Physics 121 Lab 6A: Ohmic versus Non

... Ohm’s law applies to each resistor in a circuit – even a complicated circuit with many resistors. V in the formula is the voltage difference between the two ends of any one of one of the resistors, I is the current through that same resistor; and R is the resistance of that resistor. The unit for re ...

File - Go ELECTRONICS

1. Voltage Divider Bias

... DC load line significance is that regardless of the behavior of the transistor, the collector current IC and the collector-emitter voltage VCE must always lie on the load line, depends ONLY on the VCC, RC and RE . ...

ES 3: Introduction to Electrical Systems

... element by connecting the element to the “V  Hz” jack and the “COM” jack. Switch the FUNCTION button to  and select the proper RANGE (i.e., the smallest possible range). In this configuration, the multimeter applies a DC voltage to the circuit element and measures the current that flows through th ...

TLV5638 - Texas Instruments

... The resistor string output voltage is buffered by a x2 gain rail-to-rail output buffer. The buffer features a Class AB output stage to improve stability and reduce settling time. The programmable settling time of the DAC allows the designer to optimize speed vs power dissipation. With its on-chip pr ...

MEEPE 201 Solid State DC and AC Drives

... (Answer all Questions) ...

FPF2172 IntelliMAX™ Advanced Load Management Products FPF2172 IntelliM

... of the IntelliMAXTM series load switch with a very low forward voltage drop Schottky barrier rectifier. The integrated solution provides full protection to systems and loads which may encounter large current conditions in a very compact MLP 3x3 package. This device contain a 0.125Ω current-limited P ...

Chapter03

... Fig. 3.5: Experiment to show that I increases in direct proportion to V with the same R. (a) Circuit with variable V but constant R. (b) Table of increasing I for higher V. (c) Graph of V and I values. This is a linear volt-ampere characteristic. It shows a direct proportion between V and I. Copyrig ...

(V).

... Determine the required resistance value as R = V / I. Calculate the power dissipated by the resistor using any of the power formulas. Select a wattage rating for the resistor that will provide an adequate cushion between the actual power dissipation and the resistor’s power rating. Ideally, ...

Saftronics Inc.

Basic Physical Concepts

... of current in a household utility circuit. An electric iron draws approximately 10 A; an entire household normally uses between 10 and 50 A, depending on the size of the house and the kinds of appliances it has, and also on the time of day, week, or year. The amount of current that flows in an elect ...

Introduction to DC-DC Conversion – Cont.

V. Optimization of welding transformer

... B. Determination of air gap length The determination of air gap length consists of two steps which are repeated until they do not give an adequate result. The magnetic shunt is now filling the whole space between the primary and secondary windings. The used excitation is same as in the previous case ...

ADP3155 5-Bit Programmable Triple Power Supply Controller for

A Bi-Polar Triple-Output Converter with Duty Cycle Estimation

... [1]-[12]. Predictive control of DC-DC converters has been discussed in [13]-[16]. A Single-Inductor converter with all types, buck, boost and inverted outputs (SIBBI) has been proposed in [12] and is shown in Figure 1. The inductor is initially charged by making S0 ON. When S0 is opened, S1 is close ...

ECE 331: Electronics Principles I Fall 2013

... How linear is the transconductance in the saturation region? Do you prefer gm to be large Or small when designing the amplifier using MOS transistors ? With the same size and Overdrive voltage, assume no channel length modulation, will you prefer PMOS or NMOS when you design a high speed high gain a ...

MAX8655 Highly Integrated, 25A, Wide-Input, Internal MOSFET, Step-Down Regulator General Description

... The MAX8655 synchronous-PWM buck regulator operates from a 4.5V to 25V input and generates an output voltage adjustable from 0.7V to 5.5V at loads up to 25A. Integrated power MOSFETs provide a small footprint, ease of layout, and reduced EMI. Removing the board trace inductances ensures the highest ...

TOPIC 5 , !0 (New) Part 1 electric_currents_and_fields

... c) At what rate is energy delivered to the 15 Ω resistor? ( rate = power) P = I2 R = ( 0.3)2 x 15 Ω = 1.35 W ...

HITEC 2014 Power Point Presentation

... technical theory to become isolated from application in such a way as to cause the student to “silo” the knowledge they have gained separately from its practical application. • When this occurs students are far more likely to rely upon rote memory rather than the mastery of concepts and use memoriza ...

MIDRANGE INPUT SYNCHRONOUS BUCK CONTROLLER WITH ADVANCED SEQUENCING AND OUTPUT MARGINING TPS40100 FEATURES

... overcurrent) is true differential and can be done using the inductor DC resistance (with a R-C filter) or with a separate sense resistor in series with the inductor. The overcurrent level is programmable independently from the amount of current feedback providing greater application flexibility. Lik ...

UT54ACS169 - Aeroflex Microelectronic Solutions

TPS62110 数据资料 dataSheet 下载

... synchronous step-down dc-dc converters that are ideally suited for systems powered from a 2-cell Li-ion battery or from a 12-V or 15-V rail. The TPS6211x is a synchronous PWM converter with integrated N- and P-channel power MOSFET switches. Synchronous rectification is used to increase efficiency an ...

A Fast Concurrent Power-Thermal Model for Sub-100nm

LM3875 Overture Audio Power Amp Series HPerformance 56W

... Although the optional external components have specific desired functions that are designed to reduce the bandwidth and eliminate unwanted high frequency oscillations they may cause certain undesirable effects when they interact. Interaction may occur for components whose reactances are in close pro ...

Chapter28B - Cobb Learning

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Current mirror

A current mirror is a circuit designed to copy a current through one active device by controlling the current in another active device of a circuit, keeping the output current constant regardless of loading. The current being 'copied' can be, and sometimes is, a varying signal current. Conceptually, an ideal current mirror is simply an ideal inverting current amplifier that reverses the current direction as well or it is a current-controlled current source (CCCS). The current mirror is used to provide bias currents and active loads to circuits. It can also be used to model a more realistic current source (since ideal current sources don't exist).The circuit topology covered here is one that appears in many monolithic ICs. It is a Widlar mirror without an emitter degeneration resistor in the follower (output) transistor. This topology can only be done in an IC as the matching has to be extremely close and cannot be achieved with discretes.Another topology is the Wilson mirror. The Wilson mirror solves the Early effect voltage problem in his design.

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