555 Timer Astable Multivibrator:Blinking LED Circuit \how to simulate Astable multivibrator in phone

Hello !!! everyone tis is sarath from e infotainment This video Shows the Circuit Simulation of the Astable multivibrator ****************************** ****************************** Don't forget to like, subscribe, and hit the notification bell to stay updated with our latest electronics tutorials and projects. If you have any questions or need help, feel free to leave a comment below, and we'll be happy to assist you ****************************** ****************************** Circuit Components: 555 Timer IC (NE555 or similar): The heart of the astable multivibrator circuit. It's a versatile IC that can operate in different modes, including astable. The 555 timer has eight pins that perform various functions in the circuit. Resistors (R1 and R2): These two resistors determine the timing intervals for the astable circuit. R1 and R2 are connected in a voltage divider configuration and are used to set the high and low time periods. Capacitor (C1): This capacitor, in conjunction with the resistors, controls the timing of the circuit. It charges and discharges through R1 and R2, creating the oscillating output. LED (Light Emitting Diode): The LED serves as the output indicator. It blinks on and off as the circuit oscillates between its high and low states. Power Supply: Typically, a DC power source (e.g., 9V battery or a power supply unit) is used to provide power to the circuit. Breadboard or PCB: The components are connected on a breadboard or a printed circuit board (PCB) for prototyping or permanent setups, respectively. Pinout Explanation of 555 Timer IC: The 555 Timer IC has eight pins, and in an astable multivibrator circuit, they are typically used as follows: GND (Ground, Pin 1): Connect this pin to the ground (0V) reference of your power supply. TRIG (Trigger, Pin 2): This pin is used to trigger the timing cycle. It's connected to the junction of R1 and R2. OUT (Output, Pin 3): The output of the 555 timer is taken from this pin. It produces a square wave with a frequency determined by the values of R1, R2, and C1. RESET (Reset, Pin 4): Normally not used in an astable circuit. It's used to reset the timer when low voltage is applied to this pin. Connect to VCC (pin 8) if not needed. CTRL (Control Voltage, Pin 5): This pin can be used to modulate the timing of the 555 timer. Typically, it's connected to ground (0V) or left unconnected for standard operation. THRS (Threshold, Pin 6): This pin is connected to the junction of R2 and C1, serving as the threshold comparator input. DISCH (Discharge, Pin 7): Connect this pin to the ground or leave it unconnected in an astable configuration. VCC (Supply Voltage, Pin 8): Connect this pin to the positive supply voltage (+V) from your power source (e.g., 9V or 5V). These components and pin functions work together to create the oscillating output of the astable multivibrator circuit. Adjusting the values of R1, R2, and C1 allows you to control the frequency of the output waveform. Related videos :::::    • shorts   #555timer #AstableMultivibrator #ElectronicsTutorial #DIYElectronics #LED #CircuitDesign #ElectronicsProjects #BreadboardCircuit #LearnElectronics #ElectricalEngineering #youtubeshorts #new