CompTIA RFID+ Study Guide Exam RF0-101, includes CD-ROM
1. | Which type of material might you use to steer electromagnetic waves around a corner?
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2. | Which of the following absorbs electromagnetic wave energy at UHF frequencies? (Select three options.)
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3. | RFID systems that operate in which of the following frequency ranges rely on energy storage fields for communication? (Select two options.)
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4. | Which of the following properties must be equalized in a resonant coiled antenna?
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5. | Which law states that the net magnetic flux flowing out of any closed surface is zero?
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6. | Which type of reader antenna is least likely to communicate with a linearly polarized antenna that is located horizontally?
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7. | A UHF RFID tag may be read through which of the following materials? (Select three options.)
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8. | The magnetic field created by an electric current flowing through a straight wire ___________________.
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9. | The magnetic field of which commonly used RFID frequency range(s) penetrates small amounts of metal to the point that communication between tag and reader may occur?
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10. | The far-field region begins at roughly what distance from the antenna?
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11. | The electric field and the magnetic field are ___________________.
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12. | The polarization of an electromagnetic wave is determined by ___________________.
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13. | The polarization of an electromagnetic wave may be which of the following? (Select all that apply.)
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14. | The magnetic field created by an RFID reader operating in the HF frequency range decreases in proportion to the inverse of what power of the distance from the antenna?
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15. | The power density available to a tag operating in the UHF far field decreases as the inverse of what power of the distance from the antenna?
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16. | What are some of the reasons that a reader and a tag may not be able to communicate?
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17. | What common material can be used to mitigate the impact of poorly placed metal in the UHF RFID environment?
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18. | The experienced permeability of what material may change throughout the year?
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19. | Rectangular packages with foil along one side (such as blister packs for drugs) create a sequence of vertical metal bars when placed in a case and viewed from one side. What reader antenna polarization and orientation is best suited to read tags located on the other side of the case?
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20. | Which frequencies are best able to communicate through 12 cm of water? (Select two options.)
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Answers
1. | B. Chicken wire acts as an efficient reflector of electromagnetic radiation in the UHF frequency spectrum. By placing it at an angle to the radiation source (the RFID antenna), the emitted signal can be directed around corners. |
2. | A, C, D. UHF electromagnetic waves do not pass through the metal of the chicken wire but do pass through the other materials. |
3. | A, B. LF and HF RFID systems communicate and operate within the near field, which is the energy storage field. UHF and microwave systems operate in the far field, which is the power propagation field. |
4. | A. A coiled antenna is resonant when its capacitance (C) and inductance (L) are equalized. |
5. | D. Gauss's Law for magnetic flux defines how magnetic fields behave. One of the properties of magnetic fields is that they form closed loops. A magnetic field flows from the north pole of a magnet out into space and back into the south pole of the magnet. |
6. | B. A horizontally positioned linearly polarized tag antenna is unlikely to capture any of the energy emitted by a vertically positioned linearly polarized reader antenna. The horizontally positioned linearly polarized reader antenna is most likely to communicate with the tag. The circularly polarized antenna will be able to communicate with the tag regardless of its orientation. |
7. | A, B, C. Only steel prevents UHF frequencies from penetrating it. UHF RFID tags may be read through small amounts of water and relatively larger amounts of cardboard and sand. |
8. | C. The current flowing through a straight wire does not create a magnetic north pole and south pole. The current creates a magnetic field that forms concentric circles around the wire. The right-hand rule is used to determine the direction of the magnetic field. |
9. | A. The magnetic fields generated by the LF frequency ranges do penetrate small thicknesses of metals. This penetration allows readers to communicate with tags located next to and even behind metal surfaces. All other frequency ranges commonly used by RFID systems do not have magnetic fields that penetrate metals to any significant extent. |
10. | C. The near field ends at a distance of roughly r = λ/(2π) from the antenna, at which point the far field begins. |
11. | C. The electric and magnetic fields are disconnected in the static case. Only when the fields are time varying (that is, dynamic) do the fields become interconnected. |
12. | A. The convention for describing polarization is to use the direction of the electric field vector at a point in space. |
13. | B, C, D. The electric field of an electromagnetic wave may rotate as the wave propagates through space. The electric field may rotate either left or right. If the electric field rotates to the right with constant amplitude, the wave is said to be right circular polarized. Circular polarization is a special case of elliptical polarization, in which the amplitude increases and decreases in a regular fashion as the electric field rotates. If the electromagnetic wave does not rotate as it propagates, it is linearly polarized. |
14. | C. In the near field, the magnetic field produced by the antenna diminishes at a rate proportional to 1/r3. The power from the antenna decreases at a rate of 1/r6. |
15. | B. In the far field, the power density decreases much more slowly than in the near field. The power density in the far field decreases proportional to 1/r2. |
16. | E. Electromagnetic waves are linear, meaning that the wave experienced at a point in time and location in space is the addition of all waves intersecting then and there. Multi-path delays, absorption by materials in the environment, and reflections and polarizations that result from those reflections are all phenomena that will be experienced by the electromagnetic waves. |
17. | B. Water effectively absorbs UHF energy. By placing water in front of metal fixtures that are creating too much reflection, the reflected waves can be eliminated. |
18. | C. Cardboard absorbs moisture from the air and its local environment. As the humidity varies throughout the year, so will the moisture content of the cardboard. During times of increased humidity, the cardboard will contain more water, which will decrease its experienced permeability in those conditions. |
19. | B. A linear polarized antenna positioned vertically will have all of its energy propagate through the case. The vertically oriented metal foil acts as a filter to electromagnetic radiation that is not vertically oriented. Thus, a linear polarized antenna positioned horizontally will have its energy blocked by the case, and a circularly polarized antenna will have all but the vertically oriented portion of its energy filtered by the case. |
20. | A, B. Although UHF and microwave frequencies can communicate through water, the power levels allowed by the local regulations for use by RFID systems prevent them from communicating through large quantities of water. LF and HF frequencies are little affected by water. |
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