are frequently updated, so you have access to the latest information.

Many sites these days will allow you to set up side-by-side comparisons among several contending computers which is great for a review of the Inspiron 5160 for instance. Additionally, branded sites allow you to compare different models of their brand, with easy-to-read tables listing all the options.

The most efficient way to go about this process is as follows. First, make a list of what components you need. Once you know the specs of your ideal computer, go to a general review site to help you make a decision about the best brand. You will for example, be able to find a Inspiron 5160 review there.

Next, go to the brand site and use the comparison tables to find the model that most closely matches your specs. Finally, run a search for that specific model, such as the Inspiron 5160. This will bring up many sites and allow you to find your best price. Then you are free to make your purchasing decision and well informed to boot.a

Dell Latitude Laptop Batteries

Dell Latitude Laptop batteries are made with long lasting, durable Lithium Ion battery cells as are most of the other batteries that are used in laptop style computers. Lithium Ion batteries are considered to be the lightest rechargeable batteries that are available on the market which is ideal as laptop batteries need to be small and portable.

In the world of battery technology, Dell Latitude Laptop Lithium based batteries are relatively new to the market. While some rechargeable batteries have difficulty charging properly when not fully discharged such as those sometimes used in cell phones, these types of batteries are able to avoid this problem, with a feature commonly referred to as the "memory effect".

You should be aware that because Lithium Ion batteries are more expensive to produce, and as a result they are also far more expensive to purchase. However, with the sheer reliability and the ability conduct business anywhere, anytime, these Dell Latitude Laptop Lithium based batteries pay for themselves in no time at all. That being said, you can generally find better than retail prices on the laptop batteries you need if you spend a little bit of time shopping around for the best deal via the Internet.

You can find the Dell Latitude Laptop Lithium based batteries you need quicker and easier than anytime in the past. This is due in large part to the number of different companies who sell laptop batteries through their website for brand name laptops. If your laptop is less than 7 years old, then you will probably be able to find the laptop battery that you need.

Since the beauty of laptop computers lies in their portability, it is essential that you have quality laptop batteries to power your laptop. There is nothing worse than having your battery give out on you when you are nowhere near a power source. Don't let this happen to you… Invest in Dell Latitude Laptop Lithium based batteries and keep yourself on the move.

Sony Mini Laptop

uated with better. We see cell phones getting tiny beyond belief. Now, a lot of technological gadgets are all rolled into one small machine, as with the infamous and ever-advancing Sony Mini Laptop. Instead of carrying around several different pieces of equipment, only one small item needs to be accessed and can be transported easily due to its portability and compact size.

Minimizing the amount of equipment that people need to take with them on a daily basis makes for a convenience that many people cannot see their lives without. The smaller the computer product, the more desirable it seems to be. As a result, many of our technological tools have become essential, so the convenience of this minimizing is appreciated.

The gadgets of today, like the Sony Mini Laptop, are shrinking and this is being embraced by consumers worldwide. The world of technology is becoming less cumbersome. The ease with which people are able to conduct business, communicate and have fun using technology pushes the industry to create small versions of just about anything. Laptops are definitely no different.

For some, a normal sized laptop, although smaller than a desk top computer, is still far too large to carry around all of the time. This is why any people are now turning to products like the Sony Mini Laptop for their technology needs.

As such, the computer has become such an essential part of people's lives because it quite literally can be with them 24/7. Many people want to be able to access the Internet at any and all moments of the day, for business or pleasure.

In response to the trend of shrinking equipment, many companies continue to offer smaller and smaller laptops such as the Sony Mini Laptop, making these mobile computers even more portable. Along with these mini laptops, comes a need for mini laptop bags. Mini bags are perfect for mini notebooks.

The guide to the best rated computer laptops

mputer season. One year, it's Apple at the top of the heap. The next year, Dell, Compaq, or one of the other powerhouses takes the cake. How can you the consumer tell what to believe when there is such volatility in brands and model quality?

The simple truth is, with this sort of complicated and fast-changing technology, there will be such dynamism at the front of the pack. You want that. That means computer manufacturers are competing against each other, developing innovations and better performance at cheaper costs.

Still, you want to be able to differentiate the best of its class from the middle of the pack—even if it's just for a couple months. So to help you determine which are the best rated computer laptops for yourself, here is a guide to help you know which qualities to search for that all top-breed notebooks possess.

First and foremost, keep your eye on the basics: the hard ware. Computers essentially need three things to run. They ought to have ample hard drive room to store vast amounts of files, programs, and other information without fear of running out of space.

Then they need a lightening quick processor to juice up your online experience and the speed of your applications. Finally, do not underestimate the need of RAM. This short-term memory is what essentially runs open applications, so the more of it your computer has, the faster and more multitasking it can do.

Next, assess the accessories that a laptop offers. Accessories should focus on a laptop's main benefit over desktops, which is, of course, mobility. Depending on what you need you notebook for, this mobility could mean wireless Wi Fi technology, USB and FireWire ports, and mobile chip technologies like Intel's new Centrino.

Finally, there are the intangibles that make a computer great. Body weight, chassis style, screen size, battery life—these are the things that some people overlook. But if you want one of the best rated computer laptops, you need to take all of these factors into consideration.

Get the real DL on HP laptops

If you want the DL on HP laptops—street slang for the "down low" or inside information—you don't need to go any further than here. Hewlett-Packard is one of the top brands in the computer market. Big names like HP offer a wide range of notebook models to suit any person's needs.

That's the beauty of laptops these days. In the ancient times—six or seven years ago when laptops started making it big—laptops really had one prime function: mobility. For the ability to bring your computer with you to the lab, library, or just the couch, people way back then were willing to pay extraordinary amounts of money.

The trade off, though, was that you weren't getting too much for your money. Laptops back then tended to be slower than desktop versions, with less options on memory, processors, and applications. The whole purpose of them, remember, was mobility. If you wanted mobility and power, you were looking at a small fortune.

Nowadays, the opposite is true. Laptops aren't far behind desktops in price and power. The selection of hard drives, memory, and processors has shot to the moon—or the couch in some cases. Capabilities for notebooks such as HP laptops are so great that many people buy them as their primary computer, to use on their desk, at their office, or in their neighborhood coffee shop.

Just as you would when buying your desktop computer, you need to consider your needs when you're looking for laptops. No longer is their primary purpose their ability to be carried. Now there are laptops strictly made for playing video games. Others are packed with the high-tech graphics programs to design these video games. While other notebooks are loaded with business capabilities such as Bluetooth wireless access and FireWire ports.

It's up to you to decide exactly what you need your HP laptops for. Then let the notebook do all the work.

IBM Thinkpad T22 Docking Station

One of the biggest issues with IBM Thinkpads and indeed any laptop at all, is performance and efficiency. Like most other laptop computers, the IBM Thinkpad is intended to make your life easy. The ability to lock into a docking station and integrate between work done away from the office and the existing device is optimum.

A docking station allows you to charge your laptops batteries as it runs off the main power, allows you to integrate files that you have created while you have been away back into your mainframe system and to use full size keyboards and monitors and other computer peripherals that are also plugged into the back of the docking station infrastructure.

While it is not critical that the IBM Thinkpad t22 docking station be purchased online, it is often far cheaper than buying a docking station at your local computer store or via the Internet. There are reasons for doing this. For one, accessories sellers online have lower operating costs.

They do not have to rent or build a storefront and, therefore, do not have as many costs to pass along to their customers. While you can buy an IBM Thinkpad t22 docking station direct from IBM it is probably best to look around at accessories suppliers to see if you can find it cheaper as with all major brands they tend to charge full tote odds for all of their products.

There is also a wider selection of accessories based products when shopping online. In an hour you can surf through hundreds of online computer stores to find the IBM Thinkpad t22 docking station for your system. In that same amount of time you could visit only a handful of stores in your neighborhood. Having more stores to choose from ensures that you find the best price available.

Earn your income with IBM laptops

mputers for business folk. Maybe it is because IBM has such the reputation as a buttoned-down blue suit sort of corporation. After all, it was IBM that passed on the user friendly technology that would eventually be bought up later by a young nerd named Bill Gates.

Nowadays, this reputation isn't such a bad thing, as many of the world's biggest corporations rely on IBM to power their computer and wireless networks. With the help of other IT giants like Cisco, IBM has designed safe and secure networks for multinationals to protect them and their workers from viruses, hackers, spam, and other pitfalls of modern technology.

An essential part of any of these massive computer networks are some of IBM's finest products, their IBM laptops. After all, today's business world is a mobile and fast-paced environment where workers streak across the globe for business meetings while planning next week's meetings by e-mail and instant messaging.

One of IBM's finest new notebooks is the IBM ThinkPad R52. It weights in at less than 6 pounds, so a day's worth of travel with it won't wear down your shoulder all that much. As with other IBM computers, it's just a sleek, sophisticated design that shouts that you're are upwardly mobile on the ladder of labor. And as with other IBM notebooks, it comes with the latest in protection from drops and collisions, which are bound to occur in today's hustle and bustle business world.

Possibly the best facet of this computer, though, is it's wireless technology. After all, the prime feature of a laptop is it's mobility. And this notebook's technology makes it one of most mobile, and powerful, out there. That's because the computer has the latest in Intel Centrino technology. This ensures maximum battery life, lightening fast function, and wireless connectivity for these IBM laptops.

Dell Inspiron 8600 Review

r every Dell laptop model such as the Inspiron 8600 that can be purchased you just need to a read Dell Inspiron 8600 review to check out what is right for you and what other people think of the model. Dell certifies each recommended model so that compatibility is never a concern you just need to be sure that that is the model you want to purchase.

Installing new laptop hard drives in your Dell is just as easy as buying a new Dell Inspiron 8600 after reading a Dell Inspiron 8600 review. While the process of installing replacement hard drives varies slightly from model to model, ultimately the basic workflow is the same. In order to install Dell laptop hard drives, simply follow these simple instructions according to the model.

Prior to beginning the installation of a new Dell Inspiron 8600 hard drive and after reading a Dell Inspiron 8600 review, you should let your computer sit idle for a few hours. This will insure that the hard drive is not too hot to touch.

Unplug all cables and remove the battery from your laptop. Also remove any PC cards. Flip the computer upside down and set it on a flat surface. To avoid damaging the top of the computer, use a lint free towel as a stabilizer.

Unscrew the hard drive screws and set them aside. Slide the hard drive memory out and place it in an anti-static package. Remove the new drive from its anti-static packaging and carefully slide it into the hard drive bay. Once it is fully inserted, replace the hard drive screws. When the computer reboots, it should recognize the new memory automatically. The entire process takes only a few minutes.

Working with CDs asks for some special attention

If you have a CD-writer, then you will have special software to be able to write to your CDs. In most cases however, this software is not compatible to Windows Explorer and is it impossible to copy or write to the CD like you would write to another drive like a hard disk, ZIP disk or Yazz disk. Also if you try to save a file (from a Microsoft office program like Word for instance) then it would not work.
Now, we have the same problem with SmartDirCopy.
However, there is a solution! There exists some CD writing software which makes standard software compatible to CDs. It is, among others, DirectCD from Roxio. DirectCD is a way to write files directly to a CD-Recordable (CD-R) or CD-ReWritable (CD-RW) disc much like you would to a floppy diskette or removable drive. It kind of changes the formats of the CD and with DirectCD itself in memory you can use also SmartDirCopy!

• Writing to CD-R/DVD-R
• We do not recommend writing to non re-writable media. But here some info anyway. CD-Rs are relatively cheap but when removing files, the space is not released. This is a big disadvantage. But if the total size of the source files are small in comparison with the CD-size, then SmartDirCopy can be used. Do not forget to select the kind of drive as CD-R in project edit as precalculation of future free size takes this into account!
• Note that theoretically it is possible to delete files on CD-R in such a way that they are invisible BUT space does not come free. This is why there is chosen not to clean on destination CD-R. So the cleaning phase during backup does not exist for CDRs.
• Writing to CD-RW/DVD-RW
• CD-RWs are more expensive than CD-Rs but are still cheap in comparison with many other media types AND they can act like a floppy disc with a huge size! We recommend however to use at least VERSION 2.0 of DirectCD if you write to CD-RWs. If you use a lower version then the CD will most probably be seen as a CD-R and so keep in mind then to select the CD-RW as a CD-R in the project as there won't become space available on the CD when a file is deleted.
• DirectCD 2.0, CD-RWs and SmartDirCopy make up a good team to do your backups!
• If you consider copying a lot and/or huge files then you can think about DVDs. We recommend using InCD (from Nero) for backups to DVD-RW.
• File name compatibility
• CDs in general are not 100% compatible with Windows. For instance if you try to copy files with very long file names (longer than 127 characters) using DirectCD then it could cause errors or even could cause your system to hang. Also some characters are not supported on CDs which Windows Explorer sometimes admit. Many copying programs, including Windows Explorer can fail in such cases. Also problems with SmartDirCopy did occur, notwithstanding the fact we told not to use very long file names. We understand however that sometimes it is hard to prevent such file names and from v1.7 of SmartDirCopy onwards we built in some special protection against this: long file names can be automatically cut on the CD + some forbidden characters (very rare though) are ignored. So certainly consider our file-name-checking feature when editing projects if you copy to other destinations than usual hard disk!

Remark that it is possible that EMPTY directories which should be removed during cleaning phase are possibly not removed from the CD-RW. A warning will be given in normal report so that you can eventually remove them manually if you really should want to.
For download and further details on DirectCD, please search on Roxio. There are versions for both CD's and DVD's. For DVD-RW try Nero.

How Floppy Disk Drives Work

If you have spent any time at all working with a computer, then chances are good that you have used a floppy disk at some point. The floppy disk drive (FDD) was the primary means of adding data to a computer until the CD-ROM drive became popular. In fact, FDDs have been a key component of most personal computers for more than 20 years.


Basically, a floppy disk drive reads and writes data to a small, circular piece of metal-coated plastic similar to audio cassette tape. In this article, you will learn more about what is inside a floppy disk drive and how it works. You will also find out some cool facts about FDDs.

Different RAM Types and its uses

Intro

The type of RAM doesn't matter nearly as much as how much of it you've got, but using plain old SDRAM memory today will slow you down. There are three main types of RAM: SDRAM, DDR and Rambus DRAM.

SDRAM (Synchronous DRAM)

Almost all systems used to ship with 3.3 volt, 168-pin SDRAM DIMMs. SDRAM is not an extension of older EDO DRAM but a new type of DRAM altogether. SDRAM started out running at 66 MHz, while older fast page mode DRAM and EDO max out at 50 MHz. SDRAM is able to scale to 133 MHz (PC133) officially, and unofficially up to 180MHz or higher. As processors get faster, new generations of memory such as DDR and RDRAM are required to get proper performance.

DDR (Double Data Rate SDRAM)


DDR basically doubles the rate of data transfer of standard SDRAM by transferring data on the up and down tick of a clock cycle. DDR memory operating at 333MHz actually operates at 166MHz * 2 (aka PC333 / PC2700) or 133MHz*2 (PC266 / PC2100). DDR is a 2.5 volt technology that uses 184 pins in its DIMMs. It is incompatible with SDRAM physically, but uses a similar parallel bus, making it easier to implement than RDRAM, which is a different technology.

Despite it's higher price, Intel has given RDRAM it's blessing for the consumer market, and it will be the sole choice of memory for Intel's Pentium 4. RDRAM is a serial memory technology that arrived in three flavors, PC600, PC700, and PC800. PC800 RDRAM has double the maximum throughput of old PC100 SDRAM, but a higher latency. RDRAM designs with multiple channels, such as those in Pentium 4 motherboards, are currently at the top of the heap in memory throughput, especially when paired with PC1066 RDRAM memory.

DIMMs vs. RIMMs


DRAM comes in two major form factors: DIMMs and RIMMS.

DIMMs are 64-bit components, but if used in a motherboard with a dual-channel configuration (like with an Nvidia nForce chipset) you must pair them to get maximum performance. So far there aren't many DDR chipset that use dual-channels. Typically, if you want to add 512 MB of DIMM memory to your machine, you just pop in a 512 MB DIMM if you've got an available slot. DIMMs for SDRAM and DDR are different, and not physically compatible. SDRAM DIMMs have 168-pins and run at 3.3 volts, while DDR DIMMs have 184-pins and run at 2.5 volts.

RIMMs use only a 16-bit interface but run at higher speeds than DDR. To get maximum performance, Intel RDRAM chipsets require the use of RIMMs in pairs over a dual-channel 32-bit interface. You have to plan more when upgrading and purchasing RDRAM.

Memory Speed

SDRAM initially shipped at a speed of 66MHz. As memory buses got faster, it was pumped up to 100MHz, and then 133MHz. The speed grades are referred to as PC66 (unofficially), PC100 and PC133 SDRAM respectively. Some manufacturers are shipping a PC150 speed grade. However, this is an unofficial speed rating, and of little use unless you plan to overclock your system.

DDR comes in PC1600, PC2100, PC2700 and PC3200 DIMMs. A PC1600 DIMM is made up of PC200 DDR chips, while a PC2100 DIMM is made up of PC266 chips. PC2700 uses PC333 DDR chips and PC3200 uses PC400 chips that haven't gained widespread support. Go for PC2700 DDR. It is about the cost of PC2100 memory and will give you better performance.

RDRAM comes in PC600, PC700, PC800 and PC1066 speeds. Go for PC1066 RDRAM if you can find it. If you can't, PC800 RDRAM is widely available.

CAS Latency
SDRAM comes with latency ratings or "CAS (Column Address Strobe) latency" ratings. Standard PC100 / PC133 SDRAM comes in CAS 2 or CAS 3 speed ratings. The lower latency of CAS 2 memory will give you more performance. It also costs a bit more, but it's worth it.

DDR memory comes in CAS 2 and CAS 2.5 ratings, with CAS 2 costing more and performing better.

RDRAM has no CAS latency ratings, but may eventually come in 32 and 4 bank forms with 32-bank RDRAM costing more and performing better. For now, it's all 32-bank RDRAM.

Understanding Cache
Cache Memory is fast memory that serves as a buffer between the processor and main memory. The cache holds data that was recently used by the processor and saves a trip all the way back to slower main memory. The memory structure of PCs is often thought of as just main memory, but it's really a five or six level structure:

The first two levels of memory are contained in the processor itself, consisting of the processor's small internal memory, or registers, and L1 cache, which is the first level of cache, usually contained in the processor.

The third level of memory is the L2 cache, usually contained on the motherboard. However, the Celeron chip from Intel actually contains 128K of L2 cache within the form factor of the chip. More and more chip makers are planning to put this cache on board the processor itself. The benefit is that it will then run at the same speed as the processor, and cost less to put on the chip than to set up a bus and logic externally from the processor.

The fourth level, is being referred to as L3 cache. This cache used to be the L2 cache on the motherboard, but now that some processors include L1 and L2 cache on the chip, it becomes L3 cache. Usually, it runs slower than the processor, but faster than main memory.

The fifth level (or fourth if you have no "L3 cache") of memory is the main memory itself.

The sixth level is a piece of the hard disk used by the Operating System, usually called virtual memory. Most operating systems use this when they run out of main memory, but some use it in other ways as well.

This six-tiered structure is designed to efficiently speed data to the processor when it needs it, and also to allow the operating system to function when levels of main memory are low. You might ask, "Why is all this necessary?" The answer is cost. If there were one type of super-fast, super-cheap memory, it could theoretically satisfy the needs of this entire memory architecture. This will probably never happen since you don't need very much cache memory to drastically improve performance, and there will always be a faster, more expensive alternative to the current form of main memory.


Memory Redundancy

One important aspect to consider in memory is what level of redundancy you want. There are a few different levels of redundancy available in memory. Depending on your motherboard, it may support all or some of these types of memory:

The cheapest and most prevalent level of redundancy is non-parity memory. When you have non-parity memory in your machine and it encounters a memory error, the operating system will have no way of knowing and will most likely crash, but could corrupt data as well with no way of telling the OS. This is the most common type of memory, and unless specified, that's what you're getting. It works fine for most applications, but I wouldn't run life support systems on it.

The second level of redundancy is parity memory (also called true parity). Parity memory has extra chips that act as parity chips. Thus, the chip will be able to detect when a memory error has occurred and signal the operating system. You'll probably still crash, but at least you'll know why.

The third level of redundancy is ECC (Error Checking and Correcting). This requires even more logic and is usually more expensive. Not only does it detect memory errors, but it also corrects 1-bit ECC errors. If you have a 2-bit error, you will still have some problems. Some motherboards enable you to have ECC memory.

Older memory types

Fast Page Mode DRAM
Fast Page Mode DRAM is plain old DRAM as we once knew it. The problem with standard DRAM was that it maxes out at about 50 MHz.

EDO DRAM
EDO DRAM gave people up to 5% system performance increase over DRAM. EDO DRAM is like FPM DRAM with some cache built into the chip. Like FPM DRAM, EDO DRAM maxes out at about 50 MHz. Early on, some system makers claimed that if you used EDO DRAM you didn't need L2 cache in your computer to get decent performance. They were wrong. It turns out that EDO DRAM works along with L2 cache to make things even faster, but if you lose the L2 cache, you lose a lot of speed.

SATA Hard Disk Drives

The ATA hard disk drives or the Advanced Technology Attachment hard disk drives usually come in Serial as well as the Parallel IDE formats. The Serial ATA is called as the SATA. The concept of the SATA was introduced in the year of 1986. A simple definition of the SATA can be that it can be called as the serial version of the ATA or the IDE interface. This concept of the SATA was ratified by the ANSI in year of 2002. it can be considered as the next generation technology.

The advantage of the SATA is that it has the capability to provide point to point channel communication between mother board or the main board and the drive. Where as in the Parallel ATA that can be termed as the PATA the architecture of the master slave combination is supported on a single cable for the two drives it supports.

The SATA is also used in the implementation of the RAID. The primary reason for the design of the SATA is for the transfer of the data from and to the hard disk drives. The SATA is actually a bus that gives a high performance of data transfer. The data transmission is achieved in the in the half duplex channel.

The speed of the data transmission is about 1.5 giga bits per second or 150 mega bytes per second. This is a unidirectional. Eventually the SATA II was introduced in the year of 2003 that has the speed of about 3 giga bits per second or 300 mega bytes per second. The Parallel ATA hard disk drive uses the flat cable that has the width of around 18’’. But in the case of the Serial ATA a four wire cable is used that has a length of one meter.

This is advantageous in comparison with the Parallel ATA since the cables and the connectors that are used take less space than their counterparts in the Parallel ATA. There are also the External SATA’s or the external hard disk drives that are available. They can be termed as the eSATA. The External SATA is also known as the External Direct Attached Storage for notebook computers or the laptops.

There application is also found in the desktop computer systems, consumer electronics and entry servers. The external hard disk drives whether it may be the External SATA or other drives; presently they use the USB or the IEEE 1394. The usage of these interfaces can compromise on the performance of the drive because they are not as faster as the actual SATA in terms of the peak values.

The important benefits of using the external SATA are explained below. It is very much faster than the other presently available storage devices like the USB 2 or the IEEE 1394 etc. In comparison it is about six times faster. The External SATA is quite robust and also has a connection that is considered as user friendly.

The External SATA also has a high performance. It is also considered as the cost effective expansion storage device. The real advantage is the portability and ease of handling that is provided with the two meter long connectors and the shielded cables that come along with it. The overall performance makes it a popular storage device.

IBM COMPUTER

IBM Computer
International Business Machines Corporation( IBM ):

International Business Machines Corporation (known as IBM or "Big Blue"; NYSE: IBM) is a multinational computer technology corporation headquartered in Armonk, New York, USA. The company is one of the few information technology companies with a continuous history dating back to the 19th century.
IBM manufactures and sells computer hardware, software, infrastructure services, hosting services and consulting services in areas ranging from mainframe computers to nanotechnology.[3]IBM Products :Systems & ServersSystem i (iSeries)System p5 (pSeries)System z
(Mainframe)System x (xSeries)BladeCenterCluster serversUNIX serversLinux serversPOWER processor-based serversIntel-processor based serversAMD processor-based serversIBM Storage:StorageDisk systems:Tape systemsStorage area networksNetwork attached storageStorage softwareHard drives/microdrives

How Speakers Work

Making Sound

In the last section, we saw that sound travels in waves of air pressure fluctuation, and that we hear sounds differently depending on the frequency and amplitude of these waves. We also learned that microphones translate sound waves into electrical signals, which can be encoded onto CDs, tapes, LPs, etc. Players convert this stored information back into an electric current for use in the stereo system.

A speaker is essentially the final translation machine -- the reverse of the microphone. It takes the electrical signal and translates it back into physical vibrations to create sound waves. When everything is working as it should, the speaker produces nearly the same vibrations that the microphone originally recorded and encoded on a tape, CD, LP, etc.

Making Sound: Diaphragm

A driver produces sound waves by rapidly vibrating a flexible cone, or diaphragm.

• The cone, usually made of paper, plastic or metal, is attached on the wide end to the suspension.
• The suspension, or surround, is a rim of flexible material that allows the cone to move, and is attached to the driver's metal frame, called the basket.
• The narrow end of the cone is connected to the voice coil.
• The coil is attached to the basket by the spider, a ring of flexible material. The spider holds the coil in position, but allows it to move freely back and forth.

Some drivers have a dome instead of a cone. A dome is just a diaphragm that extends out instead of tapering in.


Making Sound: Voice Coil

If you've read How Electromagnets Work, then you know that an electromagnet is a coil of wire, usually wrapped around a piece of magnetic metal, such as iron. Running electrical current through the wire creates a magnetic field around the coil, magnetizing the metal it is wrapped around. The field acts just like the magnetic field around a permanent magnet: It has a polar orientation -- a "north" end and and a "south" end -- and it is attracted to iron objects. But unlike a permanent magnet, in an electromagnet you can alter the orientation of the poles. If you reverse the flow of the current, the north and south ends of the electromagnet switch.

This is exactly what a stereo signal does -- it constantly reverses the flow of electricity. If you've ever hooked up a stereo system, then you know that there are two output wires for each speaker -- typically a black one and a red one.

Essentially, the amplifier is constantly switching the electrical signal, fluctuating between a positive charge and a negative charge on the red wire. Since electrons always flow in the same direction between positively charged particles and negatively charged particles, the current going through the speaker moves one way and then reverses and flows the other way. This alternating current causes the polar orientation of the electromagnet to reverse itself many times a second.

How Telephones Work

Although most of us take it completely for granted, the telephone you have in your house is one of the most amazing devices ever created. If you want to talk to someone, all you have to do is pick up the phone and dial a few digits. You are instantly connected to that person, and you can have a two-way conversation. The telephone network extends worldwide, so you can reach nearly anyone on the planet. When you compare that to the state of the world just 100 years ago, when it might have taken several weeks to get a one-way written message to someone, you realize just how amazing the telephone is!

This illustration shows the entire telephone network, including a home connection, cell phone towers, long distance exchanges and transcontinental connections. Click here to see the animated version!



In this article, we will look at the telephone device that you have in your house as well as the telephone network it connects to so you can make and receive calls.

A Simple Telephone

Surprisingly, a telephone is one of the simplest devices you have in your house. It is so simple because the telephone connection to your house has not changed in nearly a century. If you have an antique phone from the 1920s, you could connect it to the wall jack in your house and it would work fine!

The very simplest working telephone would look like this inside:

As you can see, it only contains three parts and they are all simple:

• A switch to connect and disconnect the phone from the network - This switch is generally called the hook switch. It connects when you lift the handset.
• A speaker - This is generally a little 50-cent, 8-ohm speaker of some sort.
• A microphone - In the past, telephone microphones have been as simple as carbon granules compressed between two thin metal plates. Sound waves from your voice compress and decompress the granules, changing the resistance of the granules and modulating the current flowing through the microphone.

That's it! You can dial this simple phone by rapidly tapping the hook switch -- all telephone switches still recognize "pulse dialing." If you pick the phone up and rapidly tap the switch hook four times, the phone company's switch will understand that you have dialed a "4."

What is a SIM Card?

SIM card or Subscriber Identity Module is a portable memory chip used in some models of cellular telephones. The SIM card makes it easy to switch to a new phone by simply sliding the SIM out of the old phone and into the new one. The SIM holds personal identity information, cell phone number, phone book, text messages and other data. It can be thought of as a mini hard disk that automatically activates the phone into which it is inserted.

A SIM card can come in very handy. For example, let's say your phone runs out of battery power at a friend's house. Assuming you both have SIM-based phones, you can remove the SIM card from your phone and slide it into your friend's phone to make your call. Your carrier processes the call as if it were made from your phone, so it won't count against your friend's minutes.

If you upgrade your phone there's no hassle involved. The SIM card is all you need. Just slide it into the new phone and you're good to go. You can even keep multiple phones for different purposes. An inexpensive phone in the glove compartment, for example, for emergency use, one phone for work and another for home. Just slide your SIM card into whatever phone you wish to use.

High-end cell phones can be very attractive and somewhat pricey. If you invest in an expensive phone you might want to keep it awhile. Using a SIM card, it is even possible to switch carriers and continue to use the same phone. The new carrier will simply issue you their own SIM card. The phone must be unlocked, however, and operate on the new carrier's frequency or band.

A SIM card provides an even bigger advantage for international travelers -- simply take your phone with you and buy a local SIM card with minutes. For example, a traveler from the U.S. staying in the U.K. can purchase a SIM card across the pond. Now the phone can be used to call throughout England without paying international roaming charges from the carrier back home.

SIM cards are used with carriers that operate on the Global System for Mobile Communication (GSM) network. The competing network is Code Division Multiple Access (CDMA), a technology created by U.S. company Qualcomm. As of fall 2005, CDMA cell phones and CDMA carriers do not support SIM cards in most parts of the world, though this is changing. A CDMA SIM card called the R-UIM (Re-Useable Identification Module) was made available in China in 2002, and will eventually be available worldwide. Expectations for the future include a cell phone market that supports both SIM (GSM) and R-UIM (CDMA) cards by default.

How Bluetooth Works

When you use computers, entertainment systems or telephones, the various pieces and parts of the systems make up a community of electronic devices. These devices communicate with each other using a variety of wires, cables, radio signals and infrared light beams, and an even greater variety of connectors, plugs and protocols.

There are lots of different ways that electronic devices can connect to one another. For example:

• Component cables
• Electrical wires
• Ethernet cables
• WiFi
• Infrared signals

The art of connecting things is becoming more and more complex every day. In this article, we will look at a method of connecting devices, called Bluetooth, that can streamline the process. A Bluetooth connection is wireless and automatic, and it has a number of interesting features that can simplify our daily lives.

The Problem

When any two devices need to talk to each other, they have to agree on a number of points before the conversation can begin. The first point of agreement is physical: Will they talk over wires, or through some form of wireless signals? If they use wires, how many are required -- one, two, eight, 25? Once the physical attributes are decided, several more questions arise:

How much data will be sent at a time? For instance, serial ports send data 1 bit at a time, while parallel ports send several bits at once.

How will they speak to each other? All of the parties in an electronic discussion need to know what the bits mean and whether the message they receive is the same message that was sent. This means developing a set of commands and responses known as a protocol.

Bluetooth offers a solution to the problem.

How Cell Phones Work

Millions of people in the United States and around the world use cellular phones. They are such great gadgets -- with a cell phone, you can talk to anyone on the planet from just about anywhere!

These days, cell phones provide an incredible array of functions, and new ones are being added at a breakneck pace. Depending on the cell-phone model, you can:

• Store contact information
• Make task or to-do lists
• Keep track of appointments and set reminders
• Use the built-in calculator for simple math
• Send or receive e-mail
• Get information (news, entertainment, stock quotes) from the Internet
• Play games
• Watch TV
• Send text messages
• Integrate other devices such as PDAs, MP3 players and GPS receivers

But have you ever wondered how a cell phone works? What makes it different from a regular phone? What do all those terms like PCS, GSM, CDMA and TDMA mean? In this article, we will discuss the technology behind cell phones so that you can see how amazing they really are. If you are thinking about buying a cell phone, be sure to check out How Buying a Cell Phone Works to learn what you should know before making a purchase.

To start with, one of the most interesting things about a cell phone is that it is actually a radio -- an extremely sophisticated radio, but a radio nonetheless. The telephone was invented by Alexander Graham Bell in 1876, and wireless communication can trace its roots to the invention of the radio by Nikolai Tesla in the 1880s (formally presented in 1894 by a young Italian named Guglielmo Marconi). It was only natural that these two great technologies would eventually be combined.

PC mouse information

This documents tries to tell how PC mouse hardware works and how to read it at the lowest level. If you are programming under some ready made operating systems, then it would be better to use the routines supplied by the mouse driver (a good description of DOS mouse driver programming is available at ftp://x2ftp.oulu.fi/pub/msdos/programming/docs/gmouse.doc in ascii format). There is also a good tutorial Programming the Microsoft Mouse in the PC Game Programmer's Encyclopedia.

How mouse system works

Typical PC mouse controlling system has the following parts:

sensors -> mouse controller -> communication link -> data interface -> driver -> software

Sensors are the movement detectors (typically optomechanical) which sense the mouse movement and button swiches which sense the button states. Mouse controller reads the state of those sensors and takes acount of current mouse position. When this information changes the mouse controller sends a packet of data to the computer data interface controller.

The mouse driver in the computer received that data packet and decodes the information from it and does actions based on the information. Typically mouse driver has the information of the current mouse state (position and button states) and tells them to the application or operating when it asks them. Typically the mouse drive calls mouse cursor moving routines when mouse is moved and sends messages to the software when buttons are pressed.

In typical modern PC mouse driver the actual cursor movement is not linearly related to the mouse movement. This might sound a bit strange but it has been found that there are better ways to change the mouse movement to cursor muvement than just simply causing one mouse step to move the cursor one pixel. During the pioneering research done at Apple Computer in the devellopment of the graphical user interface (GUI), it became apparent that no particular ratio between mouse movement and cursor movement was best suited for all tasks.

Early work detected that there are two basic movements in the use of pointing devices: move cursor to desired area and then exactly to desired target. Those two movements have contradictory requirements, so Apple solved the problem by monitoring the mouse movements and change it's CPI (counts per inch) characteristics. When the mouse was moved slowly it remained 100 CPI and when the mouse was moved fast it appears to be 400 CPI mouse. This method of adjusting CPI based on its usage has now been adopted by the default driver in Windows 95 and is now the most commonly accepted way of translating mouse movements to cursor screen movement

How A Motherboard Works

That complex piece of circuitry in your computer called the motherboard can be difficult to understand.

Now, you may know that a motherboard allows the different components of your PC to talk and communicate to one another.

Motherboards don't need to be complicated. You just need to understand some basic concepts about them and you'll soon be an expert. This article walks you through the various parts of a modern computer motherboard.

A typical motherboard available in the market


1. What Does A Motherboard Do?

Well, the main job of a computer motherboard is to hold the CPU (Central Processing Unit) and have every other computer part connect to it. It is the 'glue' that really holds all portions of your computer together.

2. Form Factor

The form factor is nothing but the shape and layout of a motherboard. The form factor determines what kind of PC case the motherboard can fit into and what types of components it can hook up.

3. Sockets And CPUs

On the motherboard, there is a socket for the CPU. This determines what kind of CPU the motherboard can use. Commonly used sockets are:

Socket 478 - for older Pentium and Celeron processors

• Socket 754 - for AMD Sempron and some AMD Athlon processors
• Socket 939 - for newer and faster AMD Athlon processors
• Socket A - for older AMD Athlon processors

If you have a particular CPU in mind, then look for a motherboard that has a socket for that CPU.

4. Chipset

The chipset is is another concept related to motherboards. It is usually made up of the the northbridge and the southbridge. These connect the processor to other parts of the computer.

What does the northbridge do? Think of the northbridge as a connecting directly to CPU via the front side bus (FSB). On the northbridge, there's a memory controller for the CPU to access, and it also connects to the AGP or PCI Express bus.

On the other hand, the southbridge has no direct connection to the CPU. Information must pass through the northbridge before reaching the southbridge. Buses that connect directly to the southbridge include the PCI bus, USB ports IDE or SATA connections.

5. The System Bus

We've been talking about buses and buses. What's that? Well, on the motherboard, a bus is a circuit that connects one part of the motherboard to another.

The more data this bus can transfer at any one time, the faster its speed. This speed is measured in MHz.

Now, when we speak of bus speed, we typically refer to the speed of the front side bus (FSB). This FSB connects the CPU to the northbridge (as we saw above). The FSB speed usually goes from 66 MHz to over 800 MHz.

6. The System Bus

Next up ... memory. Motherboards also decide how much memory a computer can hold. Most motherboards today support the latest type of memory, called dual data rate (DDR) memory. You always need to look at a motherboard's specifications properly to see what kind and how much memory is supported.

7. Slots And Ports

You should also understand the types of slots and ports found on a motherboard. These include:

Peripheral Component Interconnect (PCI)- connections for video, sound and video capture cards, as well as network cards

• Accelerated Graphics Port (AGP) - a dedicated port for video cards
• Integrated Drive Electronics (IDE) - interfaces for hard drives
• Universal Serial Bus (USB) or Firewire - external peripherals
• Memory slots

8. Other Features

There are some new technologies which have been lately introduced into the world of motherboards:

Redundant Array of Independent Discs (RAID) controllers on the motherboard allow the computer to run many hard drives in parallel.

PCI Express is the latest interface to appear on motherboards. Expect that PCI Express video cards will take over the market soon.

Conclusion

Whew! That's a lot of information about how a motherboard works. Do keep the above points in mind the next time you're trying to understand a new motherboard's specifications.