RPM
CS Lab Limited provides both contact and non-contact RPM calibration services, ensuring that your RPM sensors are accurately calibrated for reliable performance in various industrial and laboratory applications.
In contact (0 to 6000) RPM calibration, the sensor directly interacts with the rotating object, typically through a mechanical or electrical connection. This process is commonly used when the sensor is in direct contact with the rotating machinery or part. The existing RPM sensor's readings are verified by comparing them to a calibrated reference sensor or tachometer. A calibrated tachometer or other RPM-measuring equipment may be attached to the rotating part. The sensor's readings are compared with this reference to identify any discrepancies. After successful calibration, CS Lab provides calibration certificates, including details measurements.
In non-contact (0 to 50000) RPM calibration, the sensor measures the RPM of a rotating object without physically touching it. This is typically achieved through optical sensors, infrared sensors, or laser tachometers that detect the motion of the rotating part. A laser tachometer or optical sensor is aligned to the rotating surface of the equipment. This allows the sensor to detect rotations without direct contact. The RPM values are compared against a highly accurate reference standard, typically a strobe light or another optical measuring instrument. Once calibration is complete, CS Lab provides documentation certifying the accuracy of the RPM readings, ensuring compliance with industry standards.
CS Lab uses high-precision calibration tools and reference devices to ensure that your RPM sensors provide accurate readings. The team at CS Lab has extensive experience with both contact and non-contact calibration methods.
Whether you need contact or non-contact calibration, CS Lab can meet your specific needs, ensuring optimal sensor performance. After calibration, you receive a certificate of calibration, ensuring your RPM sensors meet industry standards and regulatory requirements.