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[I303]Inkjet And Laser Printers

by Id Integration, Id

Inkjet part marking is a type of direct product marking (DPM) technologies. Direct part marking is a 2-dimensional barcode which gives lifetime traceability for components. These codes might look very small but it contains all the vital information about a product. As the codes are machine readable, any possible human error is removed. Even though so many direct part marking methods available, the inkjet part marking technique is largely used in the aerospace, electronics, automotive, lumber, home building products, food, medical and packaging industries. As compared to some other means of park marking, inkjet part marking provides better resistant for long duration. This marking produces the best quality marks possible on most building products.

For better part traceability; permanent standard barcodes, serial numbers and 2D barcode of any specific product is imprinted by the high quality inkjet part marking technique. The ink used in this of part marking is of very high quality is durable to high temperatures, water and chemical solvents. The printing is suitable for any kind of surface be it plastics, metals or glass. This part marking technique is safe to use as the process does not penetrate on the surface of the material. Hence there is no chance of damage of the material.

However with the Industrial manufacturing requirements for indelible direct part marking containing machine vision codes are growing exponentially another advanced technology based technique, laser marking method is gaining popularity these days over the conventional inkjet part marking method.

Laser marking and its advantage

As per the UID compliance norms, the tracking of every defense related product starting from day of its manufacturing until its entire life is enabled by the direct part marking process. There are many factors which contribute to the use of direct part marking. They are highlighted as follows.

?The increasing requirements for component traceability and product unique identification (UID)

?The favorable economics of high-performance, lightweight engineering plastics parts replacing traditionally more expensive metal parts

?The indelible, high-resolution alphanumeric and machine vision codes which the direct part marking produces

The latest laser marking process is the digital process technology used for part marking. Laser marking is ideal for products especially 3D plastic products as the process yields high-contrast indelible markings and does not require consumables or curing, thus making it less expensive. This method of marking is also very useful for micro-marking when there is limited surface area on a product. Alphanumeric, logos, or schematic diagrams; all can be printed even in the smallest size machine vision codes. The inkjet part marking (those done with Non-indelible inkjet) can't achieve fine-line edge resolution, which is essential for machine vision, especially on small parts. As per the UID mandate, all items are required to be 100% human or machine readable irrespective of the size and complexity details of the actual marking. This is where laser marking has an advantage over the inkjet part marking.

Apart from the DoD military requirements, manufacturers of many commercial industrial products ranging from automotive, pharmaceutical, and packaging to electronic and consumer goods now aggressively into implementing this latest form of marking method.

Printers occupy one of those areas of computing in which figures are all important. Splashed over magazine ads for the latest inkjet printer you'll see things like "2,400dpi!" or "10ppm!".
Ultimately all you can judge a printer on is how fast it takes a page to appear and the quality of the printing when it does.

The technical side of printing fascinates some and bores others. Basically a printed page consists of tiny little dots which make up the image or letters that you see. In the case of an inkjet printer, these dots consist of coloured ink. In the case of a laser printer the dots are tiny particles of carbon which are sealed onto the paper by heat (ever wondered why your prints come out hot?).
The logic involved in printer advertisements is that if you can get more dots within a square inch then you can get more detail onto the page. The logic then dictates that more detail means more quality.

In the real world, a printer outputting at a mere 600 dots per inch may well produce better prints than one outputting 2,400 dots per inch (dpi). The reason is that there are many other elements at work, such as how accurately the software that controls the printer, known as a ?driver?, can manage the printer. You also have to consider the paper handling mechanism of printers, which works within fractions of an inch. And then there's the actual quality of ink or, in the case of a laser printer, the quality of the toner - poor quality ink lacks vibrant colours and won't react with the page in the correct manner, causing rough edges and long drying times. In the case of poor quality toner in a laser printers, the black areas won't be as dense.

If you want to purchase a printer then go along to your local PC shop and ask for a sample print. If the sales staff pull one out of a folder under the counter then be wary -- this will have been produced in ideal situations. They're not going to show you the 9 prints prior to that one which were rubbish. They'll also have printed onto top quality paper - laser printers can print on standard paper without qualms but inkjet printers print best on specially coated paper. Fair enough, you might think, but this paper is often highly expensive.

Ask to see the printers in action. Take along your own picture on a floppy disk and ask them to output it. By all means let them output it on the special paper but ask to see it printed on standard paper too, and see how well the printer copes - some printers will cope excellently whilst others will start to show serious weaknesses.

Also note how long the print takes to arrive in the output tray. Is it a matter of seconds or have you got time to make a cup of tea? How noisy are the printers whilst outputting? Is it whisper-like or more akin to busy traffic?

In the case of an inkjet printers, inspect the print that comes out. Look at how well the colours have been reproduced, and skin tones in particular. Watch out for the common problems of printing. The first is banding - visible lines on the print where the printer hasn't quite matched up one pass of the print head with the one lower down. Look out for ?dithering? too - sometimes the dots that make up the image are visible to the naked eye which can spoil the effect of a good print.

With a laser printers, inspect the denseness of the black. Is it really black or more of a dark charcoal grey? (The same rule applies for text outputted by an inkjet printer, by the way). Are the letters perfectly formed when you look closely or can you see the ?computerfication? - jagged edges on descenders, for example.

With both a laser printers and inkjet printers, examine the page per minute output figures - how long will you be waiting for 10 pages to drop into the output tray of the inkjet printer? Ask the shop assistant to send twenty pages of text to the printer and time it to see if the quoted figures match reality. They rarely will.

Consider the running costs. How much do replacement ink cartridges cost? Or, in the case of laser printers, how much do replacement toner cartridges cost? Also consider the cost of the ?drum? in a laser printer, which will be replaced infrequently but is nonetheless part of the total running cost.

Finally, On inexpensive printers this can be a serious issue. Be particularly diligent in examining laser printers because these often have to survive constant use in tough office environments.
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Both Id Integration & Sanjay Garg are contributors for EditorialToday. The above articles have been edited for relevancy and timeliness. All write-ups, reviews, tips and guides published by EditorialToday.com and its partners or affiliates are for informational purposes only. They should not be used for any legal or any other type of advice. We do not endorse any author, contributor, writer or article posted by our team.

Id Integration has sinced written about articles on various topics from The Internet, Information Technology and Tools and Resources. ID Integration offers a continually evolving 'best-in-class'list of hardware for marking, scanning, and verification. This list currently includes: syst. Id Integration's top article generates over 9900 views. to your Favourites.

Sanjay Garg has sinced written about articles on various topics from Information Technology, Computers and The Internet. The author is webmaster with vast experience in software & networking field. For printers visit kuber deals at