Application Notes

• App note 4811: MAXQ® Family User's Guide
• App note 5106: Getting Started with the MAXQ1010 Secure Microcontroller Evaluation Kit and the IAR Embedded Workbench
• App note 5100: General Layout Guidelines for RF and Mixed-Signal PCBs
• App note 5049: Using the DS3645's Power-Management Mode
• App note 5028: MAXQ1050 Rowley Development Environment Setup
• App note 4992: Reduce the Chances of Human Error: Part 1, Power and Ground
• App note 4979: Automotive USB Power
• App note 4930: Easy Modifications to Sustain a Design with the DS2409 MicroLAN™ Coupler
• App note 4816: MAXQ® Family User's Guide: MAXQ1010 Supplement
• App note 4813: MAXQ612/MAXQ622 User's Guide
• App note 4803: The Basics of USB Battery Charging: a Survival Guide
• App note 4728: Using Window Comparators in Secure Managers
• App note 4694: Introduction to Digital Stethoscopes and Electrical Component Selection Criteria
• App note 4691: Introduction to Hearing Aids and Important Design Considerations
• App note 4690: Important Design Considerations for Digital Thermometers
• App note 4689: Blood Pressure Monitor Design Considerations
• App note 4688: Introduction to Spirometers and Important Design Considerations for Selecting Electrical Components
• App note 4686: Important Design Considerations for Heart-Rate and Fitness Monitors
• App note 4685: How Continuous Positive Airway Pressure (CPAP) Respiratory Ventilation Systems Function
• App note 4671: Improve Sensor Performance and SNR in Pulse Oximeter Designs
• App note 4659: Blood Glucose Meters
• App note 4656: External MOSFET Reduces I²R Losses in Smart Power Selector™-Based Chargers
• App note 4621: Simple Circuit Prevents USB Current Overshoot During Insertion
• App note 4519: Simple and Easy Power-OK Indicator Detects Under- and Over-Voltage
• App note 4499: Miniature Circuit Converts Negative Inputs to Positive Outputs
• App note 4497: Single-Inductor Circuit Generates Bipolar Supply Voltages
• App note 4445: Boost Converter Switches Between Battery and USB Power
• App note 4444: Single-Pushbutton ON/OFF Power Control
• App note 4434: USB-Powered Bipolar Supply
• App note 4405: Spare Op Amp Generates Its Own Regulated Negative Supply
• App note 4404: Using a Linear Regulator to Produce a Constant Current Source
• App note 4324: Variable Resistor and Temperature-Indexed Lookup Table (LUT) Compensate for Regulator Output
• App note 4297: Battery Selection for Secure Supervisor Applications
• App note 4252: How to Use the MAX9406 PCIe-to-HDMI Board
• App note 4244: Secure Managers Provide Multifaceted Monitoring to Ensure System Security
• App note 4232: HFRD-34.0 4 x 4 DVI KVM Switch
• App note 4226: Surge Testing Solid-State USB Switches and Other Overcurrent Protectors
• App note 4221: How to Optimize Avalanche Photodiode (APD) Bias Range Using a DS1841 Logarithmic Resistor
• App note 4046: Overview of 2.1 (Satellite/Subwoofer) Speaker Systems
• App note 4000: MAX3421E-Revisions 1 and 2 Host OUT Transfers
• App note 3976: Embedded Security Going Forward
• App note 3937: Setting Up the Maxim USB Laboratory
• App note 3936: The Maxim USB Laboratory
• App note 3928: Automotive Linear Regulators Minimize Quiescent Current
• App note 3891: Isolating USB
• App note 3865: Single Resistor Provides Extra Current from a Linear Regulator
• App note 3803: Practical USB Terminology
• App note 3785: MAX3421E Programming Guide
• App note 3782: Frequently Asked Questions about the MAX3421E
• App note 3775: Design Considerations for a Low-Cost Sensor and A/D Interface
• App note 3744: Circuit Enables Single NiMH Cell to Simulate a Lithium Battery
• App note 3741: Analog ICs for Low Voltage Systems
• App note 3690: USB enumeration code (and more) for the MAX3420E
• App note 3663: Bringing Up a MAX3420E System
• App note 3661: The MAX3420E Interrupt System
• App note 3656: Single Transistor Reduces LDO Noise by 46dB
• App note 3637: Add USB to Anything
• App note 3627: Modified LDO Regulator Sinks PECL-Termination Current
• App note 3603: Buck Converters Proliferate in Handhelds as Features and Processing Power Increase
• App note 3598: MAX3420E Programming Guide
• App note 3597: Frequently Asked Questions About the MAX3420E
• App note 3592: MAX3420E Information Card
• App note 3468: High-Efficiency Step-Up Converter Robs Parallel Port
• App note 3447: Complete Stand-Alone GPS Receiver Solution with MAX2742
• App note 3425: Converter Boosts One-Cell Battery Voltage to 50V
• App note 3333: Pass Transistor Enhances Regulator's Output Current
• App note 3283: One Button Turns Microprocessor On and Off
• App note 3256: Why Drive White LEDs with Constant Current?
• App note 3241: Charging Batteries Using USB Power
• App note 3226: High-Level Integration Needed for Compact Digital-Camera Power
• App note 3209: Protecting Against Momentary Power Loss Due to Battery-Bounce
• App note 3202: 5V Auxiliary Power Supply Teams LDO and Charge Pump
• App note 3198: Modified LDO Sinks PECL-Termination Current
• App note 3070: Standard and White LED Basics and Operation
• App note 3014: LDO Improves White LED Current Matching
• App note 3007: Logic-Level Translation
• App note 2857: T1/E1/J1, N+1 Redundancy with Analog Switches
• App note 2767: DAC Makes Controller Programmable
• App note 2765: Flexible Fault Protection
• App note 2233: Block Diagram and Description of Maxim's TDD-WCDMA Transceiver Solution at 1.9GHz
• App note 2141: Determining Clock Accuracy Requirements for UART Communications
• App note 2047: Step-Up/Step-Down Converter Features Ultra-Low Quiescent Current
• App note 2027: Simple Methods Reduce Input Ripple for All Charge Pumps
• App note 2018: Protection From Blackouts: Dirt Cheap to Fully Integrated
• App note 2015: Overcurrent/Overdischarge Protection for Lead-Acid Batteries
• App note 1931: USB-Powered High Precision Hi-Fi Phono Preamp
• App note 1873: 4mA–20mA Loop Powered Temperature Sensor
• App note 1861: Pass Transistor Boosts Current from Negative Linear Regulator
• App note 1853: External Pass Transistor Lowers Dropout Voltage
• App note 1845: Choosing the Right DC-DC Converter for Automotive Applications
• App note 1824: Phase Noise and TD-SCDMA UE Receiver
• App note 225: Using Digital Potentiometers in Adjustable Step-Down DC-DC Converter Designs
• App note 1804: Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently
• App note 1791: Tiny Voltage Converter Boosts a Single Lithium Cell and Needs no Inductors
• App note 1767: USB-Powered DSL Modem Supply
• App note 1158: Power Supply From 4-20mA Transmission Line
• App note 1147: Simple Current Source Varies the Switching Frequency of a Power Supply for a Digital Still Camera
• App note 1115: Isolated SLIC supply
• App note 1037: Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections
• App note 1014: Design Case Study: Designing a Power Supply for a Portable, Wireless Contact Manager
• App note 1020: LDO Linear Regulator Improves White LED Brightness Matching
• App note 960: Portable Supply Derives +5V and +3.3V Power from USB Port
• App note 959: Dual 600mA Buck Vonverter for Logic Supply and Core Supply at 1V or Less
• App note 947: Extend Battery Life with Dual Power Supply for Wallcube/Battery-Powered Systems
• App note 909: Power a Digital Still Camera with 2AA Batteries and a Single Integrated Power Supply
• App note 898: Selecting LDO Linear Regulators for Cellphone Designs
• App note 891: Dual 1.4MHz Synchronous Buck Regulator Supports USB Dying Gasp Applications
• App note 883: Improved Power-Supply Rejection for Linear Regulators
• App note 843: Industrial 0V to +10V Digital Potentiometer
• App note 673: 5-to-1.8V Converter Works Without Magnetics
• App note 827: PC Serial Port Drives 12-Bit A/D Converter
• App note 761: Automatic Test Equipment on a Budget
• App note 751: Linear Regulators in Portable Applications
• App note 737: Choosing the Right Power-Supply IC for your Application
• App note 1205: W-CDMA Power Supply Dramatically Improves Transmit Efficiency
• App note 658: Choose the Right Ultra-Thin DC-DC Converter for a Compact PCMCIA Card
• App note 660: Regulator Topologies for Battery-Powered Systems
• App note 668: Managing Noise in Cell-Phone Handsets
• App note 477: All-Ceramic 200mA Step-Up Converter for USB
• App note 471: Step-up Converter with LDO Beats SEPIC Efficiency
• App note 473: Integrated Power Supplies are Highly Reliable and Compact Postregulators
• App note 479: All-Ceramic 320mA Step-Down Converter for USB
• App note 478: Current-Limit Circuit for the Buck Regulator
• App note 482: JFET Increases Voltage Rating for Linear Regulator
• App note 716: Proper Layout and Component Selection Controls EMI
• App note 438: 3.3V Lithium-Ion-Cell Buck/Boost Supply Requires One Inductor
• App note 269: Trading Performance for Cost in Portable Power Supplies
• App note 268: Wireless-Modem Power for Hand-Held Devices
• App note 295: Emitter-Follower Boosts Linear Regulator's Output Current
• App note 671: Energy Management for Small Portable Systems
• App note 256: Two AA Cells Power Step-Down Regulator and 3.3V Boost
• App note 1923: Draw 150mW of Isolated Power from Off-Hook Phone Line
• App note 1000: Battery-Switchover Circuit Accommodates 3V Systems
• App note 28: Low-Power DC-DC Converter Derives 5V From 3V Battery
• App note 423: Latching Regulator Prevents Deep Discharge of Battery