terasic multi touch lcd module pricelist

This demo is volved by AD/DA demonstration. Signal of function-syntheshizer is transformed using Altera"s FFT module and drew on Terasic 4.3inch LCD touch panel. This demo is consist of Waveform viewer, 4 point peak detect, display overlay mode and display range configure modes. It takes about 10.24usec to transform data. The sampling rate of A/D converter is 100MHz/16bit and 1024 sample 512 point level sample.LTC2274 outputs AD converted data in 8B10B encoded serial data, so it is easy to apply to FPGA high serial I/F (HS Transceiver).

The Terasic Multi-touch LCD Module (MTL) is an all-purpose capacitive touch-screen for FPGA applications and provides multi-touch gesture and single-touch support. An IDE cable with an IDE to GPIO adapter (ITG) is used to interface with various Terasic FPGA development boards through a 2x20 GPIO interface on the MTL.

The kit provides everything you need to develop multimedia applications using a digital multi-touch panel and includes complete reference designs and source code for implementing a photo viewer demonstration and a color painter.

Orac for the 21st Century (apologies to anyone who isn’t familiar with early 80s BBC Sci-fi series). Officially it is the Altera Nios II Embedded Evaluation Kit. TerASIC has it’s name all over, so I guess they did the specific design work. It exists to promote the NIOS II processor. The Nios II is a 32-bit ‘soft’ cpu, intended to sit inside your FPGA system. The idea is that rather than have an external processor, you save on component count and build it within your FPGA design, saving yourself money and board space. It is based on the Cyclone III starter kit, but also adds a ‘mezzanine’ board with its own FPGA that interfaces with the LCD panel, video I/O and audio I/O.

The mezzanine board has a plethora of connectors. Including; SD card, 10/100 Ethernet, PS/2, RS232, VGA out, RCA/video-in, audio line in / line out and microphone in. Finally, set on top of this is the rather sexy looking 800x480 touch-screen LCD. If this kit does nothing in it’s life then it will pay for itself just by sitting on your desk attracting attention. I’m sure I don’t need to tell the engineers and marketers out there that a crisp touch screen + twinkly blue LEDs is sellablecombination.

Insert the SD card. Plug the power in. Switch on. Go Ooooo! Aaaah! As the NEEK had arrived just before Christmas, I could hardly not play with my new toy! I can confirm that the rest of my family instantly fell in love with it"s blue LEDs, nice LCD and general techy-ness.

The system boots from the bundled SD card and the touch screen graphic interface gives you the option of 23 demos, from a simple photo-frame app to a hardware generated Mandlebrot fractal. Or at least it does in theory, because around half the time on my machine, it will load the app and then do nothing. Rebooting usually makes the app work second time. The system takes around 10 seconds to boot to the selector, then over a minute to load one of the larger apps. This isn’t exactly a great show of speed. I guess the system is using the SD card in serial mode rather than high speed parallel, but if it is this slow in production then it is going to rule out many potential end products.

The LCD is impressively crisp, with an excellent contrast and lack of smearing. It is nice to see an LCD 1 step up from the standard QVGA/VGA fare that is often seen even on high end gear. It isn"t a cheap item, but it is certainly something I will consider for my own projects. Unfortunately, the touch screen is a flexible membrane overlay which flexes and seems to stick to your finger slightly. I’m not sure how robust that would be in a commercial or industrial environment. The whole stack of PCBs and Perspex has a nice solid feel, but I’m not sure how long it would last in a college or university environment.

Even with the help of the tutorials I felt utterly overwhelmed. Licensing for the dev software, for the NIOS II itself, for LCD driver packages, for this, for that... A huge amount of reading and messing around. I am an engineer, not a legal expert or an accountant for goodness sake! Without paying a lot of money, you can only run the system tethered to the host PC.

I am a bit puzzled to know what market NEEK is targeted at. So far as I can see, it is mainly for students who want to make another MP3 player or LCD picture frame. Why? Well, other than the video and audio I/O, we are limited to 4 switched and 4 LEDs (all of which are situated on the base board and point towards the desk). A 40-pin GPIO connector on the mezzanine would have made a lot of difference. Someone coming into FPGAs for the first time is going to be utterly overwhelmed by the sheer amount of “stuff” involved in getting even a basic project up and running.

From the performance of the demos, the Nios II doesn’t seem to be breaking any records in terms of speed. The spinning box demo looked rather ragged to say how few vertices and polygons are being manipulated, and the C-to-Hardware compiler just served to make the processor seem even slower. It does seem slightly at odds with the concept of BoM reduction that it requires an additional FPGA to deal with the LCD.

When dealing with the more demanding demos, the FPGAs do get quite warm and the entire system uses a fair amount of power (aside from the LCD backlight). I don"t think the NIOS II can compete with ARM7/9 chips when it comes to outright processor power, or energy efficiency. When licensing costs are taken into account, you will need to be looking at a production runs in the 10s of thousands or more before it is cheaper than an ARM and some glue logic.

3D Cube, demonstrating the NEEK and touch screen. Also demonstrating the slow loading speed and tendency to crashhttp://www.youtube.com/watch?v=Dtuiy-btxXk

FLYPORT Wi-Fi 802.11G System on module 802.11g WIFI - Infrastructure mode - softap mode - Ad hoc mode Microchip PIC 24F 16 bit processor Microchip MRF24WG0MA/MB - Native WiFi 802.11g transceiver - PCB

AFL2-W15A-N270/ L325 IEI designed a completely new modular architecture for its new AFOLUX GEN II panel PCs. A variety of expansion module boards connecting through a common interface give it functional

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1 Mikołaj Zarzycki NAND Flash SD Card Connector 256MB, 8bit I/F Push type, Up to 2GB/12.5Mbps USB Connector 1 x Device 2 x HOST, Dual-port LCD Module KEY Battery Holder 128 x 64 dots matrix structure 4

Shuttle Mini-PC with 7" The embedded touchscreen display delivers the simplest operation by giving you the multiple functions beyond your image. In addition, you can spread your work or entertainment over

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A: GameLine was a service offered by Control Video Corporation that allowed you to download games to the VCS/2600 over regular phone lines via the use of their GameLine Master Module. The complete kit contains the Master Module (an 8K RAM cartridge with internal 1200 baud modem - more tech info can be found on the

The basic idea was that Parker would provide a TV channel signal to cable operators that contained the multiplexed (interleaved) data for their game cartridges. Parker would sell � or the cable operators would subsidize � a special cartridge for the Atari 2600 that would plug into the 2600, and had a cable that would connect to your cable box. In the 1982-83 timeframe, the only distribution channel for games was physical hardware, and cartridges dominated the market.

VCS was). The case is exactly the same as the long rainbow version, but with a serial number that starts with "A1" instead of "AT". There"s only shielding around the RF module and

Gemini Video Game System - Coleco. Atari was paid royalties for this, from the Expansion Module lawsuit. NOTE: The Difficulty switches are labeled incorrectly. The �A� settings are actually �B�, and vice-versa.

board. The space for a "Y1" indicates that this was probably intended to be a clock generator - could this board also have been intended for standalone use, such as in a VCS/2600 clone? There is also an adjustment hole on the bottom that turns a potentiometer (probably for color). The Reset button on the main ColecoVision console acts as a hard reset for the expansion module. Sample wording:

A day after Atari"s infamous "Pearl Harbor day" announcement on Wall Street, they sued Coleco over the Expansion module. Here"s an article from the April 1983 issue of article from the September 1983 issue (pg. 16).

December 8th, 1982 - Atari announced that it had filed suit in U.S. District Court, Northern District of Illinois, Eastern Division against Coleco Industries, charging patent infringement and unfair competition under State and Federal law. Atari"s lawsuit sought a preliminary and permanent injunction against the manufacture and sale of Coleco"s Expansion Module No. 1 which was intended to allow Atari"s VCS compatible cartridges to be played on the Colecovision home video

settled their December 1982 lawsuits against each other. Under their settlement, the companies said Coleco could continue making and selling its ColecoVision Expansion Module No. 1 and also could ship its planned Atari 2600-compatible Gemini Video Game System. However, Coleco would do so as a licensee of Atari"s patents, and would pay a royalty to Atari.

If using a wide-screen TV, the ratio perspective will be different (16x9, instead of 4x3), so those used to playing with the original 4x3 perspective will find it a different experience. Flat-screen users (especially with LCD TVs) may experience display lag issues. HD TV users may experience upscaling issues (due to the system"s inherent low-resolution). For optimal playing experience, it"s best to use a CRT (tube) TV, preferably in standard 4x3 format.

Made by Spectravideo. This is a 42-key touch pad-style computer add-on that adds 16K ROM, 2K RAM, a 2-channel + 2 octave music composer, BASIC, and Magic Easel. The unit looks like a small keyboard connected to a cartridge, which has 2 cables that connect to the controller ports. It has 3 function/display modes: Text (which runs BASIC), Graphic (which runs Magic Easel) and Music. Magic Easel allows you to create photos

Made by Starplex Electronics, Inc. This was available in either a 9 or 24-cartridge multicart switcher. By turning a dial you can switch between them. The VCS power supply plugs into the back of it, and a wire from the Game Selex plugs into the power jack on a VCS. A note came with it stating if you see excess static with the device attached, Starplex would provide anti-static filters at no cost.

Made by Marjac. A 10-cartridge multicart switcher. At the press of a button, you can switch between them. This was even advertised in the, V2N4 (pg. 22), priced at $49.95!

Made by RGA International. A 6-cartridge multicart switcher. Made in Hong Kong. Warning - this device can damage your games, your system, or both, due to how it"s internally wired. Voltage is constantly running through the address and data lines while the power line is floating, when a cartridge is NOT selected! It"s possible to modify the device to operate properly and safely, otherwise don"t use one until it"s

Made by Compro Electronics, Inc. An 8-cartridge multicart switcher, with a smoke brown plexiglass hood and 8 sensor touch buttons on the front panel. The manual claimed to "Reduce the wear on your expensive system and cartridges".

There were several rapid-fire modules. Theseconnect between the joystick and the console and allows you to repeatedly fire by holding the fire button down. They only work with games that were programmed to allow rapid firing. A few controllers actually had this feature built-in to them