display barcode in ssrs report CHARACTERISTICS OF BIPOLAR JUNCTION TRANSISTORS in Software

Draw Code-39 in Software CHARACTERISTICS OF BIPOLAR JUNCTION TRANSISTORS

CHARACTERISTICS OF BIPOLAR JUNCTION TRANSISTORS
ANSI/AIM Code 39 Reader In None
Using Barcode Control SDK for Software Control to generate, create, read, scan barcode image in Software applications.
ANSI/AIM Code 39 Encoder In None
Using Barcode encoder for Software Control to generate, create Code 39 image in Software applications.
Solved Problems
Code39 Decoder In None
Using Barcode recognizer for Software Control to read, scan read, scan image in Software applications.
Creating Code39 In Visual C#
Using Barcode creator for .NET framework Control to generate, create Code 39 image in .NET framework applications.
3.1 For a certain BJT, 50; ICEO 3 A, and IC 1:2 mA.
Encoding USS Code 39 In Visual Studio .NET
Using Barcode printer for ASP.NET Control to generate, create Code 39 Full ASCII image in ASP.NET applications.
Creating ANSI/AIM Code 39 In VS .NET
Using Barcode creator for VS .NET Control to generate, create Code 39 Extended image in .NET framework applications.
By (3.2), IB And, directly from (3.4), IE IC IB 1:2 10 3 23:94 10 6 1:224 mA IC ICEO 1:2 10 3 3 10 6 23:94 A 50
Code 39 Extended Encoder In VB.NET
Using Barcode generator for .NET framework Control to generate, create Code 39 Extended image in VS .NET applications.
GS1 - 12 Drawer In None
Using Barcode generator for Software Control to generate, create UPC Code image in Software applications.
Find IB and IE .
Print Code 39 In None
Using Barcode generation for Software Control to generate, create Code 39 Full ASCII image in Software applications.
EAN-13 Supplement 5 Maker In None
Using Barcode creator for Software Control to generate, create EAN-13 Supplement 5 image in Software applications.
A Ge transistor with 100 has a base-to-collector leakage current ICBO of 5 A. If the transistor is connected for common-emitter operation, nd the collector current for (a) IB 0 and (b) IB 40 A.
UCC - 12 Generation In None
Using Barcode printer for Software Control to generate, create UCC - 12 image in Software applications.
Make Code 128C In None
Using Barcode creator for Software Control to generate, create Code-128 image in Software applications.
(a) With IB 0, only emitter-to-collector leakage ows, and, by (3.3), ICEO 1 ICBO 100 1 5 10 6 505 A (b) If we substitute (3.3) into (3.2) and solve for IC , we get IC IB 1 ICBO 100 40 10 6 101 5 10 6 4:505 mA
Generate ISSN In None
Using Barcode generation for Software Control to generate, create International Standard Serial Number image in Software applications.
Painting Bar Code In Visual Basic .NET
Using Barcode creation for VS .NET Control to generate, create bar code image in .NET framework applications.
A transistor with 0:98 and ICBO 5 A is biased so that IBQ 100 A. Find ICQ and IEQ .
UPC Symbol Decoder In Java
Using Barcode recognizer for Java Control to read, scan read, scan image in Java applications.
Making Bar Code In Visual C#
Using Barcode printer for VS .NET Control to generate, create barcode image in Visual Studio .NET applications.
By (3.2) and (3.3), so that And, from (3.2) and (3.4), ICQ IBQ ICEO 49 100 10 6 0:25 10 3 5:15 mA IEQ ICQ IBQ 5:15 10 3 100 10 6 5:25 mA ICEO 0:98 49 1 1 0:98 1 ICBO 49 1 5 10 6 0:25 mA
Encoding ECC200 In Java
Using Barcode drawer for Java Control to generate, create Data Matrix 2d barcode image in Java applications.
Make Bar Code In Java
Using Barcode generator for Java Control to generate, create bar code image in Java applications.
The transistor of Fig. 3-11 has 0:98 and a base current of 30 A. and (c) IEQ . Assume negligible leakage current.
Encode 1D In VB.NET
Using Barcode creator for .NET framework Control to generate, create Linear image in .NET framework applications.
Bar Code Drawer In Objective-C
Using Barcode generation for iPhone Control to generate, create barcode image in iPhone applications.
Find
(a) ;
b ICQ ,
RC C RB B iB +
LCE _
+ _ VCC
+ _ VBB
E iE
Fig. 3-11
CHARACTERISTICS OF BIPOLAR JUNCTION TRANSISTORS 0:98 49 1 1 0:98
[CHAP. 3
(b) From (3.2) with ICEO 0, we have ICQ IBQ 49 30 10 6 1:47 mA: (c) From (3.1) with ICBO 0, IEQ ICQ 1:47 1:50 mA 0:98
The transistor circuit of Fig. 3-11 is to be operated with a base current of 40 A and VBB 6 V. The Si transistor VBEQ 0:7 V) has negligible leakage current. Find the required value of RB .
By KVL around the base-emitter loop, VBB IBQ RB VBEQ so that RB VBB VBEQ 6 0:7 132:5 k IBQ 40 10 6
In the circuit of Fig. 3-11, 100; IBQ 20 A, VCC 15 V, and RC 3 k. If ICBO 0, nd (a) IEQ and (b) VCEQ . (c) Find VCEQ if RC is changed to 6 k and all else remains the same.
a 100 0:9901 1 101
Now, using (3.2) and (3.1) with ICBO ICEO 0, we get ICQ IBQ 100 20 10 6 2 mA and IEQ ICQ 2 10 3 2:02 mA 0:9901
(b) From an application of KVL around the collector circuit, VCEQ VCC ICQ RC 15 2 3 9 V (c) If IBQ is unchanged, then ICQ is unchanged. The solution proceeds as in part b:
VCEQ VCC ICQ RC 15 2 6 3 V
The transistor of Fig. 3-12 is a Si device with a base current of 40 A and ICBO 0. If VBB 6 V, RE 1 k, and 80, nd (a) IEQ and (b) RB . (c) If VCC 15 V and RC 3 k, nd VCEQ .
C iC RB B iB + _ VBB RE E
+ iE _ VCC
Fig. 3-12
CHAP. 3]
CHARACTERISTICS OF BIPOLAR JUNCTION TRANSISTORS 80 0:9876 1 81
Then combining (3.1) and (3.2) with ICBO ICEO 0 gives IEQ IBQ 40 10 6 3:226 mA 1 1 0:9876
(b) Applying KVL around the base-emitter loop gives VBB IBQ RB VBEQ IEQ RE or (with VBEQ equal to the usual 0.7 V for a Si device) RB (c) VBB VBEQ IEQ RE 6 0:7 3:226 1 51:85 k IBQ 40 10 6
From (3.2) with ICEO 0, ICQ IBQ 80 40 10 6 3:2 mA Then, by KVL around the collector circuit, VCEQ VCC IEQ RE ICQ RC 15 3:226 1 3:2 3 2:174 V
Assume that the CE collector characteristics of Fig. 3-9(b) apply to the transistor of Fig. 3-11. If IBQ 20 A, VCEQ 9 V, and VCC 14 V, nd graphically (a) ICQ ; b RC ; c IEQ , and (d) if leakage current is negligible.
(a) The Q point is the intersection of iB IBQ 20 A and vCE VCEQ 9 V. The dc load line must pass through the Q point and intersect the vCE axis at VCC 14 V. Thus, the dc load line can be drawn on Fig. 3-9(b), and ICQ 2:25 mA can be read as the iC coordinate of the Q point. (b) The iC intercept of the dc load line is VCC =Rdc VCC =RC , which, from Fig. 3-9(b), has the value 6.5 mA; thus, RC (c) VCC 14 2:15 k 6:5 10 3 6:5 10 3
By (3.4), IEQ ICQ IBQ 2:25 10 3 20 10 6 2:27 mA. ICQ 2:25 10 3 112:5 IBQ 20 10 6
Copyright © OnBarcode.com . All rights reserved.