File
... 12. How did alternating current get its name? a. From the person who developed it. b. From the electrons move in one direction and then move back in the other direction. c. From the constant current. d. From the constant voltage. 13. Which of the following statements best describes the current Char ...
... 12. How did alternating current get its name? a. From the person who developed it. b. From the electrons move in one direction and then move back in the other direction. c. From the constant current. d. From the constant voltage. 13. Which of the following statements best describes the current Char ...
MY-64 Digital Multimeter use
... with a voltmeter connected across the resistor. As current flows through the resistor, a voltage drop proportional to the current is created (Ohm’s Law). The meter converts this measured voltage to a current value for the display. • On the 10A scale, the resistor is a piece of wire. • On the mA scal ...
... with a voltmeter connected across the resistor. As current flows through the resistor, a voltage drop proportional to the current is created (Ohm’s Law). The meter converts this measured voltage to a current value for the display. • On the 10A scale, the resistor is a piece of wire. • On the mA scal ...
2.2.3 Astable Circuits Word Document
... Assume that initially there is no charge on the capacitor, so the input to the NOT gate will be Logic 0, so the output is at Logic 1. The capacitor begins to charge through the resistor R1 and so the voltage at the input of the NOT gate starts to rise. When the voltage at the input reaches the ...
... Assume that initially there is no charge on the capacitor, so the input to the NOT gate will be Logic 0, so the output is at Logic 1. The capacitor begins to charge through the resistor R1 and so the voltage at the input of the NOT gate starts to rise. When the voltage at the input reaches the ...
INPUT and OUTPUT IMPEDANCE
... The diagram on the left in Fig. 12 shows in a very straightforward manner that the input impedance can be determined experimentally by measuring the base-voltage vB and the input base-current iB. We want to measure vB /iB. The diagrams on the right in Fig. 12 show two optional ways of implementi ...
... The diagram on the left in Fig. 12 shows in a very straightforward manner that the input impedance can be determined experimentally by measuring the base-voltage vB and the input base-current iB. We want to measure vB /iB. The diagrams on the right in Fig. 12 show two optional ways of implementi ...
BI AV − = IR VV − = B RA V = = , + IR VV − = – Rth Vth Iab
... The three cases to consider are • Case 1. All sources are independent • Case 2. The circuit has dependent sources and independent sources • Case 3. The circuit has only dependent sources Depending on the case, one or more of the following methods can be used to find the Thevenin equivalent: Direct R ...
... The three cases to consider are • Case 1. All sources are independent • Case 2. The circuit has dependent sources and independent sources • Case 3. The circuit has only dependent sources Depending on the case, one or more of the following methods can be used to find the Thevenin equivalent: Direct R ...
Example 2
... Comment on Equivalent Resistance: Note that in the previous circuit we were not able to simply combine controlled sources using the series-parallel reduction rules developed for resistors. Instead, we applied a current source and calculated the corresponding voltage and computed the ratio of the vo ...
... Comment on Equivalent Resistance: Note that in the previous circuit we were not able to simply combine controlled sources using the series-parallel reduction rules developed for resistors. Instead, we applied a current source and calculated the corresponding voltage and computed the ratio of the vo ...
Device Functions Numbers
... Rheostat - permits establishing settings by varying circuit resistance ...
... Rheostat - permits establishing settings by varying circuit resistance ...
Setting the PI Controller Parameters, KP and KI
... closed loop transfer function can be predicted. The equations presented in this application note are also the basis of an EXCEL spreadsheet which can be used to quickly select values of KP and KI for an application. Contact your local Infineon representative for a copy of the spreadsheet. Limitation ...
... closed loop transfer function can be predicted. The equations presented in this application note are also the basis of an EXCEL spreadsheet which can be used to quickly select values of KP and KI for an application. Contact your local Infineon representative for a copy of the spreadsheet. Limitation ...
Network analysis (electrical circuits)
A network, in the context of electronics, is a collection of interconnected components. Network analysis is the process of finding the voltages across, and the currents through, every component in the network. There are many different techniques for calculating these values. However, for the most part, the applied technique assumes that the components of the network are all linear.The methods described in this article are only applicable to linear network analysis, except where explicitly stated.