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Category Archives: monitors

Our magic toolbar.

The Magic Toolbar

First of all, this (Magic Toolbar) is not just an extra controller for your PC it’s a shift in the way we can interact with almost any device that has either a USB or Thunderbolt connector.

Not only does this OLED USB magic toolbar allow you to search for pages easily but it can be adjusted for any page or program through settings or individual apps running. Because of this it’s a great addition to any PC or supported system.

Magic Toolbar (the magic toolbar)

OLED Definition

OLED (Organic Light-Emitting Diode): Much as LEDs produce both light and color, OLEDs are small efficient LEDs made from organic compounds. They are usually used in TVs, computer, and mobile device displays because the black areas don’t need power and as nothing is lit up you can get almost perfect blacks on your screen.

History of OLEDs

André Bernanose and co-workers at the Nancy-Université in France made the first observations of electroluminescence in organic materials in the early 1950s. They applied high alternating voltages in air to materials such as acridine orange, either deposited on or dissolved in cellulose or cellophane thin films. The proposed mechanism was either direct excitation of the dye molecules or excitation of electrons. As a result of this, the OLED was born.

Martin Pope

In 1960, Martin Pope and some of his co-workers at New York University connected ohmic dark-injecting electrode contacts to organic crystals. They further described the necessary energetic requirements (work functions) for the hole and electron injecting electrode contacts. These contacts were the basis of charge injection used in all modern OLED devices. Martin Pope’s group first observed direct current (DC) electroluminescence under a vacuum on a single pure anthracene crystal and on anthracene crystals doped with tetracene in 1963. They used a small silver electrode and 400 volts of power to do this field-accelerated electron excitation of molecular fluorescence.

W. Helfrich and W. G. Schneider

In 1965, W. Helfrich and W. G. Schneider of the National Research Council in Canada produced double injection recombination electroluminescence for the first time in a single anthracene crystal using the hole and electron injecting electrodes, the forerunner of modern double-injection devices. In the same year, Dow Chemical researchers patented a method of preparing electroluminescent cells using high-voltage (500–1500 V) AC-driven (100–3000 Hz) electrically insulated one millimetre thin layers of melted phosphor made of ground anthracene, tetracene, and graphite powder. Their proposed mechanism involved electronic excitation at the contacts between the graphite particles and the anthracene molecules.

Roger Partridge

Roger Partridge made the first observation of electroluminescence from polymer films at the National Physical Laboratory in the United Kingdom. The device consisted of a film of poly (N-vinylcarbazole) up to 2.2 micrometers thick located between two charge injecting electrodes. Roger Partridge patented the project in 1975 and published the findings in 1983.

Due to all of these scientific discoveries we now have OLED screens. The next challenge is to either reduce the burn-in associated with OLEDs or reduce power consumption rates though.

Although this device (Magic Toolbar) has the same function as an LCD touch screen it can do so much more… Contact us for more details.

Image updated: 2016-10-25th

Dell’s 8K Monitor vs Apple’s 8K iMac (7,680 by 4,320 resolution)

8k monitor - 8k resolution

Looking for a new 8k monitor? The race is on as Dell’s 8K monitor might make it to stores before the 8K iMac can be seen. Apple’s 8K monitor looks like it is going to be produced by LG with new backlighting leds to reduce the amount of power the hungry iDisplay needs. Let’s hope Dell can do the same.

Both will be using the DisplayPort 1.3 connection to make full use of the bandwidth.

DisplayPort 1.3 Wiring Table

External connector (source-side) on PCB
Pin 1 ML_Lane 0 (p) Lane 0 (positive)
Pin 2 GND Ground
Pin 3 ML_Lane 0 (n) Lane 0 (negative)
Pin 4 ML_Lane 1 (p) Lane 1 (positive)
Pin 5 GND Ground
Pin 6 ML_Lane 1 (n) Lane 1 (negative)
Pin 7 ML_Lane 2 (p) Lane 2 (positive)
Pin 8 GND Ground
Pin 9 ML_Lane 2 (n) Lane 2 (negative)
Pin 10 ML_Lane 3 (p) Lane 3 (positive)
Pin 11 GND Ground
Pin 12 ML_Lane 3 (n) Lane 3 (negative)
Pin 13 CONFIG1 connected to Ground1)
Pin 14 CONFIG2 connected to Ground1)
Pin 15 AUX CH (p) Auxiliary Channel (positive)
Pin 16 GND Ground
Pin 17 AUX CH (n) Auxiliary Channel (negative)
Pin 18 Hot Plug Hot Plug Detect
Pin 19 Return Return for Power
Pin 20 DP_PWR Power for connector (3.3 V 500 mA)
# Pins 13 and 14 may either be directly connected to ground or connected to ground through a pulldown device.
  1. This is the pinout for source-side connector, the sink-side connector pinout will have lanes 0–3 reversed in order; i.e., lane 3 will be on pin 1(n) and 3(p) while lane 0 will be on pin 10(n) and 12(p).

Dell’s IPS LED Monitor the U2713HM (2560×1440 pixels and over 1 billion colors)

Dell IPS LED Monitor – U2713HM 2560×1440 Over 1 billion colors

Dell is finally updating its 27 (U2713HM) and 30 inch (U3013M) monitors with new LED back lights soon. The older ones were energy monsters that could heat your room up if you didn’t have a heater. There isn’t a release date yet but it won’t be long until they are on the shelves.

Dell has decided to sell the 2 year old power hungry monitors in Japan and label them as new products even though there isn’t enough energy to fully power most homes up here. I hope they replace the back lights in the older monitors as soon as possible.

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