Сложная задача. Простое решение.
Улучшенный дизайн. Более эффективный для использования в автомобилях. С технологией A2B® компании ADI выполняются оба условия.

Будущее транспорта за автопилотом
Радары, лидары и инерциальные измерительные модули (IMU) производства ADI помогают создавать автономные транспортные средства с возможностью видеть и чувствовать мир вокруг них.
От защитной до превентивной системы безопасности – ADI предоставляет инновационные разработки.
ADI является основным технологическим партнером производителей автомобильных систем, помогающим им разрабатывать системы помощи водителю и системы автономного вождения следующего поколения.

Актуальные ресурсы по теме
Заметки разработчика
Технические статьи
- Новая The Wearable for Machine Health: Condition-Based Monitoring
- Self-Driving Cars—Are Power Systems up to the Task?
- Новая The Autonomous Industrial Revolution
- Battery Stack Monitor Maximizes Performance of Li-Ion Batteries in Hybrid and Electric Vehicles
- Driver Assistance to Driver Replacement: The Cognitive Vehicle Is Built Upon Foundational, High Integrity Sensor Data
- C2B: A New Car Camera Link for Automotive Applications
- Communications Equipment Makers Demand High Power Outputs and Small Solution Footprints
- Supply Clean Power with Ultralow Noise LDO Regulators
- Passing the Radiated Emissions Test: How to Eliminate Complex EMI Mitigation Techniques for Compact and Cost-Effective Isolated Designs
- Automotive Digital Isolators
- Avoiding the Hidden Costs of Isolation Design—How to Manage Project Risk with Next-Generation Solutions
- Navigating the road to Vision Zero
- Accurately Capture True Acceleration Data in On-Vehicle DVR Systems using a MEMS Accelerometer and the Adaptive Reference Method PDF
Журнал LT
Analog Dialogue
- Automotive Radar Sensors and Congested Radio Spectrum: An Urban Electronic Battlefield?
- Comprehensive Power Supply System Designs for Harsh Automotive Environments Consume Minimal Space, Preserve Battery Charge, Feature Low EMI
- Ask The Applications Engineer—40: Switch and Multiplexer Design Considerations for Hostile Environments
- Overcoming Constraints: Design a Precision Bipolar Power Supply on a Simple Buck Controller
- Single-supply In-amp for Automotive Applications
- Front-End Amplifier and RC Filter Design for a Precision SAR Analog-to-Digital Converter
- Compensating Amplifiers That Are Stable at Gain ≥ 10 to Operate at Lower Gains
- High-Temperature Electronics Pose Design and Reliability Challenges
- Making Batteries Last Longer with Fast, High-Precision SAR Analog-to-Digital-Converters
- Phase Accumulator for Direct Digital Synthesis Resolves to Within 0.7 Hz
- Automotive Sensor Detects Lamp and Indicator Failures Automatically
- System Demonstration Platform Facilitates Quick Prototyping and Evaluation
- Automotive USB Type-C Power Solution: 45 W, 2 MHz Buck-Boost Controller in a 1 Inch Square
- An Introduction to MEMS Vibration Monitoring
- Convert a Buck Regulator into a Smart LED Driver, Including Dimming
- Fingerprint Sensor and Blackfin Processor Enhance Biometric-Identification Equipment Design
- Low Dropout Regulators—Why the Choice of Bypass Capacitor Matters
- Cyclic Redundancy Checking Ensures Correct Data Communications
- Optimize High-Current Sensing Accuracy by Improving Pad Layout of Low-Value Shunt Resistors
- Minimizing Noise and Power Consumption in Automotive Audio Systems with SigmaDSP
- Diagnostic Technique Detects Open and Short Circuits in Wiring Harnesses
- Isolation in High-Voltage Battery Monitoring for Transportation Applications
- A Useful Role for the ADXL202 Dual-Axis Accelerometer in Speedometer-Independent Car-Navigation Systems
- Current Measurement in Solenoids for Automotive Control Systems
- Automobile Tail Lamp and Brake Lamp Controller
- Low-Cost Video Multiplexing Using High-Speed Amplifiers
- Use of Video Technology to Improve Automotive Safety Becomes More Feasible with Blackfin™ Processors
- Single, 2 MHz Buck-Boost Controller Drives Entire LED Headlight Cluster Meets CISPR 25 Class 5 EMI
- Electromagnetic Interference (EMI) Filtering Reduces Errors in Precision Analog Applications
- Digital Isolator Simplifies USB Isolation in Medical and Industrial Applications
- Accelerometers—Fantasy & Reality
- AD7879 Controller Enables Gesture Recognition on Resistive Touch Screens
- The Basics of MEMS IMU/Gyroscope Alignment
- Vehicle Tracking Systems: Anytime, Anywhere, Anyhow
- Reduced Integration Time Improves Accuracy in Dead Reckoning Navigation Systems
- Designing for Low Noise Feedback Control with MEMS Gyroscopes
Вебкаст
- Understanding Power System Management
- Knocking Down the Barriers to Autonomous Driving
- Explaining Phase Noise
- Overcoming Challenges in GaN Power Amplifier Implementations
- Using On-Off Keying, Digital Isolators in Harsh Environments
- Automotive Camera Connectivity using C2B Technology
- Silent Switcher Regulators: High Efficiency with Ultralow EMI
- The Hidden Cost of Your Isolated System Design
- Signal Chain Optimization for IoT Applications
- Sensors and How to Use Them
- Как читать техническое описание
- Архитектуры гальванической развязки для систем управления электродвигателями
Статьи по применению
- EE-402: Synchronous System Halt and Run on the ADSP-CM41x Processor (Rev. 1) PDF
- EE-392: Estimating Power for ADSP-SC58x/2158x SHARC+ Processors (Rev. 1) PDF
- EE-386: Using the Security Packet Engine to Protect Data (Rev. 1) PDF
- AN-1419: Использование ADUX1020 для распознавания жестов (Rev. 0) PDF
- EE-366: Secure Booting Guide for Blackfin+® and SHARC+® Processors (Rev. 2) PDF