Blood Gas Analyzer

Description

Commonly used for patient monitoring and diagnosis, blood gas analyzers quantify and analyze the amount of various gases within blood. They operate in a similar way to blood glucose monitors. A chemical reagent is mixed with a sample of blood, which is examined using either photooptical sensors or electrochemical sensors. The readings of the blood sample are compared against a calibration reagent to determine the result.


Blood gas analyzers are often used for simple blood tests, as well as for sophisticated suites of tests that allow physicians to monitor patient health in various settings. In addition to clinical diagnostics, blood gas analyzers are finding use in respiratory therapy and point-of-care diagnostics. These markets require device miniaturization and sophistication. Small, sometimes handheld, form factors are needed that integrate multiple testing capabilities, such as blood glucose and electrolyte analysis. This testing versatility increases the cost effectiveness of the device.

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Signal Path


Most blood gas analyzers have multiple sensors that are driven through an amplifier and a multiplexer to an analog-to-digital converter (ADC). The data is processed in the microcontroller, which is connected to a PC or other instruments through RS-232, USB, or Ethernet. A digital-to-analog converter (DAC) is often used to calibrate the sensor amplifiers to maximize the sensitivity of the electrodes.

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Display


Modern blood gas analyzers increasingly employ a touch screen in combination with a graphical user interface (GUI) to make the programming process more intuitive. Visible, audible, and haptic responses to user inputs help designers improve the user experience. Advanced touch-screen controllers from Maxim offer haptic feedback, touch processing to reduce bus traffic, and autonomous modes for precision gesture recognition.

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CIOE


Shenzhen, China
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InfoComm 2020 is the largest professional audiovisual trade show in North America, with thousands of products for audio, unified communications and collaboration, display, video, control, digital signage, home automation, security, VR, and live events.

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Learn more: MAX32666 ›

Bluetooth Low Energy: All About BLE Security—Part 6 of 7

Bluetooth® Low Energy (BLE) is often used to transport sensitive information, such as health-related data. The sixth video in this series shows how BLE keeps this information private by using security protocols to protect the data transport link. In Part 7, “Bluetooth Low Energy: Developing an Application,” we’ll explain the concept of an API.

Learn more: MAX32666 ›

Introduction to the MAX22520 One-Time Programmable (OTP) Industrial Sensor Output Driver

This video provides an introduction to Maxim's One-Time Programmable (OTP) Industrial Sensor Output Driver - the MAX22520.

Introduction to the MAX2223 Ultra-Wideband, Direct-Conversion, L-Band Satellite Tuner

This video provides an introduction to Maxim’s Ultra-Wideband, Direct-Conversion, L-Band Satellite Tuner – the MAX2223.

Introduction to the MAX16141 MAX16141A 3.5V to 36V Ideal Diode Controller with Voltage and Current Circuit Breaker

This video provides an introduction to Maxim's 3.5V to 36V Ideal Diode Controller with Voltage and Current Circuit Breaker - the MAX16141 MAX16141A.

698MHz to 3800MHz RF Power Amplifier Linearizer

SC1905

True RFin/RFout solution supports 100MHz BW for modular power amp designs, including 3G, 4G, and 5G cellular infrastructure.

Learn More ›

300MHz–960MHz (G)FSK Transmitter with I2C Interface

MAX41464

Includes Bits-to-RF single-wire MCU for low-cost implementation, up to +16dBm output power to increase short-range transmissions.

Learn More ›

Low-Power DOCSIS 3.1 Programmable-Gain Amplifier

MAX3523

Passes stringent DOCSIS 3.1 specifications. Low 3.5W power dissipation surpasses cable modem/gateway requirements.

Learn More ›

Frequency Synthesizer Shield

MAXREFDES161

Frequency synthesizer generates 23.5MHz to 6GHz microwave radio signals. Level translators connect to +3.3V and +5V microcontrollers.

Learn more ›

Evaluation Kit for Multiband Universal GNSS Receivers

MAX2771EVKIT

Provides multi-constellation/multi-band support with superior RF performance for the highest position accuracy.

Learn More ›

Evaluation Kit for Universal GNSS Receivers

MAX2769CEVKIT

Fully programmable, supports GPS, GLONASS, and Galileo systems in a single chip.

Learn More ›

Frequency Synthesizer Shield

MAXREFDES161

Frequency synthesizer generates 23.5MHz to 6GHz microwave radio signals. Level translators connect to +3.3V and +5V microcontrollers.

Learn more ›

Evaluation Kit for Multiband Universal GNSS Receivers

MAX2771EVKIT

Provides multi-constellation/multi-band support with superior RF performance for the highest position accuracy.

Learn More ›

Evaluation Kit for Universal GNSS Receivers

MAX2769CEVKIT

Fully programmable, supports GPS, GLONASS, and Galileo systems in a single chip.

Learn More ›

LiDAR system

Diagram of LiDAR system with the TIA and COMP optical receiver system.

MAX40660 and MAX40661 transimpedance amplifiers block diagram

Diagram of MAX40660/MAX40661 transimpedance amplifiers (TIA1 and TIA2) for automotive LiDAR.

MAX40025 and MAX40026 high-speed comparators

MAX40025 and MAX40026 stabilize the TIA optical signal in LiDAR applications.

Ultra-High CMTI Isolated Gate Driver

MAX22701E

Features single-ended input with Miller clamp output.

Learn more ›

How to Design a Negative Voltage Reference Using MAX828

Katie explains the purpose of a stable voltage reference and describes three common methods used to create one. Next, she shows how the MAX828 can be used to quickly and easily create a small, efficient negative voltage reference for applications which use a bipolar supply.

Learn more: MAX828 ›

Bluetooth Low Energy: Developing an Application—Part 7 of 7

Nobody writes programs for Bluetooth® Low Energy (BLE) from scratch. In the final video of this series, a sample fitness tracking application is used to explain the concept of an API (Applications Programming Interface).

Learn more: MAX32666EVKIT ›

Fan motor efficiency and power factor for 38–50W shaded-pole motor and PMSM motors

Fan motor efficiency and power factor for 38–50W shaded-pole motor and PMSM motors. Image courtesy of Oak Ridge National Laboratory.

Fan motor efficiency and power factor for 38–50W ECM and PMSM motors

Fan motor efficiency and power factor for 38–50W ECM and PMSM motors.

11.5A, 900V silicon carbide power MOSFET from Wolfspeed

An 11.5A, 900V silicon carbide power MOSFET from Wolfspeed. Image courtesy of Wolfspeed, a Cree company.

A standard AC induction motor

Compact Development Board for Secure IoT Applications

MAX32520-KIT

Cortex®-M4 secure microcontroller provides secure boot and protection against physical tampering for IoT applications.

Learn more ›

Introduction to the MAXM17712 MAXM17720 and MAXM17724 Integrated 4V-60V, 150mA, Himalaya uSLIC Step-Down Power Module with 50mA Linear Regulator

This video provides an introduction to Maxim's Integrated 4V-60V, 150mA, Himalaya uSLIC Step-Down Power Module with 50mA Linear Regulator - the MAXM17712 MAXM17720 and MAXM17724

EE-Sim DC-DC Tool Overview

See a demonstration of the most commonly used functionality in EE-Sim. Includes opening a new DC-DC design, changing design requirements, creating a schematic, running simulations, comparing designs, and generating a report.

Learn more: EE-Sim Design and Simulation Tool ›

EE-Sim Design Requirements

How to set the Design Requirement specifications and create a schematic.

Learn more: EE-Sim Design and Simulation Tool ›

EE-Sim Working with Components

Review the manufacturer, part number, and key properties for each recommended component in your schematic. Select a different component, or define your own component. How ceramic capacitor performance is derated, and why that is important.

Learn more: EE-Sim Design and Simulation Tool ›

EE-Sim Simulation

Use the Simulation Setup Window to run up to six simulation types. If desired, customize a variety of simulation settings. Places to access the resulting waveforms.

Learn more: EE-Sim Design and Simulation Tool ›

EE-Sim Design Tradeoffs

Prioritize the design size, efficiency, or BOM cost based on your design needs. Learn how this selection is implemented in your schematic.

Learn more: EE-Sim Design and Simulation Tool ›

NFC/RFID Tags and Readers

Fundamentals of NFC/RFID Communications

What’s the difference between NFC and RFID? Learn about the technology behind near field communication (NFC) and radio frequency identification (RFID) and the unique application characteristics of each. See how NFC and RFID ICs use modulation and demodulation processes, and through electromagnetic waves, move from the transmitter or tag to the receiver or reader.

Learn more › NFC/RFID Tags and Readers

Enabling High-Performance Automotive Infotainment

 

"MAX9286 is highly integrated and can support up to four camera links. This compact integration takes up less space on the mainboard and also reduces the bill of materials cost for customers.”
-JC Hsu, Corporate Vice President, MediaTek


Featured products: MAX9286, MAX96705, MAX15007C, MAX8902B

Read Their Story ›

Introduction to the MAX14828 Low-Power, Ultra-Small IO-Link Device Transceiver

This video provides an introduction to the MAX14828, a Single 250mA IO-Link Transceiver + DI.

Redefining Motion Capture

 

"Maxim ICs are making our products work in a more stable and reliable manner.”
-Dr. Tristan RuoLi Dai, CTO, Noitom


Featured products: MAX17224, MAX14841E, MAX809S, MAX14527, MAX8887, DS3231M, MAX8881

Read Their Story ›

Making Clothes Smarter

 

“Maxim support enabled us to use these parts effectively, and we created a design that is more or less without compromise.”
 -Dylan Jackson, Lead Embedded Engineer, Spire


Featured products: MAX30110 and MAX17223

Read Their Story ›

Dual-Channel, Synchronous Buck High-Brightness LED Controller with SPI Interface

MAX20096

Ultra-fast transient response with near-fixed frequency minimizes EMI for matrix lighting, wide dimming ratio allows high contrast.

Learn more ›

2A Synchronous Buck LED Driver with Integrated MOSFETs

MAX20050

High-performance, compact, and efficient buck LED driver simplifies automotive and general lighting designs.

Learn more ›

Automotive High-Voltage, High-Brightness LED Controller

MAX20090

Single-channel HB LED driver for front-light applications such as high-beam, low-beam, and daytime running lights.

Learn more ›

12-Switch Matrix Manager for Automotive Lighting

MAX20092

Single/dual/quad-string configurations, programmable 12-bit PWM dimming, enables matrix/pixel lighting up to 1.5A

Learn more ›

Synchronous Buck, High-Brightness LED Controller

MAX20078

Industry's First Automotive Buck Controller with Ultra-Fast Response and Pseudo Fixed-Frequency Regulation

Learn more ›

60V, 1A, Automotive Synchronous Step-Down DC-DC Converter

MAX20058

60V Synchronous Buck Converter with Internal FETs Enables High Efficiency and Low Temperature Rise

Learn more ›

36V, 2.5MHz Automotive Boost/SEPIC Controllers

MAX16990

2.5MHz Automotive PWM Controller Enables Space-Efficient Preboost Supplies for Cold/Warm Crank Applications

Learn more ›

High-Voltage, 3-Channel Linear High-Brightness LED Driver with Open LED Detection

MAX16823

Highly Integrated, High-Voltage LED Driver Ideal for Automotive Applications

Learn more ›

Introduction to the MAX17662 3.5V to 36V, 2A, High-Efficiency, Synchronous Step-Down DC-DC Converter

This video provides an introduction to Maxim's 3.5V to 36V, 2A, High-Efficiency, Synchronous Step-Down DC-DC Converter - the MAX17662.

Understanding Power Losses in Buck Converters

Anthony examines the large power losses associated with the rectification diode of a traditional buck converter. He then shows how a synchronous buck converter, like the MAX17506 or MAX17503, can significantly improve efficiency, thermal performance, and reliability by replacing the diode with an integrated MOSFET.

Learn More > Himalaya Buck Converters

Transimpedance Amplifier with 100mA Input Current Clamp for Automotive LiDAR

MAX40660

Small 3x3 TDFN with wide 490MHz bandwidth captures road condition detail and low 2.1pA/√Hz noise density reduces signal distortion and misinterpretation.

Learn more ›

How to Use DC-Biasing Configurations to Extend the Operating Voltage Range of a Flyback Converter

Teja considers the advantages and disadvantages of three commonly used DC biasing configurations that allow a flyback converter to operate above its absolute maximum voltage rating. He explains why transformer auxiliary winding is the best option, before using the MAXREFDES1193 to calculate the efficiency of this configuration.

Learn more: MAXREFDES1193 ›

Simplify System Power Designs and Achieve Bigger, Sharper Automotive Displays

Maxim's automotive-grade power ICs enable a wide range of display capabilities, helping you implement solutions to support higher luminance, higher current, and increased channel, making it easier to design bigger, sharper automotive displays. Our automotive display ICs also meet ASIL-B and high power requirements for greater reliability.

Learn more: Automotive Display Power ›

Michael Kratsios, U.S. Chief Technology Officer

U.S. Chief Technology Officer Michael Kratsios discusses AI leadership at CES

Elaine Chao, U.S. Secretary of Transportation

Elaine Chao announced AV 4.0, the U.S. initiative on autonomous vehicles, at CES 2020.

5G Technology

5G technology promises to bring the IoT to more people.

Driverless Taxi

Hyundai and Uber are teaming up to bring a driverless taxi to the market.

How to Fix a Corrupted EEPROM on an SC1905EVKIT or SC1894EVKIT

Samantha shows how to identify if your SC1905EVKIT or SC1894EVKIT has a corrupted EEPROM by measuring the supply current or by running the GUI. She then shows some simple fixes to restore your EV kit if this is the case.

Learn more: SC1905 ›

Beacon Current Profile

Typical Beacon Block Diagram

Bluetooth Beacons in the Smart Factory

Tutorial: All About Frequency Synthesis

Learn how variable frequency synthesis is achieved with the phase-locked loop (PLL). This video covers PLL theory and design including the phase detector, loop filter, voltage-controlled oscillator (VCO), integer dividers/multipliers, and the benefits of fractional division. Resources for finding integrated frequency synthesizer ICs are provided.

Learn More › PLLS and VCOs

USB to 1-Wire adapter

DS9481R-3C7

With the OneWireViewer PC utility, easily exercise and evaluate 1-Wire devices.

Learn more ›

Evaluation kit for the DS9090EVKIT

DS9090EVKIT

With the OneWireViewer PC utility, exercise and evaluate a broad range of 1-Wire devices.

Learn more ›

MAX17301/11 functional diagram

Pack-side fuel-gauge implementation

Host-side fuel-gauge implementation

1-Wire Technology Overview - Part 2

In “1-Wire Technology Overview - Part 1," you learned about the 1-Wire® protocol. In part 2, learn how the 1-Wire communication protocol can be used in authentication, memory, and temperature sensing applications.

Learn more: 1-Wire ›

1-Wire Technology Overview - Part 1

Learn how the 1-Wire® communication protocol works, its advantages over other types of serial communication, common implementation configurations, and popular 1-Wire applications. In the next video, “1-Wire Technology Overview - Part 2,” you’ll learn how the 1-Wire protocol is used in applications.

Learn more: 1-Wire ›

Introduction to the MAX77504 14Vin 3A High Efficiency Buck Converter

This video provides an introduction to Maxim's 14Vin 3A High-Efficiency Buck Converter - the MAX77504.

Introduction to the MAX77501 110VPK-PK High Efficiency Piezo Haptic Actuator Boost Driver

This video provides an introduction to Maxim’s first high voltage high efficiency piezo haptic driver – the MAX77501.

Introduction to the MAX20412 Automotive Low-Voltage 2-Channel Step-Down Controller

This video provides an introduction to the MAX20412, a dual-output, high-efficiency synchronous step-down controller IC that operates with a 3.0V to 5.5V input voltage range and provides a 0.25V to 1.275V output voltage range.

Introduction to the MAX14813 Ultra-Compact Octal 3L/Quad 5L Pulser with T/R Switches and Beamforming Capability

This video provides an introduction to Maxim's Ultra-Compact Octal 3L/Quad 5L Pulser with T/R Switches and Beamforming Capability - the MAX14813.

Evaluation Platform for Wrist-Based Heart-Rate and SpO2 Monitoring

MAXREFDES103#: Health Sensor Band

Demonstrates the high sensitivity and algorithm processing functions of health-sensing applications.

Learn more ›

3.5V to 36V Ideal Diode Controllers with Voltage and Current Circuit Breaker

MAX16141/MAX16141A

Mitigates high-voltage transient spikes, fast (0.3µs typ) shutdown response prevents reverse currents, and 5μA (typ) shutdown current reduces battery drain.

Learn more ›

280ps High-Speed Comparator, Ultra-Low Dispersion with LVDS Outputs

MAX40026

10ps overdrive delay at 20mV to 100mV output drive (dispersion) for 0.018cm time-of-flight measurement error in 2mm x 2mm TDFN.

Learn more ›

Introduction to the MAX25249 MAX25249B Quad Output Mini PMIC for Automotive Camera Applications

This video provides an introduction to Maxim’s Flexible Mini Dual 2.2MHz, 500mA Buck Converter with LDOs for Automotive Camera Supplies – the MAX25249 and MAX25249B

Introduction to the MAX98360A MAX98360B MAX98360C MAX98360D Tiny, Cost-Effective, Plug and Play Digital Class-D Amplifier

This video provides an introduction to Maxim's Tiny, Cost-Effective, Plug and Play Digital Class-D Amplifier - the MAX98360A MAX98360B MAX98360C MAX98360D

Meeting Food Quality Criteria

 

"For our purpose, the iButton is the perfect choice because it’s so small, robust, and can be reused many times.”
 -Dr. Thijs Defraeye, Laboratory for Biomimetic Membranes and Textiles, Empa


Featured product: DS1922L

Read Their Story ›

Introduction to the MAX20340 Bidirectional DC Powerline Communication Management IC

This video provides an introduction to Maxim's Bidirectional DC Powerline Communication Management IC - the MAX20340.

How to Measure Current with the MAX4173 Current-Sense Amplifier and a Microcontroller

In this video, Sean uses the MAX4173 Evaluation Kit together with an Arduino® Uno to measure current. He also discusses the principle behind measuring current and why a current-sense amplifier is a very useful addition to this technique.

Learn more › MAX4173

Ultra-Low Power Octal, Digital Input Translator/Serializer

MAX31910

Translates, conditions, and serializes digital output of industrial sensors and switches.

Learn more ›

Octal, High-Speed, Industrial, High-Side Switch

MAX14900E

Fast 24V driver, low propagation delay, and 100kHz load-switching speed for high-speed PLCs.

Learn more ›

Introduction to the MAX20057 MAX20457 MAX20458 36V Boost Controller with Two Synchronous Buck Converters (3.5A/2A) for Automotive Applications

This video provides an introduction to Maxim's Synchronous Buck Converters for Automotive Applications.

Introduction to the MAX40056F/T/U Bidirectional Current Sense Amplifier with PWM-Rejection

This video provides an introduction to the MAX40056, a bi-directional current-sense amplifier with an input common-mode range that extends from -0.1Vto +65V together with protection against negative inductive kickback voltages to -5V.

How to Set Up a SerDes Reverse Control Channel When PCLK is Not Available - Using the MAX96705/MAX96706 GMSL SerDes

Learn how to establish the I2C reverse control channel when PCLK is not available using the MAX96705 Gigabit Multimedia Serial Link (GMSL) serializer and MAX96706 GMSL deserializer.

Also see: How do I program the remote side of a SerDes link when PCLK is not present?

Learn more: MAX96705 16-Bit GMSL Serializer ›

Learn more: MAX96706 14-Bit GMSL Deserializer ›

Automotive displays

Bigger, sharper automotive displays benefit from highly integrated power management ICs.

MAXREFDES103#

The MAXREFDES103# is a full wrist-worn wearable reference design for heart-rate, heart-rate variability, and SpO2 measurements.

Introduction to the MAX17634A, MAX17634B and MAX17634C 4.5V to 36V, 4.25A, High-Efficiency, Synchronous Step-Down DC-DC Converter

This video provides an introduction to Maxim's 4.5V to 36V, 4.25A, High-Efficiency, Synchronous Step-Down DC-DC Converter - the MAX17634A, MAX17634B and MAX17634C.

Kingston A2000 SSD

The Kingston A2000 SSD delivers fast, reliable performance for laptops.

LynQ people compass

The LynQ device creates a private network to help users find one another.

Sublue WhiteShark Mix underwater scooter

Sublue’s WhiteShark Mix underwater scooter propels users underwater, in pools or in the ocean.

Sublue WhiteShark Mix underwater scooter

Explore the ocean with Sublue’s WhiteShark Mix underwater scooter.

Ricoh Imaging Theta SC2 360° camera

The Theta SC2 360° camera creates still or video images that you can rotate around.

Miracle-Gro Twelve

The Miracle-Gro Twelve Indoor Growing System is a smart hydroponic garden for growing herbs and vegetables inside.

Blood-Pressure Monitoring Smartwatch

Smartwatches and other wearables deliver accurate, continuous monitoring of blood pressure for better preventive health measures and disease management.

Introduction to the MAX17576 4.5V to 60V, 4A, High-Efficiency, Synchronous Step-Down DC-DC Converter with Internal Compensation

This video provides an introduction to Maxim's 4.5V to 60V, 4A, High-Efficiency, Synchronous Step-Down DC-DC Converter with Internal Compensation - the MAX17576.

Evaluation Kit for Octal Digital Output with SafeDemag

MAX14912EVKIT

Octal HS or push-pull, SafeDemag surge protection with integrated diagnostics and LED matrix.

Learn more ›

Evaluation Kit for Single-Channel Configurable DIO IC

MAX14914EVKIT

The only fully software-configurable DIO push-pull, fast, and surge protection product with SafeDemag.

Learn more ›

Evaluation Kit for Octal Digital Input for Type 1, 3, and 2 Inputs

MAX22190EVKIT

Fully IEC61131-2-compliant octal digital input with wire-break detection, integrated diagnostics, and LED matrix.

Learn more ›

Wireless and wired battery management systems

Compared to its wired counterpart, a wireless battery management system reduces weight and manufacturing complexity.

Wireless battery management system diagram

Maxim’s CES wireless BMS demo compares a wired and wireless BMS solution based on an ISM-band radio.

Wireless Battery Management System

In Maxim’s wireless BMS demo, the wireless architecture features an RF gateway client that acts as a central controller and BMS secondary nodes that communicate data wirelessly back to the gateway.

High CMTI Isolated Gate Driver

The MAX22700D/MAX22702D isolated gate drivers with high CMTI and low propagation delay skew increase efficiency.

Half-bridge push-pull circuit

In a half-bridge push-pull circuit, both switches should not be on at the same time, as this would lead to a short circuit condition.

Isolated Power Converter Circuit

Circuit with galvanically isolated low-voltage microcontroller.

How to Use the MAX745 as a Maximum Power Point Tracker Solar Charger

Sean explains a maximum power point tracker (MPPT) solar charger and how it is used to optimize the efficiency of a solar panel. He then demonstrates how the MAX745 switch-mode lithium-ion battery charger can be used as an MPPT solar charger.

Learn more: MAX745 ›

How to Optimize the Efficiency Performance of a Flyback Converter Using the MAX17606

Furqan explains why a discontinuous conduction mode (DCM) flyback converter, using a secondary-side rectification diode, is unsuitable for low-voltage high-current applications. He then proposes a high-efficiency solution where a MOSFET, controlled by the MAX17606 synchronous MOSFET driver, replaces the secondary-side diode.

Learn more: MAX17606 ›

Object identification application

New ICs are needed to bring intelligence to the edge for applications such as machine learning.

Evaluation Kit for the MAXM17624 3.3V Output-Voltage Application

MAXM17624EVKIT

The MAXM17624 3.3V output evaluation kit (EV kit) provides a proven design to evaluate the MAXM17624 high frequency, high-efficiency, synchronous step-down DC-DC power module.

Learn more ›

Automotive DeepCover Secure Authenticators Stop Counterfeit Parts

Counterfeit after-market automotive parts can ruin the ADAS driving experience. Our DeepCover® secure authenticators, such as the DS28C40, make it impossible for third-party manufacturers to clone critical components for after-market auto repairs.

Learn more: DS28C40 ›

Salesforce Tower at dusk

The Salesforce Tower in San Francisco exemplifies use of modern building automation technologies.

Salesforce Office

Heating, plumbing and other electrical systems inside the Salesforce Tower are controlled via building automation technologies.

Salesforce Tower

Automation technologies inside the Salesforce Tower are making the building more environmentally friendly and, for occupants, comfortable and convenient.

Introduction to the MAX25600 Synchronous High Voltage 4 Switch Buck Boost LED Controller

This video provides an introduction to the MAX25600, a synchronous 4-switch buck-boost LED driver controller.

Blood Pressure Monitoring from Smartphone

An integrated bio-algorithm sensor hub like the MAX32664 accelerates the development cycle for health-monitoring wearables.

Introduction to the MAX17613A MAX17613B MAX17613C 4.5V to 60V, 3A Current Limiter with OV, UV, and Reverse Protection

This video provides an introduction to the MAX17613A MAX17613B MAX17613C, a 4.5V to 60V, 3A Current Limiter with OV, UV, and reverse protection.

Introduction to the MAX77863 Complete System PMIC, Featuring 13 Regulators, 8 GPIOs, RTCD, and Flexible Power Sequencing for Multicore Applications

This video provides an introduction to Maxim's Complete System PMIC, Featuring 13 Regulators, 8 GPIOs, RTCD, and Flexible Power Sequencing for Multicore Applications - the MAX77863.

Evaluation kit for the DS2484

DS2484EVKIT

DS2484 Converts I2C slave to 1-Wire master. Independent and flexible I2C and 1-Wire operating voltage, user programmable 1-Wire timing.

Learn more ›

1-Wire socket boards

DS9120

Designed for use with the DS2484EVKIT and 1-Wire PC adapters such as DS9490R.

Learn more ›

1-Wire device programmer

DS9488-GP8

Simultaneously programs up to eight 1-Wire devices.

Learn more ›

Introduction to the MAX20336 Ultra-Small, Low-RON, Beyond-the-Rails DPST Analog Switches

This video provides an introduction to the MAX20336, an ultra-small, low-on-resistance, double-pole/single-throw analog switches which features Beyond-the-Rails™ capability that allows signals from -5.5V to +5.5V to pass without distortion, even when the power supply is below the signal range.

GSEE-Tech analog input module

GSEE-Tech used the MAX11270 to meet the performance and size requirements of its new analog input module.

Existing Bus/Taxi Surveillance Application

Since the MAX38888 has 2% regulation accuracy and is a bidirectional system, a buck converter and linear charging aren’t required in this bus/taxi surveillance system when rearchitected with the MAX38888 reversible buck/boost regulator.

Bus/Taxi Surveillance Application with MAX38888

Since the MAX38888 has 2% regulation accuracy and is a bidirectional system, a buck converter and linear charging aren’t required in this bus/taxi surveillance system when rearchitected with the MAX38888 reversible buck/boost regulator.

Portable barcode scanner

Supercapacitors are ideal for backup power in applications such as portable barcode scanners.

Introduction to the MAX16972 and MAX16972A 3A Automotive Hi-Speed USB Protectors with Apple iPhone/iPad and USB 2.0 Charge Detection

This video provides an introduction to Maxim's 3A Automotive Hi-Speed USB Protectors with Apple iPhone/iPad and USB 2.0 Charge Detection - the MAX16972 and MAX16972A.

MAXREFDES1177 reference design with ECAD files

Reference designs with ECAD files, like MAXREFDES1177, can help accelerate your circuit design process.

Ultra-High CMTI Isolated Gate Drivers Evaluation Kit

MAX22701EVKIT

Includes two identical ICs for measurement of part-to-part propagation delay matching.

Learn more ›

Introduction to the MAX14916 Compact Industrial Octal 1A/Quad 2A High-Side Switch with Diagnostics

This video provides an introduction to Maxim's Compact Industrial Octal 1A/Quad 2A High-Side Switch with Diagnostics - the MAX14916.

Introduction to the MAX20056B Integrated, 6-Channel High-Brightness LED Driver with Very Wide PWM Dimming Ratio and Phase Shifting for Automotive Displays

This video provides an introduction to Maxim's Integrated, 6-Channel High-Brightness LED Driver with Very Wide PWM Dimming Ratio and Phase Shifting for Automotive Displays - the MAX20056B.

14-Channel High-Voltage Data-Acquisition System

MAX17853

Achieves ASIL-D compliance using a single chip for mid-to-large cell count configurations.

12-Channel, High-Voltage Data-Acquisition Systems

MAX17823H

Manages high-voltage battery modules and features a 12-bit SAR ADC that measures 12 cell voltages and two temperatures.

Learn more ›

Getting Started with Hall-Effect Sensors Using the MAX9921

Jesvin explains the hall effect and how hall-effect sensors can be useful in applications that require contactless sensors such as an automatic door opener. He then demonstrates the MAX9921, which is the industry’s first two-wire hall-effect sensor.

Learn More: MAX9921 ›

GTI NuSeis seismic recording technology

GTI uses Maxim analog ICs in its precise, power-efficient seismic recording technology.

Introduction to the MAX22515 IO-Link Transceiver with Integrated Protection

This video provides an introduction to Maxim's IO-Link Transceiver with Integrated Protection - the MAX22515.

Accelerate Your Design with the MAX5715BOB DAC Breakout Board

David and Kyle present the latest development tool, the ultra-small MAX5715BOB digital-to-analog converter (DAC) breakout board. You’ll learn how to set up the Arduino®- and Mbed®-compatible platform and discover how to customize the Mbed firmware to your own design, saving valuable time on your next project.

Learn More: MAX5715BOB ›