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`Application Notes by Category - POWER-SUPPLY CIRCUITS
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`Maxim/Dallas > App Notes
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`Application Notes by Category
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`POWER-SUPPLY CIRCUITS
`
`Application Notesfor:
`
`Application Notes by Topology:
`
`e Automotive
`e Cable Modem / Satellite TV
`e Cell Phone
`e Desktop PC / Server
`e Digital Camera
`e Fiber Module
`e LCD / Flat Panel / Backlight / Display
`e Network / Telecom / WLAN
`e Notebook Computer
`® Other
`e PDA / Hand Terminal
`e Printer / Fax
`e RAID
`
`« Boost / Step-Up
`e Buck / Step-Down
`e Buck-Boost / Step Up-Down
`e Charge Pump
`e Current Sensing
`e Flyback / Isolated / Transformer
`e
`Inverter / Negative Output
`e Linear Regulator / LDO
`e MOSFETDriver
`e USB / Hot-Swap / Load Switching
`e White-LED Power
`
`ALSO SEE: Power-Supply Cookbook — Tested designs, with bill of materials, to meet your specs.
`
`TOPOLOGY:Buck / Step-Down
`App Note 3740
`How to Generate Auxiliary Supplies from a Positive Buck DC-DC Converter
`App Note 3767
`Meeting the Challenges of Power-Supply Design for Modern, High-Current CPUs
`App Note 3753
`Thermistor Linearizes Current Limit
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`App Note 3672
`Noise Reduction for the MAX1864 Auxiliary Regulator
`App Note 3668
`High-Efficiency Current Drive for High-Brightness LEDs
`App Note 3638
`2.2MHz Buck or Boost Power Supply for ADSL2+ Chipset
`App Note 3626
`Adding a Watchdog to a Dual-Output Power Supply
`App Note 3603
`Buck Converters Proliferate in Handhelds as Features and Processing Power Increase
`App Note 3581
`MAX5074 5V, 3A Reference Design
`App Note 3560
`High-Efficiency DC-DC Converter Fits LDO Footprint
`App Note 3519
`Integrated DC-DC Converters Save Space and Design Time in Distributed-Power Systems
`App Note 3499
`Compact-Footprint, 60A, Two-Phase Power Supply for AMD K8 Motherboards
`App Note 3434
`RF Power Reduction for CDMA/W-CDMACellular Phones
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`Application Notes by Category - POWER-SUPPLYCIRCUITS
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`8/10/22, 5:58 PM
`App Note 3442
`Simple PSPICE Model Predicts MAX8546 Stability and Transient Response
`App Note 3244
`3mm-tTall, Dual-Phase, Step-Down, DC-DC Converter Delivers 1.6V at 20A from 12V for Mobile Processor
`Cores
`App Note 3440
`An Accurate Control Loop Model for Current-Mode Step-DownControllers
`App Note 3356
`MAX1917 Provides Pre-Bias Soft Start for Redundant Supply
`App Note 3324
`Buck Regulator Forms High-Power Inverting -5V Supply
`App Note 3247
`RF Power Amplifier Efficiency Improves with Varied Vcc, from DC-DC Supply
`App Note 3174
`Selecting Power Managementfor Cellular Handsets
`App Note 2997
`Basic Switching-Regulator-Layout Techniques
`App Note 2767
`DAC Makes Controller Programmable
`App Note 1901
`Convert the MAX1937/8/9 from Latch Off Mode to Hiccup Mode Under Short Circuit Condition
`App Note 1897
`Building a Power Supply That Works
`App Note 1882
`Increase the Power of a Buck (Step-Down) Switching Power Supply IC
`App Note 1857
`DDR Memory-Termination Supply
`App Note 1845
`Choosing the Right DC-DC Converter for Automotive Applications
`App Note 1832
`Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies
`App Note 225
`Using Digital Potentiometers in Adjustable Step-Down DC-DC Converter Designs
`App Note 1782
`Small Footprint, 10us Response Time, 10mV Output Ripple, 1MHz, 6A Step-Down Regulator
`App Note 1775
`Power Supply for DDR-SDRAM Termination Operates From 3V to 5.5V Input
`App Note 1157
`Parallel-Port Interface Powers Low Voltage Systems
`App Note 716
`Proper Layout and ComponentSelection Controls EMI
`App Note 1153
`MAX1967 Efficiency Improvement with 3.3V Input
`App Note 672
`Power Supplies for Pentium, PowerPC, and Beyond
`App Note 1062
`Designing Compact Telecom Power Supplies
`App Note 986
`Input and Output Noise in Buck Converters Explained
`App Note 1149
`DDR Memory-Termination Supply
`App Note 1147
`Simple Current Source Determines the MAX1802 Auxiliary Controller Switching Frequency
`App Note 280
`Power Supplies for Telecom Systems
`App Note 1135
`Small Capacitor ImprovesEfficiency in High-Power CPU Supply
`App Note 1121
`Using Ceramic Output Capacitors with the MAX1734 Voltage-Mode Buck Converter
`App Note 1077
`DC-to-DC Converter Combats EMI
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`App Note 1053
`VDDQ Supply for Server DDR Memory Using PWM Step-Down Controller
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`8/10/22, 5:58 PM
`App Note 1045
`One Megahertz Adaptable Power Supply Meets XENPAK MSASpecification
`App Note 1044
`Design of Graphic Chip and Related Circuitry Power Supplies Using MAX1953 1MHz PWM Step-down
`Controller
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`Application Notes by Category - POWER-SUPPLY CIRCUITS
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`App Note 1014
`Design Case Study: Designing a Power Supply for a Portable, Wireless Contact Manager
`App Note 993
`Adding Voltage Droop to DDR Memory Termination Voltage Supply Reduces Output Capacitance
`App Note 967
`How to Minimize Power Dissipation in Li+ Linear Chargers
`App Note 959
`Dual 600mABuck Converter for Logic Supply and Core Supply at 1V or Less
`App Note 945
`Step-Up Controller Forms Negative Step-Down Regulator
`App Note 735
`Layout Considerations for Non-Isolated DC-DC Converters
`App Note 2031
`DC-DC Converter Tutorial
`
`App Note 752
`Creating a Fast Load Transient
`App Note 737
`Choosing the Right Power-Supply IC for your Application
`App Note 841
`Multiple Output Power Supplies with Output Sequencing
`App Note 821
`The MAX1864/MAX1865 Compensation Calculator
`App Note 1205
`W-CDMA Power Supply Dramatically Improves Transmit Efficiency
`App Note 673
`5-to-1.8V Converter Works Without Magnetics
`App Note 1180
`High-Accuracy Current-Sense Amplifier Enables Current Sensing and Current Sharing
`App Note 479
`All-Ceramic 320mA Step-Down Converter for USB
`App Note 473
`Maxim's Integrated Power Supplies Provides a Highly Reliable and Space-Saving Approach to Post-Regulators
`App Note 478
`Current-Limit Circuit for the Buck Regulator
`App Note 269
`Trading Performance for Cost in Portable Power Supplies
`App Note 678
`Turnkey Power-Supply Solutions Power Pentium Pro® uPs
`App Note 260
`Miniature Temperature Monitors Drive 3-Speed Fan Controller
`App Note 998
`5V Step-Down Converter Has Transformer-Isolated Feedback
`App Note 551
`Negative Buck Regulator Produces Positive Output
`App Note 930
`Synchronous Buck-Regulator Output Terminates High-Speed Data
`App Note 59
`Flyback Winding Adds 12V Output To 5V Buck Regulator
`App Note 933
`Negative Buck Regulator Employs Step-Up Controller
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