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Electrical and electronics engineering

Electrical and electronics engineering

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📈 Análisis del canal de Telegram Electrical and electronics engineering

El canal Electrical and electronics engineering (@electricalandelectronics09) en el segmento lingüístico de Inglés es un actor destacado. Actualmente la comunidad reúne a 20 066 suscriptores, ocupando la posición 6 649 en la categoría Tecnologías y Aplicaciones y el puesto 21 187 en la región India.

📊 Métricas de audiencia y dinámica

Desde su creación el невідомо, el proyecto ha mostrado un crecimiento acelerado, reuniendo a 20 066 suscriptores.

Según los últimos datos del 01 julio, 2026, el canal mantiene una actividad estable. En los últimos 30 días la variación de miembros fue de 165, y en las últimas 24 horas de -3, conservando un alto alcance.

  • Estado de verificación: No verificado
  • Tasa de interacción (ER): El promedio de interacción de la audiencia es 35.42%. Durante las primeras 24 horas tras publicar, el contenido suele obtener 5.43% de reacciones respecto al total de suscriptores.
  • Alcance de las publicaciones: Cada publicación recibe en promedio 0 visualizaciones. En el primer día suele acumular 1 090 visualizaciones.
  • Reacciones e interacción: La audiencia responde de forma activa: el promedio de reacciones por publicación es 0.
  • Intereses temáticos: El contenido se centra en temas clave como current, transistor, circuit, mosfet, collector.

📝 Descripción y política de contenido

El autor describe el recurso como un espacio para expresar opiniones subjetivas:
Electrical engineering Paid promotion @Engineeringupdatess @electricalandelectronics09

Gracias a la alta frecuencia de actualizaciones (últimos datos recibidos el 02 julio, 2026), el canal mantiene la vigencia y un amplio alcance. La analítica demuestra que la audiencia interactúa activamente con el contenido, lo que lo convierte en un punto de referencia dentro de la categoría Tecnologías y Aplicaciones.

20 066
Suscriptores
-324 horas
+177 días
+16530 días
Archivo de publicaciones
Non stop running LED bulb
Non stop running LED bulb

VLSI (very-large-scale integration) is a term used to describe the process of creating very complex integrated circuits (ICs) that contain millions or billions of transistors and other components on a single chip. VLSI circuits are used in a wide range of applications, including computers, smartphones, and other electronic devices. 👉🏻VLSI technology has made it possible to create highly complex and powerful electronic systems that are smaller, faster, and more energy-efficient than ever before. VLSI circuits are typically designed using computer-aided design (CAD) tools and manufactured using photolithography and other advanced technologies. 👉🏻VLSI design and development require a strong foundation in electrical engineering, computer science, and other related fields. VLSI engineers often work in teams to design, test, and verify VLSI circuits, and may also be involved in the manufacturing process. ▶️Like and share 👍👍

A MOSFET (metal-oxide-semiconductor field-effect transistor) is a type of field-effect transistor (FET) that uses a metal-oxide gate electrode to control the flow of electrons between the source and drain. MOSFETs are commonly used in many different types of electronic circuits and devices, including computers, smartphones, and other electronic devices. 👉🏻MOSFETs are known for their high switching speed, low power consumption, and high input impedance. They can be used as switches, amplifiers, or to control the flow of current in a circuit. MOSFETs are typically classified as either n-channel or p-channel, depending on the type of semiconductor material used. 👉🏻MOSFETs are widely used in many applications due to their versatility and high performance. They are often preferred over other types of transistors, such as bipolar junction transistors (BJTs), due to their low power consumption and high switching speed. ▶️ Like and share 👍👍

Wheatstone bridge Wheatstone bridge, also known as the resistance bridge, calculates the unknown resistance by balancing two
Wheatstone bridge Wheatstone bridge, also known as the resistance bridge, calculates the unknown resistance by balancing two legs of the bridge circuit. One leg includes the component of unknown resistance. The Wheatstone Bridge Circuit comprises two known resistors, one unknown resistor and one variable resistor connected in the form of a bridge. This bridge is very reliable as it gives accurate measurements.

Cells are connected in parallel in order to increase the:
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Which type of protection is provided for electrical motor against over heating
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