Which sensor is better to use?? π€
Choosing your sensor is completely dependant upon your application. There are a lot of limitations in infrared sensors, like the inability to use them in sunlight due to interference. It can make outdoor applications or dark indoor applications difficult. Ultrasonic sensors work using sound waves, detecting obstacles is not affected by as many factors. If reliability is an important factor in your sensor selection, ultrasonic sensors are more reliable than IR sensors. If youβre willing to compromise reliability for cost, infrared sensors are ideal for your application.
Ultrasonic sensors work using sound waves, detecting obstacles is not affected by as many factors. If reliability is an important factor in your sensor selection, ultrasonic sensors are more reliable than IR sensors. If you're willing to compromise reliability for cost, infrared sensors are ideal for your application.
Who do you prefer in the battle of ultrasonic vs infrared?
What type of project are you building?
Do comment your answer. What kind of sensor you use in your projects π»π»π»β¨π§π¨βπ§²
@pantechelearning
#pantechelearning
Any queries regarding major and mini projects contact π us:
WhatsApp us:+91 8925533483/82
Website:www.pantechelearning.com.
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Choosing your sensor is completely dependant upon your application. There are a lot of limitations in infrared sensors, like the inability to use them in sunlight due to interference. It can make outdoor applications or dark indoor applications difficult. Ultrasonic sensors work using sound waves, detecting obstacles is not affected by as many factors. If reliability is an important factor in your sensor selection, ultrasonic sensors are more reliable than IR sensors. If youβre willing to compromise reliability for cost, infrared sensors are ideal for your application.
Ultrasonic sensors work using sound waves, detecting obstacles is not affected by as many factors. If reliability is an important factor in your sensor selection, ultrasonic sensors are more reliable than IR sensors. If you're willing to compromise reliability for cost, infrared sensors are ideal for your application.
Who do you prefer in the battle of ultrasonic vs infrared?
What type of project are you building?
Do comment your answer. What kind of sensor you use in your projects π»π»π»β¨π§π¨βπ§²
@pantechelearning
#pantechelearning
Any queries regarding major and mini projects contact π us:
WhatsApp us:+91 8925533483/82
Website:www.pantechelearning.com.
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#pantechelearning #pantechammerpet#sensors #raspberrypi #arduino #technology #robotics #iot #projects #electronics #engineering #electrical #arduinoproject #embeddedsystems #arduinouno #electronicsprojects #diyelectronics #sensor #programming #artificialintelligence #electricalengineering #automation #digitalelectronics #electricians #quiz #electronicsquestions #electronicsquiz #electricianlife #matlab #computerengineering
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The pin diagram of 8051 microcontroller looks as follows β
1 to 8 β These pins are known as Port 1. This port doesnβt serve any other functions. It is internally pulled up, bi-directional I/O port.
Pin 9 β It is a RESET pin, which is used to reset the microcontroller to its initial values.
Pins 10 to 17 β These pins are known as Port 3. This port serves some functions like interrupts, timer input, control signals, serial communication signals RxD and TxD, etc.
Pins 18 & 19 β These pins are used for interfacing an external crystal to get the system clock.
Pin 20 β This pin provides the power supply to the circuit.
Pins 21 to 28 β These pins are known as Port 2. It serves as I/O port. Higher order address bus signals are also multiplexed using this port.
Pin 29 β This is PSEN pin which stands for Program Store Enable. It is used to read a signal from the external program memory.
Pin 30 β This is EA pin which stands for External Access input. It is used to enable/disable the external memory interfacing.
Pin 31 β This is ALE pin which stands for Address Latch Enable. It is used to demultiplex the address-data signal of port.
Pins 32 to 39 β These pins are known as Port 0. It serves as I/O port. Lower order address and data bus signals are multiplexed using this port.
Pin 40 β This pin is used to provide power supply to the circuit.
8051 microcontrollers have 4 I/O ports each of 8-bit, which can be configured as input or output. Hence, total 32 input/output pins allow the microcontroller to be connected with the peripheral devices. @pantechelearning
#pantechelearning
Any queries regarding major and mini projects contact π us:
WhatsApp us:+91 8925533483/82
Website:www.pantechelearning.com.
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1 to 8 β These pins are known as Port 1. This port doesnβt serve any other functions. It is internally pulled up, bi-directional I/O port.
Pin 9 β It is a RESET pin, which is used to reset the microcontroller to its initial values.
Pins 10 to 17 β These pins are known as Port 3. This port serves some functions like interrupts, timer input, control signals, serial communication signals RxD and TxD, etc.
Pins 18 & 19 β These pins are used for interfacing an external crystal to get the system clock.
Pin 20 β This pin provides the power supply to the circuit.
Pins 21 to 28 β These pins are known as Port 2. It serves as I/O port. Higher order address bus signals are also multiplexed using this port.
Pin 29 β This is PSEN pin which stands for Program Store Enable. It is used to read a signal from the external program memory.
Pin 30 β This is EA pin which stands for External Access input. It is used to enable/disable the external memory interfacing.
Pin 31 β This is ALE pin which stands for Address Latch Enable. It is used to demultiplex the address-data signal of port.
Pins 32 to 39 β These pins are known as Port 0. It serves as I/O port. Lower order address and data bus signals are multiplexed using this port.
Pin 40 β This pin is used to provide power supply to the circuit.
8051 microcontrollers have 4 I/O ports each of 8-bit, which can be configured as input or output. Hence, total 32 input/output pins allow the microcontroller to be connected with the peripheral devices. @pantechelearning
#pantechelearning
Any queries regarding major and mini projects contact π us:
WhatsApp us:+91 8925533483/82
Website:www.pantechelearning.com.
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#pantechelearning #microcontroller #arduino #electronics #engineering #technology #robotics #arduinoproject #diy #robot #raspberrypi #electricalengineering #electrical #iot #diyelectronics #programming #tech #arduinouno #digitalelectronics #electronic #pcb #electronicengineering #project #electronicsengineering #sensor #maker #electricalprojects #coding #arduinofun
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8051 microcontroller Architecture.
8051 microcontroller is designed by Intel in 1981. It is an 8-bit microcontroller. It is built with 40 pins DIP (dual inline package), 4kb of ROM storage and 128 bytes of RAM storage, 2 16-bit timers. It consists of are four parallel 8-bit ports, which are programmable as well as addressable as per the requirement. An on-chip crystal oscillator is integrated in the microcontroller having crystal frequency of 12 MHz.
In the following diagram, the system bus connects all the support devices to the CPU. The system bus consists of an 8-bit data bus, a 16-bit address bus and bus control signals. All other devices like program memory, ports, data memory, serial interface, interrupt control, timers, and the CPU are all interfaced together through the system bus.
#pantechelearning
Any queries regarding major and mini projects contact π us:
WhatsApp us:+91 8925533483/82
Website:www.pantechelearning.com.
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#pantechelearning #microcontroller #arduino #electronics #engineering #technology #robotics #arduinoproject #diy #robot #raspberrypi #electricalengineering #electrical #iot #diyelectronics #programming #tech #arduinouno #digitalelectronics #electronic #pcb #electronicengineering #project #electronicsengineering #sensor #maker #electricalprojects #coding #arduinofun
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8051 microcontroller is designed by Intel in 1981. It is an 8-bit microcontroller. It is built with 40 pins DIP (dual inline package), 4kb of ROM storage and 128 bytes of RAM storage, 2 16-bit timers. It consists of are four parallel 8-bit ports, which are programmable as well as addressable as per the requirement. An on-chip crystal oscillator is integrated in the microcontroller having crystal frequency of 12 MHz.
In the following diagram, the system bus connects all the support devices to the CPU. The system bus consists of an 8-bit data bus, a 16-bit address bus and bus control signals. All other devices like program memory, ports, data memory, serial interface, interrupt control, timers, and the CPU are all interfaced together through the system bus.
#pantechelearning
Any queries regarding major and mini projects contact π us:
WhatsApp us:+91 8925533483/82
Website:www.pantechelearning.com.
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#pantechelearning #microcontroller #arduino #electronics #engineering #technology #robotics #arduinoproject #diy #robot #raspberrypi #electricalengineering #electrical #iot #diyelectronics #programming #tech #arduinouno #digitalelectronics #electronic #pcb #electronicengineering #project #electronicsengineering #sensor #maker #electricalprojects #coding #arduinofun
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Why Arduino is the best ?
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What are microcontroller peripheral?
A peripheral is a part of a microcontroller that interfaces with the outside world. Examples of peripherals are GPIOs, I2C, SPI, UART, timers, and USB. (We'll define these later.)
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A peripheral is a part of a microcontroller that interfaces with the outside world. Examples of peripherals are GPIOs, I2C, SPI, UART, timers, and USB. (We'll define these later.)
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