Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Designing a Tractive System Active light(TSAL) circuit for an Electric Vehicle which does the following operations 1. The TSAL itself must have a red light, flashing continuously with a frequency between 2 Hz and 5 Hz and a duty cycle of 50%, active if and only if the LVS is active and the voltage across DC-link capacitors exceeds half the nominal TS voltage 2. The TSAL itself must have a green light, continuously on, active if and only if the LVS is active and ALL of the following conditions are true: ● All AIRs are opened. ● The pre-charge relay is opened. ● The voltage at the vehicle side of the AIRs inside the TSAC does not exceed 60 VDC or 50 VAC RMS. This schematic will include only the Green Light logic. We have to take proper care of High voltage and Low voltage isolation in this schematic because it will have to be implemented on the PCB as well.

El proyecto general del curso es desarrollar el diseño de un variador de frecuencia (VFD), para controlar la velocidad de un motor de corriente alterna. Para el diseño del variador se darán unos parámetros fijos para todos y otros parámetros serán determinados por cada estudiante, de forma que todos los variadores de frecuencia diseñados serán diferentes. El diseño del VFD que se realizará a lo largo del curso, debe cumplir con las siguientes especificaciones: Fuente de alimentación Voltaje de entrada senoidal monofásico Frecuencia de la línea: 50 Hz Voltaje de entrada: 110 Vrms Parámetros del motor Voltaje de fase: 110 Vrms Potencia : 1/2 Hp Corriente nominal: 6.0 A Factor de potencia: 0.80 Rango de operación de frecuencia: 30 Hz – 100 Hz Parámetros del convertidor AC-DC Voltaje de rizado: cada estudiante lo determina Capacitor de filtrado: cada estudiante lo determina Voltaje de continua: cada estudiante lo determina Nota: los parámetros que están sin especificar, serán determinados de forma individual por cada estudiante. Para la Fase 1, cada estudiante debe desarrollar las siguientes actividades: • Estudiar los contenidos de todas las referencias bibliográficas dispuestas para la Fase 1. • Participar y posteriormente analizar las grabaciones de la webconferencia correspondiente a la presente fase. • Calcular los parámetros de diseño de la etapa del convertidor AC – DC a partir de los datos iniciales dados. 3 • Diseñar el convertidor AC – DC en un software de simulación de circuitos, que cumpla con los parámetros calculados. • Responder argumentativamente las preguntas de comprensión de lectura aproximadas en los artículos de la presente fase. Lo de: Voltaje de rizado: cada estudiante lo determina Condensador de filtrado: cada estudiante lo determina Voltaje de continua: cada estudiante lo determina Por favor damelo de tal manera que quede bien por favor

I2C to dual PWM controller. The LED-Warrior18, manufactured by Code Mercenaries, is an I2C to dual channel PWM LED driver specifically designed to provide seamless brightness control for LED applications. This component, available in SOIC8 package (LW18-S) and as a ready-to-use module (LW18-01MOD), offers dual 16-bit PWM outputs with a dimming range from 0.001% to 100% and operates at a PWM frequency of 730 Hz. It supports programmable period lengths for higher-frequency or lower-resolution operation and includes an 8-bit data to logarithmic mapping feature for smoother dimming operations with just 256 steps. The LED-Warrior18 is engineered for minimal external circuitry with a 5V power supply requirement, offering ease of use in various lighting applications. It also features a sync mode for synchronized control of multiple units and customizable power-on status settings, making it highly versatile for standalone operations or integrated systems. Additionally, custom variants of both the chip and module are available, catering to specific application needs. The module version, LW18-01MOD, simplifies integration by including terminal blocks and supporting up to 4A load sink current for each output. The LED-Warrior18 stands out for its straightforward interface and operational flexibility, providing a comprehensive solution for advanced LED dimming and control projects.

Arduino Uno R3 shield + very basic H bridge driver and connector

Arduino Uno R3 shield + very basic H bridge driver and connector

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Welcome to your new project. Imagine what you can build here.

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Welcome to your new project. Imagine what you can build here.

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Welcome to your new project. Imagine what you can build here.

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Welcome to your new project. Imagine what you can build here.

MCU-Only Fast-Decay 24V Solenoid Driver with Energy Recovery and Telemetry (torukmakto4 Topology, RP2350-Based) #solenoiddriver #fastdecay #24V

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

Template for Arduino Uno R3 Shield. Include an official pinout so you will always know Arduino names, the alternative roles of pins, which one is SDA, or SCL, etc. On PCB you can find the 3D model of the Arduino Uno R3 itself along with the board outline on the silkscreen. #Arduino #Uno #Shield #Template #project-template #project

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

An all in one programmable board for FPV RC cars. Uses an H bridge to drive a brushed motor.

TO-263-7 TabPin8 is a surface-mount package commonly used for electronic components. It has a body size of approximately 10.2 mm x 12.2 mm x 3.2 mm (L x W x H) with 7 pins and a tab pin configuration. Pin 1 is typically located in the lower left corner when viewed from the flat side, while the tab pin, labeled as Pin 8, is connected to the tab or heat sink of the package. The lead pitch between the other pins is typically 2.54 mm. The package is also known as D2PAK-7, DPAK-7, or DDPAK-7. #part #template

LQFP-32 is a surface-mount package for integrated circuits (ICs) with 32 leads arranged in a 7x7 mm square grid. The lead pitch is 0.8 mm, and the body size is approximately 7.0 mm x 7.0 mm x 1.4 mm (L x W x H). LQFP-32 is commonly used for microcontrollers, digital signal processors, and other complex ICs that require a high pin count. It provides a low-profile solution that is well-suited for space-constrained applications. 32-LQFP #part #template

SOT-89-3 is a small surface-mount package commonly used for electronic components. It has a body size of approximately 4.5 mm x 4.5 mm x 1.6 mm (L x W x H) with 3 pins. The lead pitch between the pins is typically 1.27 mm. The package is also known as Small Outline Transistor 89-3 or SOT-89-3. #part #template

Placa de controle analógico/digital para atuador linear DC de até 1000 W com ponte H BTS7960, PWM NE555, regulador 5 V e conectores externos de direção/enable.

H bridge with galvanic isolator

SOT-89-3 is a small surface-mount package commonly used for electronic components. It has a body size of approximately 4.5 mm x 4.5 mm x 1.6 mm (L x W x H) with 3 pins. The lead pitch between the pins is typically 1.27 mm. The package is also known as Small Outline Transistor 89-3 or SOT-89-3. #part #template

9V battery-powered 1 Hz red LED blinker using a through-hole 555 astable timer, on/off switch, and hand-solderable components.

Through-hole 1 Hz red LED blinker powered by a 9V battery through an on/off switch, using an NE555 astable oscillator on a 50 mm x 50 mm 2-layer PCB.

Through-hole 9V battery-powered 555 timer circuit that blinks a red LED approximately once per second using an on/off switch and hand-solderable components.

A simple template to easily create your XIAO SAMD21 shield #ARM #SAMD21 #Arduino #template

This is a schematic of an IR (infrared) remote control system. It's built around a Microchip ATTINY2313 microcontroller (U1) and boasts five push-button switches, an indicator RED LED and an electret buzzer for user interaction. An ISP header provides programming capabilities. The project is battery-powered and implements boost converter TPS613222AD (IC1) for stable power supply. #project #Template #projectTemplate #lock #keypad #attiny2313 #TPS613222A #ISP #buzzer #reusable #module #simple-embedded #microchip #arduino #sublayout

5 V NE555 astable timer circuit that blinks an LED at about 1 Hz with current limiting, timing network, control-pin bypass, and supply decoupling.

9V battery-powered NE555 astable blinker that flashes a through-hole red LED at roughly 1 Hz through an on/off switch.

9V battery-powered NE555 astable blinker that flashes a through-hole red LED at roughly 1 Hz through an on/off switch.

9V battery-powered 555 astable timer circuit that blinks a through-hole red LED at about 1 Hz through an on/off switch.

9V NE555 1 Hz LED Blinker (Through-Hole)

Hand-solderable NE555 astable LED blinker powered from a 9 V battery with an on/off switch and approximately 1 Hz blink rate.

Simple hand-solderable 9V battery LED blinker using a NE555 astable oscillator, on/off switch, battery snap connector, supply decoupling, and a red status LED blinking at approximately 1 Hz.