Understanding How RFID Works Without Power: A Simple Guide
So in this post, we’ll be explaining how RFID works, and why it can function without a power source.
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Understanding How RFID Works Without Power
One of the most interesting things about RFID technology is how it can work without power. When you use your credit card to pay for something, you simply hold it against a reader and it “just works”.
But there’s no battery in your credit card and you’re certainly not powering it with any kind of electricity, so how does it work? How does the microchip in your card power on, and how does it transfer data to the reader?
How Do RFID Tags Get Power?
RFID uses something known as electromagnetic induction. When an RFID reader is turned on, it emits radio waves that create an electromagnetic field around it. When an RFID tag comes in contact with this field, its antenna picks up on the radio waves, creating a small electrical current that powers the microchip in the tag. This allows it to briefly switch on and transmit stored information back to the reader.
In other words, you can think of the RFID reader as a kind of wireless power source. When it’s turned on and is actively scanning for RFID tags, it creates a field of energy that is harvested by the RFID tag to power itself.
Types of RFID Tags
There are actually several different types of RFID tags, each with their own use cases and technologies.
● Passive RFID Tags are common and do not have an internal power source. They rely on the energy from an RFID reader to operate. They’re cost-effective, lightweight, and last a very long time compared to other forms of RFID tags. They’re commonly used for inventory management, asset tracking, payment cards, and access control due to how simple and affordable they are.
● Active RFID Tags have their own power source. They usually have a battery that enables them to transmit signals over longer distances. This allows them to send data over greater distances, and they can also store and transfer more data than passive RFID tags. This makes them suitable for monitoring a fleet of vehicles, high-value assets, or large-scale logistics operations.
● Semi-Passive RFID Tags combine aspects of both passive and active RFID tags. They rely on the RFID reader’s radio waves for power but can use a small battery to boost their signal strength and functionality. They’re often used for temperature monitoring and similar sensors.
Components of an RFID System
An RFID system has several key components that work together.
● RFID Tags contain a microchip and antenna to store and transmit data. They typically don’t require a power source, but battery-powered active and semi-passive RFID tags do exist as well.
● RFID Readers emit radio waves to power RFID tags and also capture data. This is possible thanks to antennas on the RFID tags which facilitate the transmission of radio waves between the tags and readers.
● RFID Software is used to manage and process data collected from RFID systems. This can include backend systems and databases to store and analyze RFID data for various different purposes and insights.
What Are the Use Cases for RFID Tags Without Power?
RFID tags are used in many different industries. The most common use of these tags is in our credit cards and other similar plastic cards that we can use to purchase goods or pass security checks. However, there are many other uses of RFID technology, such as:
• Inventory Management: RFID tags can be placed on products for real-time tracking and inventory management purposes. The RFID tags can be read by scanners, entering the product into a system to automatically deduct it from stock. The same code can be assigned to customers and orders for a completely automated and tracked inventory management system, making RFID for inventory management an efficient solution.
● Access Control: RFID tags are frequently used for access control purposes. They can be found in access cards and security keys and used to grant access to secure areas or to open lockers and drawers. These systems can also log access to certain areas. A system can keep track of what RFID tag is used and when to create a complete security log which can be used to enhance security.
● Asset Tracking: The logistics industry makes heavy use of RFID tags to monitor the movement of various assets. Some companies keep track of containers and vehicles, while others use RFID tags to examine the movement of equipment and products. This allows someone to see exactly where their assets are, but it’s not a constant update like a GPS tracker. Instead, you’ll be able to see where the assets have checked in, like a certain vehicle or fulfilment center.
● Retail Checkout: RFID-enabled products can also be used for faster checkout processes in a retail store. These items can be scanned with RFID readers, expediting the process and reducing queue times. This leads to a much faster and more efficient shopping process for customers.
In short, RFID technology is used in a large variety of industries. It’s a fantastic piece of technology that has many practical uses, and it’s cost-effective to use as well considering the RFID tags don’t require a power source.
Conclusion
To conclude, RFID tags technically don’t work without power. The reason they don’t require a power source is because RFID readers provide the power thanks to electromagnetic induction. The readers produce a source of power which is picked up by the RFID tags to give them power. This brief amount of power is enough to send the data to the reader, thus completing the transfer. FactorySense empowers industries with its advanced technological solutions.
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