Overview of MPU-6500 by TDK Corporation
The MPU-6500 by TDK Corporation is a high-performance Analog Circuit integrated into a compact package. Defined by its integrated functionalities, it includes a 6-axis MEMS MotionTracking device along with a Digital Motion Processor (DMP). This device is encapsulated in a green, 3 x 3 mm, QFN-24 package with a minimal height of 0.90 mm, ensuring a low profile suitable for space-sensitive applications. Its design is based on CMOS technology, promoting low power consumption and high reliability. The device operates effectively across a broad temperature range from -40°C to 85°C, supported by an industrial temperature grade and encapsulated in a highly durable package characterized by a very thin profile and heat sink capability.
As further detailed in Part Data Attributes, the MPU-6500 functions with a nominal supply voltage of 1.8V, while capable of accommodating a range between 1.71V and 3.45V. This versatility in supply voltage and robust build makes it compliant with industrial standards, including RoHS and REACH, highlighting its utility in global markets under stringent regulatory requirements. The part’s commitment to environmentally responsible specifications is indicated by its low lead, nickel palladium gold terminal finish.
Industry Applications for MPU-6500
The MPU-6500’s technological features and specifications render it potentially suitable for various industry applications. The selection of industries leverages the device’s compactness, 6-axis motion-tracking capabilities, CMOS technology, and enhanced temperature resilience. The following are conceptual possibilities:
- Consumer Electronics: The size and motion tracking capabilities of the MPU-6500 potentially make it ideal for integration into wearable devices like smartwatches or fitness trackers. These applications benefit from the device’s ability to provide real-time motion tracking while maintaining minimal power consumption, essential for battery-operated devices.
- Internet of Things (IoT): In the realm of IoT, the MPU-6500 could potentially be used in smart home devices that require orientation or motion sensing. Devices such as automated vacuum cleaners or smart security systems might utilize the 6-axis MEMS technology to navigate environments or detect movements that trigger security alarms.
- Robotics and Drones: The robust temperature range and high performance of the MPU-6500 make it potentially suitable for drones and robotics. These applications often require precise motion tracking and orientation control in varying environmental conditions, which the MPU-6500 is equipped to handle.
Note that these potential industry applications are conceptual and would require detailed analysis and verification by engineering and design teams to ensure compliance with applicable standards and specific requirements.
About TDK Corporation
TDK Corporation, a key player in the electronic components industry, has developed a reputation for creating reliable and high-performance components across various categories. Notably, in the arena of Other Signal Circuits, TDK has contributed significantly with a variety of offerings including the MPU-6500. TDK’s commitment to innovation is evident in its development of the MPU-6500, which integrates multi-axis motion tracking with digital processing in a single device, optimized for both performance and power efficiency. The corporation’s expertise in creating products that meet stringent industrial and environmental standards is evident in their detailed product specifications and compliance codes.
Where to Find MPU-6500 by TDK Corporation
To procure the MPU-6500, a detailed search on findchips.com, specifically under the page listing the Other Signal Circuits, can provide current pricing, availability from various distributors, and possible alternatives. The part has historically been available from distributors including Mouser Electronics. To get up-to-date information on stock levels and to compare different suppliers, visiting findchips.com will provide vital purchasing information.