how to generate barcode in ssrs report CIRCUIT ANALYSIS USING SPICE AND PSPICE in Software

Generator Quick Response Code in Software CIRCUIT ANALYSIS USING SPICE AND PSPICE

CIRCUIT ANALYSIS USING SPICE AND PSPICE
Scan QR Code 2d Barcode In None
Using Barcode Control SDK for Software Control to generate, create, read, scan barcode image in Software applications.
QR Code ISO/IEC18004 Creation In None
Using Barcode generation for Software Control to generate, create QR-Code image in Software applications.
[CHAP. 15
QR Code Scanner In None
Using Barcode scanner for Software Control to read, scan read, scan image in Software applications.
Encoding Denso QR Bar Code In C#
Using Barcode generation for VS .NET Control to generate, create QR Code ISO/IEC18004 image in .NET applications.
5:600E 03 6:700E 03 7:800E 03 8:900E 03 1:000E 04
Denso QR Bar Code Generator In .NET
Using Barcode generator for ASP.NET Control to generate, create QR Code 2d barcode image in ASP.NET applications.
QR Printer In VS .NET
Using Barcode drawer for VS .NET Control to generate, create Quick Response Code image in VS .NET applications.
2:839E 01 2:374E 01 2:039E 01 1:788E 01 1:591E 01
QR Code Creation In VB.NET
Using Barcode creator for VS .NET Control to generate, create QR Code image in .NET applications.
Encode USS Code 128 In None
Using Barcode encoder for Software Control to generate, create Code 128A image in Software applications.
8:756E 01 8:796E 01 8:825E 01 8:846E 01 8:863E 01
UPCA Generator In None
Using Barcode maker for Software Control to generate, create UPC-A image in Software applications.
ECC200 Creator In None
Using Barcode encoder for Software Control to generate, create ECC200 image in Software applications.
The magnitude and phase of V2 are plotted with greater detail in Fig. 15-27(b .
Painting Code-39 In None
Using Barcode maker for Software Control to generate, create ANSI/AIM Code 39 image in Software applications.
Printing EAN-13 Supplement 5 In None
Using Barcode encoder for Software Control to generate, create EAN-13 Supplement 5 image in Software applications.
Perform dc and ac analysis on the circuit in Fig. 15-28. Find the complex magnitude of V2 for f varying from 100 Hz to 10 kHz in 100 steps.
MSI Plessey Encoder In None
Using Barcode creation for Software Control to generate, create MSI Plessey image in Software applications.
Create Data Matrix 2d Barcode In Java
Using Barcode creation for Java Control to generate, create DataMatrix image in Java applications.
Fig. 15-28 The source le is DC and AC Vs Is R1 R2 C .AC .PROBE .END analysis of Fig. 15-28 1 0 AC 0 2 DC 1 2 1k 2 0 2k 2 0 1 uF LIN 100 Vm(2) Vp(2) 10 1 mA 0
Print Barcode In .NET
Using Barcode printer for .NET Control to generate, create bar code image in VS .NET applications.
UPC-A Supplement 5 Scanner In Visual C#.NET
Using Barcode decoder for .NET framework Control to read, scan read, scan image in VS .NET applications.
The output le contains the following results: SMALL SIGNAL BIAS SOLUTION NODE VOLTAGE NODE VOLTAGE (1) 0.0000 (2) .6667 VOLTAGE SOURCE CURRENTS NAME CURRENT Vs 6:667E 04 TOTAL POWER DISSIPATION 0:00E 00 WATTS
Generating Code 128 Code Set C In Java
Using Barcode maker for Java Control to generate, create Code-128 image in Java applications.
GTIN - 12 Generation In Objective-C
Using Barcode creator for iPhone Control to generate, create UPC-A image in iPhone applications.
The graph of the ac component of V2 is identical with that of V2 of Problem 15.6 shown in Fig. 1527(b).
UPC A Reader In Visual Studio .NET
Using Barcode decoder for .NET framework Control to read, scan read, scan image in Visual Studio .NET applications.
Encode Barcode In Java
Using Barcode generation for BIRT reports Control to generate, create barcode image in BIRT reports applications.
Plot resonance curves for the circuit of Fig. 15-29(a) for R 2, 4, 6, 8, and 10
We model the resistor as a single-parameter resistor element with a single-parameter R and change the value of its parameter R from 2 to 10 in steps of 2
. We use the .AC command to sweep the frequency from 500 Hz to 3 kHz in 100 steps. The source le is Parallel resonance of practical coil, Fig. 15-29 I 0 2 AC 1m R 0 2 RLOSS 1 L 1 2 10 m C 0 2 1u .MODEL RLOSS RES R 1 0
CHAP. 15]
CIRCUIT ANALYSIS USING SPICE AND PSPICE
.STEP .AC .PROBE .END
RES LIN
RLOSS(R) 100 500
2 10 3000
The resonance curves are shown with greater detail in Fig. 15-29(b).
Fig. 15-29
Use .TRAN and .PROBE to plot VC across the 1-mF capacitor in the source-free circuit of Fig. 15-30(a) for R 100, 600, 1100, 1600, and 2100
. The initial voltage is VC 0 10 V.
The values of the resistor R are changed by using .MODEL and .STEP. The source le is
CIRCUIT ANALYSIS USING SPICE AND PSPICE
[CHAP. 15
Natural response of RC, Fig. 15-30(a) R 0 1 Rshunt C 1 0 1 uF .MODEL Rshunt RES R 1 .STEP LIN RES .TRAN 1E 4 50E 4 .PLOT TRAN V(1) .PROBE .END
1 IC 10 Rshunt(R) UIC 100 2.1 k 500
The graph of the voltage VC is shown in Fig. 15-30(b).
Fig. 15-30
15.10 Plot the voltages between the two nodes of Fig. 15-31(a) in response to a 1-mA step current source for R 100, 600, 1100, 1600, and 2100
CHAP. 15]
CIRCUIT ANALYSIS USING SPICE AND PSPICE
The source le is Step response of RC, Fig. 15-31(a) I 0 1 1m R 0 1 Rshunt C 1 0 1 uF .MODEL Rshunt RES R 1 .STEP LIN RES .TRAN 1E 4 50E 4 .PLOT TRAN V(1) .PROBE .END
Rshunt(R) UIC
2.1 k
The graphs of the step responses are given in Fig. 15-31(b).
Fig. 15-31
CIRCUIT ANALYSIS USING SPICE AND PSPICE
[CHAP. 15
15.11 Find the Thevenin equivalent of Fig. 15-32 seen at the terminal AB:
Fig. 15-32 From dc analysis we nd the open-circuit voltage at AB. We also use .TF to nd the output resistance at AB. The source le and the output les are Solution to Fig. R1 0 R2 0 R3 1 R4 2 R5 4 Vs1 2 Vs2 3 Is 0 .TF V(5) .END 15-32 and Thevenin equivalent at terminal AB 1 2 3 6 3 1 3 5 5 7 1 DC 3 4 DC 4 5 DC 1 Vs1
The output le contains the following results: NODE VOLTAGE (1) 1.2453 (5) 5.2642 NODE VOLTAGE (2) 4.2453 NODE VOLTAGE (3) 2.2642 NODE VOLTAGE (4) 1:7358
VOLTAGE SOURCE CURRENTS NAME CURRENT Vs1 3:962E 01 Vs2 1:000E 00 TOTAL POWER DISSIPATION 5:19E 00 WATTS
V 5 =Vs1 1:132E 01 INPUT RESISTANCE AT Vs1 5:889E 00 OUTPUT RESISTANCE AT V 5 8:925E 00 The Thevenin equivalent is VTh V5 5:2642 V, RTh 8:925
15.12 Plot the frequency response VAB =Vac of the open-loop ampli er circuit of Fig. 15-33(a).
The following source le chooses 500 points within the frequency varying from 100 Hz to 10 Mhz. Open loop frequency response of ampli er, Fig. 15-33 Rs 1 2 10 k Rin 0 2 10 E5 Cin 0 2 short 1 Rout 3 4 10 k R1 4 0 10 E9 Eout 3 0 0 2 1 E5 Vac 1 0 AC 10 u 0 .MODEL short CAP(C 1
CHAP. 15]
Copyright © OnBarcode.com . All rights reserved.