 |
| Place of Origin: | China (Mainland) |
| Brand Name: | Kacise |
| Certification: | certificate of explosion-proof, CE |
| Model Number: | KLCG50 |
| Minimum Order Quantity: | 1pcs |
|---|---|
| Packaging Details: | each unit has individual box and all boxes are packed in standard packages or customers requests available |
| Delivery Time: | 5-8 working days |
| Payment Terms: | T/T, Western Union, MoneyGram |
| Supply Ability: | 1000 Pieces per Week |
| Vibration Operating: | 5 Grms | Input Current: | < 8 MA @ +5.0 Vdc |
|---|---|---|---|
| Output Noise(DC To 100Hz): | ≤ 0.005~0.01°/sec./√ Hz | Scale Factor(Temperature Sensor): | 6.25 MV/°C Typical |
| Weight: | < 0.4 Oz. [12 Grams] | Start-Up Time(Typical): | <2s |
| Input Voltage: | +5.0 Vdc | Standard Range Full Scale: | ± 20~± 500°/sec. |
| High Light: | Lightweight MEMS quartz rate sensor,5v MEMS quartz rate sensor,2s MEMS quartz rate sensor |
||
The KLCG50, also known as the Low Cost Gyro 50, is a small PC board that provides a highly efficient micro-electro-mechanical system (MEMS) single-axis angular velocity sensor. The sensor comes as a complete unit and only needs a single DC voltage input to measure the angular rate.
It is specially designed for use in embedded applications where versatility during installation is essential. Even though it is offered at a low unit price, the KLCG50 remains very robust and provides performance characteristics that are comparable to more expensive instrument-grade rate sensors.
The KLCG50 is an excellent choice for applications where cost-effectiveness is crucial, and reliability is highly valued. Its small size and low-cost make it an ideal solution for numerous applications, including drones, robotics, and aerospace.
As more businesses are looking to reduce cost while still maintaining functionality, the KLCG50 offers a feasible option for those in need of such a sensor in their projects.
● 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 analyzing the performance of vehicles can provide essential information that aids in maintenance, safety, and efficiency. Vehicle instrumentation involves the use of sensors and data analysis techniques to gather and interpret data from various systems in a vehicle. This can include engine performance, fuel consumption, suspension, and braking. The information gathered from vehicle instrumentation enables operators to make informed decisions about when maintenance is required, identify potential problems before they occur, and optimize performance.
Robotics is the field of study that deals with the design, construction, and operation of robots. Robots are becoming increasingly common in various industries, including manufacturing, healthcare, and agriculture. The use of robotics can improve efficiency and safety while reducing labor costs. Robotics involves a range of skills, including mechanical engineering, electrical engineering, and computer science. Robotics experts work on developing new types of robots, improving robot capabilities, and integrating robotics into existing systems.
Flight testing involves the testing of aircraft designs to ensure that they are safe and meet performance standards. Flight testing can involve a range of tests, including aerodynamic testing, structural testing, and systems testing. Flight testing is a critical process that ensures that aircraft are safe to operate. Flight testing can also identify potential problems with aircraft designs, allowing for improvements to be made before the aircraft enters service.
Guidance and control systems are used to control the movement of various types of vehicles, including aircraft, spacecraft, and missiles. These systems use sensors and control algorithms to maintain the desired trajectory and stability of the vehicle. Guidance and control systems are critical to ensuring the safety and effectiveness of these vehicles. Experts in guidance and control systems work on developing new control algorithms, optimizing existing systems, and integrating new technologies into these systems.
Short-term navigation is the process of determining the position and direction of movement of a vehicle over a relatively short period of time. This can involve the use of GPS, inertial sensors, and other types of positioning technology. Short-term navigation is used in a range of applications, including aircraft and ships. Short-term navigation provides critical information that aids in the safe and efficient operation of these vehicles, particularly in areas where visibility may be limited.
Ride control and stabilization involves the use of various systems to improve the stability and comfort of vehicles. This can include active suspension systems, anti-lock braking systems, and traction control systems. Ride control and stabilization are used in a range of vehicles, including cars, trucks, and trains. These systems improve safety, reduce wear and tear on vehicles, and improve passenger comfort.
Our Electronic Gyroscope Sensor is designed to provide precise motion sensing in a variety of applications. Our product technical support and services are dedicated to ensuring that you can integrate and use our gyroscope sensor effectively in your projects.
Technical Support:
- Comprehensive online documentation: Access detailed product specifications, integration guides, and troubleshooting articles to assist you with any technical queries regarding our Electronic Gyroscope Sensor.
Services:
- Email support: Reach out to our dedicated support team for personalized assistance with any technical issues you may encounter.
We are committed to providing you with the support you need to utilize our Electronic Gyroscope Sensor to its fullest potential.
Product Packaging:
The Electronic Gyroscope Sensor comes securely packaged in an anti-static bag to prevent any electrostatic discharge during handling. The bag is then placed in a custom-fit foam insert that snugly holds the sensor in place, ensuring maximum protection against physical shocks and vibrations. This foam is encased in a sturdy cardboard box which is sealed and labeled with the product information and handling instructions. The packaging has been designed to be compact while offering the best possible protection for the sensitive electronics inside.
Shipping:
Once the Electronic Gyroscope Sensor is packaged, it is ready for shipping. The boxed product is placed in a secondary, larger cardboard box with additional cushioning material to fill any void space, minimizing movement during transit. Fragile stickers are applied to the outer box to alert couriers that the contents require careful handling. The package is then sealed with heavy-duty packing tape and dispatched using a reliable shipping service that provides a tracking number. Customers will receive their tracking information via email to monitor their package's journey until delivery.
Contact Person: Ms. Evelyn Wang
Tel: +86 17719566736
Fax: 86--17719566736
Address: i City, No11, TangYan South road, Yanta District, Xi'an,Shaanxi,China.
Factory Address:i City, No11, TangYan South road, Yanta District, Xi'an,Shaanxi,China.
