Classification of Power Amplifiers

By admin | Published: September 11, 2009

For an amplifier, a quiescent operating point (Q point) is fixed by selecting the proper d.c biasing to the transistors used. The quiescent operating point is shown the load line, which is plotted on the output characteristics of the transistor. The position of the quiescent point on the load line decides the class of operation of the power amplifier.

The various classes of the power amplifiers are

Class A
Class B
Class C
Class AB
Before defining the position of the quiescent point on the load line, for the various classes. The characteristics curves are plotted for various values of base current. The intersection of the output characteristics curve and a load line is the operating point. The point is fixed for a transistor called quiescent point or Q point.

The collector current varies above and below its quiescent value, in phase with the base current. The collector to emitter voltage varies above and below its quiescent value, 180 degree out of phase with base current.

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Construction of Digital Respiration Rate Meter

By admin | Published: September 11, 2009

An actual size, single side PCB for the respiration rate meter. The interface assembly simply make use of a nose mask, which is readily available in medical shops and mainly used in hospitals for supply for oxygen to the patients for respiration.

Take a 36cm long transparent glass tube with inner diameter of 5mm. Insert a thermocol ball, commonly used in flower bouquets. Make both the ends of the tube slightly narrow by heating them or putting a rubber tube of a smaller diameter inside. This is done to ensure that the thermocol ball does not come out during the inhale-exhale mechanism of the air.

Take a rubber cork and drill holes on its opposite sides at the center. Pass the glass tube through the center of the cork. Now drill holes on the sides of the cork and fix the transmitter and receiver so that these are placed face to face. Align the transmitter and receiver IR LEDs if required. This adjustment is required is depending upon the type of the glass tube used.

When you inhale and exhale air during respiration, this leads to movement of the ball left and right. Note down the displacement of the ball in the tube and move the cork to the center position of the displacement for more effective measurement.

Such an adjustment of cork postion is required depending upon the age group of the subject whose respiration rate is to be measured. For instance, as the displacement of the ball is less for children, the cork should be moved towards the connected mask.

For a healthy person the displacement of the ball is more, so you have to move the cork away from the mask.

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Which is the best Sony or Canon or any other brand?

By admin | Published: September 11, 2009

After i plan to buy digital camera, i really struggle to decide the best digital camera manufacturer or brand. According to features, price and quality most of my friends suggest me to get Sony camera. But i visited canon site and seen many models with more color choice. Now i am in confused state, is there any other world brand offer quality digital cameras? I see some of the models in Sony like w300 13.9 mega pixel, Sony H series and also T series. In canon IXUS 110, 100 etc,..

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Lamborghini is owned by Audi

By admin | Published: September 4, 2009

The stereo, air con and navigation are all familiar Audi bits from the A8 that work rather well which again is a good thing. And you start the engine using the key, not some silly starter buttton. Then there’s an auto box. Except this isn’t an auto but a robotised sequential manual e gear in Lambo speak. It’s been completely reworked for the LP560 and features five different shift maps. Shifts are faster and smoother 40 percent quicker in the new Corsa mode and there’s also a launch control program called thrust mode. Lamborghini says its customers prefers a more emotional experience and have thus engineered a deliberate thunp as you shift up the box. That’s the hard edge to the Gallardo’s driving experience it serves as a reminder that this is an Italian supercar not an ordinary hatchback but it also makes it feel less refined than Ferrari’s F1 Superfast transmission on the F430.

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Opera 10, promising faster downloads, new design and new features.

By admin | Published: September 1, 2009

Helsinki: Norway’s Opera Software released on Tuesday a new version of its browser, Opera 10, promising faster downloads, new design and new features.
Opera battles for the spot of third-largest browser maker with Google’s Chrome and Apple’s Safari, but is far behind Microsoft and Mozilla Foundation.
Opera said the new browser is significantly faster on resource-intensive pages such as Gmail and Facebook, and adds features like full thumbnails of all open tabs.
Opera said its Turbo feature for slow connections, which packages web pages, makes the browser up to eight times faster than rival browsers in low connection speeds.
“We have worked a lot on Opera Turbo technology and have also made major improvements on the overall product stability. This is the most stable Opera browser yet,” the company said.
The companies usually release several successive test versions of their browsers so they can incorporate user feedback in a series of improvements before their final launch. Microsoft launched its latest IE8 browser in March after a year of public beta testing.
Opera unveiled a public test version of the browser on June 3.

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Asus – graphics cards in India

By admin | Published: September 1, 2009

Asus has unveiled its new formula series graphics cards in India. Based on ATI Radeon HD 4770 and HD 4890 cards, the two ‘Formula Series’ cards supposedly improve cooling efficiencies by 33 per cent and are also 12.4 decibels quieter than the graphics with generic fan-sinks. Gaming enthusiasts will adore the aerodynamically styled heat sink and cooling-fan that resemble the upper chassis of F1 car.

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HP Photosmart C7280 for lab quality photos

By admin | Published: August 30, 2009

Today, we are seeing a lot of all-in-one printers coming from the leading brands. But if there should be one add-on that consumers should look at is that of the ability to print photos to the best quality possible. And with that in mind, it would be best to check out printers such as the HP Photosmart C7280 All-in-One Printer.
Just like most all-in-one printers today, HP offers the same color printing, copying, faxing and scanning services as required by consumers today. The printer can perform speeds of up to 34ppm in black and 33ppm in color.
For scanning, it can scan up to 4800 dpi optical resolution. It has a built-in 2.4-inch display you can use to easily print photos without a PC. All you have to do is put your memory card into the memory card slot, preview it on the display, and print.
The HP Photosmart C7280 produces lab-quality, fade-resistant photo prints by using a six-ink color system for accurate color reproduction.
Price: $186.85

(Source) Amazon

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Going for sony Digi cam W270

By admin | Published: August 30, 2009

When it comes to features this is a point and shoot camera, but it does have 1 or 2 additional controls that set it aside from cameras at the less expensive end of the market. In fact if you blow photographs up to a particularly big size you start to notice 1 or two grainy sections creeping into the shots and you wonder whether Sony has been a bit bold attempting to fit so many pixels into such a tiny space.

The Sony Cybershot DSC W270 is a mid range digicam. This is true both in terms of features and also in terms of price. At around by my measurements there are a large amount of smaller cameras out there and while the Cybershot DSC W270 will fit into bigger pockets it appears to be noticeably bigger than the more slimline models.

The lens offers 5x zoom and has wide angle capacities. One virtue of the extra zoom becomes open to you if you scale back the resolution (number of megapixels ) you are shooting at. Don’t forget that three or four megapixels is plenty if all you’re looking to do is make 6 x four in. prints of your photos.

One disadvantage I regularly see of a wide angle lens is a loss of picture sharpness when the zoom isn’t being used at all. This is true of the Cybershot DSC W270. For image sized prints this should not turn out to be much of a difficulty as the loss of sharpness only becomes obvious as you increase print size.

As is becoming more prevalent Sony has included a Hi-D flick mode.

In case you have an issue holding the camera rock steady when taking a shot Sony has inbuilt image stabilisation. The majority of digital cameras can focus from closer in than this, so if you are planning to truly get in close for a number of shots you may well find this proves to be a drawback.

Still anything that gives a small improvement in the quality of your photos is worth having on board. There is a smile shutter mode too. When you turn on this feature the Cybershot DSC W270 will mechanically fire off a shot if it notices somebody is smiling. Only you can tell how much use you are probably going to get from this feature. Of more use to you may be the power to adjust the power of the flash unit if you’re feeling an additional boost is required from time to time.

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Kicad continues….

By admin | Published: August 29, 2009

66.Click on “Save current part into current loaded library (in memory)” on the top
toolbar.
67.Click on “Save current loaded library on disk (file update)” on the top tool bar.
68.Click “yes” on the confirmation message.
69.You can now close the “Libedit” window.
70.Return back to the “EeSchema” window.
71.Repeat steps 14 to 20, however this time choose “conn” and “MYCONN3”.
72.Your newly created part will appear. Choose a location near the second resistor to
place this component. Press the ‘y’ key to mirror it on the y axis.
73.The component identifier “J?” will appear under the “MYCONN3” label. Right click
on “J?” and click on “move field”. Reposition “J?” to under the pins.
74.Click on the “Add powers” button on the right toolbar.
75.Click above the pin of the 1k resistor.
76. In the “Component Selection” click on list all.
77.Scroll down and select “VCC” in the “Select Part” window.
78.Click above the pin of the 1k resistor to place the part.
79.Click above the VDD pin near the microcontroller.
80. In the “Component Selection history” select “VCC” and click again next to the VDD
pin.
81.Repeat again and place the VCC pin above the VCC pin of “MYCONN3”.
82.Repeat steps 74 to 76 but select GND this time.
83.Place the GND pin under the GND pin of “MYCONN3”.
84.Place the GND symbol little to the right and below the VSS pin of the
microcontroller.
85.Click on the “Add wires” on the right toolbar **Careful not to pick “Add bus” which
appears directly beneath but has thicker lines**.
86.Left click on the little circle on the end of pin 7 of the microcontroller and then on the
little circle on pin two of the LED.
87.Repeat process to wire up the other components as below.
88.When wiring up the VCC and GND symbols, the wire should touch at the bottom of
the VCC symbol, and in the middle top of the GND symbol.
89.Label the nets by clicking on the “Add wire or bus label” button on the right toolbar.
90.Click in the middle of the wire between the microcontroller and the LED.
91.Enter the name “uCtoLED”.
92.Click near the circle (little to the right) of pin 7 to place the net name.
93.Name the wire between the resistor and the LED to “LEDtoR”.
94.Name the wire between “MYCONN3” to the resistor as “INPUTtoR”.
95.Name the line on the right of the 100 ohm resistor as “INPUT”.
96.Name the line from pin 6 as “INPUT”. This creates an invisible connection between
the two pins labelled “INPUT”. This is a useful technique when connecting wires in a
complex design where drawing the lines would make the drawing very messy.
97.You do not have to label the VCC and GND lines, the labels are implied from the
power objects they are connected to.
98.The program automatically checks for errors therefore any wires that are not
connected may generate a warning. To avoid these warnings you can instruct the
program that the unconnected wires are deliberate.
99.Click on the “Add no connect” flag button on the right toolbar.
100.Click on the little circle at the end of lines 2, 3, 4 and 5.
101.To add comments on the schematic use the “Add graphics text (comment)” on the
right toolbar .
102.The components now need to be given unique identifiers. To do this click on
“Schematic Annotation” button.
103.In “EESchema Annotation” select “Current Sheet” and “all components”.
104.Click on “Annotate”.
105.Click “yes” for the confirmation message.
106.Notice how all the “?” on the components have been replaced with a number.
Each identifier is unique. In our example “R1”, “R2”, “U1”, “D1” and “J1”.
107.Click on the “Schematic Electric Rules Check” button. Push the “Test ERC” button.
108.This will generate a report to inform you of any errors or warnings such as wires
being disconnected. You should have 0 Errors and 0 Warnings. A small green
arrow will appear in the location of the error if you have made a mistake. Check
“Write erc report” and press the “Test ERC” button again to receive more
information about the errors.
109.Click on “Netlist generation” on the top toolbar.
110.Click “Netlist” then on “save” to the default file name.
111.Click on “Run Cvpcb” on the top toolbar.
112.Cvpcb permits you to link footprints to components.
113.In the light blue screen select “D1” and scroll down in the light green screen to
“LEDV” and double click on it.
114.For “J1” select the “3PIN_6mm” footprint.
115.For “R1” and “R2” select the “R1” footprint from the light green screen.
116.Select 8dip300 for “U1”.
117.Click on “files”->”Save netlist”. The default “tute1.net” is fine therefore click save.
118.Save the project by clicking on “files” -> “Save Schematic Project”.
119.Switch to KiCad main window.
120.Select “Browse” -> “Browse Files”.
121.If an error message appears, choose your text browser. Most computers have one
at “c:\windows\notepad.exe”.
122.Select the “tute1.net” file. This will open your netlist file. It describes which
components and which pins are connected to which pins.
123.Now return back to the “EeSchema” window.
124.To create a bill of materials click on the “Bill of materials” button on the top toolbar.
125.Click on “Create List” and the on “Save”.
126.To view the file repeat step 120 and select “tute1.lst”.
127.Now click on the “Run Pcbnew” button on the top toolbar.
128.The “Pcbnew” window will open.
129.Click “OK” on the error message for the file not existing.
130.Click on “files” -> “Save board”.
131.Click on “page settings” button on the top toolbar.
132.Select “paper size” as “A4” and enter “title” as “Tute 1” .
133.Click on “Dimensions” -> “Tracks and Vias”.
134.Set the settings so that they correspond to your PCB manufacturing capabilities.
(consult your PCB manufacturer for this information.) For our example increase
clearance to 0.0150”.
135.Click on the “Read Netlist” button on the top toolbar.
136.Click the “Select” button select “tute1.net” and click on “open” and then click the
“Read” button. Then click the “Close” button.
137.The components will be placed in the top left hand corner just above the page,
scroll up to see the components.
138.Right click on a component select “move component” and position it in the middle
of the page.
139.Repeat previous step till all the components are in the middle of the page.
140.Make sure that the “General ratsnest not show” button is on.
141.This will display the ratsnest, which is a set of lines showing which pin connects to
which other pin.
142.Move the components around till the ratsnest until you minimise the number of
crossovers.
143.If the ratsnest disappears or the screen gets messy right click and click “redraw”.
144.Now we will connect up all except the ground wires on the “component side” (top
layer).
145.Click on the “Add Tracks an vias” button on the right toolbar.
146.Select “Component” out of the drag down menu on the top toolbar.
147.Click in the middle of pin 1 of “J1” and run a track to the pad “R2”.
148.Repeat this process till all wires except pin 3 of J1 is connected.
149.In the drag down menu on the top toolbar select Copper (bottom layer).
150.Click on “Add tracks and vias” button (step 145).
151.Draw a track between pin 3 of J1 and pin 8 of U1.
152.Click on “Net highlight” button on the right toolbar.
153.Click on pin 3 of J1. It should turn yellow.
154.Click on “Add Zones” button on the right toolbar.
155.Trace around the outline of the board.
156.Right click inside the area you have just traced.
157.Click on “Fill Zones”.
158.Select “Grid” “0.010”, “Pad options:” “Thermal”, “Zone edges orient:” “H,V” and
then click on “Fill”.
159.Your board should look like this.
160.Now select “Edges Pcb” from the drag down menu in the top toolbar.
161.Select the “Add graphic line or polygon” button on the right toolbar.
162.Trace around the edge of the board but remember to leave a small gap between
the edge of the green and the edge of the PCB.
163.Run a design rules check by clicking on “Pcb Design Rules Check”.
164.Click on “Test DRC”. There should be no errors.
165.Click on “List Unconn”. There should be no unconnected.
166.Save your file by clicking on “files” -> “Save board”.
167.To view your board in 3d click on “3D Display” -> “3D Display”.
168.You can drag your mouse around to rotate the PCB.
169.Your board is complete, to send it off to a manufacturer you will need to generate a
GERBER file.
170.Click on “files” -> “plot”.
171.Select GERBER as the “plot format” and click on plot.
172.To view GERBER files go to the main KiCad window.
173.Click on the “GerbView” button.
174.Click on “files” -> “Load GERBER file”.
175.Select the file named “tute1_Copper.pho” and then on “open”.
176.On the drag down menu select “Layer2”.
177.Repeat steps 174 and 175 but this time load “tute1_component.pho”.
178.Repeat steps 176 but choose “Layer3” then steps174 and 175 but this time load
“tute1_SlkSCmp.pho”.
179.This way you can examine the layers that will be sent to production.
There is a extensive footprint library with KiCad, however on occasion you might
find that the footprint that you need is not in a KiCad library. Follows are some
steps for creating a surface mount footprint in KiCad.
180.To create a new PCB footprint switch back to “PCBnew”.
181.Click on “Open Module Editor” on the top toolbar.
182.This will open the “Module Editor”.
183.Click on “select working library” on the top toolbar.
184.For this exercise select the “connect” library.
185.Click the “New Module” button on the top toolbar.
186.Enter “MYCONN3” as the “module reference”.
187.In the middle of the screen a “MYCONN3” label will appear.
188.Under the label will be “VAL**”.
189.Right click on “MYCONN3” and move above “VAL**”.
190.Right click on “VAL**”, select “Edit Text Mod” and rename it to “SMD”.
191.Check the “no display” box.
192.Select the “Add Pads” on the right toolbar.
193.Click on the screen to place the pad.
194.Right click on the new pad and click “edit”.
195.Set the “Pad Num” to “1”, “Pad Size X” to “0.4”, “Pad Size Y” to “0.8”, “Pad Shape”
to “Rect” and “Pad Type” to “SMD”.Click “Ok”.
196.Click on “Add Pads” again and place two more pads.
197.Move the “MYCONN3” and “SMD” labels out of the way so it looks like above.
198.Click on “Add graphic line or polygon” button in the right toolbar.
199.Draw an outline of the connector around the component.
200.Click on “Save Module in working directory” on the top toolbar.
201.You can now return to PCB new and click on “Add modules” button on the right
toolbar.
202.Click in the screen, and the module name window will pop-up.
203.Select the module “MYCONN3” and place it on your PCB design.
This has been a quick tutorial on most of the features in KiCad. For more detailed
instructions there is a detailed help file which can be accessed through all KiCad modules.
Click on help -> help.

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Kicad tutorials continues …

By admin | Published: August 29, 2009

24.Right click in the middle of the component.
25.Select: “Edit Component” -> “Edit”.
26.The “Component properties” window will appear.
27.Select the “Value” tab.
28.Replace the current “Value” “R” with “1k”.
29.Click “OK”.
30.The value inside the resistor should now be “1k” .
31.Place another resistor by clicking on the place you want the resistor to appear.
32.The “Component selection:” window will appear.
33.The resistor you previously chose is now in your history list appearing as “R”.
34.Click on “R”.
35.Place the resistor on the page
36.Repeat and place a third resistor on the page.
37.Right click on the second resistor
38.Click on “Delete Component”. This should remove the component.
39.Right click on the third resistor. Select “Move Component”.
40.Reposition the component left click to drop.
41.Repeat steps 24 to 27 on the third resistor and replace “R” with “100”
42.Repeat steps 14 to 20, however this time select “microcontrollers” instead of
“device” and “PIC12C508A” instead of “R”.
43.Press ‘y’ and ‘x’ on the keyboard. Notice how the component is mirrored on it’s x
and y axis. Press ‘y’ and ‘x’ again to return to it’s original orientation.
44.Place the component on the page.
45.Repeat steps 14 to 20, however this time choose “device” and “LED”.
46.Organise the components on the page in the following way:
47.We will now add a component to the library.
48.Click on the “go to library editor” button on the top toolbar.
49.This will open the “Libedit” window.
50.Click on the “Select working library” button.
51. In the “select lib” window click on “conn”.
52.Click on the “New part” button.
53.Name the new part “MYCONN3”.
54.Enter the prefix as “J”, and number of parts as “1”.
55. If the warning “has a convert drawing” appears click “yes”.
56. In the middle of the screen the name of the component should appear.
57.Click on the magnifier twice to zoom in on it.
58.Click on the “Add Pins” button on the right toolbar.
59.Left click on the screen where you want the pin.
60. In the “Pin Properties” box enter pin name as “VCC”, enter pin number as “1”.
61.Select “Electrical Type” as “Power Out” then click “OK”. Then place the pin by
clicking at the location you would like it to appear.
62.Repeat steps 59 to 61, this time “Pin Name” should be “INPUT” and ‘Pin Number”
should be “2”. “Electrical Type” should be “Input”.
63.Repeat steps 59 to 61, this time “Pin Name” should be “GND” and “Pin Number”
should be “3”. “Electrical Type” should be “Power Out”.
64.Arrange the pins and label as shown below step 65.
65.Click on the “Add rectangle” button. By left clicking and holding the button down
place a rectangle around the pin names.

to go next step click here

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KiCad – open source (GPL) integrated package for schematic circuit capture and PCB layout, step by step tutorials

By admin | Published: August 29, 2009

1. Run “KiCad.exe”.
2. You are now in the Main Window.
3. Create a new project: “Projects” -> “New Project Descr”.
4. Click on “Create New Folder” button, and name the new folder “tute1”.
5. Open the new directory by double clicking on it.
6. Enter the name of the project in “File Name”, in this tutorial we will call it “tute1”.
7. Click on “Save”. You should notice the project name should change to “tute1”.
8. Double click on “tute1.sch”.
9. An “Infos” window will appear informing you it is a new project. Click “OK”.
10.You are now in the “EESchema” window. This window is used for entering
schematics.
11.You should first save the schematic project: “Files” -> “Save Schematic Project”.
12.Click the “page settings” button on the top toolbar.
13.Select the “page size” as “A4” and the “Title” as “Tute 1”.
14.Click on the “Add components” button found in the right toolbar.
15.Click in the middle of the screen where you want to place your first component.
16.A “Component selection” window will appear.
17.Click on “List All”. The “Select Lib” window will appear.
18.Double click on “device”.
19.The “Select Part” window will appear.
20.Scroll down and double click on “R”.
21.Press ‘r’ on the keyboard. Notice how the component rotates
22.Place the component in the middle of the sheet by left clicking where you want it.
23.Click on the magnifier twice to zoom in on the component.

To get next step click here kicad continue

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Dodge Viper GTS car

By admin | Published: August 28, 2009

Race-prepared Viper GTS-R models have won three consecutive European FIA GT-2 championships, two consecutive class championships at the 24 Hours of Le Mans, the inaugural American Le Mans championship and an historic overall championship at the 2000 24 Hours of Daytona. Whether on the track or off, Viper is the ultimate American sports car.
The heart of the Viper begins at its 8.0-liter, 488 cubic inch V-10 engine. It represents the only V-10 available in an automobile other than a race car. With a 4.00-inch bore and 3.88-inch stroke, it produces 450 horsepower and 490 lb.-ft. of torque. In freer-breathing ACR state of tune, the engine turns out 460 horsepower and 500 lb.-ft. of torque. No other American production car even comes close.Air intake is through a cast aluminum manifold with formed tubes, including an integral fuel rail cored in the castings. The dual throttle bodies and bottom-fed, high-performance fuel injectors control fuel flow and mixture. Fuel is fed to the injectors by a sequential multipoint injection system.

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Save power, save money

By admin | Published: August 25, 2009

We can all do our teeny-weeny bit in conserving energy while using our PCs. There’s no rocket science involved. At the very basic level, just learn to tune your Windows PC’s built-in power saving schemes as per your needs. No, that snazzy screensaver will not help you save a joule of energy.

Instead go to Start > Control Panel > Power Options to tweak the settings that turn your monitor off, spin down the hard disk, and tell the system to standby/sleep/hibernate after an appropriate time interval of disuse. These much overlooked settings help cut down the consumption of energy by 20 to 60 per cent while getting back into action takes only a few seconds. And totted up, all these little factors will also help save many a pretty penny at the end of the day as well.

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Nokia will soon launch a mini-laptop

By admin | Published: August 25, 2009

Finnish cellphone gaint Nokia will soon launch a mini-laptop, marking the foray of the world’s largest mobile phone maker into the personal computer segment.

The Windows-based ‘Nokia Booklet 3G’ would weigh 1.25 kilograms and has a battery life of up to 12 hours.

“The new mini-laptop weighs 1.25 kilograms, measures slightly more than two centimeters thin,” the company said in a statement on Monday.

According to Nokia, the mini-laptop also comes with an HDMI port for HD video out, a front facing camera for video calling, integrated bluetooth and an easily accessible SD card reader, among others.

“A growing number of people want the computing power of a PC with the full benefits of mobility. Nokia has a long and rich heritage in mobility and with the outstanding battery life, premium design and all day, always on connectivity, we will create something quite compelling,” Nokia’s Executive Vice President (Devices) Kai Oistamo said.

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LG Xnote Mini X120 Levi’s Netbook

By admin | Published: August 13, 2009

LG has launched a special edition of its X120netbook, the LG Xnote Mini X120 Levi’s Netbook.

The LG Xnote Mini X120 Levi’s Netbook comes with an Intel Atom N270 processor, 1GB of RAM and a 160GB hard drive, as well as Windows XP and LG’s instant boot Splashtop OS.

lg-xnote-mini-x120-netbook-levis-special-edition

The LG Xnote Mini X120 Levi’s Netbook comes with a sketched pair of Levi’s on the case, and a special Levi’s themed carrying case, a 6 cell battery, Windows XP, an Bluetooth 2.0, WiFi b/g.

LG Xnote Mini X120 Levi’s Netbook will be sold in a limited run of just 2,500 there is no word on pricing as yet.

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