Exclusive benefits for engineers: Unlock new video courses and win wonderful gifts!
Technological iteration is like a rocket. Only by continuous learning can we equip our thinking with new knowledge engines.
ADI is well aware that design complexity and technical standards are constantly improving, and continuous learning has become an important cornerstone of professional growth. To this end, ADI's technical resource sharing platform "ADI Think Tank" has specially planned the " Technology in the Brain, Prizes in Hand " event, aiming to share ADI's new resources and technologies with everyone, and thank every friend who is keen on learning and paying attention to ADI!
Activity 1: Learning to be polite
Event time: October 10th ~ October 31st
Watch any of the courses recommended in this article to get a chance to win a prize . (Please scroll down to see the course introduction)
Activity 2: Share and get gifts
Event time: October 10th ~ October 31st
Share this article on WeChat with a group chat of 100 or more engineers;
Save the screenshot of the successful sharing and scan the QR code below to upload;
After the event, we will review all screenshots and send the lottery link to users who meet the requirements.
Activity Notes
You can participate in 2 activities at the same time, and the prize draw links will be pushed at different times;
Please do not change your WeChat nickname or profile picture during the event, and keep following ADI Think Tank;
The lucky draw link will be pushed uniformly after the event ends;
All event gifts will be sent out 15 working days after the end of the lucky draw. The gift delivery address and contact information will be the information in [ADI Think Tank - Personal Heart] by default . Please ensure that the information is complete and accurate;
ADI reserves the right of final interpretation of the event.
Special recommendations for this event
Compared with traditional Si-MOSFET, GaN power devices have faster switching speeds and lower switching losses, but what are the challenges of driving and controlling GaN? What are the key parameters of GaN drivers and controllers? What are the advantages of ADI's GaN-related products? In addition to the power supply field, what other application markets does GaN have?
If you are interested in these issues, please watch this course~
TIA stands for Transimpedance Amplifier. Its essence is a controlled source circuit that converts current into voltage. This type of circuit is used in life science instruments, environmental monitoring, material composition analysis, optical communications and other fields to realize the function of the photoelectric conversion part.
The TIA circuit is a key circuit for photoelectric sensors to convert optical signals into electrical signals, and is generally placed in the first stage of the signal chain. The gain, bandwidth, and noise in the first stage circuit will have a significant impact on the subsequent circuits. Therefore, how to achieve the optimal design of the TIA circuit has become a top priority in this type of application.
ADI has specially designed a set of TIA circuit solutions to address the pain points of this type of circuits and meet customer needs for reference by engineers. This course introduces the applications and challenges of TIA circuits, circuit principle analysis, and solutions. We hope that this course can help you quickly complete TIA circuit design and product production.
DPSM reduces development time and allows designers to configure and manage the IC from a digital interface, speeding up troubleshooting/diagnostics.
This course starts with an introduction to DPSM and PMBus, analyzes how DPSM helps the system, and then focuses on ADI's current DPSM products and upcoming device series.
Welcome to watch the card~
This course contains 6 videos, which mainly introduce some precautions in ADC applications and new features of ADI ADC, such as the introduction of ADC noise spectral density and full power bandwidth parameters, as well as an introduction to the filter inside the ADC, including input protection during use, on-chip calibration and power saving techniques.
Welcome to watch the card~
The best simulators are developed by businesses that actually need them, not by software companies. LTspice is such a simulation software, and LTspice is free with the goal of helping everyone simulate ADI products with a better simulator than other simulators. The freely distributed version of LTspice is exactly the same as the version used internally for IC design. In no way is any version of LTspice artificially limited in its functionality.
This series of videos describes the basic functions, practical functions and instructions of LTspice, such as circuit modularization, Monte Carlo analysis, FFT analysis, Param instruction, Step instruction, Measure instruction, Waveform Arithmetic instruction, B function, circuit stability analysis, FRA instruction, E signal source and Laplace transform, Four instruction, etc. After understanding these functions and instructions, it will greatly simplify the simulation of the circuit, and you will appreciate the power of LTspice simulation software and the role of LTspice in the project in actual work. At the same time, examples are used to introduce the application of LTspice in amplifier circuit simulation.
I hope LTspice can become a good partner in your work!
Active filters built with amplifiers have many advantages over passive filters.
This video series starts with the basics of analog filters, then moves on to filter topologies and implementations, and then to an introduction to online design tools and examples. It also lists common filter problems, and finally briefly introduces the implementation of ADC on-chip filters and digital filters.
Welcome to watch~
Offset voltage is an important indicator reflecting the DC error voltage of an amplifier, and is also one of the key indicators that distinguish high-precision amplifiers from high-speed amplifiers.
The first half of this video series introduces offset voltage related indicators, various Trim processes, and the architecture and principles of various zero-drift amplifiers. The second half introduces common problems related to offset voltage.
IO-Link® is a standardized technology that enables traditional sensors to become smart sensors, making real-time configurable factory floors a reality. This course provides an overview of the history of IO-Link, the IO-Link standard, and how smart factory sensing applications use IO-Link.
After watching this course, you will learn the following:
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Common design challenges for industrial sensors and how to overcome them
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What is IO-Link Communication and How to Use IO-Link Communication in Industrial Applications
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How ADI's Precision Signal Chain Accelerates the Design of Industrial Sensing Solutions
As an innovation in the field of communications, T1L technology provides us with a more efficient and reliable way of data transmission. This course aims to deeply explore the latest developments in T1L technology and show how ADI applies this technology to its product design, thereby driving the entire industry forward.
This course will be divided into 4 parts:
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T1L Technology Introduction: We will introduce the basics of T1L technology, including its working principle, main features and application prospects in the industry.
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T1L Hardware Design: This section will detail the hardware design of ADI's T1L product line. We will explore the power supply, communication interface design considerations.
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T1L Software Design: Software design is crucial to the performance of T1L products. We will discuss how to use the drivers of our products and briefly introduce some basic knowledge about networks.
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Development board demo: Finally, we will demonstrate the interaction and functionality of the T1L product in a network environment through an actual HTTP page demonstration.
ADI's Trinamic motor and motion control products convert digital information into precise physical movement, enabling Industry 4.0-level performance in applications such as advanced robotics, automation, medical prosthetics, 3D printing, and more.
In this course, we introduced Trinamic's core technologies, including advanced motion control algorithms, high-performance motor driver chips, and intelligent motion control systems. We will also demonstrate Trinamic's FOC controller and how to use TMCL-IDE to perform simple automatic PI-Tuning work in closed-loop control. In addition, we will introduce the complete debugging development tools and resources provided by Trinamic.
This course introduces ADI's edge AI technology, namely ADI's dual-core low-power dual-core microcontroller MAX7800X series with edge AI accelerator, and introduces the application of this product in industry, consumer and other fields.
In addition, ADI's general-purpose microcontroller products were also shared, and the features and performance of these products were introduced in combination with application cases. Welcome to learn more~
This course will help you understand how to apply advanced logistics and retail technologies to point-of-sale (POS) systems and how to apply ADI security technologies to meet the latest EVM/PCI POS certification standards.
This course will discuss the advanced cryptographic algorithms and advanced physical diagnostics techniques needed to protect against financial tampering and security threats, and introduce how ADI can help you complete the complete certification process from evaluation to development to certification.
In this course you will learn:
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POS certification standards and how ADI technology meets SOA requirements;
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Market trends of counterfeit batteries and their impact on the industry;
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The complete signal chain products and value that ADI provides for POS systems.
This course explores solutions to problems such as battery wear, unnecessary power consumption, and overheating in battery-powered applications and shows how power monitors can optimize each circuit.
Watch this course and you will learn:
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Common Applications and Challenges of Battery-Powered Applications
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Basic functions, features and benefits of power supply monitors
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How to use power monitors to optimize battery-powered solutions
This course is divided into four parts, which initially explores how ADI's isolated gate drivers play a key role in the new energy industry. Through the technology, products and practical application cases, it demonstrates the outstanding performance of these drivers in improving system efficiency, enhancing safety and promoting technological innovation.
Isolated gate drivers are particularly important in new energy applications because they provide electrical isolation between high-voltage and low-voltage circuits, ensuring system safety and reliability. Here are some key technical features:
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High-current drive capability: Isolated gate drivers are able to provide high-current drive for MOSFET, IGBT, SiC and GaN power switches, ensuring fast switching and efficient energy transfer.
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Low Propagation Delay: These drivers have extremely low propagation delay, which enables precise timing control and reduces switching losses.
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High common-mode transient immunity (CMTI): Isolated gate drivers need to withstand common-mode transients without affecting data transmission, ensuring stable operation in high-noise environments.
I hope this series of video courses can help you understand the application of isolated gate drive in the new energy industry.
What is impedance measurement?
What are the main methods of impedance measurement and what are their respective advantages and disadvantages?
What is the positioning of ADI's system-level solution ADMX2001 in the field of impedance measurement?
What are the advantages compared with common large instruments? What features does ADMX2001 have and what application scenarios is it suitable for?
Excitation frequency, measurement time, fixture, for different DUTs, how should engineers choose the appropriate configuration to improve accuracy?
If you are interested in these issues, don't miss this course~
Such rich training materials, remember to share them with your study partners~
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