RFID stands for 'Radio Frequency Identification'. It involves the utilization of an object normally made of plastic or metal to identify an object in a similar way to bar codes identify items. In fact, they are used in a very similar way to bar codes and, at least for the foreseeable future, are usually used in conjunction with bar codes.
However, RFID tags are a great deal more adaptable than a piece of paper with a few black stripes on it. RFID tags can be and are being sewn into clothing and inserted under the skins of animals and humans for ease of tracking. Many of the items you buy in supermarkets these days have RFID tags concealed in them, but do not try looking for them because they can be tiny. They could also be under the labels of those tins of beans on your shelf.
An RFID tag is deployed to be able to follow an item from manufacturer to consumer, but particularly when it is in the storehouse or supermarket waiting to be sold. A tag reader will be able to relay the tag's information back to a computer to warn management that something is near its sell-by-date, for instance.
Tags in cattle allow the abattoir to be able to trace the animal back to a farm and pass this information on to the butcher. An RFID tag under your dog's skin or your car's bonnet will allow it to be found if lost or stolen.
There are basically two types of RFID tags: the passive sort and the active kind and there is a hybrid as well. The passive tag is similar to a bar code. It carries the same information and then more besides. Like a bar code, it can do nothing on its own, but when it is read it will disclose its data. These tag readers give the tag sufficient power to be able to reflect the information back to it.
The active tags have a battery and a transmitter constructed into them, so that they can actively transmit the data all the time and the hybrids will only transmit when 'switched on' by a tag reader.
There is still some disagreement about how far away a tag reader can read a tag. In the case of a passive tag, it depends on the power that the reader can supply over a long distance. Most are designed to work over only a few inches or feet, but more high-capacity ones could be built. Active and hybrid tags actively broadcast, so they can be read from 100 metres (300 feet) or more.
These tags have been around for a very long time in one form or another, but certainly since the Second World War, when they were used to identify home-coming British planes to save them from the RADAR-directed anti-aircraft guns.
The concern as far as many organizations are concerned, is that technology has progressed so much that the tags can be practically invisible and the readers could be anywhere, which evokes concerns for personal privacy.
However, RFID tags are a great deal more adaptable than a piece of paper with a few black stripes on it. RFID tags can be and are being sewn into clothing and inserted under the skins of animals and humans for ease of tracking. Many of the items you buy in supermarkets these days have RFID tags concealed in them, but do not try looking for them because they can be tiny. They could also be under the labels of those tins of beans on your shelf.
An RFID tag is deployed to be able to follow an item from manufacturer to consumer, but particularly when it is in the storehouse or supermarket waiting to be sold. A tag reader will be able to relay the tag's information back to a computer to warn management that something is near its sell-by-date, for instance.
Tags in cattle allow the abattoir to be able to trace the animal back to a farm and pass this information on to the butcher. An RFID tag under your dog's skin or your car's bonnet will allow it to be found if lost or stolen.
There are basically two types of RFID tags: the passive sort and the active kind and there is a hybrid as well. The passive tag is similar to a bar code. It carries the same information and then more besides. Like a bar code, it can do nothing on its own, but when it is read it will disclose its data. These tag readers give the tag sufficient power to be able to reflect the information back to it.
The active tags have a battery and a transmitter constructed into them, so that they can actively transmit the data all the time and the hybrids will only transmit when 'switched on' by a tag reader.
There is still some disagreement about how far away a tag reader can read a tag. In the case of a passive tag, it depends on the power that the reader can supply over a long distance. Most are designed to work over only a few inches or feet, but more high-capacity ones could be built. Active and hybrid tags actively broadcast, so they can be read from 100 metres (300 feet) or more.
These tags have been around for a very long time in one form or another, but certainly since the Second World War, when they were used to identify home-coming British planes to save them from the RADAR-directed anti-aircraft guns.
The concern as far as many organizations are concerned, is that technology has progressed so much that the tags can be practically invisible and the readers could be anywhere, which evokes concerns for personal privacy.
About the Author:
Owen Jones, the author of this article writes on quite a few topics, but is now concerned with the best RFID printer. If you would like to know more, please go to our website at Active RFID Management.
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