Mouser Student Resource Center
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Amplifiers (back to top)
- • Amplifier Classes
- • Analog Isolation Amplifiers
- • Choosing Between Voltage Feedback and Current Feedback Op Amps
- • Chopper Stabilized Precision Op Amps
- • Current Feedback Op Amps
- • High Speed Variable Gain Amplifiers
- • High Speed Voltage Feedback Op Amps
- • In-Amp Input Overvoltage Protection
- • Instrumentation Amplifier Basics
- • Instrumentation-Amp Input RFI Protection
- • Inverting Amplifiers
- • Log Amp Basics
- • Op Amp Bandwidth
- • Op Amp Common-Mode Rejection Ratio
- • Op Amp Distortion
- • Op Amp Input and Output Common-Mode and Differential Voltage Range
- • Op Amp Input Bias Current
- • Op Amp Input Impedance
- • Op Amp Input Offset Voltage
- • Op Amp Inputs, Outputs, Single-Supply, and Rail-to-Rail Issues
- • Op Amp Noise Figures
- • Op Amp Noise
- • Op Amp Power Supply Rejection Ratio
- • Op Amp Settling Time
- • Op Amp Total Output Offset Voltage Calculations
- • Other Linear Circuits
- • Precision Op Amps
- • Precision Variable Gain Amplifiers
- • The Op Amp
- • Using Op Amps As Comparators
- • Variable Gain Amplifiers
- • Voltage Feedback Op Amp Gain and Bandwidth
Audio (back to top)
- • Compandor Cookbook
- • EMI and ESD Filtering of Audio Interconnects
- • High Fidelity Switching Audio Amplifiers Using Power MOSFETs
Circuit Protection (back to top)
- • A Glossary of Analog-to-Digital Specifications and Performance Characteristics
- • Alternate Circuits for Overvoltage Protection
- • Ambiguity of the Peak Power Rating of TVS Devices
- • An Introduction to Transient Voltage Suppresion Devices
- • Application Hints for Transient Voltage Suppresion Diode Circuits
- • Characterization of ESD Clamping Performance
- • Circuit Configuration Options for TVS Diodes
- • Circuit Protection Application Guide
- • Design Considerations for ESD/EMI Filters, Part 1
- • Design Considerations for ESD/EMI Filters, Part 2
- • Electrostatic Discharge and IGBTs
- • Electrostatic Discharge and ESD
- • EMI and ESD Filtering of Audio Interconnects
- • How to Maintain USB Signal Integrity when Adding ESD Protection
- • Identification of Transient Voltage Noise Sources
- • Instrumentation Amp Input Overvoltage Protection
- • Interface Protection for HDMI
- • Interpretation of Datasheet Parameters for ESD Devices
- • Linear Regulator Protection Circuitry
- • Noise Management in Motors Drives with IGBTs
- • Overvoltage Effects on Analog Integrated Circuits
- • Practical ESD Protection vs. Foolhardy Placebos
- • Touch Screen EMI/ESD Protection
- • Transient Overvoltage Protection
- • TVS Diode Selection Guidelines for the CAN Bus
- • Types of Electrical Overstress Protection
- • Unidirectional vs. Bidirectional Protection
- • Where is Ground?
Clocks and Clocking Functions (back to top)
- • Basics of Clock Jitter
- • ECL Clock Distribution Techniques
- • Fundamentals of Phase Locked Loops
- • System Clock Generators
Connectors (back to top)
- • Backplane Technology and Connectors
- • Application Tooling
- • Glossary of Connector Terminology
- • Good Crimps and How To Recognize Them
- • Industrial Connectivity
- • Power Connectors
- • RF Connectors
- • Signal Connectors
Data Conversion (back to top)
- • A Glossary of Analog-to-Digital Specifications and Performance Characteristics
- • ADC Architectures III
- • ADC Noise
- • ADC Noise Figure
- • ADC Sparkle Codes and Metastable States
- • ADCs for DSPs
- • ADCs for Signal Conditioning
- • Analog Digital Conversion
- • Converters
- • DAC Interface Fundamentals
- • DACs for DSPs
- • DACs vs Digital Potentiometers
- • Data Converter Static Specifications
- • Data Converter Support Circuits
- • Differential Drivers for High Speed ADCs
- • Differential Drivers for Precision ADCs
- • Evaluating High Speed DAC Performance
- • Fundamentals of Direct Digital Synthesis
- • Fundamentals of Sampled Data Systems
- • Grounding Data Converters
- • High Speed ADC Analog Input Interface
- • High Speed DACs and DDS Systems
- • High Speed Data Conversion Overview
- • High Speed Sampling
- • High Speed System Applications
- • Sampled Data Systems
- • Undersampling Applications
- • Voltage to Frequency Converters
- • What Designers Should Know About Data Converter Drift
- • What the Nyquist Criterion Means to your Sampled Data System Design
Design Development Tools (back to top)
Digital Signal Processors (DSPs) (back to top)
Filters (back to top)
Layout and PCB Design (back to top)
Logic (back to top)
MOS Devices (back to top)
Motors (back to top)
Passive Components (back to top)
Potentiometers (back to top)
- • Choosing the Correct digiPOT for Your Application
- • DACs vs. Digital Potentiometers
- • Digital Potentiometers
- • Everything You Wanted to Know About Digital Potentiometers
- • Understanding Digitally Programmable Potentiometers
Power Management (back to top)
- • An Early Introduction to LDO Early Warning Function
- • How to Apply DC-to-DC Step-Down (Buck) Regulators
- • How to Apply DC-to-DC Step-Up (Boost) Regulators
- • Linear Regulator Protection Circuitry
- • Power Management
- • References and LDOs
- • Selecting the Right Passive and Discrete Components for Top System Performance
- • Small, simple PWM Buck Controller Can Replace High Current LDOs
Processors & Microcontrollers (back to top)
Rectifiers (back to top)
RF Wireless (back to top)
- • Introduction to RF and Wireless Technologies
- • Mixers and Modulators
- • RF Components: Active and Passive Mixers
- • RF/IF Circuits
Sensors & Instrumentation (back to top)
Switches (back to top)
Thermal Management (back to top)
- • Thermal Design Basics
- • Two Ways to Measure Temperature Using Thermocouples Feature Simplicity, Accuracy, and Flexibility
Touch Display Technology (back to top)
