-
WHiTe Compact Models
19 Mar 2023 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H SiC (silicon carbide) high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a JFET...
https://nanohub.org/publications/339/?v=12
-
WHiTe Compact Models
14 Jun 2022 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H SiC (silicon carbide) high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a JFET...
https://nanohub.org/publications/339/?v=11
-
WHiTe Compact Models
30 Oct 2021 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H SiC (silicon carbide) high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a JFET...
https://nanohub.org/publications/339/?v=10
-
WHiTe Compact Models
01 Nov 2020 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H SiC (silicon carbide) high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a JFET...
https://nanohub.org/publications/339/?v=7
-
WHiTe Compact Models
13 Sep 2020 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H silicon carbide high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a junction...
https://nanohub.org/publications/339/?v=6
-
WHiTe (Wood-High-Temperature) Compact Models
21 May 2020 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H silicon carbide high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a junction...
https://nanohub.org/publications/339/?v=4
-
WHiTe (Wood-High-Temperature) Compact Models
16 Apr 2020 | Compact Models | Contributor(s):
By Neal Wood
Toshiba Europe Limited
This package provides a set of 4H silicon carbide high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a junction...
https://nanohub.org/publications/339/?v=3
-
WHiTe (Wood-High-Temperature) Compact Models
10 Mar 2020 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H silicon carbide high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a junction...
https://nanohub.org/publications/339/?v=2
-
WHiTe (Wood-High-Temperature) Compact Models
25 Feb 2020 | Compact Models | Contributor(s):
By Neal Graham Wood
This package provides a set of 4H silicon carbide high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a junction...
https://nanohub.org/publications/339/?v=1
-
R3
21 Nov 2014 | Compact Models | Contributor(s):
By Colin McAndrew
NXP Semiconductors
Compact model for polysilicon (poly) resistors, 3-terminal JFETs, and diffused resistors.
https://nanohub.org/publications/26/?v=1
-
Impedance Adder
Tools | 28 Feb 2012 | Contributor(s):: Emmanuel Jose Ochoa, Stella Quinones
Understand how to calculate the equivalent impedance of circuit elements combined in parallel and/or series, and understand equivalent impedance calculations in rectangular and polar form.
-
Series and Parallel
Tools | 17 Feb 2012 | Contributor(s):: Emmanuel Jose Ochoa, Stella Quinones
Examine the resistance, R, inductance, L, or capacitance, C, of multiple elements in series or in parallel.
-
Circuit Elements
Tools | 17 Feb 2012 | Contributor(s):: Emmanuel Jose Ochoa, Stella Quinones
Understand the dependence of resistance, R, inductance, L, and capacitance, C, on physical dimensions and material properties.
-
Resistor Color Code
Tools | 10 Feb 2012 | Contributor(s):: Robert Benjamin Post, Stella Quinones
Apply the color code to determine the resistance value of a resistor or input a resistance value and determine the color code of the resistor.