Lake Shore Model 321 Autotuning Temperature Controller User’s Manual
Application Notes
D-7
For Further Reading
1.
E. M. Forgan, "On the Use of Temperature Controllers in Cryogenics". Cryogenics 14 (1974), pp. 207-214. This is a
cogent discussion of the interaction between the electrical and thermal response times in a typical
cryogenic
control
system. The mathematical analyses are straightforward and relatively easy to follow.
2.
A series on "process Control" published in the journal, Measurement & Control, Part 3, "On/Off and Proportional
Control", September 1984, pp. 165-170; Part 4, "Reset and Rate Control", October 1984, pp. 133-145; Part 5,
"Selecting the Mode of Control", December 1984, pp. 132-136. Some of this material has appeared in "Principles of
Temperature Control", available from Gulton Industries, West Division. Unlike reference 1, the discussion is not
related to cryogenics but temperature control system principles are briefly and clearly explained.
3.
C. L. Pomernacki, "Micro Computer-Based Controller for Temperature Programming the Direct Inlet Probe of a High
Resolution Mass Spectrometer", Review of Scientific Instruments,
48
(1977), pp. 1420-1427.
4.
W. M. Cash, E. E. Stansbury, C. F. Moore, and C. R. Brooks, "Application of a Digital Computer to Data Acquisition
and Shield Temperature Control of a High-Temperature Adiabatic Calorimeter", Review of Scientific Instruments,
52
(1981), pp. 895-901.
5.
R. B. Strem. B. K. Das, and S. C. Greer, "Digital Temperature Control and Measurement System", Review of
Scientific Instruments, 52 (1981), pp. 1705-1708.