3
Table 1describes, for the floatingmode, the shaft adapter
behavior (“stops,” rotates “CCW,” or rotates “CW”) independence
upon the control signals applied to terminals 3and4 and upon
the function selection switch setting.
Table 2describes, for the 2-positionmode, the shaft adapter
behavior (“stops,” rotates “CCW,” or rotates “CW”) independence
upon the control signals applied to terminals 3and4 and upon
the function selection switch setting.
Table 3 describes, for themodulatingmode, the shaft adapter
behavior (“stops,” rotates “totallyCCW,” rotates “totallyCW,” runs
to “proportional” position, or runs to “50%” ofmax. stroke) in
dependence upon the control signals applied to terminals 3and4
andupon the function selection switch setting.
Table 1.
Shaft adapter behavior in the floatingmode
control signal at
switchsettings
terminal 3
terminal 4
0[2]...10V
Dir
Service/Off
Rev
10...0[2] V
open
open
--
stops
stops
stops
--
open
24Vac/dc
--
CCW
stops
CW
--
24Vac
open
--
CW
stops
CCW
--
Table2.
Shaft adapter behavior in the2-positionmode
control signal at
switchsettings
terminal 3
terminal 4
0[2]...10V
Dir
Service/Off
Rev
10...0[2] V
24Vac
open
--
CW
stops
CCW
--
24Vac
24Vac/dc
--
CCW
stops
CW
--
Table3.
Shaft adapter behavior in themodulatingmode
control signal at
switchsettings
terminal 3
terminal 4
0[2]...10V
Dir
Service/Off
Rev
10...0[2] V
open
open
totallyCCW
--
stop
--
totallyCCW
24Vac/dc
50%
--
stop
--
50%
<min control signal plus 0.24V
open
totallyCCW
--
stop
--
totallyCW
24Vac/dc
50%
--
stop
--
50%
betweenmin. control signal plus 0.24V
andmax. control signal minus 0.24
open
proportional
--
stop
--
proportional
24Vac/dc
50%
--
stop
--
50%
>max. control signal minus 0.24V
open
totallyCW
--
stop
--
totallyCCW
24Vac/dc
50%
--
stop
--
50%
63-6233T
CN0B-0545CH33R0805
N05,N10SERIESDAMPERACTUATORSFORMODULATINGANDFLOATINGCONTROL
