TransducerM AHRS 9-Axis IMU for Robotics & Autonomous Vehicles (TM151)

SYD DynamicsSKU: RBC-Syd-06
Manufacturer #: SYD Dynamics

Price  :
Sale price $45.00

Shipping calculated at checkout

Stock  :

Re-stocking soon See due date

Notify me when this product is in stock

Payments and Security

American Express Apple Pay Diners Club Discover Google Pay Mastercard PayPal Shop Pay Venmo Visa

Your payment information is processed securely. We do not store credit card details nor have access to your credit card information.

Description

  • SYD Dynamics TransducerM 9-Axis AHRS IMU for Robotics & Autonomous Vehicles (TM151)
  • Precise calibrated IMU
  • Roll/Pitch/Yaw/Quaternion/Raw IMU output
  • Dual-port communication
  • Configurable output rate (400Hz Maximum)
  • Enhanced ESD protection
  • Compact design (40 x 34 x 12.6 mm)

The SYD Dynamics TransducerM AHRS 9-Axis IMU for Robotics & Autonomous Vehicles (TM151) are Attitude and Heading Reference Systems that deliver exceptional performance in roll, pitch, and yaw measurements, along with remarkable yaw stability. These dedicated AHRS are designed to provide maximum performance with cost efficiency, featuring a 9-axis heading and attitude instrument that includes a calibrated Inertial Measurement Unit (IMU). The devices are equipped with serial and USB dual ports and come with a C/C++ communication library complete with example code to facilitate custom parsing code development. Additionally, they offer a configuration GUI (ImuAssistant) for setting adjustments and data logging, and boast factory calibration by 22.5 ℃ to enhance accuracy.

The TransducerM TM151/TM171 are tailored to deliver a higher cost-performance ratio for consumer-grade and entry-level industrial applications. They are calibrated to ensure reliable gyroscope and accelerometer readings. The devices support various communication methods, including Type-C direct connection and serial communication. The communication baseboard is designed with stamp holes to simplify soldering and integration into system circuit boards.

The TM171 model is noted for its enhanced dynamic measurement performance compared to the TM151, offering basic dynamic tracking capabilities. Both models feature minimal typical yaw drift on a flat surface and low typical dynamic error in roll and pitch measurements. Yaw drift can be corrected using static start-up or manually through the API. The devices also include improved ESD protection on the TXD and RXD ports, an adjustable UART baud rate, and efficient energy consumption.

Both the TM151 and TM171 models share identical mechanical dimensions and mounting holes, and interface facilitating their integration into various systems. They communicate through dual ports: a UART (TTL serial port) that is compatible with both 3.3V and 5V TTL levels, and a Type-C USB 2.0 Virtual COM Port.

The TM171 model can achieve an output rate of up to 800Hz, with the option to configure the output rate as low as 1Hz. The TM151 model can achieve an output rate of up to 400Hz, with the option to configure the output rate as low as 1Hz.

These systems are suitable for a wide range of applications, including robotics, mobile robots, Autonomous Guided Vehicles (AGV), autonomous driving, vehicle monitoring, platform stabilization, model planes, and tracking systems.

The TransducerM TM151/TM171 should be handled with care to avoid damage to the ESD-sensitive components. It is important to follow proper static control precautions during installation and use to maintain device integrity and performance.

  • 1x SYD Dynamics TransducerM AHRS 9-Axis IMU for Robotics & Autonomous Vehicles (TM151)

  • 40 x 34 x 12.6 mm
  • 9-axis means 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer
  • Dynamic and static measure of roll, pitch, yaw measurements, Quaternion and IMU raw data output
  • Serial and USB (Type-C) dual port communication, USB is running Virtual COM Port profile and appears in Linux as /dev/ttyACMx and COMx in Windows •Configuration GUI (ImuAssistant, Windows Only) for setting and data logging
  • Example Interfacing Code: C++ for Arduino / QT / Raspberry Pi Pico / ROS 1 / ROS 2 (Available on SYD Dynamics website), C language example
  • Factory Calibration by 22.5°C for improved accuracy
  • Communication baseboard with stamp holes for integration
  • Yaw drifting: 3.0° every 25 minutes (TM151) and 2.6° every 25 minutes (TM171), typical car driving on flat city road test conditions when QoS reaches 5. •Typical dynamic Roll and Pitch error in RMS: <1.5 ° (TM151) and <1.0 ° (TM171)
  • Gyroscope measurement range: ± 1000 °/s, Resolution: 0.01°/s
  • Gyroscope Non-linearity: <0.3% FS TYP (TM151), <0.2% FS TYP (TM171)
  • Accelerometer measurement range: ±10g
  • Digital compass function.
  • ESD protection on TXD and RXD port
  • Adjustable UART baud rate
  • Low energy consumption: 80mA at 5V
  • Output rate: 800Hz (TM171 only), 400Hz, 200Hz, 100Hz, 50Hz, 25Hz, 10Hz, 5Hz, 1Hz
  • Quality-of-Service (QoS) for healthiness and data quality measure

Customer Reviews

Be the first to write a review
0%
(0)
0%
(0)
0%
(0)
0%
(0)
0%
(0)

Estimate shipping

You may also like