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Start Auto-tuning

7.10.2. During normal operation, keep buttons and pressed for 3

seconds.1CT blinks on the display. With + or pressed set

the cycle time in order to define the dynamic process to be controlled. To abort the
auto-tuning function, press ; to start auto-tuning press +

or wait or 30 seconds.

During Auto-tuning

During the entire auto-tuning phase, the display alternates TUN with the actual
temperature being measured. In case of power failure, when power is restore, after
the initial auto-test phase, the controller resumes the auto-tune function. To abort the
auto-tuning, without modifying the previous control parameters, keep button
pressed for 3 seconds. After auto-tuning has successfully taken place the controller
updates the control parameters and starts to control.

Errors

If the auto-tuning function failed, the display shows an error code:
• E1 time out 1 error: the controller could not bring the temperature within the

proportional band. Increase 1SP the case of the heating control, vice versa, decrease

1SP in the case of refrigeration control and re-start the process.
• E2 timeout2 error: the auto-tuning has not ended within the maximum time

allowed (1000 cycles). Re-start the auto-tuning process and set a longer cycle time

1CT.
• E3 temperature over-range: check the error was not caused by a probe malfunction,
then decrease 1SP in the case of heating control or increase 1SP in the case of

refrigeration control and then restart the process.

• To eliminate the error indication and return to the normal mode, press the
button .

Control improvement.

• To reduce overshoot, reduce the integral reaction reset 1AR
• To increase the response speed of the system, reduce the proportional band 1PB

Caution:

doing this can make the system less stable.

• To reduce swings in steady-state temperature, increase the integral action time1IT;

system stability is thus increased, although it’s response speed is decreased.

• To increase the speed of the response to the variations in temperature, increase the

derivative action time1DT. Caution: a high value makes the system sensitive to small
variations and it may be a source of instability.

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

A proportional controller continuously adjusts the power, so the heat input to
the process is approximately in balance with the process heat requirements
in order to maintain a stable temperature. The range of temperature over
which power is adjusted is from 0% to 100%. This temperature range is
called the ‘Proportional Band’. The proportional band is adjustable for
differing process conditions (zero proportional band returns the controller to
basic on / off control).

The temperature difference between the stabilised temperature and the set
point is called the ‘Offset’. The offset can be reduced by adjusting the integral
term of the PID controller. This is achieved using the integrative action time
and integrative action reset.

A derivative function can be combined with the proportional controller to
provide the controller with the ability to shift the proportional band either up to
or down to compensate for rapidly changing temperature (i.e. when an oven
door is opened or cooler fluid is introduced into a controlled vessel). The
derivative function increases the controller gain during temperature changes,
and can help to reduce overshoot on start-up.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

mode. The unit enters Function mode immediately following power up in auto
test phase. In Function mode the display shows the temperature measured by
the temperature sensing probe. The output power will also be switched on or off
as appropriate. If the output power is on, the amber neon indicator on the front
panel will be illuminated. The only parameter which can be altered in the
function mode is the set-point. See 7.7.1

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the

it is used to display the ‘Setpoint’ value.

7.4.4. The

is an ‘Exit / Stand-by button. Press of 3 seconds to turn unit on

or off.

7.5. Operating Modes.

7.5.1. The MB810B has two modes of operation: Function mode and Programming

7.5.2. In Programming mode, all the other parameters apart from set-point can be

altered. To gain access to the programming mode from Function mode, press

the keys

and

. Keep them pressed for five seconds. The

output power is always off when in programming mode. If approximately 25
seconds elapse while in programming mode with out a key being pressed the

Page 12 of 24

M6493 Issue 10.3

7.3.3. Proportional, Integral and Derivative Control.

Hence, a three-mode PID controller combines the proportional, integral and
derivative actions, to allow the set point temperature to be approached
relatively smoothly with minimal overshoot.

7.4. Front Panel Controls

The MC810B controller has four front panel keys as described below.

7.4.1. The

key is used to increase the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.2. The

key is used to decrease the value of the parameter shown on

the display or to scroll through the parameter menu.

7.4.3. The

key is a dual function key. It is used to display and store the

value of the selected parameter when in ‘Programming’ mode. When used with

the