Industrial applications often receive 24V digital input from devices such as sensors and also produce digital outputs to relays, actuators, and inductive loads that must be driven. These inputs are typically conditioned with discrete components such as resistors/capacitors. Uses an external FET to drive the output. System requirements are generally the robustness and reliability of DI and DO. Since industrial systems typically do not have active cooling, power consumption should be minimized. And more and more industrial automation systems are getting smaller – having to handle more channels within a given form factor. These requirements are driving a shift from discrete implementation to an integrated approach.
Total of 1 lessons29 minutes and 55 seconds
Sensors are becoming more common in various fields, and the number of sensors used in each application is growing exponentially. As the demand for sensors increases, these devices are also required to be smaller, consume less power, and be more reliable. To meet these needs, designers must adopt a holistic application design approach, not only considering the operating current consumption of the sensor, but also considering the quiescent current and how to improve reliability technology. This webinar will help you understand how nanoPower technology can help you make full use of your sensors. Learn how to: Extend battery life with nanoPower technology; Make sure your sensors work reliably; Make sure your sensors are always ready to use right out of the box
Total of 1 lessons31 minutes and 29 seconds
The future smart application market is undercurrent, and the market is growing rapidly, including the development of Bluetooth, Wi-Fi, ZigBee and 5G, which will profoundly affect all aspects of our lives, especially in terms of transmission rate and power consumption, which wireless technology faces. two important factors. This seminar will focus on solutions for Wi-Fi 6 and Bluetooth in smart applications.
Total of 3 lessons2 hours and 9 minutes and 11 seconds
As cloud computing and artificial intelligence technologies become increasingly mature, information technology is transformed into the era of the Internet of Things, especially the integration of IoT+AI, which has given rise to a deep integration of the physical world and the digital world. Both technology companies and traditional companies are transforming and upgrading to the Internet of Things. Under the current new development situation, IoT devices serve as an important support for building intelligent terminals, providing computing, communication and sensing technologies for intelligent applications of the IoT. This seminar invited experts from Maxim and Avnet to share low-power processor solutions for IoT, wearable and industrial fields, 5G accelerated IoT applications and digital transformation solutions.
Total of 1 lessons40 minutes and 1 seconds
Market trends in health and medical care ● Principles and solutions of biosensors ● Introducing Maxim’s health and medical reference design HSP2.0 to fully understand Maxim’s overall solutions in the health and medical field. Maxim’s reference design HSP2.0 helps shorten products Development cycle to achieve high-precision, low-power PPG, ECG and other functions ● HSP2.0 demonstration time
Total of 3 lessons1 hours and 1 minutes and 30 seconds
Digi-Key and Maxim jointly present this seminar: Choosing the right analog IC is the key to optimizing system performance and simplifying design. Three case studies and solution demonstrations help you understand new technologies and applications of analog design. 1. The interconnection between boards and systems further drives the demand for CAN bus communication. Learn techniques to reduce power consumption, reduce EMI, and avoid bus latch-up to ensure reliable communication in your system. 2. With the improvement of system intelligence, higher requirements for power supply have been put forward. Not only must the stable output of each channel power supply be maintained, but the correct power-on and power-off sequence must also be considered to ensure the safety of system operation. 3. Extending battery life is the key to low-power applications such as IoT and wearable products. Understanding nanoPower's innovative technology can help you reduce system power consumption, especially standby power consumption, and reduce the design pressure of system power management.
Total of 3 lessons33 minutes and 33 seconds
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