ATE
ATE
Systems
Test Hardware
Test Planning
Simple Test Program
Continuity
Digital Tests
I2C
Multisite Test Cost
Handlers and Probers
PVT Characterization
Data Analysis
Bench
Bench Basics
GPIB
FPGA
RaspberryPi
Arduino
Connectors and Cables
Linear
Capacitor Model
RLC Circuits
RC
filter
Capacitor
LC Series
LC Shunt
Diode IV
Bipolar
CE
Amplifier
Load Line NPN
BJT Current Mirror
CMOS
Inverter
W/L ratio
Current Mirror
Load Line NMOS
Op Amps Etc.
Op-Amp Internals
Non-Inverting
Inverting
NonIdeal
Voltage Follower/Buffer
Sallen-Key Filter
LM555
Power Management
Rectifiers
Linear Regulator
Buck
Boost
R
ds
(on)
Load Transients
PSRR
Mix-Sig
dB
SNR of an ideal N-bit ADC
dB to PPM
N bits to PPM
RC
FFT
Square wave
FFT
Two tones
Coherence
Aliased Sampling
Clipping
PWM
RF
TX/RX Setups
Amplitude Modulation
Frequency Modulation
S-Parameters
P1dB
IM3
LO Suppression (QAM)
LO Pulling
Noise Figure
PLL
Phase Noise
Superheterodyne
Direct Conversion
ADS Smith Utility
Sonnet
dB to Volts
LTSpice
Directives
LTspice Mac
.op
.tf
.dc
.tran
.ac
.print
.step temp
.step param
.model
.net (S11)
Sources
Voltage Source: Pulse
Voltage Source: Sine
Voltage Contr. Switch
VCVS
VCCS
Matlab
rand vs. randn
LTSpice Voltage Controlled Switch
References:
Tim Dean: LTSpice - Voltage Controlled Switch(Video)