RF面试一些必问的问题(转)
时间:10-02
整理:3721RD
点击:
* IP3
- What is IP3? Why is it important?
- Why is it important?
- How to measure IP3? (use a coupler to add the two input tones together)
- IIP3 vs OIP3? (IIP3(dBm) = (A_W1,W2(dB)-A_IM3(dB))/2 +P_in(dBm), OIP3(
dBm) = (A_W1,W2(dB)-A_IM3(dB))/2 +P_out(dBm), OIP3(dBm)-IIP3(dBm) = G(dB))
* Noise Figure
- What is Noise Figure?
- What is Noise Figure of multi-stage LNA?
- How to measure Noise Figure? (1.Noise figure meter. 2.Total gain method
. 3. Y-factor)
- Remark: F (Noise factor, linear), NF (10logF, logarithm)
* What are main parameters of LNA? (Gain, NF, IP3, P1dB, ) How to measure
them?
* How to design a two-state LNA? (trade-off between gain and noise figure)
* Receiver:
- The architecture of Superheterodyne Receiver.
- The architecture of Homodyne Receiver.
- Parameters of the receiver. (NF, G_t(transducer power gain), IP3 (why
is it import), )
* Matching network:
- LC component match:
- Shunt Stub transmision line:
- Try the cases: 1. 25+j25 Ohm --> 50 Ohm. 2. 50Ohm --> 25Ohm.)
* Filter: esp. 1st order HPF, LPF and BPF. What will step function be like
after LPF, HPF?
* Automatic test softwares: LabVIEW, HPV or CVI.
* Oscillator:
- Basic working theory of Oscillator.
- Phase noise.
* Spectrum Analyzer:
- Basic working theory. (first use a mixer to down-convert RF signal to
DC band.)
- What is Resolution Bandwidth?
* GSM and CDMA.
=========RF 其它问题:======================
* Transmitter architecture: Why does the transmitter not care the noise so
much?
* Modulation theory:
* PLL architecture:
* IP2: What is IP2?
* Basic statistics: Gaussian distribution.3Sigma.
- What is IP3? Why is it important?
- Why is it important?
- How to measure IP3? (use a coupler to add the two input tones together)
- IIP3 vs OIP3? (IIP3(dBm) = (A_W1,W2(dB)-A_IM3(dB))/2 +P_in(dBm), OIP3(
dBm) = (A_W1,W2(dB)-A_IM3(dB))/2 +P_out(dBm), OIP3(dBm)-IIP3(dBm) = G(dB))
* Noise Figure
- What is Noise Figure?
- What is Noise Figure of multi-stage LNA?
- How to measure Noise Figure? (1.Noise figure meter. 2.Total gain method
. 3. Y-factor)
- Remark: F (Noise factor, linear), NF (10logF, logarithm)
* What are main parameters of LNA? (Gain, NF, IP3, P1dB, ) How to measure
them?
* How to design a two-state LNA? (trade-off between gain and noise figure)
* Receiver:
- The architecture of Superheterodyne Receiver.
- The architecture of Homodyne Receiver.
- Parameters of the receiver. (NF, G_t(transducer power gain), IP3 (why
is it import), )
* Matching network:
- LC component match:
- Shunt Stub transmision line:
- Try the cases: 1. 25+j25 Ohm --> 50 Ohm. 2. 50Ohm --> 25Ohm.)
* Filter: esp. 1st order HPF, LPF and BPF. What will step function be like
after LPF, HPF?
* Automatic test softwares: LabVIEW, HPV or CVI.
* Oscillator:
- Basic working theory of Oscillator.
- Phase noise.
* Spectrum Analyzer:
- Basic working theory. (first use a mixer to down-convert RF signal to
DC band.)
- What is Resolution Bandwidth?
* GSM and CDMA.
=========RF 其它问题:======================
* Transmitter architecture: Why does the transmitter not care the noise so
much?
* Modulation theory:
* PLL architecture:
* IP2: What is IP2?
* Basic statistics: Gaussian distribution.3Sigma.
学习下,看来基础知识是一定要掌握牢固的!
好好好好好好好好好好好好好好好好好好好好
基础的东西,俺还不懂啊
thanx
好啊谢谢了
大部分都不懂,怎么办?
果然基础!
虽然都是基础但是都很重要
应是rf工程师都应有的知识
thanks...
DDDDDDD
谢谢分享~··
good.
不错,先收了,谢谢!
基本!
good...
平时还真没注意这些
接触射频第二周....
thank you@@
Thansk for sharing
Ding!!
goodgood
支持一下
我要做analog的牛人!
不错,谢谢小编!
看似很基础的问题!
基础都很重要
参考参考
很好,很强大~
感谢小编分享!