Tag: led

Mini Vision Concept Hints at Next-Gen Mini’s Styling

Even though Mini’s upcoming third-generation trademark three-door hatchback has already been spied upon sans all camouflage, the BMW-owned marque feels the need to release a concept previewing the next-gen design. This is it, and it’s called the Mini Vision Concept. It looks mostly similar to the next-gen Mini hatchback, except for a few typical concept-like styling touches, which never end up making it to the production vehicle anyway.

The Mini Vision seems to combine styling elements of both its predecessors. It’s more rounded than the 2002 hatchback which rebooted the Mini brand, but more muscular than the bloated 2007 model. Modern accents like full LED headlights inspired by the Rocketman concept find their way on to the Mini Vision. Mini’s traditional floating roof keeps its place on the Mini Vision, while the concept shows side grilles which seem to be borrowed from the Countryman and Paceman.

The interior will almost definitely not make it to the production version. Integrated Union Jack straps in the door panels make for a very cool interior, but surely not production-practical. Mini revealed the Vision Concept at an event called the Mini Design@Home. We expect to see it on the auto show circuit this year before Mini unveils the third-gen F56 Mini Cooper Hardtop.

[Images source: Mini]

July 27, 2013
The Razer Blade Laptop

Razer, nVidia and Intel have teamed up to create what they call the worlds first “True” gaming laptop.

Dubbed the “Blade”, the laptop is made with an aluminium body that’s only .88″ thick, weighs 3.2 Kgs and houses some pretty mean hardware. It features a 17″ 1920 x 1080 px LED display which is powered by an nVidia GPU and the latest generation Intel Core i7 processor.

The laptop also has a back-lit keyboard as well as Razer’s Switchblade interface which consists of ten programmable tactile keys and an LCD which doubles as a multi touch input and a display for in-game information when the system detects an external mouse being used. Each of the ten buttons can be programmed for in-game commands/actions and they can also be assigned an image which would be displayed on the in-built LCD.

It also features a HD web-cam and is expected to retail for around USD 2800 later in the year.

August 30, 2011
800Mbps WLAN using Light Bulb Network

German scientists have discovered a way to transmit WiFi networks in a Building infrastructure using Light Bulbs. Earlier this year researchers hit 500Mbps with white LEDs now, using a combination of white, green, blue, and red, the team was able to bring that up to 800Mbps.

The only drawback of this technology is the fact that there always needs to be a line of sight between the device and the bulb, so we don’t see it eliminating true WiFi just as yet.

[Slashgear]

August 2, 2011
Tech 101: How OLED Displays Work
In our previous article, we explained How Modern LCDs Work. In this article, we’ll be exploring how the new generation of displays based on OLED technology work.

What Exactly are OLEDs?

There are a lot of products in the market today ranging from TV’s to Laptops and even Smart Phones that contain an OLED display. But what are these displays and how do they work? OLED stands for Organic Light Emitting Diode. This technology is named after the organic polymers that are used in its construction. For a long time, organic compounds have been assumed to be electrical insulators but new research and manufacturing techniques have allowed the industry to use these polymers for many applications on a vast scale.

OLEDs are solid-state devices which are composed of thin films of organic molecules which emit light when a current is applied. OLEDs can provide brighter crisper displays that use less power than conventional Light Emitting Diode (LED) and Liquid Crystal Display (LCD) technologies. Another application for OLEDs is in the form of lights to be used in homes and offices. These lights have a long life and are very efficient.

The Manufacturing Process

OLEDs are basically layers of organic material sandwiched between an anode and a cathode and mounted on a substrate. This entire device is usually between 100 to 500 nanometers thick or is about 200 times thinner than a human hair.

The substrate is usually a sheet of glass which is coated with a transparent conductive oxide which works as the anode. The next layer consists of hole injection material, the organic emitters and the electron transport layer which are together referred to as the organic stack. On top of the organic stack is the inorganic cathode. The device operates as follows:
- Cathode – The cathode injects electrons into the system when a current flows through the device. It may or may not be transparent.
- Organic Stack – This layer is made up of different organic polymers that are built up in layers. This is where light is made. The organic stack consists of the following layers:
- Anode – The anode removes electrons from the system when a current flows through the device. It is always transparent.
This is the process by which a single OLED works. To turn them into colour displays, manufacturers place several layers of OEs on a display. There are various methods with which these individual pixels can be turned into a full colour display.

Types of OLED Displays

There are several types of OLED Display
- Passive-matrix OLED
- Active-matrix OLED
- Transparent OLED
- Top-emitting OLED
- Foldable OLED
- White OLED
Passive Matrix OLEDs or PMOLEDs

PMOLEDs are designed in a hash pattern. The anode and cathode are made in strips that are arranged perpendicular to each other. The points of intersection of the strips of anode and cathode make up the individual pixels where light is emitted. External circuitry is used to control which pixels are on and what colour they emit. The brightness of each pixel is dependent on the amount of current in the system.

Active Matrix OLEDs or AMOLEDs

AMOLEDs have a full layer of anode and cathode materials but they borrow a technology from LCDs to produce a visible display. Sandwiched between the anode and the organic layer is a layer of thin film transistors or TFTs that makes the array. The TFT array is the circuitry that decides which pixel is on and what colour it displays. AMOLEDs are more efficient than PMOLEDs because the external circuitry used to run the PMOLEDs consumes more power. AMOLEDs also have a faster refresh rate which makes them more suitable to larger displays used in televisions and computer monitors.

Transparent OLEDs or TOLEDs

TOLEDs are constructed with only transparent components, and are upto 85% as transparent as the substrate used when they are turned off. When it is turned on, the display still allows light to pass both ways and remains transparent. It can have either an active matrix or a passive matrix. This technology would be perfect for Heads Up Displays and Medical Equipment.

Top Emitting OLEDs or TEOLEDs

TEOLEDs are constructed with a substrate that is either opaque or reflective. They are perfectly suited for an active matrix design. They are used in smart-cards.

Foldable OLEDs or FOLEDs

FOLEDs are constructed with a highly flexible substrate which could either be a plastic or metallic foil. These types of OLEDs are very lightweight and durable. They are used in cell phones and can reduce breakage. They could also potentially be integrated into fabrics to create smart clothing.

White OLEDs or WOLEDs

WOLEDs emit pure white light that is brighter and more uniform than the light which is emitted by fluorescent lights. . WOLEDs can be made in large sheets and can reduce energy costs massively if used to light homes and buildings due to their low power consumption.

Advantages and Disadvantages of OLEDs

OLEDs offer many advantages over the current favorite, LCDs and LEDs.
- The organic construction of an OLED is much thinner than the many layers required for an LCD or LED display.
- OLEDs can be built onto a thin plastic substrate which allows them to be flexible instead of the glass used in LCDs and LEDs.
- Due to its design, an OLED display is much brighter than an LED display. This is because the conductive and emissive layers of an OLED can be stacked several times to produce more light than an LED while still remaining extremely thin.
- Since OLEDs emit light themselves, they do not require a back-light. LCDs work by selectively blocking areas of the back-light to produce individual pixels. OLEDs are also much more energy efficient than LCDs because they lack a back-light.
- As OLEDs are made from plastics, they can be built into large thin sheets which makes them much easier to produce. It is much more difficult to create an LCD display of the same size.
- OLEDs have a much viewing angle than LCDs because they do not block light in any fashion. Since they produce their own light, they can provide a field of view of upto 170^o.
For all their advantages over LCDs and LEDs, OLEDs have a few problems as well.
- Red and green OLED films have a very long life of between 46,000 to 230,000 hours while blue OLED films currently have a much shorter lifespan of around 14,000 hours.
- The manufacturing process for OLEDs is not cheap as of now.
- OLEDs are not at all water resistant and can easily be damaged on contact with even a few drops of water.
While LCD and LED technology remains in the mainstream, OLEDs are making headway into the television, computer and mobile segments. Manufacturers and engineers are realizing the potential benefits of using OLED technology for their devices. In the next few years we should see an increase in OLED sales as well as some novel applications of the technology.

Stay tuned to the Tech 101 segment to learn more about what makes our everyday devices tick.
July 16, 2011

Spice M9000 PopKorn Cinema Projector Phone Unboxing and Hands On

We recieved the Spice M-9000 Popkorn Cinema Projector Phone for review. The box contents were as follows:

The Spice M-9000 Phone
1200 mah Battery
A tripod mount and tripod
An auxilary battery powered speaker
USB to proprietary Spice Jack (Charging and Syncing)
Male 3.5mm to Spice Jack
Female 3.5mm to Spice Jack
Handsfree Kit
USB cable to charge Auxilary Speaker
AC Charger
Laser Pointer with in-built Torch

The technical specifications for this device are as follows:

Price: Rs 6699/-

Product type	Bar
Network(MHz)	850/900/1800/2100
Dimensions(in mm)	119.2 * 50.3 * 17.35
Weight(in gms)	123g
Talk Time	Up to 3.5 hrs
Stand by Time	Up to 300 hrs
Antenna Type	Internal
Battery Power (in mAh)	1200 mAh
Phonebook Capacity	1500
Memory Card Type	T-flash
Memory Card Support Capacity	16 GB
Phone Memory**	87 MB
Screen	6cm QVGA
Screen Size (Pixels) External	320 * 240
Ring Tones	64 Poly, Mp3
Speakerphone(yes/NO)	Yes
User Profiles	Yes
Caller Group	Yes
Language Support	English
Predictive Text	Yes
SMS	Yes, 1000
SMS Templates	Yes
MMS	Yes
Concatenated Messages	Yes
Send to Many	Yes
Send to Group	Yes
SMS Counter	Yes
Email	Yes
JAVA Enabled	Yes
Java Games & Applications	Yes
Games	Yes
Incoming Call Guard	Yes
World Clock (Format12/24)	Yes
Alarm	Yes
Calculator	Yes
Currency/Unit Convertor	Yes/No
Calendar	Yes
To-Do List	Yes
Caller Group	Yes
Vibrator Mode	Yes
Auto Power On/Off	Yes
FM Radio	Yes
FM Recording	Yes
Scheduled FM Recording	Yes
Wireless FM	Yes
WAP	Yes
GPRS	Yes
Bluetooth	Yes
Bluetooth version	2.1
Data Cable	Yes
Handset Manager	Yes
TV OUT / Webcam	No/Yes
Remote Control for PC via Bluetooth	Yes
Camera	Yes
Photo Storage Capacity	87 MB+T-flash
Single Touch Camera Operation	Yes
Zoom Level	Yes
Brightness Level	Yes
Multi Shot	Yes
Night Vision	Yes
Photo CLI	Yes
Video Recording	@ 15 fps
Video Storage Capacity	87 MB+T-flash
Wide Screen Video	Yes
Video Playing (FPS rate)	@ 25 fps, 3gp, mp4, avi, flv, rm, rmvb
Pixel Size(coreband)	3.2 MP

You can watch the Unboxing Video below. Please stay tuned for the full review.

June 22, 2011

Tech 101: Modern LCD Displays

Displays have come a long way since the old CRT monitors and TVs. Advancements in display technology have made many modern devices possible such as mobile phones, mobile gaming platforms like the Sony PSP, thinner Televisions and Monitors. We use them everyday, for a variety of tasks but do we really know how they work? What is an LCD? What is a TFT Screen? How do they display so many millions of colours? This article will answer these questions and many more.

What is an LCD?

The term LCD stands for Liquid Crystal Display. But what exactly are Liquid Crystals? The term is quite confusing. A substance can either be a crystal, like quartz, which is hard as rock, or it can be a liquid which is obviously different. How can it be both? We all learned that matter can exist in 3 states, solid, liquid and gas. Solids have their molecules in a very rigid orientation while liquids and gasses are exactly the opposite. There are a few substances that have properties that are like solids and liquids at the same time. What this means is the the molecules of the substance tend to maintain their orientation, like a solid, but they also tend to move around, like a liquid. This is why they are called Liquid Crystals.

It takes a lot of energy to convert a solid into this state, and only a little more to convert it into a liquid. This is why LCD’s are so sensitive temperature changes. This property allows them to be used in the making of Mood Rings and Thermometers. There are many types of liquid crystals. The major type used in monitors and other displays are called Twisted Nematic Liquid Crystals. These type of crystals twist and untwist at varying degrees to allow light to pass through when a voltage is applied.

What is a TFT?

A Thin Film Transistor LCD or TFT-LCD is named after a very thin layer of transistors that are applied to the back of a Liquid Crystal Display. These transistors allow only one row of pixels to be updated at any given point in time. The speed with which this updation takes place fools your brain into thinking that its viewing a static image.

In small LCDs such as the ones used in calculators and other devices, a voltage can be applied across one segment without interfering with other segments of the display. This is impractical for a large display with a large number of pixels, since it would require millions of connections, two for each one of the three colors (red, green and blue) of every pixel. To avoid this issue, the pixels are arranged in rows and columns, reducing the connection count from millions to thousands. The column and row wires attach to transistor switches, one for each pixel. The one-way current passing characteristic of the transistor prevents the charge applied to the pixel from draining between refreshes, which creates the persistence of vision.

What is a Pixel?

A single pixel is the smallest addressable screen element in a display device, or it is the smallest unit of picture that can be represented or controlled. Each pixel has its own unique address which corresponds to its coordinates on the screen. Pixels are normally arranged in a grid pattern. Each pixel is made up of three Sub-Pixels which have a different color, Red, Green and Blue. The voltage applied to each subpixel decides its colour intensity. There are 256 possible gradations for each subpixel and together all three give a combination of 256 x 256 x 256 = 16,777,216 colours to each pixel on the screen.

How it Comes Together

A simple LCD monitor has many layers of technology that make it function. The basic principle behind these types of monitors is the Polarization of Light. What this means is that light is strategically allowed or not allowed to pass through any given point on the screen.

At the base of a monitor, you have a single line of white LED’s that provide a backlight. There are many layers of films placed on top of these LED’s to create even lighting across the back panel. The next layer consists of a plate of glass. At the back and front of this sheet of glass are two polarization films. Light passes through the back film and is twisted by the glass to be ‘in sync’ with the front film. If the light is ‘in sync’, it passes through, if not, it is blocked by the film.

The sheet of glass is an amazing piece of technology. It basically consists of a layer of TFT’s and a Liquid Crystal array that is arranged in a grid format. Each point or pixel of the grid consists of three subpixels. These subpixels are what give the pixel its colour. They have a maximum intensity of 255. What this means is that if we set the intensity of the red subpixel to 0, then no light passes through, and it appears black. If the intensity is set to 255, then all the light passes through and it appears bright red. If we wanted to create a single pixel of sky blue colour, the red subpixel would be set at 135/255 intensity, the green subpixel would be set at 206/255 intensity and the blue subpixel would be set at 250/255 intensity. This is how each pixel of your display is updated 60 times a second. Thereore, for a display of 1024 x 768 resolution, the monitor is making 141,557,760 updates per second. If it takes you half a second to flip a switch, making these many updates would take you 819.2 days or 2.24 years. Thats a LOT of updates (and finger cramps).

To conclude, we would like to point out how much all of us take technology for granted. We have really got no idea what goes in to making most things we use everyday. We bicker and complain about our Tech being too slow or too old. We cant wait for the next big thing. At iGyaan, we have decided to start this section to demystify the basics of technology, so that the end user/consumer understands the true nature of the products that he/she is buying. We hope that you enjoy this section and learn something new from it. We’ll continue to bring you updates on the basics of technology. If you have something specific that you’d like us to talk about, please leave your requests on the comment section below.

Stay tuned for the next update, continuing along the display line on OLEDs and AMOLEDs.

June 11, 2011
HP x2301 Micro Thin monitor is freakishly Anorectic (PR)
Look at this thin piece of display for your Desktop wonders.
- 23-inch
- LED-backlit
- 1080p
- 9.8mm (0.39 inches) thick
- brushed aluminum and glossy black screen
- 3ms response time
- 8,000,000:1 dynamic contrast ratio
- Price $280, Approx INR 14,000
Press Release
A perfect partner: the HP x2301 Micro Thin LED backlit monitor

HP also introduced the HP x2301 23-inch Micro Thin LED backlit monitor. The HP x2301 is crafted to take display design to a new dimension, offering consumers a striking micro-thin profile (9.8 mm) complemented by a translucent aquamarine base and brush anodized aluminum accents.

Users will appreciate not only its sleek aesthetics but also its high-dynamic contrast ratio, full high-definition resolution,⁽²⁾ glare-reducing BrightView technology and fast response time. The HP x2301 also is ENERGY STAR® 5.0 qualified and EPEAT® Silver registered, containing mercury-free LED backlights and arsenic-free display glass⁽³⁾ to reduce environmental impact. It’s the ideal partner for any new HP Pavilion desktop PC.

Pricing and availability⁽⁴⁾
- The HP HPE h8 series PCs are expected to be available on HP Home & Home Office on May 18 at a starting price of $599.99 and at select U.S. retailers on June 19.
- The HP Pavilion p7 series PCs are expected to be available on HP Home & Home Office on May 18 at a starting price of $299.99 and at select U.S. retailers on June 19.
- The HP Pavilion Slimline s5 series PCs are expected to be available on HP Home & Home Office on June 15 at a starting price of $329.99 and at select U.S. retailers on June 19.
- The HP x2301 consumer monitor is expected to be available on June 10 in the United States at a starting price of $279.99.
About HP

HP creates new possibilities for technology to have a meaningful impact on people, businesses, governments and society. The world’s largest technology company, HP brings together a portfolio that spans printing, personal computing, software, services and IT infrastructure at the convergence of the cloud and connectivity, creating seamless, secure, context-aware experiences for a connected world. More information about HP (NYSE: HPQ) is available at http://www.hp.com.
May 17, 2011
HP Launches Elite L2201x Superslim 22 inch Monitor
Hp along with various other notebook and tablet announcements, has also announced the new Elite L2201x Monitor
- LED-backlit display
- 0.4-inches thick
- 1920 x 1080 display
- 5000:1 contrast ratio
- DisplayPort
- Priced at $250
[HP]
May 11, 2011
iGyaanForum.com – Indias Newest Tech Discussion Community got Bigger and Snazzier

Whats up folks!

iGyaan.in is proud to Announce the Highly new and improved

iGyaan Tech Forum

India’s Newest tech Discussion Community just got MASSIVE.

Powered by the best forum software, and best tools at our disposal let the discussions begin.

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Unfortunately, All old users will have to register afresh in the new forum.

So what are you waiting for Head on over to iGyaanforum.com !

January 23, 2011