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RFID Technology

Subject : it-skills

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Tags collide completely or not at all (Theoretically proven maximum utilization= 36.8%)
Dry Inlay
Attenuator
Linear Polarized Antenna
Slotted ALOHA

2. Standards = EPC global & ISO 18000 - Different Organizations
Transmitter
Tag Standards
Read range
Adaptive Binary Tree Anti-Collision

3. Neighboring readers interrogate a tag simultaneously (can be easily solved because they can detect this and communicate to each other)
Multipath
Interactive Mode
Circular Polarized Antenna
Reader Collision

4. Interprets the signal received from reader and controls memory storage and retrieval
Tag Generations
Agile Reader
Processor
Antenna Footprint

5. Die-cut web with adhesive - film face
Polarization
Wet Inlay
UHF
Screen Printing

6. In this this antenna type - the RF waves emanate in a linear pattern from the antenna. Waves have only one energy field
Linear Polarized Antenna
RFID Reader
Slotted ALOHA
Passive Backscatter (Capacitive Coupling)

7. A mechanical device for controlling or moving objects - A programmable logic controller (PLC) - robot arm - mechanical arm - etc.
Circular Polarized Reader Antenna
Antenna Footprint
Actuator
Multipath

8. Type of stationary reader that can print a bar code and create (i.e. write) an RFID tag on a smart label in an integrated operation - Reads the smart label tag that it has just written to validate the write operation. If the validation fails - it rej
RFID Printer
Passive Backscatter (Capacitive Coupling)
Decommissioning The Tag
Polarization

9. Similar to guessing a number made of 1's and 0's by guessing each number one at a time
UHF
Adaptive Binary Tree Anti-Collision
Characteristics Of Antennas That Contribute To Tag Readability
Slotted ALOHA

10. Open image in meshed screens. Conductive ink "squeezed" thru open mesh.
Characteristics Of Antennas That Contribute To Tag Readability
Flip-chip (Chip-to-Tag)
Screen Printing
Polarization

11. Broadcasts the reader transmitter's RF signal into its surroundings and receives tag responses on the reader's behalf. Therefore - proper positioning of these (NOT THE READERS) is essential for good read accuracy
Integrated Circuit Chips
Microwave Frequency
Smart Label
Reader Antenna

12. Can reduce power by placing this device in the transmission line. As a result - the antennas signal is reduced and the read range diminished. Proves useful in situations where the read zone needs to be constrained as a part of system requirements so
Linear Polarized Antenna
Dry Inlay
Wet Inlay
Attenuator

13. Time for an associated tag to be read
Interactive Mode
Persist Time
RFID Reader
Memory

14. Inductive coupling and passive backscatter (capacitive coupling)
Antenna/Inductor
Passive Backscatter (Capacitive Coupling)
Passive Communication Methods
Effective Radiated Power (ERP)

15. Also called an 'interrogator' - A device that can read from and write data to compatible RFID tags - Also doubles up as a writer
RFID Reader
Integrated Circuit Chips
Interactive Mode
Wet Inlay

16. Receives signal from reader and radiates a response back to the reader - LF or HF: induction coil - UHF or Microwave Frequency: printed antennas
Strap-to-Tag
Multipath
Antenna/Inductor
Tag

17. Die-cut web adhesive - paper face
Tag List
Modulation Circuitry
Tag
Tag Standards

18. LF and HF passive tags - Current flowing through a conductor generates a magnetic field around the conductor and vice versa - Readers antenna uses current to generate magnetic field - Tag's antenna when exposed to the magnetic field generates the cur
Passive Communication Methods
Inductive Coupling
Adaptive Binary Tree Anti-Collision
Decommissioning The Tag

19. Pattern(Footprint) - Power/Attenuation - and Polarization
Microprocessor
Characteristics Of Antennas That Contribute To Tag Readability
Circular Polarized Antenna
Commissioning The Tag

20. The 3D energy field generated by the antenna (also called reading area)
Passive Backscatter (Capacitive Coupling)
PLC
Pattern(Footprint)
RFID SyCommunication methods

21. More than one tag tries to respond to a reader at the same time.
Tag Collision
Tag Generations
Polarization
Duty Cycle

22. The act of writing the tag data by reader
Tag List
Passive Backscatter (Capacitive Coupling)
Creating A Tag
Constructive Interference

23. The time during which a reader can emit RF energy to read tags
Antenna Footprint
Smart Label
Duty Cycle
Power/Attenuation

24. Ranges from 300 MHz to 1GHz - Passive system operates at 915 MHz in the US and at 868 MHz in Europe - Active system operates at 315 MHz and 433 MHz - Can use both active and passive tags - Has a fast data-transfer rate between tag and reader - but pe
Tag Collision
Destructive Interference
Power Source
UHF

25. Responsible for implementing the reader protocol to communicate with compatible tags
Polarization
Linear Polarized Reader Antenna
Microprocessor
Effective Radiated Power (ERP)

26. To disassociate the tag from a tagged object and optionally destroy it
Stationary Reader
Decommissioning The Tag
Inductive Coupling
Microprocessor

27. When two waves (out of phase) impose on each other and the original signal is cancelled. Nulls are created s a result
Microwave Frequency
ALOHA
Serial Reader
Destructive Interference

28. Reader communicates to a tag through reader's antennas - a separate device that is physically attached to a reader - at one of its antenna ports - by means of cable. Called this because it creates an electromagnetic field to couple with the tag.
Coupling Element
Memory
Types of tags
Smart Label

29. Receives analog signals from the tag via the reader antenna
Tag
Receiver
Autonomous Mode
Passive Backscatter (Capacitive Coupling)

30. Low Frequency(LF) - High Frequency(HF) - Ultra high frequency (UHF) and Microwave frequency
Pattern(Footprint)
Read range
Main Components of RFID Tag
Types of Tag Frequencies

31. Image "burned" into photopolymer layer. All copper removed except where image was burned. Copper antenna goes through additional processes to protect from oxidation
Power/Attenuation
Copper Etching
Coupling Element
Receiver

32. Readability of a tag greatly depends on this and the angle at which the tag is presented to the reader
Adaptive Binary Tree Anti-Collision
Interactive Mode
Circular Polarized Antenna
Polarization

33. In this mode - reader continuously reads tags in its read zone
Microwave Frequency
Power/Attenuation
Autonomous Mode
Decommissioning The Tag

34. Reader transmits a continuous-wave RF signal into the reading environment
Antenna/Inductor
Tag Antenna Construction
Actuator
Passive Backscatter (Capacitive Coupling)

35. Dead zones that surround protrusions in antenna footprint
Attenuator
Screen Printing
Nulls(Voids)
Antenna/Inductor

36. Optical and RFID hybrid
Smart Label
Low Frequency (LF)
Decommissioning The Tag
Interactive Mode

37. RF energy radiates from antenna in linear fashion - Provide longest range - Sensitive to the orientation of tag - Has single E-field component - Can have a narrow beam pattern - Best for application with known tag orientation
Linear Polarized Reader Antenna
Autonomous Mode
Copper Etching
Pattern(Footprint)

38. The orientation of the transmitted electromagnetic field or the direction of oscillation of electromagnetically emitted waves
Polarization
Reader Antenna
Wet Inlay
Slotted ALOHA

39. 'Central nervous system' of entire RFID hardware system. Establishing communication with and control of this component is the most important task of any entity which seeks integration
Read range
RFID Reader
Tag
Reader Collision

40. Every time a tag is read - it is saved to this
Tag List
Types of Tag Frequencies
Tag class
Annunciator

41. Continuous web - no adhesive
Antenna/Inductor
Dry Inlay
Pattern(Footprint)
Multipath

42. These are categorized into Aloha based protocols and tree based
Inductive Coupling
Sensor
Tag Anti-Collision Protocols
Decommissioning The Tag

43. Used to transmit AC power and the clock cycle via its antennas to the tags in its read zone
RFID SyCommunication methods
Characteristics Of Antennas That Contribute To Tag Readability
Slotted ALOHA
Transmitter

44. Determines the read zone of a reader - Also called an antenna pattern - 3D region shaped somewhat like an ellipsoid or a balloon projecting out the front of the antenna. Never uniformly shaped like an ellipsoid but almost always contains deformities
Antenna Footprint
Stationary Reader
Microprocessor
Types of tags

45. Used for storing data such as the reader configuration parameters and a list of tag reads
Commissioning The Tag
Memory
Equivalent Isotropic Radiated Power (EIRP)
Characteristics Of Antennas That Contribute To Tag Readability

46. Proximity systems (low range -mm) medium range (cm) and long range (m)
Agile Reader
Autonomous Mode
Read range
Polarization

47. Generation= Timeline of Introduction - Gen 1 & 2 - Gen 2 protocol backward compatible
Tag class
Transmitter
Interactive Mode
Tag Generations

48. Also called a fixed reader - Mounted on a wall - portal - or some suitable structure in the read zone. Readers not generally very tolerant of harsh environmental conditions - therefore if installed outdoors or on moving objects - take care to ruggedi
Stationary Reader
Memory
Dry Inlay
Control Circuitry

49. Reader that can operate in different frequencies or can use different tag-to-reader communication protocols (generally stationary)
Agile Reader
Transmitter
Screen Printing
Copper Etching

50. The reflection of reader antenna signals on RF-opaque causes this
Sensor
Multipath
Slotted ALOHA
Linear Polarized Antenna