- Видео 200
- Просмотров 27 200
Matthew Spencer
Добавлен 21 ноя 2010
HMC E157 Lec13 V03 S Parameter Power Gains | Remaster F24
HMC E157 Lec13 V03 S Parameter Power Gains | Remaster F24
Просмотров: 59
Видео
HMC E157 Lec12 V03 Power Gain | Remaster F24v2
Просмотров 106Месяц назад
HMC E157 Lec12 V03 Power Gain | Remaster F24v2
HMC E157 Lec 13 V02 Max Power Transfer with Reflection Coefficients | Remaster F24
Просмотров 60Месяц назад
HMC E157 Lec 13 V02 Max Power Transfer with Reflection Coefficients | Remaster F24
HMC E157 Lec09 V01 Introduction to Filters, Design Specifications and the Filter Prototype
Просмотров 108Месяц назад
HMC E157 Lec09 V01 Introduction to Filters, Design Specifications and the Filter Prototype
HMC E157 Lec08 V04 Pi and T Matching Network Analysis and Design Equations
Просмотров 65Месяц назад
HMC E157 Lec08 V04 Pi and T Matching Network Analysis and Design Equations
HMC E157 Lec08 V03 Pi and T Matching Network Introduction
Просмотров 63Месяц назад
HMC E157 Lec08 V03 Pi and T Matching Network Introduction
HMC E157 Lec08 V02 L Matching Network Design Equations
Просмотров 75Месяц назад
HMC E157 Lec08 V02 L Matching Network Design Equations
HMC E157 Lec08 V01 L Matching Networks Introduction
Просмотров 97Месяц назад
HMC E157 Lec08 V01 L Matching Networks Introduction
HMC E157 Lec07 V04 Series to Parallel Transformations
Просмотров 74Месяц назад
HMC E157 Lec07 V04 Series to Parallel Transformations
HMC E157 Lec07 V03 Component Quality Factor
Просмотров 56Месяц назад
HMC E157 Lec07 V03 Component Quality Factor
HMC E157 Lec 07 V02 Review of Second Order RLC Circuits, Resonance and Quality Factor
Просмотров 69Месяц назад
HMC E157 Lec 07 V02 Review of Second Order RLC Circuits, Resonance and Quality Factor
HMC E157 Lec07 V01 What are Matching Networks
Просмотров 92Месяц назад
HMC E157 Lec07 V01 What are Matching Networks
HMC E157 Lec05 V04 Smith Chart Examples
Просмотров 89Месяц назад
HMC E157 Lec05 V04 Smith Chart Examples
HMC E157 Lec05 V02 Driving Point Impedance vs. Transmission Line Length
Просмотров 69Месяц назад
HMC E157 Lec05 V02 Driving Point Impedance vs. Transmission Line Length
HMC E157 Lec05 V01 Generalized Reflection Coefficient
Просмотров 95Месяц назад
HMC E157 Lec05 V01 Generalized Reflection Coefficient
HMC E157 Lec04 V04 Voltage Standing Wave Ratio (VSWR)
Просмотров 65Месяц назад
HMC E157 Lec04 V04 Voltage Standing Wave Ratio (VSWR)
HMC E157 Lec04 V03 Reflections of Sinusoids
Просмотров 70Месяц назад
HMC E157 Lec04 V03 Reflections of Sinusoids
HMC E157 Lec04 V02 The Propagation Constant for Lossy Transmission Lines
Просмотров 74Месяц назад
HMC E157 Lec04 V02 The Propagation Constant for Lossy Transmission Lines
HMC E157 Lec04 V01 Sinusoids on Infinite Lossless Transmission Lines
Просмотров 92Месяц назад
HMC E157 Lec04 V01 Sinusoids on Infinite Lossless Transmission Lines
HMC E157 Lec03 V04 Finite Transmission Line Termination Examples and Physical Insights
Просмотров 100Месяц назад
HMC E157 Lec03 V04 Finite Transmission Line Termination Examples and Physical Insights
HMC E157 Lec03 V03 Terminated Transmission Lines and the Reflection Coefficient
Просмотров 99Месяц назад
HMC E157 Lec03 V03 Terminated Transmission Lines and the Reflection Coefficient
HMC E157 Lec03 V02 Characteristic Impedance of a Transmission Line
Просмотров 140Месяц назад
HMC E157 Lec03 V02 Characteristic Impedance of a Transmission Line
HMC E157 Lec03 V01 Loss, Attenuation and Dispersion in Transmission Lines
Просмотров 128Месяц назад
HMC E157 Lec03 V01 Loss, Attenuation and Dispersion in Transmission Lines
HMC E157 Lec02 V03 Telegrapher's Equation
Просмотров 131Месяц назад
HMC E157 Lec02 V03 Telegrapher's Equation
HMC Lec02 V01 Introduction to Transmission Lines
Просмотров 775Месяц назад
HMC Lec02 V01 Introduction to Transmission Lines
HMC E157 Lec10 V04 Calculating S Parameters in a Circuit
Просмотров 83Месяц назад
HMC E157 Lec10 V04 Calculating S Parameters in a Circuit
Anyway you need four resistors to make a small signal amplifier.....
Bro. No.
I think the capacitive feed through circuit transfer function missed a zero. The way it is written in the lecture missed to capture the fact that the final value is R2/(R1+R2) times the input.
So what is the advantage of active load if the differential gain is the same ?
Digga Kauf dir mal ein besseres Mikrofon und wirf die Kartoffel weg !
great analysis and pacing
This is the best structured lecture I've seen so far, with a great clarity and a well tempered pace. Congratulations and a big thank you for sharing.
Thank you for this video! Very helpful for my microelectronics course.
Thanks man! Your content is helping through my course work!!
Glad to hear it! Feel free to point other folks here too or ask questions.
Thank you a lot sir :)
You're welcome! I'm glad that you like the video!
The hardest part is knowing what assumptions to make. Every problem gets messy very quick
Yeah, this circuit is especially complex that way. I nearly quit circuit design after hearing the lecture on this one. It turns out that the approximations get much more intuitive the second or third time through: they're not tricky, it's just a lot to remember on the first pass.
Explain with mos transistor
Very happy to! First, check out ruclips.net/video/O0uJ-2sHVmM/видео.html and ruclips.net/video/VSVgN0V-xMY/видео.html for details about how to model MOSFETs. Second, you don't usually build this exact current mirror using MOSFET devices because MOSFETs have no gate current. The beta helper is providing base current to reduce the error of the BJT mirror, but (long channel) MOSFET mirrors don't have error because of gate leakage. MOSFET mirrors are usually either simple mirrors or cascode mirrors if you need the higher output impedance. Fancier versions exist to improve the swing.