来几个RF问题，看看大家的RF基础功底——系列一

checkz · 发表于 2006-6-11 17:16:00

1. What is a primary advantage to using 90 ° (quadrature) hybrid couplers in amplifier designs?
c) Input/output impedance not dependent on devices as long as device impedances are equal.
Due to the physical construction of the quadrature coupler, as long as the two devices between the couplers exhibit identical impedances the input and output impedances will exhibit the intrinsic coupler impedance. For example, if matched transistors with input impedances of 12 - j5 W are connected between to quadrature couplers that have an intrinsic impedance of 50 + j0 W, then a 50 + j0 W impedance would be exhibited at the circuit input (similar for the output).

Why not always use quadrature couplers? The answer is that insertion loss, physical size and/or cost are often intolerable.
2. Why is there a frequency term in the equation for free-space path loss?
c) Antenna geometry requires it.
Antennas are an indispensable part of all wireless systems. There is no frequency dependency in the free-space power density equation as emitted from an isotropic radiator. Free-space power flux density decreases with distance due to energy being spread over the surface of a sphere, hence:
P[density] = P[transmitter] / (4 p * d2)  [W / m2], where d is the distance in meters from the origin.
However, the gain of the receiving antenna, including its effective area (Ae) is:
G = G[receiver] * l2 / (4 p)
Total path loss = 20 * log (4 p * d / l)  [dB].
3. If an amplifier has a noise temperature of 60K, what is its noise figure for an ambient temperature of 290K?
c) 0.82 dB.
Conversion from noise temperature to noise figure is a straightforward process.
NF = 10 * log [(NT / Ta) + 1] dB, where Ta is the ambient temperature.
4. What is a primary advantage of offset-quadrature-phase-shift-keying (OQPSK) over standard QPSK?
c) More constant envelope power.
OQPSK shifts the in-phase (I) and quadrature (Q) components of the digital data by half a bit so that the I and Q data never change at the same moment in time. This maintains a more constant output power.
5. A mixer has the following input frequencies:  RF = 800 MHz, LO = 870 MHz. The desired output frequency is 70 MHz. What is the image frequency?
a) 940 MHz.
By definition, the image frequency for any combination of input and LO frequencies is:
fimage = 2 * fLO - finput.
For any mixer, there are two input frequencies that, when mixed with the LO frequency, will generate the desired output frequency. In this example, the 70 MHz output can be generated either by taking 870 MHz - 800 MHz (desired), or by taking 940 MHz - 870 MHz (undesired).
6. What is the spurious-free dynamic range of a system with IP3 = +30 dBm and a minimum discernible signal (MDS) level of -90 dBm?
b) 80 dB.
Spurious-free dynamic range (SFDR) is the maximum signal power above the minimum discernible signal (MDS) power level where two tones generate 2nd-order intermodulation products equal in power to the MDS. Input signals above that level will generate 2nd-order products that are greater in power than the MDS power level. MDS is generally defined as the noise power plus the minimum signal-to-noise ratio (SNR)
One form of the equation is:  SFDR = 2 / 3 * (IP3 - MDS)  dB.
7. A spectrum analyzer displays a component at 10 MHz @ 0 dBm, 30 MHz @ -10 dBm, 50 MHz @ -14 dBm, 70 MHz @ -17 dBm, and all of the other odd harmonics until they disappear into the noise. What was the most likely input signal that caused the spectrum?
a) A 10 MHz square wave (0 Vdc).
The Fourier series for a square wave with a 0 Vdc bias is the fundamental frequency and all of its odd harmonics. Amplitudes are scaled as the reciprocal of the harmonic number; in terms of power, the amplitudes are scaled according to 20 * log (1 / N) dB. A 10 MHz triangle wave also contains the odd harmonics, but amplitudes fall off according to the reciprocal of the square of the harmonic number, 40 *log (1 / N) dB.
8. On which side of a rectangular waveguide is an E-bend made?
b) The short dimension.
In a rectangular waveguide, the E-plane is in the direction of the short dimension while the H-plane is in the direction of the long dimension. The type of bend is determined by which side is curved for the bend. A useful mnemonic is the short dimension is the [E]asy side to bend, while the long dimension is the [H]ard side to bend.
9. During a network analyzer calibration, why are both a short circuit and an open circuit used?
b) To determine the characteristic impedance of the measurement system.
In order for the network analyzer (N/A) to make an accurate measurement, it must know what the impedance of the measurement system is. Characteristic impedance is mathematically the square root of the product of the short circuit impedance and the open circuit impedance. The S/A exploits this relationship.
10. What is the first harmonic of 1 GHz?
a) 1 GHz.
Harmonic number is often mistaken for overtone number. The second harmonic of 1 GHz is 2 GHz, while the first overtone frequency of 1 GHz is 2 GHz. In other words, Nharmonic = Novertone + 1. The first harmonic of any frequency is its fundamental frequency.

checkz · 发表于 2006-6-11 17:18:00

1. Which of the following can cause frequency intermodulation products in a system?
a) Only semiconductor junctions like diodes and transistors (amplifiers)
b) Cable connectors, bolted or riveted antenna panels, isolators and circulators
c) Both a) and b)
2. What is the melting temperature of standard 60/40, tin/lead solder?
a) 100°C (212°F)
b) 250°C (482°F)
c) 186°C (386°F)
3. What is the frequency band for the 900 MHz GSM cellular band?
a) Tx: 880-915 MHz / Rx: 925-960 MHz
b) Tx: 824-849 MHz / Rx: 869-894 MHz
c) There is no 900 MHz GSM band
4. What does GSM stand for?
a) General System for Mobile phones
b) Greater Spectrum for Mobile phones
c) Global System for Mobile Communication
5. What does POTS stand for (in communications)?
a) Plain Old Telephone System
b) PersOnal Telephony System
c) Personal Orbital & Terrestrial Satellite
6. Which of these pairs of materials in the triboelectric series have the greatest charge transfer potential?
a) Silk & Wool
b) Rubber Balloon & Celluloid
c) Glass & Hard Rubber
7. Along which side of rectangular waveguide is an "E" bend made?
a) Longer side
b) Shorter side
c) "E"ither side
8. What is the lowest modulation index at which an FM carrier is suppressed?
a) 2.40
b) p (3.1416)
c) Only AM carriers can be suppressed
9. How much current is required through the human body to cause an onset to muscular paralysis during electrocution?
a) Voltage is the culprit during electrocution, not current
b) 21 mA
c) ½ amp
10. At what frequency is electromagnetic energy maximally absorbed due to oxygen in the atmosphere?
a) 22 GHz
b) Only water in the atmosphere absorbs electromagnetic energy
c) 63 GHz

awp666 · 发表于 2006-6-12 09:37:00

楼主的题涉及面越来越广了……[em07]

wjg980366 · 发表于 2006-6-12 13:52:00

<TABLE fixed; WORD-BREAK: break-all" width="90%" border=0><TR><TD 10pt; LINE-HEIGHT: 14pt" width="100%">期待新考题...</TD></TR></TABLE>

checkz · 发表于 2006-6-12 15:01:00

Answer to Quiz #4
1. Which of the following can cause frequency intermodulation products in a system?
c) Both a) and b)
Intermodulation products are generated whenever currents of different frequencies flow in a nonlinear junction. Dissimilar metals and impurities at connector interfaces and in cable dielectric materials form nonlinear junctions. Ferromagnetic materials in isolators and circulators enter into a nonlinear region when in saturation. At low powers, the products all have powers below thermal noise, but when used in high power transmission systems, these Passive Intermodulation (PIM) products can and often do fall within the receiver band. Read more here.
2. What is the melting temperature of standard 60/40, tin/lead solder?
c) 186°C (386°F)
Knowing the melting temperature of the solder you use all the time is useful information. Look here for a list of other solder alloy melting temperatures.
3. What is the frequency band for the 900 MHz GSM cellular band?
a) Tx: 880-915 MHz / Rx: 925-960 MHz
Click here for a matrix of wireless communications bands and protocols.
4. What does GSM stand for?
c) Global System for Mobile Communications
Click here for a matrix of wireless communications bands and protocols.
* GSM originally stood for Groupe Spécial Mobile - thanks to Eric for this info.
5. What does POTS stand for (in communications)?
a) Plain Old Telephone System
Maybe it's too simple to be true, but it is.
6. Which of these pairs of materials in the triboelectric series have the greatest charge transfer potential?
c) Glass & Hard Rubber
The triboelectric series is a list of materials that, when rubbed together, transfer charge from one to the other. The farther apart the two materials are on the series, the greater the charge that is transferred. See here for a table of common materials.
7. Along which side of rectangular waveguide is an "E" bend made?
b) Shorter side
A common mnemonic employed to help remember is that an E-Bend is bent in the Easy direction (along the short side). This is the direction of the E-field in the TE10 mode. Conversely, An H-Bend is bent in the Hard direction (along the long side). This is the direction of the H-field in the TE10 mode.
8. What is the lowest modulation index at which an FM carrier is suppressed?
a) 2.40
Depending on the modulation index (m) chosen, the carrier and certain sideband frequencies may actually be suppressed. Zero crossings of the Bessel functions, Jn(b), occur where the corresponding sideband, n, disappears for a given modulation index, b. The carrier is the 0th sideband, so n=0. The next time the carrier disappears is for m=5.49. Here is more information.
9. How much current is required through the human body to cause an onset to muscular paralysis during electrocution?
b) 21 mA
Most non-EE's think voltage causes electrocution, but we know better (don't we?). A higher voltage causes a higher current to flow, but ultimately it is the current that cause body tissues to react. Click here for more current levels.
10. At what frequency is electromagnetic energy maximally absorbed due to oxygen in the atmosphere?
c) 63 GHz
Both water and oxygen absorb electromagnetic energy in the atmosphere. Oxygen has its first peak at around 22 GHz, but a much larger peak occurs at 63 GHz due to oxygen. Secure communications between satellites in orbit use the 63 GHz band to prevent interception by terrestrial receivers. Clever - eh? Check out this absorption chart.

checkz · 发表于 2006-6-12 15:04:00

RF Quiz #6:
Wireless Communications Fundamentals

1. Which of the following WLAN standards is on a different frequency band than the others?
a) 802.11a
b) 802.11b
c) 802.11g
d) 802.11n
2. What does the term "ruggedness" refer to in wireless power amplifiers?
a) Ability to withstand thermal stress
b) Ability to withstand mechanical stress
c) Ability to withstand load mismatch
d) All the above
3. Which FCC regulation governs the unlicensed ISM band?
a) Part 15
b) Chapter 11
c) 815.00
d) Subsection 11
4. In which semiconductor technology are the majority of cellphone PAs manufactured?
a) Si/SiCMOS
b) GaN
c) GaAs/InGaP
d) SiGe
5. What is a major advantage of Low Temperature Co-fired Ceramic (LTCC) substrates?
a) Densely integrated passive components
b) Better thermal dissipation
c) Lower bill of materials
d) All the above
6. Which phone standard supports the highest data rate?
a) iDEN
b) GPRS
c) EDGE
d) GSM
7. Which component is typically not part of a front-end module (FEM)?
a) Power amplifier
b) Filter
c) Switch
d) Controller
8. Which two systems are most likely to experience concurrent operation problems?
a) WLAN + GSM
b) Bluetooth + WLAN
c) GSM + W-CDMA
d) Bluetooth + AMPS
9. An isolator is typically required at the output of the PA for which transmitter system
a) EDGE
b) Bluetooth
c) GSM
d) CDMA/W-CDMA
10. What is the commonly claimed nominal operational range for Bluetooth?
a) 10 m
b) 32.8 ft
c) 1.057x10^-15 lt-yr
d) All the above

wjg980366 · 发表于 2006-6-12 15:20:00

先下拉，慢慢研究！

wjg980366 · 发表于 2006-6-12 15:40:00

系列二8. An ideal 10 dB attenuator is added in front of a load that has a 2.00:1 VSWR. What is the resulting VSWR of the load + attenuator? [52RD.com]
a) 1.07:1[52RD另外一种形式的解将VSWR=2.0为反射系数为0。33333333333，然后除以10（dB）得0。0333333333，取对数，乘20得29。542

easychen · 发表于 2006-6-13 09:40:00

Answer for RF Quiz #6:
1)?2)C3)?4)C5)A6)C7)D8)B9)D10)A

bestdesign · 发表于 2006-6-13 11:47:00

checkz,不是吧，把整个的拿出来吧。不会也要有，在贵也买。别让我们追了，谢了。

checkz · 发表于 2006-6-13 13:11:00

既然如此我就都贴出来了。
【文件名】:06613@52RD_Answers.doc
【格　式】:doc
【大　小】:866K
【简　介】:
【目　录】:
[br]+5 RD币

keith_no1 · 发表于 2006-6-13 15:40:00

fucking easy[em02]

hlhe · 发表于 2006-6-13 19:57:00

说说quiz1当中的那个振荡器锁相的相噪的问题。个人有不同看法。PLL最后出来的相位噪声如果这么好分析的话，就好了！PLL最后出来的相噪，参考的相噪应该影响很小很小！主要还是检相器的电荷泵，N分频比，VCO本身的相噪决定。个人看法！[br]+1 RD币

checkz · 发表于 2006-6-14 12:20:00

个人认为：由于题目中没有给出其他条件，所以只能单独考虑参考噪声对整个系统的影响，这样做是很有意义的，可以直接看出参考频率的相位噪声对整个频率合成器的影响。实际上，在环路滤波器带内参考频率的相位噪声对整个频率合成器的噪声影响很明显，也就是如题目中给出的公式。推导如下。闭环增益：closed loop gain＝G/(1+GH) G=Kd*Kv*Z(S)/S H=1/NN就是分频比了，题目中就是2.8G/10M。 STOT2=X2+Y2+Z2STOT2:表示频率合成器输出端的总噪声。X2：表示由于SN和SREF引起的噪声（其中SN表示反馈分频器在鉴频鉴相器输入端引起的噪声）Y2：表示由于CP引起的噪声Z2：表示由于VCO引起的噪声 所以X2=(SREF2+SN2)*(G/(1+GH))2;在低频，环路滤波器带内：GH>>1,X2=(SREF2+SN2)*N2对只考虑参考频率源噪声的情况下，20*logX=20*log(SREF)+20*log(N)[br]+3 RD币

l87522 · 发表于 2006-6-16 09:00:00

不错，挺好的。

speed · 发表于 2006-6-19 12:45:00

真是好人啊，谢谢！

TINGLE · 发表于 2006-6-19 14:47:00

免费的不顶就太不好意思了

pwzh · 发表于 2006-6-20 11:21:00

bbbbbccaab

longlm · 发表于 2006-6-20 17:35:00

多谢！我正好在看射频方面的东西。很好的问答。谢谢！

seymour · 发表于 2006-6-21 08:50:00

虽然潜水N久了，但是面对楼主这么强这么kind的人，不能不顶呀。

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