Friday, August 3, 2018

What You Need To Know About Magnet Card Readers

Magnetic stripe readers or magnetic card readers are devices used in interpreting data found on the magnet stripe of a debit, credit or any other payment card that you might be using. The reader works by using magnets to scan code from different cards. To use the card reader you have to slide it through the slot. You can also hold the card near the reader.

There are many benefits that come with having the readers in your business. One of the benefits is that they save you time and effort. In the absence of the devices, you would have to manually put data into your computer but with the readers, in place you have to only slide the card into the reader and you are good to go. The card reader also increases efficiency as you are able to finish recording the financial information fast and continue working.

Types of magnetic readers

There are many types of these card readers that are ideal for different uses. There are those that are ideal for use in retail stores, restaurants, and other vending areas. These aid in processing debit, credit, and gift card payments. There are others that are effective in reading smartcards. These read information in both the smart chip and magnetic stripe. Regardless of the reader that you buy you should ensure that it's of high quality.

Factors to consider when buying a magnetic reader

For you to buy the right unit you need to consider a number of factors that include:

Readability: The units are designed for high or standard volume use. The high volume readers come equipped with components that allow them to live for a long time. They are known for their longer reading channel which ensures that they are able to scan the details in a card on the first pass. In most cases, they are made from metal. Due to these features, they are usually expensive to purchase. The standard volume readers, on the other hand, are not of high quality like the high volume readers. Due to this, they often require an additional pass for them to read your card.

Interface: The readers have three main interface options: serial, USB, and PS/2 keyboard wedge. USB and PS/2 interfaces send information back to the computer as if it was typed on the keyboard. Card readers connected using serial interfaces often require special software in order to interpret data.

6 Top Areas of 3D Scanning Benefits



3D scanning process has proved to be very beneficial in capturing the exact measurements and shape of any given object. It is a technology that has eased production processes in all fields and more people are now embracing the benefits of this sought of scanning where total accuracy of details on an object is needed. It is a process that has actually reduced manufacturing costs and yet offers higher quality parts in the end. Below are some of the top areas the 3D scanning benefits.

1. Prototype

This process can be applied to prototype phase in different kinds of ways, but the major use is to reduce design cycles needed in the prototyping. When 3D scans are used in designing a part, the accurate data makes it possible to utilize precise measurements of the physical product reducing the process by a huge percentage. The scanning is also combined with prototyping so that physical objects are scaled accurately.

2. Design

It is among the areas that have greatly benefited from 3D scanning. They scans are applied starting with physical object and then using this to create a CAD model. Mating parts are also scanned and then incorporated into a given design so the end result is better fitting parts that are consistent. This process is known as reverse engineering or modeling and when utilized, new designs are improved and incorporated for engineering optimization of manufactured part.

3. Production

In production, the scanning is used to capture tooling or parts changes which occur in the production phase. Usually hand tuning is needed in tooling to get the desired finish and look of a given part. When 3D comes into the picture, the optimizations and hand modifications are easy to transfer from tool to tool so all parts manufactured match after the production ends. The scans also help in analyzing and characterizing tool wear during the production; this is very helpful in correcting tool failure or eliminating the same before it is too late. It is actually very possible to recreate optimized part using a 3D scan.

4. Engineering

3D scan data makes it possible for physical objects to be translated into the engineering phase of projects directly. The data offer flexibility in performing FEA, CAE, CFD and other analysis that is necessary in the engineering area on objects manufactured and physically modified. The process offers a simple way of achieving accuracy.

5. Quality control

Using 3D scanning, it has become possible to analyze built condition of parts after manufacturing. This non-contact technology offers a quick way of inspecting overalls size and shape of the parts and detecting issues that could affect performance of the parts. When combined with statistical analysis software, 3D scanning helps maintain and predict the quality of parts in the manufacturing phase.

6. Distribution

It might sound unrealistic, but 3D scanning comes handy in vision systems used in distribution and shipping centers to sort and track packages. The scanning certifies the integrity of products before and after shipping. It is also used to increase packing density and creating support structures and casing.




Lidar scanning systems are some of the systems used in 3D scans to create offer precise digital copies of props, cars, aircraft and even buildings. There is just so much that can be enjoyed using the systems.