Fiber Connector Core Tuner S Tester
Core Tuner is fiber optic connector concentricity testing and adjusting equipment developed by Dimension Technology based on many years of experience in instrument development.We developed two types of equipment— Core Tuner S (automatic) and Core Tuner (manual) to meet different requirements from customers. The instruments define new standards of concentricity machines. Superior image processing capabilities gives Core Tuner excellent performance---high numerical accuracy, repeatability. The systems are automatic, intelligent, easy to use with strong vibration resistance and durability.
Auto mark KEY
Can test APC connector
Easy to use Vibration resistance
Fiber connector has loss in data-link due to many causes, such as horizontal mismatch, vertical mismatch and axial mismatch.The main cause of insert loss is horizontal mismatch. The mismatch between two fiber cores will cause large insert loss .
High Accuracy, High Repeatability
Here are 10 PCS tested pieces of charts and data, using 100000 times fixture repeat test after aging 20 times of the test data.
Auto Mark Key
Core Tuner S at 2.5 mm / 1.25 mm Ferrule measurement mode, the single test task is completed, the hardware automatic adjust the Angle of Bearing to the required range, at the same time the software Interface indicates KEY position, convenient for the subsequent assembly work.
Powerful Testing Function
Core Tuner not only can measure the optical fiber connector after assembly concentricity, can also test of optical fiber connector assembly concentricity, and adjust the fiber Core of deviation Angle, labeled assembly position, so as to reduce the wastage of the optical fiber connector, the connector of the overall quality improved greatly.
Core Tuner tuning right at the same time can also detect naked insert Core concentricity, as well as the single Core insert Core, connectors, face detection.
Can Test APC Connector
CORE TUNER not can ditect PC connectors,but also can detect APC connectors with out replacing fixture.