here is some Nokia Firmware files, for other phone type i will add immediately

RM-272_0551_3500c

RM-303_0581_5310

RM-337_0341_v1_6300i

N1650_RM-305_MCU_ALL_v411-v530

here is the download link for USB driver i-mobile, modem driver for i-mobile is also available here
USB Driver

i-mobile modem driver

Motorola is difficult mobile phone, when you are trying to replace the charger with non-original one, then the phone will tell you “Invalid Charger”. To avoid this case, this tutorial below is show you how to modification data cable which enable for both for charging or transferring data. So your Motorola data cable will more usefull not for flashing only.

Here is your data cable look alike.

1. Open it up and get all wires out

2. Remove the protection

3. Check out the pin scheme by clicking on the picture

4. Scratch the panel on the back and Solder 22Komh resistor end on pin 2 and the second on the scratched place (ground)

now you have modded your usb cable!

(originally taken from:modmymoto)

What follows is a short compendium of scams, grifts, cons, and general recommendations for the perpetration of blatant thievery, all centered around the exploitable playground that is the University. Yet this isn’t a guide just for college students. On the contrary, the majority of the tactics described herein are intended to be put at the disposal of anyone who sets foot on a university campus, particularly if it’s for the express purpose of defraudment. One doesn’t even have to be the exact ‘college’ age, as extended learning programs are becoming all the more common (though naturally blending in will be a touch more difficult). At any rate, certain credibility props such as a backpack can serve to relay the impression that you are indeed a student at the particular college you plan to hit.

Those expecting newsworthy swindles akin to those seen in movies or sensationalist news reports will likely be disappointed. The cons that follow aren’t grandiose grifts about how to scam free tuition or expropriate scholarship funds. Rather, these are practical, everyday techniques that you can use to score some free grub, get a little extra cash, or procure some free books to read. The methods transcend the colour spectrum of legality, varying from the perfectly above-board activities, to shady gray zones of pseudo-legit operations, all the way down to downright illegalities. Similarly, the cons center around the exploitation of the university system and anyone affiliated with it. Students, professors, and other human gears of the higher education system are thus all
implicated as well. As such, you may find that some of the following methodology may conflict with your delicate ethical palate. Fear not, the remedy is quite simple: f**k off. If you don’t agree with anything below, don’t do it, and don’t read it. Close your eyes and pretend it doesn’t exist. I’ve also tried to keep rants about my personal politricks to a minimum, but they inevitably ooze in through the cracks of my mental cogency, so once again, bear with me or glaze over it if you don’t agree with anything.

Finally, realize that I don’t f**king know you (nor do I want to), nor do I know your local
college. All of these techniques will probably not work at your local university, but some likely will. This guide is custom tailored to the university system at large, not to your specific school. Further, realize that scams are inherently malleable, they’re meant to be manipulated to suit your own environment; if you blindly follow what’s written below, you’ll get your comeuppance sooner or later.

After you have the concept of resampling under your belt, how do you know what size you should be resampling to? How many pixels do you need? Here are your general guidelines:
Photos for your inkjet printer:
Inkjet printers are stochastic printing devices: That is, they use a series of droplets to replicate each pixel in your image, as shown in Figure 2-12. In theory, the optimal image resolution is ƒ1?3 of the printer’s rated resolution.
For example, a printer rated at 720 ppi works best with images at 240 ppi.
1,440 ppi printer, the formula calls for an image resolution of 480 ppi (and that goes for the 2,880 x 1,440 printers, too). However, most folks find that regardless of the printer’s rating, they never need an image resolution higher than 300 ppi.
Web images: Ignore resolution. Ignore the entire Document Size area of the Image Size dialog box. Consider only the image’s pixel dimensions. Determine what area of the Web page the image will occupy and then resize to exactly those pixel dimensions.
Page layout programs and commercial printing: If your image is to be placed into a page layout program’s document and sent to a commercial printing facility, you need to know the line screen frequency (the resolution, so to speak) of the printing press on which the job will be run. Ask the print shop or the person handling the page layout. Your image resolution should be either exactly 1.5 times or exactly twice the line screen frequency. (You shouldn’t notice any difference in the final printed product with either resolution.)
PowerPoint presentations and word processing documents: Generally speaking, 72 ppi is appropriate for images that you place into a presentation or Word document. You should resize to the exact dimensions of the area on the page or slide that the image fills.

In this wonderful world of digital imaging, you see resolution used in four basic ways:
Image resolution: Image resolution is the size of your image’s individual pixels when you print. I go into greater detail about this concept in the upcoming section, “Picking an image resolution.”
Camera resolution: Digital cameras capture each image in a specific number of pixels. Check your camera’s user guide or open one of the images in Photoshop and choose Image? Image Size. Take a look at the number of pixels that your camera records for the width and for the height. Multiply the numbers together, divide by one million, and round off the result. (If you’re in the camera maker’s marketing department, make sure that you round up.) That’s the megapixel (MP) rating for the camera. Use it as a general guideline when shopping. If you create Web graphics or snapshot-size prints, 3 or 4 MP is fine. For large prints, you need at least 6 MP.
Monitor resolution: Monitor resolution determines how many pixels are visible on-screen. Whether you use a Mac or a PC, you set the monitor resolution at the system level (as shown in Figure 2-4). When you use a higher monitor resolution, you get a larger workspace, but each pixel is smaller, which might make some jobs tougher. Experiment to find a monitor resolution that works just right for you.
Mac: Click the blue Apple menu in the upper-left corner of the screen and choose System Preferences. Then click Displays. (Some Apple monitors have a button on the bezel that automatically opens the window for you.)
Windows: Choose Start?Control Panel and then double-click Display. Click the Settings tab to see what monitor resolutions are available.
Printer resolution: Unlike the three preceding terms, printer resolution doesn’t involve pixels. Rather, a printer resolution tells you how many tiny droplets of ink are sprayed on the paper. Remember that it takes several droplets to reproduce a single image pixel — you certainly don’t need an image resolution anywhere close to the printer’s resolution!
(See the following section for more on this.)