 |
| Place of Origin: | China (Mainland) |
| Brand Name: | Kacise |
| Certification: | certificate of explosion-proof, CE |
| Model Number: | KQRS14 |
| 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 |
| Bias Variation Over Temperature (Dev. From 22°C): | <3.0°/sec. | G Sensitivity (Typical): | ≤1.0°/sec. |
|---|---|---|---|
| Bias Calibration (at 22°C Typical): | +2.5 ±0.045 Vdc | Vibration Operating: | 5 Grms 20 Hz To 2 KHz Random |
| Full Scale Output (Nominal): | ±5 Vdc | Input Current: | <20~25mA |
| Shock: | 200g,any Axis | Scale Factor Calibration (at 22°C Typical): | ±2% Of Value |
| High Light: | Robotics Quartz MEMS Gyroscope,Full Scale Output Quartz MEMS Gyroscope |
||
The KQRS14 is a powerful inertial sensor commonly used for measuring angular rotation rates. The device is compact and rugged, making it suitable for harsh industrial environments. Its monolithic quartz sensing element provides unparalleled accuracy, while its internal power regulation ensures stable and reliable operation.
The KQRS14 is available in two versions, making it a versatile solution for a range of applications. The +12Vdc version is designed for operation using standard battery power and provides a high-level output of +1.0 to +4.0 Vdc. The plus and minus15 Vdc version is designed for use with conventional double-sided power supplies and provides a high-level bipolar output of ±5 Vdc.
● Compact,Lightweight Design
● Wide Temperature Range
● DC Input/High-Level DC Output
● lnternal Power Regulation
● High Reliability
● Shock Resistant
| Parameter | KQRS14-0XXXX-102** | KQRS14-0XXXX-103** |
| Power Requirements | ||
| Input Voltage | +9 to +18 Vdc | +9 to +18 Vdc |
| Input Current | <20 mA | <25 mA (each supply) |
| Performance | ||
| Standard Ranges | ±50,100,200,500°/sec. | |
| Full Scale Output (Nominal) | +1.0 Vdc (-FS) to +4.0 Vdc (+FS) | ±5 Vdc |
| Scale Factor Calibration (at 22°C Typical) | ±2% of value | |
| Scale Factor Over Temperature (Dev. from 22°C Typical) | ≤0.06%/°C | |
| Bias Calibration (at 22°C Typical) | +2.5 ±0.045 Vdc | 0.0±0.075 Vdc |
| Bias Variation over Temperature (Dev. from 22°C) | <3.0°/sec. | |
| Short Term Bias Stability (100 sec at const. temp) | <0.05°/sec, typical | |
| Long Term Bias Stability (1 year) | ≤1.0°/sec. | |
| G Sensitivity (Typical) | ≤0.06°/sec/g | |
| Start-Up Time (Typical) | <2.0 sec | |
| Bandwidth (-90° Phase Shift) | >50 Hz | |
| Non-Linearity (Typical) % Full Range | ≤0.05% of F.R. | |
| Threshold/Resolution | ≤0.004°/sec.* | |
| Output Noise (DC to 100 Hz) | ≤0.05°/sec./√Hz* | ≤0.02°/sec./√Hz* |
| Weight | ≤50 grams | |
| Environments | ||
| Operating Temperature | -40°C to +85°C | |
| Storage Temperature | -55°C to +100°C | |
| Vibration Operating*** | 5 grms 20 Hz to 2 kHz random | |
| Vibration Survival*** | 10 grms 20 Hz to 2 kHz random 5 minutes/axis | |
| Shock | 200g,any axis | |
Dimensions:
KQRS14-0XXXX-102 pin assignment
| Num | Explain | Num | Explain |
| 1 | Power and Signal Ground | 5 | Rate Output |
| 2 | +Vdc Input | 6 | No connection, Leave Open |
| 3 | No connection, Leave Open | 7 | Built-in-test |
| 4 | No connection, Leave Open |
KQRS14-0XXXX-103 pin assignment
| Num | Explain | Num | Explain |
| 1 | -Vdc Input | 5 | Rate Output |
| 2 | +Vdc Input | 6 | No connection, Leave Open |
| 3 | Power Ground | 7 | Built-in-test |
| 4 | Signal Ground |
Platform Stabilization:
In order to ensure a smooth and stable ride, platform stabilization technology is employed. This technology is particularly useful in applications that require precision and stability, such as scientific research platforms, marine vessels, and heavy equipment. Platform stabilization technology uses a combination of sensors and control algorithms to counteract any unwanted movements, ensuring that the platform remains stable and safe.
Short Term Navigation:
Short term navigation technology is used for a variety of applications, such as vehicle tracking and navigation. It uses a combination of sensors and algorithms to calculate the position, velocity, and orientation of a vehicle or platform in real-time. This information is then used to determine the optimal path for the vehicle or platform to follow. Short term navigation technology can be particularly useful in emergency situations where quick, accurate navigation is essential.
GPS Augmentation:
In order to improve the accuracy and reliability of GPS systems, GPS augmentation technology can be employed. This technology uses a combination of ground-based stations and satellite systems to provide additional data to GPS systems. This additional data can be used to correct errors in GPS measurements, as well as to improve the accuracy of GPS position calculations. GPS augmentation technology can be particularly useful in applications such as aviation, where precise navigation is essential for safety.
Camera Stabilization:
Camera stabilization technology is used to ensure that camera systems remain stable and steady, even in challenging environments. This technology uses a combination of sensors and control algorithms to counteract any unwanted movements, such as vibrations or jerks. Camera stabilization technology can be particularly useful in applications such as aerial photography, where smooth footage is essential.
Instrumentation:
Instrumentation refers to the use of sensors and measurement systems to gather data about a particular environment or system. This data can be used to monitor performance, detect problems, and inform control systems. Instrumentation can be used in a wide range of applications, from scientific research to industrial automation.
Ride Control Stabilization:
Ride control stabilization technology is used to ensure that vehicles and other platforms remain stable and comfortable, even in challenging environments. This technology uses a combination of sensors and control algorithms to counteract any unwanted movements, such as bumps or vibrations. Ride control stabilization technology can be particularly useful in applications such as off-road vehicles, where smooth and comfortable rides are essential.
Wind Turbine Control:
Wind turbine control technology is used to optimize the performance and safety of wind turbines. This technology uses a combination of sensors and control algorithms to adjust the pitch and speed of wind turbine blades based on changing wind conditions. Wind turbine control technology can be particularly useful in large-scale wind farms, where the efficient and safe operation of multiple turbines is essential.
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.
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.
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.
