electronic-devices-9th-edition-by-floyd Floyd ed9 part3-summary of multisim circuits-final

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Transcript of electronic-devices-9th-edition-by-floyd Floyd ed9 part3-summary of multisim circuits-final

  • 185

    Summary of MultiSIM Circuit Files for Electronic Devices, 9th Edition by Tom Floyd

    Chapter 2:

    Circuit MultiSIM 10 MultiSIM 11

    E02-01

    VR(1) = 9.287 V VD(1) = 0.713 V

    VR(2) = 1.000 mV VD(2) = 9.999 V

    VR(1) = 9.287 V VD(1) = 0.713 V

    VR(2) = 1.000 mV VD(2) = 9.999 V

    E02-03a Half-wave VP = 4.3 V Half-wave VP = 4.3 V E02-03b Half-wave VP = 99.2 V Half-wave VP = 99.2 V E02-04 Half-wave VP = 84.2 V Half-wave VP = 84.2 V E02-06a Half -wave VP = 49.3 V Half-wave VP = 49.3 V E02-06b Half -wave VP = 49.3 V Half-wave VP = 49.3 V E02-06c Full-wave VP = 24.3 V Full-wave VP = 24.3 V E02-07 Full-wave VP = 15.7 V Full-wave VP = 15.7 V

    E02-08 VL(max) = 13.470V VL(min) = 13.126 V

    VL(max) = 13.470 V VL(min) = 13.126 V

    E02-10 Half-wave

    VP(max) = 9.09 V VP(min) = 653 mV

    Half-wave VP(max) = 9.09 V

    VP(min) = 653 mV

    E02-11 Clipped

    VP(max) = 5.693 V VP(min) = 5.693 V

    Clipped VP(max) = 5.693 V VP(min) = 5.693 V

    E02-12 Clipped

    VP(max) = 8.965 V VP(min) = 18.000 V

    Clipped VP(max) = 8.965 V

    VP(min) = 18.000 V

    E02-13 Negative clamp

    VP(max) = 754 mV VP(min) = 45.5 V

    Negative clamp VP(max) = 754 mV VP(min) = -45.5 V

    F02-92a VR = 1.990 nV VR = 1.990 nV F02-92b VR = 99.152 V VR = 99.152 V

    F02-92c VR = 14.027 V ID = 2.98 mA

    VR = 14.027 V ID = 2.98 mA

    F02-92d VD = 0.651 V VD = 0.651 V F02-93a Half-wave VP = 4.23 V Half-wave VP = 4.23 V F02-93b Half-wave VP = 49.3 V Half-wave VP = 49.3 V

    F02-94 Half-wave VP = 84.0 V

    PRL = 7.985 W Half-wave VP = 84.0 V

    PRL = 7.985 W F02-96 Full-wave VP = 20.5 V Full-wave VP = 20.5 V F02-97 Full-wave VP = 32.3 V Full-wave VP = 32.3 V

    F02-98 VL(max) =53.302 V VL(min) = 52.215 V

    Vripple = 1.09 VPP

    VL(max) =53.302 V VL(min) = 52.215 V

    Vripple = 1.09 VPP

    F02-99 Half-wave

    VP(max) = 713 mV VP(min) = 10.0 V

    Half-wave VP(max) = 713 mV VP(min) = 10.0 V

  • 186

    Circuit MultiSIM 10 MultiSIM 11

    F02-103a Clipped

    VP(max) = 722 mV VP(min) = 722 mV

    Clipped VP(max) = 722 mV VP(min) = 722 mV

    F02-103b

    VP(max) = 735 mV VP(min) = 735 mV

    IP(D1) = 13.3 mA IP(D1) = 13.3 mA

    VP(max) = 735 mV VP(min) = 735 mV

    IP(D1) = 13.3 mA IP(D1) = 13.3 mA

    F02-106a VD = 25 V

    Diode is open. VD = 25 V

    Diode is open.

    F02-106b VD = 15 V

    Diode is open. VD = 15 V

    Diode is open.

    F02-106c VR = 2.5 V

    Diode is shorted. VR = 2.5 V

    Diode is shorted.

    F02-106d VR = 1.128 nV

    Diode is functioning or open. VR = 1.128 nV

    Diode is functioning or open.

    F02-107

    VA = 25.00 V VB = 24.274 V VC = 8.726 V VD = 8.000 V

    VA = 25.00 V VB = 24.274 V VC = 8.726 V VD = 8.000 V

    F02-108

    VSEC = 120 VAC VREC = 0.047 VAC VL = 59.886 VDC

    Voltages are correct

    VSEC = 119.695 VAC VREC = 0.047 VAC VL = 59.886 VDC

    Voltages are correct F02-110 Full-wave VP = 16.3 V Full-wave VP = 16. 3 V

    TSE02-01 VS = 120 VAC Vpri = 0 VAC Fuse is open.

    VS = 120 VAC Vpri = 0 VAC Fuse is open.

    TSE02-02

    Bridge output is 19.2 VDC with 8.72 VPP of 120 Hz

    ripple. VRL = VC = 0 VDC

    RSURGE is open.

    Bridge output is 19.2 VDC with 8.72 VPP of 120 Hz

    ripple. VRL = VC = 0 VDC

    RSURGE is open.

    TSE02-03 VRL = 20.4 VDC with 1.25 VPP

    of 120 Hz ripple. No fault.

    VRL = 20.4 VDC with 1.25 VPP of 120 Hz ripple.

    No fault.

    TSE02-04

    VC1 0 VDC VC2 > 4 VDC

    VD1 is unrectified 5 VP signal Diode D1 is open.

    VC1 0 VDC VC2 > 4 VDC

    VD1 is unrectified 5 VP signal Diode D1 is open.

    TSP02-62 VR = 3.000 V

    Diode is shorted. VR = 3.000 V

    Diode is shorted.

    TSP02-63 VD = 99.999 V Diode is open.

    VD = 99.999 V Diode is open.

    TSP02-64 VD = 32.618

    Diode is open. VD = 32.618

    Diode is open.

    TSP02-65 VD =0.000 V

    Diode is shorted. VD =0.000 V

    Diode is shorted.

    TSP02-66 VD = 0.668 V

    No fault. VD = 0.668 V

    No fault.

  • 187

    Circuit MultiSIM 10 MultiSIM 11

    TSP02-67 VD = 0.192 nV

    Diode is shorted. VD = 0.192 nV

    Diode is shorted.

    TSP02-68 VD = 2.577 V

    Diode is leaky. VD = 2.577 V

    Diode is leaky.

    TSP02-69 VD = 11.999 V Diode is open.

    VD = 11.999 V Diode is open.

    TSP02-70

    VA = 25.00 V VB = 24.273 V VC = 8.000 V VD = 8.000 V

    Diode D2 is shorted.

    VA = 25.00 V VB = 24.273 V VC = 8.000 V VD = 8.000 V

    Diode D2 is shorted.

    TSP02-71 VR is unrectified 60 Hz 5 VPP

    sine wave. Diode is shorted.

    VR is unrectified 60 Hz 5 VPP sine wave.

    Diode is shorted.

    TSP02-72 VR(max) = 38.4 V VR(min) = 49.3 V

    Diode is leaky.

    VR(max) = 38.4 V VR(min) = 49.3 V

    Diode is leaky.

    TSP02-73 VS = 120 VAC VRL = 0 VAC

    Diode is open.

    VS = 120 VAC VRL = 0 VAC

    Diode is open.

    TSP02-74

    VRL is positive half-wave rectified.

    VP = 20.5 VAC Lower diode is open.

    VRL is positive half-wave rectified.

    VP = 20.5 VAC Lower diode is open.

    TSP02-75

    Vpri = 120 VAC VP(min) = 60 VAC

    Transformer has reduced turns ratio.

    Vpri = 120 VAC VP(min) = 60 VAC

    Transformer has reduced turns ratio.

    TSP02-76

    VRL is positive full-wave rectified.

    VRL(max) = 54.9 V VRL(min) 0 V

    Capacitor C is open.

    VRL is positive full-wave rectified.

    VRL(max) = 54.9 V VRL(min) 0 V

    Capacitor C is open.

    TSP02-77

    VRL is positive clipped sine wave.

    VP(max) = 679 mV VP(min) = 909 mV

    Diode is leaky.

    VRL is positive clipped sine wave.

    VP(max) = 679 mV VP(min) = 909 mV

    Diode is leaky.

    TSP02-78

    VRL is positive clipped sine wave.

    VP(max) = 722 mV VP(min) = 30.0 V Diode D1 is open.

    VRL is positive clipped sine wave.

    VP(max) = 722 mV VP(min) = 30.0 V Diode D1 is open.

    TSP02-79

    VRL is positive full-wave rectified.

    VRL(max) = 16.7 V IRL = 0 ADC

    Resistor RL is open.

    VRL is positive full-wave rectified.

    VRL(max) = 16.7 V IRL = 0 ADC

    Resistor RL is open.

  • 188

    Chapter 3:

    Circuit MultiSIM 10 MultiSIM 11

    E03-05

    ID(1) 0 A VD(1) = 4.860 V ID(2) = 0.206 A VD(2) = 5.137 V

    ID(1) 0 A VD(1) = 4.860 V ID(2) = 0.206 A VD(2) = 5.137 V

    E03-06 ID = 1.330 mA VR = 0.024 A

    VD = 11.930 V

    ID = 1.330 mA VR = 0.024 A

    VD = 11.930 V

    E03-08

    Clipped VP(max)(1) = 5.57 V

    VP (min)(1) = 3.78 V VP(max)(2) = 6.73 V

    VP (min)(1) = 15.5 V

    Clipped VP(max)(1) = 5.57 V

    VP (min)(1) = 3.78 V VP(max)(2) = 6.73 V

    VP (min)(1) = 15.5 V

    F03-70

    IR(1) = 0.150 A VR(1) = 4.692 V IR(2) = 0.040 A VR(2) = 5.116 V

    IR(1) = 0.150 A VR(1) = 4.692 V IR(2) = 0.040 A VR(2) = 5.116 V

    F03-73 ID = 0.033 A ID = 0.033 A F03-77 VOUT = 12.026 VAC VOUT = 12.026 VAC

    TSE03-01 VOUT = 22.7 VDC

    Zener diode is open. VOUT = 22.7 VDC

    Zener diode is open.

    TSE03-02

    Bridge output is 19.2 VDC with 8.72 VPP of 120 Hz

    ripple. VC = 0 VDC

    VOUT = 0.000 VDC RSURGE is open.

    Bridge output is 19.2 VDC with 8.72 VPP of 120 Hz

    ripple. VC = 0 VDC

    VOUT = 0.000 VDC RSURGE is open.

    TSE03-03

    Bridge output is 20.3 VDC with 2.42 VPP of 120 Hz

    ripple. VC = 19.9 VDC with 1.61 V of

    120 Hz ripple VOUT = 15.0 VDC

    No fault.

    Bridge output is 20.4 VDC with 2.42 VPP of 120 Hz

    ripple. VC = 19.6 VDC with 950 mV

    of 120 Hz ripple VOUT = 15.0 VDC

    No fault.

    TSE03-04

    Transfomer secondary and fuse rating exceeded, causing secondary to open and fuse to

    blow.

    Transfomer secondary and fuse rating exceeded, causing secondary to open and fuse to

    blow.

    TSE03-05

    Switch J1 up: LED1 is off and LED2 is off

    ILED1 = 12 mADC ILED2 0 ADC

    Switch J1 down: LED1 off and LED2 is on

    ILED1 = 12 mADC ILED2 = 10.34 mADC

    LED1 is shorted

    Switch J1 up: LED1 is off and LED2 is off

    ILED1 = 12 mADC ILED2 0 ADC

    Switch J1 down: LED1 off and LED2 is on

    ILED1 = 12 mADC ILED2 = 10.34 mADC

    LED1 is shorted

  • 189

    Circuit MultiSIM 10 MultiSIM 11

    TSP03-47 IT 0 ADC

    VOUT = 8.000 VDC Zener diode is open.

    IT 0 ADC VOUT = 8.000 VDC

    Zener diode is open.

    TSP03-48

    VC is 20.5 VDC with 11.5 V of 120 Hz ripple, so zener drops out of conduction on negative

    excursions. VOUT = 12.0 VDC with 9.0 V of 120 Hz negative peaks.

    Capacitor C is open.

    VC is 20.5 VDC with 11.5 VP of 120 Hz ripple, so zener drops out of conduction on

    negative excursions. VOUT = 12.0 VDC with 9.0 V of 120 Hz negative peaks.

    Capacitor C is open.

    TSP03-49

    VC = 28.9 VDC with 521 mV of 120 Hz ripple.

    VOUT 0 VDC ID = 0.087 ADC

    Zener diode is shorted.

    VC = 28.9 VDC with 262 mVP of 120 Hz ripple.

    VOUT 0 VDC ID = 0.087 ADC

    Zener diode is shorted.

    TSP03-50 VR = 22.340 VDC

    IR 0 ADC 680 resistor is open.

    VR = 22.340 VDC IR 0 ADC

    680 resistor is open. Chapter 4:

    Circuit MultiSIM 10 MultiSIM 11

    E04-02

    IB = 1.111 mA IC = 0.099 A IE = 0.100 A

    VBE = 0.893 V VCB = 0.753 V VCE = 0.140 V

    IB = 1.111 mA IC = 0.099 A IE = 0.100 A

    VBE = 0.893 V VCB = 0.753 V VCE = 0.140 V

    E04-04

    IB = 0.217 mA IC = 9.838 mA VCE = 0.161 V

    Transistor is saturated, as IB > IC (sat).

    IB = 0.217