- December 15, 2016
- Fluke Corporation
December 15, 2016 - Fluke Process Instruments announces the DATAPAQ SelectivePaq, a thermal profiling system designed specifically for miniature wave selective soldering processes. The DATAPAQ SelectivePaq uses four thermocouples to take measurements from the electronic assembly as it passes through the preheating and dip soldering phases. Sample intervals can be adjusted to up to 20 times per second. The detailed temperature profiles enable electronics manufacturers to adjust their operations for optimum efficiency, validate the consistent quality of PCBs to customers, and prove adherence to both solder and component temperature constraints.
The profiling system combines a four-channel DATAPAQ Q18 micro data logger with micro-miniature thermocouple plugs and a thermal shield 20 mm high and 40 mm wide. It is therefore optimally suited to monitor the performance of machines that offer very restricted space and for use with holding frames. The complementary DATAPAQ Selective Soldering Process Sensor Array facilitates regular and frequent process stability measurements.
The logger provides an accuracy of ±0.5 °C and resolution of 0.1 °C. It connects up to three height-adjustable wave contact thermocouples and up to two preheat thermocouples for monitoring both process phases. The preheat thermocouples contain a top and a bottom sensor and are designed to work with IR and convection preheat technologies. The machined-from-solid aluminum logger case and user-replaceable rechargeable battery pack ensure a long operational life and lowest ownership costs. The system is supplied with the full DATAPAQ Insight Reflow software. Data analysis includes maximum slopes, maximum temperatures, and wave contact times. The software enables data export to other Windows-compatible programs.
About Fluke Process Instruments
Fluke Process Instruments designs, manufactures, and markets a complete line of infrared temperature measurement and profiling solutions for industrial, maintenance, and quality control applications.