Raspberrypi Pico-based sampler, sequencer + drum machine w/ an embedded speaker, Adafruit I2S amplifier and momentary step switches, evoking the tr808 synthesizer ⁠

This project is a DC-DC Buck converter based on the LM2596 IC. It is designed to step down the input voltage from 12V to a regulated output of 5V #Buck #LM2596 #project

Raspberrypi Pico-based sampler, sequencer + drum machine w/ an embedded speaker, Adafruit I2S amplifier and momentary step switches, evoking the tr808 synthesizer ⁠

This project is an open source micro-controller board used to drive a stepper motor in closed loop mode. The board is generally used on 3D printer steppers or CNC steppers to prevent losing steps. The project is inspired by Tropical labs: Mechaduino board #motorControllers

This is the multipurpose PCB that works with Arduino Nano, a way that you can run 2 Stepper motors, 2 DC motors, 2 Servo motors at the same time and this is not it you can even connect BT module, rotary encoder, I2C device, potentiometer at same time. This PCB is very much helpful in building any project and no need to worry about messy wire connections.

This is a reference design of step-up converter based on ADP1618 with 5V input and 12V output #dcdc #5V #12V #power#referenceDesign #powermanagement #analogdevices #template

This project is a DC-DC Buck converter based on the LM2596 IC. It is designed to step down the input voltage from 12V to a regulated output of 5V #Buck #LM2596 #project

Two separate simulated circuits which demonstrate how step up and step down transformers work.

The Ariel AI chip prototype, designed for integration with Flux AI for advanced simulation and testing, incorporates a suite of electronic components optimized for high-performance computing applications. At the heart of this system lies a CPU with a radical transistor architecture, featuring a 4-core configuration and a clock speed of 2GHz, identified by part number CPU-RT-4C-2G. Power management is facilitated through a DC Power Supply, specified as DCPS-5V, ensuring a stable 5V supply to the system. The circuit's dynamic performance is modulated by two NPN transistors, NPN-TRANS-001 and NPN-TRANS-002, which, along with precision resistors RES-1K and RES-1K-002 (both 1kΩ), and a 10μF capacitor (CAP-10UF), form the critical signal processing path leading to the CPU. This configuration is designed to provide an efficient, reliable processing environment for AI computations, with an emphasis on minimizing latency and maximizing throughput. The Ariel AI chip's architecture, combining traditional components with an innovative CPU design, offers a versatile platform for developing advanced AI applications, reflecting a significant step forward in computational technology.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down type transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Two separate simulated circuits which demonstrate how step up and step down transformers work.

Raspberrypi Pico-based sampler, sequencer + drum machine w/ an embedded speaker, Adafruit I2S amplifier and momentary step switches, evoking the tr808 synthesizer ⁠

High-level step-up converter project that uses the MC34063A family to boost an input supply to a regulated output voltage for general DC power conversion and evaluation.

A precise stepper motor controller using the RP2350A MCU (Raspberry Pico 2) and L297/L298N drivers for two-phase bipolar motors. Great for robotics and automation applications. #RP2350 #Pico2 #StepperMotorDriver #L297 #L298N #Robotics #Automation #MotorControl

24–30 V to 12 V / 100 W Single-Layer Synchronous Buck Converter with Robust Protection

This project is a WiFi RF-ID Lock, which uses a Espressif ESP-8684 microcontroller for WiFi connectivity and a Handson Technology RC522 for RF-ID functionality. It also includes an OLED display and user control via a switch. A step-up power converter ensures consistent 3.3V power. #WiFi #MCU #ReferenceDesign #project #ESP8684 #lock #OLED #referenceDesign #simple-embedded #espressif #template #reference-design

This will be a macros lider with a nema17 stepper, tps63020, tmc2209.

Designing a control board for a smart vending machine. Board will house an ESP32, AC and DC power supply, terminal port for stepper motor, MG990 servo motor, SIM7200 GSM module, 2004 LCD screen.

This project appears to be a power supply circuit using the TPS54331 step-down (Buck) converter from Texas Instruments. The target output voltage is 3.3V. It also features electromagnetic interference (EMI) mitigation components such as an inductor, capacitors and a diode. An LED is included for indication purposes. #Buck #TPS54331 #project

This project is a WiFi RF-ID Lock, which uses a Espressif ESP-8684 microcontroller for WiFi connectivity and a Handson Technology RC522 for RF-ID functionality. It also includes an OLED display and user control via a switch. A step-up power converter ensures consistent 3.3V power. #WiFi #MCU #ReferenceDesign #project #ESP8684 #lock #OLED #referenceDesign #simple-embedded #espressif #template #reference-design

TI BQ25570 step-up DC-DC energy harvester and battery charger

This project is a WiFi RF-ID Lock, which uses a Espressif ESP-8684 microcontroller for WiFi connectivity and a Handson Technology RC522 for RF-ID functionality. It also includes an OLED display and user control via a switch. A step-up power converter ensures consistent 3.3V power. #WiFi #MCU #ReferenceDesign #project #ESP8684 #lock #OLED #referenceDesign #simple-embedded #espressif #template #reference-design

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

esp32 shield stepper motors

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

A transformer in which the output (secondary) voltage is less than its input (primary) voltage.

DC Power Supply Voltage Regulator Buck Converter 8A/100W https://www.amazon.com/DROK-90483-Voltage-Regulator-Converter/dp/B00C4QVTNU/

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