vb.net barcode reader source code Shown in Figure P914 is a common-emitter in Software

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921 Shown in Figure P914 is a common-emitter
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ampli er stage with: VCC R1 RC RL vi = 15 V C = 047 F = 220 k R2 = 55 k =3k RE = 710 =3k RS = 06 k = Vio sin( t) Vio = 10 mV VCEQ = 761 V
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_ VGD + G iG + VGS_
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SS _ S iS (a)
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A DC analysis gives the DC operating point or Q point: IBQ = 199 A
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The transistor is an npn silicon transistor with a transfer characteristic and beta: iC IS evBE /VT = IS eVBEQ +vbe /VT = 100
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iS (b)
Figure P922
The device i-v characteristic is plotted in Figure P921 a Determine the no-load large signal gain (vo /vi ) b Sketch the waveform of the output voltage as a function of time c Discuss how the output voltage is distorted compared to the input waveform
923 The transistors shown in Figure P923 have
|VT | = 3 V Determine the operating region
+ 25 V 1V + 2V + (b) + 6V 5V + + (c) 2V + (d)
6 Saturation 5 4 iC (mA) 3 2 1 0
60 50 AC load line (no load) iB( a) VCE = 6V 40 ic = 2a t = 2 30 t = 0, , 2 20 Q 15 3 t = 2 10 Cutoff 5 1 2 4 6 8 10 12 14 16 18 DC load line VCE(v)
25 V + (a)
1V
Figure P923
924 The three terminals of an n-channel
enhancement-mode MOSFET are at potentials of 4 V, 5 V, and 10 V with respect to ground Draw the circuit symbol, with the appropriate voltages at each terminal, if the device is operating a In the ohmic region b In the active region
Figure P921
Section 2: Field-Effect Transistors 922 Shown in Figure P922 are the circuit symbols for a
depletion-mode and an enhancement-mode MOSFET
925 An enhancement-type NMOS transistor with
VT = 2 V has its source grounded and a 3-VDC source
Part II
Electronics
connected to the gate Determine the operating state if a vD = 05 V b vD = 1 V c vD = 5 V
1 k D vG G S
vD VDD = 5 V
926 In the circuit shown in Figure P926, the p-channel
transistor has VT = 2 V and k = 10 mA/V 2 Find R and vD for iD = 04 mA
+20 V
vG iD 0
Figure P932
933 A JFET having Vp = 2 V and IDSS = 8 mA is
Figure P926
operating at vGS = 1 V and a very small vDS Find a rDS b vGS at which rDS is half of its value in (a)
927 An enhancement-type NMOS transistor has
934 Shown in Figure P934 is the schematic for a
common-source ampli er stage Determine the DC operating point and verify that the device is operating in the saturation region IDSS R1 RD RL RSS = 1125 mA VT = 15 V = 132 M R2 = 22 M =4k RS = 4 k = 13 k C = 047 F = 07 k VDD = 12 V
VT = 2 V and iD = 1 mA when vGS = vDS = 3 V Find the value of iD for vGS = 4 V
928 An n-channel enhancement-mode MOSFET is
operated in the ohmic region, with vDS = 04 V and VT = 32 V The effective resistance of the channel is given by RDS = 500/(VGS 32) Find iD when vGS = 5 V, RDS = 500 , and vGD = 4 V
929 An n-channel JFET has Vp = 28 V It is
operating in the ohmic region, with vGS = 1 V, vDS = 005 V, and iD = 03 mA Find iD if a vGS = 1 V, vDS = 008 V b vGS = 0 V, vDS = 01 V c vGS = 32 V, vDS = 006 V VT = 25 V has its source grounded and a 4-VDC source connected to the gate Find the operating region of the device if a vD = 05 V b vD = 15 V
ii C + RSS Vi + V _S _
RD D R1 C
+ VDD _
io RL
930 An enhancement-type NMOS transistor with
_ Vo +
G R2 S
931 An enhancement-type NMOS transistor has
VT = 4 V, iD = 1 mA when vGS = vDS = 6 V Neglecting the dependence of iD on vDS in saturation, nd the value of iD for vGS = 5 V VT = 15 V, k = 04 mA/V 2 Now if vG is a pulse with 0 V to 5 V, nd the voltage levels of the pulse signal at the drain output
Figure P934
932 The NMOS transistor shown in Figure P932 has
935 Shown in Figure P935 is the simpli ed
common-source ampli er stage where the DC bias network in the gate circuit has already been replaced by its Th venin equivalent Determine the DC e
9
Transistor Fundamentals
operating or Q point and the region of operation IDSS RG RD RL RSS = 7 mA = 330 k = 33 k = 17 k = 70 k VP = 265 V VGG = 47 V RS = 33 k C = 05 F VDD = 15 V
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