IOtech products used in this application:

• Personal Daq/50 Series USB Data Acquisition Modules • Personal DaqView Out-of-the-Box Software

The compact Personal Daq/50 Series is ideal for portable data acquisition applications.

Personal DaqView software allows users to configure a test, and display or record data within minutes, without programming

Potential Solution
A major U.S. based kiln manufacturer is particularly familiar with this technique. It has been producing ceramic and glass kilns for more than 56 years for hobbyists as well as the industrial sector. It began making measurements with a well-known brand of data logging card in a PC Jr. personal computer. Unfortunately, it could measure only five zones, an insufficient number of channels for one test to establish a temperature profile of the kiln space. Also, it required extensive programming, the data were not easy to display, and the time the card allowed for measurements was limited.

IOtech’s Solution
The Director of New Product Development needed to record at least 10 channels simultaneously to obtain an accurate kiln temperature profile or a map of temperature gradients. Since he custom designs the heaters, he adjusts the wattage rating or heat output of individual heaters in those zones where the temperature may need to be a little higher or lower.

In order to find the measurement equipment to do the job, he evaluated several different types of data acquisition systems and selected an IOtech Personal Daq. The analog I/O section provides him with the 10 channels he needs, and the unit is much easier to set up than the system in the PC Jr.

The internal controller for the kiln uses type K thermocouples for most applications, and type S for higher temperatures. Exposed thermocouple junctions are located near the center of the kiln and their lead wires are supported by ceramic insulators. No protective sheath or other type of covering is used over the junction that might affect its speed of response to temperature changes. And because the junction is exposed to an aggressive and corrosive environment, the thermocouple wire is made of an unusually large gage of wire in order to sustain from 40 to 100 firings.

The company uses the Personal Daq to develop control programs for running both manual and automatic temperature vs. time profiles for prototype kilns as well as troubleshoot customer-returned controllers. The manual control program simply measures a set point temperature and cycles the heater elements on and off to maintain a single kiln temperature within 10°F. The automatic mode comprises six to seven temperatures and ranges, and eight different heating and cooling rates, programmable through a membrane touch pad and a four-digit LED display. The Personal Daq verifies the programmable temperature profile by making certain that all heating elements in their respective zones have been properly balanced.

Kilns and controllers returned for repair are also run through a temperature profile test using the Personal Daq to ensure that they meet original product specifications. “The eight to ten thermocouple zones connected to the Personal Daq can determine if any one or more of the heaters have open or shorted elements,” says the Director of New Product Development. “In many cases, however, we find that the kiln is working to specifications.” Here, the problem is a function of the raw material to be fired, such as its moisture content or composition, which the customer formulated for the kiln, not the kiln itself.

The Director of New Product Development finds the Personal Daq’s USB port particularly convenient and effective. He also learned how to use the included software in about two days. “We don’t need a lot of different setups,” he says, “so once we establish the setup that works best for us, we just keep logging the data.” In addition to logging temperature profiles, he installed a current sensor on the proportional SCR controller, connected it to the Personal Daq, and measured the percent of power the kiln used at different temperature ranges. “Usually between 1800 and 1900°F, the kilns run 100% of the time and could lose control of the heating rate,” he says. “But before it can do that, the controller’s microprocessor automatically kicks in, calculates the heating rate, and adjusts the shut-off temperature accordingly.” Ceramics are time and temperature dependent, so for example, the kiln can run a load at 1400°F for two hours, or 1600°F for six hours to obtain the same results. All the while, the Personal Daq records the data, which helps him immensely in his design work.

One problem the company faced and was able to solve effectively was inductive pickup of the 60 Hz line voltage on the thermocouple leads. It is common to experience such interference when using unshielded thermocouples and leads in the presence of high currents such as those needed for the heating elements. The voltage exceeded 10 VAC when the kiln reached 1600°F, which affected the thermocouple readings and the Personal Daq performance. However, the problem was resolved by inserting a 60-Hz hardware filter in series with the thermocouple leads before they entered the Personal Daq.

Conclusion
The Director of New Product Development for a leading U.S. kiln manufacturer, uses a Personal Daq for measuring internal kiln temperatures to ensure uniform heat distribution. It provides new product design engineers with the data they need to adjust the output of heating elements placed in certain zones to make up for unavoidable, localized heat loss. They also use the Personal Daq to measure temperature profiles in customer-returned units in order to repair them or show the customer that the problem is with their raw glass or pottery materials, not the kiln. Customers receive a graph of the temperature vs. time profile to show that the kiln is within specifications, whether it needed repair or not.

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