| 1-Wire® Devices |
| DS1820 DS1821 DS1822 DS18B20 | Simple Software Validates the Hardware CRC and Detects Errors in the Serial Bit Stream of 1-Wire® Thermal Devices |
| DS1820 DS18S20 DS18B20 | Comparison of the DS18B20 and DS18S20 1-Wire® Digital Thermometers |
| DS1922L DS1922T DS1921G DS1923 DS9107 DS1921H DS1921Z | Understanding the IP (Ingress Protection) Ratings of iButton Data Loggers and Capsule |
| DS2482 DS28EA00 | Regain Location Information by Leveraging the 1-Wire® Chain Function—A Simple Signaling and Protocol Method Determines Device Physical Location |
| DS1720 DS1626 DS620 DS1726 DS1722 DS75LV DS1620 DS1780 DS75 DS1775 DS1731 DS1721 DS1631A DS1631 DS1629 DS1624 DS1621 DS1825 DS1822-PAR DS1822 DS1821 DS18S20-PAR DS18S20 DS18B20-PAR DS56 DS18B20 DS60 DS600 | Package Thermal Resistance Values (Theta JA, Theta JC) for Dallas Semiconductor Temperature Sensors |
| MAX1407 DS18S20 DS1920 MAXQ2000 | Temperature-Based Fan Control Using the MAXQ2000 Microcontroller |
| DS2422 DS1922 | DS2422 Trim Procedure and Software Correction |
| DS9092K DS1921K DS28EA00EVKIT DS9090K | Overview of 1-Wire® Technology and Its Use |
| DS1490 DS1410D DS1410E DS9097E DS2490 DS1411 DS9097 DS1413 DS9490 | White Paper 6: 1-Wire Drivers Installation Guide for Windows |
| DS1921K DS1921Z DS1921G DS1921H | White Paper 7: Thermochron® Mission Authentication and Security |
| DS2760 DS2417 DS18B20 DS1822-PAR DS2415 DS1822 DS2405 DS1985 DS1971 DS1982 DS1955 DS1995 DS18B20-PAR DS2406 DS1993 DS18S20 DS2431 DS1973 DS1996 DS2450 DS18S20-PAR DS2437 DS2438 DS1990A DS2506 DS2502 DS2505 DS2432 DS1986 DS1904 DS1921G DS2401 DS1963S DS2433 DS1921 DS1992 DS1920 | White Paper 5: Using 1-Wire APIs for Data Sheet Commands |
| DS9097U-009 DS9097U-E25 DS1411-S09 DS1982 DS18S20-PAR DS2433 DS2438 DS2505 DS9097U-S09 DS1411-009 DS18S20 DS2480B DS1985 DS1920 DS1955 DS1986 DS1921 DS1957 DS1963S DS1973 DS1993 DS1995 DS2401 DS2431 DS2432 DS2450 DS2502 DS1971 DS1990A DS1992 DS1996 DS2405 DS2406 DS2506 DS2490 | White Paper 2: Using the 1-Wire® Public Domain Kit |
| DS18B20-PAR DS1822-PAR DS18S20-PAR | DS18B20-PAR/DS18S20-PAR/DS1822-PAR Advantages for Remote Temperature Sensing |
| DS1920 DSTINI-1 DS1820 | Networked Temperature Monitoring |
| DS2433 DS1921G DS2406 DS1985 DS18B20 DS2450 DS1992 DS1921 DS2761 DS1982 DS2411 DS1971 DS2405 DS2401 DS2417 DS2438 DS1973 DS1955 DS2751 DS2502 DS1986 DS2505 DS1904 DS2480B DS1920 DS1995 DS2502-E48 DS1996 DS2506 DS1993 DS1957 DS1990A DS2760 DS2762 DS2431 DS2415 DS18S20 DS2408 DS1963S DS2432 | Using the DS2480B Serial 1-Wire Line Driver |
| DS2770 DS2720 DS2405 DS18S20 DS2760 DS1921 DS2506 DS1482 DS2502 DS2406 DS2417 DS1993 DS1904 DS2411 DS1985 DS1920 DS1995 DS1996 DS2431 DS1963S DS18B20 DS2751 DS2762 DS1921G DS1992 DS2502 DS2415 DS2450 DS2411 DS2408 DS2401 DS1973 DS1955 DS2505 DS2740 DS1982 DS1990A DS1971 DS2438 DS2432 DS1957 DS2433 DS1986 DS2761 | 1-Wire Search Algorithm |
| DS1822 DS1822-PAR DS18S20 DS18B20-PAR DS18S20-PAR DS18B20 | Interfacing the DS18X20/DS1822 1-Wire Temperature Sensor in a Microcontroller Environment |
| DS1923 DS2413 DS2406 DS18B20 DS18S20 DS1920 DS1921 DS2450 DS2438 | 1-Wire® Tagging with XML |
| DS2413 DS2409 DS2505 DS2430A DS1985 DS1425 DS1963S DS1922L DS1982 DS2417 DS1957 DS2411 DS2890 DS2408 DS2415 DS1990A DS1991 DS2432 DS2423 DS1955 DS2405 DS1986 DS1995 DS1921Z DS1920 DS2502 DS2433 DS1996 DS1992 DS2431 DS1923 DS1963L DS2406 DS1971 DS1922T DS2506 DS1921G DS2422 DS1973 DS2401 DS1921H DS28E04-100 DS2404 DS1904 DS1977 DS1994 DS199 | 1-Wire® Software Resource Guide Device Description |
| DS1923 DS1922L DS1973 DS1922E DS1993 DS1992 DS2720 DS18B20 DS9097U-009 DS2490 DS2431 DS1990A DS1982 DS1971 DS1921 DS2480B DS2438 DS2770 DS2417 DS1995 DS1955 DS2401 DS2432 DS2505 DS2411 DS2450 DS18S20 DS1920 DS1986 DS1904 DS2762 DS1921G DS1996 DS1963S DS2406 DS2502-E48 DS9097U-S09 DS2502 DS2433 DS1957 DS1985 DS2740 DS1961S DS1977 DS1972 | Guidelines for Reliable Long Line 1-Wire® Networks |
| A/D and D/A Conversion/Sampling Circuits |
| MAX5139 MAX5138 MAX5137 MAX5136 MAX5135 MAX5134 MAX5661 MAX15501 MAX15500 | Process Control and PLC Tutorial |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| MAX1360 MAX1359 MAX1358 | Measuring and Calibrating for Product-Dependent Temperature Offsets |
| General |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| MAX1153 MAX1253 MAX1154 MAX1254 | Temperature Monitoring Using the MAX1253/54 and MAX1153/54 |
| MAX5157 MAX5123 MAX5122 MAX5177 MAX5156 MAX5250 MAX5173 MAX5302 MAX525 MAX5132 MAX5304 MAX5354 MAX5352 MAX5351 MAX5152 MAX5355 MAX5253 MAX5353 MAX535 MAX5251 MAX5153 MAX5133 MAX5171 MAX5175 | Force/Sense DAC Applications |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| High-Speed Signal Processing |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Amplifier and Comparator Circuits |
| Audio |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Battery Applications |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Current Sensing |
| MAX5139 MAX5138 MAX5137 MAX5136 MAX5135 MAX5134 MAX5661 MAX15501 MAX15500 | Process Control and PLC Tutorial |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Miscellaneous |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Motor Control |
| MAX5139 MAX5138 MAX5137 MAX5136 MAX5135 MAX5134 MAX5661 MAX15501 MAX15500 | Process Control and PLC Tutorial |
| Op Amp Analysis, Tips and Tricks |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Power Supplies |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Sensors and Instrumentation |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| | IC Temperature Sensors Find the Hot Spots |
| Telecom |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Test and Measurement |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| Audio Circuits |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| MAX5490 MAX5491 MAX5492 MAX5437 MAX5439 | Rail Splitter, from Abraham Lincoln to Virtual Ground |
| Automotive |
| MAX197 MAX4236 MAX4237 | Positive Analog Feedback Compensates PT100 Transducer |
| MAX6675 MAX6674 MAX6691 MAX6642 | Selecting Temperature Sensors for System Measurement and Protection |
| MAX6684 MAX6650 MAX6661 MAX6651 MAX6661 MAX6668 MAX6670 MAX6660 | Circuit Converts PWM to Amplified and Buffered Linear Signal |
| MAX6665 MAX6512 | Simple Circuit Protects Systems from Overheating |
| MAX6605 MAX6003 MAX4402 | Circuit Generates Analog Fan-Speed Control |
| MAX6664 MAX6647 MAX6661 MAX6692 MAX6695 MAX6690 MAX6655 MAX6696 MAX6645 MAX6649 MAX6642 MAX6656 MAX6643 MAX6657 MAX6680 MAX6646 MAX6653 MAX6681 MAX6660 MAX6654 MAX6644 MAX6602 MAX6689 MAX6697 MAX6698 MAX6699 MAX6693 MAX6581 | Compensating for Ideality Factor and Series Resistance Differences between Thermal Sense Diodes |
| MAX6652 | MAX6652 System Monitor Combines Voltage Monitoring with Temperature Sensing |
| Basestations/Wireless Infrastructure |
| Wireless and RF System Design |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Battery Management |
| Battery Chargers |
| | Comparing the I²C Bus to the SMBus |
| Fuel-Gauge Circuits |
| | Comparing the I²C Bus to the SMBus |
| General |
| DS2770 DS2720 DS2405 DS18S20 DS2760 DS1921 DS2506 DS1482 DS2502 DS2406 DS2417 DS1993 DS1904 DS2411 DS1985 DS1920 DS1995 DS1996 DS2431 DS1963S DS18B20 DS2751 DS2762 DS1921G DS1992 DS2502 DS2415 DS2450 DS2411 DS2408 DS2401 DS1973 DS1955 DS2505 DS2740 DS1982 DS1990A DS1971 DS2438 DS2432 DS1957 DS2433 DS1986 DS2761 | 1-Wire Search Algorithm |
| Circuit Protection |
| MAX6675 MAX6674 MAX6691 MAX6642 | Selecting Temperature Sensors for System Measurement and Protection |
| Communications Circuits |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Digital Potentiometers |
| MAX5418 | Murphy's Law and the Risks of Designing "Off Data Sheet" |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| DS1848 DS1847 | DS1847/DS1848 Online Interactive Temperature Calculator |
| Fiber Monitoring and Control |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| DS1854 DS1857 DS1858 | How to Interpret DS1854, DS1857, and DS1858 Temperature and Voltage Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1848 DS1847 | DS1847/DS1848 Temperature Coefficient Supplement |
| General |
| DS1050 DS1845 DS1052 DS1847 MAX3221 MAX3223 DS232A | Using a PC's RS-232 Serial Port To Communicate with 2-Wire Devices |
| Industrial and Architectural Control |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| Instrumentation |
| MAX5157 MAX5123 MAX5122 MAX5177 MAX5156 MAX5250 MAX5173 MAX5302 MAX525 MAX5132 MAX5304 MAX5354 MAX5352 MAX5351 MAX5152 MAX5355 MAX5253 MAX5353 MAX535 MAX5251 MAX5153 MAX5133 MAX5171 MAX5175 | Force/Sense DAC Applications |
| Power Supply Margining and Calibration |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| DS1848 DS1847 | DS1847/DS1848 Temperature Coefficient Supplement |
| RF Power Amp |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1848 DS1847 | DS1847/DS1848 Temperature Coefficient Supplement |
| General Engineering Topics |
| MAX6195 | Same? Really the Same? Maybe? The Cross-Reference Challenge |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| MAX5400 MAX5401 MAX6133 MAX5532 MAX5533 MAX5534 MAX5535 | Well Grounded, Digital Is Analog |
| MAX5490 MAX5491 MAX5492 MAX5437 MAX5439 | Rail Splitter, from Abraham Lincoln to Virtual Ground |
| DS1720 DS1626 DS620 DS1726 DS1722 DS75LV DS1620 DS1780 DS75 DS1775 DS1731 DS1721 DS1631A DS1631 DS1629 DS1624 DS1621 DS1825 DS1822-PAR DS1822 DS1821 DS18S20-PAR DS18S20 DS18B20-PAR DS56 DS18B20 DS60 DS600 | Package Thermal Resistance Values (Theta JA, Theta JC) for Dallas Semiconductor Temperature Sensors |
| DS1050 DS1845 DS1052 DS1847 MAX3221 MAX3223 DS232A | Using a PC's RS-232 Serial Port To Communicate with 2-Wire Devices |
| High-Speed Signal Processing |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Hot-Swap and Power Switching Circuits |
| MAX6576 MAX3232 | RS-232 Powered Temperature Sensor |
| MAX6816 MAX1615 MAX4370 MAX6501 | Flexible Fault Protection |
| Interface Circuits |
| Other Interface Circuits |
| MAX5157 MAX5123 MAX5122 MAX5177 MAX5156 MAX5250 MAX5173 MAX5302 MAX525 MAX5132 MAX5304 MAX5354 MAX5352 MAX5351 MAX5152 MAX5355 MAX5253 MAX5353 MAX535 MAX5251 MAX5153 MAX5133 MAX5171 MAX5175 | Force/Sense DAC Applications |
| DS1050 DS1845 DS1052 DS1847 MAX3221 MAX3223 DS232A | Using a PC's RS-232 Serial Port To Communicate with 2-Wire Devices |
| Measurement Circuits |
| MAX6610 | IC Forms Direct-Readout Temperature Probe |
| DS1720 DS1626 DS620 DS1726 DS1722 DS75LV DS1620 DS1780 DS75 DS1775 DS1731 DS1721 DS1631A DS1631 DS1629 DS1624 DS1621 DS1825 DS1822-PAR DS1822 DS1821 DS18S20-PAR DS18S20 DS18B20-PAR DS56 DS18B20 DS60 DS600 | Package Thermal Resistance Values (Theta JA, Theta JC) for Dallas Semiconductor Temperature Sensors |
| MAX197 MAX4236 MAX4237 | Positive Analog Feedback Compensates PT100 Transducer |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| Memory |
| | Addressing the Physical Security of Encryption Keys |
| Microcontrollers |
| DS5250 DS87C530 | Using the DS87C530/DS5250 Real-Time Clock |
| 8051 Drop-In |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| DS5000 DS1631 | Interfacing to the DS1631 Digital Thermometer and Thermostat in a Microcontroller Environment |
| DS5000 DS1620 | Interfacing the DS1620 with a DS5000/8051 Microcontroller |
| MAXQ Mixed-Signal |
| MAX6650 MAX6651 MINIQUSB MAXQ2000 | Getting Started with the MAX6651 Fan Controller |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| Secure |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| TINI Networked |
| MAX1416 MAX1400 | Resistive Bridge Basics: Part Two |
| DS1920 DSTINI-1 DS1820 | Networked Temperature Monitoring |
| DS2413 DS2409 DS2505 DS2430A DS1985 DS1425 DS1963S DS1922L DS1982 DS2417 DS1957 DS2411 DS2890 DS2408 DS2415 DS1990A DS1991 DS2432 DS2423 DS1955 DS2405 DS1986 DS1995 DS1921Z DS1920 DS2502 DS2433 DS1996 DS1992 DS2431 DS1923 DS1963L DS2406 DS1971 DS1922T DS2506 DS1921G DS2422 DS1973 DS2401 DS1921H DS28E04-100 DS2404 DS1904 DS1977 DS1994 DS199 | 1-Wire® Software Resource Guide Device Description |
| DS1923 DS1922L DS1973 DS1922E DS1993 DS1992 DS2720 DS18B20 DS9097U-009 DS2490 DS2431 DS1990A DS1982 DS1971 DS1921 DS2480B DS2438 DS2770 DS2417 DS1995 DS1955 DS2401 DS2432 DS2505 DS2411 DS2450 DS18S20 DS1920 DS1986 DS1904 DS2762 DS1921G DS1996 DS1963S DS2406 DS2502-E48 DS9097U-S09 DS2502 DS2433 DS1957 DS1985 DS2740 DS1961S DS1977 DS1972 | Guidelines for Reliable Long Line 1-Wire® Networks |
| Microprocessor Supervisor Circuits |
| 4. Multivoltage Monitors |
| MAX6652 | MAX6652 System Monitor Combines Voltage Monitoring with Temperature Sensing |
| 5. Power-Supply Sequencers and Voltage Trackers |
| MAX6652 | MAX6652 System Monitor Combines Voltage Monitoring with Temperature Sensing |
| Optoelectronics |
| Applications: Optical Control and Monitoring |
| DS1848 DS1847 | DS1847/DS1848 Online Interactive Temperature Calculator |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| DS1854 DS1857 DS1858 | How to Interpret DS1854, DS1857, and DS1858 Temperature and Voltage Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1848 DS1847 | DS1847/DS1848 Temperature Coefficient Supplement |
| General: Mechanical Assembly and Thermal Issues |
| MAX1637 MAX4250 | HFAN-08.2.1: PWM Temperature Controller for Thermoelectric Modules Keeps Components within 0.1°C |
| Oscillators/Delay Lines/Timers/Counters |
| | Benefits of the DS32X35 Accurate Real-Time Clock with Ferroelectric Random Access Memory (RTC + FRAM) |
| Power-Supply Circuits |
| MAX5490 MAX5491 MAX5492 MAX5437 MAX5439 | Rail Splitter, from Abraham Lincoln to Virtual Ground |
| MAX5157 MAX5123 MAX5122 MAX5177 MAX5156 MAX5250 MAX5173 MAX5302 MAX525 MAX5132 MAX5304 MAX5354 MAX5352 MAX5351 MAX5152 MAX5355 MAX5253 MAX5353 MAX535 MAX5251 MAX5153 MAX5133 MAX5171 MAX5175 | Force/Sense DAC Applications |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| APP NOTES FOR: Desktop PC/Server |
| | Comparing the I²C Bus to the SMBus |
| APP NOTES FOR: Notebook Computer |
| | Comparing the I²C Bus to the SMBus |
| APP NOTES FOR: Other |
| | Comparing the I²C Bus to the SMBus |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| Prototyping and PC-Board Layout |
| MAX5418 | Murphy's Law and the Risks of Designing "Off Data Sheet" |
| MAX5400 MAX5401 MAX6133 MAX5532 MAX5533 MAX5534 MAX5535 | Well Grounded, Digital Is Analog |
| Real-Time Clocks |
| | Benefits of the DS32X35 Accurate Real-Time Clock with Ferroelectric Random Access Memory (RTC + FRAM) |
| Sensor Signal Conditioners |
| MAX6674 | Circuit Digitizes Thermocouple Output near Sensing Point |
| MAX1464 MAX1463 | Frequently Asked Questions (FAQs) on the MAX1464 Digital Sensor Signal Conditioner |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| MAX1637 MAX4250 | HFAN-08.2.1: PWM Temperature Controller for Thermoelectric Modules Keeps Components within 0.1°C |
| MAX5157 MAX5123 MAX5122 MAX5177 MAX5156 MAX5250 MAX5173 MAX5302 MAX525 MAX5132 MAX5304 MAX5354 MAX5352 MAX5351 MAX5152 MAX5355 MAX5253 MAX5353 MAX535 MAX5251 MAX5153 MAX5133 MAX5171 MAX5175 | Force/Sense DAC Applications |
| Temperature Sensors and Thermal Management |
| DS1820 DS1821 DS1822 DS18B20 | Simple Software Validates the Hardware CRC and Detects Errors in the Serial Bit Stream of 1-Wire® Thermal Devices |
| MAX6603 MAX1396 | Reference Design for a PC-based Temperature-Measurement System |
| MAX6650 MAX6651 MINIQUSB MAXQ2000 | Getting Started with the MAX6651 Fan Controller |
| MAX6674 | Circuit Digitizes Thermocouple Output near Sensing Point |
| MAX845 MAX6576 | Isolated Temperature Sensor |
| MAX6610 | IC Forms Direct-Readout Temperature Probe |
| DS1820 DS18S20 DS18B20 | Comparison of the DS18B20 and DS18S20 1-Wire® Digital Thermometers |
| MAX1360 MAX1359 MAX1358 | Measuring and Calibrating for Product-Dependent Temperature Offsets |
| MAX4613 MAX6506 DS2784 | Adding Thermal Protection to the DS2784 Stand-Alone Fuel Gauge |
| | Addressing the Physical Security of Encryption Keys |
| DS1922L DS1922T DS1921G DS1923 DS9107 DS1921H DS1921Z | Understanding the IP (Ingress Protection) Ratings of iButton Data Loggers and Capsule |
| DS2482 DS28EA00 | Regain Location Information by Leveraging the 1-Wire® Chain Function—A Simple Signaling and Protocol Method Determines Device Physical Location |
| MAX6675 MAX6627 MAX6002 MX7705 MAX6610 | Implementing Cold-Junction Compensation in Thermocouple Applications |
| DS1720 DS1626 DS620 DS1726 DS1722 DS75LV DS1620 DS1780 DS75 DS1775 DS1731 DS1721 DS1631A DS1631 DS1629 DS1624 DS1621 DS1825 DS1822-PAR DS1822 DS1821 DS18S20-PAR DS18S20 DS18B20-PAR DS56 DS18B20 DS60 DS600 | Package Thermal Resistance Values (Theta JA, Theta JC) for Dallas Semiconductor Temperature Sensors |
| MAX6576 | Telecomm Supply Powers Temperature Sensor |
| MAX1464 MAX1463 | Frequently Asked Questions (FAQs) on the MAX1464 Digital Sensor Signal Conditioner |
| MAX6654 MAX1617 MAX6642 | Migrating to the MAX6642 from Other Thermal Diode Temperature Sensors |
| MAX1407 DS18S20 DS1920 MAXQ2000 | Temperature-Based Fan Control Using the MAXQ2000 Microcontroller |
| MAX6653 | Circuit Converts PWM Fan Drive to Linear and Reduces Acoustic Noise |
| MAX6659 MAX6649 MAX6648 MAX6641 MAX6658 MAX6697 MAX6695 MAX6646 MAX6644 MAX6657 MAX6698 MAX6692 MAX6643 MAX6660 MAX6640 MAX6696 MAX6645 | Effect of PC Board Trace Width on Remote-Diode Temperature-Sensor Accuracy |
| DS1631A DS2764 DS1722 DS1631 DS2751 DS18B20 DS1822 DS18S20 DS2762 DS2770 DS1726 DS1821 DS1720 DS2761 DS1624 DS2436 DS1620 DS1775 DS1629 DS2740 DS2755 DS1626 DS75 DS1731 DS1621 DS2780 | Installing the DS9123O USB Adapter on Windows® 98 |
| MAX4236 MAX4618 MAX4475 MAX6037 MAX6576 | IR-Linked Temperature Sensor |
| MAX197 MAX4236 MAX4237 | Positive Analog Feedback Compensates PT100 Transducer |
| MAX6576 MAX3232 | RS-232 Powered Temperature Sensor |
| DS1624 | DS1624 2-Wire Communication SDA Hold Time Clarification |
| DS75 | DS75 2-Wire Communication SDA Hold Time Clarification |
| MAX6675 MAX6674 MAX6691 MAX6642 | Selecting Temperature Sensors for System Measurement and Protection |
| MAX6684 MAX6650 MAX6661 MAX6651 MAX6661 MAX6668 MAX6670 MAX6660 | Circuit Converts PWM to Amplified and Buffered Linear Signal |
| DS1859 DS1858 | DS1859 Internal Calibration and Right Shifting (Scalable Dynamic Ranging)
|
| DS2422 DS1922 | DS2422 Trim Procedure and Software Correction |
| MAX6816 MAX1615 MAX4370 MAX6501 | Flexible Fault Protection |
| DS1848 DS1847 | DS1847/DS1848 Online Interactive Temperature Calculator |
| MAX6510 | Thermal Switches Provide Circuit Disconnect |
| MAX1153 MAX1253 MAX1154 MAX1254 | Temperature Monitoring Using the MAX1253/54 and MAX1153/54 |
| MAX1615 MAX4040 MAX6605 | 4mA–20mA Loop Powered Temperature Sensor |
| MAX6650 MAX6651 | Fan Speed Control is Cool! |
| MAX1637 MAX4250 | HFAN-08.2.1: PWM Temperature Controller for Thermoelectric Modules Keeps Components within 0.1°C |
| MAX1605 MAX6576 | Portable Temperature Monitoring Demystified |
| DS1921K DS1921Z DS1921G DS1921H | White Paper 7: Thermochron® Mission Authentication and Security |
| MAX6629 MAX6630 MAX6631 MAX6632 | Temperature Sensor Has One Digital Input and One Digital Output |
| MAX6608 MAX6607 | Circuit Inverts Temperature-Sensor Output with Accuracy |
| MAX6665 MAX6512 | Simple Circuit Protects Systems from Overheating |
| MAX6605 MAX6003 MAX4402 | Circuit Generates Analog Fan-Speed Control |
| DS2760 DS2417 DS18B20 DS1822-PAR DS2415 DS1822 DS2405 DS1985 DS1971 DS1982 DS1955 DS1995 DS18B20-PAR DS2406 DS1993 DS18S20 DS2431 DS1973 DS1996 DS2450 DS18S20-PAR DS2437 DS2438 DS1990A DS2506 DS2502 DS2505 DS2432 DS1986 DS1904 DS1921G DS2401 DS1963S DS2433 DS1921 DS1992 DS1920 | White Paper 5: Using 1-Wire APIs for Data Sheet Commands |
| DS9097U-009 DS9097U-E25 DS1411-S09 DS1982 DS18S20-PAR DS2433 DS2438 DS2505 DS9097U-S09 DS1411-009 DS18S20 DS2480B DS1985 DS1920 DS1955 DS1986 DS1921 DS1957 DS1963S DS1973 DS1993 DS1995 DS2401 DS2431 DS2432 DS2450 DS2502 DS1971 DS1990A DS1992 DS1996 DS2405 DS2406 DS2506 DS2490 | White Paper 2: Using the 1-Wire® Public Domain Kit |
| MAX6504 MAX6507 MAX6501 MAX6506 MAX6575H MAX6575L MAX6577 MAX6503 MAX6576 MAX6502 MAX6505 | Simplify Isolated Temperature Sensing With Single Wire Sensors |
| MAX6664 MAX6647 MAX6661 MAX6692 MAX6695 MAX6690 MAX6655 MAX6696 MAX6645 MAX6649 MAX6642 MAX6656 MAX6643 MAX6657 MAX6680 MAX6646 MAX6653 MAX6681 MAX6660 MAX6654 MAX6644 MAX6602 MAX6689 MAX6697 MAX6698 MAX6699 MAX6693 MAX6581 | Compensating for Ideality Factor and Series Resistance Differences between Thermal Sense Diodes |
| MAX6501 MAX6512 | Thermal Protection in Low-Cost Systems, Part 1 |
| MAX6655 MAX6656 | Circuit Monitors Board, Air, and CPU Temperature to Protect System from Overheating |
| MAX4626 MAX1618 MAX1661 | Low-Cost Anemometer Fights Dust |
| MAX6651 MAX630 MAX6650 MAX1669 MAX633 | Rev Up Your Fan Speed Control Designs |
| MAX5157 MAX5123 MAX5122 MAX5177 MAX5156 MAX5250 MAX5173 MAX5302 MAX525 MAX5132 MAX5304 MAX5354 MAX5352 MAX5351 MAX5152 MAX5355 MAX5253 MAX5353 MAX535 MAX5251 MAX5153 MAX5133 MAX5171 MAX5175 | Force/Sense DAC Applications |
| MAX1668 MAX6502 MAX1618 MAX1669 MAX6501 MAX6577 MAX6576 MAX6575 | Temperature Sensor ICs Simplify Designs |
| | IC Temperature Sensors Find the Hot Spots |
| MAX6501 MAX1668 MAX6625 MAX6675 MAX1617 MAX6605 MAX1619 | Distributed Temperature Sensing Improves Reliability |
| MAX6576 MAX6654 MAX6502 MAX6575 MAX6577 | How to Simplify the Interface between Microcontroller and Temperature Sensor |
| MAX1298 | Achieving High Accuracy Using MAX1298/MAX1299 Temperature Sensors |
| MAX6605 | Using Analog Temperature Sensors with ADCs |
| MAX6513 | Simple Circuit Activates Fan When Processor Heats Ups |
| MAX873 | Voltage Reference Compensates Reference Junction |
| DS1854 DS1857 DS1858 | How to Interpret DS1854, DS1857, and DS1858 Temperature and Voltage Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS18S20 DS1631 DS18B20 | Curve Fitting the Error of a Bandgap-Based Digital Temperature Sensor |
| DS18B20-PAR DS1822-PAR DS18S20-PAR | DS18B20-PAR/DS18S20-PAR/DS1822-PAR Advantages for Remote Temperature Sensing |
| DS1920 DSTINI-1 DS1820 | Networked Temperature Monitoring |
| DS2433 DS1921G DS2406 DS1985 DS18B20 DS2450 DS1992 DS1921 DS2761 DS1982 DS2411 DS1971 DS2405 DS2401 DS2417 DS2438 DS1973 DS1955 DS2751 DS2502 DS1986 DS2505 DS1904 DS2480B DS1920 DS1995 DS2502-E48 DS1996 DS2506 DS1993 DS1957 DS1990A DS2760 DS2762 DS2431 DS2415 DS18S20 DS2408 DS1963S DS2432 | Using the DS2480B Serial 1-Wire Line Driver |
| DS1848 DS1847 | DS1847/DS1848 Temperature Coefficient Supplement |
| DS1621 DS1631 | Using the DS1631 Temperature Sensor in DS1621 Applications |
| DS1822 DS1822-PAR DS18S20 DS18B20-PAR DS18S20-PAR DS18B20 | Interfacing the DS18X20/DS1822 1-Wire Temperature Sensor in a Microcontroller Environment |
| DS1923 DS2413 DS2406 DS18B20 DS18S20 DS1920 DS1921 DS2450 DS2438 | 1-Wire® Tagging with XML |
| DS5000 DS1631 | Interfacing to the DS1631 Digital Thermometer and Thermostat in a Microcontroller Environment |
| DS1621 DS1721 | Reverse Compatibility of the DS1721 Digital Temperature Sensor with the DS1621 |
| DS1620 | Interfacing the DS1620 to the Motorola SPI Bus |
| DS5250 DS87C530 | Using the DS87C530/DS5250 Real-Time Clock |
| DS1620 | Applying and Using the DS1620 in Temperature Control Applications |
| Time and Temperature Recorders |
| | Benefits of the DS32X35 Accurate Real-Time Clock with Ferroelectric Random Access Memory (RTC + FRAM) |
| DS1921K DS1921Z DS1921G DS1921H | White Paper 7: Thermochron® Mission Authentication and Security |
| DS9097U-009 DS9097U-E25 DS1411-S09 DS1982 DS18S20-PAR DS2433 DS2438 DS2505 DS9097U-S09 DS1411-009 DS18S20 DS2480B DS1985 DS1920 DS1955 DS1986 DS1921 DS1957 DS1963S DS1973 DS1993 DS1995 DS2401 DS2431 DS2432 DS2450 DS2502 DS1971 DS1990A DS1992 DS1996 DS2405 DS2406 DS2506 DS2490 | White Paper 2: Using the 1-Wire® Public Domain Kit |
| MAX7221 MAX1298 | 12-Bit Thermometer Using an 8-Bit µC and Assembler |
| DS1920 DSTINI-1 DS1820 | Networked Temperature Monitoring |
| Voltage References |
| MAX6195 | Same? Really the Same? Maybe? The Cross-Reference Challenge |
| MAX873 | Voltage Reference Compensates Reference Junction |
| Wireless and RF |
| Basestations (Also see: Basestations/Wireless Infrastructure Appnotes) |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Cellular Handsets |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
