Best razor imu list

We spent many hours on research to finding razor imu, reading product features, product specifications for this guide. For those of you who wish to the best razor imu, you should not miss this article. razor imu coming in a variety of types but also different price range. The following is the top 4 razor imu by our suggestions:

Product	Features	Editor's score	Go to site
	SparkFun (PID 14001) 9DoF Razor IMU M0		Go to amazon.com
	9 Degrees of Freedom - Razor IMU		Go to amazon.com
	9 Degrees of Freedom - Razor IMU (Discontinued)		Go to amazon.com
	SparkFun (PID 13762) IMU Breakout - MPU-9250		Go to amazon.com

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1. SparkFun (PID 14001) 9DoF Razor IMU M0

Feature

Features MPU-9250 three 3-axis sensors
Accelerometer, gyroscope and magnetometer
Atmel SAMD21 cortex-M0+ 32-bit ARM micro controller (Arduino compatible with boot loader)
9DoF (9 Degrees of Freedom) for multipurpose IMU (Inertial Measurement Unit)
Includes a microSD card socket, LiPo battery charger

Description

The SparkFun 9DoF Razor IMU M0 combines a SAMD21 microprocessor with an MPU-9250 9DoF (9 Degrees of Freedom) sensor to create a tiny, reprogrammable, multipurpose IMU (Inertial Measurement Unit). It can be programmed to monitor and log motion, transmit Euler angles over a serial port or even act as a step-counting pedometer.

The 9DoF Razor's MPU-9250 features three 3-axis sensors-an accelerometer, gyroscope and magnetometer-that give it the ability to sense linear acceleration, angular rotation velocity and magnetic field vectors. The onboard microprocessor, Atmel's SAMD21, is an Arduino-compatible, 32-bit ARM Cortex-M0+ microcontroller also featured on the Arduino Zero and SAMD21 Mini Breakout boards.

In addition to a pair of ICs, the 9DoF Razor IMU includes a SD card socket, LiPo battery charger, power-control switch, and a host of I/O breakouts for project expansion. It comes preprogrammed with example firmware and an Arduino-compatible bootloader, so you can customize the firmware and flash new code over a USB connection.

2. 9 Degrees of Freedom - Razor IMU

Feature

Outputs of all sensors processed by on-board ATmega328 and sent out via a serial stream
Autorun feature and help menu integrated into the example firmware
Output pins match up with FTDI Basic Breakout, Bluetooth Mate, XBee Explorer
3.5-16VDC input
ON-OFF control switch and reset switch

Description

The 9DOF Razor IMU incorporates three sensors - an ITG-3200 (MEMS triple-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883L (triple-axis magnetometer) - to give you nine degrees of inertial measurement. The outputs of all sensors are processed by an on-board ATmega328 and output over a serial interface. This enables the 9DOF Razor to be used as a very powerful control mechanism for UAVs, autonomous vehicles and image stabilization systems. The board comes programmed with the 8MHz Arduino bootloader (stk500v1) and some example firmware that demos the outputs of all the sensors. Simply connect to the serial TX and RX pins with a 3.3V FTDI Basic Breakout, open a terminal program to 57600bps and a menu will guide you through testing the sensors. You can use the Arduino IDE to program your code onto the 9DOF, just select the 'Arduino Pro or Pro Mini (3.3v, 8mhz) w/ATmega328' as your board. The 9DOF operates at 3.3VDC; any power supplied to the white JST connector will be regulated down to this operating voltage - our LiPo batteries are an excellent power supply choice. The output header is designed to mate with our 3.3V FTDI Basic Breakout board, so you can easily connect the board to a computer's USB port. Or, for a wireless solution, it can be connected to the Bluetooth Mate or an XBee Explorer.

3. 9 Degrees of Freedom - Razor IMU (Discontinued)

Feature

9 Degrees of Freedom on a single, flat board:
ITG-3200 - triple-axis digital-output gyroscope
ADXL345 - 13-bit resolution, 16g, triple-axis accelerometer
HMC5883 - triple-axis, digital magnetometer
Outputs of all sensors processed by on-board ATmega328 and sent out via a serial stream

Description

This product has been discontinued since April 15th, 2015.

The 9DOF Razor IMU incorporates four sensors - an LY530AL (single-axis gyro), LPR530AL (dual-axis gyro), ADXL345 (triple-axis accelerometer), and HMC5883 (triple-axis magnetometer) - to give you nine degrees of inertial measurement. The outputs of all sensors are processed by an on-board ATmega328 and output over a serial interface. With the work of Jordi Munoz and many others, the 9DOF Razor can become an Attitude and Heading Reference System. This enables the 9DOF Razor to become a very powerful control mechanism for UAVs, autonomous vehicles and image stabilization systems.

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The board comes programmed with the 8MHz Arduino bootloader and example firmware that tests the outputs of all the sensors. Simply connect to the serial TX and RX pins with a?3.3V FTDI Basic Breakout, open a terminal program to 57600bps and a menu will guide you through testing the sensors. You can use the Arduino IDE to program your code onto the 9DOF, just select the 'Arduino Pro or Pro Mini ?(3.3v, 8mhz) w/ATmega328' as your board.

?

The 9DOF operates at 3.3VDC; any power supplied to the white JST connector will be regulated down to this operating voltage. The output header is designed to mate with our 3.3V FTDI Basic Breakout board, so you can easily connect the board to a computer's USB port. Or, for a wireless solution, it can be connected to the Bluetooth Mate or an XBee Explorer.

4. SparkFun (PID 13762) IMU Breakout - MPU-9250

Feature

Digital-output X-, Y-, and Z-axis angular rate sensors (gyroscopes) with a user-programmable full-scale range of 250, 500, 1,000 and 2,000/sec and integrated 16-bit ADCs
Digital-output triple-axis accelerometer with a programmable full-scale range of 2g, 4g, 8g and 16g and integrated 16-bit ADCs
3-axis silicon monolithic Hall-effect magnetic sensor with magnetic concentrator
Digitally programmable low-pass Gyroscope filter Gyroscope operating current: 3.2mA
VDD supply voltage range of 2.4 - 3.6V

Description

The SparkFun MPU-9250 IMU Breakout features the latest 9-axis MEMS sensor from InvenSense. Each of these 9DoF breakouts feature an MPU-9250 with a System in Package (SiP) that combines two chips: the MPU-6500, which contains a 3-axis gyroscope as well as a 3-axis accelerometer, and the AK8963, which features a 3-axis magnetometer. This breakout has been designed to be smaller than some of our other offerings to fit in smaller projects. However, if you plan to use a breadboard, or secure the IMU board to a project with something like epoxy, the mounting holes can be easily snapped off.

To achieve its smaller size, the MPU-9250 Breakout features PTH pins that have been wrapped around the border of the PCB in three rows of three or four. The top row (J1) is all one needs to get the most functionality out of the IMU. These include the I2C and power interface. The second most likely to be used set of PTHs are found along the bottom (J3). This includes the address pin, the interrupt pin, and the IO voltage supply for easy interface with a more modern 1.8V processor. The third, a non-breadboard-compatible row (J2), is used for features like running other I2C devices as slaves to this one. For prototyping with these connections, throw your connections on top as you would with an Arduino Pro Mini or similar product.

The MPU-9250 replaces the popular EOL MPU-9150 and decreases power consumption by 44 percent. According to InvenSense, "Gyro noise performance is 3x better, and compass full-scale range is over 4x better than competitive offerings." The MPU-9250 uses 16-bit Analog-to-Digital Converters (ADCs) for digitizing all nine axes, making it a very stable 9 Degrees of Freedom board.

Conclusion

All above are our suggestions for razor imu. This might not suit you, so we prefer that you read all detail information also customer reviews to choose yours. Please also help to share your experience when using razor imu with us by comment in this post. Thank you!