Honeywell N05010-SW2, N10010-SW2 Product Data

N05010/N10010
NON-SPRING RETURN DIRECT-COUPLED DAMPER ACTUATORS FOR
MODULATING AND FLOATING / 2-POSITION CONTROL
PRODUCT DATA

SPECIFICATIONS

Supply voltage 24 Vac/dc -15%/+20%, 50/60 Hz Nominal voltage 24 Vac/dc, 50/60 Hz
All values stated hereinafter apply to operation under nominal voltage conditions.
Power consumption N05010 5 VA / 2 W N10010 5 VA / 2 W
Control signal Modulating 0...10 V Floating/2-Position 24 Vac/dc
Ambient limits
Ambient operating limits -20...+60 °C (-5...+140 °F) Ambient storage limits -30...+80 °C (-22...+176 °F) Relative humidity 5...95%, non-condensing
Safety

GENERAL

This non-spring return direct-coupled damper actuator provides modulating and floating/2-position control for:
air dampers,
VAV units,
air handlers,
ventilation flaps,
louvers, and
reliable control for air damper applications with up to 1 m
/ (5 Nm) and 2 m friction-dependent).
2
(10 Nm) (seal-less damper blades; air

FEATURES

Declutch for manual adjustment
Adjustable mechanical end limits
Removable access cover for direct wiring
Mountable in any orientation
Function selection switch for selecting modulating or
floating/2-position control
Protection standard IP54 Protection class II as per EN 60730-1 Overvoltage category II
Lifetime
Full strokes 60000 Repositions 1.5 million
Mounting
Round damper shaft 8...16 mm Square damper shaft 6...13 mm; 45° steps Shaft length min. 41 mm
2
End switches (when included) Rating 5 A (resistive), 3 A (inductive) Triggering points 5° / 85°
Torque rating 5 Nm / 10 Nm Runtime for 90°
mod. (dc / 50/60 Hz ac) 90 sec floating (dc / 60 Hz ac) 90 sec floating (50 Hz ac) 110 sec
Rotation stroke 95° ± 3° Dimensions see "Dimensions" on page 8 Weight (without cables) 450 g Noise rating 35 dB(A) max. at 1 m
® U.S. Registered Trademark EN0B-0478GE51 R0105 Copyright © 2005 Honeywell Inc. • All rights reserved
N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL

PRODUCT IDENTIFICATION SYSTEM

Contents of Package

The delivery package includes the actuator, parts 1 through 6
N = non-spring return S = spring return
(see Fig. 2), plus two cable grommets and a spare cable grommet.
05 = 5 Nm 10 = 10 Nm
equipped with two
end switches

RUN MODES

The function selection switch (see Fig. 3) can be used to
SmartAct
N
5
0
0-0
010 = modulating + floating 24 = 24 V floating + ON/OFF 230 = 230 V ON/OFF
S
+ ON/OFF
W
21
Fig. 1. Product Identification System
place the actuator into any one of three different modes:
Service/Off;
the floating/2-position run mode ("Dir" for CCW-closing
dampers or "Rev" for CW-closing dampers); and
the modulating run mode.
modulating

MODELS

order no. supply voltage end switches torque
N05010 -­N05010-SW2 2 N10010 -­N10010-SW2
24 Vac/dc
2

BASIC FEATURES

1 2
N05010
3
2...10 V
0...10 V Dir
4 5 6
Fig. 2. Setting units and control elements
Legend for Fig. 2:
1) Universal shaft adapter
2) Mechanical end limits
3) Declutch button
4) Function selection switch
5) Removable access cover
6) Anti-rotation bracket

Service/Off

Rev
10...0 V
10...2 V
5 Nm
10 Nm

Power-Off Behavior

If power is removed, the shaft adapter remains in position.
Service/Off
If the function selection switch is set to the "Service/Off" position, then all rotary movement is cancelled, and all control signals are ignored, thus allowing the actuator to be manually operated safely.

Floating/2-Position Run Mode

Without Feedback Signal

If, however, the function selection switch has been set to one of the two floating/2-position control settings – but the actuator has not been wired for a feedback signal (see Fig. 12 and Fig. 13) – then as soon as operating power is applied, the shaft adapter will run according to the control signals applied.

With Feedback Signal

If the function selection switch has been set to one of the two floating/2-position control settings – and if the actuator has been wired for a feedback signal (see Fig. 12 and Fig. 13) – then as soon as operating power is applied, the shaft adapter will likewise run first completely counterclockwise and then completely clockwise (see also section "Adaption"), after which it will run according to the control signals applied.

Modulating Run Mode

If the function selection switch has been set to one of the four modulating control settings – and if the actuator is wired correspondingly (see Fig. 11) – then as soon as operating power is applied, the shaft adapter will run first completely counterclockwise and then completely clockwise (see also section "Adaption"), after which it will run according to the control signals applied.
floating/2-position
2...10 V
0...10 V
Dir
Service/Off
Rev
10...0 V
10...2 V
2...10 V
0...10 V
Dir
Service/Off
Rev
10...0 V
10...2 V
Fig. 3. Function selection switch
Service/Off
2...10 V
0...10 V
Service/Off
Rev
10...0 V
10...2 V
Dir
EN0B-0478GE51 R0105
2
N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL
Table 1 describes, for the floating mode, the shaft adapter behavior ("stops," rotates "CCW," or rotates "CW") in dependence upon the control signals applied to terminals 3 and 4 and upon the function selection switch setting.
Table 2 describes, for the 2-position mode, the shaft adapter behavior ("stops," rotates "CCW," or rotates "CW") in dependence upon the control signals applied to terminals 3 and 4 and upon the function selection switch setting.
Table 1. Shaft adapter behavior in the floating mode
control signal at switch settings
terminal 3 terminal 4 0[2]...10 V Dir Service / Off Rev 10...0[2] V
open open open 24 Vac/dc
24 Vac open
Table 2. Shaft adapter behavior in the 2-position mode
control signal at switch settings
terminal 3 terminal 4 0[2]...10 V Dir Service / Off Rev 10...0[2] V
24 Vac open 24 Vac 24 Vac/dc
Table 3. Shaft adapter behavior in the modulating mode
control signal at switch settings
terminal 3 terminal 4 0[2]...10 V Dir Service / Off Rev 10...0[2] V
open
< min. control signal plus 0.24 V
between min. control signal plus 0.24 V
and max. control signal minus 0.24 V
> max. control signal minus 0.24 V
open
24 Vac/dc
open
24 Vac/dc
open
24 Vac/dc
open
24 Vac/dc
Table 3 describes, for the modulating mode, the shaft adapter behavior ("stops," rotates "totally CCW," rotates "totally CW," runs to "proportional" position, or runs to "50%" of max. stroke) in dependence upon the control signals applied to terminals 3 and 4 and upon the function selection switch setting.
-- stops stops stops --
-- CCW stops CW --
-- CW stops CCW --
-- CW stops CCW --
-- CCW stops CW --
totally CCW -- stop -- totally CCW
50% -- stop -- 50%
totally CCW -- stop -- totally CW
50% -- stop -- 50%
proportional -- stop -- proportional
50% -- stop -- 50%
totally CW -- stop -- totally CCW
50% -- stop -- 50%
100
50
0
final position of shaft adapter (% of max. stroke)
upper dead band (9.76 to 10.0 V)
range of proportional
actuator movement
(0.24 to 9.76 V)
lower dead band (0 to 0.24 V)
00.24
control signal (V)
5.0 10.09.76
Fig. 4. Final shaft adapter position in dependence upon
control signal (example function selection switch settin g
of 0...10 V)
100
50
0
0
current position of shaft adapter (% of max. stroke)
feedback signal (V)
5
10
Fig. 5. Feedback signal in dependence upon current
position of shaft adapter (example function selection
switch setting of 0...10 V)
3 EN0B-0478GE51 R0105
N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL

Adaption

Adaption is a function in which the actuator re-maps its feed­back signal and control signal in accordance with repositioned mechanical end limits (see also Fig. 6) and thus recognizes their new positions.
100
(before)
100
(after)
final position of
0
(after)
0
(before)
a
r
e
t
f
a
actuator (% of max.)
e
or
f
be
010.0
new position of UPPER
mechanical end limit
n
o
i
t
p
a
d
on
i
pt
new position of LOWER
da
a
mechanical end limit
control signal (volts)
95
final position of actuator (degrees)
0
Fig. 6. Adaption (function selection switch set to
"0...10 V")
Adaption will be carried out whenever the actuator is in the modulating mode or the floating plus feedback mode or the 2­position plus feedback mode and
the user powers up (from a totally powerless condition) the actuator; or
the user sets the function selection switch to the "Service/Off" setting for at least 2 seconds and then back to its previous setting; or
the control signal's value rises up into the upper dead band (i.e. to more than the max. control signal minus
0.24 V) or drops down into the lower dead band (i.e. to less than the min. control signal plus 0.24 V), after which the shaft adapter must then remain at the respective (upper or lower) mechanical end limit for at least 3 seconds. However, in this case, the actuator will then recognize the position of only the respective (upper or lower) mechanical end limit.

Overriding

An override is a condition in which a 24 V signal is applied to terminal 4 of an actuator in the modulating mode, thus causing the actuator to ignore the control signal at terminal 3, whereupon it will instead move to a position of 50% of its maximum stroke (see Table 3).

Feedback

If correspondingly wired (see Fig. 11, Fig. 12, and Fig. 13), the actuator provides, via terminal 5, a feedback signal pro­portional to the actual position of the shaft adapter.

MANUAL ADJUSTMENT

IMPORTANT
To prevent equipment damage, you must remove power or set the function selection switch to the "Service/Off" position before manual adjustment.
After removing power or setting the function selection switch to the "Service/Off" position, the gear train can be disengaged using the declutch button, permitting the shaft adapter to be manually rotated to any position. If you have wired the actuator for feedback signal, then, after adaption, the feedback signal will follow the new position.

Limitation of Rotation Stroke

Two adjustable mechanical end limits are provided to limit the angle of rotation as desired (see Fig. 7). The mechanical end limits must be securely fastened in place.
Fig. 7. Mechanical end limits
To ensure tight closing of the dampers, the shaft adapter has a total rotation stroke of 95°.
After adjusting the mechanical end limits, the user should trigger adaption (see section "Adaption").

INTERNAL END SWITCHES

NOTE: Only those actuators for which "-SW2" has been
specified when ordering (e.g.: "N05010-SW2") feature internal end switches.
The internal end switches "A" and "B" are changeover switches which are activated when the shaft adapter moves past a position of 5° and 85°, respectively (see also Table 5).
changeover switch A activated
when shaft adapter moves past 5°
-2.5° 92.5° 10° 15° 90°85°80°75°
Fig. 8. Internal end switch triggering points
changeover switch B activated
when shaft adapter moves past 85°
EN0B-0478GE51 R0105 4
N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL

INSTALLATION

CAUTION
To avoid personal injury (electrical shock) and to prevent equipment damage, before installation, you must remove power.
These actuators are designed for single-point mounting.

Mounting Instructions

All information and steps are included in the Installation Instructions (Product Literature No.: MU1B-0276GE51) supplied with each actuator.

Mounting Position

The actuators can be mounted in any position (IP54 is dependent upon orientation; see Fig. 9). Choose a mounting position permitting easy access to cables and controls.
IP54 IP54IP54 IP54

WIRING

CAUTION
To avoid personal injury (electrical shock) and to prevent equipment damage, before wiring, you must remove power.

Connecting to the Power Supply

In order to comply with protection class II, the power source of 24 V actuators must be reliably separated from the network power supply circuits as per DIN VDE 0106, part 101.

Access Cover

IMPORTANT
Once the access cover has been removed, please take care to avoid damaging any of the parts now accessible.
The access cover can be unscrewed and removed in order to gain access to the terminal block(s) and perform wiring.
Fig. 9. Mounting for IP54
NOTE: Further, in order to guarantee IP54, only original
Honeywell grommets may be used.

Anti-Rotation Bracket and Screws

If the actuator is to be mounted directly on a damper shaft, use the anti-rotation bracket and screws included in the delivery package. The min. distance between the center of the damper shaft and the middle of the anti-rotation bracket is 85 mm; a max. of 108 mm is allowed (see also Fig. 15).
Depending upon the specifics of your mounting site, the actuator may shift in position slightly while tightening the screws at the top of the shaft adapter. The anti-rotation bracket features a T-piece with a 5-mm-long shank to accommodate for this movement. It is important to ensure that this play is not impeded.

Universal Shaft Adapter

The universal shaft adapter can be used for shafts of various diameters and shapes (round: 8...16 mm and square:
6...13 mm).
1
5
4
3
5
2
4
1
3
2
1
1
S
2
S
3
S
5
S
6
S
1
S
2
S
3
S
5
S
6
S
2
removable access cover
Fig. 10. Access cover
5 EN0B-0478GE51 R0105
N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL
A

Wiring Diagrams

Modulating: 0[2]...10V, 10...0[2]V
24V~/=
END SWITCHES (max. 230 V, 5 A)
24V~/+
1
GND/-
2
0[2]...10V
0[2]...10V
!
Fig. 11. N05010/N10010 (modulating mode)
Floating: Dir
24V~/=
0[2]...10V
!
Fig. 12. N05010/N10010 (floating mode)
= feedback option
Y in
3
POS 50%
4
POS out
5
= override option
24V~/+
1
GND/-
2
CW
3
CCW
4
POS out
5
NOTE: Both of the internal end switches must be connected
Table 4 and Table 5 summarize the information presented in the preceding wiring diagrams.
minal
1
2 3
4
5
2-Position: Dir
NOTE: All cables connected to these terminals must be
24V~/=
24V~/+
1
GND/-
2
CW
3
CCW
4
0[2]...10V
!
Fig. 13. N05010/N10010 (2-position mode)
= feedback option
5
POS out
terminal type of switch
S1
S2, S3
S5, S6
A,B: C
S1
B
A: NC A: NO B: NC B: NO
Fig. 14. End switches (Nxx-SW2)
to the same power source.
Table 4. Signals at terminals
modulating floating 2-position
24 V ~/+
(power)
common ~/- common ~/- common ~/-
0[2]...10 V
(control) 24 V ~/+
(override)
0[2]...10 V
(feedback)
equipped with spark suppression.
Table 5. Internal end switches (Nxx-SW2)
common lead for switches A and B change-over switch A (S1/S2 opens and S1/S3 closes when shaft adapter moves CW past 5°; reverts to original state when shaft adapter moves CCW past 5°). change-over switch B (S1/S5 opens and S1/S6 closes when shaft adapter moves CW past 85°; reverts to original state when shaft adapter moves CCW past 85°).
S2 S3 S5 S6
mode ter-
unused or
(with feedback)
24 V ~/+ (power)
24 V ~/+
(control signal)
24 V ~/+
(control signal)
unused or
(with feedback)
0...10 V
unused or
(with feedback)
24 V ~/+ (power)
24 V ~/+
(control signal)
24 V ~/+
(control signal)
unused or
(with feedback)
0...10 V
EN0B-0478GE51 R0105
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N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL

SPARE PARTS

Anti-Rotation Bracket Kit

Order no.: A7211.2073
Contains:
10 anti-rotation brackets
20 screws

Spare Parts Kit

Order no.: A7211.2071 Contains:
1 anti-rotation bracket + screws
2 universal terminal blocks
2 strain-relief clamps
2 grommets*
2 adjustable end stops
*In order to guarantee IP54, only original Honeywell grommets may be used.
7 EN0B-0478GE51 R0105
N05010/N10010 DAMPER ACTUATORS FOR MODULATING AND FLOATING/2-POSITION CONTROL

DIMENSIONS

41
N05010
85
134
2...10 V
0...10 V Dir
Service/Off
Rev
10...0 V
10...2 V
108
6662
Fig. 15. Dimensions (in mm)
Automation and Control Solutions
Honeywell GmbH Böblinger Straße 17 D-71101 Schönaich Phone: (49) 7031 63701 Fax: (49) 7031 637493 http://europe.hbc.honeywell.com
Subject to change without notice. Printed in Germany Manufacturing location certified to
EN0B-0478GE51 R0105
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