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Showing results for tags 'oscilloscope'.
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The core element of any electronic device is the power supply. Any instability or malfunction of the power supply causes the device to malfunction or demonstrate weird behavior. In some sensitive applications, we need a dual voltage-rail power supply to prepare a high current and low noise voltage at the output. In this article/video, I introduced a low-noise AC-to-DC power supply that can handle up to 4A continuously and accept input voltages up to 35V-AC. To design this power supply, I decided to use an enhanced capacitance multiplier circuit. I paid high attention to good grounding, assigned the top layer of the PCB to the ground, and drew power planes instead of tracks to carry high currents. As a result, I could not detect any noise or ripple at the output even at the maximum output current! The PCB board has two layers and to ensure high-quality fabricated boards, I sent the Gerber files to PCBWay. I tested the board for voltage drop, current delivery, and output noise. I used Siglent SDL1020X-E DC Load and Siglent SDS2102X Plus oscilloscope to perform all tests. I’m confident that this design satisfies your needs in many applications. Schematic + PCB + Full Detail: https://www.pcbway.com/blog/technology/Low_Noise_45V_4A_Dual_Rail_Power_Supply_Using_Enhanced_Capacitance_Multiplier_8a031b5e.html Specifications Input Voltage (max): 35V-AC Output Current: 4A Continuous Output Noise/Ripple: Very Low Output Voltage: 45V-DC (maximum safe, under no load)
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- power supply
- low noise
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In this video, I explain some theories behind a low pass active filter circuit, then I built a simple active low pass filter using the LM358 opamp. I tested the filter's behavior using the Siglent SDG1025 waveform generator and the Siglent SDS2102X Plus oscilloscope.
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- active low pass filter
- active low pass filter circuit
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hi! how to do the countdown timer from 555 to bcd to decoder? also the 7-segment display. If possible, let me have the schematic diagram. thank you.