Used QMC DPS 600 #9379405 for sale

QMC DPS 600 is an automated prober manufactured by Quantum Measurement Corp. It is a stand-alone, fully-integrated prober equipment that is designed for probing miniature and higher density components and is able to optimize time-to-market by automating the test process of devices. It has all the advantages of Quantum Measurement Corp's advanced test system technology including superior ease of use, functionality, reliability and accuracy. DPS 600 consists of a motion table, a precision tip holder, a high-resolution optical reticle, a contactor probe head, and a thermal isolation probe head. The motion table performs precise alignments for tip-sample probing and the precision tip holder accommodates a wide variety of tips sizes. The high-resolution optical reticle allows for precise view alignment, and provides the critical optical feedback needed to ensure repeatable accuracy. The contactor prober head is designed to work in both contact and non-contact mode, and can rapidly and accurately probe components with up to a .2 inch clearance above the sample surface. The thermal isolation prober head offers superior thermal isolation and compensates for varying thermal gradients in the test environment. The probe head can work in high-frequency operation and provides excellent signal integrity. Finally, QMC DPS 600 features advanced accessories such as a high-pressure pumping unit, a manual work station, and an on-board library of probes. The pumping machine ensures precise pressure and temperature control which is critical for accurate test results. The manual work station enables quick and easy change over of test recipes, and the library enables fine micro-displacement of the probes for precise measurements and results. Overall, the Quantum Measurement Corp DPS 600 is an excellent prober for automatically testing high-density components. Its features, accessories and range of capabilities enable users to quickly produce test results with the accuracy, repeatability and reliability expected from an automated prober.