User:John R. Brews/Images: Difference between revisions
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|Current sink.PNG|Operational-amplifier based current sink. Because the op amp is modeled as a nullor, op amp input variables are zero regardless of the values for its output variables. | |Current sink.PNG|Operational-amplifier based current sink. Because the op amp is modeled as a nullor, op amp input variables are zero regardless of the values for its output variables. | ||
|Bipolar inverter.PNG|A digital inverter circuit using a bipolar transistor. | |Bipolar inverter.PNG|A digital inverter circuit using a bipolar transistor. | ||
|Transfer characteristic of bipolar inverter.PNG|Transfer characteristic of bipolar inverter showing modes. | |||
|Current in bipolar inverter.PNG|Collector current ''vs.'' input voltage for a bipolar inverter with ''V<sub>CC</sub>''<nowiki>=</nowiki>5V and ''R<sub>C</sub>''<nowiki>=</nowiki>1kΩ. | |||
|Amplifier input and output.PNG|Input and output signals for bipolar inverter used as an amplifier. | |||
|Two-port with Thevenin driver.PNG| Two-port network with symbol definitions. | |Two-port with Thevenin driver.PNG| Two-port network with symbol definitions. | ||
|Z-equivalent two-port.PNG| Z-equivalent two port showing independent variables ''I<sub>1</sub>'' and ''I<sub>2</sub>''. | |Z-equivalent two-port.PNG| Z-equivalent two port showing independent variables ''I<sub>1</sub>'' and ''I<sub>2</sub>''. | ||
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|H-equivalent two-port.PNG|H-equivalent two-port showing independent variables | |H-equivalent two-port.PNG|H-equivalent two-port showing independent variables | ||
|G-equivalent two-port.PNG| G-equivalent two-port showing independent variables | |G-equivalent two-port.PNG| G-equivalent two-port showing independent variables | ||
|Block diagram asymptotic gain.PNG|Block diagram for asymptotic gain model | |||
|Signal-flow graph for asymptotic gain model.PNG|Possible signal-flow graph for the asymptotic gain model | |||
|MOSFET Transresistance amplifier.PNG| MOSFET transresistance feedback amplifier. | |||
|Bipolar transresistance feedback amplifier.PNG| Collector-to-base biased bipolar amplifier. | |||
|Shunt-series feedback amplifier.PNG|Two-transistor feedback amplifier; any source impedance ''R<sub>S</sub>'' is lumped in with the base resistor ''R<sub>B</sub>''. | |||
}} | }} | ||
{{Gallery-mixed | {{Gallery-mixed | ||
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|MOSFET four-terminal hybrid-pi circuit.PNG|Four-terminal small-signal MOSFET circuit. | |MOSFET four-terminal hybrid-pi circuit.PNG|Four-terminal small-signal MOSFET circuit. | ||
|Miller effect.PNG|Miller effect: These two circuits are equivalent. | |Miller effect.PNG|Miller effect: These two circuits are equivalent. | ||
|Small-signal transresistance amplifier.PNG| Small-signal circuit for transresistance amplifier | |||
|Return ratio.PNG|Small-signal circuit with return path broken and test current ''i<sub>t</sub>'' driving amplifier at the break. | |||
|Using return ratio.PNG|Three small-signal schematics used to discuss the asymptotic gain model | |||
}} | |||
{{Gallery-mixed | |||
|caption=Return ratio | |||
|width=500 | |||
|lines=5 | |||
|Inserting source for return ratio.PNG|''Left'' - small-signal circuit corresponding to bipolar amplifier; ''Center'' - inserting independent source and marking leads to be cut; ''Right'' - cutting the dependent source free and short-circuiting broken leads. | |||
}} | }} | ||
{{Gallery-mixed | {{Gallery-mixed | ||
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}} | }} | ||
== | ==Logic== | ||
{{Gallery-mixed | {{Gallery-mixed | ||
|caption= | |caption=Logic and Venn diagrams | ||
|width= | |width=150 | ||
|lines=5 | |lines=5 | ||
|Venn Diagrams.PNG|Venn diagrams; set A is the blue circle (left) | |Venn Diagrams.PNG|Venn diagrams; set A is the interior of the blue circle (left), set B is the interior of the red circle (right). | ||
|Venn diagrams XY.PNG|Venn diagrams; set ''X'' is the interior of the blue circle (left), set ''Y'' is the interior of the red circle (right). | |||
|Venn diagram for subsets of two sets.PNG|Venn diagram showing subsets of two sets ''X'' and ''Y''. | |||
|Venn diagram for three sets.PNG|Venn diagram for three sets ''X'', ''Y'', and ''Z''. | |||
|Venn diagram for four sets.PNG|Venn diagram for four sets ''X'', ''Y'', ''Z'', and ''W''. | |||
|Venn diagram for five sets.PNG|Venn diagram for five sets ''X'', ''Y'', ''Z'', ''V'' and ''W''. | |||
|Logic gate with Venn diagram.PNG|A three-input logic gate (center) with its Venn diagram (top) and truth table (bottom). | |||
|Venn diagram for switch network A.PNG|Five-switch network with Venn diagrams for branches | |||
|Venn diagram for switch network B.PNG|Equivalent three-switch network with Venn diagrams for branches | |||
}} | }} | ||
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|Fermi function.PNG|Fermi occupancy function ''vs''. energy departure from Fermi level in volts for three temperatures | |Fermi function.PNG|Fermi occupancy function ''vs''. energy departure from Fermi level in volts for three temperatures | ||
|FCC Fermi surface.PNG|Fermi surface in '''k'''-space for a nearly filled band in the face-centered cubic lattice | |FCC Fermi surface.PNG|Fermi surface in '''k'''-space for a nearly filled band in the face-centered cubic lattice | ||
}} | |||
==More Devices== | |||
{{Gallery-mixed | |||
|caption=Devices | |||
|width=200 | |||
|lines=5 | |||
|Silicon conduction band ellipsoids.JPG|A constant energy surface in the silicon conduction band consists of six ellipsoids. | |Silicon conduction band ellipsoids.JPG|A constant energy surface in the silicon conduction band consists of six ellipsoids. | ||
|Planar Schottky diode.PNG|Planar Schottky diode with ''n<sup>+</sup>''-guard rings and tapered oxide. | |Planar Schottky diode.PNG|Planar Schottky diode with ''n<sup>+</sup>''-guard rings and tapered oxide. |
Latest revision as of 03:07, 22 November 2023
The account of this former contributor was not re-activated after the server upgrade of March 2022.
Angle brackets: & #x27E8; = ⟨ & #x27E9; = ⟩ & #10216; = ⟨ & #10217;= ⟩ <Φ|Ψ> <Φ|Ψ> <Φ|Ψ> ⟨Φ|Ψ⟩ ⟨Φ|Ψ⟩ ⟨Φ|Ψ⟩ ⟨Φ|Ψ⟩
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Magnetism
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Circuits
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Return ratio | |||||||||||||||||||||||||||||
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Amplifiers | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Logic
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More Devices
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