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In the circuit shown, the motor can be modeled as a 30-ohm resistor. Determine the power...
An NPN bipolar junction transistor (BJT) is used to turn on and off a 30 Ohm load using an Arduino digital output pin as shown. Assuming the transistor is on, in the saturation region, determine the power delivered to the 30 Ohm load. The voltage drop across the collector-emitter junction of the transistor is 0.2 Volts. +5 v 1308 ARDUINO SV UNO mne гоо са Vce=0.2 v Saturation VBE = 0.7V in active & Saturation regions
Assume that the forward voltage drop across each LED is 2 volts. Determine the current through resistor R when the low-side transistor switch is on, in saturation and V_CE = 0.2 V. (V_CE is the collector to emitter voltage drop for the saturated transistor.) Insert a numeric answer in units of milli-Amps. +12 V & R=1002 1002 svomt svove on Transistor ON Transistor ON
Assume that the forward voltage drop across each LED is 2 volts. Determine the current through resistor R when the low-side transistor switch is on, in saturation and V_CE = 0.2 V. (V_CE is the collector to emitter voltage drop for the saturated transistor.) Insert a numeric answer in units of milli-Amps. +12 V ¿t § R=1002 1002 5 van Transistor ON
Assume that the forward voltage drop across each LED is 2 volts. Determine the current through resistor R when the low-side transistor switch is on, in saturation and V_CE = 0.2 V. (V_CE is the collector to emitter voltage drop for the saturated transistor.) Insert a numeric answer in units of milli-Amps. +12V il &R=100 100_2 5 vain Transistor ON
Assume that the forward voltage drop across each LED is 2 volts. Determine the current through resistor R when the low- side transistor switch is on, in saturation and V_CE = 0.2 V. (V_CE is the collector to emitter voltage drop for the saturated transistor.) Insert a numeric answer in units of milli-Amps. +12V it & R=1000 100_2 5 vau Transistor ON Answer:
D. For the transistor circuit shown in Figure 7, assuming that the transistor is in the forward active mode, and B = 100 and VBE = 0.7V, calculate Base current 1B Collector current Ic (iii) Emitter current le (iv) Collector to emitter voltage Vce and (v) Voltage across the 2009 resistor v 3 80022 10 kV W VCE VBE مت + + 1 2001} 1 1
Part of a circuit is shown. If the voltage across the 10-ohm resistor is 3 V and the current flowing into the junction is 0.9 A, what is the value of the unknown resistor R?
If the voltage drop across the 30 Ohm resistor in the figure is
60V from top to bottom, find:
a) The voltage across the source, Vs
b) The current delivered by the voltage source
c) The power delivered by the voltage source
64 Ω 30Ω Vs 90 Ω 75Ω 50 Ω
The transistor in the circuit below has ?-100 and Vci(sat) OV. You may use the constant voltage model with VE 0.7V if the base emitter junction is forward biased. A variable DC source is attached to input VIN. Find the operating mode (cutoff, active, or saturation), the collector node voltage VC, and the collector current IC for each of the following cases: (a) VIN 0V (b) VIN = 1.2V (c) VIN 6.0v (d) VIN 12.0V 1 K IC VC 10K...
Determins the power dissipated by the 4-ohm resistor in the right
hand circuit using algebra. Show the following calculations.
4. Take a Screenshot of the full circuit board showing all four circuits and save it as "DC Circuit_2.pog". Print it out and submit it with your lab report. 5. Determine the power dissipated by the 4-2 resistor in the left-hand circuit by adding either an ammeter or a voltmeter to the circuit. Use the reading from that meter in calculating...