Scanner Driver 4100c
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If you do not share my prejudices about the Reprehensible Decline of Form Following Function, you'll probably quite like the look of the ScanJet 4100C, HP's current lowest cost flatbed model. The curved front makes it easy to lift the lid, the buttons are readily accessible, and nothing else has been mucked about with. I've got no idea why they decided to make the scanner bed slope towards the front, but this doesn't matter unless you're scanning marbles or something. You can always jack the front up with a magazine, anyway.
The HP scanner's primary claim to fame is that it's one of the first scanners to use the Universal Serial Bus (USB) interface. Pretty much every PC made in the last year or so has USB ports, but most of them are currently sitting there empty, which is a shame because USB is a really elegant, simple way to connect large numbers of low to medium speed peripherals like modems and mouses and cameras and scanners.
Most low-end scanners, like for example the bargain basement Avision 260C, reviewed here, are parallel port devices. They usually have a passthrough port for a printer, and work passably well. But they're not terribly fast, and tend to paralyse the computer while they do their thing. More expensive models use the Small Computer Systems Interface (SCSI) protocol, which is very fast but requires a SCSI interface card for the PC. USB is a very handy innovation. If your computer lacks USB ports, you can get an expansion card with a couple of ports on it for $100 (Australian dollars) or less.
Ideally, USB is supposed to be completely plug-and-play; you connect a new device, the computer maybe finds the driver software itself but probably asks for the disc that came with the new gadget, the driver's automatically installed, and you're off. No need to turn the computer off to connect or disconnect the device, no need to have the device on when the computer's turned on, no muss, no fuss.
The 4100C's implementation of the system is nearly as good. You need to run the driver installation software before you plug the scanner in. Once you've done that, it just works. Presto.
Those two cute buttons have a function. This is HP's entry level home scanner, and the strong emphasis in hardware and software is simplicity. With most scanners, you have to put what you want on the scan bed, then run a paint program or something else that can take scanner input, then use the Acquire option in the File menu to access the scanner'sTWAIN driver (which you previously have to install with the other scanner software, then manually select in the programs you want to use it), then set the resolution you want to scan at, then do a pre-scan, then draw a box around the thing you want to scan, and maybe tweak the brightness or gamma, then do the scan.
With the HP, you stick the thing you want to scan in the scanner, then hit the scan button. The PrecisionScan LT driver software runs, automatically pre-scans, automatically highlights the object on the scan bed, automatically figures out what it's looking at (photo, line art or text), automatically chooses an appropriate colour mode and resolution, and asks you where you want to send the scan - to one of a list of programs or to a file. You can send your scan to an image editor, a fax program, or a word processor. If you choose a text handling program, PrecisionScan automatically applies Optical Character Recognition (OCR) to the image and outputs text.
If you hit the print button on the 4100C, the scanner pretends to be a photocopier - it scans automatically and sends the output straight to your printer, which of course makes it a colour copier, if you've got a colour printer.
In common with many low cost scanners, the HP'soptical resolution is 300dpi and itsmechanical resolution is 600dpi. This is more than adequate for home, business and indeed most professional use. It has 36 bit colour, and comes with Adobe's PhotoDeluxe - essentially a cut-down, simplified, automated version of PhotoShop - and Caere's excellent OCR software, a cut above the superannuated packages included with bargain scanners, is built into PrecisionScan LT.
The HP's scan speed is ordinary - it took one minute and 20 seconds for a full bed scan at 300dpi, against less than a minute for the budget parallel port Avision 260C, which has the same size bed. But because of the 4100C's USB interface, doing scans doesn't stop you from doing other things with the computer; parallel scanners force you to sit and wait as they scan. The HP scanner always does a ten second lamp warmup before its pre-scan, so pre-scans are also slower - about 40 seconds, versus a mere 12 for the cheaper Avision. The extra 20 seconds or so is because PrecisionScan pre-scans at 150dpi, a much higher resolution than most scanner drivers use, in order to do its clever image analysis tricks. If you just want to knock out a load of scans, this is a pain.
If PrecisionScan gets it wrong, you can change the basic settings - but if you do a lot of scans that the software can't figure out properly, you'll grow to hate it. Custom resolution and colour settings are remembered for each PrecisionScan session, but when you close the scan driver it forgets the custom settings and picks automatically again the next time you press the scan button. It is impossible to change settings before you do a pre-scan, only after it's done it and decided on some automatic settings. It is also impossible to just stick a document in and scan it without a pre-scan. And if you're in a hurry and put a small item at the top of the scan bed, then allow the pre-scan to proceed until you see all of the thing you want to scan, then abort the pre-scan, PrecisionScan erases the partial pre-scan image. Nice one.
On the plus side, that slow, high resolution pre-scan gives the scanner software a ready-made 150dpi scan of the bed, which it can pump straight out without rescanning if the already-acquired data is good enough for what it needs to do. So you have to put up with a slow prescan, but the actual scan time is often zero!
If you're looking for a click-and-go scanner with excellent image quality and good bundled software, the HP ScanJet 4100C is well worth the extra cost - it sells for around $550 (Australian dollars). If you already know how to use scanner software, though, and commonly need to do unusual jobs, the simplified driver will annoy you immensely. A scanner that costs half as much will give much the same output quality, provided you can can put up with a parallel port interface.
All of my complaints about this scanner would go away if only PrecisionScan LT offered an "advanced" mode that worked like every other ordinary scanner driver on the planet. But since it doesn't, and since there does not appear to be an alternative driver available, the ScanJet 4100C remains a scanner for the masses, not the pros. For the money it's decent, but not fabulous, value.
Interpolation: Every cheapo scanner in the world has some preposterously high resolution figure on its brochure, which tells you the maximum image resolution you can dial up in the scanner driver software. The actual maximum resolution of the scanner is determined by its optical and mechanical resolution, but the software can duplicate pixels to give the impression of much higher resolution.
36 bit: Most cheap colour scanners are 24 bit; they digitise each of the red, green and blue channels with eight bit resolution, making a total of 24 bits per output pixel. 36 bit scanners add another four bits of resolution to each channel, increasing the number of distinct colours they can output from 16777216 (two to the power of 24) to 68719476736 (two to the power of 36). This 4096-fold increase is invisible to the naked eye, but it means the scanner can use only a portion of the colours it detects and still maintain full detail. If, for instance, you push up the brightness of the scan in the driver software by 20%, the top 20% of pixel values will all run "off the top" of the permissible output values, and become pure white. A 24 bit scanner, in this situation, has to stretch the remaining 80% of pixel values into a complete 24 bit gamut, reducing image quality, but a scanner with 36 bit resolution has values to spare.
TWAIN driver: TWAIN stands for Technology (or Toolkit) Without An Interesting Name. No, really, it does. Who says programmers have no sense of humour? Anyway, a TWAIN driver is a piece of software that a paint or optical character recognition or other graphic-related program can call upon to deliver an image. The image may come from a scanner or a digital camera or anything else; the driver talks to the hardware and provides the user with its own interface, then delivers the final picture to the invoking program.
If you're using Windows and you've installed a HP driver, VueScan's built-in drivers won't conflict with this. If you haven't installed a Windows driver for this scanner, VueScan will automatically install a driver.
If the driver listed is not the right version or operating system, search our driver archive for the correct version. Enter HP Scanjet 4100c Scanner into the search box above and then submit. In the results, choose the best match for your PC and operating system.
Once you have downloaded your new driver, you'll need to install it. In Windows, use a built-in utility called Device Manager, which allows you to see all of the devices recognized by your system, and the drivers associated with them.
DriverGuide maintains an extensive archive of Windows drivers available for free download. We employ a team from around the world which adds hundreds of new drivers to our site every day. How to Install Drivers Once you download your new driver, then you need to install it. To install a driver in Windows, you will need to use a built-in utility called Device Manager. It allows you to see all of the devices recognized by your system, and the drivers associated with them. 2b1af7f3a8