Precision High Side Current Sense Amplifiers
... The LT1999 accurately measures fast switching currents in H-bridge motor controls, switching power supplies, solenoids and battery chargers. It features a –5V to 80V input common mode voltage range, 2MHz bandwidth, less than 1.5mV offset voltage and 0.5% gain error over temperature. With more than 8 ...
... The LT1999 accurately measures fast switching currents in H-bridge motor controls, switching power supplies, solenoids and battery chargers. It features a –5V to 80V input common mode voltage range, 2MHz bandwidth, less than 1.5mV offset voltage and 0.5% gain error over temperature. With more than 8 ...
AM Receiver - Profe Saul
... distortion. I may provide a sound sample later. Click here to see a picture of my prototype. I used a small wooden enclosure and the complete tuning assembly from an old radio. Return to RF Circuits ...
... distortion. I may provide a sound sample later. Click here to see a picture of my prototype. I used a small wooden enclosure and the complete tuning assembly from an old radio. Return to RF Circuits ...
Detecting electrical unbalance and overloads
... of voltage unbalance. Total cost combines the cost of a motor, the labor required to change out a motor, the cost of product discarded due to uneven production, line operation and the revenue lost during the time a line is ...
... of voltage unbalance. Total cost combines the cost of a motor, the labor required to change out a motor, the cost of product discarded due to uneven production, line operation and the revenue lost during the time a line is ...
Electric Current Study Guide
... into other forms in the external circuit. d. If a unit of charge has a high electric potential at any given location, then that charge possesses a large amount of electric potential energy at that location. e. A 6-Volt battery would provide 12 Joules of energy to 2 Coulombs of charge as it is moved ...
... into other forms in the external circuit. d. If a unit of charge has a high electric potential at any given location, then that charge possesses a large amount of electric potential energy at that location. e. A 6-Volt battery would provide 12 Joules of energy to 2 Coulombs of charge as it is moved ...
Lecture33_DCpower
... Given Power and Voltage, while asked for R, clearly the most direct approach is to simply use P=V2/R. Solving for R gives: R = V2/P. QUESTION 4 ...
... Given Power and Voltage, while asked for R, clearly the most direct approach is to simply use P=V2/R. Solving for R gives: R = V2/P. QUESTION 4 ...
The Field Effect Transistor
... signal generator for the variable input voltages, as shown in Figure 3. For a good operating point, the drain voltage should be between 3 V and 7 V. Measure the quiescent drain voltage for your circuit. (The AC signal on the input is not relevant for this and may be disconnected for this part.) If y ...
... signal generator for the variable input voltages, as shown in Figure 3. For a good operating point, the drain voltage should be between 3 V and 7 V. Measure the quiescent drain voltage for your circuit. (The AC signal on the input is not relevant for this and may be disconnected for this part.) If y ...
HW 4 6340
... lossless transmission line of length p, with a parallel inductance Lv in the middle and series capacitors 2Cg at the ends to model the gaps. A conductance 2Gg is placed in parallel with the capacitors to model radiation from the gaps. The resistance Rv models the resistance of the vertical post (via ...
... lossless transmission line of length p, with a parallel inductance Lv in the middle and series capacitors 2Cg at the ends to model the gaps. A conductance 2Gg is placed in parallel with the capacitors to model radiation from the gaps. The resistance Rv models the resistance of the vertical post (via ...
Reciprocating Saw Dissection: Motor Description
... Design Principles • Driven by electromagnetics • Like magnetic poles repel, opposite magnetic poles attract • Current passed through a coil of wire produces a magnetic field • Changing the direction of current in a coil reverses the magnetic field • The amount of current in a coil will determine th ...
... Design Principles • Driven by electromagnetics • Like magnetic poles repel, opposite magnetic poles attract • Current passed through a coil of wire produces a magnetic field • Changing the direction of current in a coil reverses the magnetic field • The amount of current in a coil will determine th ...
Capacitors Initial and Final Response to a "Step Function
... • General first order solution to a sudden change (1) Use Kirchoff's laws for circuit equation (2) Manipulate to get I or V in terms of derivates in time (3) Generate the “Differential Equation Form” • May need to differentiate to obtain (4) Solve the Differential equation: 2 methods: (4a) Integrati ...
... • General first order solution to a sudden change (1) Use Kirchoff's laws for circuit equation (2) Manipulate to get I or V in terms of derivates in time (3) Generate the “Differential Equation Form” • May need to differentiate to obtain (4) Solve the Differential equation: 2 methods: (4a) Integrati ...
Portawattz 1750.indd - Effective Solar Products, LLC
... Converts DC battery power into 1750 watts of AC household power (115-volt) ...
... Converts DC battery power into 1750 watts of AC household power (115-volt) ...
PowerGUARD
... • The electrical installations, unknowingly, suffer from energy losses du to harmonics, over-voltage, transiants, phase unbalance and incompatible impedance . • The effects of magnetic waves in a site are generally underestimated as a source to save energy. In the world of electricity all sites are ...
... • The electrical installations, unknowingly, suffer from energy losses du to harmonics, over-voltage, transiants, phase unbalance and incompatible impedance . • The effects of magnetic waves in a site are generally underestimated as a source to save energy. In the world of electricity all sites are ...
Low Resistance Metal Alloy Resistor Provisional
... The component is formed from a continuous band of E-beam welded (EBW) precision resistive strip. Various alloys are used based on the resistance value. ...
... The component is formed from a continuous band of E-beam welded (EBW) precision resistive strip. Various alloys are used based on the resistance value. ...
08 2018 Electrons - Go With the Flow!.
... The units of Impedance is the Ohm. Ohm’s law for impedance is E = I x Z. ...
... The units of Impedance is the Ohm. Ohm’s law for impedance is E = I x Z. ...
Chapter 19: Methods of AC Analysis
... • Voltages and currents of independent sources – Not dependent upon any voltage or current elsewhere in the circuit ...
... • Voltages and currents of independent sources – Not dependent upon any voltage or current elsewhere in the circuit ...
Chapter 20
... An electric motor draws a current of 2.50 A from a 15.0-V battery when it runs at normal speed. If the motor’s armature is “jammed” so that it cannot rotate, the current suddenly rises to 10.0 A. What is the back emf of the motor when running at normal speed? (Back Emf) ...
... An electric motor draws a current of 2.50 A from a 15.0-V battery when it runs at normal speed. If the motor’s armature is “jammed” so that it cannot rotate, the current suddenly rises to 10.0 A. What is the back emf of the motor when running at normal speed? (Back Emf) ...
