The animations when the page loads new app notes are super cool :D but what's the problem with maxim parts? just curious (had planned to try their 12/16 bit dacs and led drivers -for = unrelated designs-) > From: apptechnz@gmail.com > Date: Mon, 27 Apr 2015 01:59:00 +1200 > Subject: [EE]:: Maxim circuits / application notes collection > To: piclist@mit.edu > > Maxim circuits / application notes collection > > Looks useful - even though it uses Maxim parts :-) > > http://www.maximintegrated.com/en/design/circuits-library.html > > Russell > > ________________________________________ > > Showing 1 - 160; Results of 160 > > 36V, Input Common-Mode, High-Precision, Low-Power Current-Sense Amplifier > > MAX44284 > This current-sense amplifier offers precision accuracy specifications of > 2?V VOS and gain error of 0.05%. It operates with a 1.7V to 5.5V single > supply and is optimized for very low power operation with only 21?A of > quiescent current. > > 16-bit DAS with Delta-Sigma ADC, DACs, UPIOs, RTC, Voltage Monitors, and > Temp Sensor > > MAX1358B > This DAS is based on a 16-bit, sigma-delta ADC and system-support > functionality for a microprocessor based system. This device integrates a= n > ADC, DACs, op amps., internal selectable-voltage reference, temperature > sensors, analog switches, a 32kHz oscillator, a real-time clock (RTC) wit= h > alarm and more. > > 16-Bit Mixed-Signal Microcontroller with LCD Interface > > MAXQ2010 > A low-power, 16-bit device that incorporates a high-performance, 12-bit, > multichannel ADC and a liquid-crystal display (LCD) interface. > > DAS with SAR ADC, DACs, DPIOs, APIOs, Reference, Voltage Monitors, and Te= mp > Sensor > > MAX1329 > A smart data acquisition system based on a SAR ADC. This device is highly > integrated, offering an ADC, DACs, op amps, voltage reference, temperatur= e > sensors, and analog switches in the same device. > > 60V In, Low Parts Count Switching Regulator Provides 2.5A > > MAX17503 > Providing output currents up to 2.5A, this synchronous step-down switchin= g > regulator handles input voltages of up to 60V. In addition, this product > features very efficient internal synchronous FET switches so you can redu= ce > your power supply board space to a minimum. > > Design in EE-Sim > 60V In, Low Parts Count Switching Regulator Provides 3.5A > > MAX17504 > Providing output currents up to 3.5A, this synchronous step-down switchin= g > regulator handles input voltages of up to 60V. In addition, this product > features very efficient internal synchronous FET switches so you can redu= ce > your power supply board space to a minimum. > > Design in EE-Sim > 60V In, Low parts count Switching Regulator provides 1.7A > > MAX17505 > Providing output currents up to 1.7A, this synchronous step-down switchin= g > regulator handles input voltages of up to 60V. In addition, this product > features very efficient internal synchronous FET switches so you can redu= ce > your power supply board space to a minimum. > > Design in EE-Sim > 60V In, Low parts count Switching Regulator provides 1A > > MAX17502F > Providing output currents up to 1A, this synchronous step-down switching > regulator handles input voltages of up to 60V. In addition, this product > features very efficient internal synchronous FET switches so you can redu= ce > your power supply board space to a minimum. > > Design in EE-Sim > 60V In, Low parts count Switching Regulator provides 500mA > > MAX17501F > Providing output currents up to 0.5A, this synchronous step-down switchin= g > regulator handles input voltages of up to 60V. In addition, this product > features very efficient internal synchronous FET switches so you can redu= ce > your power supply board space to a minimum. > > Design in EE-Sim > 60V In, Ultra Small Design Footprint Switching Regulator provides 300mA > > MAX15062A > 300mA, output current and up to 60V input, this ultra-small, > high-efficiency, synchronous step-down DC-DC converter. This is the > industry's smallest high-voltage synchronous buck voltage regulator. > > Design in EE-Sim > Precision Uni and Bidirectional, Current-Sense Amplifiers > > MAX9918 > These ICs are single-supply, high-accuracy current-sense amplifiers with = a > high input common-mode range that extends from -20V to +75V. > > Industry's Smallest 1.55A 1-Cell Li+ DC-DC Charger > > MAX8971 > A compact, high-frequency, high-efficiency switch-mode charger for a > one-cell lithium-ion (Li+) battery. It delivers up to 1.55A of current to > the battery from inputs up to 7.5V and withstands transient inputs up to > 22V. Ideally suited for small portable devices, > > Highly Flexible Isolated Boost Converter > > MAX17498C > Flyback/boost converter minimizes external components while providing all > the control circuitry required to design wide input voltage isolated and > non-isolated power supplies. > > Temperature-Compensated MEMS RTC > > DS3232M > This real-time clock IC has an integrated MEMs resonator offers extremely > high accuracy =B15ppm (=B10.432 Second/Day) from -40=B0C to +85=B0C, whil= e also > providing 236 bytes of battery backed up SRAM and many other features. > > Low-Current SPI/3-Wire RTCs > > DS1343 > These timekeeping devices provide an extremely low standby current, > permitting longer life from a backup supply source. The devices also > support high-ESR crystals, broadening the pool of usable crystals for the > devices. > > JEITA-Compliant, Li+ Charger with and USB Enumeration > > MAX77301 > A JEITA-compliant lithium-ion linear battery charger that operates from a > USB port, a dedicated charger, or universal adapter. The IC provides > automatic adapter-type detection and enumeration with a USB host or hub. > Provides the simplest and smallest USB-compliant charging solution > > Metrology Processor > > 71M6545 > This processor supports the 71M6xxx series of isolated current sensing > products offering drastic reduction in component count, immunity to > magnetic tampering,and unparalleled reliability. Includes Single Converte= r > TechnologyR with a 22-bit delta-sigma ADC, a customizable 32-bit > computation engine (CE) for core metrology functions, > > Industry's Most Integrated Metering ICs with Best-in-Class Accuracy > Performance > > 71M6541DT > 4th-generation single-phase metering system-on-chip (SoC) ICs with MPU > core, low-power RTC, and LCD driver. This IC supporst a wide range of > metering applications with very few external components. > > Low-Cost Multichemistry Battery Chargers > > MAX8724 > Highly integrated, multi-chemistry battery-charger IC simplifies the > construction of accurate and efficient chargers. These devices use analog > inputs to control charge current and voltage, and can be programmed by th= e > host or hardwired. > > Simplified Multichemistry SMBus Battery Charger > > MAX8713 > This multichemistry battery charger simplifies construction of smart > chargers with a minimum number of external components. It uses the Intel > System Management Bus (SMBusT) to control the charge voltage and charge > current. > > Switch-Mode Li+ Chargers JEITA Battery Temperature Monitoring > > MAX8900 > High-frequency, switch-mode chargers for a 1-cell lithium ion (Li+) or > lithium polymer (Li-Poly) batteries. These ICs deliver up to 1.2A of > current to the battery from 3.4V to 6.3V (MAX8900A/MAX8900C) or 3.4V to > 8.7V (MAX8900B). Ideally suited to small portable devices such as headset= s > and ultra-portable media. > > Energy-Harvesting Charger and Protector > > MAX17710 > This IC can manage poorly regulated sources such as energy-harvesting > devices with output levels ranging from 1?W to 100mW. The device includes= a > boost regulator circuit for charging a cell from a source as low as 0.75V > (typ). An internal regulator protects the cell from overcharging. > > 7-Channel Temperature Monitor > > MAX6698 > This precision multichannel temperature sensor monitors its own > temperature, the temperatures of three external diode-connected > transistors, and the temperatures of three thermistors. > > Octal High-Voltage Transmit/Receive Switches > > MAX4936A > These T/R switches are based on a diode bridge topology, and the amount o= f > current in the diode bridges can be programmed by three digital inputs (S= 0, > S1, and S2). > > Low-Charge-Injection, 16-Channel, High-Voltage Analog Switches > > MAX14802 > These switches provide high-voltage switching on 16 channels for ultrason= ic > imaging and printer applications. The devices utilize HVCMOS process > technology to provide 16 high-voltage low-charge-injection SPST switches, > > Low-noise, Precision Voltage Reference > > MAX6325 > One of a family of precision voltage references with extremely low, > 0.5ppm/=B0C typical temperature coefficients and excellent, =B10.02% init= ial > accuracy. Versions available with preset output of 2.500V, 4.096V, and > 5.000V. > > Ultra-High-Precision, Ultra-Low-Noise, Voltage Reference > > MAX6126 > This precision voltage reference features curvature-correction circuitry > and high-stability, laser-trimmed, thin-film resistors that result in > 3ppm/=B0C (max) temperature coefficients and an excellent =B10.02% (max) > initial accuracy. > > Precision, Low-Power, 90?A, Single/Quad/Dual Op Amps > > MAX44244 > Ultra-precision, low-noise, zero-drift single/quad/ dual operational > amplifiers featuring very low-power operation with a wide supply range. T= he > devices incorporate a patented auto-zero circuit that constantly measures > and compensates the input offset to eliminate drift over time and > temperature as well as the effect of 1/f noise. > > IO-Link Device Transceiver > > MAX14820 > This transceiver is suitable for IO-LinkR devices and 24V binary > sensors/actuators. All specified IO-Link data rates are supported. > > Low-Power, Low-Noise Multichannel Sensor Signal Processor > > MAX1464 > a highly integrated, low-power, low-noise multichannel sensor signal > processor optimized for industrial, automotive, and process-control > applications such as pressure sensing and compensation, RTD and > thermocouple linearization, weight sensing and classification, and remote > process monitoring with limit indication. > > 18-Bit, Low-Power, Multichannel, Oversampling Delta Sigma ADC > > MAX1403 > This is a low-power, multichannel, serial-output analog-to-digital > converter (ADC) features matched 200?A current sources for sensor > excitation. This ADC uses a sigma-delta modulator with a digital decimati= on > filter to achieve 16-bit accuracy and has programmable gain. > > Low-Cost Precision Sensor Signal Conditioner > > MAX1452 > a highly integrated analog-sensor signal processor optimized for industri= al > and process control applications utilizing resistive element sensors. The > MAX1452 provides amplification, calibration, and temperature compensation > that enables an overall performance approaching the inherent repeatabilit= y > of the sensor. > > High Accuracy Multi-Input Isolated Analog Front End (AFE) > > MAXREFDES11# > This 16-bit high-accuracy industrial analog front end (AFE) accepts 0 to > 10V signals and provides a completely isolated digital SPI output. This > design requires 5V input and provides isolated/regulated +5.5V, +5V, and > -3V power rails. > > Very Accurate RTC With Integrated MEMs Resonator > > DS3231M > This low-cost, extremely accurate I=B2C real-time clock (RTC) has an > integrated temperature-compensated crystal oscillator (TCXO) and crystal > and features =B13.5ppm accuracy from -40=B0C to +85=B0C. > > Isolated +15Volt Power Supply > > MAXREFDES8 > This design uses a bridge transformer and a low dropout (LDO) linear > regulator to create a +12V (+15V) output isolated power supply from a 3.3= V > voltage input. > > 2-Channel Analog Input/Analog Output with Transformer Driven Power > > MAXREFDES71 > This design uses high-accuracy and high-speed components to provide > excellent performance in process control applications. Can receive sensor > inputs and drive control outputs like servo drives, resolvers, and > encoders. An H-bridge transformer driver provides isolated power to > regulators that provide +18V, -18V, +5V, and -1.25V regulated power rails > > 3.3V and 5V PoE Powered Device > > MAXREFDES31 > This design is an IEEE 802.3af/at compliant.Powered Device (PD). In > addition to regulating power received over Ethernet, device can also be > powered from a wall adapter. > > Power Amplifier Bias using PIXI > > MAXREFDES39 > This design uses a MAX11300 programmable mixed-signal I/O (PIXIT), to bia= s > and monitor a power amplifier for an RF base station. > > Isolated 24V to 12V 40W Power Supply with Active Clamp > > MAXREFDES48 > This is a wide-input isolated forward-converter industrial power supply. > The reference design operates over an 18V to 36V input voltage range, and > provides up to 3.5A at 12V output. The reference design features the > active-clamp transformer reset topology for forward converters. > > SHA-256 Secure Authentication Design > > MAXREFDES34 > This design implements SHA-256 authentication function using the 1-Wire > protocol. > > Wide Input Range DC Power Supply > > MAXREFDES33 > The power supply reference design operates over a wide 4.5V to 60V input > voltage range, and provides up to 300mA at 3.3V output. > > IO-LinkR 16 Channel Digital Input Hub > > MAXREFDES36 > This design is an IO-Link version 1.1/1.0 compliant digital input hub > reference design. The design consists of an industry standard Maxim > Integrated IO-Link device transceiver, an efficient high-voltage step-dow= n > converter, an ultra-low-power 16-bit microcontroller utilizing TMG TE's > IO-Link device stack and two digital input serializers. > > IO-Link Optical Proximity Sensor > > MAXREFDES27 > This design is a tiny IO-Link proximity sensor with an IR receiver, > matching IR LED driver, IO-Link transceiver, and energy-efficient step-do= wn > converter > > IO-Link Light Sensor > > MAXREFDES23 > The design is a light sensor with six integrated sensors: ambient light > (clear), red, green, blue, infrared, and temperature) and featuring an IO > Link interface, all on a tiny printed circuit board > > 5-Channel Precision Temperature Monitor > > MAX6622 > This precision multichannel temperature sensor monitors its own temperatu= re > and the temperatures of up to four external diode-connected transistors. > > 1A, 76V, High-Efficiency MAXPower Step-Down DC-DC Converter > > MAX5035 > This easy-to-use, high-efficiency, high-voltage, step-down DC-DC converte= r > operates from an input voltage up to 76V and consumes only 270?A quiescen= t > current at no load, and can provide up to 1A out. > > Current-Limited Switch-Mode Li+ Charger Controller > > MAX1873 > This charger controller IC provides all functions needed to simply and > efficiently charge 2-, 3-, or 4-series lithium-ion cells at up to 4A or > more. > > DeepCover Secure Microcontroller with ARM926EJ-S Processor Core > > MAX32590 > High-performance, single-chip secure microcontroller with encrypted > external bus and advanced physical security. > > Single-Phase Energy Measurement Processor > > 78M6610+PSU > This is a single-core energy measurement processor for single-phase power > supplies. It is designed specifically for real-time monitoring at the inp= ut > of AC-DC power converters used in data centers and IT server rooms. > > Low-Power, 16-/12-Bit, Buffered Voltage-Output DACs > > MAX5138 > A family of single-channel pin and software-compatible 16-bit and 12-bit > DACs. These are low-power, buffered voltage-output, high-linearity DACs. > They use a precision internal reference or a precision external reference > for rail-to-rail operation. > > Low-Power, Buffered Output, Rail-to-Rail DACs with SPI Interface > > MAX5216 > 14-bit and 16-bit digital-to-analog converters (DACs), these are > single-channel, low-power, buffered voltage-output DACs. > > High Accuracy Voltage Output DAC with SPI Interface > > MAX5316 > This high-accuracy, 16-bit, serial SPI input, buffered voltage output > digital-to-analog converter (DAC) in a 4mm x 5mm, 24-lead TQFN package > features =B11 LSB INL (max) accuracy. > > 16-Bit, 1.6Msps, Low-Power, Fully Differential SAR ADC > > MAX11901 > This 16-bit, 1.6Msps, single-channel, fully differential SAR ADC has > internal reference buffers, provides excellent static and dynamic > performance with best-in-class power consumption while providing an SPI > output. > > Multichannel 16-bit Simultaneous-Sampling ADCs > > MAX11046 > Featuring independent track and hold (T/H) and SAR circuitry, these SAR > ADCs provide simultaneous sampling at 250ksps for each channel and provid= e > a high speed parallel output. > > DeepCover Secure Cortex-M3 Flash Microcontroller > > MAX32550 > Secure Cortex-M3 Flash Microcontroller with Secure Boot Loader with PKA > > 24-Bit, 4-Channel, Simultaneous-Sampling, Sigma-Delta ADC > > MAX11040K > The device allows simultaneous sampling of as many as 32 channels using a > built-in cascade feature to synchronize as many as eight devices. The > serial interface of the MAX11040 allows reading data from all the cascade= d > devices using a single command. > > ECT/EPT Current Fault Sensor > > MAXREFDES38 > The 3-channel input of this low-power, high accuracy design can be > configured as single-ended or differential. The on-board microcontroller > saves data samples which can be read through a terminal program, allowing > analysis on any 3rd party software. > > 8-Channel Simultaneous-Sampling Analog Front End > > MAXREFDES30 > This design provides eight high-speed, 250ksps, 16-bit > simultaneous-sampling analog input channels that accept =B110V input sign= als. > Applications for this design include: three-phase power measurement; > multiphase motor control; and industrial vibration sensing. > > Power-Line Communications (PLC) Integrated Analog Front-End Transceiver > > MAX2991 > This is the first AFE specifically designed for OFDM modulated signal > transmission over power lines. Operating in the 10kHz to 490kHz band, the > programmable filters allow compliance with CENELEC, FCC, and ARIB standar= ds > using the same device. > > MAC/PHY Powerline Transceiver > > MAX2992 > This powerline communication (PLC) baseband modem delivers half-duplex, > asynchronous data communication over AC power lines at speeds up to 300kb= ps > (full FCC band data rate). > > Security Manager for Tamper-Reactive Cryptographic-Node Control with AES > Encryption > > MAX36025 > A highly integrated device addressing the security requirements of high-e= nd > cryptographic systems and data-at-rest storage applications. The device > employs a tamper-reactive dual AES cryptographic engine architecture. > > Weigh Scale with a 16-Bit DAC, 0 to 10V Output > > MAXREFDES75 > This programmable high-accuracy weigh scale reference design performs > small-signal 24-bit measurements, and produces a weighted 0 to 10V output > proportional to the input signal. The design features isolated power and > data. > > Low-Offset, Low-Power Op Amp > > MAX44263 > This op amp offers a unique combination of high speed, precision, low > noise, and low-voltage operation making it ideally suited for a large > number of functions such as filtering and amplification of signals in > portable and industrial equipment. > > Femtocell Radio Reference Design > > Femtocell Radio Reference Design > This reference design is based on the MAX2550 and contains all of the > relevant components necessary to design and build a competitive radio > solution to support the base-station transceiver (BTS) frequency band: > 1920MHz to 1980MHz (Rx) and 2110MHz to 2170MHz (Tx). > > Octal, 12-Bit, 50Msps, ADC with Serial LVDS Outputs > > MAX1437 > A high-speed, 12-bit analog-to-digital converter (ADC) features fully > differential inputs, a pipelined architecture, and digital error correcti= on > incorporating a fully differential signal path. > > Automotive Quad, Low-Voltage Step-Down DC-DC Converters > > MAX20021 > This power-management IC (PMIC) integrates four low-voltage, > high-efficiency, step-down DC-DC converters. Each of the four outputs is > factory or resistor programmable between 1.0V to 4.0V and can deliver up = to > 1.0A of current. The PMICs operate from 3.0V to 5.5V, making them ideal f= or > automotive point-of-load and post-regulation applications. > > Low-Power, High-Performance, Fully Integrated Octal Ultrasound Receiver > > MAX2079 > A fully integrated octal ultrasound receiver is optimized for high channe= l > count, high-performance portable and cart-based ultrasound systems. > > Octal-Channel Ultrasound Front-End with CW Doppler Mixers > > MAX2078 > A fully integrated bipolar, high-density octal-channel ultrasound receive= r > optimized for low cost, high-channel count, high-performance portable and > cart-based ultrasound systems. > > 2-Bit, 1.5Gsps High-Dynamic Performance DAC > > MAX19681 > This is a 12-bit, 1.5Gsps digital-to-analog converter (DAC) enables direc= t > digital synthesis of high-frequency and wideband signals. It has been > optimized for wideband communications, video distribution, and arbitrary > waveform generator applications. > > SPI/I=B2C UART with 128-Word FIFOs > > MAX3107 > An advanced universal asynchronous receiver-transmitter (UART) with 128 > words each of receive and transmit first-in/first-out (FIFO) that can be > controlled through I=B2C or high-speed SPI. > > White LED Step-Up Converter with I=B2C Interface in 2mm x 2mm WLP > > MAX8831 > This IC is a 60mA, 28V PWM DC-DC step-up converter with five low-dropout > LED current regulators for display and keypad backlighting in cell phones= , > PDAs, and other portable devices. > > 1% Accurate Voltage ?P Supervisors > > MAX16061A > These devices are 1% accurate, quad-/hex-/octal-voltage ?P supervisors in= a > small thin QFN package. They provide supervisory functions for complex > multi-voltage systems. > > Low-Power, 4/8/12 Channel Serial 8-Bit ADCs > > MAX11600-5 > These 8-bit, multichannel, analog-to-digital converters (ADCs) feature > internal track/hold (T/H), voltage reference, clock, and an I=B2C-compati= ble > 2-wire serial interface. > > Complete AC Measurement Subsystem > > MAXREFDES14 > Using Sonoma's (MAXREFDES14) high-accuracy design, you can quickly create > an isolated energy measurement subsystem with high-voltage galvanic > isolation. > > High-Precision, Long-Battery Life Heat/Flow Meter > > MAXREFDES70 > This flow meter reference design sends and receives ultrasound waves > between piezoelectric transducers, and uses the time of flight difference > to calculate a very accurate flow rate. > > Fourth-Generation Energy Metering ICs > > 71M6543FT-71M6543HT > 4th-generation three-phase metering system-on-chip (SoC) with a 5MHz, > 8051-compatible MPU core, low-power RTC with digital temperature > compensation, flash memory, and LCD driver. > > 2.2MHz, 36V, Dual Buck with 20?A Quiescent Current > > MAX16933 > This product offers two high-voltage, synchronous step-down controllers > that use only 20?A of quiescent current with no load. It operates with an > input voltage supply from 3.5V to 42V and with switching frequencies up t= o > 2.2MHz to allow use of small external components and to guarantee no AM > band interference. > > Energy Measurement Processor for Load Monitoring Units > > 78M6610+LMU > An energy measurement processor (EMP) for load monitoring and control of > any 2-wire single-phase or 3-wire split-phase (120/180=B0) AC circuit. > > Octal Power and Energy Measurement IC > > 78M6618 > A highly integrated, single-phase, eight-outlet, power measurement and > monitoring SoC for power distribution units applications. Includes a 32-b= it > computer engine (CE), an MPU core, RTC, and flash memory. > > PGA with Input VOS Trim and Output Op Amp > > MAX9939 > This differential-input programmable-gain amplifier (PGA) is ideal for > conditioning a variety of wide dynamic range signals such as those found = in > motor current-sense, medical instrumentation, and sonar data acquisition > applications. > > Low-Noise, MOS-Input, Low-Power Op Amp > > MAX9945 > This op amp features an excellent combination of low operating power and > low input voltage noise.The MOS inputs enable the MAX9945 to feature low > input bias currents and low input current noise. > > Micropower, Uni-/Bidirectional, Current-Sense Amplifiers > > MAX9928/9F > These low-cost, uni-/bidirectional, high-side, current-sense amplifiers a= re > ideal for monitoring battery charge and discharge currents in portable > equipment. These devices feature a wide -0.1V to +28V input common-mode > voltage range, low 20?A supply current, and a gain accuracy better than > 1.0%. > > Dual Step-Down DC-DC Regulator with Tracking/Sequencing Capability > > MAX15021 > This dual-output, pulse-width-modulated (PWM), step-down DC-DC regulator > with tracking delivers up to 4A (regulator 1) and 2A (regulator 2) of > output current. > > Stand-Alone OCV-Based Fuel Gauge > > DS2786B > This IC estimates available capacity for rechargeable Li-ion (Li+) and Li= + > polymer batteries based on the cell voltage in the open-circuit state > following a relaxation period. > > High-Speed, Half-Bridge MOSFET Drivers > > MAX5064 > 125V half-bridge, n-channel MOSFET drivers drive high-and low-side MOSFET= s > in high-voltage applications. > > Low-Voltage, =B10.5=B0C Accuracy Digital Thermometer and Thermostat > > DS620 > This digital thermometer and thermostat provides low-voltage temperature > measurements with =B10.5=B0C accuracy from 0=B0C to +70=B0C and an operat= ing > temperature range of -55=B0C to +125=B0C. > > 24-Bit, Single-Channel, Ultra-Low Power, Delta-Sigma ADCs with GPIO > > MAX11200 > The MAX11200/MAX11210 are ultra-low-power (< 300?A active current), > high-resolution, serial output ADCs. These devices provide the highest > resolution per unit power in the industry, and are optimized for > applications that require very high dynamic range with low power, such as > sensors on a 4mA to 20mA industrial control loop and handheld instruments= .. > > High-Precision Digital Thermometer and Thermostat > > DS7505 > The DS7505 low-voltage (1.7V to 3.7V) digital thermometer and thermostat > provides 9-, 10-, 11-, or 12-bit digital temperature readings over a -55= =B0C > to +125=B0C range with =B10.5=B0C accuracy over a -0=B0C to +70=B0C range= .. > > High-Efficiency, 1.5MHz Op Amps with RRIO > > MAX9617 > These are zero-drift operational amplifiers available in space-saving SC7= 0 > packages. They feature rail-to-rail CMOS inputs and outputs and zero-drif= t > input offset voltage over time and temperature. > > 12-Bit 300ksps ADCs with FIFO, Temp Sensor, Internal Reference > > MAX1226 > These are serial 12-bit analog-to-digital converters (ADCs) with an > internal reference and an internal temperature sensor plus many additiona= l > features. > > Ultrasmall, 60V In, Switching Regulator provides 100mA > > MAX17552 > This step-down switching regulator has a high input voltage range; intern= al > synchronous switches and delivers up to 100mA out. It is available in two > ultra small packages. > > Design in EE-Sim > 500mA, 76V, High-Efficiency Step-Down DC-DC Converter > > MAX5033 > This easy-to-use, high-efficiency, high-voltage, step-down DC-DC converte= r > operates from an input voltage up to 76V and consumes only 270?A quiescen= t > current at no load. > > Step-Up Converter for Handheld Applications > > MAX8969 > A simple 1A step-up converter in a tiny WLP package that can be used in a= ny > single-cell Li-ion application. This IC provides protection features such > as input undervoltage lockout, short circuit, and overtemperature shutdow= n. > > 1MHz Synchronous Boost Converter with True Shutdown > > MAX8627 > This step-up converter is ideal for single-cell AA applications or Li+ > applications. Operates down to 0.9V. > > High-Efficiency, Step-Up DC-DC Converter in TSOT packag > > MAX1724 > This step-up DC-DC converter is an ultra-small device featuring a low > supply current of 1.5?A, making it optimal for a variety of handheld > instruments. > > High-Efficiency, Step-Up DC-DC Converter > > MAX1674 > The input voltage of these circuits range from 0.7V to VOUT and they have= a > preset, pin-selectable output for 5V or 3.3V. The outputs can also be > adjusted to other voltages using two external resistors. > > Low Power DC-DC Isolation Switcher > > MAX17681 > This high-efficiency, iso-buck DC-DC converter designed to provide isolat= ed > power up to 3W. The device operates over a wide 4.5V to 42V input and use= s > primary-side feedback to regulate the output voltage. > > Triple-output Step-Down Controller > > MAX15048 > This compact, triple-output step-down controller features a ratiometric > tracking option. > > 40V Input Step-Down Switching Controller > > MAX15046 > The MAX15046 synchronous step-down controller operates from a 4.5V to 40V > input voltage range. > > 28V Dual, Synchronous Step-Down Controller > > MAX15023 > The MAX15023 dual, synchronous step-down controller operates from a 5.5V = to > 28V or 5V =B110% input voltage range and generates two independent output > voltages. > > Hall-Effect Sensor Interface with Analog and Digital Outputs > > MAX9621 > This circuit provides an interface between two 2-wire Hall-effect sensors > and a low voltage microprocessor (?P) through either a digital output for > Hall-effect switches or an analog output for linear information or both. > > Single-Channel, Ultra-Low-Power, Delta-Sigma ADCs with Programmable Gain > > MAX11206 > Simple silicon pressure sensor-to-digital SPI bus interface. Nice solutio= n > for off board pressure sensor applications. > > Precision Sensor Signal Conditioner with Overvoltage Protection > > MAX1454 > This circuit provides a highly integrated analog sensor signal conditione= r > targeted for automotive applications. The device provides amplification, > calibration, and temperature compensation. Output is digital. > > Cold-Junction Compensated Thermocouple-to-Digital Converter > > MAX31855 > The MAX31855 performs cold-junction compensation and digitizes the signal > from popular thermocouples. The data is output in a signed 14-bit, > SPI-compatible, read-only format. This converter resolves temperatures to > 0.25=B0C, allows readings as high as +1800=B0C and as low as -270=B0C, > > Four-Channel Analog Input Micro PLC Card > > MAXREFDES61 > This is a four channel analog input reference design based on the Micro P= LC > form factor. It accepts 4-20mA inputs and +10 to -10 V inputs, offers a > 16-bit signal chain, and provides both SPI and I2C digital outputs as wel= l > as a USB output. > > Isolated Industrial Octal Digital Input Translator/Serializer > > MAXREFDES12# > This design accepts 8 high-voltage inputs (36V, max) and provides a > isolated serialized digital SPI output. The design provides complete data > signal path isolation as well as power isolation. > > High Accuracy Multi-Input Isolated Analog Front End (AFE) > > MAXREFDES5 > This 16-bit high-accuracy industrial analog front end (AFE) accepts -10V = to > +10V, 0 to 10V, and 4-20mA current loop signals while providing a > completely isolated digital SPI output. This design requires only 5V inpu= t > and provide isolated +-12 power rails to handle positive and negative inp= ut > voltage signals. > > Isolated +-15Volt Power Supply with Wide Input Range > > MAXREFDES9 > This design uses a step-up controller, a 36V H-bridge transformer driver, > and a pair of low dropout (LDO) linear regulators to create an isolated > =B115V (=B112V) output power supply from a wide range of input voltages. > > RS-485 Communications Micro PLC Card > > MAXREFDES62 > This high-speed RS-485 communications reference design is in the micro PL= C > form factor. The on-board microcontroller allows the user to transmit and > receive data, using a terminal program. The design features isolated powe= r > and data. > > Digital-Output Micro PLC Card > > MAXREFDES63 > This eight channel digital output reference design is in the micro PLC fo= rm > factor. The on-board microcontroller controls the digital outputs, which > can be configured through a terminal program. The design features isolate= d > power and data. > > Analog Output Micro PLC > > MAXREFDES60 > This single channel analog output reference design is in the micro PLC fo= rm > factor. The on-board microcontroller controls a 16-bit DAC to produce a > high accuracy 0-10V output. The design features isolated power and data. > > 4-Channel Analog Output > > MAXREFDES24 > This four-channel, 16-bit, high-accuracy analog output design is fully > isolated and provides all typical bipolar current and voltage output > ranges, and appropriate subsets, with less than =B10.1% typical total > unadjusted error. Input is digital SPI. Requires input voltage of 18 to > 32VDC. > > High Accuracy Isolated Analog Input Board > > MAXREFDES4 > This 16-bit high-accuracy industrial analog input design accepts a 4-20mA > current loop or a 0.2V to 4.096V voltage signal as input and provides a > digital SPI output. The data path and power is fully isolated. > > Digital-Input Micro PLC Card > > MAXREFDES64 > This eight channel digital input reference design is in the micro PLC for= m > factor. The on-board microcontroller receives the serialized digital inpu= t > data, which can be read through a terminal program. The design features > isolated power and data. > > Extremely Accurate RTC With Memory > > DS3234 > This real-time clock IC with integrated crystal is extremely accurate, It > offers an SPI bus interface and 256 bytes of battery-backed SRAM, and > features =B13.5ppm accuracy from -40=B0C to +85=B0C. > > Feature Packed RTC > > DS1374 > This RTC device features a 32-bit binary counter and a watchdog timer and > is best used for medical applications, POS, and portable instrumentation. > > Very Low Power RTC IC > > DS1308 > This low-power RTC features a binary-coded decimal clock and calendar and > is an optimal design for use in consumer electronics. > > Low Power RTC IC Compatible with High-ESR Crystals > > DS1341 > A low-current RTC, the DS1341 timekeeping device provides a low standby > current and is compatible with high-ESR crystals. > > High Voltage Input Serializer > > MAX31913 > This industrial translator/serializer is a strong solution with eight > high-voltage input channels, perfect for low-power applications. > > Accurate RTD-to-Digital Temperature Sensor Interface IC > > MAX31865 > A simple and complete solution, this RTD-to-Digital converter quickly > provides a digital temperature reading, ideal for industrial and medical > applications. > > IO-Link master transceiver > > MAX14824 > This IO-Link master transceiver is integrated with an auxiliary digital > input and two linear regulators and is scalable to 16 channels. > > High Voltage Hot Swap Controller > > MAX5932 > This hot-swap controller is a positive, high-voltage device featuring a > programmable foldback-current limit. > > Single-chip modem HART Modem > > DS8500 > A single-chip modem featuring HART capabilities, this device is a reliabl= e, > low-cost solution requiring minimal external components. > > Isolated 24V to 12V 40W Power Supply > > MAXREFDES41 > This power supply design delivers an isolated 12VDC at 40 Watts from a DC > input in the range of 18V to 36V. > > Isolated +-15Volt Power Supply > > MAXREFDES7 > This design uses a bridge transformer and pair of low dropout (LDO) linea= r > regulators to create a =B112V (=B115V) output isolated power supply from = a 3.3V > voltage input. > > Transformer Driver Enables Efficient Isolated Power > > MAX13253 > This 1A push-pull transformer driver featuring integrated protection and = an > internal oscillator, making it the ideal device for isolated power suppli= es. > > DeepCover Secure Microcontroller with Fast Wipe Technology and Cryptograp= hy > > MAXQ1852 > High-security microcontroller for single-chip PCI-PTS smart PIN pads. > > 20-Port Programmable Mixed-Signal I/O with 12-Bit ADC, 12-Bit DAC > > MAX11300 > Configurable High-Voltage Mixed Signal I/O Device offers 20 mixed-signal > high-voltage, bipolar ports configurable as ADC analog input, DAC analog > output, a general-purpose input port (GPI) or general-purpose output port > (GPO). > > 18-Bit, SAR ADC with Internal Reference > > MAX11156 > 18-bit, SAR has 5V rail and offers with true bipolar input range, small > size, and internal reference. > > 24-Bit, Low Power, Low Noise, Delta-Sigma ADC with Integrated PGA > > MAX11270 > The MAX11270 is a 24-bit delta-sigma ADC that achieves excellent 130dB SN= R > while dissipating an ultra-low 10mW. Sample rates up to 64ksps allow both > precision DC and AC measurements. Integral non-linearity is guaranteed to > 4ppm maximum. > > 16-Bit Multirange ADC with PGA and Reference > > MAX1300 > Low-power, 8-channel 16-bit, successive-approximation, ADC with integrate= d > PGA and voltage reference. Each channel is independently programmable to > support a different input range. > > 16-Bit, Low-Power, 2-Channel, Sigma-Delta ADCs > > MAX1416 > The MAX1415/MAX1416 low-power, 2-channel, serial-output analog-to-digital > converters (ADCs) use a sigma-delta modulator with a digital filter to > achieve 16-bit resolution with no missing codes. > > Low-Power, Fully Differential 20 bit SAR ADC > > MAX11905 > This ADC provides excellent static and dynamic performance with > best-in-class power consumption that directly scales with throughput. > > Low-Power Family of Serial 12-/10-Bit, 8-/16-Channel ADCs > > MAX11132 > Industry-leading 1.5MHz, full linear bandwidth, high speed, low-power, 12 > bit serial output successive approximation register (SAR) ADC. > > Small, Low-Power 2Msps/3Msps 12 bit ADC > > MAX11102 > High-performance ADC includes a high-dynamic range sample-and-hold and a > high-speed serial interface. These ADCs accept a full-scale input from 0V > to the power supply or to the reference voltage and consume only 5.2mW at > 3Msps and 3.7mW at 2Msps. > > High Accuracy Low Voltage Isolated Analog Input Board > > MAXREFDES6 > This 16-bit high-accuracy industrial analog input design is optimized to > accept 0 to 100mV analog voltage inputs and provides a digital SPI output= .. > The data path and power is fully isolated. The design features an > ultra-precision low-noise buffer and 16 bit ADC. > > 2-Channel Analog Input/Analog Output with Flyback DC/DC > > MAXREFDES32 > This design uses high-accuracy and high-speed components to provide > excellent performance in process control applications. Can receive sensor > inputs and drive control outputs like servo drives, resolvers, and > encoders. Provides complete isolation. > > High-Speed Precision Current-Sense Amplifier > > MAX9643 > This high-speed 60V precision unidirectional current-sense amplifier is > ideal for a wide variety of power-supply control applications. Its high > signal bandwidth allows its use within DC-DC switching converter > power-supply control loops with minimal phase delay. > > Flexible RTC with Multiple Programmable Features and Low Current > > DS1339 > Low-power clock/date device with two programmable time-of-day alarms and = a > programmable square-wave output and built-in backup supply switch > > 36V Step-Down Regulator with 3A Integrated Switches and 15=ECA Operating > Current > > MAX20003 > This synchronous buck regulator with integrated high-side and low-side > MOSFETs is designed to deliver up to 3A with input voltages from 3.5V to > 36V, while using only 15?A quiescent current at no load. Voltage quality > can be monitored by observing the PGOOD signal. The device can operate in > dropout by running at 98% duty cycle, making it ideal for automotive > applications. > > 25mA, Ultra-Small, High-Efficiency, Synchronous Step-Down DC-DC Converter > > MAX17550 > This high-efficiency, high-voltage, synchronous step-down DC-DC converter > has integrated MOSFETs and operates over a 4V to 60V input and has an > adjustable Switching Frequency range of 100kHz to 2.2MHz with external > synchronization. > > Dual-Channel, High-Precision, High-Voltage, Current-Sense Amplifier > > MAX44285 > This dual-channel high-side current-sense amplifier has precision accurac= y > specifications nad features an input common-mode voltage range from 2.7V = to > 76V with 80kHz of small-signal bandwidth, > > Current Sense Amp with Ultra-Low Offset and Tiny Gain Error with Ultra-Lo= w > Power Consumption > > MAX44286 > This miniature CSA with ultra-low offset and low power is ideal for > applications in smartphones, mobile accessories, notebooks, portable > medical, and all battery-operated portable devices where current monitori= ng > with precision and space are critical. > > SMBus 4-Channel Wide Dynamic Range Power Accumulator > > MAX34407 > This device automatically collects current-sense and voltage samples. The > samples are then multiplied to obtain a power value and the power values > are then accumulated. The device has a wide dynamic range to allow it to > accurately measure power in systems that consume small to large amounts o= f > power. > > Precision Bipolar Output from a Single Positive Supply > > MAX44267 > This low-noise, low-drift amplifier operates from a single +4.5V to +15V > power supply, but it is as effective as a normal dual-rail =B14.5V to =B1= 15V > amplifier because it integrates a negative voltage rail eliminating the > need for a negative power-supply rail. > > Low-Noise for High-Voltage Applications > > MAX4426 > This precision, low-noise, high performance op amp for high-voltage > applications offers near-zero DC offset and drift through the use of > patented chopper stabilized and auto-zeroing techniques. > > Low Power for High-Voltage Applications > > MAX44245 > This op amp incorporates a patented auto-zero circuit that constantly > measures and compensates the input offset to eliminate drift over time an= d > temperature as well as the effect of 1/f noise. It also features integrat= ed > EMI filters to reduce high-frequency signal demodulation on the output. > > Digital Temperature Sensors and Thermal Watchdog > > MAX7500 > This temperature sensor accurately measures temperature and provides an > overtemperature alarm/interrupt/shutdown output. Output is digital throug= h > an I=B2C-compatible 2-wire serial interface. > > Single Chip Thermistor-to-Digital Converter > > MAX6682 > The MAX6682 converts an external thermistor's temperature-dependent > resistance directly into digital form. > > 4-20mA Loop-Powered Temperature Sensor with HART > > MAXREFDES16 > A complete signal-chain solution that works with any type of RTDs, from > PT100 to PT1000. A 2-wire, loop-powered smart temperature transmitter > guarantees a low-power, easy-to-use, reliable solution of temperature > measurement from -200=B0C to +850=B0C with accuracy better than 0.1% or 1= ..0=B0C. > > High-Accuracy 4-20mA Current-Loop Temperature Sensor > > MAXREFDES15 > This loop-powered transmitter design provides high accuracy and high > precision at low power making it perfect for using in industrial > temperature sensing applications. Requires a 10 to 40V power source and a > PT1000 RTD for operation. > > Ultra-Accurate Local Temperature Sensor > > MAX31726 > This IC converts the temperature measurements to digital form using a > high-resolution, sigma-delta, analog-to-digital converter (ADC). Accuracy > is =B10.5=B0C from -40=B0C to +105=B0C. Communication is through an I2C-c= ompatible > 2-wire serial interface. > > Digital Temperature Sensors and Thermal Watchdog > > DS75 > This temperature sensor accurately measures temperature and provides an > overtemperature alarm/interrupt/shutdown output. Output is digital throug= h > an I=B2C-compatible 2-wire serial interface. > > Accurate 8-Channel Temperature Sensor > > MAX6581 > This precision multichannel temperature sensor monitors its own temperatu= re > and the temperatures of up to seven external diode-connected transistors. > All temperature channels have programmable alert and overtemperature > thresholds. > > Ultra-low supply current LDO delivers up to 200mA > > MAX8880 > This LDO was designed for battery-powered applications where reverse > battery protection and long battery life are critical. An internal power-= OK > (POK) comparator indicates when the output is out of regulation. > > Voltage Doubler or Inverter > > MAX660 > Inverter or voltage doubler? Can't decide? MAX660 can be configured as a > voltage doubler or a voltage inverter and is capable of providing 100mA o= f > current. > > Step Up from 3.3 to 5V, 100mA > > MAX1595 > This 3.3/5V charge-pump regulator is able to both step-up and step-down t= he > input voltage, making it a unique design. > > Ultra Small Voltage Inverter Provides 200mA > > MAX889 > Operating from 2.7V to 5.5V, this inverting charge pump can deliver up to > 200mA of output current. > > Ultra Small Voltage Doubler > > MAX1682-3 > Accepting input voltages from +2.0V to +5.5V, these switched-capacitor > voltage doublers are highly efficient and ideal devices. > -- > http://www.piclist.com/techref/piclist PIC/SX FAQ & list archive > View/change your membership options at > http://mailman.mit.edu/mailman/listinfo/piclist -- http://www.piclist.com/techref/piclist PIC/SX FAQ & list archive View/change your membership options at http://mailman.mit.edu/mailman/listinfo/piclist .