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The KLCG50 (Low Cost Gyro 50) is a small-size PC board that comes equipped with MEMS (micro-electro-mechanical System) single-axis angular velocity sensor. This sensor is a self-contained unit that only needs a single DC voltage to measure the angular rate.
The LCG50 is a perfect choice for embedded applications where installation versatility is a necessity and unit price should be low. Moreover, if robustness is deemed vital and performance characteristics should be matched with more expensive instrument-grade rate sensors, then LCG50 is the best fit for the job.
Despite its small size and low price, the LCG50 guarantees exceptional performance. Besides, it comes with the added benefit of being an easy-to-use and self-contained unit that provides accurate measurements of angular velocity.
● Proven MEMS Technology
● DC Voltage Output
● Wide Bandwidth
● Analog Voltage Output
● Low Power Consumption
● High Reliability
● Wide Operating Temperature Range
● Small Size
● Fast Start-Up
● DC in DC out
● Temperature Sensor Output
| Parameter | KLCG50-00020-100 | KLCG50-00100-100 | KLCG50-00250-100 | KLCG50-00500-100 |
| Power Requirements | ||||
| Input Voltage | +5.0 Vdc | |||
| Input Current | < 8 mA @ +5.0 Vdc | |||
| Performance | ||||
| Standard Range Full Scale | ± 20°/sec. | ± 100°/sec. | ± 250°/sec. | ± 500°/sec. |
| Scale Factor Calibration(at 22°C) | 50 mV/°/sec ± 15% | 16 mV/°/sec ± 15% | 6.4 mV/°/sec ± 15% | 3.2 mV/°/sec ± 15% |
| Scale Factor over Temperature | < 0.1%/°C | |||
| Bias Calibration(at 22°C) | +2.5 Vdc ± 0.6 Vdc | +2.5 Vdc ± 0.6 Vdc | +2.5 Vdc ± 0.6 Vdc | +2.5 Vdc ± 0.6 Vdc |
| Bias Variation over Temperature | 10°/sec. | 8°/sec. | 10°/sec. | 20°/sec. |
| G Sensitivity(Typical) | < 0.05°/sec/g | |||
| Start-Up Time(Typical) | < 2.0 sec. | |||
| Bandwidth(-3 dB) | > 50 Hz | |||
| Non-Linearity(% Full Range) | < 0.05% | |||
| Output Noise(DC to 100Hz) | ≤ 0.005°/sec./√ Hz | ≤ 0.005°/sec./√ Hz | ≤ 0.006°/sec./√ Hz | ≤ 0.01°/sec./√ Hz |
| Scale Factor(Temperature Sensor) | 6.25 mV/°C Typical | |||
| Output Voltage at 0°C(Temperature Sensor) | +424 mV Typical | |||
| Environments | ||||
| Operating Temperature | -40°C to +85°C | |||
| Storage Temperature | -55°C to +100°C | |||
| Vibration Operating | 5 grms | |||
| Vibration Survival | 10 grms | |||
| Shock | 500g PK ½ sine 2msec | |||
| Weight | < 0.4 oz. [12 grams] | |||
Monitoring and measuring the performance of a vehicle requires accurate instrumentation. Modern vehicles are equipped with a variety of sensors that detect changes in speed, temperature, pressure, and other important parameters. These sensors provide critical data to the vehicle's onboard computer, allowing it to optimize performance and diagnose any issues. Vehicle instrumentation is essential for ensuring safe and efficient operation of all types of vehicles, from cars and trucks to airplanes and spacecraft.
Robotics is a field of engineering that focuses on designing and building robots that can perform tasks automatically. Robots can be found in many different applications, from manufacturing to healthcare to space exploration. Robotics combines knowledge from many different fields, including computer science, electrical engineering, and mechanical engineering. Robotics engineers work on developing control systems that allow robots to move, sense their environment, and interact with other objects. Robotics is one of the fastest-growing fields in engineering today, and its potential applications are virtually limitless.
Flight testing is a crucial component of aerospace engineering. Before any aircraft can be certified for commercial use, it must undergo extensive testing to ensure that it is safe and reliable. Flight tests involve a series of maneuvers designed to test the aircraft's performance under a variety of conditions. Engineers use data gathered during these tests to make improvements and adjustments to the aircraft's design. Flight testing is an essential part of the aircraft development process, and it requires a high degree of skill and precision.
Guidance and control systems are used to guide and manage the motion of vehicles and other machines. These systems use sensors, algorithms, and other components to ensure that the machine moves in the desired manner. These systems can be found in a variety of applications, from aircraft and spacecraft to autonomous vehicles and robots. Guidance and control systems play a critical role in ensuring safe and reliable operation of these machines, and they require sophisticated algorithms and complex hardware to function properly.
Short-term navigation is the process of determining the position and direction of a vehicle over short distances. This type of navigation is often used in urban environments, where buildings and other obstacles can interfere with satellite-based navigation systems. Short-term navigation systems typically use sensors and other onboard equipment to determine the vehicle's location and direction of travel. These systems are essential for providing accurate and reliable navigation information to drivers and other users.
Ride control and stabilization systems are used to improve the handling and stability of vehicles and other machines. These systems use sensors and other components to detect changes in the vehicle's motion and adjust the vehicle's suspension or other systems accordingly. These systems can improve handling, reduce vibration and noise, and provide a more comfortable ride for passengers and operators. Ride control and stabilization systems are used in a variety of applications, from cars and trucks to heavy machinery and industrial equipment.
The Electronic Gyroscope Sensor is a high-precision sensor that measures angular velocity along three axes. Our Technical Support team is available to assist you with any issues you may encounter with this product. Our services include:
Our team of experts is dedicated to ensuring that you have the best possible experience with our product. Please do not hesitate to contact us if you need any assistance.
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