No hay artículos en el carro
No hay artículos en el carro Descripción:
1. Interruptor sin contacto
2. Circuito integrado de interruptor de pasillo utilizando el principio de efecto pasillo.
3. Utiliza la tecnología integrada de semiconductores que fabrica la susceptibilidad magnética del circuito,
4. Es por el regulador de voltaje, generador de voltaje Hall, amplificador diferencial, disparadores Schmidt, compensación de temperatura y el circuito de etapa de salida de colector abierto compuesto por circuito de sensor magnético sensible
5. Su entrada para la intensidad de inducción magnética, la salida es una señal de voltaje digital.
El paquete incluye:
5 módulos de sensor magnético HiLetgo Hall
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Alex T.
Comentado en los Estados Unidos el 26 de abril de 2025
This worked well for me. Note however that the sensor is sensitive to the polarity of the magnet. Make sure to test it and orient the magnet and which side of the sensor works with it.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Michael Ferber
Comentado en los Estados Unidos el 8 de junio de 2024
Tested each Hall Effect Sensor that was received and none of them ended up testing any good on my workbench - a shame really.So then I decided to test each sensor by removing them from the PCB, because why not?... Well, as it turns out, all the sensors are good, it's just that there's something going on with the PCB, it just isn't engineered the way you'd expect it, the PCB traces are not one for one... So my recommendation is, steer clear of this brand, at least until they sort out their PCB issues because without the proper documentation, this won't be a straight forward use product.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 17 de diciembre de 2024
Functions as advertised.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Customer
Comentado en los Estados Unidos el 31 de agosto de 2023
I needed a simple RPM tester so I put together some simple Python code. Connected the Hall effect board to my PI. The board has '-' clearly marked for GND at the connector. I connected that to pin 6 on my PI. '+' is not marked on the board but is the middle pin, so I connected that to pin 2, 5V, on my PI. Then the status line, marked with an 'S' to GPIO18 which is physical pin 12 on the PI. Note the boards status line is open collector, meaning it is either open or GND. It does NOT swing up 5V. In the Python code I did set the GPIO18 pin to be pulled up by the PI, not sure if I needed that since that may be the default. I tested my simple code on all 5 of the boards I received and they all worked as expected. I could easily detect an RPM from 30 to 400 RPM. Sorry that is NOT the limit of the circuit, just my hand tool.This little board is very inexpensive and works perfectly.
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Leonel Corona Villarreal
Comentado en México el 24 de febrero de 2023
Funcionaron bien
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Carlos Santos
Comentado en Canadá el 19 de febrero de 2021
When I received the sensors they were all mangled because it was badly packaged
Productos recomendados
Mex $188.00
Mex $ 112 .00 Mex $112.00
Mex $473.37
Mex $ 241 .00 Mex $241.00
Mex $547.14
Mex $ 262 .00 Mex $262.00
Mex $280.00
Mex $ 148 .00 Mex $148.00