Section 8. Operation
357
used to calculate the temperature from resistance, the accuracy of panel
temperature is estimated in FIGURE: Panel Temperature Error Summary
(p. 358).
In summary, error is estimated at ± 0.1 °C over 0 to 40 °C, ± 0.3 °C from –25 to
50 °C, and ± 0.8 °C from –55 to 85 °C.
The error in the reference temperature measurement is a combination of the error
in the thermistor temperature and the difference in temperature between the panel
thermistor and the terminals the thermocouple is connected to. The terminal strip
cover should always be used when making thermocouple measurements. It
insulates the terminals from drafts and rapid fluctuations in temperature as well as
conducting heat to reduce temperature gradients. In a typical installation where
the CR3000 is in a weather-tight enclosure not subject to violent swings in
temperature or uneven solar radiation loading, the temperature difference between
the terminals and the thermistor is likely to be less than 0.2 °C.
With an external driving gradient, the temperature gradients on the input panel
can be much worse. For example, the CR3000 was placed in a controlled
temperature chamber. Thermocouples in terminals at the ends and middle of each
analog terminal strip measured the temperature of an insulated aluminum bar
outside the chamber. The temperature of this bar was also measured by another
datalogger. Differences between the temperature measured by one of the
thermocouples and the actual temperature of the bar are due to the temperature
difference between the terminals the thermocouple is connected to and the
thermistor reference (the figures have been corrected for thermistor errors).
FIGURE: Panel Temperature Gradients (Low to High)
(p. 358)
shows the errors
when the chamber was changed from low temperature to high in approximately 15
minutes. FIGURE: Panel Temperature Gradients (High to Low)
(p. 359)
shows the
results when going from high temperature to low. During rapid temperature
changes, the panel thermistor will tend to lag behind terminal temperature because
it is mounted deeper in the CR3000.
Содержание CR3000 Micrologger
Страница 2: ......
Страница 3: ......
Страница 4: ......
Страница 6: ......
Страница 30: ......
Страница 34: ......
Страница 36: ......
Страница 96: ......
Страница 200: ...Section 7 Installation 200 FIGURE 42 Running Average Frequency Response FIGURE 43 Running Average Signal Attenuation ...
Страница 485: ...Section 8 Operation 485 8 11 2 Data Display FIGURE 110 Keyboard and Display Displaying Data ...
Страница 487: ...Section 8 Operation 487 FIGURE 112 CR1000KD Real Time Custom ...
Страница 488: ...Section 8 Operation 488 8 11 2 3 Final Storage Data FIGURE 113 Keyboard and Display Final Storage Data ...
Страница 489: ...Section 8 Operation 489 8 11 3 Run Stop Program FIGURE 114 Keyboard and Display Run Stop Program ...
Страница 491: ...Section 8 Operation 491 FIGURE 116 Keyboard and Display File Edit ...
Страница 495: ...Section 8 Operation 495 Low power standby whenever possible Low power bus sets bus and modules to low power ...
Страница 496: ......
Страница 502: ......
Страница 564: ...Section 11 Glossary 564 FIGURE 126 Relationships of Accuracy Precision and Resolution ...
Страница 566: ......
Страница 594: ......
Страница 598: ......
Страница 600: ......
Страница 602: ......
Страница 624: ......
Страница 642: ......
Страница 643: ......