CP PHYSICS
... 1. In which type of circuit was there more total resistance? (Series, or Parallel) 2. In which type of circuit did more current flow? (Series, or Parallel) 3. In Experiment 2, if you added a 3rd resister in series, would the total resistance (increase, or decrease)? 4. In Experiment 3, if you added ...
... 1. In which type of circuit was there more total resistance? (Series, or Parallel) 2. In which type of circuit did more current flow? (Series, or Parallel) 3. In Experiment 2, if you added a 3rd resister in series, would the total resistance (increase, or decrease)? 4. In Experiment 3, if you added ...
5 Experiment - Characteristics of Bipolar Junction Transistors
... Q1: What are the approximate collector-emitter voltages at the transition between the saturation and active regions? 2. Build circuit shown in Figure 1. Set VCC to 5 V using a DC voltage supply. For VIN, use a function generator to create a low frequency (<10 Hz) square wave. Use a T-junction to att ...
... Q1: What are the approximate collector-emitter voltages at the transition between the saturation and active regions? 2. Build circuit shown in Figure 1. Set VCC to 5 V using a DC voltage supply. For VIN, use a function generator to create a low frequency (<10 Hz) square wave. Use a T-junction to att ...
LAB 7 Resistive Circuits OBJECTIVES
... a. Predict the equivalent series resistance RS,thy using the measured resistor values. b. Measure the total resistance RS,expt using an ohmmeter. Compare the predicted and the measured using a percent difference. How do they compare? Ohm’s Law Method of Determining Equivalent Resistance c. Measure t ...
... a. Predict the equivalent series resistance RS,thy using the measured resistor values. b. Measure the total resistance RS,expt using an ohmmeter. Compare the predicted and the measured using a percent difference. How do they compare? Ohm’s Law Method of Determining Equivalent Resistance c. Measure t ...
DC Circuits, Practical Problems
... are rated 100, 75 and 60 watts respectively and operate at 120 volts. ...
... are rated 100, 75 and 60 watts respectively and operate at 120 volts. ...
ECEN 2612 Two-Port Circuits
... (a) The two-port circuit shown in Fig. 2 has a “signal generator” (Vg) connected to port 1. Zg might be the internal impedance of the signal generator (use 1k), and ZL is the impedance of a load. Adjust your circuit so that it now represents the circuit in Fig. 2. Measure the input impedance Zin = V ...
... (a) The two-port circuit shown in Fig. 2 has a “signal generator” (Vg) connected to port 1. Zg might be the internal impedance of the signal generator (use 1k), and ZL is the impedance of a load. Adjust your circuit so that it now represents the circuit in Fig. 2. Measure the input impedance Zin = V ...
Electronics Lesson 03 - School of Engineering and Computer
... • Resistors provide a specific amount of resistance to a path in a circuit or wire. • Ohm’s law can be used to calculate resistance, current and voltage. ...
... • Resistors provide a specific amount of resistance to a path in a circuit or wire. • Ohm’s law can be used to calculate resistance, current and voltage. ...
Capacitor Self-Resonance
... The mathematical operations of integration and differentiation can be performed using operational amplifiers. In fact, that’s where the name “op-amp” came from: the ability of a highgain differential amplifier circuit to perform the mathematical operations of adding, subtracting, integrating and dif ...
... The mathematical operations of integration and differentiation can be performed using operational amplifiers. In fact, that’s where the name “op-amp” came from: the ability of a highgain differential amplifier circuit to perform the mathematical operations of adding, subtracting, integrating and dif ...
Motor Branch Circuit Protection - Circuit Protection
... 400%, along with non-time-delay fuses not exceeding 600 amps. Time-delay (dual-element) fuses can be increased to 225%. All Class L fuses can be increased to 300%. Inverse time (thermal-magnetic) circuit breakers can be increased to 400% (100 amp and less) or 300% (larger than 100 amps). Instant tri ...
... 400%, along with non-time-delay fuses not exceeding 600 amps. Time-delay (dual-element) fuses can be increased to 225%. All Class L fuses can be increased to 300%. Inverse time (thermal-magnetic) circuit breakers can be increased to 400% (100 amp and less) or 300% (larger than 100 amps). Instant tri ...
Electricity and Circuits
... of ___________ potential energy to a region of ___________ potential energy. • When the charge reaches the negative terminal and enters the battery, it gains electric potential energy as it travels through the battery to the positive terminal. e- ...
... of ___________ potential energy to a region of ___________ potential energy. • When the charge reaches the negative terminal and enters the battery, it gains electric potential energy as it travels through the battery to the positive terminal. e- ...
Short circuit behavior of REpower WTG - pes-psrc
... 6. So the electrical behavior of the REpower MD/MM during a fault close to the WTG will be similar to an asynchronous squirrel cage generator. 7. To minimize the mechanical peak loading during a short circuit, the crow-bar is equipped with damping resistors. 8. These additional resistors in the shor ...
... 6. So the electrical behavior of the REpower MD/MM during a fault close to the WTG will be similar to an asynchronous squirrel cage generator. 7. To minimize the mechanical peak loading during a short circuit, the crow-bar is equipped with damping resistors. 8. These additional resistors in the shor ...
RLC circuit
A RLC circuit is an electrical circuit consisting of a resistor (R), an inductor (L), and a capacitor (C), connected in series or in parallel. The name of the circuit is derived from the letters that are used to denote the constituent components of this circuit, where the sequence of the components may vary from RLC.The circuit forms a harmonic oscillator for current, and resonates in a similar way as an LC circuit. Introducing the resistor increases the decay of these oscillations, which is also known as damping. The resistor also reduces the peak resonant frequency. Some resistance is unavoidable in real circuits even if a resistor is not specifically included as a component. An ideal, pure LC circuit is an abstraction used in theoretical considerations.RLC circuits have many applications as oscillator circuits. Radio receivers and television sets use them for tuning to select a narrow frequency range from ambient radio waves. In this role the circuit is often referred to as a tuned circuit. An RLC circuit can be used as a band-pass filter, band-stop filter, low-pass filter or high-pass filter. The tuning application, for instance, is an example of band-pass filtering. The RLC filter is described as a second-order circuit, meaning that any voltage or current in the circuit can be described by a second-order differential equation in circuit analysis.The three circuit elements, R,L and C can be combined in a number of different topologies. All three elements in series or all three elements in parallel are the simplest in concept and the most straightforward to analyse. There are, however, other arrangements, some with practical importance in real circuits. One issue often encountered is the need to take into account inductor resistance. Inductors are typically constructed from coils of wire, the resistance of which is not usually desirable, but it often has a significant effect on the circuit.