Presentation is loading. Please wait.

Presentation is loading. Please wait.

Spring 2007EE130 Lecture 22, Slide 1 Lecture #22 OUTLINE The Bipolar Junction Transistor – Introduction Reading: Chapter 10.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Spring 2007EE130 Lecture 22, Slide 1 Lecture #22 OUTLINE The Bipolar Junction Transistor – Introduction Reading: Chapter 10."— Presentation transcript:

1 Spring 2007EE130 Lecture 22, Slide 1 Lecture #22 OUTLINE The Bipolar Junction Transistor – Introduction Reading: Chapter 10

2 Spring 2007EE130 Lecture 22, Slide 2 Bipolar Junction Transistors (BJTs) Over the past 3 decades, the higher layout density and low-power advantage of CMOS technology has eroded away the BJT’s dominance in integrated-circuit products. (higher circuit density  better system performance) BJTs are still preferred in some digital-circuit and analog-circuit applications because of their high speed and superior gain. faster circuit speed  larger power dissipation  limits integration level to ~10 4 circuits/chip

3 Spring 2007EE130 Lecture 22, Slide 3 Introduction The BJT is a 3-terminal device –2 types: PNP and NPN V EB = V E – V B V CB = V C – V B V EC = V E – V C = V EB - V CB V BE = V B – V E V BC = V B – V C V CE = V C – V E = V CB - V EB The convention used in the textbook does not follow IEEE convention (currents defined as positive flowing into a terminal) We will follow the convention used in the textbook

4 Spring 2007EE130 Lecture 22, Slide 4 Charge Transport in a BJT Consider a reverse-biased pn junction: –Reverse saturation current depends on rate of minority-carrier generation near the junction  can increase reverse current by increasing rate of minority-carrier generation:  Optical excitation of carriers  Electrical injection of minority carriers into the neighborhood of the junction

5 Spring 2007EE130 Lecture 22, Slide 5 I Cp I Cn PNP BJT Operation (Qualitative) “Active Bias”: V EB > 0 (forward bias), V CB < 0 (reverse bias) “Emitter” “Base” “Collector”

6 Spring 2007EE130 Lecture 22, Slide 6 Important features of a good transistor: –Injected minority carriers do not recombine in the neutral base region –Emitter current is comprised almost entirely of carriers injected into the base (rather than carriers injected into the emitter BJT Design

Download ppt "Spring 2007EE130 Lecture 22, Slide 1 Lecture #22 OUTLINE The Bipolar Junction Transistor – Introduction Reading: Chapter 10."

Similar presentations

1 Chapter 10. Bipolar junction transistor fundamentals Invented in 1948 by Bardeen, Brattain and Shockley Contains three adjoining, alternately doped semiconductor.

1 Chapter 10. Bipolar junction transistor fundamentals Invented in 1948 by Bardeen, Brattain and Shockley Contains three adjoining, alternately doped semiconductor.
Bipolar Junction Transistors ECE 2204. Three Terminal Device Terminals ▫Emitter  The dominant carriers are emitted from the region (equivalent to the.

Bipolar Junction Transistors ECE Three Terminal Device Terminals ▫Emitter  The dominant carriers are emitted from the region (equivalent to the.
Optical Sensor.

Optical Sensor.
Gain medium Incoherent Light Coherent Light ECE 663 Transistor/switch/amplifier – a 3 terminal device Source Drain Gate Valve Artery Vein Emitter Collector.

Gain medium Incoherent Light Coherent Light ECE 663 Transistor/switch/amplifier – a 3 terminal device Source Drain Gate Valve Artery Vein Emitter Collector.
Chapter 5 Bipolar Junction Transistors

Chapter 5 Bipolar Junction Transistors
Physics of Bipolar Junction Transistor Section 4.1-4.3.

Physics of Bipolar Junction Transistor Section
UNIVERSAL COLLEGE OF ENGG. AND TECH.. B IPOLAR J UNCTION T RANSISTORS EE314.

UNIVERSAL COLLEGE OF ENGG. AND TECH.. B IPOLAR J UNCTION T RANSISTORS EE314.
Chapter 4 Bipolar Junction Transistor

Chapter 4 Bipolar Junction Transistor
Spring 2007EE130 Lecture 24, Slide 1 Lecture #24 HW#8 ANNOUNCEMENTS Start Problem 4 early! Note that Problem 3f has been revised OUTLINE The Bipolar Junction.

Spring 2007EE130 Lecture 24, Slide 1 Lecture #24 HW#8 ANNOUNCEMENTS Start Problem 4 early! Note that Problem 3f has been revised OUTLINE The Bipolar Junction.
Bipolar Junction Transistors EE314. Chapter 13: Bipolar Junction Transistors 1.History of BJT 2.First BJT 3.Basic symbols and features 4.A little bit.

Bipolar Junction Transistors EE314. Chapter 13: Bipolar Junction Transistors 1.History of BJT 2.First BJT 3.Basic symbols and features 4.A little bit.
Spring 2007EE130 Lecture 23, Slide 1 Lecture #23 QUIZ #3 Results (undergraduate scores only, N = 39) Mean = 22.1; Median = 22; Std. Dev. = 1.995 High =

Spring 2007EE130 Lecture 23, Slide 1 Lecture #23 QUIZ #3 Results (undergraduate scores only, N = 39) Mean = 22.1; Median = 22; Std. Dev. = High =
EE105 Fall 2007Lecture 6, Slide 1Prof. Liu, UC Berkeley Lecture 6 OUTLINE BJT (cont’d) – PNP transistor (structure, operation, models) BJT Amplifiers –

EE105 Fall 2007Lecture 6, Slide 1Prof. Liu, UC Berkeley Lecture 6 OUTLINE BJT (cont’d) – PNP transistor (structure, operation, models) BJT Amplifiers –
EE105 Fall 2011Lecture 6, Slide 1Prof. Salahuddin, UC Berkeley Lecture 6 OUTLINE PN Junction Diodes – Reverse Breakdown – Large and Small signal models.

EE105 Fall 2011Lecture 6, Slide 1Prof. Salahuddin, UC Berkeley Lecture 6 OUTLINE PN Junction Diodes – Reverse Breakdown – Large and Small signal models.
Current Components inside Bipolar Junction Transistor (BJT) NPN BJT.

Current Components inside Bipolar Junction Transistor (BJT) NPN BJT.
Spring 2007EE130 Lecture 27, Slide 1 Lecture #27 OUTLINE BJT small signal model BJT cutoff frequency BJT transient (switching) response Reading: Finish.

Spring 2007EE130 Lecture 27, Slide 1 Lecture #27 OUTLINE BJT small signal model BJT cutoff frequency BJT transient (switching) response Reading: Finish.
Chapter 4 – Bipolar Junction Transistors (BJTs)

Chapter 4 – Bipolar Junction Transistors (BJTs)
EE105 Fall 2007Lecture 4, Slide 1Prof. Liu, UC Berkeley Lecture 4 OUTLINE Bipolar Junction Transistor (BJT) – General considerations – Structure – Operation.

EE105 Fall 2007Lecture 4, Slide 1Prof. Liu, UC Berkeley Lecture 4 OUTLINE Bipolar Junction Transistor (BJT) – General considerations – Structure – Operation.
Lecture #25 OUTLINE BJT: Deviations from the Ideal

Lecture #25 OUTLINE BJT: Deviations from the Ideal
© 2012 Eric Pop, UIUCECE 340: Semiconductor Electronics ECE 340 Lecture 38 Introduction to Bipolar Junction Transistor (BJT) Next 4 lectures on the BJT.

© 2012 Eric Pop, UIUCECE 340: Semiconductor Electronics ECE 340 Lecture 38 Introduction to Bipolar Junction Transistor (BJT) Next 4 lectures on the BJT.
Dr. Nasim Zafar Electronics 1 EEE 231 – BS Electrical Engineering Fall Semester – 2012 COMSATS Institute of Information Technology Virtual campus Islamabad.

Dr. Nasim Zafar Electronics 1 EEE 231 – BS Electrical Engineering Fall Semester – 2012 COMSATS Institute of Information Technology Virtual campus Islamabad.

Similar presentations

Ads by Google