vb.net barcode reader source code determine the: a Turns ratio, n b The value of the capacitor, C in Software

Creation QR in Software determine the: a Turns ratio, n b The value of the capacitor, C

determine the: a Turns ratio, n b The value of the capacitor, C
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830 In the circuit shown in Figure 815:
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IL = 600 mA VR = 4 V VL = 50 V C = 1000 F = 377 rad/s
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IL = 85 mA Vr = 06 V
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VL = 53 V = 377 rad/s
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Vline = 156 cos( t) V Determine the value of: a The turns ratio, n b The capacitor, C
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vs1 (t) = vs2 (t) = Vs0 cos( t)
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The diodes are silicon If the power rating of one of the diodes is exceeded and it burns out or opens, determine the new values of the DC output or load voltage and the ripple voltage
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835 The diodes in the full-wave DC power supply
shown are silicon If: IL = 250 mA Vr = 24 V VL = 10 V = 377 rad/s
831 In the full-wave power supply shown in Figure
P831 the diodes are 1N4001 with a rated peak reverse voltage (also called peak inverse voltage) of 50 V They are fabricated from silicon Vline = 170 cos(377t)V n = 02941 C = 700 F RL = 25 k a Determine the actual peak reverse voltage across each diode b Explain why these diodes are or are not suitable for the speci cations given
Vline = 156 cos( t) V Determine the value of: a The turns ratio, n b The capacitor, C
Section 4: Zener Diodes and Voltage Regulation 836 The diode shown in Figure P836 has a piecewise
linear characteristic that passes through the points ( 10 V, 5 A), (0, 0), (05 V, 5 mA), and (1 V, 50 mA) Determine the piecewise linear model, and, using that model, solve for i and v
100
+ Vline
+ Vs
iL + RL VL
Figure P831
+ 2V i v _
832 In the full-wave power supply shown in Figure
P831 the diodes are 1N4001 general-purpose silicon diodes with a rated peak reverse voltage of 10 V and: Vline = 156 cos(377t)V n = 004231 Vr = 02 V IL = 25 mA VL = 51 V a Determine the actual peak reverse voltage across the diodes b Explain why these diodes are or are not suitable for the speci cations given 833 The diodes in the full-wave DC power supply shown in Figure P831 are silicon If: IL = 650 mA Vr = 1 V VL = 10 V = 377 rad/s = 2366
Figure P836
837 Find the minimum value of RL in the circuit shown
in Figure P837 for which the output voltage remains at just 56 V
1800 + 18 V VZ = 56 V _ RL Vout
Vline = 170 cos( t) V
determine the value of the average and peak current through each diode
Figure P837
834 The diodes in the full-wave DC power supply
shown in Figure P831 are silicon If:
838 Determine the minimum value and the maximum
value that the series resistor may have in a regulator
Part II
Electronics
circuit whose output voltage is to be 25 V, whose input voltage varies from 35 to 40 V, and whose maximum load current is 75 mA The Zener diode used in this circuit has a maximum current rating of 250 mA
speci cations: Vz = 12 V At knee of curve: izk = 025 mA rzk = 700 rz = 115 PRated = 400 mW
839 The i-v characteristic of a semiconductor diode
designed to operate in the Zener breakdown region is shown in Figure P839 The Zener or breakdown region extends from a minimum current at the knee of the curve, equal here to about 5 mA (from the graph) and the maximum rated current equal 90 mA (from the speci cation sheet) Determine the Zener resistance and Zener voltage of the diode
iD 5 V 25 V VD 20 mA 40 mA 60 mA 80 mA
Determine the maximum rated current the diode can handle without exceeding its power limitation
842 In the simple voltage regulator circuit shown in
Figure P840, R must maintain the Zener diode current within its speci ed limits for all values of the source voltage, load current, and Zener diode voltage Determine the minimum and maximum values of R which can be used Vz = 5 V 10% iz min = 35 mA VS = 12 V 3 V rz = 15 iz max = 65 mA IL = 70 20 mA
843 In the simple voltage regulator circuit shown in
Figure P840, R must maintain the Zener diode current within its speci ed limits for all values of the source voltage, load current, and Zener diode voltage If: Vz = 12 V 10% iz min = 325 mA VS = 25 15 V IL = 315 215 mA determine the minimum and maximum values of R which can be used rz = 9 iz max = 80 mA
Figure P839
840 The Zener diode in the simple voltage regulator
circuit shown in Figure P840 is a 1N5231B The source voltage is obtained from a DC power supply It has a DC and a ripple component: vS = VS + Vr where: VS = 20 V R = 220 Vz = 51 V iz min = 10 mA Determine the maximum rated current the diode can handle without exceeding its power limitation
iL R +
+ V _ S _
844 In the simple voltage regulator circuit shown in
Figure P840, the Zener diode is a 1N4740A Vr = 250 mV IL = 65 mA rz = 17 VL = 51 V PRated = 05 W Vz = 10 V 5% Prated = 1 W VS = 14 2 V rz = 7 R = 198 iz min = 10 mA iz max = 91 mA
Determine the minimum and maximum load current for which the diode current remains within its speci ed values
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