Chapter 6: Single Phase Transformer
... Transformer equivalent circuit, with secondary impedances referred to the primary side Ep = primary induced voltage Vp = primary terminal voltage Ip = primary current Ie = excitation current ...
... Transformer equivalent circuit, with secondary impedances referred to the primary side Ep = primary induced voltage Vp = primary terminal voltage Ip = primary current Ie = excitation current ...
Networks I for M.E. ECE 09.201 - 2
... Due Monday, September 11, 12:15 PM Lab report due Monday, September 18, 12:15 PM Complete all four (4) MentorGraphics tutorials linked to http://users.rowan.edu/~jansson/autumn06/Networks1/tutorial.html In the last tutorial (Accusim) you will generate a DC Power Report for the circuit you build and ...
... Due Monday, September 11, 12:15 PM Lab report due Monday, September 18, 12:15 PM Complete all four (4) MentorGraphics tutorials linked to http://users.rowan.edu/~jansson/autumn06/Networks1/tutorial.html In the last tutorial (Accusim) you will generate a DC Power Report for the circuit you build and ...
Techforum Newsletter August 2011
... popular, sinusoidal PWM (SPWM) is the most straightforward method used to vary drives' motor voltage (or current) and frequency. With SPWM control quasi-sinusoidal, variablepulse-width output is constructed from intersections of a saw-toothed carrier frequency signal with a modulating sinusoidal sig ...
... popular, sinusoidal PWM (SPWM) is the most straightforward method used to vary drives' motor voltage (or current) and frequency. With SPWM control quasi-sinusoidal, variablepulse-width output is constructed from intersections of a saw-toothed carrier frequency signal with a modulating sinusoidal sig ...
Student Handout #2 Extract - AS 440-221, Safe Laboratory
... From the above table it may seem that a difference of only about 100 milliamperes exists between current which can just be perceived and one which can be immediately fatal. On low-voltage circuits, if the person cannot let go of the circuit and is not rescued from it, the ratio between a current whi ...
... From the above table it may seem that a difference of only about 100 milliamperes exists between current which can just be perceived and one which can be immediately fatal. On low-voltage circuits, if the person cannot let go of the circuit and is not rescued from it, the ratio between a current whi ...
dc Bias Point Calculations
... Small Signal Capacitance Models • At high frequency we must also model the parisitic capacitances • The stored based charge is modeled by a diffusion capacitance • Although it is nonlinear, the small signal difficusion capacitance is linearized ...
... Small Signal Capacitance Models • At high frequency we must also model the parisitic capacitances • The stored based charge is modeled by a diffusion capacitance • Although it is nonlinear, the small signal difficusion capacitance is linearized ...
Typical Application Diagram
... When the input voltage is higher, or when the output current is larger, the power consumption of QX7136 is larger, then QX7136 will go into Thermal Protection status to reduce the output current, which can effectively protect the chip from damage caused by overheating when the junction temperature h ...
... When the input voltage is higher, or when the output current is larger, the power consumption of QX7136 is larger, then QX7136 will go into Thermal Protection status to reduce the output current, which can effectively protect the chip from damage caused by overheating when the junction temperature h ...
Precision, Bipolar, Configuration for the AD5450/1/2/3 8
... LSB to ensure monotonic behavior when stepping through codes. A compensation capacitor, C1, is used to prevent ringing or instability in the closed loop. Typical values in the 1 pF to 5 pF range can be used. In any circuit where accuracy is important, careful consideration of the power supply and gr ...
... LSB to ensure monotonic behavior when stepping through codes. A compensation capacitor, C1, is used to prevent ringing or instability in the closed loop. Typical values in the 1 pF to 5 pF range can be used. In any circuit where accuracy is important, careful consideration of the power supply and gr ...
Section 2. The Full Wave Rectifier
... 4. Get a practical resistor with a value close but smaller than the resistance R calculated above. Use this value for R in all the following calculation and simulation. 5. Calculate the capacitance required for the filter using C = Vp/(2*f*Vr*R). 6. Create a FWR and shunt regulator circuit in OrCAD- ...
... 4. Get a practical resistor with a value close but smaller than the resistance R calculated above. Use this value for R in all the following calculation and simulation. 5. Calculate the capacitance required for the filter using C = Vp/(2*f*Vr*R). 6. Create a FWR and shunt regulator circuit in OrCAD- ...
INTELLIGENT BLINKER
... Project abstract: The rapid evolution of integrated technologies through last decade has enabled the realization of many portable devices. They are characterized by long lifetime operation, very low power consumption and light weight. The world of bike is lately moving toward electronic world. Bike ...
... Project abstract: The rapid evolution of integrated technologies through last decade has enabled the realization of many portable devices. They are characterized by long lifetime operation, very low power consumption and light weight. The world of bike is lately moving toward electronic world. Bike ...
PDF
... control based on two regulators A and B are proposed to reduce the harmonics, improve the power factor and stabilize the buses voltage using the FACTS static switched filter compensator. Both the regulators will consist of the following three loops. The proposed novel tri-loop dynamic controller is ...
... control based on two regulators A and B are proposed to reduce the harmonics, improve the power factor and stabilize the buses voltage using the FACTS static switched filter compensator. Both the regulators will consist of the following three loops. The proposed novel tri-loop dynamic controller is ...
COZIR Voltage Output Details
... are not affected. This sensors are not intended for use in any medical appliance or device or in any system in which the failure of the product might reasonably be expected to result in personal ...
... are not affected. This sensors are not intended for use in any medical appliance or device or in any system in which the failure of the product might reasonably be expected to result in personal ...
MCE380 handout - Cleveland State University
... coding is such that 0V corresponds to 000000000000. A bipolar, 10-bit ADC uses reference voltages of ± 10V. Find the binary representation of an analog input voltage of -3.56V. Assume that the coding is such that the MSB is used for sign (1 means negative). Observe the issue of having two representa ...
... coding is such that 0V corresponds to 000000000000. A bipolar, 10-bit ADC uses reference voltages of ± 10V. Find the binary representation of an analog input voltage of -3.56V. Assume that the coding is such that the MSB is used for sign (1 means negative). Observe the issue of having two representa ...
SERIES RL CIRCUITS
... As in the series RL circuit, the total current supplied to the RC network and the voltage drops can be found by using Ohm’s Law: iT = e / ZT vR = iTR and vC = iTXC Example: For a series RC circuit where e(t) = 18sin(240t + 45) V, R = 3.3k and C = 2.2µF: a) Find the total current in the circuit in ...
... As in the series RL circuit, the total current supplied to the RC network and the voltage drops can be found by using Ohm’s Law: iT = e / ZT vR = iTR and vC = iTXC Example: For a series RC circuit where e(t) = 18sin(240t + 45) V, R = 3.3k and C = 2.2µF: a) Find the total current in the circuit in ...
Electric Current and Circuits Basketball Jeopardy
... Electrical forces are able to cause an object to either repel or attract, this pushing or pulling on an object is known as a… ...
... Electrical forces are able to cause an object to either repel or attract, this pushing or pulling on an object is known as a… ...
BATTERIES FOR METERING APPLICATIONS
... discharged under a continuous load of ~50 µA and short pulses of 150 mA. The battery is able to deliver this current at a voltage level of 3 V at least for a period of 2 years. From the low average current draw of 50 µA, one would be misled to assume that the battery could continue to deliver these ...
... discharged under a continuous load of ~50 µA and short pulses of 150 mA. The battery is able to deliver this current at a voltage level of 3 V at least for a period of 2 years. From the low average current draw of 50 µA, one would be misled to assume that the battery could continue to deliver these ...
Pre-lab Exercise
... dead zone in degrees. For Equation (1) to be true, we must prevent current from flowing through the wiper (i.e. the input resistance to the circuit the potentiometer is connected to must have a very large input resistance). One effective way of ensuring that no current is drawn from the wiper is to ...
... dead zone in degrees. For Equation (1) to be true, we must prevent current from flowing through the wiper (i.e. the input resistance to the circuit the potentiometer is connected to must have a very large input resistance). One effective way of ensuring that no current is drawn from the wiper is to ...