ML7984 Valve Actuator

PRODUCT DATA

• Separate models available for V5011/13 A and C or

V5011/13 F and G valve body types
• Self-contained, motorized valve linkage.
• Linkage self-adjusts to valve stroke of up to 19 mm (3/4”)
• Multipoise mounting
• Strong valve seat closing force 710 Newton (160 lbs.)
• Compact size for easy installation in confined areas
• Electronic current sensing provides internal protection and
positive full closing force
• Field-addable auxiliary switches available

SPECIFICATIONS

Ambient Rating
Operating Temperature: 0°C to 55°C (32°F to 130°F)

Shipping Temperature: -40°C to +65°C (-40°F to 150°F)

APPLICATION Relative Humidity: 15% to 95% at 40°C (104°F)

The ML7984 is a self-contained, self-adjusting, linear motor-

ized linkage that mounts directly onto V5011 two-way or
V5013 three-way valves and provides up to 19 mm (3/4”)
Acoustic Noise
55 dBA max. Sound Pressure Level at 1 m (39”) distance.
of linear travel (stem lift). For use with Series 70 2-10Vdc,
4-20mA electronic and Series 90 135 Ω, Electronic (Super
Mod) modulating signal controllers.
Electrical Ratings
Power supply/consumption: 24V (Nominal), 50/60Hz or 24
to 28 Vdc. 6VA(Running), 12VA(Valve seating)
FEATURES
The ML7984 valve actuator provides the following features:
Input Impedance
• Allows the use of one common transformer power supply Voltage Model -- 20 KΩ
for multiple actuators and controllers
• Field-configurable DIP switches for Series 70 / 90 control- Current Model --237 Ω
ler
• Field-configurable DIP switches for Direct / Reverse action
• Field-selectable terminals for 2-10Vdc / 4-20 mA signal Shipping Weight
input Approx. 1 kg (2.2 lbs)
• One device for either Vac or Vdc power supply application
• Compatible with 3 -wire system (one common wire for
both signal & power inputs)

95C-10753-02
ML7984 Valve Actuator

Accessories/Parts INSTALLATION
272630A: Auxiliary switch assembly (1-SPDT)

272630B: Auxiliary switch assembly (2-SPDT)

40003793-003: Mounting hardware bag assembly CAUTION

Equipment Damage Hazard.
272822: Resistor kit for multiple Series 90 application and for Installer must be a trained service
ML7984 to replace the old ML784 (4-20 mA) technician.
Do not electrically operate the ML7984 before
assembly to the valve because damage not ap-
parent to the installer may occur.
Mechanical Ratings
Stroke: 19mm (3/4”) or less

Stroke timing: Approx. 63 seconds for 3/4” stroke

Mounting
1. Ensure that the valve body is installed correctly, that is,
Closing Force: 710N (160 lbs.) Nominal* the arrow points in the direction of the flow.
2. Although the actuator can be mounted in any position,
*Rating applies to both directions. it is preferable that the ML7984 is mounted above the
valve body. This will minimize the risk of damage to the
ML7984 in the event of condensation or a valve gland
leak.
Performance Specifications 3. Remove the stem button (Fig 3) from the valve stem.
Life Expectancy (at rated load and power conditions):
Save the set screw inside the stem button for later
50,000 full stroke cycles plus 1,000,000 repositions at 10%
installation. The button itself is not needed.
stem travel or 10 years, whichever occurs first.
4. Slide the position indicator (plastic disk or rubber
O-ring) over the valve stem. (See inset, Fig 3) Indica-
NOTE: Rapid repositioning will result in reduced service life tor will selfalign to the marking on the yoke after one
of the actuator. complete operating cycle.

7/8 (22)
KNOCKOUT
4-1/64
1/4 – 20 NUT [2] (102)
2 (51) 1/4 – 28UNF
7-3/64
4 (179)
(102) 3-13/64 1-17/32
( 8 2) (39)

4-9/16
(116)
3-1/16
( 7 8) 51/64 3-3/32
(21) (78)
3/4 2-23/32 (69)
4-1/16 ( 1 9) NOMINAL YELLOW
(103) 2-3/32 17/64 STROKE 2-53/64 (72)
1-3/8 (35)
(53) (7) SILVER
25/32 MOUNTING
(20) DIA.

1-21/32 25/64
13/64 (42) (10)
(6) 2-13/64 (56) 3 / 1 6 ( 5 ) DIA.
3-7/32 (82) M32553

Fig 1. Dimesions of ML7984 valve actuator in mm (in.).

95C-10753—02 2
 ML7984 Valve Actuator

Assembly of ML7984 to the valve: POSITION INDICATOR

1. The drive shaft of the ML7984 has a threaded hole to (PLASTIC DISK)

link with the valve stem. Slide the yoke over the valve
bonnet (Fig 4)
2. Thread the ML7984 drive shaft onto the valve stem all
REMOVE
the way, until it is completely attached (with no thread- STEM BUTTON
sshowing), by turning the valve actuator in a clockwise VALVE
direction, as viewed from above (depending on the STEM
valve models, use a pin or wrench to keep valve stem
from turning). Note that the valve actuator is shipped
with drive shaft in the mid-position.
3. Care should be exercised when using the TOOLS on ASSEMBLY OF THE
the valve stem during tightening. (Fig 4) DO NOT dam- POSITION INDICATOR.

age the threads or other parts of the stem.

4. Orient the conduit hole to the most desirable direction,
then tighten the LOCKNUTS on the U-bolt.

4 (102) FOR
ACTUATORS WITH
AUXILIARY
SWITCHES 3 (76)
NOTE: DO NOT DAMAGE ANY PART OF THE STEM
M32559

Fig 3. Preparation for valve assembly.

12 5. Remove the plastic cover from the ML7984 by loosen-

(305) ing the two screws located on the top (Note: These
screws are captive. Rotate three complete revolutions
to remove cover ). Drop either Slot Headed or Allen
Hex type of set screw (both are included in the plastic
bag ) into the top of the shaft, slotted/ Hexed side up.
MINIMUM Or use the set screw from the valve stem button.
MOUNTING 6. Depends on which type of set screw was used, with a 5
CLEARANCE
mm (3/16”) Slotted screwdriver or 1/8”x 6” Allen wrench
(included in the plastic bag), tighten the set screw to
lockvalve stem in place (Fig 6).

M32558 CAUTION
Equipment Damage Hazard.
Fig 2. Minimum mounting clearance.
Installer must be a trained service
technician.
For proper valve operation, valve stem must be
threaded into the actuator all the way (with no
threads showing) and locked in place with the
set screw provided.

3 95C-10753—02
ML7984 Valve Actuator

3/16 (5) SLOTTED

SCREWDRIVER
OR ALLEN WRENCH
1

LINKAGE
DO NOT
ADJUST
SET SCREW

VALVE STEM

VALVE U-BOLT
2 YOKE
BONNET
1 THREAD ACTUATOR SHAFT TO VALVE STEM BY ROTATING IN A
CLOCKWISE DIRECTION.

2 TIGHTEN U-BOLT NUTS TO SECURE LINKAGE TO VALVE BODY.

M32562
M32560

Fig 4. Assembly of ML7984A to valve. Fig 6. Locking ML7984A drive shaft to valve stem.

M32561

Fig 5. U-Bolt assembly.

95C-10753—02 4
 ML7984 Valve Actuator

SIGNAL
SOURCE
(VDC) 3 2
ML7984

1
+ R
T6

W L1
24 VAC
L2
- T5
C

OR
3 ML7984 2

+ R
T6
T6 +
W
28 VDC

T5 -
- T5
C

3 ML7984 2

R
T6 ! CAUTION:
W IN MULTIPLE ACTUATORS CONNECTION, POWER SUPPLY TO ALL
ACTUATORS MUST BE CONNECTED IN A TRUE PARALLEL FASHION
TO REDUCE EXCESSIVE VOLTAGE DROP. DO NOT “DAISY CHAIN”
I.E. CONNECTED TO ONE ACTUATOR THEN BRANCHED TO ANOTHER.
T5
C

ALLOW 0.5 AMPS MAXIMUM FOR EACH DEVICE. ACTUATORS AND CONTROLLER CAN SHARE SAME TRANSFORMER PROVIDING THE
1
VA RATING OF THE TRANSFORMER IS NOT EXCEEDED AND PROPER PHASING IS OBSERVED.

2 “T5” AND “W” TERMINALS ARE FACTORY CONNECTED INTERNALLY. DEVICE IS COMPATIBLE WITH THE 3-WIRE CONTROL SYSTEM.

USE CONFIGURATION DIP SWITCHES TO SELECT DEVICE FUNCTIONS: DIRECT ACTING FUNCTION (ACTUATOR STEM MOVES UPWARDS)
3
WITH SIGNAL INCREASES) OR REVERSE ACTING FUNCTION (ACTUATOR STEM MOVES DOWNWARDS WITH SIGNAL INCREASES).

FUNCTION DIP SWITCH CONFIGURATION

CONFIGURATION DIP
SWITCHES LOCATED ON
ADJACENT TO THE 2-10 VDC DIRECT ACTING OFF
INPUT TERMINAL BLOCK 1 2 3 4
ON
10-2 VDC REVERSE ACTING OFF
1 2 3 4
NOTE:
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES. M21310

Fig 7. Wiring for Series 70 (Vdc) signal input ML7984 actuators.

5 95C-10753—02
ML7984 Valve Actuator

SIGNAL
SOURCE
(mA) 3 ML7984 2

-
1
R
T6

W L1
24 VAC
L2
+ T5
C

OR
ML7984
3 2
(MASTER)

- R
T6
T6 +
28 VDC
W
T5 -
+ T5
C

ML7984
3 2
(SLAVE)

R ! CAUTION:
T6
IN MULTIPLE ACTUATORS CONNECTION, POWER SUPPLY TO ALL
W ACTUATORS MUST BE CONNECTED IN A TRUE PARALLEL FASHION
TO REDUCE EXCESSIVE VOLTAGE DROP. DO NOT “DAISY CHAIN”
I.E. CONNECTED TO ONE ACTUATOR THEN BRANCHED TO ANOTHER.
T5
C

ALLOW 0.5 AMPS MAXIMUM FOR EACH DEVICE. ACTUATORS AND CONTROLLER CAN SHARE SAME TRANSFORMER PROVIDING THE
1
VA RATING OF THE TRANSFORMER IS NOT EXCEEDED AND PROPER PHASING IS OBSERVED.

2 “T5” AND “W” TERMINALS ARE FACTORY CONNECTED INTERNALLY. DEVICE IS COMPATIBLE WITH THE 3-WIRE CONTROL SYSTEM.

USE CONFIGURATION DIP SWITCHES TO SELECT DEVICE FUNCTIONS: DIRECT ACTING FUNCTION (ACTUATOR STEM MOVES UPWARDS)
3
WITH SIGNAL INCREASES) OR REVERSE ACTING FUNCTION (ACTUATOR STEM MOVES DOWNWARDS WITH SIGNAL INCREASES).

FUNCTION DIP SWITCH CONFIGURATION

CONFIGURATION DIP
SWITCHES LOCATED MASTER ACTUATOR ON
ADJACENT TO THE 4-20 mA DIRECT ACTING OFF
INPUT TERMINAL BLOCK 1 SLAVE ACTUATOR 1 2 3 4
MASTER ACTUATOR ON
20-4 MA REVERSE ACTING OFF
1 SLAVE ACTUATOR 1 2 3 4
NOTE:
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES.
M21311

Fig 8. Wiring for Series 70 (mA) signal input ML7984 actuators.

95C-10753—02 6
 ML7984 Valve Actuator

SIGNAL
SOURCE
(135 OHM) 2 ML7984 3

1
B B T6

L1
R R
24 VAC
L2
W W T5

OR
2 ML7984 3

B B T6
T6 +
28 VDC
R R T5 -
W W T5

2 ML7984 3

B B T6 ! CAUTION:
IN MULTIPLE ACTUATORS CONNECTION, POWER SUPPLY TO ALL
R R ACTUATORS MUST BE CONNECTED IN A TRUE PARALLEL FASHION
TO REDUCE EXCESSIVE VOLTAGE DROP. DO NOT “DAISY CHAIN”
I.E. CONNECTED TO ONE ACTUATOR THEN BRANCHED TO ANOTHER.
W W T5

1 ALLOW 0.5 AMPS MAXIMUM FOR EACH DEVICE.

2 DO NOT MIX M984/6 OR MODUTROL MOTORS WITH THE ML7984 IN THE SAME CIRCUITRY.

3 USE CONFIGURATION DIP SWITCHES TO SELECT DEVICE FUNCTIONS: DIRECT ACTING FUNCTION (ACTUATOR STEM MOVES UPWARDS)
WITH SIGNAL INCREASES) OR REVERSE ACTING FUNCTION (ACTUATOR STEM MOVES DOWNWARDS WITH SIGNAL INCREASES).

*SERIES 90 (MECH/ELETRONIC) OPERATION CAN BE REVERSED WITHOUT CHANGING WIRING BY USING DIP SWITCH #3 (OPPOSITE AS
SHOWN).

CONFIGURATION DIP FUNCTION DIP SWITCH CONFIGURATION

SWITCHES LOCATED
ON
ADJACENT TO THE *SERIES 90 (MECHANICAL 135 OHMS)
OFF
INPUT TERMINAL BLOCK I.E. T991 1 2 3 4

NOTES:
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES.

FOR COMMON TRANSFORMER + COMMON CONTROLLER APPLICATION, PLEASE CONSULT THE FACTORY. M21312

Fig 9A. Wiring for multiple Series 90 (135 Ohm Slide Wire) signal inputs ML7984 actuators.

7 95C-10753—02
ML7984 Valve Actuator

SIGNAL
SOURCE
T6 +
2 ML7984 3
(135 OHM) 28 VDC

B B T6
T5 - 1

OR
L1
R R
24 VAC
L2
4 W W T5

2 ML7984 3

1
B T6

L1
R
24 VAC
L2
W T5

2 ML7984 3

1
B T6

L1
R
24 VAC
L2
W T5

1 ALLOW 0.5 AMPS MAXIMUM FOR EACH DEVICE.

2 DO NOT MIX M984/6 OR MODUTROL MOTORS WITH THE ML7984 IN THE SAME CIRCUITRY.

3 USE CONFIGURATION DIP SWITCHES TO SELECT DEVICE FUNCTIONS: DIRECT ACTING FUNCTION (ACTUATOR STEM MOVES UPWARDS)
WITH SIGNAL INCREASES) OR REVERSE ACTING FUNCTION (ACTUATOR STEM MOVES DOWNWARDS WITH SIGNAL INCREASES).

*SERIES 90 (MECH/ELETRONIC) OPERATION CAN BE REVERSED WITHOUT CHANGING WIRING BY USING DIP SWITCH #3 (OPPOSITE AS
SHOWN).

4 USE RESISTOR KIT PART #272822.

RESISTOR SELECTION CHART

NO. OF ACTUATORS RESISTOR VALUE

1 RESISTOR NOT REQ’D

2 133 OHM ALL RESISTORS
3 68.1 OHM 1/4 WATT
4 45.3 OHM 1% M.F.

CONFIGURATION DIP FUNCTION DIP SWITCH CONFIGURATION

SWITCHES LOCATED
*SERIES 90 (MECHANICAL 135 OHMS) ON
ADJACENT TO THE
I.E. T991 OFF
INPUT TERMINAL BLOCK 1 2 3 4

NOTES:
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES.

FOR COMMON TRANSFORMER + COMMON CONTROLLER APPLICATION, PLEASE CONSULT THE FACTORY. M21313

Fig 9B. Wiring for Single Series 90 (135 Ohm Slide Wire) signal input ML7984 actuators.

95C-10753—02 8
 ML7984 Valve Actuator

2 ML7984 3
ELETRONIC
4
SERIES 90
1
(W973, T775, H775, W7100) B T6

L1
W R
24 VAC
L2
R W T5

NOTE: OR
POLARITY SENSITIVE, 2 ML7984 3
CHECK CONNECTIONS
W TO R, R TO W
B T6
T6 +
28 VDC
W R T5 -
R W T5

2 ML7984 3

B T6 ! CAUTION:
IN MULTIPLE ACTUATORS CONNECTION, POWER SUPPLY TO ALL
W R ACTUATORS MUST BE CONNECTED IN A TRUE PARALLEL FASHION
TO REDUCE EXCESSIVE VOLTAGE DROP. DO NOT “DAISY CHAIN”
I.E. CONNECTED TO ONE ACTUATOR THEN BRANCHED TO ANOTHER.
R W T5

1 ALLOW 0.5 AMPS MAXIMUM FOR EACH DEVICE.

2 DO NOT MIX M984/6 OR MODUTROL MOTORS WITH THE ML7984 IN THE SAME CIRCUITRY.

USE CONFIGURATION DIP SWITCHES TO SELECT DEVICE FUNCTIONS: DIRECT ACTING FUNCTION (ACTUATOR STEM MOVES UPWARDS)
3
WITH SIGNAL INCREASES) OR REVERSE ACTING FUNCTION (ACTUATOR STEM MOVES DOWNWARDS WITH SIGNAL INCREASES).

*SERIES 90 (MECH/ELETRONIC) OPERATION CAN BE REVERSED WITHOUT CHANGING WIRING BY USING DIP SWITCH #3 (OPPOSITE AS
SHOWN).

4 OFTEN REFERRED TO AS “SUPER MOD” OUTPUT.

CONFIGURATION DIP FUNCTION DIP SWITCH CONFIGURATION

SWITCHES LOCATED
ON
ADJACENT TO THE *SERIES 90 (ELETRONIC SUPER MOD)
OFF
INPUT TERMINAL BLOCK I.E. T775 1 2 3 4

NOTES :
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES.

FOR COMMON TRANSFORMER + COMMON CONTROLLER APPLICATION, PLEASE CONSULT THE FACTORY. M21314

Fig 10A. Wiring for multiple Series 90 (Electronic Super Mod) signal inputs ML7984 actuators.

9 95C-10753—02
ML7984 Valve Actuator

2 ML7984 3
T6 +
ELETRONIC 28 VDC
4
SERIES 90
(W973, T775, H775, W7100) B T6
T5 - 1

OR
L1
W R
24 VAC
L2
R W T5

2 ML7984 3

1
B T6

L1
R
24 VAC
L2
W T5

2 ML7984 3

1
B T6

L1
R
24 VAC
L2
W T5

1 ALLOW 0.5 AMPS MAXIMUM FOR EACH DEVICE.

2 DO NOT MIX M984/6 OR MODUTROL MOTORS WITH THE ML7984 IN THE SAME CIRCUITRY.

3 USE CONFIGURATION DIP SWITCHES TO SELECT DEVICE FUNCTIONS: DIRECT ACTING FUNCTION (ACTUATOR STEM MOVES UPWARDS)
WITH SIGNAL INCREASES) OR REVERSE ACTING FUNCTION (ACTUATOR STEM MOVES DOWNWARDS WITH SIGNAL INCREASES).

*SERIES 90 (MECH/ELETRONIC) OPERATION CAN BE REVERSED WITHOUT CHANGING WIRING BY USING DIP SWITCH #3 (OPPOSITE AS
SHOWN).

4 OFTEN REFERRED TO AS “SUPER MOD” OUTPUT.

CONFIGURATION DIP FUNCTION DIP SWITCH CONFIGURATION

SWITCHES LOCATED
ON
ADJACENT TO THE *SERIES 90 (ELETRONIC SUPER MOD)
OFF
INPUT TERMINAL BLOCK I.E. T775 1 2 3 4

NOTES:
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES.

FOR COMMON TRANSFORMER + COMMON CONTROLLER APPLICATION, PLEASE CONSULT THE FACTORY. M21315

Fig 10B. Wiring for single Series 90 (Electronic Super Mod) signal input ML7984 actuators.

95C-10753—02 10
 ML7984 Valve Actuator

L1 L2 L1 L2 L1 L2

ML7984A3XXX ML7841XXXX ML784AXXXX

NEW MASTER SLAVE SLAVE

T5 T5 T5

T6 T6 T6

R1=12 KΩ
C C
+ C

B B
B
R2=3 KΩ

- W W W

R R R
1
1

DIP SWITCHES CONFIGURATION:

DIRECT ACTING 1 PREVIOUSLY CLIPPED RESISTOR.

ON
OR
OFF NOTE:
REVERSE ACTING
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES.
M21316

Fig 12. Wiring for replacing the SLAVE motor in 4-20 mA multiple-actuator application ( use Resistor Kit part # 272822 ).

L1 L2 L1 L2 L1 L2

ML784A3XXX ML7984A3XXX ML784AXXXX

NEW MASTER NEW SLAVE SLAVE

T5 T5 T5

T6 T6 T6

C C
C
R=133 KΩ
B B
B

- W W W
(FACTORY INSTALLED – 54.9Ω

+ R R R
1

DIP SWITCHES CONFIGURATION:

1 PREVIOUSLY CLIPPED RESISTOR.
DIRECT ACTING
ON
OR
OFF NOTE:
REVERSE ACTING
TURN POWER OFF BEFORE SETTING THE DIP SWITCHES.
M21317

Fig 12. Wiring for replacing the SLAVE motor in 4-20 mA multiple-actuator application (use Resistor Kit part # 272822 ).

11 95C-10753—02
ML7984 Valve Actuator

OPERATION CHECKOUT
1. Make sure the valve stem is completely screwed into
the actuator drive shaft with no threads showing.
WARNING 2. Make sure the valve stem is locked in place with the set
Electrical Shock Hazard. screw.
Can cause severe injury, death or property 3. Make sure the Configuration DIP switches are set
damage. correctly.
Disconnect power supply before beginning 4. With 24Vac or 28Vdc power source connected to T5
wiring or making wiring connections to prevent & T6, actuator operation can be verified by connecting
electrical shock or equipment damage. appropriate control signal (Series 70/90 ) from control-
Make certain that the voltage and frequency of ler to the signal input terminals (Fig 7-10). For direct
the power supply correspond to the rating of the acting: A modulating action can be obtained simply by
device. increasing the control signal. The actuator will travel
from a fully closed position (Stem down) to a fully open
position ( Stem up ). On signal failure (disconnected
/ no signal), actuator defaults to closed position. For
CAUTION reverse acting: Decreasing controller signal will drive
Equipment Damage Hazard. actuator from fully closed (Stem down) to a fully open
Installer must be a trained service position (Stem up). On signal failure (disconnect/no
technician. signal), actuator defaults to open position.
Do not electrically operate the ML7984 before 5. Operate the system (valve, actuator and controller) for
assembly to the valve because damage not ap- several cycles to ensure proper installation.
parent to the installer may occur. 6. When checkout is completed, return the controller to
Do not connect 24 Vac between any signal input the desired setting.
terminals. Device failure will result.
NOTE: Device will ignore any input changes until it has
completed its repositioning relative to the initial sig-
nal input.
The recommended valve actuator power source is a class
2, 24V transformer or 28Vdc across terminals T5 &T6 (See
Fig7-10). The internal circuitry provides dc power for the elec-
tronic sensing and drive motor circuits. The sensing circuits
respond to the signal across the input terminals based on the GENERAL NOTES
configuration DIP switches setting. When correctly connected
1. For correct valve operation, the ML7984 must be field
to the actuator, control signal between signal input terminals
conFigd with the DIP switches which are located beside
is compared to similar voltage across the actuator feedback
the terminal block, see wiring diagrams for details. Turn
potentiometer. When these voltages are equal, the drive mo-
power off before setting the DIP switches .
tor and drive shaft are stationary. As long as the value of con-
2. There is a short delay in actuator response upon every
trolled medium remains at the controller setpoint, the circuit is
signal change. It is to screen any unwanted incoming
in balance, and the actuator does not run. When the value of
signals.
the controlled medium changes, the controller output voltage
3. For proper operation, voltage on the T5 & T6 must not
is changed causing reference voltages in the circuit to be out
be less than 22Vac or 24Vdc during running or force
of balance. As the actuator moves in the direction to correct
generating stages.
the medium change, the feedback potentiometer also moves
to rebalance the circuit, and stop the actuator. At the end of
the valve stroke, the actuator continues to drive and gradually
develops the necessary force for positive valve close-off. The
actuator motor stops automatically when the motor current
reaches the predetermined current & force level.

Automation and Control Solutions

Honeywell International Inc.
1985 Douglas Drive North
Golden Valley, MN 55422

Honeywell Limited-Honeywell Limitée

35 Dynamic Drive
® U.S. Registered Trademark
Toronto, Ontario M1V 4Z9 © 2011 Honeywell International Inc.
customer.honeywell.com 95C-10753—02 M.S. Rev. 05-11
Printed in U.S.A.