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![Littelfuse Unveils SZSMF4L Automotive Grade 400-Watt TVS Diodes in SMT Littelfuse Unveils SZSMF4L Automotive Grade 400-Watt TVS Diodes in SMT](https://www.electronics-lab.com/wp-content/uploads/2023/08/1280_kjuLWpFOWuA02wOn-1024x678.jpg)
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Littelfuse Unveils SZSMF4L Automotive Grade 400-Watt TVS Diodes in SMT
Littelfuse, Inc, an industrial technology manufacturing company empowering a sustainable, connected, and safer world, announced the release of its new SZSMF4L 400 W TVS Diode Series. As automotive electronics continue increasing in volume and sophistication, all these components require...
Continue Reading![Innodisk Introduces Industrial Air Sensor Module Solution to Add Value to Edge AI Application Innodisk Introduces Industrial Air Sensor Module Solution to Add Value to Edge AI Application](https://www.electronics-lab.com/wp-content/uploads/2023/07/70506_PR_Air-Sensor-Module-1024x598.jpg)
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Innodisk Introduces Industrial Air Sensor Module Solution to Add Value to Edge AI Application
Innodisk, a leading global AI solution provider, is taking proactive strides into edge AI. It has launched a new industrial air sensor module solution with its subsidiary, Sysinno, featuring accurate sensing, easy implementation, and minimal computing power. The modules offer real-time...
Continue Reading![Rogowski-Relief – An Open Source Rogowski Coil Based Current Probe Rogowski-Relief – An Open Source Rogowski Coil Based Current Probe](https://www.electronics-lab.com/wp-content/uploads/2023/07/r01-scaled-e1690289817705-1024x578.jpg)
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Rogowski-Relief – An Open Source Rogowski Coil Based Current Probe
The Rogowski-Relief current probe, utilizing a Rogowski coil, has proven to be an invaluable tool for measuring high-frequency AC currents in confined spaces. Its design facilitates non-intrusive current measurements, making it highly versatile and applicable in various scenarios. The...
Continue Reading![Analog To Digital Conversion – Decoding Signals Analog To Digital Conversion – Decoding Signals](https://www.electronics-lab.com/wp-content/uploads/2023/07/Figure-1_DAC.png)
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Analog To Digital Conversion – Decoding Signals
Converting Digital Data To Analog Signals In the previous parts of the article, we considered how to convert an analog signal to digital by PCM method, as a binary encoding process. Now we want to consider the reverse process as binary decoding. This combination of binary...
Continue Reading![6A H-Bridge with PWM-DIR input and SPI Interface 6A H-Bridge with PWM-DIR input and SPI Interface](https://www.electronics-lab.com/wp-content/uploads/2023/07/002-3-1024x670.jpg)
6A H-Bridge with PWM-DIR input and SPI Interface
This 6A H-Bridge is designed for the control of DC motors or other inductive loads. The outputs can be pulse width modulated at frequencies up to 20kHz. PWM/DIR control reduces the number of PWM-capable pins needed on the microcontroller side. For load currents above the current...
Continue Reading![12-Bit Programmable Contactless Encoder Module 12-Bit Programmable Contactless Encoder Module](https://www.electronics-lab.com/wp-content/uploads/2023/07/002-2-1024x694.jpg)
12-Bit Programmable Contactless Encoder Module
The 12-Bit programmable contactless encoder project presented here is based on AS5601 chip. This is an easy-to-program magnetic rotary position sensor module with incremental quadrature (A/B) and 12-bit digital outputs. Additionally, the PUSH output indicates fast airgap changes...
Continue Reading![Analog To Digital Conversion – Binary Encoding Analog To Digital Conversion – Binary Encoding](https://www.electronics-lab.com/wp-content/uploads/2023/06/FIGURE-1-3.png)
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Analog To Digital Conversion – Binary Encoding
Introduction In the first part of this article, we considered the two main stages of a PCM (Pulse Code Modulation) system as the widespread A/D (Analog to Digital Conversion) method and we saw how a continuous signal can be sampled in time and then quantized to limited integer levels in...
Continue Reading![Analog To Digital Conversion – Sampling and Quantization Analog To Digital Conversion – Sampling and Quantization](https://www.electronics-lab.com/wp-content/uploads/2023/06/FIGURE-1_A-D-Converter.png)
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Analog To Digital Conversion – Sampling and Quantization
INTRODUCTION - Converting Continuous Signals To Discrete By definition, an analog signal changes continuously over time and it has an infinite variety of amplitude values as time goes on. The best example of an analog physical signal is our voice. Whatever we speak we generate sound...
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