Chap3
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Electrical current, voltage, resistance, capacitance, and inductance are a few of the basic elements of electronics and radio. Apart from current, voltage, resistance, capacitance, and inductance, there are many other interesting elements to electronic technology. ... Use Electronics Notes to learn electronics online.
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2002 15
This document describes several alternative dual-bridge matrix converter topologies that have a reduced number of switches compared to a conventional matrix converter. It discusses how the dual-bridge topology avoids commutation problems of the conventional design. It then introduces several dual-bridge topologies with fewer switches, including 18-, 15-, 12-, and 9-switch variations. It analyzes the characteristics and operation of these topologies, and presents simulation and experimental results for the 9-switch design to validate its feasibility.
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This document describes a three level neutral point clamped (NPC) inverter. It includes:
1. A diagram of the 3-level NPC inverter circuit and descriptions of the switching states.
2. Calculations of the switching vectors for each switching state by analyzing equivalent circuits.
3. Tables listing the 27 possible switching states and their corresponding switching vectors.
Chap2
This document discusses transmission line models used to represent transmission lines of different lengths. It introduces three models: the short line approximation for lines less than 80 km, the medium line approximation for lines between 80-250 km, and the long line model for lines over 250 km. It then discusses the ABCD parameters used to relate voltages and currents at the two ends of transmission lines. The following models are described in detail: short line, medium line using nominal-π and nominal-T representations, and the distributed parameter model for long lines.
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- It provides equations to convert between the two configurations by equating the resistances between corresponding terminals.
- Several examples demonstrate applying the transformations to simplify resistive circuits and calculate equivalent resistances and currents.
Mw lecture 3
This document discusses transmission lines and their parameters. It begins by introducing transmission lines as guided structures that direct the propagation of energy from a source to a load. It then discusses the key parameters used to describe transmission lines - resistance, inductance, conductance and capacitance per unit length. It provides examples of how electromagnetic waves propagate through transmission lines and derives the transmission line equations. It also covers input impedance, standing wave ratio, power, and gives examples of calculating transmission line properties. The document concludes by discussing microstrip transmission lines.
Transmission lines
- Basic overview of transmission line analysis
-How transmission line analysis differs from basic circuit analysis
- How distributed circuit element differs from Lumped elements
-Links to be referred for Smith Chart
An Novel Ultra Broad-Band Exponential Taper Transmission Line 8- Port Network
An novel Ultra Broad-Band Exponential Taper Transmission Line 8- Port Networkis analyzed. The parameters of this developed network is calculated and its frequency responses are computed. Comparison between the simulated and measured parameters are presented
Q bank chap3,4,5,6
Electrical current, voltage, resistance, capacitance, and inductance are a few of the basic elements of electronics and radio. Apart from current, voltage, resistance, capacitance, and inductance, there are many other interesting elements to electronic technology. ... Use Electronics Notes to learn electronics online.
Recommended
2002 15
This document describes several alternative dual-bridge matrix converter topologies that have a reduced number of switches compared to a conventional matrix converter. It discusses how the dual-bridge topology avoids commutation problems of the conventional design. It then introduces several dual-bridge topologies with fewer switches, including 18-, 15-, 12-, and 9-switch variations. It analyzes the characteristics and operation of these topologies, and presents simulation and experimental results for the 9-switch design to validate its feasibility.
Neutral point clamped inverter
This document describes a three level neutral point clamped (NPC) inverter. It includes:
1. A diagram of the 3-level NPC inverter circuit and descriptions of the switching states.
2. Calculations of the switching vectors for each switching state by analyzing equivalent circuits.
3. Tables listing the 27 possible switching states and their corresponding switching vectors.
Chap2
This document discusses transmission line models used to represent transmission lines of different lengths. It introduces three models: the short line approximation for lines less than 80 km, the medium line approximation for lines between 80-250 km, and the long line model for lines over 250 km. It then discusses the ABCD parameters used to relate voltages and currents at the two ends of transmission lines. The following models are described in detail: short line, medium line using nominal-π and nominal-T representations, and the distributed parameter model for long lines.
L 06(gdr)(et) ((ee)nptel)
- The document discusses transformations between wye (Y) and delta (Δ) connected resistive networks.
- It provides equations to convert between the two configurations by equating the resistances between corresponding terminals.
- Several examples demonstrate applying the transformations to simplify resistive circuits and calculate equivalent resistances and currents.
Mw lecture 3
This document discusses transmission lines and their parameters. It begins by introducing transmission lines as guided structures that direct the propagation of energy from a source to a load. It then discusses the key parameters used to describe transmission lines - resistance, inductance, conductance and capacitance per unit length. It provides examples of how electromagnetic waves propagate through transmission lines and derives the transmission line equations. It also covers input impedance, standing wave ratio, power, and gives examples of calculating transmission line properties. The document concludes by discussing microstrip transmission lines.
Transmission lines
- Basic overview of transmission line analysis
-How transmission line analysis differs from basic circuit analysis
- How distributed circuit element differs from Lumped elements
-Links to be referred for Smith Chart
An Novel Ultra Broad-Band Exponential Taper Transmission Line 8- Port Network
An novel Ultra Broad-Band Exponential Taper Transmission Line 8- Port Networkis analyzed. The parameters of this developed network is calculated and its frequency responses are computed. Comparison between the simulated and measured parameters are presented
Q bank chap3,4,5,6
Electrical current, voltage, resistance, capacitance, and inductance are a few of the basic elements of electronics and radio. Apart from current, voltage, resistance, capacitance, and inductance, there are many other interesting elements to electronic technology. ... Use Electronics Notes to learn electronics online.
electrical objective
The document contains 40 multiple choice questions and answers related to electrical engineering topics. Some key topics covered include:
- Transformers and how their windings are linked
- Operation of synchronous motors, induction motors, and DC motors
- Motor speed control based on field current and terminal voltage
- Power factors of different motor types
- Generation and transmission voltages
- Transformer voltage regulation
- Stepper motor operation
The questions cover fundamental concepts in electrical circuits, motors, transformers, generators and other power systems components. The objective type questions and answers provide a high-level overview of important electrical engineering concepts.
13 bjt
The document describes the basic operation and applications of bipolar junction transistors (BJTs). It discusses:
1) The npn and pnp structures of BJTs, which have three terminals - base, collector, and emitter.
2) How applying voltages to the terminals can forward or reverse bias the base-emitter and base-collector junctions, putting the BJT in different operating regions like cutoff, active, or saturation.
3) How the collector current is controlled by the base current in the active region, forming the basis for BJT applications as switches, digital logic gates, and amplifiers.
Lecture 06 transistorremodel
This document discusses transistor small signal analysis using the transistor re model. It begins by introducing the re model and its components, including the input resistance r1, output resistance r0, and current gain β. It then provides examples of applying the re model to analyze various common transistor amplifier configurations, such as common-emitter fixed bias and common-emitter voltage divider bias. For each configuration, it derives the expressions for input impedance, output impedance, voltage gain, and current gain. Approximations are also provided assuming r0 is much larger than other resistances in the circuit.
Class06 transmission line_basics
This document provides an overview of transmission line basics and concepts. It discusses key transmission line parameters like characteristic impedance, propagation delay, per-unit-length capacitance and inductance. It covers transmission line equivalent circuit models and relevant equations. It also discusses transmission line structures, parallel plate approximations, reflection coefficients, and discontinuities. The goal is to understand transmission line behavior and analysis techniques.
MESH NODAL DC.pptx
1) The document discusses the mesh current method and nodal analysis techniques for solving circuits. It defines a mesh as any closed loop in a circuit and describes how to apply Kirchhoff's voltage law around each mesh.
2) The key steps of mesh current method are defining the clockwise mesh currents, applying KVL to each mesh, and solving the resulting equations. It provides an example problem demonstrating this process.
3) The document also describes nodal analysis and how to apply Kirchhoff's current law at each node except the reference node to obtain equations to solve for nodal voltages.
Objective question eee
The document provides information about various components and aspects of electrical substations:
1) Stones are used in substations to drain oil from transformers if leaks occur and to prevent weed growth. Devices like synchronous condensers and reactors are used to improve power factor.
2) Minimum phase to phase clearances for 400kV conductors and common components like CVTs, wave traps, and arrestors are identified. Reactors are used to limit short circuit current.
3) Ring main distribution systems are generally used for distribution. Earthing conductivity is affected by various soil factors and emulsifier protection relates to multiple protections like grounding and fire.
Design of a Two-Stage Single Ended CMOS Op-Amp
This summary provides the key details about the design of a two-stage CMOS operational amplifier:
- The design uses a classical two-stage op amp configuration with PMOS input transistors and Miller compensation with a nulling resistor. An analytical approach is used to determine the design parameters to meet specifications for gain, bandwidth, phase margin, and other factors.
- The current mirrors are first designed to provide the appropriate drain currents for each gain stage. Then the parameters for the differential input stage, second gain stage, active load stage, and compensation are determined analytically.
- Minor modifications based on SPICE simulations are made to achieve all specifications, which are verified in simulation results. The analytical design meets all
174072012 ee2404-lm
homework help,online homework help,online tutors,online tutoring,research paper help,do my homework,
https://www.homeworkping.com/
Eel305 building blocks of op am ps
GEDIZ UNIVERSITY
ENGINEERING FACULTY
ELECTRONICS ENGINEERING
5TH SEMESTER EEL305 MICROELECTRONICS
SOURCE: MICROELECTRONIC CIRCUITS
SEDRA-SMITH 6th ED CHAPTER 7
Broadband planar 90 degrees loaded-stub phase shifter
The differential phase shifter is an interesting four-port passive microwave network composed of two separate lines, the main line and the reference line, and providing stable phase difference between the two output signals over the specified bandwidth of interest. The most common differential phase shifter is the coupled-line Schiffman phase shifter. In this paper, a novel 90 degrees differential microstrip phase shifter configuration employing a half wavelength transmission line loaded with three open stubs is presented, the proposed design could achieve excellent performance with low phase variation over a wide bandwidth compared to the standard Schiffman phase shifter. The simulated results accomplished with the use of CST Microwave Studio and advanced design system (ADS), were found to be in good agreement and have shown that the proposed loaded-stub phase shifter achieved less than 1.1 dB insertion loss, greater than 13 dB return loss and constant 90±5 degrees phase shift over an 89 percent bandwidth.
Design and analysis of high gain diode predistortion
This paper presents the design and analysis of a high gain, broadband Schottky and PIN diode based RF
pre-distortion linearizer for TWTA. The circuit is using ABCD matrix approach. The simulation is
performed using Agilent ADS software. We have proposed a new linearizer circuit which can achieve a
high gain compared to existing linearizer designs.
Ece 523 project – fully differential two stage telescopic op amp
• Designed a two stage op-amp with first stage as a telescopic amplifier and second stage being a common source, in Cadence.
• Simulated the loop characteristics of the amplifier to have atleast 100 MHz Unity Gain Bandwidth, 65 dB gain and 60º phase margin (both differential loop and Common Mode) for three temperature (27,-40,100) corners.
• Extracted the layout of the design in Virtuoso (after passing DRC an LVS) and simulated the differential loop performances of the extracted netlist.
• Designed a third order Butterworth filter with 100 KHz corner frequency using the op-amp.
Double Side Band – Suppressed Carrier (DSB-SC) Modulation Demodulation using ...
This document describes a MATLAB SIMULINK model that implements Double Side Band Suppressed Carrier (DSB-SC) modulation and demodulation. It shows the DSB-SC modulator output based on an equation. It also demonstrates coherent detection of DSB-SC signals with modulation indices greater than one. Finally, it visualizes the frequency spectrum of both the modulated and demodulated signals to compare the placement of information in each case.
Differntial Input to Single Ended Output, Two stage Op-amp
This document summarizes a project to design a differential input, single ended output two-stage operational amplifier. The design approach was to bring all transistors into saturation at a common mode voltage of 0V and meet gain, phase margin, and unity gain frequency specifications. A compensation capacitor was increased to move the dominant pole in while a nulling resistor eliminated the effect of a zero, improving phase margin and unity gain frequency. Simulation results met all specifications, with an open loop gain of 67.97dB, phase margin of 75.3 degrees, and unity gain frequency of 15.29MHz. The input common mode range was -0.852V to 0.181V and output swing was -0.771V to 0
34.fixed bias without re
This document discusses fixed biasing of a BJT transistor in common emitter configuration. It explains how to analyze the bias circuit by locating the base-emitter and collector-emitter loops. The BE loop equation is derived as IB = (VCC - VBE)/RB. The CE loop equation is derived as VCE = VCC - ICRC. Constructing and simulating the fixed bias circuit allows determining the transistor's IC, IB, VCE, VB, VC, and VBC voltages.
Transmission lines
1) The document discusses transmission lines and their characteristics. It describes different types of transmission lines including coaxial lines, two-wire lines, and microstrip lines.
2) It presents the telegrapher's equations which model voltage and current on a transmission line as a function of position and time. These equations include parameters like inductance and capacitance per unit length.
3) Waves can propagate down transmission lines, maintaining their shape as they travel at a characteristic velocity. The wavelength depends on the wave velocity and frequency. Phasors are used to represent sinusoidal waves independent of time.
Electrical machines solved objective
This document contains sample questions from previous years' GATE exams related to electrical machines. It includes 20 multiple choice questions covering topics like induction motors, transformers, DC machines, and synchronous machines. The questions are at varying difficulty levels, ranging from one mark to two mark questions. The document also contains explanatory text and diagrams relating to some of the multiple choice questions.
Analog electronic circuit
1. The document discusses the principles of operation of p-n junction diodes and their use in analog electronic circuits. It describes how a diode only conducts current in one direction when forward biased and acts as an open switch when reverse biased.
2. Diode clipper circuits are introduced which can clip off portions of an input signal by only allowing the signal to pass through the diode when above or below a certain threshold set by a bias voltage. Parallel and series clipper configurations are examined along with their input-output characteristics.
3. Double-ended clipper circuits are described which can clip both the positive and negative portions of a signal simultaneously using two back-to-back diodes biased to conduct only
Ies electrical engineering - electrical machines
This document contains 30 multiple choice questions related to electrical machines. The questions cover topics like induction motors, transformers, synchronous machines, and DC machines. They assess understanding of concepts like rotor skewing, double cage motors, star-delta starting, transformer losses, synchronous generator operation, DC motor characteristics, and methods of speed control for induction motors. The questions are from previous years' GATE exams on the electrical engineering topic of electrical machines.
Two stage op amp design on cadence
This report details the design of a two-stage operational amplifier (op-amp) in Cadence. It begins with hand calculations of component parameters. A schematic is plotted and simulated for DC and AC analysis. The initial design does not meet specifications, so component parameters are modified through several iterations until specifications are met. Finally, geometry optimization using Mosek in MATLAB is presented, though long calculation times prevented results. The report demonstrates the op-amp design process from initial calculations through simulation and optimization to meet specifications.
Diode Applications & Transistor Basics
1. The document discusses the V-I characteristics of a p-n junction diode and describes its behavior under zero external voltage, forward bias, and reverse bias.
2. Rectifiers are introduced as circuits that convert AC to DC. Half-wave and full-wave rectifiers are described, including their circuit arrangements and operations. Centre-tap and bridge configurations are covered for full-wave rectification.
3. Zener diodes are discussed as properly doped diodes with a sharp breakdown voltage. They are always connected in reverse bias and have a defined zener voltage.
questions on diode analysis: Assignment6
This document contains the home assignment questions from an Introduction to Electronics course. It includes 9 questions related to analyzing circuits that contain diodes, rectifiers, and power supplies. The questions involve calculating voltage and current values, plotting waveforms, determining component ratings, and analyzing how circuits operate under different conditions.
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electrical objective
The document contains 40 multiple choice questions and answers related to electrical engineering topics. Some key topics covered include:
- Transformers and how their windings are linked
- Operation of synchronous motors, induction motors, and DC motors
- Motor speed control based on field current and terminal voltage
- Power factors of different motor types
- Generation and transmission voltages
- Transformer voltage regulation
- Stepper motor operation
The questions cover fundamental concepts in electrical circuits, motors, transformers, generators and other power systems components. The objective type questions and answers provide a high-level overview of important electrical engineering concepts.
13 bjt
The document describes the basic operation and applications of bipolar junction transistors (BJTs). It discusses:
1) The npn and pnp structures of BJTs, which have three terminals - base, collector, and emitter.
2) How applying voltages to the terminals can forward or reverse bias the base-emitter and base-collector junctions, putting the BJT in different operating regions like cutoff, active, or saturation.
3) How the collector current is controlled by the base current in the active region, forming the basis for BJT applications as switches, digital logic gates, and amplifiers.
Lecture 06 transistorremodel
This document discusses transistor small signal analysis using the transistor re model. It begins by introducing the re model and its components, including the input resistance r1, output resistance r0, and current gain β. It then provides examples of applying the re model to analyze various common transistor amplifier configurations, such as common-emitter fixed bias and common-emitter voltage divider bias. For each configuration, it derives the expressions for input impedance, output impedance, voltage gain, and current gain. Approximations are also provided assuming r0 is much larger than other resistances in the circuit.
Class06 transmission line_basics
This document provides an overview of transmission line basics and concepts. It discusses key transmission line parameters like characteristic impedance, propagation delay, per-unit-length capacitance and inductance. It covers transmission line equivalent circuit models and relevant equations. It also discusses transmission line structures, parallel plate approximations, reflection coefficients, and discontinuities. The goal is to understand transmission line behavior and analysis techniques.
MESH NODAL DC.pptx
1) The document discusses the mesh current method and nodal analysis techniques for solving circuits. It defines a mesh as any closed loop in a circuit and describes how to apply Kirchhoff's voltage law around each mesh.
2) The key steps of mesh current method are defining the clockwise mesh currents, applying KVL to each mesh, and solving the resulting equations. It provides an example problem demonstrating this process.
3) The document also describes nodal analysis and how to apply Kirchhoff's current law at each node except the reference node to obtain equations to solve for nodal voltages.
Objective question eee
The document provides information about various components and aspects of electrical substations:
1) Stones are used in substations to drain oil from transformers if leaks occur and to prevent weed growth. Devices like synchronous condensers and reactors are used to improve power factor.
2) Minimum phase to phase clearances for 400kV conductors and common components like CVTs, wave traps, and arrestors are identified. Reactors are used to limit short circuit current.
3) Ring main distribution systems are generally used for distribution. Earthing conductivity is affected by various soil factors and emulsifier protection relates to multiple protections like grounding and fire.
Design of a Two-Stage Single Ended CMOS Op-Amp
This summary provides the key details about the design of a two-stage CMOS operational amplifier:
- The design uses a classical two-stage op amp configuration with PMOS input transistors and Miller compensation with a nulling resistor. An analytical approach is used to determine the design parameters to meet specifications for gain, bandwidth, phase margin, and other factors.
- The current mirrors are first designed to provide the appropriate drain currents for each gain stage. Then the parameters for the differential input stage, second gain stage, active load stage, and compensation are determined analytically.
- Minor modifications based on SPICE simulations are made to achieve all specifications, which are verified in simulation results. The analytical design meets all
174072012 ee2404-lm
homework help,online homework help,online tutors,online tutoring,research paper help,do my homework,
https://www.homeworkping.com/
Eel305 building blocks of op am ps
GEDIZ UNIVERSITY
ENGINEERING FACULTY
ELECTRONICS ENGINEERING
5TH SEMESTER EEL305 MICROELECTRONICS
SOURCE: MICROELECTRONIC CIRCUITS
SEDRA-SMITH 6th ED CHAPTER 7
Broadband planar 90 degrees loaded-stub phase shifter
The differential phase shifter is an interesting four-port passive microwave network composed of two separate lines, the main line and the reference line, and providing stable phase difference between the two output signals over the specified bandwidth of interest. The most common differential phase shifter is the coupled-line Schiffman phase shifter. In this paper, a novel 90 degrees differential microstrip phase shifter configuration employing a half wavelength transmission line loaded with three open stubs is presented, the proposed design could achieve excellent performance with low phase variation over a wide bandwidth compared to the standard Schiffman phase shifter. The simulated results accomplished with the use of CST Microwave Studio and advanced design system (ADS), were found to be in good agreement and have shown that the proposed loaded-stub phase shifter achieved less than 1.1 dB insertion loss, greater than 13 dB return loss and constant 90±5 degrees phase shift over an 89 percent bandwidth.
Design and analysis of high gain diode predistortion
This paper presents the design and analysis of a high gain, broadband Schottky and PIN diode based RF
pre-distortion linearizer for TWTA. The circuit is using ABCD matrix approach. The simulation is
performed using Agilent ADS software. We have proposed a new linearizer circuit which can achieve a
high gain compared to existing linearizer designs.
Ece 523 project – fully differential two stage telescopic op amp
• Designed a two stage op-amp with first stage as a telescopic amplifier and second stage being a common source, in Cadence.
• Simulated the loop characteristics of the amplifier to have atleast 100 MHz Unity Gain Bandwidth, 65 dB gain and 60º phase margin (both differential loop and Common Mode) for three temperature (27,-40,100) corners.
• Extracted the layout of the design in Virtuoso (after passing DRC an LVS) and simulated the differential loop performances of the extracted netlist.
• Designed a third order Butterworth filter with 100 KHz corner frequency using the op-amp.
Double Side Band – Suppressed Carrier (DSB-SC) Modulation Demodulation using ...
This document describes a MATLAB SIMULINK model that implements Double Side Band Suppressed Carrier (DSB-SC) modulation and demodulation. It shows the DSB-SC modulator output based on an equation. It also demonstrates coherent detection of DSB-SC signals with modulation indices greater than one. Finally, it visualizes the frequency spectrum of both the modulated and demodulated signals to compare the placement of information in each case.
Differntial Input to Single Ended Output, Two stage Op-amp
This document summarizes a project to design a differential input, single ended output two-stage operational amplifier. The design approach was to bring all transistors into saturation at a common mode voltage of 0V and meet gain, phase margin, and unity gain frequency specifications. A compensation capacitor was increased to move the dominant pole in while a nulling resistor eliminated the effect of a zero, improving phase margin and unity gain frequency. Simulation results met all specifications, with an open loop gain of 67.97dB, phase margin of 75.3 degrees, and unity gain frequency of 15.29MHz. The input common mode range was -0.852V to 0.181V and output swing was -0.771V to 0
34.fixed bias without re
This document discusses fixed biasing of a BJT transistor in common emitter configuration. It explains how to analyze the bias circuit by locating the base-emitter and collector-emitter loops. The BE loop equation is derived as IB = (VCC - VBE)/RB. The CE loop equation is derived as VCE = VCC - ICRC. Constructing and simulating the fixed bias circuit allows determining the transistor's IC, IB, VCE, VB, VC, and VBC voltages.
Transmission lines
1) The document discusses transmission lines and their characteristics. It describes different types of transmission lines including coaxial lines, two-wire lines, and microstrip lines.
2) It presents the telegrapher's equations which model voltage and current on a transmission line as a function of position and time. These equations include parameters like inductance and capacitance per unit length.
3) Waves can propagate down transmission lines, maintaining their shape as they travel at a characteristic velocity. The wavelength depends on the wave velocity and frequency. Phasors are used to represent sinusoidal waves independent of time.
Electrical machines solved objective
This document contains sample questions from previous years' GATE exams related to electrical machines. It includes 20 multiple choice questions covering topics like induction motors, transformers, DC machines, and synchronous machines. The questions are at varying difficulty levels, ranging from one mark to two mark questions. The document also contains explanatory text and diagrams relating to some of the multiple choice questions.
Analog electronic circuit
1. The document discusses the principles of operation of p-n junction diodes and their use in analog electronic circuits. It describes how a diode only conducts current in one direction when forward biased and acts as an open switch when reverse biased.
2. Diode clipper circuits are introduced which can clip off portions of an input signal by only allowing the signal to pass through the diode when above or below a certain threshold set by a bias voltage. Parallel and series clipper configurations are examined along with their input-output characteristics.
3. Double-ended clipper circuits are described which can clip both the positive and negative portions of a signal simultaneously using two back-to-back diodes biased to conduct only
Ies electrical engineering - electrical machines
This document contains 30 multiple choice questions related to electrical machines. The questions cover topics like induction motors, transformers, synchronous machines, and DC machines. They assess understanding of concepts like rotor skewing, double cage motors, star-delta starting, transformer losses, synchronous generator operation, DC motor characteristics, and methods of speed control for induction motors. The questions are from previous years' GATE exams on the electrical engineering topic of electrical machines.
Two stage op amp design on cadence
This report details the design of a two-stage operational amplifier (op-amp) in Cadence. It begins with hand calculations of component parameters. A schematic is plotted and simulated for DC and AC analysis. The initial design does not meet specifications, so component parameters are modified through several iterations until specifications are met. Finally, geometry optimization using Mosek in MATLAB is presented, though long calculation times prevented results. The report demonstrates the op-amp design process from initial calculations through simulation and optimization to meet specifications.
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Broadband planar 90 degrees loaded-stub phase shifter
Broadband planar 90 degrees loaded-stub phase shifter
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Design and analysis of high gain diode predistortion
Ece 523 project – fully differential two stage telescopic op amp
Ece 523 project – fully differential two stage telescopic op amp
Double Side Band – Suppressed Carrier (DSB-SC) Modulation Demodulation using ...
Double Side Band – Suppressed Carrier (DSB-SC) Modulation Demodulation using ...
Differntial Input to Single Ended Output, Two stage Op-amp
Differntial Input to Single Ended Output, Two stage Op-amp
Similar to Chap3
Diode Applications & Transistor Basics
1. The document discusses the V-I characteristics of a p-n junction diode and describes its behavior under zero external voltage, forward bias, and reverse bias.
2. Rectifiers are introduced as circuits that convert AC to DC. Half-wave and full-wave rectifiers are described, including their circuit arrangements and operations. Centre-tap and bridge configurations are covered for full-wave rectification.
3. Zener diodes are discussed as properly doped diodes with a sharp breakdown voltage. They are always connected in reverse bias and have a defined zener voltage.
questions on diode analysis: Assignment6
This document contains the home assignment questions from an Introduction to Electronics course. It includes 9 questions related to analyzing circuits that contain diodes, rectifiers, and power supplies. The questions involve calculating voltage and current values, plotting waveforms, determining component ratings, and analyzing how circuits operate under different conditions.
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Daily Practice Paper_ Electronic Devices for JEE Main and NEET Candidates_For CBSE/ICSE and other state board students.
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This document discusses diodes and their applications. It covers rectifier circuits that convert AC to DC, including half-wave, full-wave, and bridge rectifiers. It also discusses limiting and clamping circuits, voltage doublers, and special diode types such as LEDs, photodiodes, Schottky diodes, zener diodes, and varactor diodes.
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D05432435
The document describes the design and simulation of three-phase three-level diode clamped and improved inverter configurations feeding an asynchronous motor drive. It discusses the operation of different multilevel inverter topologies including diode clamped and improved inverters. The topologies are analyzed under single phase one leg voltage circuit analysis. A split-single phase asynchronous motor model is used as the load. Simulation results of the inverter-motor drive systems using Matlab/Simulink are presented, including rotor currents, stator currents, rotor speed, electromagnetic torque, and three-phase output voltages. The number of circuit components in each inverter topology is also compared.
Comparative Evaluation of Three Phase Three Level Neutral Point Clamped Z-So...
The Z-impedance network coThree-level Z-source inverters are recent single-stage topological solutions
proposed for buck-boost energy conversion with all favorable advantages of
three-level switching retained. Despite their effectiveness in achieving voltage
buck-boost conversion, existing three-level Z-source inverters use two
impedance networks and two isolated dc sources, which can significantly
increase the overall system cost and require a more complex modulator for
balancing the network inductive voltage boosting. Offering a number of less
costly alternatives, this paper presents the design and control of two threelevel Z-source inverters, whose output voltage can be stepped down or up
using only a single impedance network connected between the dc input source
and either a neutral-point-clamped (NPC) or dc-link cascaded inverter
circuitry.
This paper investigates the carrier based modulation schemes (SPWM and
Modified SVPWM) of three-level three phase Z-source inverters with either
two Z-source networks or single Z-source network connected between the dc
sources and inverter circuitry. With the proper offset added for achieving both
optimized harmonic performance and fundamental output voltage, the
proposed modulation schemes of three-level Z-source inverters can satisfy the
expected boost operation under unbalanced modulation conditions. The
Simulation has been performed through Matlab/Simulink and relative
simulation results with conventional method have been presented to validate
the proposed methodnsists of L and C components connected in an X fashion.
The firing control of the Z-source inverter includes the shoot through states. The Zsource inverter advantageously utilizes the shoot-through state to boost the DC bus
voltage by gating on both the upper and lower switches of a phase leg. Three-level
neutral-point-clamped (NPC) inverters, having many inherent advantages, are
commonly used as the preferred topology for medium voltage ac drives [1], and have
recently been explored for other low-voltage applications including grid-interfacing
power converters and high-speed drive converters [2], [3]. Despite their generally
favorable output performance, NPC inverters are constrained by their ability to
perform only voltage-buck operation with buck-boost energy conversion, usually
achieved by connecting various dc-dc boost converters to the front ends of the dc-ac
inverters. These two-stage solutions are usually more costly and can be harder to
control, since they involve more active and passive components. Offering a singlestage solution, [4], [5] propose the buck-boost Z-source NPC inverter, whose
topology is illustrated in Fig. 1 (can be viewed as an extension from the two-level Zsource inverter proposed in [6]).
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This document contains an exam for an Electrical Circuits course, with two parts and five units. Part A contains 10 short answer questions covering various circuit analysis topics like transformations, inductance calculations, power factors, and Fourier transform properties. Part B contains longer problems and explanations across five units: Kirchhoff's laws and induction, three-phase systems, network analysis techniques like nodal analysis, network theorems, and transient responses. Sample problems are provided for each unit involving circuit diagrams and calculations of values like currents, voltages, power, and time-domain circuit analysis.
Vinay report
This document is a project report on a three phase full wave rectifier. It includes an index, certificate, acknowledgements, abstract, introduction on rectifiers and three phase rectifiers. It also includes the circuit diagram, description of circuit components, working principle, Simulink model, description of Simulink blocks used and conclusion on advantages and applications of the three phase full wave rectifier.
Data sheet of Diode.pptx
This document provides information on modeling and parameter extraction for diodes. It discusses:
1. Diode specification sheets include key parameters like forward voltage, maximum current, reverse saturation current, and temperature range.
2. Diode models include large signal DC and small-signal AC models. The DC model uses parameters like saturation current, series resistance, and emission coefficient. The AC model includes junction capacitance and dynamic conductance.
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Electronics
This document contains a practice exam for a Technical and Livelihood Education (T.L.E.) class on electronics. The exam tests students on electronics tools, components, diagrams, and concepts. It contains 40 multiple choice questions testing topics like electronic drawing tools, circuit components, schematic symbols, reference designations, and basic electrical concepts. It also lists additional questions to be answered through enumeration of schematic symbols and reference designations.
The Complete Diode Model
The document discusses the complete diode model, which consists of three main elements: (1) the barrier potential, or minimum voltage required for current to flow; (2) a small forward dynamic resistance representing voltage drop from current; and (3) a large internal reverse resistance accounting for reverse current. The complete model more accurately represents diode behavior in circuits compared to simpler models, as it takes into account factors like voltage drop and reverse current. Diodes can be visualized as switches that are open or closed depending on forward or reverse bias conditions.
Electrical Engineering - 2004 Unsolved Paper
This document contains an unsolved past paper for the GATE electrical engineering exam from 2004. It includes 46 multiple choice questions testing concepts in electrical circuits, electronics, electric machines, power systems and measurements. The questions cover topics such as parallel resonance, capacitors, inductors, transformers, motors, power supplies, and more.
Simulation and Experimental Verification of Single-Phase Pwm Boost -Rectifier...
This document summarizes a simulation and experimental study of a single-phase PWM boost rectifier with controlled power factor. Key points:
- The rectifier uses IGBT transistors in a full bridge configuration to provide PWM control of input current and regulated DC output voltage.
- Simulation results in MATLAB show the rectifier can operate at unity power factor as well as leading and lagging power factors, with low harmonic distortion of input current.
- An experimental prototype was built using an Intel microcontroller to implement the control algorithm. Experimental waveforms verify unity power factor operation with sinusoidal input current.
N367984
This document summarizes a research paper on a bidirectional DC-DC converter with a Z-source network. The proposed converter aims to increase the output voltage level and regulation range compared to traditional bidirectional converters. It uses a fully bridge symmetrical circuit configuration with voltage and current sources. Simulation results using MATLAB show the converter can reduce current stress and improve efficiency for applications in hybrid electric vehicles and renewable energy systems. Key aspects analyzed include the converter's operating principles, voltage regulation model, and simulation circuit and results demonstrating operation in forward and reverse modes.
Electrical circuits & fields
This document contains 40 multiple choice questions from previous GATE exams on the topic of electrical circuits and fields. The questions cover concepts such as circuit analysis, network theorems, capacitors, inductors, RLC circuits, and more. Sample questions test the calculation of current, voltage, power, impedance, and time constants in different circuit configurations.
Lect 05 Diodes and applications - Part2.pptx
This document provides a summary of Lecture 05 which covered diode applications and special diode types. It discusses how diodes can be used in rectifier circuits to convert AC to DC for powering electronics. Different rectifier circuit types are examined including half-wave, full-wave, and bridge rectifiers. Filter capacitors are also discussed for smoothing the pulsating DC output of rectifiers. Additional applications like limiting, clamping, and voltage doubling circuits are covered. Finally, special diode types such as LEDs, photodiodes, Schottky diodes, varactor diodes, and Zener diodes are introduced.
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This document contains an unsolved past paper for the GATE electrical engineering exam from 2007. It consists of 30 multiple choice questions covering various topics in electrical engineering, including circuits, electronics, power systems, control systems, and electromagnetics. The questions test fundamental concepts as well as numerical and analytical problem solving abilities.
ch3specialpurposediode-150303092453-conversion-gate01.pdf
The document discusses different types of special diodes, including zener diodes, varactor diodes, light-emitting diodes (LEDs), photodiodes, Schottky diodes, laser diodes, PIN diodes, current regulator diodes, step-recovery diodes, and tunnel diodes. Zener diodes operate in the reverse breakdown region to maintain a constant voltage. Varactor diodes act as variable capacitors when reverse biased. LEDs emit light when forward biased and photodiodes convert light to electrical energy in reverse bias. Schottky diodes have a metal-semiconductor junction instead of a p-n junction. Laser diodes produce monochromatic light. PIN
ADE Unit1.pptx
The document discusses diodes and their applications in rectification circuits. It introduces PN junction diodes and their characteristics such as static and dynamic resistances. It describes equivalent circuit models and load line analysis of diodes. It also discusses diffusion and transition capacitances in diodes. Applications covered include using diodes as switches in rectification circuits like half wave, full wave, and bridge rectifiers. It compares the parameters of different rectifier circuits such as ripple factor, efficiency, and peak inverse voltage. Finally, it briefly discusses using capacitive filters with rectifier circuits.
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Wi fi hacking
Chances are you have a Wi-Fi network at home, or live close to one (or more) that tantalizingly pops up in a list whenever you boot up the laptop.
The problem is, if there's a lock next to the network name (AKA the SSID, or service set identifier), that indicates security is activated. Without the password or passphrase, you're not going to get access to that network, or the sweet, sweet internet that goes with it.
D dos attack
A distributed denial-of-service (DDoS) attack is a malicious attempt to disrupt normal traffic of a targeted server, service or network by overwhelming the target or its surrounding infrastructure with a flood of Internet traffic. DDoS attacks achieve effectiveness by utilizing multiple compromised computer systems as sources of attack traffic. Exploited machines can include computers and other networked resources such as IoT devices. From a high level, a DDoS attack is like a traffic jam clogging up with highway, preventing regular traffic from arriving at its desired destination.
Notes chapter 6
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together.
Interface notes
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together.
Chapter6 2
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together.
Chapter6
There are two methods for interfacing memory and I/O devices with a microprocessor: I/O mapped I/O and memory mapped I/O. I/O mapped I/O treats I/O devices and memory separately, while memory mapped I/O treats I/O devices as memory. I/O mapped I/O can use either 8 or 16 address lines, allowing connection of up to 256 fixed I/O devices or 65,536 variable I/O devices. Specific instructions like IN, OUT, and MOV are used to access I/O ports depending on whether it is fixed or variable addressing.
8086 cpu 1
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together.
Chapter 6 notes
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together.
Chapter 5 notes
This document discusses procedures, macros, and stack operations in assembly language. It explains that procedures allow repetitive code to be written once and called multiple times to save memory. Procedures use stack operations to push return addresses and data onto the stack. Macros simplify programming by reducing repetitive code. Procedures are called at runtime, while macro calls are replaced with their body at assembly time.
Chap6 procedures & macros
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together.
Chapter 5 notes new
Procedures and macros allow code to be reused in assembly language programs. Procedures are subroutines that are called using CALL and RET instructions. Macros allow short, repetitive code sequences to be defined once and reused by replacing the macro call with its body code. Some key differences are that procedures occupy less memory than macros since macro code is generated each time, while procedures' code is only stored once. Procedures are accessed using CALL while macros are accessed by name.
Notes arithmetic instructions
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
Notes all instructions
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
Notes aaa aa
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
Notes 8086 instruction format
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
Misc
This document describes the Jcc family of conditional jump instructions in x86 assembly language. It provides the instruction name, description of the condition tested, and any alternative mnemonics or opposite instructions. The instructions test various CPU flags like carry, zero, sign, overflow, parity, and compare values based on signed or unsigned arithmetic.
Copy of 8086inst logical
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
Copy of 8086inst logical
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
Chapter3 program flow control instructions
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
Chapter3 8086inst stringsl
A microprocessor is an electronic component that is used by a computer to do its work. It is a central processing unit on a single integrated circuit chip containing millions of very small components including transistors, resistors, and diodes that work together. Some microprocessors in the 20th century required several chips. Microprocessors help to do everything from controlling elevators to searching the Web. Everything a computer does is described by instructions of computer programs, and microprocessors carry out these instructions many millions of times a second. [1]
Microprocessors were invented in the 1970s for use in embedded systems. The majority are still used that way, in such things as mobile phones, cars, military weapons, and home appliances. Some microprocessors are microcontrollers, so small and inexpensive that they are used to control very simple products like flashlights and greeting cards that play music when you open them. A few especially powerful microprocessors are used in personal computers.
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3:国家专业人才认证中心颁发入库证书
4:这个认证书并且可以归档倒地方
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#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
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- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
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- Create role with administrative privileges.
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Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
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Chap3
- 1. Chapter 3 – Diodes Introduction http://engr.calvin.edu/PRibeiro_WEBPAGE/courses/engr311/311_frames.html
- 2. The ideal diode: (a) diode circuit symbol; (b) i-v characteristic; (c) equivalent circuit in the reverse direction; (d) equivalent circuit in the forward direction. The Ideal Diode
- 3. (a) Rectifier circuit. (b) Input waveform. (c) Equivalent circuit when (d) Equivalent circuit when v1 0 (e) Output waveform. Rectifier Circuit
- 4. The i-v characteristic of a silicon junction diode. Diode – i-v Characteristic
- 5. The diode i-v relationship with some scales expanded and others compressed in order to reveal details. Diode – i-v Characteristic
- 6. Simplified physical structure of the junction diode. (Actual geometries are given on Appendix A.) Diode – Simplified Physical Structure
- 7. (a) The pn junction with no applied voltage (open-circuited terminals). (b) The potential distribution along an axis perpendicular to the junction. Diode – Physical Structure
- 8. The pn junction excited by a constant-current source I in the reverse direction. To avoid breakdown, I is kept smaller than Is. Note that the depletion layer widens and the barrier voltage increases by Vr volts, which appears between the terminals as a reverse voltage. Diode –Physical Structure
- 9. The charge stored on either side of the depletion layer as a function of the reverse voltage Vr.
- 10. The pn junction excited by a constant-current source supplying a current I in the forward direction. The depletion layer narrows and the barrier voltage decreases by V volts, which appears as an external voltage in the forward direction.
- 11. Minority-carrier distribution in a forward-biased pn junction. It is assumed that the p region is more heavily doped than the n region; NA ND.
- 12. A simple diode circuit.
- 13. Fig. 3.19 Graphical analysis of the circuit in Fig. 3.18.
- 14. Fig. 3.20 Approximating the diode forward characteristic with two straight lines.
- 15. Fig. 3.21 Piecewise-linear model of the diode forward characteristic and its equivalent circuit representation.
- 16. Fig. 3.23 Development of the constant-voltage-drop model of the diode forward characteristics. A vertical straight line (b) is used to approximate the fast-rising exponential.
- 17. Fig. 3.24 The constant-voltage-drop model of the diode forward characteristic and its equivalent circuit representation.
- 18. Fig. 3.25 Development of the diode small-signal model. Note that the numerical values shown are for a diode with n = 2.
- 19. Fig. 3.26 Equivalent circuit model for the diode for small changes around bias point Q. The incremental resistance rd is the inverse of the slope of the tangent at Q, and VD0 is the intercept of the tangent on the vD axis (see Fig. 3.25).
- 20. Fig. 3.27 The analysis of the circuit in (a), which contains both dc and signal quantities, can be performed by replacing the diode with the model of Fig. 3.26, as shown in (b). This allows separating the dc analysis [the circuit in (c)] from the signal analysis [the circuit in (d)].
- 21. Fig. 3.30 Circuit symbol for a zener diode.
- 22. Fig. 3.31 The diode i-v characteristic with the breakdown region shown in some detail.
- 23. Fig. 3.32 Model for the zener diode.
- 24. Fig. 3.36 Block diagram of a dc power supply.
- 25. Fig. 3.37 (a) Half-wave rectifier. (b) Equivalent circuit of the half-wave rectifier with the diode replaced with its battery-plus- resistance model. (c) transfer characteristic of the rectifier circuit. (d) Input and output waveforms, assuming that rD R.
- 26. Fig. 3.38 Full-wave rectifier utilizing a transformer with a center-tapped secondary winding. (a) Circuit. (b) Transfer characteristic assuming a constant-voltage-drop model for the diodes. (c) Input and output waveforms.
- 27. Fig. 3.39 The bridge rectifier: (a) circuit and (b) input and output waveforms.
- 28. Fig. 3.41 Voltage and current waveforms in the peak rectifier circuit with CR T. The diode is assumed ideal.
- 29. Fig. 3.46 A variety of basic limiting circuits.