Scanners usually include one or both of the parallel or USB port cables, but sometimes you have to purchase a cable separately at an added cost of anywhere from $12 to $30.. This might m
Trang 1The Common Contenders: Parallel and USB Connections
Most PCs and scanners today have two types of ports: parallel and USB Your scanner requires a compatible cable to connect to either of them Scanners usually include one
or both of the parallel or USB port cables, but sometimes you have to purchase a cable separately at an added cost of anywhere from $12 to $30
When comparing two closely priced scanners, make sure they both include a cable, and that it is compatible with your PC’s interface.
A parallel port is actually a printer port Most PCs have a single parallel port; a few PCs boast a second one Herein lies the downside of a parallel port: it’s the port you usually use to connect your printer This might mean that if you have only one parallel port, every time you want to use your scanner you need to disconnect your printer and restart the computer Fortunately, most recent parallel port scanners allow you to connect your printer to your scanner, which is then directly connected to your
PC This way, you can use them both at the same time
On the other hand, if you have a USB connection, you don’t have to keep shutting down your computer to disconnect and reconnect your printer You might even plug in and unplug the USB device without having to restart your computer
Many scanners, such as those manufactured by Visioneer, include both a parallel and a USB cable.
Most newer computers and scanners have USB ports, and the scanners come with USB cables A new, faster USB cable—USB 2.0—has recently made its market debut
This new generation of USB cable offers faster data transfer speeds, and connects to existing USB ports Scanner manufacturers currently including USB cables are expected to switch to this second-generation cabling
All things being equal, opt for USB 2.0 cabling over standard USB if it’s available for your scanner.
SCSI Connections
High-end scanners might offer another type of connection called a SCSI, which stands for Small Computer System Interface SCSI connections offer faster and more reliable data transfer Usually only high-end high-resolution professional-caliber scanners offer SCSI connections (for example, the Kodak Professional RFS 3600)
3
Trang 2With a SCSI interface, you can connect several peripheral devices using only one
PC port and “host adapter” device, as shown in Figure 3-2 You don’t need to purchase
a separate hub to connect multiple devices, as you do with a USB port The SCSI components are carefully designed so performance is not compromised for any of the devices in the “daisy chain.”
FIGURE 3-2 SCSI interfaces allow devices to be connected to
each other using one PC port.
The Furor over FireWire
FireWire is a brand of connection interface and cabling introduced by Apple Computers
to compete with the very popular USB ports and cables—and compete it does There is
no question that FireWire technology dramatically increases transmission speeds—as much as 400 million bits per second
Zip drive
CD-RW drive
Printer Tape storage
SCSI host adapter scanner
Trang 3As far as scanners go, FireWire might be overkill It’s really designed for devices that need fast, real-time data transmission, such as video from video cameras You don’t need anything approaching this speed for a scanner, mouse, or joystick, all of which are considered low-speed peripherals
While you might want to spring for a FireWire port (also known as an IEEE 1394 port) on a new PC so you can accommodate high-speed data transfer from devices that require it, paying extra for a scanner with this type of connection is probably not a good idea Scanners simply do not require high-speed data transfer.
Be Realistic about the Kind of Resolution You Need
Resolution is the main reason one scanner costs more than another The marketplace views resolution as the ultimate determining factor of a scanner’s quality
While you should note more of a scanner’s resolution statistics when you go shopping, resolution capability is indeed a good a place to start
Chapter 2 tells you all about the nuances of resolution This section provides you with just enough information to do some informed comparison-shopping
As you might recall from Chapter 2, a scanner’s resolution is usually measured and disclosed on the outside of the box in terms of dpi, or dots per inch (Pixels per inch and samples per inch are also valid measurements, which for the moment, we’ll equate with dpi.)
Scanners range in resolution capability from 100 to 4,000 dpi A resolution capa-bility for 400×600 is pretty good for most hobbyists and general business purposes
Professional scanners usually have a resolution of about 1,200 to 2,400 dpi This is the resolution you’ll require if you’re doing a lot of work with negatives or other transparencies
What the Resolution Numbers Mean in a Scanner Description
Generally, you’ll see resolution expressed as two numbers, for example, 800×600 or 1024×768 The first number reflects the number of dots per horizontal inch, and the second number reflects the vertical measurement It’s that second number you want to look at because it’s a more valid measurement of the ppi you’re actually capturing
3
Trang 4The number for vertical resolution is lower than for horizontal resolution because the scanning devices must travel across each line and than down to the next line The more sophisticated the sensor device, the smaller the distance between lines
You Can Skip the Interpolated Resolution Specs
As you learned in Chapter 2, manufacturers provide information about both optical resolution and interpolated resolution You want to be sure, as you comparison-shop,
to consistently look for the optical resolution Optical resolution, in a nutshell, tells you how much data the scanner’s sensors are actually capturing and recording Inter-polated resolution is a software-enhanced version of your image, where the scanner’s software adds extra pixels to the ones its sensor has captured The added pixels are a product of guesswork, and don’t add more detail to the image
Pay Only for the Resolution You Really Need
How much resolution is enough? The answer depends on what you’re going to be doing with your scanner If you’re going to being doing a lot of work with negatives and graphic layouts for magazines, you’re going to need relatively high-resolution capabilities
If you’re strictly an email photo buff, your resolution requirements are quite low
In fact, high resolution can be disadvantageous on the Web Increased resolution increases the size of the files that must travel over the Internet This can slow the transfer considerably
Make sure to consider the capability of your output devices—the printer and monitor—as you consider paying more for higher resolution.
Another downside to higher-resolution scanners is that they cost more The added expense might or might not be worthwhile Consider, for example, the capabilities of your printer Take into account that you want to scan at a somewhat higher resolution than your printer can actually print—more information is better—but you don’t want
to go for overkill Scanning at too high a resolution can cause your printer to behave oddly When you scan at dramatically different resolutions, you can tax the conversion feature of your printer’s software Scanning at 2,400 dpi on a 600-dpi printer isn’t going to give you a better final product than scanning at 800 to 1,200 dpi The added resolution is simply a waste of money
Trang 5Scanning at higher-than-necessary resolutions wastes time and storage space The higher the resolution, the more pixels your scanner must read and store The resulting image file also takes up extra space on your computer and can take ages to email.
Match the Resolution to What You Actually Do
When shopping for a scanner with the adequate resolution capabilities for your par-ticular needs, the goal is to pay for what you need—and then some It’s always a good idea to store a little more information than can be displayed on your output device, without going overboard and creating huge files that don’t noticeably improve appearance
To assist you on your shopping trip, the following table summarizes the resolution requirements for the various uses you might want your scanner for:
Your Use Minimum dpi Recommended dpi
How Resolution and Hard-Drive Space Affect Each Other
Storing your scanned images can require a lot of hard-drive space When you scan photos, you create image files on your hard disk drive The requirements of the image file increase with the size of the photo or the amount of resolution For example, if you scan a 5×7-inch photo with a 600×1200 scanner, you might need as much as 72 megabytes of free disk space If your storage space is limited, you might want to reconsider paying for a scanner that offers you the capability to scan at very high resolutions Your output devices might not display all of the added resolution, and
3