| 1-Wire® Devices |
| MAXQ2000 MAX7319 MAX6641 MAX5115 | SPI/I²C Bus Lines Control Multiple Peripherals |
| A/D and D/A Conversion/Sampling Circuits |
| | Analog ICs for Low Voltage Systems |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX5355 MAX5402 MAX1553 MAX5456 MAX5547 MAX5550 DS3930 | DACs vs. Digital Potentiometers: Which Is Right for My Application? |
| DS4424 DS4412 DS4404 DS4402 | How to Add Margining Capability to a DC-DC Converter |
| MAX1360 MAX1359 MAX1358 | Measuring and Calibrating for Product-Dependent Temperature Offsets |
| MAX5405 MAX5404 MAX5403 | Pots, Pans, Logs, and Linear Digital Pots Create Arbitrary Voltage Curves |
| MAX5139 MAX5138 MAX5137 MAX5136 MAX5135 MAX5134 MAX5661 MAX15501 MAX15500 | Process Control and PLC Tutorial |
| General |
| MAX6133 MAX5443 MAX5491 MAX5423 | 3V DACs Used in ±10V Applications |
| MAX1403 MAX1457 MAX5157 MAX5152 MAX6325 MAX5251 MAX5355 MAX5354 MAX5156 MAX5351 MAX535 MAX6120 MAX1401 MAX1450 MAX1458 MAX531 MAX1460 MAX5353 MAX5253 MAX5153 MAX1400 MAX5352 MAX1402 MAX6520 | 3V/5V DACs Support Intelligent Current Loop |
| | ADC and DAC Glossary |
| MAX1115 MAX1116 MAX1117 MAX1118 MAX6341 MAX541 | Bench Characterization of ADCs Using a Low-Cost PC-Based Data-Acquisition Board |
| MAX910 MAX516 MAX941 | Comparator/DAC Combinations Solve Data-Acquisition Problems |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| MAX5548 MAX5550 | Current-Source DAC with PIN Diode Provides RF Attenuation and Thermal Compensation |
| MAX541 MAX4162 MAX542 MAX837 | DAC and Op Amp Generate Variable Negative Control Voltage |
| MAX5290 MAX5233 | Daisy-Chaining SPI Devices |
| MAX5839 | Deglitching Techniques for High-Voltage R-2R DACs |
| MAX1400 MAX1402 | Demystifying Sigma-Delta ADCs |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| MAX530 MAX5170 MAX5122 MAX5120 MAX5132 MAX5543 MAX5539 | Digital-Analog Converters Are a "Bit" Analog |
| MX7528 MAX406 | Dual, Voltage-Output DAC Consumes Miniscule Power |
| | Effects of Digital Crosstalk in Data Converters |
| 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 |
| MAX1213N MAX19586 MAX19515 MAX190 MAX1286 MAX1247 MAX186 MAX1111 MAX195 MAX19516 MAX19517 MAX19588 MAX1214N MAX1215N | Frequently Asked Questions about Data Converters |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| MAX4455 MAX4358 MAX4616 | Improving the Performance of the MAX4455 by Reducing On-Screen Display Artifacts |
| MAX1358 MAX1359 MAX1360 | Measuring Temperature with the MAX1358 Data Acquisition System |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| DS1845 DS1846 | Methods of Controlling Laser Drivers: POTs and DACs |
| ICL7137 MAX1499 MAX1491 MAX1497 MAX130 MAX1496 MAX1493 ICL7106 ICL7116 MAX138 ICL7117 ICL7126 ICL7107 MAX136 MAX1491 MAX1498 MAX140 MAX1492 ICL7136 ICL7129 MAX1494 MAX139 MAX131 | Migrating from Integrating ADC Architectures to Sigma Delta |
| MAX660 MX7228 | Octal Trimpots Offer Rail-to-Rail Adjustments |
| MAX5583 MAX5584 MAX5585 MAX5582 MAX5581 | PIC'ing the MAX5581: Interfacing a PIC Microcontroller with the MAX5581 Fast-Settling DAC |
| MAX5590 MAX5594 MAX5593 MAX5591 MAX5595 MAX5592 | PIC'ing the MAX5591: Interfacing a PIC Microcontroller to the MAX5591 Fast-Settling DAC |
| MAX532 | Programmable-Gain Amplifier, Using the MAX532 DAC |
| MAX5594 MAX5580 MAX5290 MAX5592 MAX5582 MAX5291 MAX5584 MAX5293 MAX5583 MAX5591 MAX5595 MAX5590 MAX5295 MAX5585 MAX5581 MAX5593 MAX5294 MAX5292 | Programmers Handbook for the MAX5290-MAX5295, MAX5580-MAX5585, MAX5590-MAX5595 User-Programmable DACs |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| MX7545 MAX163 | Sample/Hold Has Zero Droop and Infinite Hold |
| MAX4543 MAX551 MAX6125 MAX4165 | Selectable-Range Current Loop |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| MAX5898 MAX5895 MAX5894 MAX5893 MAX5878 MAX5877 MAX5876 MAX5875 MAX5874 MAX5873 MAX5891 MAX5890 MAX5889 | Setup and Hold Times for High-Speed Digital-to-Analog Converters (DACs) Demystified |
| MAX6125 MAX5354 MAX4124 MAX988 | Visible-Laser Driver Has Digitally Controlled Power Modulation |
| High-Speed Signal Processing |
| MAX153 ICL7106 | A Simple ADC Comparison Matrix |
| MAX106 MAX105 MAX104 MAX107 MAX108 | ADC Captures 1Gsps |
| MAX5195 | Critical DAC Parameters for Multi-Carrier GSM/EDGE Transmitters |
| MAX104 MAX105 MAX107 MAX2620 MAX106 | Design a Low-Jitter Clock for High-Speed Data Converters |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| | Glossary of Frequently Used High-Speed Data Converter Terms |
| MAX5895 MAX2022 MAX2057 | High-Performance RF Modulator Enables Multi-Carrier Communications Transmitters |
| MAX104 MAX107 MAX105 MAX108 MAX106 | INL/DNL Measurements for High-Speed Analog-to-Digital Converters (ADCs) |
| DS1859 MAX3735A DS1858 MAX3735 | Interfacing the DS1859 Digitally Controlled Resistors to the MAX3735 Laser Driver |
| MAX5195 | Interfacing the MAX5195 High-Speed DAC to High-Speed FPGAs |
| MAX5898 MAX5895 MAX5894 MAX5893 MAX5878 MAX5877 MAX5876 MAX5875 MAX5874 MAX5873 MAX5891 MAX5890 MAX5889 | Setup and Hold Times for High-Speed Digital-to-Analog Converters (DACs) Demystified |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| MAX555 MAX555EVKit | The MAX555 PLCC-to-TQFP Printed Circuit Board (PCB) Layout Guidelines |
| Amplifier and Comparator Circuits |
| MAX6133 MAX5443 MAX5491 MAX5423 | 3V DACs Used in ±10V Applications |
| | Analog ICs for Low Voltage Systems |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| 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 |
| Comparators |
| MAX910 MAX516 MAX941 | Comparator/DAC Combinations Solve Data-Acquisition Problems |
| 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 |
| MAX541 MAX4162 MAX542 MAX837 | DAC and Op Amp Generate Variable Negative Control Voltage |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| 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 |
| MAX1403 MAX1457 MAX5157 MAX5152 MAX6325 MAX5251 MAX5355 MAX5354 MAX5156 MAX5351 MAX535 MAX6120 MAX1401 MAX1450 MAX1458 MAX531 MAX1460 MAX5353 MAX5253 MAX5153 MAX1400 MAX5352 MAX1402 MAX6520 | 3V/5V DACs Support Intelligent Current Loop |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| MAX4543 MAX551 MAX6125 MAX4165 | Selectable-Range Current Loop |
| Telecom |
| MAX4091 MAX4036 MAX4475 LMX321 MAX4162 MAX4240–MAX4244 MAX4122 MAX4220 MAX4493 | Rail-to-Rail: Railroading and the Electronics of Op Amps |
| MAX6125 MAX5354 MAX4124 MAX988 | Visible-Laser Driver Has Digitally Controlled Power Modulation |
| 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 |
| MAX5486 MAX5440 MAX5457 MAX5456 | Improve Stereo Performance with Active Biasing |
| 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 |
| | Upgrading from Mechanical Potentiometers to Digital Pots |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| Automatic Test Equipment (ATE) |
| MAX9957 MAX9979 | Cable-Loss Solutions |
| MAX9979 | How to Calibrate the MAX9979 Pin Electronics |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| MAX9979 | PMU Mode Operation for the MAX9979 Pin-Electronics IC |
| Automotive |
| MAX6133 MAX5443 MAX5491 MAX5423 | 3V DACs Used in ±10V Applications |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| Basestations/Wireless Infrastructure |
| High-Speed ADCs |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| High-Speed DACs |
| MAX5195 | Critical DAC Parameters for Multi-Carrier GSM/EDGE Transmitters |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX5895 MAX2022 MAX2057 | High-Performance RF Modulator Enables Multi-Carrier Communications Transmitters |
| MAX5195 | Interfacing the MAX5195 High-Speed DAC to High-Speed FPGAs |
| MAX5898 MAX5895 MAX5894 MAX5893 MAX5878 MAX5877 MAX5876 MAX5875 MAX5874 MAX5873 MAX5891 MAX5890 MAX5889 | Setup and Hold Times for High-Speed Digital-to-Analog Converters (DACs) Demystified |
| Wireless and RF System Design |
| MAX5548 MAX5550 | Current-Source DAC with PIN Diode Provides RF Attenuation and Thermal Compensation |
| MAX5895 MAX2022 MAX2057 | High-Performance RF Modulator Enables Multi-Carrier Communications Transmitters |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| Battery Management |
| | Analog ICs for Low Voltage Systems |
| Battery Chargers |
| | Comparing the I²C Bus to the SMBus |
| Fuel-Gauge Circuits |
| | Comparing the I²C Bus to the SMBus |
| Circuit Protection |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| Communications Circuits |
| MAX11014 MAX11008 MAX1386 MAX1385 | Implementing a MAX1385-Based Control Loop in C/C++ |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| DS4404 DS4402 | Using the DS4402/DS4404 to Margin the Output Voltage of a DC-DC Converter |
| DS4412 | Using the DS4412 to Margin the Output Voltage of a DC-DC Converter |
| Digital Potentiometers |
| MAX6133 MAX5443 MAX5491 MAX5423 | 3V DACs Used in ±10V Applications |
| | Analog ICs for Low Voltage Systems |
| MAX5355 MAX5402 MAX1553 MAX5456 MAX5547 MAX5550 DS3930 | DACs vs. Digital Potentiometers: Which Is Right for My Application? |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| 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 |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| A-D and D-A Conversion |
| MAX5548 MAX5550 | Current-Source DAC with PIN Diode Provides RF Attenuation and Thermal Compensation |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX4233 DS1864 | How to Use the DS1864's Current DACs as Voltage DACs |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| MAX5583 MAX5584 MAX5585 MAX5582 MAX5581 | PIC'ing the MAX5581: Interfacing a PIC Microcontroller with the MAX5581 Fast-Settling DAC |
| DS4422 DS4424 | Using the DS4424 to Margin the Output Voltage of a DC-DC Converter |
| Amplifier Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| Audio |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| MAX532 | Programmable-Gain Amplifier, Using the MAX532 DAC |
| Display Control--LCD, CCFL, TFT |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS3514 | Programming 10-Bit Gamma Registers on the DS3514 |
| Fiber Monitoring and Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1845 DS1846 | Methods of Controlling Laser Drivers: POTs and DACs |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| General |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| Industrial and Architectural Control |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| Instrumentation |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| 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 |
| MAX5420 MAX5421 MAX5430 MAX5431 MAX5490 MAX5491 MAX5492 | Minimize Voltage Offsets in Precision Amplifiers |
| Power Supply Margining and Calibration |
| MAX5361 | Digital Adjustment of DC-DC Converter Output Voltage in Portable Applications |
| MAX5429 MAX5428 MAX5427 | Digital Potentiometers Replace Mechanical Potentiometers |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| DS4422 DS4424 | Using the DS4424 to Margin the Output Voltage of a DC-DC Converter |
| RF Power Amp |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| Display Drivers |
| LCD Drivers |
| DS3514 | Programming 10-Bit Gamma Registers on the DS3514 |
| MAX518 MAX7300 MAX4232 | Serializing an HD44780 LCD Display |
| Filter Circuits (Analog) |
| MAX6133 MAX5443 MAX5491 MAX5423 | 3V DACs Used in ±10V Applications |
| General Engineering Topics |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| 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 |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX6195 | Same? Really the Same? Maybe? The Cross-Reference Challenge |
| MAX5381/81/82 MAX5490/91/92 MAX5128 MAX5430 MAX5426 DS80C320/323 MAX6029 MAX9915 MAX1108/09 | Saving Energy: Little Things Mean a Lot |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX5400 MAX5401 MAX6133 MAX5532 MAX5533 MAX5534 MAX5535 | Well Grounded, Digital Is Analog |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| High-Speed Interconnect |
| MAX5889 MAX5890 MAX5891 | Measuring the Linearity of Differential-Output, Current-Mode Digital-to-Analog Converters (DACs) |
| MAX5898 MAX5895 MAX5894 MAX5893 MAX5878 MAX5877 MAX5876 MAX5875 MAX5874 MAX5873 MAX5891 MAX5890 MAX5889 | Setup and Hold Times for High-Speed Digital-to-Analog Converters (DACs) Demystified |
| High-Speed Signal Processing |
| MAX153 ICL7106 | A Simple ADC Comparison Matrix |
| MAX5195 | Critical DAC Parameters for Multi-Carrier GSM/EDGE Transmitters |
| MAX9987 MAX9988 MAX9990 MAX9989 | Simplifying Tomorrow's LO Drive Designs with the MAX9987-90 Family of LO Buffers/Splitters |
| ADC |
| MAX106 MAX105 MAX104 MAX107 MAX108 | ADC Captures 1Gsps |
| MAX104 MAX105 MAX107 MAX2620 MAX106 | Design a Low-Jitter Clock for High-Speed Data Converters |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX104 MAX107 MAX105 MAX108 MAX106 | INL/DNL Measurements for High-Speed Analog-to-Digital Converters (ADCs) |
| MAX5195 | Interfacing the MAX5195 High-Speed DAC to High-Speed FPGAs |
| DAC |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX1217 MAX19586 MAX5877 MAX5895 MAX5875 MAX5873 MAX12553 MAX5893 MAX1214 MAX1219 MAX5874 MAX12555 MAX5878 MAX1218 MAX1213 MAX12528 MAX5898 MAX5876 MAX12558 MAX1215 MAX5894 MAX12527 MAX12557 | Folded-Frequency Calculator |
| MAX5895 MAX2022 MAX2057 | High-Performance RF Modulator Enables Multi-Carrier Communications Transmitters |
| MAX555 MAX555EVKit | The MAX555 PLCC-to-TQFP Printed Circuit Board (PCB) Layout Guidelines |
| General |
| | Glossary of Frequently Used High-Speed Data Converter Terms |
| Interface Circuits |
| MAXQ2000 MAX7319 MAX6641 MAX5115 | SPI/I²C Bus Lines Control Multiple Peripherals |
| 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 |
| Measurement Circuits |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| | Upgrading from Mechanical Potentiometers to Digital Pots |
| Microcontrollers |
| 8051 Drop-In |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| MAXQ Mixed-Signal |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| Secure |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| TINI Networked |
| MAX1407 MAX1401 MAX4455 MAX1402 MAX1403 MAX1414 MAX1409 MAX1408 MAX7652 MAX1400 MAX7651 | Specifying Quartz Crystals |
| Microprocessor Supervisor Circuits |
| DS4412 | Using the DS4412 to Margin the Output Voltage of a DC-DC Converter |
| Miscellaneous Circuits |
| DS4412 | Using the DS4412 to Margin the Output Voltage of a DC-DC Converter |
| Optoelectronics |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| Applications: Optical Control and Monitoring |
| DS1848 DS1847 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| MAX4233 DS1864 | How to Use the DS1864's Current DACs as Voltage DACs |
| DS1845 DS1846 | Methods of Controlling Laser Drivers: POTs and DACs |
| DS1858 DS1852 DS1857 DS1854 | Monitor Calibration in Fiber Optic Applications |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| MAX6125 MAX5354 MAX4124 MAX988 | Visible-Laser Driver Has Digitally Controlled Power Modulation |
| Oscillators/Delay Lines/Timers/Counters |
| | Design Challenges for an Ultra-Low-Jitter Clock Synthesizer |
| Power-Supply Circuits |
| | Analog ICs for Low Voltage Systems |
| 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 |
| DS4424 DS4412 DS4404 DS4402 | How to Add Margining Capability to a DC-DC Converter |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| MAX5490 MAX5491 MAX5492 MAX5437 MAX5439 | Rail Splitter, from Abraham Lincoln to Virtual Ground |
| DS4404 DS4402 | Using the DS4402/DS4404 to Margin the Output Voltage of a DC-DC Converter |
| APP NOTES FOR: Cable Modem/Satellite TV |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| APP NOTES FOR: Desktop PC/Server |
| | Comparing the I²C Bus to the SMBus |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| APP NOTES FOR: Fiber Module |
| MAX5026 MAX5304 MAX6102 | Low-Noise APD Bias Circuit |
| APP NOTES FOR: Network/Telecom/WLAN |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| MAX5026 MAX5304 MAX6102 | Low-Noise APD Bias Circuit |
| APP NOTES FOR: Notebook Computer |
| | Comparing the I²C Bus to the SMBus |
| APP NOTES FOR: Other |
| | Comparing the I²C Bus to the SMBus |
| MAX865 MAX522 MAX552 | DAC-Powered Charge Pump Varies Negative Rail |
| DS1848 DS1847 | Regenerating the DS1847/DS1848 Resistor Calibration Constants |
| APP NOTES FOR: PDA/Hand Terminal |
| MAX4402 MAX5222 MAX1774 | DAC Makes Controller Programmable |
| APP NOTES FOR: Printer/Fax |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| TOPOLOGY: Boost/Step-Up |
| MAX5026 MAX5304 MAX6102 | Low-Noise APD Bias Circuit |
| TOPOLOGY: Buck/Step-Down |
| MAX4402 MAX5222 MAX1774 | DAC Makes Controller Programmable |
| TOPOLOGY: Charge Pump |
| MAX865 MAX522 MAX552 | DAC-Powered Charge Pump Varies Negative Rail |
| TOPOLOGY: Inverter/Negative Output |
| MAX865 MAX522 MAX552 | DAC-Powered Charge Pump Varies Negative Rail |
| TOPOLOGY: USB/Hot-Swap/Load Switching |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| 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 |
| ResourceSmart: Green Design |
| MAX5381/81/82 MAX5490/91/92 MAX5128 MAX5430 MAX5426 DS80C320/323 MAX6029 MAX9915 MAX1108/09 | Saving Energy: Little Things Mean a Lot |
| Sensor Signal Conditioners |
| 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 |
| Signal Generation Circuits |
| MAX1403 MAX1457 MAX5157 MAX5152 MAX6325 MAX5251 MAX5355 MAX5354 MAX5156 MAX5351 MAX535 MAX6120 MAX1401 MAX1450 MAX1458 MAX531 MAX1460 MAX5353 MAX5253 MAX5153 MAX1400 MAX5352 MAX1402 MAX6520 | 3V/5V DACs Support Intelligent Current Loop |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX541 MAX4162 MAX542 MAX837 | DAC and Op Amp Generate Variable Negative Control Voltage |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| Switches and Multiplexers |
| MAX4543 MAX551 MAX6125 MAX4165 | Selectable-Range Current Loop |
| Temperature Sensors and Thermal Management |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX1400 MAX1402 | Demystifying Sigma-Delta ADCs |
| 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 | How to Interpret DS1847/DS1848 Temperature Readings |
| DS1852 | How to Interpret DS1852 Temperature and Voltage Readings |
| MAX11014 MAX11008 MAX1386 MAX1385 | Implementing a MAX1385-Based Control Loop in C/C++ |
| MAX1360 MAX1359 MAX1358 | Measuring and Calibrating for Product-Dependent Temperature Offsets |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| Video Circuits |
| On-Screen Display |
| MAX4455 MAX4358 MAX4616 | Improving the Performance of the MAX4455 by Reducing On-Screen Display Artifacts |
| Voltage References |
| | Analog ICs for Low Voltage Systems |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| MAX6143 MAX5774 | Methods for Calibrating Gain Error in Data-Converter Systems |
| MAX6195 | Same? Really the Same? Maybe? The Cross-Reference Challenge |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| DS4412 | Using the DS4412 to Margin the Output Voltage of a DC-DC Converter |
| Wireless and RF |
| MAX6192 MAX6325 MAX6225 MAX6102 MAX5171 MAX5304 MAX6126 MAX6012 MAX6025 MAX5170 MAX5176 MAX6190 MAX5156 MAX6241 MAX6191 MAX5154 MAX6162 MAX5107 | Calculating the Error Budget in Precision Digital-to-Analog Converter (DAC) Applications |
| Basestations (Also see: Basestations/Wireless Infrastructure Appnotes) |
| MAX5895 MAX19707 MAX19708 MAX19700 MAX5891 MAX19705 MAX19706 MAX5878 | Equalizing Techniques Flatten DAC Frequency Response |
| MAX5895 MAX2022 MAX2057 | High-Performance RF Modulator Enables Multi-Carrier Communications Transmitters |
| 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 |
