Toslink And Vga Cable Variations And Differences

Toslink And Vga Cable Variations And Differences

Video Graphics Array (VGA) cables and Toslink cables are similar in that both are used to transmit electronic signals. However, this is where the similarities end as there are far more differences than similarities between the two both in function and design.

Some other common names used for VGA cable is the mini D15, RGB and D sub 15. The purpose of these is to give a type of the connector end of the cable, which has three rows of five pins for each one. Using these connector combinations and cables are for transmitting Red Green Blue Horizontal Vertical sync analog video signals and other similar data information. Generally these cable and connectors are implemented in use of connecting a VGA monitor to a computer.

VGA actually was an IBM video display that was introducted in 1987 to run on their computers, but now a VGA cable is a connector for numerous video production hardware to connect with numerous video display hardwares, but only limited to an analog video signal. With the newer technology developing these types of connectors are giving way to connectors like HDMI or High Definition Multimedia Interface. This newer type of cable can transmit both the digital audio and the digital high definition video.

On the other hand, Toslink cables and connectors are used to transmit digital signals only. Toslink is actually a registered trademark of the Toshiba Company created from “TOShiba-LINK.” The actual generic name is “EIAJ optical” or Electronic Industries Association of Japan optical cable and connector. Toshiba invented it for the purpose of linking their CD players to their PCM audio stream receivers. While VGA cables carry analog video signals, Toslink cables are fiber optic cables transferring strictly digital signals.

Toslinks optical fibers might be a number of construction types, from thin plastic optical fiber to high quality glass, it is dependent on how it’s being used. Most of the time the maximum length for these cables is approximately 15 feet but if it’s specifications are necessary it can go up to 33 feet. Many consumers think that the red light that transmits is a laser, but really it’s a red LED or light emitting diode that moves the light.

What is TOSLINK?

What is TOSLINK?

The term Toslink originates from Toshiba-link, an optical fiber connectivity system, initially developed by Toshiba to be used for CD players. From then, it has become the de facto yardstick for other CD player manufacturers. But it was never limited only to CD players as it is now broadly used for factory automation, office automation, car audio and navigation system and many more. Essentially, it is a data transmission system that utilizes the optical systems, substituting electrical signals. They are more dependable compared to the transmission of electrical data as the distortion or electromagnetic noise will not affect the digital transmission of sound or data, neither does it release any electromagnetic sounds.
The Toshiba Toslink comes in a variety of packages for digital audio applications, ranging up to 25Mbps, appropriate for DVD audio signal transmission. It also offers high-speed optical transceivers for applications such as IEEE1394 and Fast Ethernet. Basically it consists of several components; transmission module that converts electrical signals into optical ones; receiving module that reconverts the optical signals back to electrical signals; optical fiber cable that functions as the physical transmission line; and optical connectors that link the transmission and receiving modules to the optical fiber cable.
A common Toslink cable will use the low-cost 1mm plastic optical fiber. Nevertheless, it also uses higher quality multi-strand plastic optical fibers or quartz glass optical fibers, depending on the necessary application and bandwidth. Optical fiber cable contains two segments; the center of the cable referred to as core and the outer section is called cladding. This sort of assembly will ensure that the optical rays will be reflected at the boundary between the cladding and core upon the transmission through an angle to the axis of the cable. The optical rays will be transmitted longitudinally via the core.
There are several types of optical fibers for the Toshiba Toslink. They include the all-plastic fiber used for data transmission for short distance, the silica fiber used for long distance transmission and the plastic-cladding silica fiber (PCF) used for moderate distance of data transmission.

Clarifying The Names – HDMI Switch v.s. Splitters v.s. Matrix v.s. Adapter

Clarifying The Names – HDMI Switch v.s. Splitters v.s. Matrix v.s. Adapter

The first time I wanted to hook up my Xbxo360, HTPC and Blu-ray player to my old HDTV which had only 1 HDMI port left, I didn’t know what device I should be looking for. I know what I want it to do for me, but I don’t know how to call it for me to google it. To be honest, I came up with “HDMI hub”, which I borrowed from a network hub which could split network signals for multiple computers. I was also thinking of “HDMI adapter” and “HDMI splitter”. Unfortunately, none of them were the popular names.

Such a product is actually commonly called an HDMI switch or HDMI switcher. Of course, there is no official name for it, but there are names more commonly used than others by the majority of the users. So knowing the right names help you research them better and find better prices before you decide to buy one.

After reading this article, you will get a much clearer picture of the common names of the many HDMI gadgets and what they do.

1. HDMI Switch, HDMI Switcher, HDMI Selector

They are the names of an HDMI input switch, which receives signals from multiple HD devices, and output to only 1 HDMI port on an HDTV, monitor or projector. This is what you need when you want to hook up all your PS3, BluRay, HD PVR, etc all to a single HDMI port on your HDTV because your HDTV has only 1 port left.

A 3×1 or 3 port HDMI switch receives 3 HDMI signals and outputs to 1 port. So on and so forth.

Although they are also sometimes labeled as “HDMI splitters”, they should not be, because they don’t split signals but rather they converges signals into 1 port.

2. HDMI Splitter or HDMI Amplifier

In contrast, they are the names of an HDMI output switch, which receives signals from just 1 HD device and outputs to 2 or more HDTVs or monitors. This is what you need when you want to output the same HD signal to 2 or more HDTVs. In a sense, they split or amplify the signals into multiple streams, hence the names.

A 1×2 or 2 port HDMI splitter receives HD signal from 1 device and outputs to 2 screens.

3. HDMI Matrix or HDMI Distributor

They are combining the functions of input and output switches, they receive multiple HD signals and output to multiple displays. They are rarely used by average consumers but more commonly used by electronics stores or exhibition hosts who need to display many screens simultaneously with HD signals coming from several devices.

A 4×2 HDMI matrix receives HD signals from 4 input sources and output to 2 HDTVs.

4. HDMI Adapter or HDMI Converter

These are very general names, which, however, usually mean a much simpler device that connects HDMI port to another video port such as a VGA or DVI port.

An HDMI to DVI adapter means it receives HD signals from an HDMI port and outputs to a DVI port.

Summary

So how can you find the right product you need? Try these simple recommended keywords when you are doing your research:

HDMI Switch: Connecting multiple HD devices to 1 HDMI port on your HDTV.
HDMI Splitter: Connecting 1 HD device to 2 or more HDTVs.
HDMI Matrix: Connecting multiple HD devices to multiple HDTVs.
HDMI Adapter: Connecting HDMI port to another type of video port.

Now that you know the magic words, it will be much easier for you to find your desired HDMI gadgets, enjoy.

iMac Mini Toslink broke inside audio jack

iMac Mini Toslink broke inside audio jack

the iMac Mini Toslink broke inside audio jack. This optical cable was used to connect to the home theater from the iMac. A part of the brass of the cable has been stuck inside the jack still. I am not able to get it out from there. So, I need to know about thesolutions that can be used to get rid of the same from the jack. So, kindly help me with all possible options available for the same.
Thanks for any help in advance.

Re: iMac Mini Toslink broke inside audio jack
Hello there, the best solution that can be suggested for the iMac Mini Toslink broke inside audio jack problem is that you can take the system to the service center or an Apple store. There may be costs involved, that can be much or less. If you try to play with the system yourself, then there is a possibility that you will mess up with it more. Wish you all the best!!!!

Re: iMac Mini Toslink broke inside audio jack
You will have to buy an external soundcard, that will support the optical audio. So, there will be no need to worry about how to get rid of the iMac Mini Toslink broke inside audio jack issue. I am not pretty sure that it can be removed. You will have to replace the system, otherwise. You can call the customer support of Apple and ask their suggestions. They might be able to give you some proper solutions.

Re: iMac Mini Toslink broke inside audio jack
You can put some glue at the end of the metal piece and put it inside the jack. It should be a good quality glue, so that the broken piece of cable sticks to the metal. So, you can remove it easily from the jack.Just remember to turn of the iMac before you insert the metal piece into the jack or something might really go wrong. Ihope that the issues will be solved after that.

How to Connect Multiple HDMI Devices to an Old HDTV

How to Connect Multiple HDMI Devices to an Old HDTV

Early HDTVs tend to have just about 1 or 2 HDMI ports, and this puts the early adopters in a slightly awkward position today, as there are so many HDMI devices to be plugged in, yet so few HDMI ports available.

In order to connect your many HDMI devices to your HDTV, one way, of course, is to upgrade to a new HDTV which nowadays usually has 4 or more HDMI ports, but that also leads to significantly lighter weight of your wallet.

A more economical way is to use an HDMI switch, which can connect multiple HDMI devices to your HDTV via a single HDMI port.

What Is an HDMI Switch, and What Does It Do?

An HDMI switch (a.k.a. HDMI switcher, HDMI selector) receives HDMI signals from multiple HDMI sources and sends the signals to your HDTV, occupying only 1 HDMI port. It serves as an agent to accept many HDMI signals for your HDTV, even if your HDTV has only 1 or 2 HDMI port(s).

With an HDMI switch, you can connect multiple HD sources to your HDTV, such as:

Blu-Ray player, HD-DVD player, DVD player with HDMI output;
PS3, Xbox360, Wii with HDMI output;
HTPC, or computers with HDMI ports;
HDTV box, satellite dish network, HDTV recorder;
HD camera, or HD Cam recorder;
Any other devices capable of outputting HDMI signals.

See How Easily It Works

There are 3-port, 4-port, and 5-port HDMI switches, and those rare ones with even more ports. The most common and most affordable ones (due to mass production) are 3-port HDMI switches.

On a 3-port HDMI switch, there will be 4 HDMI ports: 3 input ports receiving signals from 3 of your HDMI sources, and 1 output port sending signals to the HDTV. There is usually a LED light on each input side to indicate which source is selected.

An HDMI switch usually offers automatic switching, and allows you to override and manually select your source; some advanced HDMI switch would have a remote control to make switching HDMI much easier.

Automatic HDMI switching

A good HDMI switch should have this automatic switching function.

Each time you turn on an HDMI source, the HDMI switch will automatically select this source. If you decide to turn on another one, the HDMI switch will switch to this second source. If you turn on another, it’ll jump to this third device.

In most cases, this is intelligent enough to work out just fine and take care of most, if not all, of your switching needs.

Manual HDMI switching

The above-mentioned auto-switching function may not always work when there is one or more HDMI sources “always on”, such as an HDTV recorder or a satellite network box, which you probably don’t turn off that often, and is, therefore, always turned-on in the background.

In that case, you will need to manually choose your desired HDMI source.

An HDMI switch with manual overriding function would usually have a button on it, which allows you to manually choose your desired HD source by pressing it.

For example, if the switch is currently on Input 1, your pressing the button once will let you choose Input 2, pressing it again allows you to jump to Input 3.

HDMI switching with remote control

A remote control would be so much more convenient when you could just sit back and relax on your couch, and select whatever input by pressing on the remote, instead of going over to the switch and press a button on it.

Xbox 360 S (Xbox 360 slim) VS Xbox 360 older models

Xbox 360 S (Xbox 360 slim) VS Xbox 360 older models

So Microsoft are releasing a new version of the Xbox 360, the Xbox 360 S (Xbox 360 slim) and here we will see if it is worth buying over the original Xbox 360s.

The Xbox 360 has a Black matte case, with two fans on the back, 3 USB ports and a detachable hard drive (the different sizes are 20GB, 60GB, 120GB and 250GB). Now the new Xbox 360 S (Xbox 360 slim) has a black gloss finish, a new angular design which looks amazing, Touch sensative buttons, 1 fan, built in 802.11n Wi-Fi, built in 250GB hard drive and 5 USB ports.

Now lets compare that in more detail.

So the original Xbox 360 models have a matte finish, which is fine, but looking at the matte finish it doesnt look as aesthetically pleasaing as the gloss finish that you find on the new Xbox 360 S (Xbox 360 slim), the reason behind the gloss finish is because Microsoft thought it was time to move away from the matte finish as the original Xbox as well as the Xbox 360 both had a matte finish.

The new free Xbox 360 S (free Xbox 360 slim) has touch sensative buttons, which is the standard on most new gadgets now, so it was only a natural move up from the old button style that they had on the Xbox 360.

Now the old Xbox 360 models may have had 2 fans on the back, but if you think about it, there position was not the best place, and most of them couldnt handle the amount of heat that was being generated inside the Xbox 360. The Xbox 360 S (Xbox 360 slim) on the other hand, has 1 fan, but it is larger then the two fans found on the Xbox 360, and it is also better positioned, meaning that it will keep your Xbox 360 S (Xbox 360 slim) much cooler, the best part about the fan on the Xbox 360 slim is that it is silent running! no more loud humming when your playing games or watching movies!

The free Xbox 360 S (free Xbox 360 slim) has 5 USB ports compared to the 3 USB ports that you found on the old Xbox 360 models, 1 of the USB ports that you find on the Xbox 360 S also delivers more power then the rest and this is specialy there for use with the new hands free controler system Kinetic!

The Xbox 360 has a hard drive which is on the outside of the console, and not all versions come with a hard drive! But, the free Xbox 360 S (free Xbox 360 slim) comes with a built in hard drive of 250GB! Now you will be spending a few years trying to even get close to filling that hard drive up!

One more adantage of the Xbox 360 S (Xbox 360 slim) is that is has built in 802.11n Wi-Fi! which means you no longer have to go out and buy the wireless accessoire, meaning you can just pocket that money or go out and buy some more games!

Toslink Cables and HDMI Cables

Toslink Cables and HDMI Cables

To acheive the ultimate picture and sound in your home theater system you’ll have to invest in the Toslink and HDMI cables. They will be the only type of cables capable of carrying a really clean, clear signal to your components to have them provide what you’re expecting from your setup. Regular cables cannot match the performance of the Toslink and HDMI cables.

Using the HDMI cables with your highly capable components like plasma televisions and HDTV, and along with DVD’s and all the other pieces will give your home theater sytem the capability of it’s sound and picture quality. The HDMI cables connect the electronics to the satellite or cable provider with USB ports and this brings in a great signal to optimize the audio and video.

The composition of Toslink cables is a advance fiber optics which is not impacted by outside electronic disruptions to the signal. The signal is moved by light energy which is what produces the beautiful surround sound system audio. The really good Toslinks have molded connector ends with gold plating, cheaper ones will have plastic connectors which may or may not stay connected.

The really nice thing about modern electronic technology is you usually have the option to use either the Toslink or the HDMI cables to make your connections. It’s up to you if you want to implement both of them to create a magical audio and video surrounding.

Depending on the level of quality you expect to receive from your audio and video system, HDMI cables offer unsurpassed picture and sound quality in televisions, as well as computers and video games. Toslink cables produce an extraordinarily high caliber of digital audio that can be used in conjunction with HDMI cables. There is no reason why you can’t have the best of both worlds. For the best picture and sound quality, you need Toslink Cables and HDMI Cables coexisting in harmony connected to your digital entertainment system.

1080i vs. 1080p – A Short Overview

1080i vs. 1080p – A Short Overview

Being HD formats, 1080i and 1080p are commonly used when talking about HDTVs and Blu-ray Players. Understanding between them can get a little frustrating. 1080i and 1080p both create a video signal of a 1920×1080 pixel resolution – 1920 pixels going across your TV screen and 1080 pixels going down your television screen. (Pixels are tiny dots which make up the picture on your screen) The difference between them is in how the 1080i and 1080p video signal is seen on your TV screen.

With the 1080i high-definition format the video for individual frames are displayed in alternative fields. The field consists of 540 lines of pixels going from the top to the bottom of your television screen. First displayed are the odd fields, then the even fields are displayed. Once combined they create, every 30th of a second, one solid full frame comprised of all 1080 pixel lines.

With the 1080p HD format the video is transferred progressively. What this does is display both the odd and even fields that make up the 1080 pixel lines or one full frame, at the same time. The resulting image is significantly clearer and sharper looking than the 1080i picture. It has far less motion artifacts or jagged edges.

More on 1080p and Your HDTV:

Depending on the processing of the video signal, 1080p resolution can be shown in a few ways. They are 1080p/60, 1080p/30, or 1080p/24 formats. 1080p/60 is the most common format and most HDTVs can handle this format. Here the 1080p signal is sent and shown at a rate of 60 fps (Frames-per-second).

1080p/30 format displays the signal at a rate of 30fps.

But once Blu-ray Players came along, a new format, 1080p/24 was implemented and embraced by the film industry. Here the 1080p signal is transferred every 24fps. It your HDTV does not have the ability to process 1080p/24fps, the Blu-ray Player can also output 720p, 1080i and 1080p/60fps signals.

Knowing the differences between 1080i and the different formats of 1080p can help to clear up any confusion. But the real analysis is in your viewing on your own HDTV. On smaller screen HDTVs, the difference between 1080i and 1080p is very hard to distinguish. But any HDTV over 40 inches and you will clearly see the difference between them. And there are other factors as well, like the video processing done by a Blu-ray Player. Some Blu-ray DVD Players can create a better image than others. Your best bet is to rely on your own judgment and own eyes, and you will spoon be enjoying all the benefits that HD can bring.

How To Choose The Best HDMI Switch (HDMI Switcher)

How To Choose The Best HDMI Switch (HDMI Switcher)

An HDMI switch (also known as HDMI switcher, HDMI selector) receives HDMI signals from multiple HDMI sources and sends the signals from one of them to your HDTV. This way, it serves as an agent to accept many HDMI signals for your HDTV, even if your HDTV has only 1 or 2 HDMI port(s). You can connect multiple HD sources to your HDTV, such as your: * Blu-Ray player, HD-DVD player, DVD player with HDMI output; * PS3, Xbox360, Wii with HDMI output; * HTPC, or computers with HDMI ports; * HDTV box, satellite dish network, HDTV recorder; * HD camera, or HD Cam recorder; * Any other devices that are capable of outputting HDMI signals. There are a few things you should consider before you buy an HDMI switch.

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1. How Many Ports Do You Need? An n-port HDMI switch receives HDMI signals from n HDMI sources. A 100-port HDMI switch might be the best one in the world, but if you don’t have 100 HDMI devices to be plugged in, it’s a waste. Know how many devices you have that outputs HDMI videos, and buy the ones that best suit your needs. It turns out that the most common, and therefore most affordable, ones are 3-port HDMI switches, maybe because most people only need 3 ports. 2. Supported Video and Audio Specifications An HDMI switch has to support 1080i/p, 720p and all the standard-definition (for example, DVD) resolutions. It has to support DTS / DTS-HD, Dolby Digital/Dolby TrueHD, Linear PCM (LPCM). These are the basics of the basics, because these formats are frequently used in HDTV broadcast, HD gaming, and HD-DVD and Blu-Ray players. If an HDMI switch doesn’t support any of these specs, it is not worth buying at all. Also, it should not convert, upscale, downscale any video/audio contents at all, because any conversion probably brings loss of quality. Now let’s move on to some more advanced features that you should consider. 3. Automatic v.s. Manual HDMI Switching A good HDMI switch should have both automatic and manual switching functions. Automatic switching. Each time you turn on an HDMI source, the HDMI switch will automatically select this source. If you decide to turn on another one, the HDMI switch will switch to this second source. If you turn on another, it’ll jump to this third device. In most cases, this is intelligent enough to work out just fine and take care of most, if not all, of your switching needs. Manual switching. Auto-switching may not always work when there is one or more HDMI sources “always on”, such as an HDTV recorder (HD PVR) or a satellite network box, which you probably don’t turn off that often, and is, therefore, always turned-on in the background. In that case, you will need to manually choose your desired HDMI source. An HDMI switch with manual overriding function would usually have a button on it, which allows you to manually choose your desired HD source by pressing it. For example, if the switch is currently on Input 1, your pressing the button once will let you choose Input 2, pressing it again allows you to jump to Input 3. 4. Is HDMI v1.3b Good Enough? The short answer is yes, because 99% of the products out there in the market are compliant with HDMI 1.3b or earlier standards, such as HD-DVD players, PS3, Xbox360 and most Blu-Ray players. Although HDMI v1.4 (released in May 2009) does bring in some exciting features such as 3D Over HDMI and resolutions up to 4k x 2k, there are very few products or cables supporting this new standard. Because of this, there appears to be no HDMI switches currently in the market that support HDMI 1.4 yet, although it should be a matter of time for the switches to adopt HDMI 1.4 as well in the future. 5. Is It HDCP-compliant? HDCP is a copy protection to prevent copy-righted contents from traveling across HDMI / DisplayPort / DVI freely, unless the connected devices are HDCP-compliant. A good HDMI Switch should support HDCP v1.0 / 1.1 pass-through. If a device supports HDCP pass-through, it means that it is handing over the digital contents to the next device without even touching it at all (hence “pass-through”). It means that if your Blu-Ray, for example, works with your HDTV when they are connected directly by an HDMI cable, then they should also work with an HDMI switch that supports HDCP pass-through, because the switch simply passes the HDCP encryption to your HDTV without changing anything. So do I need HDCP pass-through? Yes, you do. HDCP pass-through is a must-have feature. The higher supported version the better. The most commonly supported versions are v1.0 and v1.1. Summary A decent HDMI switch should have the following features: * The right number of ports you need; * As many video/audio formats supported as possible; * Both automatic and manual switching; * HDMI 1.3b compliant or above; * HDCP v1.0/1.1 pass-through. If you have checked all these features when deciding which HDMI switch to buy, you should be in good shape.

Features of Upcoming HDMI 1.4 Specification Announced

Features of Upcoming HDMI 1.4 Specification Announced

HDMI Licensing, LLC, the agent responsible for licensing the High-Definition Multimedia Interface (HDMI) specification, today announced the features that will be incorporated in the upcoming HDMI 1.4 specification. This latest version of the HDMI specification will, among other advancements, offer networking capabilities with Ethernet connectivity and will add an Audio Return Channel to enable upstream audio connections via the HDMI cable. The HDMI specification 1.4 will be available for download on the HDMI LLC website no later than June 30, 2009.

The HDMI 1.4 specification will offer the following enhanced functionalities:

HDMI Ethernet Channel
The HDMI 1.4 specification will add a data channel to the HDMI cable and will enable high-speed bi-directional communication. Connected devices that include this feature will be able to send and receive data via 100 Mb/sec Ethernet, making them instantly ready for any IP-based application. The HDMI Ethernet Channel will allow an Internet-enabled HDMI device to share its Internet connection with other HDMI devices without the need for a separate Ethernet cable. The new feature will also provide the connection platform to allow HDMI-enabled devices to share content between devices.

Audio Return Channel
The new specification will add an Audio Return Channel that will reduce the number of cables required to deliver audio upstream for processing and playback. In cases where HDTVs are directly receiving audio and video content, this new Audio Return Channel allows the HDTV to send the audio stream to the A/V receiver over the HDMI cable, eliminating the need for an extra cable.

3D Over HDMI
The 1.4 version of the specification will define common 3D formats and resolutions for HDMI-enabled devices. The specification will standardize the input/output portion of the home 3D system and will specify up to dual-stream 1080p resolution.

4K x 2K Resolution Support
The new specification will enable HDMI devices to support high-definition (HD) resolutions four times beyond the resolution of 1080p. Support for 4K x 2K will allow the HDMI interface to transmit content at the same resolution as many digital theaters. Formats supported include:

3840×2160 24Hz/25Hz/30Hz
4096×2160 24Hz

Expanded Support For Color Spaces
HDMI technology now supports color spaces designed specifically for digital still cameras. By supporting sYCC601, Adobe RGB and AdobeYCC601, HDMI-enabled display devices will be capable of reproducing more accurate life-like colors when connected to a digital still camera.

Micro HDMI Connector
The Micro HDMI Connector is a significantly smaller 19-pin connector that supports up to 1080p resolutions for portable devices. This new connector is approximately 50% smaller than the size of the existing HDMI Mini Connector.

Automotive Connection System
The Automotive Connection System is a cabling specification designed to be used as the basis for in-vehicle HD content distribution. The HDMI 1.4 specification will provide a solution designed to meet the rigors and environmental issues commonly found in automobiles, such as heat, vibration and noise. Using the Automotive Connection System, automobile manufactures will now have a viable solution for distributing HD content within the car.

“The HDMI specification continues to add functionality as the consumer electronics and PC industries build products that enhance the consumer’s HD experience,” said Steve Venuti, president of HDMI Licensing, LLC. “The 1.4 specification will support some of the most exciting and powerful near-term innovations such as Ethernet connectivity and 3D formats. Additionally we are going to broaden our solution by providing a smaller connector for portable devices and a connection system specified for automobiles, as we see both more and different devices adopting the HDMI technology.”

Consumers will also see new HDMI cables introduced to the market. In order to take advantage of the HDMI Ethernet Channel, consumers will need to purchase either a Standard HDMI cable with Ethernet, or a High Speed HDMI cable with Ethernet. Consumers connecting an external device to an in-vehicle HDMI-enabled HD system will need the new Automotive HDMI cable. Consumers can expect to see new HDMI 1.4 cables introduced to the market when new HDMI 1.4 devices are available.

Consumers will have a choice of the following HDMI cables:

Standard HDMI Cable – supports data rates up to 1080i/60;
High Speed HDMI Cable – supports data rates beyond 1080p, including Deep Color and all 3D formats of the new 1.4 specification;
Standard HDMI Cable with Ethernet – includes Ethernet connectivity;
High Speed HDMI Cable with Ethernet – includes Ethernet connectivity;
Automotive HDMI Cable – allows the connection of external HDMI-enabled devices to an in-vehicle HDMI device.

The HDMI standard continues to grow in the marketplace with now over 850 adopters worldwide. The growing adoption of the HDMI specification by both consumer electronics and PC manufacturers further strengthens its position as the worldwide standard for high-definition digital connectivity. According to market research firm In-Stat, over 394 million HDMI-enabled devices are expected to ship in 2009, with an installed base of 1 billion devices. By the end of 2009 100% of digital televisions are expected to have at least one HDMI input