Tag: display technology

Hair cuttings from these barbershops can end up as a material for OLED displays in many devices
(Photo by Tim Mossholder on Unsplash)

Article

Future Flexible OLED Displays Could Be Made From Human Hair | Gizmodo Australia

My Comments

There is an increased interest in the use of OLED displays for all display applications, what with doing away with a backlight layer which means increased application flexibility and power efficiency; as well as yielding high contrast. But this technology comes at a price which may be out of the range of most commodity applications, especially equipment user-interface displays.

But researchers at the Queensland University of Technology have used hair clippings from a local barber shop to experiment with the use of hair strands into self-illuminating carbon nanodots fit for a light-emitting device. Here, it’s about breaking down the hair strands then heating it to 240 degrees Celsius, equivalent to a very hot oven to create these displays. The carbon nanodots are a form of quantum dot that can yield the bright vivid colours due to their expertise at illuminating a single primary colour.

… like displays on printers such as this Brother unit

This application may not be bright enough for a TV screen intended to be viewed at a distance but could be bright enough for an application that is intended to be viewed up close. The core applications would be smartphones, tablets and wearables. But I would also see this extend to equipment or automotive displays that give a really distinct level of brightness and contrast like the vacuum-fluorescent displays used an a lot of consumer-electronics equipment made through the 1980s and 1990s.

The advantage here is that hair is a natural source of nitrogen and carbon and can be easily harvested from local barbers and hairdressers as part of a recycling program. The applications then end up as being part of a circular economy and there is further research in to using animal hair for this same application, which may allow the use of pet hair salvaged from veterinarians, animal breeders or dog groomers for this purpose.

As well, the idea of a component of this display being cheaply sourced through recycling programs may lead to the cost of these displays going downhill and allow them to displace LCD technology as the display technology of choice for small colour displays.

A regular TV may not serve well as the only computer monitor for your computing and video-entertainment needs

An issue that will crop up with home computing nowadays is whether to use a TV as the only display device for your computer as well as providing video entertainment.

This is an idea that tends to appeal to those of us who are living in small areas like college dorms or small apartments or simply have this kind of space as our own personal living space in a shared environment.

In this context, I am assuming that you are using the screen as part of a desktop computing setup whether by using a traditional desktop computer or by connecting your laptop computer to the display and having it serve as the primary display. I am not talking about running the display you want to use as part of a multiple-screen setup or for occasional group-viewing use.

There will be issues that will preclude this kind of use for a TV serving this role for your computer.

Pixel Density

An issue you will need to pay attention to is the pixel density your display device offers especially if you are intending to use it as your only display device for your computing and entertainment needs.

A 15” Full HD laptop would offer a pixel density of 141.2 pixels per inch while a 32” Full HD TV would work at 68.84 pixels per inch. Apple’s iPhones that implement the Retina screen would work at 326ppi while their MacBook Pro Retina screen would work at 227ppi.

Here. the display that works at something like 141.2 pixels per inch or more would make text or graphics look sharp and clear especially if you are working close to the screen. It may not matter if you are playing video games or viewing multimedia content at a “lean-back” distance.

Here, if you are buying a TV or monitor with a screen size of 27” or less, make sure you are looking for a model that uses Full HD (1080p) resolution. Larger screen sizes can be served through the use of a value-priced 32”-55” 4K UHDTV device.

Your computer’s display infrastructure needs to have an HDMI 2.0 output, preferably HDMI 2.0a for HDR10-capable displays. This may be fulfilled by most recent discrete GPUs and some recent Intel integrated graphics setups may also support this specification. If your computer or external graphics module uses a DisplayPort video output, you may need to use a DisplayPort to HDMI adaptor. Beware some of these devices may require the use of an active DisplayPort to HDMI adaptor.

Input Lag and Display Responsiveness

This is an issue that will affect gameplay where you are expected to respond quickly to the situation that is taking place in a game you are playing. It is more of concern when you are playing any fast-paced game.

The input lag problem is the time between when you do something with your game controller, keyboard or mouse and when the effect of that is painted on the screen. Then there will be issues where the screen doesn’t appear with the latest activity or isn’t quick enough to represent all of the activity including what your opponents are up to.

This is brought about due to most domestic TVs being equipped with a lot of video-processing circuity logic that deals with the incoming signal before it is painted on the screen. The time it takes may be just enough for dealing with video content but not interactive gaming content.

Some sets will offer a “gaming mode” to minimise lag times and this typically reduces the use of video-processing circuitry or optimises it for fast response. Also be aware that a significant number of large-screen TVs are appearing with features and graphics performance very similar to gaming-class computer monitors with this as a growing trend. This is due to the fact that games consoles and “gaming-rig” computers including Thunderbolt-3-equipped laptops connected to gaming-class external-graphics-module setups are connected to the large screen TV for impressive multiplayer game play.

In a lot of cases, most TVs wouldn’t work well as a sole display device, with this applying more towards small cheap HDTVs. But they can work well as a secondary screen or for large-screen group-viewing use.

What about purposing a computer monitor for TV use

You could purpose a computer monitor with built-in speakers as a TV by adding a set-top box or similar peripheral

Another approach would be to use a suitably-sized monitor as your TV set, especially if it is equipped with integrated speakers. In most cases, the monitor won’t have a remote control for “lean-back” viewing because you intend to use it with your computer.

You may come across a “TV monitor” which is a computer monitor that has an integrated TV tuner and is pitched for desktop use. These are available in countries with strong support for free-to-air TV like UK, Europe, Asia and Oceania. Typically they will have a Full HD screen with a size of 32” or smaller but have display electronics optimised for computer use.

On the other hand, your computer monitor would need to be equipped with a spare HDMI input that has HDCP support. Here, you use a set-top box or PVR that has an HDMI output to receive TV broadcasts.

If you subscribe to traditional pay TV, your pay-TV provider will lease you a set-top box or PVR as part of the service and this can work well if free-to-air TV is provided via the pay-TV platform. On the other hand, your local consumer-electronics store will have set-top boxes or PVRs that work with free-to-air TV and these units will display high-definition channels at their proper resolution.

A broadcast-LAN setup like SAT>IP can work with your computer if it is running the appropriate client software. As well some platforms like SAT>IP are supported by set-top boxes that connect to your monitor’s HDMI input. You may also find that some Internet-based set-top-box platforms will offer access to real-time video streaming through the broadcasters’ video-on-demand platforms or a similar application.

You may find that some games consoles like the XBox One will have a TV-tuner module supplied as a first-party or third-party option. Similarly, you may be able to use a USB-based TV-tuner module or a TV-tuner card as a way to purpose your computer for TV-viewing.

On the other hand, if you are just content with Netflix and similar online services, you can just get by with using the service’s Website and viewing the video content on the monitor in a full-screen arrangement. As well, AirPlay (facilitated with Apple TV) or Chromecast can work when it comes to “throwing” the video content from your smartphone or tablet to the monitor.

Conclusion

You will find that using one display for your computing and video entertainment needs may cut it for some applications but not for others like full-on gaming.

In this article about the Consumer Electronics Show 2017 that occurred in Las Vegas, Nevada, I will be covering the trends affecting computer peripherals and accessories and the home network.

1: Computer Trends

2: Accessories And The Home Network

Peripherals and Accessories

A very dominant usage case being highlighted for laptops and 2-in-1 computers is the creation of a fully-fledged workstation at your main workspace or game-playing space. This involves connecting the portable computer to at least one larger-sized screen along with a desktop-grade full-size keyboard and mouse. Such workstations may even be the place where you connect extra non-portable storage devices like USB hard disks or optical drives or connect to your network via a blue Ethernet cable rather than the Wi-Fi wireless connection for improved reliability.

USB Type-C or Thunderbolt 3 ports will be seen as the way to connect expansion docks, peripherals and the like to your laptop

The USB-C connector and its higher-speed variant, the Thunderbolt 3 connector have been valued as a way to provide a single-cable connection option between your laptop and the normally-sessile peripherals once you used an expansion module, commonly known as a docking station or dock. Here, you would connect all the peripherals to this expansion module then connect your laptop computer to that same device via USB-C or Thunderbolt. This is also underscored by a significant number of these devices being equipped with USB Power Delivery to power the portable computer from that same device, underscoring that “one cable to connect” goal.

Let’s not forget that some manufacturers are integrating this “dock” functionality in to some of their display monitors so that these screens are where you can connect your keyboard, mouse and external hard disk.

Lenovo had pitched the ThinkVision P24h and P27h monitors which have a qHD (2560×1440) display resolution and an sRGB high colour gamut “out of the box”. These monitors, with the super-narrow bezel, implement a USB-C connection to the host computer facilitating a DisplayPort 1.2 connection, the data connection, and a Power Delivery connection with a power budget of 45W, along with a four-port self-powered USB hub.

LG’s 32″ 4K monitor with HDR10

LG had teased a 32” 4K monitor which has the narrow bezel and can handle HDR10 video but also offer this similar USB-C connectivity and USB hub. They also tweaked the monitor’s integral speakers for that bit of extra “kick” from the bass. They also are pleasing the gamer clans by offering the UltraFine 34” 5K and 4K UHD gaming monitors with features like AMD’s FreeSync technology and 1ms motion-blur reduction.

Dell had advanced a range of monitors including the UltraSharp 32” 8K UHD model and the 27” Ultrathin monitor which has its electronics housed in its base. This monitor implements USB-C connectivity to the host along with a QHD display.

It’s not 4K resolution in this Dell 32″ monitor, it is 8K resolution

They even advanced the 24” Touch monitor with an integral 10-point touchscreen along with the 24” Video Conferencing Monitor which has an integral Full-HD IR Webcam that has a privacy shutter. This monitor’s camera also adds on support for facial-recognition login under Windows Hello while the sound is catered for with a pair of 5-watt speakers and a noise-cancelling microphone built in.

Dell’s slimline 27″ monitor with its electronics in its base

Even households aren’t left out with a range of monitors from Dell that are designed with aesthetics and high-grade on-screen experiences. For example, the Dell 24 and 27 monitors (S2418HX / S2718HX) implement the ultra-narrow-bezel design being implemented in most of Dell’s laptops and all-in-ones plus the ability to support HDR along with Waves.Maxx sound tuning.

For those of us who have a screen that currently “ticks the boxes” for our computing experience at our desks, most of the manufacturers are offering highly-capable Thunderbolt 3 and USB-C docks. Remember that you can daisy-chain 6 Thunderbolt-3 peripherals from the same Thunderbolt-3 bus, which can open up a range of possibilities.

For example, Lenovo and Dell are offering these expansion modules as part of their official accessory lineups. Lenovo’s contribution is in the form of the ThinkPad Thunderbolt 3 dock (US279) with video connectivity in the form of 2 DisplayPort, HDMI and VGA ports; 5 USB 3.0 ports; audio jack for those speakers; a Gigabit Ethernet port; and USB Power Delivery for the host computer with a power budget of 60 watts. There is a USB-C variant that offers similar functionality for computers not equipped with Thunderbolt 3 connectivity.  But Belkin have previewed the Thunderbolt 3 version of their original Thunderbolt 2 Express Dock, which will have 3 USB-3 connections, 2 Thunderbolt 3 / USB-C connections, two audio connections, a DisplayPort video connection and a Gigabit Ethernet connection. This device can supply a USB Power Deliver power-demand of 85 watts, again reducing the need for extra power supplies for your computer.

In the last post I wrote about CES 2017, I had cited Zotac’s external “card-cage” graphics module which uses Thunderbolt 3 connectivity as a way to enhance their “midget PC” product. This isn’t the only product of its kind to appear at this show. MSI also premiered the GUS (Graphics Upgrade System) “card-cage” external GPU system. This is styled for gaming and is a refresh of their original GUS external graphics module that they launched in 2012, but implementing the Thunderbolt 3 standard. It has a 500W power supply and USB 3.0 Type-C and Type-A connections.

Beyond the docking stations or, should I say, expansion modules, there have been a few other computer accessories with one being of note in the form of a Kingston 2Tb USB thumb drive.

The home network

A key trend affecting the home network this year at the CES 2017 is the concept of distributed Wi-Fi wireless systems. This consists of kits that use multiple devices to spread the Wi-Fi network’s coverage over a large area. They have appeared because most householders have run in to issues with their home network’s Wi-Fi wireless segment not providing reliable wireless coverage everywhere in their house.

They are typically based on a single chipset and most of them implement a dedicated wireless backhaul between the slave devices and the master access point. A significant number of these devices implement a “mesh” topology where there is a “root” node that works as a router along with multiple access point “nodes” that connect with each other and the “root” node to provide Wi-Fi coverage, using multiple backhaul connections for load-balancing, fail-safe operation and increased bandwidth. Other systems implement the traditional router and range-extender method with a single upstream connection but have a simplified setup method and properly-simple roaming between the access points.

The problem with these systems is that you have to use equipment that is offered by the manufacturer as part of that same system. This means that there isn’t any of the interoperability available which, at the moment, is stifling innovation.

Qualcomm launched their Wi-Fi mesh chipsets which can implement Bluetooth, CSRMesh and Zigbee also to support the “Internet Of Things”. The software is based also around a dedicated software framework and cloud-services. But these systems also support wired backhauls and multiple-hop mesh setups.

D-Link Covr router and wireless extender package

D-Link had premiered the Covr distributed Wi-Fi system which consists of a router and a wireless extender that implements the automatic setup and simplified roaming. For those of us with existing home networks, they also offered a Covr HomePlug system consisting of two wireless access points linked by a HomePlug AV2 powerline backbone. Another example that purely uses a Wi-Fi backbone is the NETGEAR Orbi which implements a router and a satellite extender device.

On the other hand, Linksys provided a true-mesh setup in the form of the Velop Wi-Fi system that implements multiple nodes. The Velop system even is able to work with Amazon’s Alexa voice assistant such as controlling the guest Wi-Fi network or asking Alexa to quote your network’s credentials. Click or tap on this link to see a Linksys YouTube video which explains what Velop is about if you can’t see it below.

As well, Linksys have launched the WRT32X Gaming Router which implements the Rivet Networks Killer Wi-Fi chipset similar to what is implemented in the Dell XPS 13 Kaby Lake Ultrabook. Here, it is optimised to work with client devices that implement the Rivet Networks Killer chipsets but is a 3×3 802.11ac MU-MIMO system that supports 160kHz bandwidth. There is also the EA8300 Max-Stream AC2200 Tri-band MU-MIMO Gigabit Router which is a more affordable device based on a 2×2 802.11ac three-radio design. Both these routers are equipped with Gigabit Ethernet for LAN and WAN (Internet) connections.

Linksys even offered a WUSB400M dual-band MU-MIMO 802.11ac USB wireless network adaptor as a way to retrofit your existing laptop or desktop computer for the new-spec Wi-Fi segments. This network adaptor connects to the host computer via USB 3.0 and can work at a 2×2 AC1200 setup.

What Linksys have been offering is a representative of another trend affecting the home network’s Wi-Fi segment where Wi-Fi network infrastructure hardware is working on a simultaneous three-band approach, operating on the 2.4GHz, 5.0GHz and 5.8GHz wavebands at the same time. As well, Wi-Fi repeaters are even being setup to implement the 5GHz bands as the preferred backhaul. Amped Wireless is another company also offering the three-band Wi-Fi network-infrastructure equipment in the form of a router and an extender.

NETGEAR Nighthawk S8000 Gaming And Media Switch – for the home network or home entertainment unit

NETGEAR’s not silent here with the Nighthawk S8000 Media Switch which is a media-optimised Ethernet switch implementing some of the quality-of-service technologies in their managed switches but optimised for household use. As well, this house-friendly switch can support functions like link-aggregation for increased throughput on supported devices like desktop computers and NAS units with two Gigabit Ethernet connections supporting this mode.

This is also intended to complement the Nighthawk X10 gaming and media router which has an integrated Plex Media Server for USB Mass-Storage devices connected to this router’s USB ports. It is also one of the first few home routers to offer 802.11ad WiGig (60GHz) same-room wireless network LAN segment capable of a throughput three times that of the fastest 802.11ac Wi-Fi network; along with the 802.11ac 4×4 MU-MIMO three-band Wi-Fi wireless LAN segment.

As well, there are 8 Gigabit Ethernet ports which can also support port-trunking for failover or high-throughput operation like the Nighthawk S8000 switch along with the WAN (Internet) side being looked after by a Gigabit Ethernet connection. The processing horsepower in this performance router is looked after by a 1.7GHz four-core CPU and it can support VLAN setups of the port or 802.1q tag variety.

Both these devices are pitched at “core” online and VR gaming enthusiasts with those hotted-up gaming rigs along with people who are in to streaming 4K ultra-high-definition TV content. But they can also earn their keep with those of us who run our businesses from home and want “big-business-grade” connectivity for IP-based communications or cloud computing.

Another trend that is surfacing is security-optimised broadband routers for the home network. These offer the “unified threat management” abilities associated with business-grade Internet setups but in a manner that appeals to the ordinary household. The latest from this class of network-Internet “edge” device is the Norton Core router. This device implements content-filtering and security software that is also focused towards the Internet-of-Things devices in your household due to the increased awareness of security risks and poor software maintenance practices associated with these devices.

The self-updating router works with Symantec’s DNS service to prevent DNS hijacks as well as implementing deep-packet inspection on unencrypted traffic to screen for malware and network intrusions. As for encrypted traffic, the Norton Core router will inspect packet headers for and connections of this traffic class. It also comes with Norton Core Security Plus endpoint-protection software which is a variant of the business-grade Security Premium endpoint software and can be run on 20 devices running either Windows, MacOS, iOS or Android but the router is dependent on this endpoint software for the full protection..

Lenovo Smart Storage home NAS

Most of the network-attached-storage units were focused on the “personal cloud” trend with the device being the centre of your data-storage universe while software and services work to locate these devices from afar. Similarly, some of them are using rich media servers which can do things like obtain further data about your media content. One of these devices is one that Lenovo launched called the Smart Storage 6Tb NAS which implements facial image recognition along with event-driven recognition to make it easier to identify and organise pictures of people just like what Facebook and Windows Photo Gallery were about. This unit has 802.11ac 2×2 Wi-Fi for portable use but can be connected to your home network via an Ethernet cable.

The next article about the 2017 CES will be highlighting the trends affecting home entertainment including the new smart TVs that will be showing up.

Article

The GPU, whether dedicated or integrated is what paints the picture on your computer screen

What Makes A GPU Different From A CPU? | Gizmodo

My Comments

A graphics processing unit or GPU is a special data-processing chipset that effectively “paints” the images that you are to see on your computer screen. This is compared to the central processing unit or CPU which is focused on handling the data that your computer is dealing with at your command and being the system’s “commander” processor.

The idea of a separate processor is to effectively work with the shapes, pixels and colours that constitute what you see on the screen and the highly-sophisticated GPUs handle this using multiple “cores” or unique processors. Another factor worth considering is that video editing, animation and transcoding programs are making use of the GPU to transcode the video material between different formats or rendering an animation or a sequence of shorter video clips in to one longer video clip.

A “gaming rig” tower desktop computer equipped with high-performance display cards

The higher-performance GPUs, typically offered as display cards that are installed in desktop computers especially “gaming rigs” set up by computer-games enthusiasts, use multiple “cores” or unique processors so they can realise the high-resolution graphics very quickly and responsively. Some of these cards even implement setups like “Crossfire” with the ability to gang two display cards together for increased performance.

Integrated vs dedicated GPUs

Typically the difference between an integrated or dedicated GPU is that a dedicated GPU has its own memory and other resources for “painting” the graphics images while an integrated GPU “borrows” resources like RAM memory from the system’s CPU. As well, a lot of these dedicated GPUs are designed and developed by companies who specialise in that field.

The benefit of a dedicated GPU is that it can turn out the graphics images required by demanding applications like games, video editing, CAD and the like efficiently because its resources are focused on what you see while the CPU and system RAM are focused on working out what is to happen.

Sony VAIO S Series – equipped with dual graphics with an easy-to-use operating-mode switch

For example, a game needs the use of the CPU to answer the players’ commands, apply the game’s rules and position each of the elements while it needs the GPU to visually represent where everything is. Here, the dedicated GPU can handle how everything is represented without encumbering the CPU’s tasks relating to how the game runs.

The main disadvantage with dedicated GPUs that affects laptops and other portable computers is that they can quickly drain the computer’s battery. This has been answered in a few ways like equipping laptops with integrated and dedicated graphics chipsets and adding logic like NVIDIA’s Optimus to switch between the different chipsets, in a similar vein to how the overdrive or “sports mode” in some cars work. In most cases, this logic engaged the dedicated graphics if the computer was running a graphics-intensive program like a game or video-editing program or was running on external power.

External GPU docks

Alienware high-performance laptop computer with Graphics Amplifier external GPU module

A new trend that is starting to appear and benefit laptop-computer users is the “external GPU” dock or module that connects to the laptop computer. These appear in two different forms – a “card cage” like the Alienware Graphics Amplifier where a user can install a desktop graphics card, or a graphics module which has the graphics hardware installed by the manufacturer.

Initially these devices were connected to the host computer using a connection that was proprietary to the manufacturer but now they are implementing the Intel Thunderbolt 3 via USB Type-C connection due to it offering PCI-Express data-transfer bandwidth, thus allowing for increased interchangeability between computers and docks. Most of these implementations will have the ability to send the graphics back to the host computer’s screen or to an external display that is connected directly to the external GPU module.

A graphics expansion module that could option up budget and mainstream laptops

These devices have appealed as a way to “option up” laptop, all-in-one and similar computers for high-performance dedicated graphics. It is more so where you don’t need to have dedicated graphics all the time, rather when you have that laptop or 2-in-1 “back home” and ready to work or play.

Conclusion

The graphics processors or GPUs, whether integrated on a computer’s motherboard, installed on a display card or housed in an external GPU module, are processors that look after “painting” the images you see on your computer’s screen.

Most video peripherals like the Sony BDP-S390 Blu-Ray player nowadays have an HDMI connector on them

I have been assisting a small church in their purchase of a newer projector for use through their worship services. Here, I have been steering them towards using equipment that uses HDMI connectivity rather than the 15-pin “VGA” cables. But why am I steering them towards this?

Video peripherals use HDMI as a standard connector

… as do an increasing number of laptop comptuers

Increasingly every video peripheral ranging from Blu-Ray players and network-media receivers to cable boxes and digital-TV tuners implements HDMI as a “best-case” connector. If the video peripheral had analogue component video connections, it would come with RCA-based YCC connections as that “best-case” analogue connection.

Most of the economy-class data projectors that are in circulation would implement as their best connector an RGB connector in the form of the 15-pin screw-on “VGA” connector that is intended as a baseline connection for computers because a lot of computer monitors use this connection. This is although most computers and monitors are moving towards DVI-D or HDMI connections.

If we are chasing the idea of connecting a laptop for presentations, a Blu-Ray / DVD player for movies or a DVB-T digital-TV tuner for the big news or sports broadcast, we would have to switch between different connection types for the application which can cause a lot of confusion. This is more so with people who haven’t had much experience or can get flustered easily with connecting different AV equipment.

Increased installation flexibility

New desktop comptuer at church – something that could benefit from an all-HDMI connection for the projector

One main advantage of an HDMI setup for your video display needs is increased installation flexibility. This is brought on by the audio signal carried in a digital form on the same cable. It is typically to allow the one-cable setup between a video peripheral and a TV with even a surround-sound setup having one cable from the video peripheral to the surround-sound amplifier which can be capable of being a video switcher, then another cable from that surround-sound amplifier going to the TV.

HDMI offers a maximum length of 25 feet / 7.62 metres between two pieces of equipment but there are solutions to cover larger installations. For example, you could use a line-powered active HDMI splitter as a repeater for a length up to 30 metres. Some devices in their own right, like HDMI-capable digital-analogue converters or amplifiers can be repeaters. Or you could use a “Category-5” HDMI balun pair along with Category-5 Ethernet cable for a distance of 330 feet / 100.58 metres between the pieces of equipment.

In these setups, you are running just one cable which passes along the digital representation of high-resolution images and sound between the source device and the display.

Audio setups

HDMI also uses the same cable to pass along a digital representation of the sound along with the high-resolution video signal. This can be a 7.1 surround-sound Dolby Digital or DTS bitstream or a simpler stereo PCM bitstream,

What an HDMI audio-extractor box is all about

In a video-presentation setup where you are using a projector, you will also find that the sound system is located either near the video source device like a computer or near the projector. The device that is handy for these situations is an HDMI audio adaptor, known as an HDMI audio extractor or HDMI digital-analogue converter.

Here, these devices connect the HDMI video source to the audio equipment either via an SP/DIF or AES/EBU digital connection; or a stereo line-level analogue connection and pass the sound signal from the video peripheral to the sound system. There is an HDMI output on these devices to connect the device to the display for the “final leg” of the signal’s journey.

Some projectors even have an HDMI audio-adaptor function typically to feed an integrated mono speaker for “quick-setup” arrangements. These will also have a line-out connection in the form of a 3.5mm stereo phone jack so they can be connected to an external sound system that is located up front and can put up a stronger sound.

Here, you could locate this device close to the sound system irrespective of where the display device is located and be able to hear good-quality noise-free sound. One main advantage of this is to be able to keep any unbalanced analogue audio connections as short as possible thus reducing the possibility of unwanted noise getting in to the amplifier which can happen easily with longer unbalanced analogue connections.

Another point of flexibility is HDMI Audio Return Channel. This is relevant to TVs with integrated tuners, multiple HDMI inputs and/or smart-TV functionality where a digital sound stream is sent back from the TV’s own sources to the amplifier to feed the speakers associated with that amplifier.  Here, this also leads to a high-quality sound path between that wall-mounted TV and a more powerful home-theatre setup that is located in a position for easier control.

HDMI-CEC

Yet another point of flexibility that HDMI offers is Consumer Electronics Control. This uses the same HDMI cable as a control cable and, as I have observed, has reduced the need to juggle remote controls to operate a Blu-Ray player for example. For example, it allows the TV to “light up” and select the appropriate input when you are loading a disc in the Blu-Ray player. Similarly, you use the TV’s remote to navigate the disc menu and get the movie underway. When used with a projector and computer that supports it, it could be feasible to use the projector’s remote to page through a presentation or start and stop video content, being seen as a presenter’s dream come true.

This is implemented mainly on higher-end big-name TVs, and most home-theatre amplifiers pitched to the residential-use market along with nearly all home-theatre video peripherals especially Blu-Ray players. Most manufacturers market this feature under their own marketing names like AnyNet (Samsung) or VIERA Link (Panasonic) but will cast a reference to HDMI-CEC in the device’s operating instructions or setup menu. An increasing number of premium-grade HDIM-equipped projectors pitched for home-theatre use also offer this function. Toshiba implements this function in their latest computers “out-of-the-box” and there is an RCAware add-on black box which allows this to work with other computers.

Moving your existing video display setup to HDMI

I would recommend that you move your video-display setup towards HDMI as part of your equipment replacement cycle.

Make sure your equipment has HDMI when you are purchasing or specifying newer projectors and other display equipment. If possible, prefer that the equipment works at 1080p if you are running a lot of video content as more video is captured or mastered in this resolution. Examples of this include Blu-Ray discs, console and PC games, along with consumer and semi-pro still and video cameras that can record in 1080p.

When you improve your playout computer equipment, upgrade the video cards to those that have HDMI outputs or, for portables, use USB DisplayLink adaptors that have HDMI outputs or specify newer equipment with these outputs. This is easy to achieve if you are purchasing current-generation laptop computers as they come with HDMI or DisplayPort connections whether “standard” or of a smaller form-factor. Similarly, current-issue display cards for desktop computers will be expected to have HDMI or DisplayPort connections. In the case of DisplayPort connectors, you would need to use a DisplayPort-HDMI adaptor cable to connect them to HDMI display devices.

As well, it could be a chance to replace DVD players with Blu-Ray players because these have the HDMI output and can show high-resolution video that the connection is known for. Similarly, digital-TV tuners and set-top boxes that you use to receive broadcast TV in your installation should have HDMI connections. If you are wanting to show legacy sources like VHS tapes through your video system, a composite-HDMI adaptor may come in handy. These devices convert the analogue signals from the legacy source such as the video recorder to a digital signal and even upscale them to a higher resolution before passing them along an HDMI cable.

When you revise the installation, make sure you are pulling HDMI cable or, if you use Cat5 or Cat6 cable for the extended cable runs, replace the baluns that you use with other technologies like VGA with those that work with HDMI. As well, the equipment should be connected via HDMI cables. For that matter, the HDMI baluns can be purchased from dedicated electronics stores like Radio Parts, Jaycar or Maplin.

What can be done here?

Integrating HDMI-CEC in more equipment

A projector that is equipped with HDMI-CEC could allow for the use of the remote control as a control surface for connected video peripherals. It can also allow a computer, for example, to cause the projector to be switched on and off as needed. The command set for HDMI-CEC could be extended to exchange status details that are of concern to projector operation like lamp condition and runtime.

As computers are being used as playout equipment in the business location, they could benefit from being HDMI-CEC control-target or control-source equipment. This could be facilitated through hardware and software additions that are provided by more computer and display-subsystem manufacturers. The software could support “page-through” on presentation software or use of the D-toggle on the remote as a virtual mouse. Similarly, a playout computer with HDMI-CEC “control-source” functionality can be able to turn on and turn off display or amplification equipment or provide “master volume” control over the system.

Conclusion

Moving your small business’s or community organisation’s display technology to HDMI can provide for increased flexibility when managing how this equipment acts when playing video material. It would also become simpler to achieve a “best-quality” setup so that your customers, patrons or congregation can see sharper images on the screen.

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Samsung slashes price of curved OLED TV to $8,999 | TV and Home Theater – CNET Reviews

My Comments

Most of you who have a Samsung, LG, HTC or Sony smartphone will be looking at an OLED display as you use these phones. These are self-illuminating solid-state displays that are known to have a wide viewing angle and a very high contrast ratio. Some devices like the Denon CEOL music systems, the Revo Domino Internet radio and some of the high-end broadband routers use a monochrome variant as a display which reminds me of the fluorescent displays commonly used on home-theatre receivers.

But these displays were too costly to implement for a screen area that would typically represent anything from a “coat-pocket” 7” tablet upwards. This would mean that a television based on this technology would be ridiculously expensive to buy.

Now LG and Samsung have increased the manufacturing yield for OLED displays of this area and this has lead to a reduction in the price of these sets that are based on this technology. For example, a Samsung 55” curved OLED “main-lounge-area” TV which was sold at US$14,999 is now selling at US$8,999.

What I see of this is that Samsung, LG and others could also start selling tablets, Ultrabooks, televisions, monitors and similar large-screen devices implementing this kind of technology. Even for that matter, it could also lead to more devices being equipped with the smaller-display-area OLED displays thus making the OLED display become highly ubiquitous.

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Portable Touchscreen Monitor to Make Your Laptop More Windows 8-Touch-Friendly

My Comments

Do you run Windows 8 on an existing or low-end laptop that doesn’t have integrated touchscreen abilities? If so, you may find that the experience is not all that enjoyable, even if you work the interface using the multi-touch trackpad.

Lenovo have answered this situation with a portable 15” monitor known as the LT-1423. It is available as a USB 3.0 DisplayLink variant that connects to your laptop via the USB 3.0 cable or as a Wi-Fi variant which exploits the WiDi technology. The Wi-Fi variant has its own battery and can run a continuous session for four hours but the USB version is known not to put much impact on the laptop’s battery runtime.

What can be an issue here is that you may find it hard to get used to the idea of a second screen being the main touchscreen for your laptop while you have the screen above your keyboard serving secondary duties such as a copy-entry screen. As well, you may find that some applications like hardcore real-time games may not work well with this screen as DisplayLink doesn’t implement a high refresh rate for these applications.

Even if your laptop has touchscreen abilities, this screen could work well as a “B screen” for managing a screenshow or having notes on display during that screenshow. You could even use this as the wide-work-area setup on the road when you work that extra-large spreadsheet.

This is another example of Lenovo offering methods of gaining more mileage out of existing computer equipment.