Plot 1, Plot 2 – Chemglass CG-1972-65 User Manual

5

Section 2:

Adjusting The Controller For

Stable Control With Different Heaters

[NOTE: The discussion is Section 2 only applies to the Setpoint Controller (i.e., the meter on the far left). The
setpoint controller regulates heating of the reaction. The Limit Controller (the meter on the right) only acts in the
event of an over-temperature condition but will have no effect on temperature regulation of the reaction. Only the
setpoint controller should be tuned as described below.

2.1

What is Tuning.

The controller's most powerful feature is its ability to regulate virtually any

heater with stable temperature control. For stable control the controller requires two things; (1) the
controller must be set to the correct power level (see Section 3.7) and, (2) that it must be tuned to the
heater being used. Tuning is the process that matches the control characteristics of the controller to the
heating characteristics of the heater. The controller is said to be tuned to the heater when its memory is
programmed with values telling it how fast the heater warms up, cools off, and how efficiently it transfers
heat. For example, consider the difference between a heat lamp and a hot plate. When electricity is
applied to a heat lamp it begins to heat instantaneously, and when it's tuned off it stops heating
instantaneously. In contrast, a hot plate may take several minutes to begin heating after electricity is
applied and even longer to stop heating after electricity is turned off. Your controller can regulate both a
heat lamp and a hot plate to 0.1

o

C. But, to do this it must be programmed with the time constants

describing how fast the heater heats when electricity is turned on and how fast it begins to cool when it's
turned off. These time constants are called the tuning parameters.

Every type of heater has its own unique set of tuning parameters. For the controller to heat with

stability, it must have programmed with the tuning parameters for the heater currently being used. Prior
to shipment, tuning parameters were programmed into the controller that maximize heating performance
for laboratory heating mantles since these are the most common heaters used in research. Tuning is
regulated by 5 of the temperature meter’s user programmable functions. The correct value for these 5
functions can be calculated and loaded by the user manually, or the controller can do it automatically with
its autotune feature.

When Should the Controller be Tuned? If the controller is tuned to one type of heater, heating mantles

for example, any size-heating mantle can be used without the need to retune. When changing from
heating mantles to a different type of heater, an oven for example, the controller should be tuned with
values describing the oven’s heating characteristics. The effect of tuning is seen below. When the
controller is tuned for heating mantles, using it with any size-heating mantle yields stable temperature
control (Plot 1), but poor control results when the same tuning parameters are used with an oven (Plot 2,
Curve 1). However, after tuning the controller to the oven, stable temperature control results (Plot 2,
Curve 2).

20

30

40

50

60

70

80

0

10

20

30

40

50

60

Time (min)

Temp.

o

C

100 ml Toluene

250 ml Round bottomed flask

250 ml Heating mantle

Power Setting = 50 - 500 ml

Conditions:

Plot 1

20

30

40

50

60

70

80

0

10

20

30

40

50

60

Controller loaded with

tuning parameters for

heating mantles

Controller loaded with

tuning parameters for

drying oven

Curve 2:

Curve 1:

Time (min)

Temp.

o

C

Plot 2