Pocket IO PLC开发平台

将工业4.0的威力收获囊中!

工业4.0在全球范围内的呼声越来越高,发展势头正劲。越来越多的企业寄希望于每天24小时、每年365天不停工运转,实现最优的工厂产量。现在,出现新产品需求时,生产线可“实时”重新配置,大大提高生产力,制造过程具有更大的自适应性。Maxim致力于通过提供创新的工业通信方案支持这种转变。突破性的产品和参考设计支持设计工程师快速搭建新型工业控制系统的原型,然后进行采购和生产。

MAXREFDES150   Pocket IO™ PLC开发平台   Buy ›




Pocket IO传感器


IO-Link
MAXREFDES27 IO-Link接近检测光传感器 购买 ›
MAXREFDES36 16通道IO-Link数字输入集线器 购买 ›
MAXREFDES37 IO-Link四通道伺服驱动器 购买 ›
MAXREFDES42 IO-Link RTD温度传感器 购买 ›
Analog
MAXREFDES16 4-20mA环路供电温度传感器,带HART功能 购买 ›
MAXREFDES75 24位电子秤,带有16位DAC,0至10V输出 购买 ›

认识Pocket IO


Pocket Io™开发平台为体验工业4.0的全部威力开启了众多新途径。

  • 紧凑的设计
    结构紧凑、超小尺寸外形尺寸(< 10立方英寸:3.5” x 3.5” x 0.8”)。
  • 可靠、安全的技术
    由先进的工业产品组成,所有产品的额定工作环境温度为-40°C至+125°C,充分利用了Maxim可靠、安全、快速的消磁技术。
  • 高效
    确保低功耗,提高效率——无需冷却风扇。
  • 集成众多功能强大的接口
    提供全套30个IO,用于控制整个制造节点或某台设备,包括:4路模拟输入、1路模拟输出、8路数字输入、8路数字输出、2个RS-485 (兼容Profibus现场总线)、3个编码器/电机控制端口,以及4个IO Link主机。
  • 长电池寿命
    首先,结构紧凑、便携式PLC平台使用“AA/AAA”型电池可工作最短2个小时,使用LiFePO4可充电电池可工作8小时。
  • 可编程
    可通过Arduino Sketch或使用Intel的Edison Eclipse IDE工具编程,支持Windows、Linux或Mac OS操作系统。
  • 容易使用
    Sketches可转换为app,然后下载到iPad®或iPhone® (转换为HMI面板,用于控制Pocket IO)。

Read next: Put the Power of Industry 4.0 in Your Pocket: Meet the Pocket IO


精选产品



[Distributor] Introduction to the MAX20710 Integrated, Step-Down Switching Regulator with PMBus

This video provides an introduction to Maxim's Integrated, Step-Down Switching Regulator with PMBus - the MAX20710.

[Internal] Introduction to the MAX20710 Integrated, Step-Down Switching Regulator with PMBus

This video provides an introduction to Maxim's Integrated, Step-Down Switching Regulator with PMBus - the MAX20710.

Introduction to the MAXM86161 Single-Supply Integrated Optical Module for HR and SpO2 Measurement

This video provides an introduction to Maxim’s Single-Supply Integrated Optical Module for heart rate and SpO2 Measurement – the MAXM86161.

[Internal] Introduction to the MAX77950 WPC/PMA Dual Mode Wireless Power Receiver

This video provides an introduction to the MAX77950, a Wireless Charger Receiver.

[Distributor] Introduction to the MAX17260 5.1µA 1-Cell Fuel Gauge with ModelGauge m5 EZ and Optional High-Side Current Sensing

This video provides an introduction to the MAX17260, an ultra-low power fuel gauge IC which implements the Maxim ModelGauge™ m5 algorithm. The IC monitors a single-cell battery pack and supports both high-side and low-side current sensing.

[Internal] Introduction to the MAX17260 5.1µA 1-Cell Fuel Gauge with ModelGauge m5 EZ and Optional High-Side Current Sensing

This video provides an introduction to the MAX17260, an ultra-low power fuel gauge IC which implements the Maxim ModelGauge™ m5 algorithm. The IC monitors a single-cell battery pack and supports both high-side and low-side current sensing

Why Fast Time-to-Market Calls for Flexible EV Battery Management Systems

 

Why Fast Time-to-Market Calls for Flexible EV Battery Management Systems
The design of a smart sensor for electric vehicle batteries poses mechanical and electrical challenges. The MAX17853 is a flexible data-acquisition system for the management of high-voltage and low-voltage automotive battery modules. It allows for a flexible battery configuration that saves cost, time to qualification and time to market. With this solution, the voltage across each battery cell is measured with high accuracy for reporting and balancing, and the busbars are monitored for fault detection.

Featured part: MAX17853
Read more ›

Choose the Proper PMIC to Boost Your Optical Sensor SNR

 

Choose the Proper PMIC to Boost Your Optical Sensor SNR
Boost converters are typically used to step up the battery voltage in portable and wearable devices. However, they exhibit behavior that can negatively impact the signal-to-noise ratio (SNR) in optical sensing applications. In this design solution, we explain why this happens and then present a new type of power management using a PMIC that features a boost converter specifically designed to maximize SNR in optical sensing applications.

Featured parts: MAX20345, MAX86140
Read more ›

Introduction to the MAX25610A MAX25610B Synchronous Buck and Buck Boost LED Driver/DC-DC Converter

This video provides an introduction to the MAX25610A and MAX25610B, fully synchronous LED drivers that provide constant output current to drive high-power LEDs.

[Internal] Introduction to the MAX20303 Wearable Charge Management Solution

This video provides an introduction to the MAX20303, a Wearable Charge Management Solution.

Introduction to the MAX16152 MAX16153* MAX16154* and MAX16155 nanoPower Supervisor and Watchdog Timer

This video provides an introduction to Maxim’s nanoPower Supervisor and Watchdog Timer family– the MAX16152 – MAX16155.

[Distributor] Introduction to the MAX16152 MAX16153* MAX16154* and MAX16155 nanoPower Supervisor and Watchdog Timer

This video provides an introduction to Maxim’s nanoPower Supervisor and Watchdog Timer family– the MAX16152 – MAX16155.

[Internal] Introduction to the MAX16152 MAX16153* MAX16154* and MAX16155 nanoPower Supervisor and Watchdog Timer

This video provides an introduction to Maxim’s nanoPower Supervisor and Watchdog Timer family– the MAX16152 – MAX16155.

24μA IQ 独立式电量计,集成保护器

MAX17301XEVKIT

评估单节电池ModelGauge m5 EZ电量计,集成保护器和SHA-256安全认证

了解更多 ›

5.1μA、ModelGauge m5 EZ多节电池电量计

MAX17261XEVKIT

利用外部电阻分压器监测多节串联电池组

了解更多 ›

[Distributor] Introduction to the MAX40010 76V Precision, High-Voltage, Current-Sense Amplifier

This video provides an introduction to the MAX40010, a High Voltage, Highly Accurate Current Sense Amplifier.

[Internal] Introduction to the MAX40010 76V Precision, High-Voltage, Current-Sense Amplifier

This video provides an introduction to the MAX40010, a High Voltage, Highly Accurate Current Sense Amplifier.

5.1μA、单电池电量计,具有ModelGauge m5 EZ和可选高边电流检测

MAX17260XEVKIT

评估独立式ModelGauge™ m5主机侧电量计IC,IC适用于手持式和便携式设备中的锂离子(Li+)电池。

了解更多 ›

[Internal] Introduction to the MAX14815 Octal 5 Levels Pulser with T/R Switch and Embedded Beamforming

This video provides an introduction to Maxim's Octal 5 Levels Pulser with T/R Switch and Embedded Beamforming - the MAX14815.

[Distributor] Introduction to the MAX14815 Octal 5 Levels Pulser with T/R Switch and Embedded Beamforming

This video provides an introduction to Maxim's Octal 5 Levels Pulser with T/R Switch and Embedded Beamforming - the MAX14815.

[Distributor] 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.

[Internal] 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.

[Internal] Introduction to the DS28E83 DeepCover® Radiation Resistant 1-Wire Secure Authenticator

This video provides an introduction to the DS28E83, a radiation-resistant secure authenticator that provides a core set of cryptographic tools derived from integrated asymmetric (ECC-P256) and symmetric (SHA-256) security functions.

设计小型,低功耗,模拟输入模块

 

"吉诺科技很高兴有机会与Maxim合作,为我们的模拟输入模块提供完美方案,且尺寸极小、支持多通道信号,提高用户体验和用户可采性。”
 - Li Yan,吉诺科技市场部现场总线项目经理

精选器件: MAX11270
了解案例 ›

业界唯一的ASIL级摄像机保护器,集成基于I2C的诊断功能

MAX20087

双/四通道摄像机电源保护器IC为每路输出提供高达600mA负载电流。

了解更多 ›

超小尺寸、3.2MHz、双通道、500mA、摄像机模块通用PMIC

MAX20019

2.2MHz和3.2MHz、双通道、降压型转换器,带有集成高边和低边MOSFET。

了解更多 ›

2.2MHz同步和双通道降压型转换器

MAX20014

OUT1输出将输入电压升压到高达8.5V、电流高达750mA,而两路同步降压型转换器工作在3.0V至5.5V输入电压范围,提供0.8V至3.8V输出电压,负载电流高达3A。

了解更多 ›

36V、600mA、微型Buck转换器,3.5µA IQ

MAX20076

同步buck转换器,集成高边和低边开关,在3.5V至36V输入电压下提供高达0.6A电流,空载时的静态电流仅为3.5µA。

了解更多 ›

隔离型、24V至5V、12.5W、无光耦反激电源

MAXREFDES120

小尺寸24V输入模块,带有副边同步MOSFET驱动器,输出为5V @ 2.5A。

了解更多 ›

隔离型、24V至5V、9W、无光耦反激电源

MAXREFDES119

小尺寸24V输入模块,带有副边同步MOSFET驱动器,输出为5V @ 1.8A。

了解更多 ›

Arm® Cortex®-M4F开发平台,用于电池供电设备

MAX32625MBED

支持MAX32625超低功耗微控制器的Mbed™兼容评估系统。Arduino®连接器和充裕的原型空间支持快速开发。

了解更多 ›

结构紧凑的开发板,用于构建小尺寸、低功耗IoT平台

MAX32630-EVKIT

功率优化Arm® Cortex®-M4F。最优外设组合,提高平台扩展性。板载Bluetooth® 4.0 BLE收发器,带芯片天线。

了解更多 ›

评估板串行通信模块

DS3900P2EVKIT

通过PC串口与2线和3线器件进行双向通信,用于评估各种时钟IC。

了解更多 ›

光学脉搏血氧仪和心率传感器评估系统

MAX86140EVSYS

允许灵活配置,支持以最小功耗实现最优测量信号质量。

了解更多 ›

36V、600mA、微型Buck转换器,3.5µA IQ

MAX20075

同步buck转换器,集成高边和低边开关,在3.5V至36V输入电压下提供高达0.6A电流,空载时的静态电流仅为3.5µA。

了解更多 ›

临床级提问传感器评估板

MAX30205EVSYS

包括USB至I2C转换控制器和GUI程序,简化评估过程

Learn more ›

±5ppm、I2C实时时钟外设模块

DS3231MPMB1

连接DS3231M RTC低成本、高精度RTC,适合任何用Pmod™兼容扩展端口配置I²C通信的系统。

了解更多 ›

健康传感器平台

MAXREFDES100

支持mbed™的传感器平台,快速评估可穿戴健康和健身方案。测量运动、温度、生物电势、脉搏血氧以及心率。

了解更多 ›

16位、四通道模拟输入微型PLC卡

MAXREFDES61

支持下一代超小尺寸PLC的完备模拟前端,电源和数据隔离。

了解更多 ›

WPC/PMA双模无线电源接收器评估板

MAX77950EVKIT

无线电源接收器与WPC或PMA发送器耦合时,利用近场磁感应工作,提供高达12W输出功率。



了解更多 ›

高精度热电偶至数字输出转换器评估系统,器件带线性度补偿

MAX31856EVSYS

包括MAX31856PMB1外设模块、与软件通信的适配器电路板、K型热电偶。

了解更多 ›

集成生物电势和生物电阻抗AFE评估系统

MAX30001EVSYS

提供多种配置,支持ECG、BioZ和起搏信号检测等各种测量。

了解更多 ›

18位高精度数字采集系统

MAXREFDES74

利用高精度、低功耗数据转换器实现高速、高精度数据采集。

了解更多 ›

4.5V至42V、300mA uSLIC电源模块3.3V输出电压评估板

MAXM15462EVKIT

可调节输入欠压锁定、可选模式和漏极开路低电平有效RESET,工作在500kHz开关频率。

了解更多 ›

可穿戴、皮电反应系统

MAXREFDES73

GSR测量检测人类皮肤在不同情况下的阻抗。

了解更多 ›

智能压力传感器

MAXREFDES82

可显示平台上物体重量和重心的工业传感器,支持高达780g重量。

了解更多 ›

4V至42V、100mA、结构紧凑的降压型电源模块

MAXM17532

集成控制器、MOSFET、电感和补偿元件,采用10引脚uSLIC™封装

了解更多 ›

4–20mA、2线电流环路传感器

MAXREFDES15

超低功耗、高精度、环路供电传感器变送器,可连接任意标准PT1000电阻传感器,并进行线性化温度转换产生4–20mA电流信号。

了解更多 ›

ECT/EPT电流故障传感器

MAXREFDES38

用于ECT/EPT低功耗传感器的高精度模拟前端,提高电网健康数据及故障测量精度。

了解更多 ›

4V至42V、100mA uSLIC电源模块5V输出电压评估板

MAXM17532EVKIT

逐周期峰值限流保护、欠压锁定和热关断,工作在600kHz开关频率

了解更多 ›

4–20mA环路供电温度传感器,带Hart功能

MAXREFDES16

2线、环路供电智能温度变送器方案,适用于温度测量。支持从PT100到PT1000任何类型的RTD。

了解更多 ›

高精度、长电池寿命热量/流量计

MAXREFDES70

低功耗、超声传输时间测量参考设计,适用于高精度液体流量测量。

了解更多 ›

Arm Cortex-M4F开发平台,优化用于电池供电的Bluetooth®设备

MAX32630FTHR

MAX32630超低功耗微控制器Mbed™开发平台。板载PMIC、Bluetooth和外设,支持快速开发,电路板尺寸只有0.9in x 2.0in。

Learn more ›

Arm Cortex-M4F开发平台,提供用于电池供电设备的扩展连接器

MAX32620FTHR

MAX32620超低功耗微控制器Mbed™开发平台。板载PMIC、电量计、外设和Pmod™连接器,支持快速开发,电路板尺寸只有0.9in x 2.0in。

了解更多 ›

显示驱动器平台

MAXREFDES99

Arduino平台,支持4片MAX7219 LED驱动器采用菊链连接,驱动标识应用中的16x16 LED点阵。

了解更多 ›

模拟功能丰富的Arm Cortex-M3开发平台

MAX32600MBED

MAX32600超低功耗微处理器Mbed™评估系统,处理器集成了先进的模拟功能和安全保护。Arduino连接器和原型空间用于支持快速开发。

了解更多 ›

MAXM17575 5V输出电压评估板

MAXM17575EVKIT

5V预设输出电压,负载电流高达1.5A,900kHz开关频率

了解更多 ›

Pocket IO™ PLC开发平台

MAXREFDES150

集成30路工业IO,以不到10平方英寸的面积实现更低散热和更快吞吐量。

了解更多 ›

DeepCover安全认证器演示套件

MAXAUTHDEMO

演示Maxim安全认证器在真实使用场景的软/硬件功能平台。

了解更多 ›

MAXM17761 5V输出电压评估板

MAXM17761EVKIT

5V预设输出电压,负载电流高达1A,537kHz开关频率

了解更多 ›

16位、 Δ-Σ ADC外设模块

MAX11205PMB1

将MAX11205超低功耗、16位ADC与任何Pmod兼容扩展端口(配置为GPIO)系统相连接。

了解更多 ›

3µA 1节/2节电池电量计,带ModelGauge

MAX17048EVKIT

最小、功耗最低的电量计,具有经过验证、仅依赖于电压的ModelGauge算法。

了解更多 ›

24位电子称

MAXREFDES75

高精度电子称参考设计,实现小信号24位测量,并产生与输入信号成比例的0至10V输出。

了解更多 ›

适用于Arduino平台的Pmod适配器

MAXREFDES72

Arduino至Pmod转换适配器,集成电平转换和引脚多路复用。

Arduino至Pmod转换适配器,集成电平转换和引脚多路复用。
了解更多 ›

DeepCover嵌入式安全平台,支持IoT安全认证

MAXREFDES143

演示从受保护传感器节点到网络服务器的安全认证数据链路。

了解更多 ›

7µA单电池电量计,采用ModelGauge m5 EZ

MAX17055XEVKIT

库伦计数与电压电量计量相结合,拥有最高SOC精度。

了解更多 ›

楼宇自动化平台

MAXREFDES130

Arduino架构、Mbed™兼容平台,包括0VDC-10VDC模拟输出、4–20mA输入/输出、闭锁/非闭锁继电器、RTC和1–Wire主机。

了解更多 ›

MAXM17574 5V输出电压评估板

MAXM17574EVKIT

5V预设输出电压,负载电流高达3A,650kHz开关频率

了解更多 ›

独立式ModelGauge m5电量计,集成SHA-256认证

MAX17201GEVKIT

提供非易失存储器(NVM),适用于电池组侧单节或多节电池应用。

了解更多 ›

通用输入微型PLC

MAXREFDES67

通用模拟输入,支持模拟电压和电流、所有RTD配置和热电偶,采用单一架构高精度采集模拟数据。

了解更多 ›

1-Wire Grid-Eye传感器

MAXREFDES131

检测方案具有Panasonic AMG8833 Grid-EYE®和Maxim 1-Wire® 总线,由DS28E17支持。

了解更多 ›

全桥直流电机驱动器Mbed平台

MAXREFDES89

Mbed兼容、Arduino架构平台,适用于有刷直流电机应用。驱动多达4个电机,带有电流调节,工作在7V至36V单电源。
了解更多 ›

完备的超低功耗Cortex-M4F微控制器评估板

MAX32620-EVKIT

功率优化Arm Cortex®-M4F。最优外设组合,提高平台扩展性。板载Bluetooth 4.0 BLE收发器和芯片天线。

了解更多 ›

GPS/GNSS超低噪声系数LNA

MAX2667EVKIT

噪声系数最低的GPS LNA,提供高增益和高线性度,微型封装。

了解更多 ›

MAXM17502 5V/1A输出应用评估板

MAXM17502EVKIT

12V至60V输入,5V@1A输出,效率大于84%。

了解更多 ›

隔离电源参考设计

MAXREFDES9

3.3V至15V输入、±15V (±12V)输出、隔离电源,适用于工业和医疗应用

了解更多 ›

支持可穿戴产品的超低功耗微控制器开发平台

MAX32630FTHR

功率优化Arm® Cortex®-M4F。最优外设组合,提高平台扩展性。板载Bluetooth® 4.0 BLE收发器和芯片天线。。

了解更多 ›

MAX17651评估板

MAX17651EVKIT

演示60V、100mA、超低静态电流、线性稳压器

了解更多 ›

MAX44284评估板

MAX44284EVKIT

演示MAX44284电流检测放大器的高精度、实时电流监测。

了解更多›

MAXM17515 1.5V/5A输出评估板

MAXM17515EVKIT

2.4V至5.5V输入,1.5V@1.5A输出,效率高于91%。

了解更多 ›

MAX44298 评估板

MAX44298EVKIT

评估MAX44298超低失调、低边电流检测、高精度电源监测器。

了解更多›

MAX1510评估板

MAX1510EVKIT

评估低电压DDR线性稳压器

了解更多 ›

MAXM17503 5V/2.5A输出评估板

MAXM17503EVKIT

11V至60V输入,5V@1A输出,效率高于93%。

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适合狭小空间的超小尺寸开发板,有效降低功耗

MAX32625PICO

功率优化Arm® Cortex®-M4F。板载PMIC提供所有供电电压;超小尺寸、0.6in x 1.0in双排连接头。

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40MHz至4GHz宽带线性放大器

MAX2615

具有优异增益平坦度的高性能宽带放大器,8引脚TDFN封装。

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双通道检流外设模块

MAXREFDES77

将MAX44285双通道、高边电流检测放大器连接到任何使用Pmod兼容扩展端口系统。

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GPS/GNSS超低电流LNA评估板

MAX2679/MAX2679B EV Kits - Evaluates: MAX2679/MAX2679B

无需附加电路即可测试RF性能。提供50Ω SMA输入和输出连接器。

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适用于医疗和工业应用环境的浪涌保护/ESD保护评估板

MAX3003XEVKIT-cn

说明:经过完全测试的评估板采用MAX30034,能够吸收除颤及其它重复性高能量脉冲。

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DeepCover嵌入式安全在IoT领域的应用:公钥保护数据通路

MAXREFDES155

安全IoT系统,从受保护传感器节点到网络服务器的公钥安全认证数据链。

适用于嵌入式设备开发平台的加密控制器

MAXQ1061 Evaluation Kit - Evaluates: MAXQ1061

信用卡大小的接口板允许通过10引脚连接器与可选的主机适配器进行通信和供电。

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MAX30205评估系统

MAX30205EVKIT

MAX30205体温传感器评估系统。提供USB至I2C转换控制器和GUI。

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Isolated, 24V to 5V, 10W Power Supply Reference Design

MAXREFDES114

Compact, 24V input, forward converter module with 5V at 2A output and pre-qualified transformers.

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非隔离24V至5.1V、20W电源

MAXREFDES125

高效、20W电源,适合工业和各种电源应用

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隔离24V至3.3V、33W电源

MAXREFDES121

隔离型工业电源参考设计,其中每款电源将24V高效转换为各种功率水平的电压轨

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Pocket IO PLC Development Platform

MAXREFDES150

Integrates 30 industrial IOs for lower heat dissipation and faster throughput in less than ten cubic inches.

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Turnkey PCI-PTS Mobile POS (MPOS) Terminal

MPOS-STD2

A complete mPOS solution, pre-evaluated by security labs for compliance with PCI-PTS 4.0 standards.

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Secure Authentication Design with 1-Wire ECDSA and Xilinx Zynq SoC

MAXREFDES44

Protects IP and authenticates peripherals to Xilinx Zynq™ FPGAs.

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DeepCover Embedded Security in IoT Authenticated Sensing and Notification

MAXREFDES143

Demonstrates an authenticated data chain from a protected sensor node to a web server.

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Isolated 24V to 5V 2W Flyback Power Supply

MAXREFDES111

This isolated, 24V to 5V, 2W, flyback power supply design delivers 79% peak efficiency and provides up to 400mA at 5V output. Multiple transformers have been pre-qualified to transformer selection.

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4-Port IO-Link Master

MAXREFDES79

4-Port IO-Link Master Reference Design Description: Four IO-Link ports allow for simultaneous testing of four different sensors or actuators.

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双通道电流检测外设模块

MAXREFDES77

兼容Pmod™、高精度电流检测模块,理想用于多通道、多路复用数据采集系统。

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Non-isolated 5V/2.5A PoE Powered Device Power Supply

MAXREFDES98

This non-isolated PoE powered device design combines a PD controller and buck converter on a 1.2 in2 board. It accepts 36V to 57V input with 5V output up to 2.5A.

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Power Amplifier Biasing through MAX11300 PIXI IC

MAXREFDES39

This design uses a MAX11300 programmable mixed-signal I/O (PIXI™), to bias and monitor a power amplifier for an RF base station.

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SHA-256 Secure Authentication Design

MAXREFDES34 (Alcatraz)

This design implements SHA-256 authentication function using the 1-Wire protocol.

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心率和脉搏血氧监测器

MAXREFDES117

该参考设计是一款低功耗、光学心率模块,集成红光和红外(IR) LED以及电源。

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智能压力传感器

MAXREFDES82

该参考设计安装有四个负载单元,采用多通道、24位模/数转换器(ADC), 来检测平板上的物体重量和重心。

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3.3V and 5V PoE Powered Device

MAXREFDES31 (Pasadena)

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.

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IO-Link® 16 Channel Digital Input Hub

MAXREFDES36

This IO-Link® 16-channel digital input reference design includes a 16-bit micro with IO-Link device stack and fits on a small 53.75mm x 72mm PCB.

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Provide a Safe Power Path from the Car Battery to Remote Cameras

 

Provide a Safe Power Path from the Car Battery to Remote Cameras
Transmission of power and data on long coaxial cable bundles requires protection from various short-circuit modes (STG, STB). Remote cameras are small and require space- and power-efficient solutions. The MAX20039 buck-boost converter is an effective supply for power-over-coax. The MAX20087 quad power camera pro­tector is a compact, efficient protection IC. The dual MAX20019 cascade buck converter configuration delivers high efficiency in a small space. This triplet of ADAS ICs effectively provides power and protection to the path from the car battery to the remote cameras.

Featured parts: MAX20039, MAX20040, MAX20087, MAX20019
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Monthly Call August 2019 Comm and IO Link

Monthly Call August 2019 Comm and IO Link

Monthly Technical Training August 2019 CPG Update lr 2

Monthly Technical Training August 2019 CPG Update lr 2

How to Efficiently Power Your Smart Gas/Water Meter

 

How to Efficiently Power Your Smart Gas/Water Meter
Smart meters operate for 10 to 20 years of time remotely and untethered, relying on powerful non-rechargeable lithium-thionyl-chloride batteries. They present a complex power-management design problem with energy sources that include batteries and supercapacitors. In this design solution, we discussed the challenges of powering a smart-meter wireless RF power amplifier. The solution is based on the MAX8815A, an efficient, low shutdown current and compact boost converter, which delivers the required peak current with the help of a supercapacitor.

Featured part: MAX8815A
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开关转换器建模和实验室测量的精度比较?

 

开关转换器建模和实验室测量的精度比较?
Maxim的开关转换器模型和仿真受限于典型值,而更完整的最终设计构思要求我们考虑模型无法顾及的硅变化。在我们的研究中,电容或电感变化等非理想因子对压降的贡献为+/- 10mV (3.3V标称值的0.3%),说明在仿真期间需要考虑可预期的物理元件变化。

精选器件:MAX17242, MAX17242EVKIT,
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Introduction to the MAX40077 MAX40078 MAX40089 Single/Dual/Quad Ultra-Low Input Bias Current, Low Noise Amplifiers

This video provides an introduction to the MAX40077/MAX40078/MAX40089 are wide band, low-noise, low-input bias current operational amplifiers that offer rail-to-rail outputs and single-supply operation from 2.7V to 5.5V.

Introduction to the MAX40242 20V, Low Input Bias-Current, Low-Noise, Dual Op Amplifier

This video provides an introduction to the MAX40242 which provides a combination of high voltage, low noise, low input bias current in a dual channel and features rail-to-rail at the output.

为可穿戴设备的微控制器提供高质量休眠时间

 

为可穿戴设备的微控制器提供高质量休眠时间
The MAX31341B为实时时钟IC,有助于延长便携式设备在不使用时的电池寿命。通过将微控制器从计时任务中解放出来,使其甚至能够处于更低功耗的深度休眠模式。

精选器件:MAX31341B
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[Distributor] 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.

[Internal] 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.

[Internal] 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.

[Distributor] 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.

[Internal] Introduction to the MAX17630 and MAX17631 4.5V to 36V, 1A and 1.5A, High-Efficiency, Synchronous Step-Down DC-DC Converters

This video provides an introduction to Maxim's high-efficiency, high-voltage, synchronous step-down DC-DC converter with integrated MOSFETs - the MAX17630 and MAX17631.

[Distributor] Introduction to the MAX17630 and MAX17631 4.5V to 36V, 1A and 1.5A, High-Efficiency, Synchronous Step-Down DC-DC Converters

This video provides an introduction to Maxim's high-efficiency, high-voltage, synchronous step-down DC-DC converter with integrated MOSFETs - the MAX17630 and MAX17631.

[Internal] Introduction to the MAX14430-36 Fast Low Power Digital Isolators

This video provides an introduction to the MAX14430-36, four-channel, fast, low-power, 5kV(RMS) digital isolators.

[Distributor] Introduction to the MAX14430-36 Fast Low Power Digital Isolators

This video provides an introduction to the MAX14430-36, four-channel, fast, low-power, 5kV(RMS) digital isolators.

Introduction to the MAX17301 and MAX17311: 1-Cell ModelGauge m5 EZ Fuel Gauge with 2-Level Protector and SHA-256 Authentication

This video provides an introduction to Maxim’s 1-Cell ModelGauge m5 EZ Fuel Gauge with 2-Level Protector and SHA-256 Authentication—the MAX17301 and MAX17311.

Introduction to the DS28C40 Deep Cover Automotive I2C Authenticator

This video provides an introduction to Maxim’s Secure Authenticator for Automotive – the DS28C40.

Introduction to the MAXM15062-63-64-65-66-67-MAXM15462-63-64-65-66-67-MAXM17901-03-04-05-06 4.5V to 24V, 42V, 60V 300mA Himalaya uSLIC™ Step-Down Power Modules

This video provides an introduction to Maxim’s 300mA Himalaya uSLIC step-down power modules.

Introduction to the MAX31341B Low-Current, Real-Time Clock with I2C Interface and Power Management

This video provides an introduction to Maxim’s Low-Current, Real-Time Clock with I2C Interface and Power Management – the MAX31341B.

Introduction to the MAX17302 MAX17312 1-Cell ModelGauge m5 EZ Fuel Gauge with Protector and SHA-256 Authentication

This video provides an introduction to the MAX17302/MAX17312, a 24μA IQ stand-alone pack-side fuel gauge IC with protector and SHA-256 authentication for 1-cell lithium-ion/polymer batteries.

[Internal] Introduction to the MAX32570 Low Power ARM Cortex-M4 Microcontroller for Secure Applications

This video provides an introduction to Maxim's Low Power ARM Cortex-M4 Microcontroller for Secure Applications - the MAX32570.

[Distributor] Introduction to the MAX32570 Low Power ARM Cortex-M4 Microcontroller for Secure Applications

This video provides an introduction to Maxim's Low Power ARM Cortex-M4 Microcontroller for Secure Applications - the MAX32570.

 

[Distributor] Technical Training Basic 2019 Power Protection

"Technical Basic Training course presenting the basic of what system protection is, why it is needed, and the current challenges for system engineer trying to implement full system protection. This is a newer version of a previous one"

[Sales Rep] Technical Training Basic 2019 Power Protection

"Technical Basic Training course presenting the basic of what system protection is, why it is needed, and the current challenges for system engineer trying to implement full system protection. This is a newer version of a previous one"

[Internal] Technical Training Basic 2019 Power Protection

"Technical Basic Training course presenting the basic of what system protection is, why it is needed, and the current challenges for system engineer trying to implement full system protection. This is a newer version of a previous one"

[Distributor] Technical Training Basic 2019 - Offset and Gain Error

Technical Basic Training course presenting the causes of Offset and Gain Errors in operational amplifiers and other devices in a typical signal chain and how to mitigate these errors through calibration.

[Sales Rep] Technical Training Basic 2019 - Offset and Gain Error

Technical Basic Training course presenting the causes of Offset and Gain Errors in operational amplifiers and other devices in a typical signal chain and how to mitigate these errors through calibration.

[Distributor] Technical Training Basic 2019 ESD Tutorial

Technical Basic Training course presenting an overview of Electrostatic Discharge and how to protect the integrated circuits from that phenomenon.

[Sales Rep] Technical Training Basic 2019 ESD Tutorial

Technical Basic Training course presenting an overview of Electrostatic Discharge and how to protect the integrated circuits from that phenomenon.

[Distributor] Technical Training Basic 2019 - Frequency Synthesizer

Training course presenting an overview of Frequency Synthesizer using Phase Locked Loop method.

[Sales Rep] Technical Training Basic 2019 - Frequency Synthesizer

Training course presenting an overview of Frequency Synthesizer using Phase Locked Loop method.

[Internal] Monthly Call - June 2019 - Audio Solutions

This is a self-paced video course based on the recording of a webinar session arranged by Kate Shamberger and Duc Ngo about Maxim Mobilty BU and focus on Audio Solutions. Audio Class-D speaker amplifiers are depected with MAX98357, MAX98360...

[Internal] Monthly Technical Call July 2019 - HSDC

TTS organized monthly BU technical products and solutions updates. This session is specifically about Maxim high speed data converters. Presentation is made by Seema Venkatesh from the group Timing and Datacom inside the Maxim CPG BU. High speed DAC with speed up to 1.5Gsps and RFDAC up to 4.9Gsps high speed ADC.

[Internal] Cloud and Data Center - PMBus System Overview June2019

"CDC Business unit gives an overview about Maxim approach for intelligent integrated Power supply sequencing for complex PS system for FPGA. Speech is given by Anubhav Sinha. Items covered include : Power Supply Control, Sequencing, Margin, Power Supply Monitoring, Voltage Monitoring, Current Monitoring, Thermal Monitoring with local Temp Sensor and Interface to External Temp Sensors and Fault Detection and Logging with Store system fault history Industry Standard Interface. Focus products are MAX34460, MAX34461, MAX34463, MAX34451"

[Internal] USBC training part 2 - Monday 24 June 2019

"This is the second part of the Maxim USB-C charger solutions introduction with highlights on the current market and technical status on USB charging and what Maxim is doing in this area. Maxim solutions and suitable parts are shown with their key characteristics and features"

[Internal] USBC training part 1 - Monday 3 June 2019

"This is the first part of the Maxim USB-C charger solutions introduction with highlights on the current market and technical sttaus on USB charging and what Maxim is doing in this area. USB terminologies and basic standards about connectors and cables in use are also highlighted"

[Internal] RTM Call 24May2019

Monthly call for Distri and maxim field on latest Release to Market products. Recently or close to be released products are announced and promoted with main features and comparisons versus competition. In this May 2019 session, matters presented by Chrsitian Gruber include keyPAD tool updates,industrial power in SMPS, LDO, cable and RF products in ISM bands, PA linearizer, mobile charger, USB-C charger, OVP protection, fuel gauge, isolator, PMIC, IO-Link, data security and authenticator

[Internal] Maxim Q2 CY19 New Products Updates Call

This is a regular skype presenttaion dedicated for EMEA Distribution field. Information about the latest new released products are promoted with key specifications and advantages versus competition. A short hifgglight on maxim organization is also made. One will find mainly CPG products including Power, RF, signal path, interface circuits with collaterals like evkit, keyPAD active bloc diagram, documentation and useful contacts in Maxim

[Distributor] Technical Training Basic 2019 Understanding DAC Specifications

Technical Basic Training course explaining the key specifications of Digital to Analog converters.

[Sales Rep] Technical Training Basic 2019 Understanding DAC Specifications

Technical Basic Training course explaining the key specifications of Digital to Analog converters.

[Internal] What is ASIL and how Core Automotive can help achieve ASIL - Simplified version

TTS Monthly call recording converted into MaximU with quiz. Content is about achieving functional safety with core automotive products. The presentation is made by Veronique Rozan in June 2018. Content is made in 4 chapters : 1 on ISO26262, 2 on Maxim positioning, 3 on defining ASIL requirements and 4 on achieving ASIL B,C or D

[Internal] USB-C Charger Part 3 - only for Maxim

"This is the third part of a serie of 3 courses dedicated to Maxim USB-C charging solution. The third part is for Maxim people only. The presentation include roadmap and confidential info. The items include :USB-C PD Controller MAX77958: USB-C PD Controller with D+/D- mux, moisture detection, and corrosion prevention (sampling now) 1S Buck Charger MAX77860: 14Vin/3Aout Buck Charger with CC Detection for 1S Batteries (MP) MAX77818: 13.4Vin/3Aout Buck Charger with Fuel Gauge for 1S Batteries (MP) MAX77975_76: 19Vin/3.5/5.5Aout 1S Li+ Buck Charger with PowerPath (samples in Nov 2019) MAX77751: 14Vin/3Aout 1S Li+ Buck Charger with PowerPath (samples in Aug 2019) 2S/3S Buck-Boost Charger and Converter MAX77960/1: 24Vin, 6A/3Aout Buck-Boost Charger for 2S-3S Li+ Batteries (sampling now) MAX77930/1: 24Vin, 6A/3Aout Buck-Boost DC-DC Converter (sampling now) 2S to 1S Converter MAX77932: 8Aout Switched Capacitor Converter (sampling now) Wide Vin, Low Iq Buck Converter MAX77596: 24V, 300mA, Buck Converter with 1.1μA Iq (MP)"

Introduction to the MAX20039-40 2V to 36V, 2.1MHz, 0.6A/1.2A Automotive Buck Boost Converters

This video provides an introduction to Maxim's 2V to 36V, 2.1MHz, 0.6A/1.2A Automotive Buck Boost Converters - the MAX20039-40.

[Internal] Curriculum on AMADIS Agnos

"Set of 3 self-paced training videos generated by AMADIS for Maxim field people (Sales and FAEs) to be informed about AMADIS activities and products overview in the first course, followed by a second part more dedicated on Agnos Sales strategy with promotion, support and arguments information in front of future customers involved in payment systems "

[Internal] AMADIS training part 2 of 2 - Agnos Sales Strategy

This is the second part of the AMADIS - Agnos activity and products overview. The first part was an intro to AMADIS company and Agnos products and its features. This second part of the training is focus on Agnos Sales Strategy and give highlights to Maxim field on arguments to promote and sell the Agnos sofware prodcuts as an extension of Maxim hardware solutions.

[Internal] AMADIS Agnos product Overview May 2019

Short high level overview on Agnos product from Amadis. It is a hardware agnostic software that can be promoted to customers involved in financial transaction applications. Agnos is well suited for modern payment systems involving EMV certification and implementation. This is the first part of the AMADIS overview training

[Internal] CDC Strategic and Roadmap Jan2019

CDC Strategic and Roadmap Jan2019 presented by Achyut. Activities of the BU are highlighted with focus area and expectations

[Internal] Course 2 Star Products and KeyPAD updates June July 2018

Monthly call recording dedicated to Maxim Star products promotion and KeyPAD update on June-July 2018. Content covers multi-sockets design-in with focus aboutr end equipments Home Security sensing, medival Dialysis, data acquisition system and to products Delta-sigma ADC (MAX11261)

[Sales Rep] Technical Training - Basic Curriculum 2019

This curriculum contains six courses: DAC Specifications, Frequency Synthesizers, ESD, Power Protection, NFC/RFID, Signal Chain Offset and Gain Errors

[Distributor] Technical Training - Basic Curriculum 2019

This curriculum contains six courses: DAC Specifications, Frequency Synthesizers, ESD, Power Protection, NFC/RFID, Signal Chain Offset and Gain Errors

[Internal] BU Strategy Roadmap FY19 - IH and CDC

BU strategic overview and roadmap on current solutions and parts and on coming products. As decided in last FAE Council, there are a serie of webinars scheduled quarterly where every BU come to present in the calls. This one of nearly 2 hours is dedicated for the business units Industrial-and-Healthcare and CDC.

Introduction to the MAX20026 MAX20026S Automotive Quad, Low-Voltage Step-Down DC-DC converters with Low-Noise LDO

This video provides an introduction to Maxim's Automotive Quad, Low-Voltage Step-Down DC-DC converters with Low-Noise LDO - the MAX20026 and MAX20026S.

[Internal] Technical Training Basic 2019 - Offset and Gain Error

Technical Basic Training course presenting the causes of Offset and Gain Errors in operational amplifiers and other devices in a typical signal chain and how to mitigate these errors through calibration.

[Internal] Technical Training - Basic Curriculum 2019

This curriculum contains six courses: DAC Specifications, Frequency Synthesizers, ESD, Power Protection, NFC/RFID, Signal Chain Offset and Gain Errors

[Internal] Maxim Experts Program - Basic Curriculum (2016)

Maxim Expert Program - Advanced Curriculum containing six courses: EE-Sim DC-DC Tool Overview, Real Time Clocks, RF & Wireless, Secure Authentication, Temperature Sensors, Thermal Management.

[Distributor] Maxim Experts Program - Advanced Curriculum (2016)

Maxim Expert Program - Advanced Curriculum containing six courses: EE-Sim DC-DC Tool Overview, Real Time Clocks, RF & Wireless, Secure Authentication, Temperature Sensors, Thermal Management.

How to Use the MAX31342SHLD Evaluation Kit

Tawni sets up the MAX31342SHLD, which evaluates the MAX31342 low-current real-time clock (RTC). She walks through the GUI and shows some of the MAX31342SHLD’s features, including real-time monitoring and low timekeeping current.

Learn more: MAX31342SHLD ›

How to Use a Flyback Converter to Achieve Isolated Voltage Level Shifting

Teja explains how to translate a single-ended voltage at the input to a bipolar voltage at the output using an isolated flyback converter. He goes over the importance of isolation in a circuit and the circuit elements that can be used for isolation. He finishes with a demonstration of how to use the MAXREFDES1141 and the MAXREFDES1132 to achieve isolated voltage-level shifting.

Learn more: MAXREFDES1141 ›
Learn more: MAXREFDES1132 ›

How to Update the Firmware on the MAXREFDES101 Health Sensor Platform 2.0

Sankalp explains how to easily update the firmware on the MAXREFDES101 Health Sensor Platform 2.0 to quickly start programming the onboard electrocardiogram (ECG), photoplethysmography (PPG), and human body temperature sensors.

Learn more: MAXREFDES101 ›

How to Safely Demagnetize Your Inductive Load Using SafeDemag

Travis and Cynthia show how to use SafeDemag™ to safely and quickly demagnetize your inductor when using switching inductive loads. They explain inductive switching and the differences in freewheel diodes, zener clamps, active clamps, and Maxim’s SafeDemag solutions.

Learn more: MAX14912EVKIT ›

Introduction to the MAX38904A/B/C/D 2A Low Noise LDO Linear Regulator in TDFN

This video provides an introduction to Maxim's Low Noise LDO Linear Regulator in TDFN - the MAX38904A MAX38904B MAX38904C MAX38904D.

Introduction to the MAX30208 Low-Power, High-Accuracy Digital Temp Sensor

This video provides an introduction to Maxim’s low-power, high-accuracy digital temp sensor – the MAX30208.

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.

Introduction to the MAX17303 MAX17313 1-Cell ModelGauge m5 EZ Fuel Gauge with Protector

This video provides an introduction to Maxim's 1-Cell ModelGauge m5 EZ Fuel Gauge with Protector - the MAX17303 and MAX17313.

Introduction to the MAX20029 MAX20029B MAX20029C Automotive Quad/Triple Low Voltage Step-Down DC-DC converters

This video provides an introduction to the MAX20029/MAX20029B/MAX20029C power-management ICs (PMICs) which integrate four low-voltage, high-efficiency, step-down DC-DC converters.

[Distributor] 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.

[Internal] 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.

[Distributor] 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.

[Internal] 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.

[Distributor] Introduction to the MAX38907 MAX38908 MAX38909 2A/4A High Performance LDO Linear Regulator

This video provides an introduction to Maxim's 2A/4A High Performance LDO Linear Regulator - the MAX38908 product family.

[Internal] Introduction to the MAX38907 MAX38908 MAX38909 2A/4A High Performance LDO Linear Regulator

This video provides an introduction to Maxim's 2A/4A High Performance LDO Linear Regulator - the MAX38908 product family.

[Internal] 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.

[Distributor] 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.

[Internal] 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.

[Distributor] 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.

[Internal] Introduction to the MAX40660 MAX40661 Transimpedance Amplifier With Low Power Mode for LiDAR Applications

This video provides an introduction to Maxim's Transimpedance Amplifier With Low Power Mode for LiDAR Applications - the MAX40660 MAX40661.

[Distributor] Introduction to the MAX40660 MAX40661 Transimpedance Amplifier With Low Power Mode for LiDAR Applications

This video provides an introduction to Maxim's Transimpedance Amplifier With Low Power Mode for LiDAR Applications - the MAX40660 MAX40661.

[Distributor] Introduction to the MAX16813B Integrated 4-Channel LED Driver

This video provides an introduction to the MAX16813B, an integrated, 4-channel, high-brightness LED driver with high-voltage DC-DC controller and battery disconnect, which provides highest efficiency and complete fault protection with the lowest external component count.

[Internal] Introduction to the MAX16813B Integrated 4-Channel LED Driver

This video provides an introduction to the MAX16813B, an integrated, 4-channel, high-brightness LED driver with high-voltage DC-DC controller and battery disconnect, which provides highest efficiency and complete fault protection with the lowest external component count.

[Internal] Introduction to the MAX32520 ChipDNA™ Secure Arm Cortex M4 Microcontroller with SP800-90A/B TRNG

This video provides an introduction to Maxim's ChipDNA™ Secure Arm Cortex M4 Microcontroller with SP800-90A/B TRNG - the MAX32520.

[Distributor] Introduction to the MAX32520 ChipDNA™ Secure Arm Cortex M4 Microcontroller with SP800-90A/B TRNG

This video provides an introduction to Maxim's ChipDNA™ Secure Arm Cortex M4 Microcontroller with SP800-90A/B TRNG - the MAX32520.

[Internal] Introduction to the MAX77752 Multipurpose Multi-Channel Integrated Power Management IC

This video provides an introduction to the MAX77752, multipurpose, multi-channel, integrated power management IC.

[Internal] 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.

Power Protection Fundamentals

In an imperfect world, unpredictable things can happen such as power surges resulting in failing components. System protection strategies help solve these fault problems and preserve system integrity. Learn some tricks of the trade to solve power protection problems before they even occur.

Learn More: Protection and Control ›

[Distributor] Introduction to the MAX25611A MAX25611B MAX25611C MAX25611D Automotive High-Voltage HB LED Controller

This video provides an introduction to Maxim’s Simple Automotive High-Voltage HB LED Controller – the MAX25611.

[Internal] Introduction to the MAX25611A MAX25611B MAX25611C MAX25611D Automotive High-Voltage HB LED Controller

This video provides an introduction to Maxim’s Simple Automotive High-Voltage HB LED Controller – the MAX25611.

[Distributor] Introduction to the MAX77932 8A Dual-Phase Switched Capacitor Converter with Integrated Protection

This video provides an introduction to Maxim’s 8A Dual-Phase Switched Capacitor Converter with Integrated Protection – the MAX77932.

[Internal] Introduction to the MAX77932 8A Dual-Phase Switched Capacitor Converter with Integrated Protection

This video provides an introduction to Maxim’s 8A Dual-Phase Switched Capacitor Converter with Integrated Protection – the MAX77932.

[Internal] Introduction to the MAX14748 USB Type-C Charger

This video provides an introduction to the MAX14748, a USB Type-C Charger.

[Distributor] Introduction to the DS28E50 DeepCover Secure SHA-3 Authenticator with ChipDNA PUF Protection

The DS28E50 is an ECDSA public key-based secure authenticator that incorporates Maxim’s patented ChipDNA™ PUF technology. ChipDNA technology involves a physically unclonable function (PUF) that enables the DS28E50 to deliver cost-effective protection against invasive physical attacks.

[Distributor] Introduction to the MAX31342 Low Current Real Time Clock with I2C Interface

This video provides an introduction to the MAX31342 low-current, real-time clock (RTC) is a time-keeping device that provides an extremely low timekeeping current, permitting longer life from a power supply.

Introduction to the MAX31342 Low Current Real Time Clock with I2C Interface

This video provides an introduction to the MAX31342 low-current, real-time clock (RTC) is a time-keeping device that provides an extremely low timekeeping current, permitting longer life from a power supply.

[Internal] Introduction to the MAX31342 Low Current Real Time Clock with I2C Interface

This video provides an introduction to the MAX31342 low-current, real-time clock (RTC) is a time-keeping device that provides an extremely low timekeeping current, permitting longer life from a power supply.

[Internal] Introduction to the MAX16136 1% Accuracy UV/OV Voltage Monitor with Windowed WD and OV in Tiny 2 x 2 TDFN

This video provides an introduction to Maxim’s 1% Accuracy UV/OV Voltage Monitor with Windowed WD, MR and OV in Tiny 2x2 TDFN – the MAX16136.

[Distributor] Introduction to the MAX16136 1% Accuracy UV/OV Voltage Monitor with Windowed WD and OV in Tiny 2 x 2 TDFN

This video provides an introduction to Maxim’s 1% Accuracy UV/OV Voltage Monitor with Windowed WD, MR and OV in Tiny 2x2 TDFN – the MAX16136.

[Distributor] 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

[Internal] 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

[Distributor] Introduction to the MAX6078A Low-Power, Low-Drift and Low-Noise Voltage Reference

This video provides an introduction to Maxim’s Low-Power, Low-Drift and Low-Noise Voltage Reference the MAX6078A and MAX6078B

[Internal] Introduction to the MAX6078A Low-Power, Low-Drift and Low-Noise Voltage Reference

This video provides an introduction to Maxim’s Low-Power, Low-Drift and Low-Noise Voltage Reference the MAX6078A and MAX6078B

[Distributor] Introduction to the MAX16160 High Accuracy Quad, Any-Input Voltage Monitor and Reset

This video provides an introduction to Maxim's High Accuracy Quad, Any-Input Voltage Monitor and Reset - the MAX16160.

[Internal] Introduction to the MAX16160 High Accuracy Quad, Any-Input Voltage Monitor and Reset

This video provides an introduction to Maxim's High Accuracy Quad, Any-Input Voltage Monitor and Reset - the MAX16160.

[Internal] Introduction to the MAXM17633 MAXM17634 MAXM17635 4.5V to 36V, 2A Himalaya uSLIC Step-Down Power Modules

This video provides an introduction to Maxim’s 4.5V to 36V, 1A High Efficiency, Synchronous DC-DC Step-Down uSLIC Power modules – the MAX17633/4/5.

[Distributor] Introduction to the MAXM17633 MAXM17634 MAXM17635 4.5V to 36V, 2A Himalaya uSLIC Step-Down Power Modules

This video provides an introduction to Maxim’s 4.5V to 36V, 1A High Efficiency, Synchronous DC-DC Step-Down uSLIC Power modules – the MAX17633/4/5.

[Internal] Introduction to the MAXM17536 MAXM17537 4.5V to 60V, 4A Himalaya Step-Down Power Modules

This video provides an introduction to Maxim’s 4.5V to 42V, 5.0A High Efficiency, DC-DC Step-Down Power Module with Integrated Inductor – the MAXM17536/7

[Distributor] Introduction to the MAXM17536 MAXM17537 4.5V to 60V, 4A Himalaya Step-Down Power Modules

This video provides an introduction to Maxim’s 4.5V to 42V, 5.0A High Efficiency, DC-DC Step-Down Power Module with Integrated Inductor – the MAXM17536/7

[Internal] Introduction to the MAXM17630 MAXM17631 MAXM17632 4.5V to 36V, 1A Himalaya uSLIC Step-Down Power Modules

This video provides an introduction to Maxim’s 4.5V to 36V, 1A High Efficiency, Synchronous DC-DC Step-Down uSLIC Power modules – the MAXM17630/1/2.

[Distributor] Introduction to the MAXM17630 MAXM17631 MAXM17632 4.5V to 36V, 1A Himalaya uSLIC Step-Down Power Modules

This video provides an introduction to Maxim’s 4.5V to 36V, 1A High Efficiency, Synchronous DC-DC Step-Down uSLIC Power modules – the MAXM17630/1/2.

[Distributor] Introduction to the MAX49017 Micropower Dual Automotive Comparator with Built-In Reference in Small 2x2 TDFN

This video provides an introduction to Maxim’s Nanopower Dual Automotive Comparator with Built-In Reference in Small 2x2 TDFN – the MAX49017.

[Internal] Introduction to the MAX49017 Micropower Dual Automotive Comparator with Built-In Reference in Small 2x2 TDFN

This video provides an introduction to Maxim’s Nanopower Dual Automotive Comparator with Built-In Reference in Small 2x2 TDFN – the MAX49017.

Micro Speaker 101

Michael explains the similarities between a micro speaker and a standard speaker, and describes its three main components - the diaphragm, coil, and magnet. He then tears down a micro speaker to show the various parts of the device including its speaker driver.
Learn more: Dynamic Speaker Management ›

What is DSM and How Does It Work?

Greg explains how Dynamic Speaker Management (DSM) Smart Amplifier technology can overdrive micro speakers safely and reliably, delivering 2.5x greater loudness and deeper bass response. Michael then demonstrates how a DSM-enabled micro speaker responds to lower frequencies and provides protection against overtemperature and over excursion using the DSM Sound Studio’s Tuning feature.
Learn more: Dynamic Speaker Management ›

Is DSM a Fit for My System?

Greg presents an overview of the speakers best suited for DSM. In this video, he explains how DSM works with the three most common types of micro speaker configurations: a speaker driver in a sealed enclosure, a bare driver, and a ported speaker.
Learn more:Dynamic Speaker Management ›

 

HSP(2) - 如何下载固件程序到MAXRFEDES100#Hsensor平台

本视频主要介绍了如何将自己的固件程序下载到MAXREFDES100# Hsensor平台上,并且利用HSP平台开发自己的项目

Introduction to the MAX32665 MAX32666 MAX32667 and MAX32668 Low Power ARM Cortex-M4 with FPU-Based Microcontroller w/ Bluetooth 5 for Wearables

This video provides an introduction to the MAX32665-MAX32668 UB class microcontroller, which is an advanced system-on-chip featuring an Arm® Cortex®-M4 with FPU CPU for efficient computation of complex functions & algorithms.

How to Set Up the MAXREFDES117 Heart-Rate and Pulse-Oximetry Monitor with an Arduino Board

Ben demonstrates how to use the MAXREFDES117 heart-rate and pulse-oximetry reference design with an Arduino® microcontroller to read heart-rate signals and monitor SpO2 levels. He also demonstrates some common issues and how to resolve them.

Lean More: MAXREFDES117 ›

How to Get Started Logging Temperature with DS1925 iButton Temperature Data Logger

Venkatesh explains how to use the DS1925 iButton® Thermocron® data logger with Maxim’s OneWireViewer software to quickly and easily log temperature data. He also explains how the DS1925 differs from Maxim’s other temperature logger, the DS1922.

Learn More: DS1925 ›

How to Get Started Using the EE-SIM OASIS Simulation Tool to Accurately Simulate Your Circuit Designs

Learn how to simulate a switching power circuit using the EE-Sim® OASIS Tool. Built on the SIMPLIS® simulation engine, the OASIS simulator for switched-mode power ICs provides over 150 power reference designs, which are ready to copy, modify, and simulate.

Learn More: EE-SIM OASIS ›

[Internal] Introduction to the MAX15158Z High Voltage Multiphase Boost Controller

This video provides an introduction to Maxim’s High Voltage Multiphase Boost Controller– the MAX15158Z.

[Distributor] Introduction to the MAX15158Z High Voltage Multiphase Boost Controller

This video provides an introduction to Maxim’s High Voltage Multiphase Boost Controller– the MAX15158Z.

[Internal] Introduction to the MAX16550 MAX16551 MAX16550A Integrated Protection ICs on 12V Bus with an Integrated MOSFET, Lossless Current Sensing, and PMBus Interface

This video provides an introduction to Maxim’s protection solution for +12V power, up to 30 amps: the MAX16550 family of products.

[Distributor] Introduction to the MAX16550 MAX16551 MAX16550A Integrated Protection ICs on 12V Bus with an Integrated MOSFET, Lossless Current Sensing, and PMBus Interface

This video provides an introduction to Maxim’s protection solution for +12V power, up to 30 amps: the MAX16550 family of products.

[Internal] Introduction to the MAX16545B MAX16543 Integrated Protection IC on 12V Bus with an Integrated MOSFET, Lossless Current Sensing, and PMBus Interface

This video provides an introduction to Maxim’s protection solution for high-current +12V power: the MAX16545B/C and MAX16543.

[Distributor] Introduction to the MAX16545B MAX16543 Integrated Protection IC on 12V Bus with an Integrated MOSFET, Lossless Current Sensing, and PMBus Interface

This video provides an introduction to Maxim’s protection solution for high-current +12V power: the MAX16545B/C and MAX16543.

[Internal] Introduction to the MAX20006E MAX20008E 36V, 220kHz to 2.2MHz, 6A/8A Fully Integrated Step-Down Converters with 15µA Operating Current

This video provides an introduction to Maxim’s 36V, 220kHz to 2.2MHz, 6A/8A Fully Integrated Step-Down Converters with 15µA Operating Current – the MAX20006E and MAX20008E.

[Distributor] Introduction to the MAX20006E MAX20008E 36V, 220kHz to 2.2MHz, 6A/8A Fully Integrated Step-Down Converters with 15µA Operating Current

This video provides an introduction to Maxim’s 36V, 220kHz to 2.2MHz, 6A/8A Fully Integrated Step-Down Converters with 15µA Operating Current – the MAX20006E and MAX20008E.

[Distributor] Introduction to the MAX15093 MAX15093A 2.7V to 18V, 15A, Hot-Swap Solution with Current Report Output

This video provides an introduction to Maxim’s protection solution for 2.7V to 18V power, up to 15A amps: the MAX15093 and MAX15093A.

[Internal] Introduction to the MAX15093 MAX15093A 2.7V to 18V, 15A, Hot-Swap Solution with Current Report Output

This video provides an introduction to Maxim’s protection solution for 2.7V to 18V power, up to 15A amps: the MAX15093 and MAX15093A.

[Internal] Introduction to the MAX15095 MAX15095A MAX15095D 2.7V to 18V, 6.6A Integrated Hot-Swap/Electronic Circuit Breaker

This video provides an introduction to Maxim’s protection solution for 2.7V to 18V power, up to 6.6A amps: the MAX15095.

[Distributor] Introduction to the MAX15095 MAX15095A MAX15095D 2.7V to 18V, 6.6A Integrated Hot-Swap/Electronic Circuit Breaker

This video provides an introduction to Maxim’s protection solution for 2.7V to 18V power, up to 6.6A amps: the MAX15095.

Synchronous Buck and Buck-Boost LED Drivers/DC-DC Converters

MAX25610A/MAX25610B

Automotive-grade LED drivers with integrated MOSFETs and internal current sense drive up to 3A LED.

Learn more ›

Automotive High-Voltage, HB LED Controllers

MAX25611A/B/C/D

5V to 36V VIN, up to+65V boost output, support multiple configurations for front-end lighting and other LED applications.

Learn more ›

Synchronous 5V to 60V, 4-Switch Buck-Boost LED Driver Controller

MAX25600

Provides seamless transition between buck, buck-boost, and boost modes to drive wide range of LEDs with up to 95% efficiency.

Learn more ›

[Sales Rep] FAE Technology Workshop: IO-Link Smart Sensors (PRE-WORK)_

This session was developed as pre-work for the 2016 Tech Workshop and is a simple introduction to IO-Link. Discussed are: what is IO-Link and why it is used.

[Sales Rep] IP3 Demystified

This session discusses the IP3, a common specification in RF circuitry and components. The term is defined, locations within an RF circuit where it is significant are identified, then IP3 is described in terms of transfer functions. Note – the audio has dropped out of several of the last slides.

[Sales Rep] Technical Training, Basic 2018: Pulse Oximetry_

Technical training course presenting an overview of Pulse Oximetry, PPG and their applications.

[Sales Rep] Technical Training, Basic 2019: NFC and RFID

"Technical Basic Training course presenting an overview of Near Field Communication and RFID and their applications. "

[Sales Rep] FAE Technology Workshop: hSensor Platform, Industrial & Healthcare BU

"Originally designed for Field Applications Engineers courses in this series are generally suitable for participants with a minimum level of technical knowledge, although some may require a more advanced technical background. Generally, as a result of completing this training an individual will gain a deeper and more technical understanding of the Maxim product and technology covered, enabling more effective customer interactions and engagements. This is a recorded workshop from the “FAE Technology Workshop” held on March 7-10, 2016, at the Maxim SJHQ location. Here’s the trainer’s description: Hand's on session to evaluate the hSensor platform. The issuing BU is: Industrial & Healthcare. For content related questions, contact the trainer: John DiCristina. NOTE: If you attend the FAE Technology workshop in EMEA or APAC, this topic may be covered during the live training."

[Sales Rep] Technical Training - Basic Curriculum 2019 (Part 2)

This curriculum contains six courses: DAC Specifications, Frequency Synthesizers, ESD, Power Protection, NFC/RFID, Signal Chain Offset and Gain Errors

[Sales Rep] FAE Technology Workshop: Medical Terminology, Regulatory and Standards, Industrial & Healthcare BU

"Originally designed for Field Applications Engineers courses in this series are generally suitable for participants with a minimum level of technical knowledge, although some may require a more advanced technical background. Generally, as a result of completing this training an individual will gain a deeper and more technical understanding of the Maxim product and technology covered, enabling more effective customer interactions and engagements. This is a recorded workshop from the “FAE Technology Workshop” held on March 7-10, 2016, at the Maxim SJHQ location. Here’s the trainer’s description: Understand the commonly used medical terminology and regulations guiding our customer design cycles. The issuing BU is: Industrial & Healthcare. For content related questions, contact the trainer: Larry Skrenes. NOTE: If you attend the FAE Technology workshop in EMEA or APAC, this topic may be covered during the live training."

[Sales Rep] Analog Output Branch Training

This presentation is focused on industrial analog output devices and intended for distributors. Covered are: Where analog outputs are used and their applications, design approaches, solutions from competitors and reference designs/tools available.

[Sales Rep] Maxim Experts Program, Advanced Course: Secure Authentication (2)

Maxim Experts Program course presenting an overview of security authentication based on SHA-256 as well as ECDSA and their applications.

[Sales Rep] FAE Technology Workshop: Temperature Measurement (PRE-WORK)

Please pre-load this software before taking the FAE Technology Workshop: Temperature Measurement course.

[Sales Rep] 4-Channel Analog Output Campaign Training

Overview of the devices and support tools available in support of the 4-Channel Analog Output Campaign

[Sales Rep] 4-Channel Analog Output - Design Accelerator Kit (Mandarin)

This presentation focuses on the Analog Output Design Accelerator kit. Explains what an analog output is, where it is used and options available for designing an analog output module. Finally, it is shown how Maxim’s Design Accelerator kit makes it easy to demonstrate and evaluate Maxim’s solution.

[Sales Rep] Maxim Masters, Tokyo 2017: Presentations for courses S - Z.

This material contains PDF versions of the presentations from Maxim Masters, Tokyo 2017. Presentations for courses from S-Z. It also contains any installation files needed for each course. Ensure pop-up blockers are off to allow zip file to download.

[Sales Rep] RF Solutions Update - Sept 23 2016

Product update from the RF Solutions BU. Review of the business organization and broad product categories. The focus of this update is (1) Linearizers, (2) Macro Cell, (3) Multi-Market RF (MMRF) and (4) RF Amplifiers. Key markets for each of these product types are described. Products covered include: LNA, Power Detector, PLL/VCO, Synthesizer, PLL, Gain Block, VGA, Mixers, RF Linearizer, GNSS and Tuner.

[Sales Rep] LED Drivers Update

Product update on LED driver devices. Includes an explanation of LED driver functionality and operation, and target markets. Emphasis is on MR16 and PoE lighting applications..

[Sales Rep] FAE Technology Workshop: 4-Pair Power Over Ethernet, Cloud & Data BU

"Originally designed for Field Applications Engineers courses in this series are generally suitable for participants with a minimum level of technical knowledge, although some may require a more advanced technical background. Generally, as a result of completing this training an individual will gain a deeper and more technical understanding of the Maxim product and technology covered, enabling more effective customer interactions and engagements. This is a recorded workshop from the “FAE Technology Workshop” held on March 7-10, 2016, at the Maxim SJHQ location. Here’s the trainer’s description: An advanced look into the 4PPoE technologies to serve the emerging market for higher power via POE. The issuing BU is: Communication. For content related questions, contact the trainer: Gaoling Zou. NOTE: If you attend the FAE Technology workshop in EMEA or APAC, this topic may be covered during the live training."

[Sales Rep] Technical Training – Basic Curriculum 2018 (Part 1)

This curriculum contains four courses: Pulse Oximetry, RF Linearizers, NanoPower, Low Power Microcontrollers.

[Sales Rep] Technical Training, Basic 2018 Low Power Microcontrollers_

Technical training course discussing the basics of Low Power MicroControllers, development tools and MAX32660.

[Sales Rep] LED Driver Customer Presentation (Mandarin)

Overview of Maxim LED driver products. Focus is on devices for MR16 and AR111, POE lighting and DC Lighting. Discusses design challenges, competition, measuring efficiency and Maxim solution.