Thomas Booij

InP Temperature Sensor with Si-CMOS Interface for Photonic Integrated Circuits - ECOC 2025

InP Temperature Sensor with Si-CMOS Interface for Photonic Integrated Circuits - ECOC 2025

Predicting Thermal Vulnerability of Circuits - Master's Thesis Presentation

Predicting Thermal Vulnerability of Circuits - Master's Thesis Presentation

Exporting Data - Cadence Crash Course #10

Exporting Data - Cadence Crash Course #10

Spectral Analysis - Cadence Crash Course #9

Spectral Analysis - Cadence Crash Course #9

Calculator - Cadence Crash Course #8

Calculator - Cadence Crash Course #8

Parametrization - Cadence Crash Course #7

Parametrization - Cadence Crash Course #7

More Simulations - Cadence Crash Course #6

More Simulations - Cadence Crash Course #6

Simulation Setup - Cadence Crash Course #5

Simulation Setup - Cadence Crash Course #5

Schematic Entry - Cadence Crash Course #4

Schematic Entry - Cadence Crash Course #4

First Overview - Cadence Crash Course #3

First Overview - Cadence Crash Course #3

Initial Setup - Cadence Crash Course #2

Initial Setup - Cadence Crash Course #2

Introduction - Cadence Crash Course #1

Introduction - Cadence Crash Course #1

Question 23 - Transconductance Gain (Oscillator)

Question 23 - Transconductance Gain (Oscillator)

Question 30 - Dominant Pole (Amplifier)

Question 30 - Dominant Pole (Amplifier)

Question 40 - Clock Frequency (Data Converters)

Question 40 - Clock Frequency (Data Converters)

Question 32 - Minimizing Logic Area (Digital Gates)

Question 32 - Minimizing Logic Area (Digital Gates)

Question 38 - Input Voltage (Data Converters)

Question 38 - Input Voltage (Data Converters)

Question 39 - Conversion Time (Data Converters)

Question 39 - Conversion Time (Data Converters)

Question 34 - Static Power Consumption (Digital Gates)

Question 34 - Static Power Consumption (Digital Gates)

Question 12 - Inverter Propagation Time (True/False)

Question 12 - Inverter Propagation Time (True/False)

Question 26 - Equivalent Capacitance (Amplifier)

Question 26 - Equivalent Capacitance (Amplifier)

Question 28 - Equivalent Resistance (Amplifier)

Question 28 - Equivalent Resistance (Amplifier)

Introduction to Practice Material - Electronic Circuits 2

Introduction to Practice Material - Electronic Circuits 2

Question 6 - Contains error (check description; True/False)

Question 6 - Contains error (check description; True/False)

Question 40 - Non-Ideal Output Resistance (Data Converters)

Question 40 - Non-Ideal Output Resistance (Data Converters)

Question 38 - Non-Ideal Op Amp Gain (Data Converters)

Question 38 - Non-Ideal Op Amp Gain (Data Converters)

Question 39 - Non-Ideal Offset Voltage (Data Converter)

Question 39 - Non-Ideal Offset Voltage (Data Converter)

Question 37 - Least Significant Bit Voltage (Data Converters)

Question 37 - Least Significant Bit Voltage (Data Converters)

Question 36 - SQNR (Data Converters)

Question 36 - SQNR (Data Converters)

Question 35 - Mobility Ratio (Digital Gates, contains error - see pinned comment)

Question 35 - Mobility Ratio (Digital Gates, contains error - see pinned comment)