Pixhawk 2.4.8 Drone Flight Controller PX4 32 Bit Autopilot

Pixhawk 2.4.8 Drone Flight Controller PX4 32 Bit Autopilot

Name: Pixhawk 2.4.8 Drone Flight Controller PX4 32 Bit Autopilot
Brand: Iotcart
SKU: IOT-1997
Price: 8361.13 INR
Availability: BackOrder

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Pixhawk 2.4.8 Drone Flight Controller PX4 32 Bit Autopilot The Pixhawk 2.4.8 Drone Flight Controller PX4 advanced 32-bit CortexM4 ARM high performance processor, can run RTOS NuttX real-time operating system Bus interface (UART, I2C, SPI, CAN) Integrated backup power supply and failure backup controller, the main controller can be safely switched to backup control Provide automatic and manual mode Provide redundant power input and fault transfer function. It Supports 8 RC channel with 4 serial port. Various user interfaces are available for programing, reviewing logs, even some apps for smartphones & tablets. It detects and configures all its peripherals automatically. The benefits of the Pixhawk 2.4.8 flight controller system include a Unix/Linux-like programming environment, completely new autopilot functions. Sophisticated scripting of missions and flight behavior, and a custom PX4 driver layer ensuring tight timing across all processes. check out : Mini OSD Module For 2.6 APM PIX Pixhawk Flight Control Board Processor of Pixhawk Flight Controller: 32bit STM32F427 Cortex M4 core with FPU 168MHz 256KB RAM 2 MB Flash 32 bit STM32STMF100 failsafe co-processor Sensor: ST Micro L3GD20H 16 bit gyroscope ST Micro LSM303D 14 bit accelerometer/magnetometer Invensense MPU 6000 3-axis accelerometer/gyroscope MEAS MS5611 barometer Interfaces: 5x UART (serial ports), one high-power capable, 2x with HW flow control. 2x CAN (one with an internal 3.3V transceiver, one on expansion connector). Spektrum DSM / DSM2 / DSM-X Satellite compatible input. Futaba S.BUS compatible input and output. PPM sum signal input. RSSI (PWM or voltage) input. I2C. SPI. 3.3 and 6.6V ADC inputs. Internal micro USB port and external micro USB port extension. Features: Advanced 32 bit CortexM4 ARM high-performance processor. 32 bit STM32STMF100 failsafe co-processor. Multiple flight modes including self-stability, height-set, hover, sports, freestyle, circling, following, return, guidance, and automatic. Switchable flight modes for Helicopter, Fixed-wing, Multi-rotor, and Model Car. Multi-sound buzzer interface. Abundant connectivity options for additional peripherals such as GPS, I2C, and SPI 14 PWM/servo outputs (8 with failsafe and manual override, 6 auxiliary, high-power compatible). Supports DSM Spektrum receiver. Unix/Linux-like programming environment. Automatic configuration of peripherals. Unix/Linux-like programming environment. Unix/Linux-like programming environment. Supports sophisticated scripting of missions and flight behavior. Custom PX4 driver layer ensuring tight timing across all processes. Applications: Drone/UAV flight control. Autonomous aerial photography and videography. Precision agriculture for crop monitoring and spraying. Search and rescue missions. Environmental monitoring. Infrastructure inspection (such as pipelines, power lines, and buildings). Wildlife conservation and monitoring. Disaster management and assessment. Geographical mapping and surveying. Delivery services. Why Choose Pixhawk 2.4.8? Open-source platform compatible with PX4 and ArduPilot firmware for flexibility and customization. Reliable and proven 32-bit flight controller for stable and precise drone performance. Supports multiple vehicle types including quadcopters, fixed-wing, and rovers. Rich connectivity with multiple UART, I2C, CAN, and PWM ports for sensors and accessories. Built-in safety features such as failsafe system and power redundancy. Ideal for both beginners and advanced drone developers. Comparison Table: Pixhawk 2.4.8 vs Pixhawk 4 Specification Pixhawk 2.4.8 Pixhawk 4 Processor STM32F427 Cortex-M4 @ ~168 MHz STM32F76x/STM32F7 Cortex-M7 @ ~216 MHz or higher RAM / Flash ~128 KB RAM, 2 MB Flash ~512 KB RAM, 2 MB Flash (improved memory) IMU / Sensors Single IMU package; standard sensors (gyro/accel/mag/baro) Dual IMUs or higher grade sensors with higher temperature stability I/O Ports / Interfaces 14 PWM/servo outputs, multiple UARTs, I2C, SPI, CAN More outputs/ports, additional I/O, improved connector layout, better expandability Size & Weight Larger board (~82 × 50 mm) and heavier Smaller form factor and lighter weight Features Proven, widely-supported flight controller with rich community support Modern architecture, higher performance, better future-proofing Best For Hobby drones, standard multirotors/rovers where cost is key Advanced UAVs, heavy payloads, applications needing higher precision & performance

Multiple flight mode, support for self-stability, height-set, hover, sports, freestyle, circling, following, return, guidance, automatic, all-powerful.
Multiple flight mode switches freely, Helicopter, Fixed-wing, Multi-rotor, Model Car.
Providing a multi-sound buzzer interface.
Abundant connectivity options for additional peripherals (GPS, I2C, SPI).
Advanced 32 bit CortexM4 ARM high-performance processor, and 32 bit STM32STMF100 failsafe co-processor.
14 PWM / servo outputs (8 with failsafe and manual override, 6 auxiliary, high-power compatible).
Support DSM Spektrum receiver.

Model	PIX 2.4.8 32 Bit
Input Voltage (V)	7V
Firmware	Mission Planner
Sensors	3-Axis Gyrometer, Accelerometer, High-performance Barometer, Magnetometer
Processor	32bit STM32F427 Cortex M4 core with FPUThe 32-bit STM32F103 failsafe Co-processor
Micro-SD Card Slot	Yes
Dimensions (mm) LxWxH	82 x 50 x 16
Weight (gm)	40

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Product Overview

Technical Specifications

Model	PIX 2.4.8 32 Bit
Input Voltage (V)	7V
Firmware	Mission Planner
Sensors	3-Axis Gyrometer, Accelerometer, High-performance Barometer, Magnetometer
Processor	32bit STM32F427 Cortex M4 core with FPUThe 32-bit STM32F103 failsafe Co-processor
Micro-SD Card Slot	Yes
Dimensions (mm) LxWxH	82 x 50 x 16
Weight (gm)	40

Use Cases

Multiple flight mode, support for self-stability, height-set, hover, sports, freestyle, circling, following, return, guidance, automatic, all-powerful.
Multiple flight mode switches freely, Helicopter, Fixed-wing, Multi-rotor, Model Car.
Providing a multi-sound buzzer interface.
Abundant connectivity options for additional peripherals (GPS, I2C, SPI).

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Pludo STEM Air Glide Kit – DI…

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Pludo STEM Air Glide Kit – DIY Science Kit for Kids 11–14 | Grade 6–8 Bernoulli’s Principle Air Levitation Experiment Bring the wonders of physics to life with the Pludo STEM Air Glide Kit, a hands-on science experiment kit designed to demonstrate Bernoulli’s Principle in action. As children assemble and experiment with the kit, they discover that fast-moving air creates low pressure. When the blower pushes air upward at high speed, the air pressure around the ball becomes lower than the pressure below it. This pressure difference lifts the ball and keeps it floating and balanced in the air. As long as the airflow remains steady, the ball stays levitated, clearly showing how air speed and pressure work together to produce lift. This engaging kit doubles as both a science toy and a STEM learning tool, helping young minds understand core concepts of motion, balance, and aerodynamics in a fun and interactive way. A great choice for parents and teachers seeking quality kids learning toys and STEM kits that inspire creativity and experimentation. What Your Child Will Learn: Discover how air pressure and velocity work together to create lift. Understand Bernoulli’s Principle through exciting real-world demonstrations. Learn about aerodynamics, balance, and fluid motion in a simple, interactive way. Strengthen observation, critical thinking, and problem-solving skills. Gain confidence through hands-on learning and self-exploration. Educational Outcomes: Conceptual Clarity: Builds a solid understanding of how air movement affects objects, connecting science to daily life. STEM Skill Development: Encourages experimentation, hypothesis testing, and logical reasoning. Real-World Application: Demonstrates how Bernoulli’s Principle applies to airplanes, drones, and sports physics. Creative Thinking: Inspires kids to design and test their own experiments based on air pressure and motion. Confidence in Learning: Promotes curiosity-driven discovery that helps children approach science with enthusiasm and confidence. Fun Fact: Bernoulli’s Principle is the same concept that keeps airplanes in the sky — your child will explore this fascinating science right at home! Features Hands-on DIY science experiment kit that demonstrates Bernoulli’s Principle through air pressure and lift experiments. Encourages curiosity, critical thinking, and problem-solving as children explore how airflow creates levitation. Made from durable, child-safe materials ensuring safe and long-lasting use during experiments. Suitable for children aged 11–14 (Grade 6–8) for an engaging and age-appropriate STEM learning experience. Promotes understanding of aerodynamics, balance, and fluid motion through fun, practical experiments. Perfect for classroom demonstrations, home learning sessions, or interactive STEM projects. Included manual provides step-by-step guidance for easy assembly and scientific exploration. Makes a thoughtful science gift for birthdays, science fairs, or young inventors interested in hands-on discovery.

₹463.29

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₹1118.60
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Holybro Pixhawk 6C Flight Con…

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Holybro Pixhawk 6C Flight Controller With PM02 Power Module The Holybro Pixhawk 6C Flight Controller with PM02 Power Module is a powerful and reliable pixhawk flight controller built for advanced drone applications. Powered by a high-performance 32-bit processor, it delivers fast sensor processing, accurate flight control, and stable performance across multirotor, fixed-wing, and VTOL platforms. Designed for compatibility with popular open-source firmware, this controller is ideal for developers, researchers, and drone builders who require precision, flexibility, and dependable operation in demanding flight conditions. This drone flight controller comes bundled with the PM02 flight controller power module, providing clean and regulated power directly from a LiPo battery while monitoring real-time voltage and current. The integrated power module improves safety, simplifies wiring, and ensures consistent power delivery to the flight controller and connected peripherals. Whether you are building a professional UAV or a custom drone project, this combination offers a streamlined setup, enhanced reliability, and efficient power management in one complete solution. Features: High-performance pixhawk flight controller designed for fast processing and stable, precise drone control across various flight modes. Integrated PM02 flight controller power module ensures clean, regulated power delivery while monitoring real-time voltage and current for safer operation. Supports multiple drone platforms including multirotor, fixed-wing, and VTOL, making it suitable for a wide range of UAV applications. Compatible with popular open-source flight control firmware, offering flexibility for customization and advanced autonomous missions. Streamlined power and signal connections reduce wiring complexity and improve overall system reliability. Built for professional UAV development, research projects, and advanced hobbyist drone builds.

₹39360.81

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₹53898.60
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