SMAKN Arduino GY-521 MPU-6050 Module 3 axial gyroscope accelerometer stance tilt module

SMAKN Arduino GY-521 MPU-6050 Module 3 axial gyroscope accelerometer stance tilt module

$ 6.99

Score By Feature

Based on 5 ratings

Value for money

7.69

Satisfaction

7.81

Customer service

8.08

Packaging

7.92

OveReview Final Score

How Our Score Is Calculated

Product Description

MPU-6050 is the chip to use

The power supply is 3-5 volts (with an internal regulator for low dropouts).

The standard IIC communications protocol is the communication mode

The chip comes with an AD converter that takes 16 bits, and the output is 16 bits

The range of the gyroscope is 250 500 1000 2000 degrees per second

Questions & Answers

It is possible for this item to detect whether a stationary object is An example of such a platform is a table top How level is the ground?

There is indeed a tilt sensor in it. There are other ways to calibrate it, but you must start at zero or level. The way I used it was like that.

Selected User Reviews For SMAKN Arduino GY-521 MPU-6050 Module 3 axial gyroscope accelerometer stance tilt module

The module is great

5/5

The code is easy to understand. What a great deal! This was a very cheap but effective way to do this. I soldered on the headers and plugged it in. With fifteen minutes, it was providing me with input data. If you're going to use this with the Arduino Uno, you'll need to hook up sda and scl to A4, and Gnd and VCC to GND and VCC respectively. As for the board, I believe it uses SPI to communicate with it. I was surprised to find that it contains the gyro and accelerometer on top of a temperature monitor. Sensors in the house began reading 25 degrees Celsius when the temperature was 70 degrees Fahrenheit. This could be homed as to the accuracy of 70 degrees since 21 Celsius is approximately 70 degrees. It is very easy to find the code. You can find the "GY 521 Arduino Gyro/Acceleometer" through a search on the internet. A "playground" can also be found in the internet. The MPU-E There is an option to choose 6050. Go down the page and read it. In addition, there will be 2 codes, one of which will be You will see a button that says "get code" on the right side of the codes. It will be copied/pasted to your environment once you click it. The data will appear in the serial monitor once you have uploaded it. There is a recipe to do this in the Arduino Kochbuch on Amazon that explains how you can use the nunchucks for accelerometer/gyro input.

Cohen Welch

| Jul 30, 2020

The readings are really stable

5/5

You can easily set this up and configure it with Arduino and get it working. Just follow the breadcrumbs of others to get it working. Using the computer, I was able to see a quick 3d image for comparison during the test to see if it was orienting correctly. The STorM32 v1 is being geared up for the beta release of the firmware now, after testing has been completed, the firmware works fine. There are 31 boards in the.

Tatum Krause

| Jul 27, 2020

There is a lot of work to be done

5/5

A part of the hobby is to understand why things are the way they are. To get it working on the Raspberry Pi, it took a little bit of work. Having a Raspberry Pi though is not the point at all. In case you were wondering, the I2C address is 0x68 straight out of the box. Due to the fact that many RTCs use that address, I added a pull up resistor to AD0 to give it a 0x69 address.

Emiliano Wu

| Jan 29, 2021

The five stars are deserving

5/5

I really like it because it is so.

Carter Molina

| Mar 07, 2021

I found the packaging to be poor

3/5

I will not be able to use this for a little while, but I am concerned that the 90 degree pins were smashed flat and that one of the blockers that held them in place was cracked. Perhaps it isn't the end of the world but who knows what impacts were placed on the board as a result. I would like to see some improvements made in the packaging.