RFID AND DİGİTAL ID TECHNOLOGIES GLOSSARY

• Active RFID Transponder
A transponder which contains a battery or other electrical energy source that provides the energy needed to transmit information and receive data. 

RFID AND DİGİTAL ID TECHNOLOGIES GLOSSARY

Active RFID Transponder

A transponder which contains a battery or other electrical energy source that provides the energy needed to transmit information and receive data.

• Antenna
A conductive element that enables the transponder to send and receive data. Passive, low- (135 kHz) and high-frequency (13.56 MHz) transponders usually have a coiled antenna that couples with the coiled antenna of the reader to form a magnetic field. UHF transponder antennas can have many different shapes. Readers also have antennas which are used to emit radio waves. The electromagnetic energy from the reader antenna is “harvested” by the transponder and used to power the microchip, which then transmits back its own signals. 

Antenna

A conductive element that enables the transponder to send and receive data. Passive, low- (135 kHz) and high-frequency (13.56 MHz) transponders usually have a coiled antenna that couples with the coiled antenna of the reader to form a magnetic field. UHF transponder antennas can have many different shapes. Readers also have antennas which are used to emit radio waves. The electromagnetic energy from the reader antenna is “harvested” by the transponder and used to power the microchip, which then transmits back its own signals.

• Asset Tracking
Placing RFID transponders on or in high-value assets and returnable transport containers enables companies to gather data on their location quickly and with little or no manual intervention. Tagging assets allows companies to increase asset utilization, identify the last known user of assets, automate maintenance routines and reduce lost items. 

Asset Tracking

Placing RFID transponders on or in high-value assets and returnable transport containers enables companies to gather data on their location quickly and with little or no manual intervention. Tagging assets allows companies to increase asset utilization, identify the last known user of assets, automate maintenance routines and reduce lost items.

• Authentication
The verification of the identity of an object or a person. RFID and NFC technology can be utilized to authenticate products as a way of reducing counterfeiting.
 

Authentication

The verification of the identity of an object or a person. RFID and NFC technology can be utilized to authenticate products as a way of reducing counterfeiting.

• Circular-polarized antenna
A UHF reader antenna that emits radio waves in a circular pattern. These antennas are used in situations where the orientation of the transponder to the reader varies. Since the waves are moving in a circular pattern, they have a better chance of hitting the antenna. 

Circular-polarized antenna

A UHF reader antenna that emits radio waves in a circular pattern. These antennas are used in situations where the orientation of the transponder to the reader varies. Since the waves are moving in a circular pattern, they have a better chance of hitting the antenna.

• Cold Chain
A temperature-controlled supply chain for temperature-sensitive goods such as certain pharmaceuticals, chemicals and food items. The goods in the cold chain must maintain a given temperature range to prevent spoilage. Temperature tolerances vary, depending on the actual items being shipped. 

Cold Chain

A temperature-controlled supply chain for temperature-sensitive goods such as certain pharmaceuticals, chemicals and food items. The goods in the cold chain must maintain a given temperature range to prevent spoilage. Temperature tolerances vary, depending on the actual items being shipped.

• Digital ID
The digital representation of an item, including the item’s unique code (the digital Identifier), but also the complete log of events and attributes that are associated with the physical item. 

Digital ID

The digital representation of an item, including the item’s unique code (the digital Identifier), but also the complete log of events and attributes that are associated with the physical item.

• Dipole Antenna
In radio and telecommunications, a dipole antenna is the most widely used antenna. A dipole antenna commonly consists of two identical conductive elements. In an RFID transponder, these two are connected to a microchip. 

Dipole Antenna

In radio and telecommunications, a dipole antenna is the most widely used antenna. A dipole antenna commonly consists of two identical conductive elements. In an RFID transponder, these two are connected to a microchip.

• Encryption
The scrambling of data in such a way that it can be unscrambled and read only by those for whom it is intended. In RFID systems, encryption is used to protect information stored on a transponder’s microchip or to prevent the interception of communications between the tag and reader. 

Encryption

The scrambling of data in such a way that it can be unscrambled and read only by those for whom it is intended. In RFID systems, encryption is used to protect information stored on a transponder’s microchip or to prevent the interception of communications between the tag and reader.

• European Telecommunications Standards Institute (ETSI)
An independent, non-profit organization, whose mission is to produce telecommunications standards for Europe. Based in Sophia Antipolis, France, ETSI is officially responsible for standardization of Information and Communication Technologies, including telecommunications, broadcasting and related areas, such as intelligent transportation, medical electronics and RFID. 

European Telecommunications Standards Institute (ETSI)

An independent, non-profit organization, whose mission is to produce telecommunications standards for Europe. Based in Sophia Antipolis, France, ETSI is officially responsible for standardization of Information and Communication Technologies, including telecommunications, broadcasting and related areas, such as intelligent transportation, medical electronics and RFID.

• Etching
The scrambling of data in such a way that it can be unscrambled and read only by those for whom it is intended. In RFID systems, encryption is used to protect information stored on a transponder’s microchip or to prevent the interception of communications between the tag and reader. 

Etching

The scrambling of data in such a way that it can be unscrambled and read only by those for whom it is intended. In RFID systems, encryption is used to protect information stored on a transponder’s microchip or to prevent the interception of communications between the tag and reader.

• Federal Communications Commission (FCC)
The Federal Communications Commission regulates interstate and international communications by radio, television, wire, satellite, and cable in all 50 states, the District of Columbia and U.S. territories. An independent U.S. government agency overseen by Congress, the Commission is the federal agency responsible for implementing and enforcing America’s communications law and regulations. 

Federal Communications Commission (FCC)

The Federal Communications Commission regulates interstate and international communications by radio, television, wire, satellite, and cable in all 50 states, the District of Columbia and U.S. territories. An independent U.S. government agency overseen by Congress, the Commission is the federal agency responsible for implementing and enforcing America’s communications law and regulations.

• Fixed Reader
An RFID interrogator mounted to a wall, doorway, gate, table, shelf or other permanent or non-mobile structure, enabling IT systems to read the unique ID numbers and other content of RFID transponders. 

Fixed Reader

An RFID interrogator mounted to a wall, doorway, gate, table, shelf or other permanent or non-mobile structure, enabling IT systems to read the unique ID numbers and other content of RFID transponders.

• Free Space
A term used to describe the reading distance performance of an RFID tag that is not attached to anything. 

Free Space

A term used to describe the reading distance performance of an RFID tag that is not attached to anything.

• Frequency
The number of repetitions of a complete wave within one second. 1 Hz equals one complete waveform in one second. 1kHz equals 1,000 waves in a second. RFID tags typically use low, high or ultra-high frequencies. Each frequency has advantages and disadvantages that make it more suitable for some applications than for others. 

Frequency

The number of repetitions of a complete wave within one second. 1 Hz equals one complete waveform in one second. 1kHz equals 1,000 waves in a second. RFID tags typically use low, high or ultra-high frequencies. Each frequency has advantages and disadvantages that make it more suitable for some applications than for others.

• High Frequency
The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range. 

High Frequency

The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range.

• Inductive coupling
In an RFID system using inductive coupling, the reader antenna and the transponder antenna each have a coil that together creates a magnetic field. The transponder draws energy from the field. The microchip uses this energy to change the electrical charge in the transponder antenna. These changes are received by the reader antenna and converted into a data stream containing the unique serial number of the transponder. 

Inductive coupling

The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range.

• Inlay
An RFID microchip attached to an antenna and mounted on a substrate. Inlays are essentially unfinished RFID labels. They are usually sold to label converters who turn them into smart labels. They are also sometimes called inlets 

Inlay

An RFID microchip attached to an antenna and mounted on a substrate. Inlays are essentially unfinished RFID labels. They are usually sold to label converters who turn them into smart labels. They are also sometimes called inlets.

• Internet of Things
The Internet of Things is the network of physical devices, vehicles, buildings and other items embedded with electronics, software, sensors, actuators or passive RFID tags and network connectivity that enable these objects to collect and exchange data. 

Internet of Things

The Internet of Things is the network of physical devices, vehicles, buildings and other items embedded with electronics, software, sensors, actuators or passive RFID tags and network connectivity that enable these objects to collect and exchange data.

• ISO 14443 a/b
The international industry standard for RFID transponders that operate (i.e., can be read or written to) at a distance of less than 10 centimeters (4 inches) (applicable for short-range transponders). 

ISO 14443 a/b

The international industry standard for RFID transponders that operate (i.e., can be read or written to) at a distance of less than 10 centimeters (4 inches) (applicable for short-range transponders).

• ISO 15693
This standard applies to long-range transponders which offer a maximum read distance of 1 to 1.5 meters. 

ISO 15693

This standard applies to long-range transponders which offer a maximum read distance of 1 to 1.5 meters.

• Label
Form factor of RFID technology used for inventory tracking and supply-chain management. For example, large suppliers attach labels including an RFID chip and an antenna to their products in order to enable retailers to manage their complex supply chains in real time. 

Label

Form factor of RFID technology used for inventory tracking and supply-chain management. For example, large suppliers attach labels including an RFID chip and an antenna to their products in order to enable retailers to manage their complex supply chains in real time.

• Linear-polarized Antenna
An antenna that transmits the radio waves from the reader in one orientation or polarity. This increases the read distance possible and can provide greater penetration through dense materials. Transponders designed to be used with a linear-polarized reader antenna must be directionally aligned with the reader antenna to be read. (See also circular-polarized antenna.) 

Linear-polarized Antenna

An antenna that transmits the radio waves from the reader in one orientation or polarity. This increases the read distance possible and can provide greater penetration through dense materials. Transponders designed to be used with a linear-polarized reader antenna must be directionally aligned with the reader antenna to be read. (See also circular-polarized antenna.)

• Low Frequency
The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range. 

Low Frequency

The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range.

• Memory Chip
Integrated circuit used as a data storage device. 

Memory Chip

Integrated circuit used as a data storage device.

• Microcontroller Chip
Integrated circuit that includes a microcontroller, i.e. a highly integrated computer chip that contains all the components comprising a controller. Since they can include sophisticated encryption functions and permit advanced data manipulation, microcontroller chips are often used in applications where data security and integrity are essential. 

Microcontroller Chip

Integrated circuit that includes a microcontroller, i.e. a highly integrated computer chip that contains all the components comprising a controller. Since they can include sophisticated encryption functions and permit advanced data manipulation, microcontroller chips are often used in applications where data security and integrity are essential.

• Middleware
This term is generally used to refer to software that resides on a server between RFID readers and IT systems. The middleware is used to filter data and pass on only useful information to enterprise applications. Some middleware can also be used to remotely control and manage reader devices on a network. 

Middleware

This term is generally used to refer to software that resides on a server between RFID readers and IT systems. The middleware is used to filter data and pass on only useful information to enterprise applications. Some middleware can also be used to remotely control and manage reader devices on a network.

• Mobile Reader
An RFID interrogator that can be carried or transported on a person, vehicle or apparatus, enabling IT systems to read the unique ID numbers and other content of RFID transponders. 

Mobile Reader

An RFID interrogator that can be carried or transported on a person, vehicle or apparatus, enabling IT systems to read the unique ID numbers and other content of RFID transponders.

• Near Field Communication
Near-Field Communication is a short-range, high-frequency wireless RFID communication technology. NFC delivers on the promise of connecting the physical and virtual environments. NFC technology follows mainly the ISO 14443 proximity standard (but supports ISO 15693 as well). NFC provides wireless communication between smart NFC devices, like smartphones, and NFC-enabled objects or other NFC reception devices such as payment terminals or identification readers. 

Near Field Communication

Near-Field Communication is a short-range, high-frequency wireless RFID communication technology. NFC delivers on the promise of connecting the physical and virtual environments. NFC technology follows mainly the ISO 14443 proximity standard (but supports ISO 15693 as well). NFC provides wireless communication between smart NFC devices, like smartphones, and NFC-enabled objects or other NFC reception devices such as payment terminals or identification readers.

• Passive Transponder
A transponder which harvests energy emitted by the reader’s electromagnetic field to power the chip and communicate signals. As no battery is required, these types of transponder are typically maintenance free. 

Passive Transponder

A transponder which harvests energy emitted by the reader’s electromagnetic field to power the chip and communicate signals. As no battery is required, these types of transponder are typically maintenance free.

• Portal
An RFID reader setup typically used in manufacturing or warehouse gate settings. Forklifts or other methods are used to transport tagged items through a portal reader to collect RFID transponder data. 

Portal

An RFID reader setup typically used in manufacturing or warehouse gate settings. Forklifts or other methods are used to transport tagged items through a portal reader to collect RFID transponder data.

• Precision laser cutting
One of several technologies used to produce an RFID transponder’s antenna. In this process, the antenna is laser-cut out of aluminum or other metals, avoiding the chemicals typically involved in antenna etching. Any excess aluminum is recovered. 

Precision laser cutting

One of several technologies used to produce an RFID transponder’s antenna. In this process, the antenna is laser-cut out of aluminum or other metals, avoiding the chemicals typically involved in antenna etching. Any excess aluminum is recovered.

• Radio Frequency
The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range 

Radio Frequency

The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range.

• Reader
Read and write device to wirelessly read the data on the chip in a transponder. 

Reader

Read and write device to wirelessly read the data on the chip in a transponder.

• Read accuracy
This term usually refers to the percentage of tags read successfully. If there are 1000 tags in the field and 985 are read successfully, the read accuracy is 98.5 percent. 

Read accuracy

This term usually refers to the percentage of tags read successfully. If there are 1000 tags in the field and 985 are read successfully, the read accuracy is 98.5 percent.

• Real-Time Locating System (RTLS)
A system to automatically identify and track the location of objects or people in real time, usually within a building or other contained area. Wireless RTLS tags are attached to objects or worn by people, and in most RTLS, fixed reference points receive wireless signals from tags to determine their location by triangulation. Examples of real-time locating systems include tracking automobiles through an assembly line, locating pallets of merchandise in a warehouse, or finding medical equipment in a hospital. 

Real-Time Locating System (RTLS)

A system to automatically identify and track the location of objects or people in real time, usually within a building or other contained area. Wireless RTLS tags are attached to objects or worn by people, and in most RTLS, fixed reference points receive wireless signals from tags to determine their location by triangulation. Examples of real-time locating systems include tracking automobiles through an assembly line, locating pallets of merchandise in a warehouse, or finding medical equipment in a hospital.

• Radio Frequency Identification
A wireless technology to transmit data between a transponder and a reader via radio waves. 

Radio Frequency Identification

A wireless technology to transmit data between a transponder and a reader via radio waves.

• RFID Printer
A device that prints on a label with an embedded RFID transponder and encodes information in the chip within the transponder. 

RFID Printer

A device that prints on a label with an embedded RFID transponder and encodes information in the chip within the transponder.

• RFID System
An RFID system consists of a transponder and a reader. When the transponder is within the reader’s working distance, it transmits data to the reader via radio waves. 

RFID System

An RFID system consists of a transponder and a reader. When the transponder is within the reader’s working distance, it transmits data to the reader via radio waves.

• Received Signal Strength Indication (RSSI)
A measurement of the strength of a radio signal being received. In RFID, RSSI is used to determine a transponder’s distance, as the signal is stronger from a transponder that is closer to the reader antenna. 

Received Signal Strength Indication (RSSI)

A measurement of the strength of a radio signal being received. In RFID, RSSI is used to determine a transponder’s distance, as the signal is stronger from a transponder that is closer to the reader antenna.

• Shielding
Uses the principle of a Faraday cage, metallized sheet, foil or metal barrier to prevent radio noise from interfering with the communication channel between an RFID reader and transponder. 

Shielding

Uses the principle of a Faraday cage, metallized sheet, foil or metal barrier to prevent radio noise from interfering with the communication channel between an RFID reader and transponder.

• Substrate
Uses the principle of a Faraday cage, metallized sheet, foil or metal barrier to prevent radio noise from interfering with the communication channel between an RFID reader and transponder. 

Substrate

Uses the principle of a Faraday cage, metallized sheet, foil or metal barrier to prevent radio noise from interfering with the communication channel between an RFID reader and transponder.

• Supply-Chain Management (SCM)
Supply-Chain Management is a typical application area of RFID and includes the design, planning, execution, control, and monitoring of supply-chain activities with the objective of creating net value, building a competitive infrastructure, leveraging worldwide logistics, synchronizing supply with demand and measuring performance. 

Supply-Chain Management (SCM)

Supply-Chain Management is a typical application area of RFID and includes the design, planning, execution, control, and monitoring of supply-chain activities with the objective of creating net value, building a competitive infrastructure, leveraging worldwide logistics, synchronizing supply with demand and measuring performance.

• Tag
General designation for a passive transponder with a customized housing. Most RFID tags contain at least two parts. One is an integrated circuit (IC, microchip) for storing and processing information, modulating and demodulating a radio frequency (RF) signal, and other specialized functions. The second is an antenna for receiving and transmitting the signal 

Tag

General designation for a passive transponder with a customized housing. Most RFID tags contain at least two parts. One is an integrated circuit (IC, microchip) for storing and processing information, modulating and demodulating a radio frequency (RF) signal, and other specialized functions. The second is an antenna for receiving and transmitting the signal.

• Tamper Evident Tag
An RFID transponder that communicates to a reader when a box, package or container has been opened. 

Tamper Evident Tag

An RFID transponder that communicates to a reader when a box, package or container has been opened.

• Tracking
Process by which individual objects, boxes, pallets or containers are tracked as they move through logistics systems. 

Tracking

Process by which individual objects, boxes, pallets or containers are tracked as they move through logistics systems.

• Transponder
A transponder is a data carrier which comes in the form of an inlay, a label or a tag. It is a microelectronic circuit consisting of a microchip bonded to an antenna on a carrier substrate 

Transponder

A transponder is a data carrier which comes in the form of an inlay, a label or a tag. It is a microelectronic circuit consisting of a microchip bonded to an antenna on a carrier substrate.

• Ultra High Frequency
The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Ayırt edici özellikler, tek tek bileşenlerin üretim maliyetlerini, veri aktarım hızlarını ve etkili menzili içerir. 

Ultra High Frequency

The frequency of the electromagnetic waves used to transmit data from a transponder to a reader in an RFID system. The standard transmission frequencies for RFID systems are: low frequency (LF, 125-148.5 kHz); high frequency (HF, 13.56 MHz); and ultra-high frequency (UHF, 400 MHz to 1 GHz). Differentiating characteristics include manufacturing costs of the individual components, data transmission rates and effective range.

• Unique identifier
A serial number stored on the microchip that uniquely identifies a transponder. 

Unique identifier

A serial number stored on the microchip that uniquely identifies a transponder.

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