Instruction Manual
DVC6000 SIS
September 2013
4-8
Table 4-4. Actuator Information for Basic Setup
Actuator
Manufacturer
Actuator
Model
Actuator Size Actuator Style
Starting
Tuning
Set
Feedback
Connection
Travel Sensor Motion
Relay A or C Relay B
Fisher
585C & 585CR
25
50
60
68, 80
100, 130
Piston Dbl w/ or
w/o Spring. See
actuator instruction
manual and
nameplate.
E
I
J
L
M
SStem-Standard
for travels up to
4 inches. SStem-
Roller for longer
travels
Depends upon pneumatic connections.
See description for Travel Sensor
Motion
657
30
34, 40
45, 50
46, 60, 70, 76, &
80-100
Spring &
Diaphragm
H
K
L
M
SStem-Standard Clockwise Counterclockwise
667
30
34, 40
45, 50
46, 60, 70, 76, &
80-100
Spring &
Diaphragm
H
K
L
M
SStem-Standard Counterclockwise Clockwise
1051 & 1052
20, 30
33
40
60, 70
Spring &
Diaphragm
H
I
K
M
Rotary Clockwise Counterclockwise
1061
30
40
60
68, 80, 100, 130
Piston Dbl w/o
Spring
J
K
L
M
Rotary
Depends upon pneumatic connections.
See description for Travel Sensor
Motion
1066SR
20
27, 75
Piston Sgl w/Spring
G
L
Rotary
Depends upon mounting style, see
actuator instruction manual and table
4-5
2052
1
2
3
Spring &
Diaphragm
H
J
M
Rotary Clockwise Counterclockwise
Table 4-5. Travel Sensor Motion Selections for the
FIELDVUE DVC6030 SIS on 1066SR Actuators
Mounting Style
Travel Sensor Motion
Relay A or C Relay B
A Clockwise Counterclockwise
B Counterclockwise Clockwise
C Counterclockwise Clockwise
D Clockwise Counterclockwise
Performance Tuner—The Performance Tuner is
used to optimize digital valve controller tuning. It can
be used with digital valve controllers mounted on most
sliding-stem and rotary actuators, including Fisher and
other manufacturers’ products. Moreover, because the
Performance Tuner can detect internal instabilities
before they become apparent in the travel response, it
can generally optimize tuning more effectively than
manual tuning. Typically, the Performance Tuner
takes 3 to 5 minutes to tune an instrument, although
tuning instruments mounted on larger actuators may
take longer.
Integral Settings (1-2-2-1-2)
Integral Dead Zone—A window around the
Primary Setpoint in which integral action is disabled.
This feature is used to eliminate friction induced limit
cycles around the Primary Setpoint when the
integrator is active. The Dead Zone is configurable
from 0% to 2%, corresponding to a symmetric window
from 0% to +/−2% around the Primary Setpoint.
Default value is 0.25%.
Integral Limit—The Integral Limit provides an
upper limit to the integrator output. The high limit is
configurable from 0 to 100% of the I/P drive signal.
4