Sep/090
3D Cinema – hot or not?
The film theorist Kristin Thompson tried in this article to a realistic assessment of the trend towards 3D cinema and raises the question how successful the campaign to switch to 3-D cinema really is. James Cameron, who 
avatar would only start in 3D cinemas, had to reverse and run in normal cinemas – there are simply not set-up to little 3D cinemas capable to absorb the high cost of production over 200 million U.S. dollars again. Reason is the high cost of theater owners to access digital (and then convert 3D) projection. There is also great directors who are not yet known to have their turn next project in 3D and raises the question whether the higher price for a 3D movie from the audience will also be paid in the future when the sensational effect has worn off and for some films the non-action category, perhaps even no need for the 3D show value exists. What they – or the well-known film critic Roger Ebert – leads to much more fundamental question of whether allowing more realistic 3D images or movies by the limitations of the 3-D stereoscopic simply on blogs.suntimes.com/ebert/2008/08/ dminus_for_3d.html (sensational but shallow effects), such as arrows and explosions seem to come from the screen to the audience to be targeted will distract from the actual film. Conclusion: Perhaps it will take place the 3-D revolution, but much longer and not be so absolute as requested by its champions – and amount more to coexist with analog 2D film as a rule of 3D.
Aug/090
HOT!!! – The Cheapest HDMI Cable
We all know what a HDMI cable is. We also know how much fun we can have with high quality gaming devices or HDTVs. You should know that all Xbox models (Xbox 360 Arcade, Xbox 360, and Xbox 360 Elite), PS 3, Satellite receivers, Blu Ray DVD players, etc ship with HDMI. If you want to enjoy the benefits of this revolutionizing technology, you will definitely need a HDMI cable.
One of the main benefits of this technology is the quality of image. Until HDMI appeared, digital sources sent signals through analog cables, downconverting the signal. The HDMI cable works with digital signals so it will offer a superior and cleaner image. Another main benefit is that a HDMI cable is a single cable carrying both audio and video signals.
Now, HDMI cables are pricy, so you need to find one of the cheapest while still keeping an eye on quality. We have just found the perfect HDMI cable for any of your HD sources. I must admit we were a little surprised of its price and performances. It supports resolutions of up to 1080P, which is astonishing at just £3.49
Aug/090
HDTV Sources
The rise in popularity of large screens and projectors has made the limitations of conventional Standard Definition TV (SDTV) increasingly evident. An HDTV compatible television set will not improve the quality of SDTV channels. To display a superior picture, high definition televisions require a High Definition (HD) signal. Typical sources of HD signals are as follows:
- Over the air with an antenna. Most cities in the US with major network affiliates broadcast over the air in HD. To receive this signal an HD tuner is required. Most newer high definition televisions have an HD tuner built in. For HDTV televisions without a built in HD tuner, a separate set-top HD tuner box can be rented from a cable or satellite company or purchased.
- Cable television companies often offer HDTV broadcasts as part of their digital broadcast service. This is usually done with a set-top box or CableCARD issued by the cable company. Alternatively one can usually get the network HDTV channels for free with basic cable by using a QAM tuner built into their HDTV or set-top box. Some cable carriers also offer HDTV on-demand playback of movies and commonly viewed shows.
- Satellite-based TV companies, such as DirecTV and Dish Network (both in North America), Premiere (in Germany), TeleDunya (in Turkey), Sky Digital and freesat (in the UK and Ireland), Bell TV and Shaw Direct (both in Canada), Canal Digitaal (in the Netherlands), Canal Digital and Viasat (both in Norway, Sweden and Denmark), Cyfra+, Cyfrowy Polsat and n (in Poland), SKY (in New Zealand), NTV Plus (in Russia), Sky Italia in Italy and Digit-Alb (in Albania), offer HDTV to customers as an upgrade. New satellite receiver boxes are usually required to receive HD content.
- In Europe, several operators offer HDTV via ADSL. The HD set top box typically uses Ethernet or IEEE 802.11N to communicate with the ADSL modem and HDMI to the display. Typical offers include Internet + HDTV + Telephone for a flat rate fee.
- Video game systems, such as the PlayStation 3 and Xbox 360, and digital set-top boxes such as the Apple TV, and the Netgear Digital Entertainer, can output an HD signal. The Xbox Live Marketplace, iTunes Music Store, and PlayStation Network services offer HD movies, TV shows, movie trailers, and clips for download, but generally at lower bitrates than a Blu-ray Disc.
- Most newer computer graphics cards have either HDMI or DVI interfaces, which can be used to output images or video to an HDTV.
- Almost all computer graphics cards have standard SVGA jacks which can be used to output images or video to an HDTV’s “PC Input” jack.
- The optical disc standard Blu-ray Disc (25GB-50GB) can provide enough digital storage to store up to 10 hours of HD video content, depending on encoder settings.
- Another optical disc standard HD-DVD (15GB-30GB) can also hold several hours of HD content, depending on encoder settings.
Jul/090
Tom Tom HD Traffic
TomTom HD Traffic
HD Traffic is part of TomTom LIVE Services. It brings you the best real-time TomTom services straight to your device, all available in one smart bundle.
Watch HD Traffic in action
With HD Traffic information on your screen you immediately know where the traffic is.
How HD Traffic works
TomTom HD Traffic uses a revolutionary new source of traffic information: the traffic flow of up to 16.7 million anonymous mobile phone users on the road. From this anonymous data, TomTom knows exactly where, in which direction and at what speed all these mobile phone users are travelling throughout the road network. This real-time data is combined with other existing quality traffic information sources, resulting in the most complete and reliable traffic information.
Receive the latest traffic information LIVE on your TomTom device!
- Unrivalled road network coverage in the UK, with 25.000 miles of roads covered
- Coverage includes motorways, major A roads and trunk roads
- Traffic updates every 3 minutes, sent directly to your device
- Highly accurate delay, travel and arrival times
- Detailed incident reports about the duration, length and cause of delays on your route
- Delays are reported in minutes and miles
- Automated rerouting for alternative, quicker routes
You can even check the traffic situation at home or in the office before you set off, so you know for sure you will always drive the smartest route.
TomTom HD Traffic puts you back in control of your drive!
HD Traffic also means:
1. Stress free driving
HD Traffic is a live traffic information service based on superior information sources. This means that you are always well informed about your exact travel and arrival times so you can be sure that you drive the smartest route. Now you can plan your day confidently!
2. Easy and safe driving
HD Traffic is completely integrated into your TomTom navigation device. Now, your TomTom device will always calculate the smartest route, leaving you to concentrate on the road. No more listening to the traffic reports on the radio and calculating alternative routes on your map.
The best traffic information ever!
Get the most up-to-date traffic information available for your route, live on your TomTom LIVE device with TomTom High Definition Traffic™.
You receive detailed incident reports about the length and reason of the delays, the most accurate delay information, travel- and arrival times, and alternative route proposals. All this information is sent directly to your TomTom navigation system.
TomTom HD Traffic is a revolution in traffic information offering you the best coverage, the most updates from the best sources and it is fully automated.
Driving out of your country? No problem, your device can also receive HD Traffic in Germany, France, Switzerland and The Netherlands.
HD Traffic coverage on smaller A roads is dependent on traffic flow information generated by mobile phones and connected TomTom devices alone. Because there is normally less mobile phone traffic on smaller A roads it is not always possible to detect traffic jams on these roads.
Next to this, complex traffic flow in city centres does not always make for reliable traffic messages. However, historical IQ Routes data is used in city centres to ensure you always get the best route.
Jul/090
How do I choose an HDMI Cable?
Choosing an HDMI cable can be a complex task. There are several factors which you must consider in order to select the best HDMI cable to meet your requirements:
- HDMI standards compliance
- HDMI Cable Categories
- Cable length
- Cable quality
- Active cables
- HDMI devices
- Price
HDMI Standards Compliance
Each HDMI cable is rated to comply with a specific revision of the HDMI standards. A cable rated for HDMI 1.2a should meet the requirements of HDMI 1.0, 1.1, and 1.2 — but is not guaranteed to meet the standards for HDMI 1.3.
HDMI Cable Categories
The HDMI standards define two categories of cables. Category 1 HDMI cables are designed to support HDTV resolutions and frame rates. Category 2 cables are required for higher resolutions or higher frame rates.
Cable Length
The HDMI specification does not define a maximum cable length. HDMI cables are commonly available in 3′ to 50′ lengths.
Purchasing a cable longer than necessary will cost you more money, but it will also increase signal loss due to attenuation.
Cable Quality
All other factors being equal, a cable which is built to higher tolerances using better materials will outperform a cable which is built merely to meet a standards specification. In addition, these premium cables will often provide longer service lives.
An HDMI cable can be made using 28 AWG wire, but the use of 24 AWG wire will create a sturdier cable which is more resistant to attenuation.
As with traditional analog stereo cables, premium HDMI cables are often furnished with gold plated connectors to ensure the best possible signal quality.
Active Cables
For specialized high-end applications, some manufacturers are selling active HDMI cables. These cables use a variety of technologies which involve boosting the transmission distance or quality through the addition of electrical power to the cable connection.
Some of these active cables run over fiber optics
or Cat-5 cable.
HDMI Devices
Another approach to supporting extremely long cable runs is to chain multiple HDMI cables together with amplifiers, repeaters, or equalizers.
Price
An HDMI cable only has to be good enough to support the equipment which it connects. It is useless to pay for a premium gold-plated HDMI cable for a low-end television set.
Jul/090
Belkin Officially Halts ‘The FlyWire’ Production
A wireless HDMI poster child bites the dust.
According to a press release from Belkin, it’s now official: the FlyWire, the company’s oft touted wireless HDMI transmitter, has been put down. A seemingly strong contender and one of the most well known wireless HDMI devices, it was an impressive, if expensive unit.
Belkin’s release states “We realize that its retail price of $1499 would be out of line given the current state of the economy. With that in mind, we’ve opted to halt production of FlyWire.” It seems though, that a $1499 piece of hardware designed to save a few cords would appeal to a niche market in any economy, and would still have an appeal to a lot of consumers.
To the disappointed and expectant purchasers of the FlyWire Belkin says “We know there will be some disappointed folks out there, but our end goal is to introduce products that are accessible and that make sense in the current environment.”
Belkin doesn’t seem to think there’s much consumer demand for their higher end product. With the recent release of cheaper, lower signal quality options, like the Atlona HDAiR, we should see a fairly telling indicator of how much demand there is for wireless HDMI technology.
Jul/090
Mini HDMI ( HDMI Type D) cables on the way
Several companies have prototyped miniature High Definition Multimedia Interface cables, bringing the size near or below that of USB.
The smallest cable, developed by US-based Molex Inc., uses the same 19-pin connection as existing HDMI cables but in roughly half the size, Nikkei Electronics Asia reports. Japan’s Yakazi Corp. and an unnamed third firm have also created prototypes. Meanwhile, Japan Aviation Electronics Industry is working a larger HDMI connector for cars.
All these cables are based on the next HDMI standard, due for release this quarter with products hitting the market in the second half of the year. Smaller connectors retain the 19-pin design of their predecessors, ensuring backwards compatibility.
Molex’s cable uses a type D connector that’s about the same size as a Micro USB connector. The small size suggests that we could see more HDMI outputs coming from mobile devices, such as smartphones. As a reader in our forums noted, this opens the door for easy HD video feeds from phone to TV.
I hope this development leads to that sort of implementation. Being able to plug a phone into a TV to watch all of its stored content is just what downloadable HD video needs to really take off. Something tells me content producers wouldn’t like this, because it’s just another way to circumvent traditional television, but it’s worth a shot.
Jul/090
What’s the Matter with HDMI?
How the designers of the HDMI standard screwed up, and what’s to be done about it.
HDMI, as we’ve pointed out elsewhere, is a format which was designed primarily to serve the interests of the content-provider industries, not to serve the interests of the consumer. The result is a mess, and in particular, the signal is quite hard to route and switch, cable assemblies are unnecessarily complicated, and distance runs are chancy. Why is this, and what did the designers of the standard do wrong? And what can we do about it?
The story begins with another badly-developed standard, DVI. A few years ago, there was a movement within the computer industry to develop a new digital video display standard to replace the traditional analog VGA/RGBHV arrangement still found on most computer video cards and monitors. Interested parties grouped together to form the Digital Display Working Group (DDWG), which developed the DVI standard.
DVI had all the earmarks of a standard designed by committee, and it remains one of the most confusing video interfaces ever. DVI could run analog signals, digital signals, or both, and it could run digital signals either in a single-link configuration (in a cable using four twisted pairs for the signal), or in a dual-link configuration (using seven). Identifying which DVI standard or standards any particular device supported was not always easy, and the DVI connector came in various flavors and was never really manufactured in any form that wasn’t well-nigh impossible to terminate.
But the worst thing about DVI was something that the computer-display professionals involved in its development really didn’t give much thought to: distance runs. Most computer displays are mounted at most a few feet away from the CPU, so it didn’t seem imperative that DVI work well over distance. This lack of concern for function at a distance, coupled with common use of twisted-pair cable (e.g., CAT 5) in computer interconnection, led to a decision that DVI would be run in twisted-pair cable.
Had the DVI standard been designed by broadcast engineers rather than computer engineers, things probably would have turned out very differently. In the broadcast world, everything from lowly composite video to High-Definition Serial Digital Video is run in coaxial cables, and for good reasons, which we’ll get to in a bit. Long-distance runs of VGA, in fact, are always handled in coaxial cable (though there may be a number of miniature coaxes in a small bundle, rather than something which obviously appears to be coax).
DVI lacked a couple of things which the consumer audio/video industry wanted. It was implemented on a variety of HD displays and source devices, but it was confusing for the consumer because of the many variants on the standard and different connector configurations, and it didn’t carry audio signals. A consortium to develop and promote a new interface, HDMI, was formed; the idea was to come up with a standard which could be implemented more uniformly, was less confusing, and offered the option of routing audio signals along with video.
Here, again, was an opportunity to avoid problems. The difficulties of running DVI-D signals over long distances were well known, and the mistakes of the past could have been avoided by developing HDMI as a wholly new standard, independent of DVI. Instead, the HDMI group elected to modify the DVI standard, using the same encoding scheme and the same basic interface design, but adding embedded audio and designing a new plug. Instead of many DVI options, analog, digital, single and dual link, there was one “flavor” of HDMI (actually, there is also a dual-link version in the HDMI spec–but you won’t find it implemented on any currently available device). This provided the advantage of making HDMI backward-compatible with some existing DVI hardware, but it locked the interface into the electrical requirements of the DVI interface. Specifically, that means that the signals have to be run balanced, on 100 ohm impedance twisted pairs.
We’re often asked why that’s so bad. After all, CAT 5 cable can run high-speed data from point to point very reliably–why can’t one count on twisted-pair cable to do a good job with digital video signals as well? And what makes coax so great for that type of application?
First, it’s important to understand that a lot of other protocols which run over twisted-pair wire are two-way communications with error correction. A packet that doesn’t arrive on a computer network connection can be re-sent; an HDMI or DVI signal is a real-time, one-way stream of pixels that doesn’t stop, doesn’t error-check, and doesn’t repair its mistakes–it just runs and runs, regardless of what’s happening at the other end of the signal chain.
Second, HDMI runs fast–at 1080p, the rate is around 150 Megapixels/second. CAT5, by contrast, is rated at 100 megabits per second–and that’s bits, not pixels.
Third, HDMI runs parallel, not serially. There are three color signals riding on three pairs, with a clock circuit running on the fourth. These signals can’t fall out of time with one another, or with the clock, without trouble–and the faster the bitrate, the shorter the bits are, and consequently the tighter the time window becomes for each bit to be registered.
Consider, by contrast, what the broadcast world did when it needed to route digital video from
Jul/090
Sky “considering” adding Dolby Digital 5.1 via HDMI to Sky+ HD boxes
Sky has exclusively told whathifi.com that “it’s currently investigating the possibility” of introducing Sky+ HD set-top boxes that transmit Dolby Digital 5.1 surround sound via the HDMI connection.
At the moment, Sky+ HD owners have to use an HDMI cable to transmit the picture from the box to the TV or projector, and a separate optical digital connection to their home cinema amplifier to output 5.1 surround sound.
“When we launched Sky HD, lots of users weren’t using HDMI [for sound], but we’re aware this is becoming more of an issue for some of our customers,” says a Sky spokeswoman.
There’s no timescale for when the change may be introduced, but Sky’s technical team is looking into it.
It’s become more of an issue recently, with some new-model multichannel amps and receivers automatically defaulting to HDMI for surround sound and bypassing the optical connection.
This means that in certain configurations current Sky+ HD boxes will only output stereo sound (via HDMI) to the amp or receiver, not Dolby Digital 5.1.
Sky is not alone in this regard, with other set-top boxes from companies such as Tiscali and BT Vision also outputting Dolby Digital 5.1 via the optical, not HDMI connection.
Last year Sony had to fix its STR-DG820 and STR-DA2400ES receivers so you could use the HDMI and optical inputs simultaneously, and this year Yamaha has run into the same problem with four of its 2009 models.
Even if Sky does decide to add surround sound via HDMI to its future set-top boxes, there are still one million or more existing Sky+ HD boxes in UK homes that need the dual HDMI/optical connection.