Product Description:
KQ6IMU100 is a module that makes use of MEMS technology to track
the angular velocity and acceleration of the carrier in three
directions. MEMS stands for Micro-Electro-Mechanical Systems. It is
a technology that involves miniaturizing mechanical and electrical
components on a micro scale to create an integrated system.
MEMS systems consist of micro-sensors that detect changes in the
environment, micro-actuators that move or control the system,
micro-mechanical structures that make up the system, and signal
processing units that interpret the data collected. They can be
powered by micro-energy sources and have interfaces for
communication with other systems.
MEMS products are integral to a wide variety of devices and
applications, including accelerometers, optical sensors, pressure
sensors, gyroscopes, humidity sensors, gas sensors, and many more.
These products are often integrated with other MEMS components to
create complete systems.
MEMS has enabled the production of independent intelligent systems
that can be mass-produced. Despite their small size, these systems
can perform complex tasks with high accuracy. The internal
structure of a MEMS system is typically on a micron or even a
nanometer scale.
Features:
● Small Size,27mmX27mmX10mm
● Easy to be integrated by connect the digital interface RS422.
● Dual redundancy design to sets of gyro and accelerator
integrated.
● Bias < 0.05°
Technical Parameters:
| Parameter | KQ6IMU100 |
| Power supply parameter |
| Input Voltage | 5±0.2 V DC |
| Input Current | ≤100mA |
| Product performance |
| GYRO | Range | ±400°/s |
| Bias | 0±0.05°/s |
| Bias stability | ≤30°/h |
| Scale factor | 70±3LSB/°/s |
| Scale factor nonlinearity | ≤200ppm |
| Vibration error | ≤0.03°/s |
| Bandwidth | ≥100Hz |
| Accelerometer | Range | ±10g |
| Bias | 0±0.02g |
| Bias stability | ≤0.002g |
| Scale factor | 1000±30LSB/g |
| Bandwidth | ≥400Hz |
| Interface | RS422(1-bit start +8-bit data +1-bit even parity check +1-bit stop) |
| Baud rate | 460800bps |
| Inner Data update speed | ≤2.5ms |
| Environment |
| Operating temperature | -40~+65℃ |
| Random vibration | 6.06 g |
Dimensions:
Applications:
Robotics, which involves the conception, design, and development of
robots, has become one of the most innovative and important fields
in technology. The use of robotics has revolutionized various
industries, including manufacturing and healthcare, by automating
processes and tasks.
Flight testing is a crucial step in the process of designing,
developing, and certifying aircraft. Flight testing involves
putting prototypes of aircraft through their paces in simulated or
real-world settings to ensure they can safely and reliably perform
their intended functions. It's an important process in guaranteeing
the safety of aircraft and passengers.
Guidance and control systems are essential components in aircraft
and spacecraft. They work together to guide and direct the vehicle,
ensuring stability and control at all times. Advanced guidance and
control systems are essential for successful and efficient
aerospace operations.
Short-term navigation is an essential function in aerospace,
particularly in air traffic control. It involves directing aircraft
on the most direct and efficient routes while ensuring safety and
avoiding any potential hazards. Advanced navigation systems and
technologies are constantly being developed to improve air traffic
control and make air travel safer and more efficient for all.
Aerospace encompasses the design, development, and operation of
vehicles that fly within or beyond the Earth's atmosphere. This
includes aircraft, rockets, satellites, and spacecraft. Aerospace
engineering is a complex, challenging and exciting field that
requires a wide range of skills and expertise.
Support and Services:
Our Electronic Gyroscope Sensor is designed with precision to
provide reliable performance for your applications. Our support
includes detailed product documentation, an extensive online
knowledge base, and troubleshooting guides to help you resolve any
issues you may encounter.
We are committed to the satisfaction of our customers and strive to
provide exceptional after-sales support. Should you have any
feedback or suggestions, we welcome your input as it helps us to
continuously improve our products and services.
Packing and Shipping:
The Electronic Gyroscope Sensor is housed in a robust, anti-static
packaging to ensure the device remains secure and undamaged during
transit. The interior of the packaging is lined with a cushioning
material that absorbs shocks and vibrations, providing additional
protection for the sensitive components of the sensor.
Prior to shipment, each package is sealed and subjected to a
thorough inspection to guarantee that the sensor is securely
enclosed. The exterior of the packaging is clearly labeled with
handling instructions and the package contents to facilitate
careful handling and to inform the recipient about the enclosed
device.
For shipping, the packaged Electronic Gyroscope Sensor is placed in
a larger, durable cardboard box designed to withstand the rigors of
transport. This box is further secured with packing tape and, if
necessary, additional cushioning materials are added to prevent
movement within the box during shipment.
Each shipment includes a detailed packing slip with product
information and a unique serial number for inventory tracking and
quality control purposes. The package is then dispatched through a
reliable courier service with options for tracking and insurance to
ensure the Electronic Gyroscope Sensor arrives at its destination
promptly and in pristine condition.
