Honeywell Q7014C PRODUCT DATA & INSTALLATION INSTRUCTION

FIRE & SMOKE DAMPER CONTROLLER

GENERAL

The Q7014C Fire & Smoke Damper Controller is designed to
integrate 0°/95° damper actuators and fire/smoke detectors
into interoperable L
dispersion of smoke or toxic gases or to perform area
isolation in fire/smoke damper actuation plants.

The Q7014C Controller provides digital I/O’s and functions for
fire monitoring, alarm handling, service, and automated main­tenance. It receives messages via the network, e.g. from a
building management system, to command damper actuators
in the normal or safety position, and it reports alarm
information from a fire system.

Costly point-to-point wiring is replaced by low-cost shared bus
wiring. The transmission of point data is managed by the

ONWORKS® network using LonTalk® messages.

L

These controllers are suitable for use on the network with

ONMARK® devices to provide cost-effective, inter-

other L
operable control systems for buildings and industrial
applications.

Models

OS-No. Description

Q7014C1003 Fire & Smoke Damper Controller

*) The firmware uses a subset of the I/O’s (see Fig. 2

Functional Diagram). Additional functions are available on
request.

ONWORKS® networks to prevent the

Q7014C

PRODUCT DATA & INSTALLATION INSTRUCTION

FEATURES

• Interfaces fire/smoke detector information:
– Fire/smoke alarm
– Pollution (> 70%) warning
– Air-flow failure
– Electronic failure

• Monitoring of damper status

• Thermal fuse override

• Parameter setting of actuator drive time monitoring

• Automated maintenance

• LED’s and wiring visible through transparent cover

• Flexible bus topology and guaranteed interoperability

due to Echelon's FTT10A Free Topology Transceiver

• Robust design, protection standard IP65

• Easy installation and wiring connection

• Conformity to L

– FPT #11001 for Fire Smoke Damper Actuator
– FPT #11003 for Smoke (Conventional) Fire Initiator

SPECIFICATION

Power supply 24 Vac, ±15%; 50/60 Hz or

Current consumption 80 mA (max. 110 mA)
@ 24 Vac/dc

Processor
Type Neuron 3150

Clock frequency 10 MHz

Bus interface

Channel FTT10A Free Topology
Transceiver / Twisted pair
Protocol LonTalk®

Digital inputs

Inputs 8* (potential free or 24 Vac/dc)

Contacts closed ≤ 0.1 kΩ or ≥ 8 Vac/dc

Impedance 20 kΩ

Digital outputs

SPDT relays 4* (potential free)

Relay contact load max. 250 Vac / 1 A or
24 V / 3 A

Ambient limits

Operating temperature 0...50 °C (32...122 °F)
Transport and -35...+70 °C (-31...+158 °F
storage temperature
Humidity 5...95 % r.h., non-condensing

ONMARK® functional profiles:

24 Vdc, ±10%

opened ≥ 40 kΩ or ≤ 0.7 Vac/dc

)

7157 671 EN1B-0246GE51 R0803

Q7014C FIRE & SMOKE DAMPER CONTROLLER

K

Safety

Protection class II as per EN60730-1
Protection standard IP65 as per EN60529
Housing Polycarbonate, halogen-free

Housing

Dimensions (H x W x D) 200 x 150 x 76 mm
Weight 700 g

Mounting Wall mounting or directly on
dampers (metal plate), mounting
position in any direction
Cable entry PG 13.5

Connections

Power supply and bus T-connectors with screw termi­ nals for 2x1.5 mm
Digital inputs/outputs Friction spring terminal block
for 1x1.5 mm

2

conductors

2

conductors

Fig. 1 Fire & Smoke Damper ControllerQ7014C Network Interface

NETWORK INTERFACE

The configuration and the used variables of Fire & Smoke
Damper ControllerQ7014C is described by the network
interface which consists of a Fire Smoke Damper Actuator
(FSDA) object, in combination with a Smoke (Conventional)
Fire Initiator (FSCI) object and in addition a Node object (see
Fig. 1). The Node object is used to control the other objects
within the device.

Node Object

LONMAR

SNVT/SCPT/

nv1 nviRequest

nv2 nvoStatus

nv3 nviTimeSet

nv4 nvoAlarm

nv8 nvoFileDirectory

nc25 SCPTnwrkCnfg

SNVT/SCPT Name

SNVT/SCPT Type

SNVT_obj_request

SNVT_obj_status

SNVT_time_stamp

SNVT__alarm

SNVT__address

SNVT_config_scr

Requests particular modes within the node (e.g. object enable/disable, self-test
execution, override state setting).

Reports the status of node objects (e.g. disabled, feedback or communication failure,
self-test or override status).

Synchronizes the alarm time of nvoAlarm to the actual time clock of the LONWORKS
network.

Reports alarm information (e.g. damper in safety position during self-test, SCFI
pollution or electronic failure, SCFI air flow or fire/smoke alarm), which is generated if
an alarm occurs. The different faults are distinguished by an object ID.

Transmits the requested EEPROM address which points to the configuration parameter
file directory stored in memory of the Neuron Chip. The file directory can be accessed
by network management read/write messages.

Reports, if the node is self-installed or if the installation by a network management tool
is allowed (actual setting is ’installation by a network management’).

Used Abbreviations

nc Configuration property
NV Network variable
nvi Input network variable
nvo Output network variable
SNVT Standard network variable type

which includes engineering unit

and the value range
Ma Mandatory
op optional
sp Honeywell specific

Function

EN1B-0246GE51 R0803 2

Q7014C FIRE & SMOKE DAMPER CONTROLLER

K

K

LONMAR

SNVT/SCPT/

nc22 SCPTmaxSndT

nc165 SCPTdevMajVer

nc166 SCPTdevMinVer

SNVT/SCPT Name

SNVT/SCPT Type

SNVT_elapsed_tm

unsigned short

unsigned short

FSDA Object

LONMAR

SNVT/SCPT/

nv1

nv2

nv3 nvoActuDriveFb

nc17 SCPTlocation

nc30 SCPToffDely

nc41 SCPTactuatorType

nc44

nc45 SCPTdriveTime

nc48 SCPTmaxRcvTime

nc49 SCPTmaxSendTime

nc61

nc141

nc146 SCPTinstallDate

nc147 SCPTmaintDate

nc148 SCPTmanfDate

nc167 SCPTobjMajVer

nc168

SNVT/SCPT Name

SNVT/SCPT Type

nviActuDrive
SNVT_hvac_emerg

nvoActuPosn
SNVT_hvac_emerg

SNVT_hvac_emerg

SNVT_str_asc

SNVT_elapsed_tm

SNVT_str_asc

SCPTdirection
SNVT_state

SNVT_time_sec

SNVT_time_sec

SNVT_time_sec

SCPToemType
SNVT_str_asc

SCPTzoneNum
unsigned long

SNVT_time_stamp

SNVT_time_stamp

SNVT_time_stamp

unsigned short

SCPTobjMinVer
unsigned short

Function

Controls the maximum period of time (min. transmission rate) that expires before the
current value of nvoSatus, without changing the status, is automatically transmitted.
This provides a basic frequency output (heartbeat) used by the destination to ensure
that the node is working correctly.
The status of each object (including the node object) is returned sequentially.

Describes the major version no. of the device (software revision).

Describes the minor version no. of the device (software revision).

Table 1 Node Object Network Variables

Function

Controls the actuator position (normal or safety). After power-up the Controller moves
the damper into normal position.

Reports the actuator position (normal, safety or travelling), which is transmitted
immediately when its value has changed significantly.

Reflects the value of nviActuDrive. It is used to synchronise source objects in multiple
relationships.

Describes the physical location of the FSDA object and is set during installation and/or
configuration.

Contains the Turn-Off time for the damper actuator (default = 35 s).

Describes the damper actuator.

Defines the actuator direction/safety position. In fire/smoke damper actuation plants the
safety position is either a opened or a closed position and is determined by the damper
restraining spring.

Contains the drive time for the actuator (default = 240 s).

Defines the maximum period of time that should expire, before the Controller drives the
actuator automatically into the fail-safe position.

Defines the maximum period of time that should expire, before the object automatically
updates nvoActuPosn.

Contains manufacture specific details: 'Honeywell_Q7014C_FSDA'.

Contains the zone number for the damper actuator.

Contains the date of installation.

Contains the last maintenance date.

Contains the date of manufacture.

Describes the major version no. of the FSDA object (software revision).

Describes the minor version no. of the FSDA object (software revision).

Table 2 FSDA Object Network Variables

3 EN1B-0246GE51 R0803

Q7014C FIRE & SMOKE DAMPER CONTROLLER

K

SCFI Object

LONMAR

SNVT/SCPT/

nv1 nvoFireAlm

nv2 nvoFireTrouble

nv3

#nv4 nvoEmergMode

#nv1 nvoPollution

#nv2 nvoAirFlow

nc17

nc49

nc61 SCPToemType

nc141 SCPTzoneNum

nc146 SCPTinstallDate

nc147 SCPTmaintDate

nc148

nc149

nc150 SCPTfireTxt2

nc151 SCPTfireTxt3

nc167 SCPTobjMajVer

nc168 SCPTobjMinVer

SNVT/SCPT Name

SNVT/SCPT Type

SNVT_switch

SNVT_switch

nviDeviceRequest
SNVT_fire_test

SNVT_hvac_emerg

SNVT_switch

SNVT_switch

SCPTlocation
SNVT_str_asc

SCPTmaxSendTime
SNVT_time_sec

SNVT_str_asc

unsigned long

SNVT_time_stamp

SNVT_time_stamp

SCPTmanfDate
SNVT_time_stamp

SCPTfireTxt1
SNVT_str_asc

SNVT_str_asc

SNVT_str_asc

unsigned short

unsigned short

Function

Transmits fire information (no alarm or alarm) immediately when a fire/smoke alarm is
reported by the smoke sensor.

Transmits initiator trouble information (no trouble or trouble) immediately when an
initiator failure (Electronic failure) condition occurs.

Command requests, initiated from an operator, to perform smoke detector operations
like RESET functions or TEST requests. The RESET function causes a sequence of
actions to take place within the detector, including sampling of the smoke chamber.

Controls the damper position (normal or safety) for smoke control devices and is
transmitted when a fire/smoke alarm is reported by the sensor.

Transmits the pollution status (no pollution detected or pollution alarm ) as digital
information.

Transmits the air flow status (air flow > limit or air flow < limit) as digital information.

Describes the physical location of the SCFI object and is set during installation and/or
configuration.

Defines the maximum period of time that may expire between successive indications
from nvoFireAlm to its bound network variable(s).

Contains manufacture specific details: ’Honeywell_Q7014C_SCFI’.

Contains the zone number for the damper actuator.

Contains the date of installation.

Contains the last maintenance date.

Contains the date of manufacture.

Allows text information (max. 30 char.) relevant to fire conditions to be read from the
device and is set during installation and/or configuration.

Allows additional text information (max. 30 char.) relevant to fire conditions to be read
from the device and is set during installation and/or configuration.

Allows additional text information (max. 30 char.) relevant to fire conditions to be read
from the device and is set during installation and/or configuration.

Describes the major version no. of the SCFI object (software revision).

Describes the minor version no. of the SCFI object (software revision).

Table 3 SCFI Object Network Variables

FUNCTIONS AND OPERATION

Fig. 2 shows a functional diagram for a LON-based system
with an integrated Fire & Smoke Damper Controller, which
interfaces the LON bus with a damper actuator and a
fire/smoke detector.

Normal Operation

After power-up, the damper will be automatically driven into
the normal position. The fire/smoke detector will be tested/
reset for normal operation condition. All pending alarm
conditions will be reported. The Operation LED indicates the
normal operation after the damper has reached the normal
position within the drive time limit.

EN1B-0246GE51 R0803 4

User Interface and Display

One Service Pin and one Test Pin are provided as user
interface. Operation, Damper, Fire/Smoke Detector, and Test
status are displayed by 13 LED’s. Position and function see
Fig. 3 and Table 4.

Q7014C FIRE & SMOKE DAMPER CONTROLLER

Damper Actuator Control

The network variable nviActuDrive is provided to command
fire/smoke damper into normal or into safety position.
After power-up, the damper will automatically drive into the
normal position, in case of a communication failure or power
down, the damper will be driven into the safety position.
An override temperature trigger element is provided to open a
closed damper.

Monitoring

The actual smoke detector values and the smoke/fire damper
position are periodically reported by the network variables
nvoFireAlm and nvoActuPosn (chapter ”Network Interface”)
and displayed by the corresponding LED.

Automated Maintenance

An automated self-test function can be activated via the
network variables nviRequest of the node object.
The test result are accessible via nvoStatus of the node
object. For smoke detection, a RESET function and a test
mode command is available (see Table 3, nv3).

Fig. 2 Functional Diagram

Fig. 3 Position of Connectors, LED's, and Pins

5 EN1B-0246GE51 R0803

Q7014C FIRE & SMOKE DAMPER CONTROLLER

Status LED’s Digital Input LED’s

Function

Operation

Test FSDA Test SCFI

Override

Normal Operation ●  ●  after power-up and

Actuator Position Display:
– Normal
– Damper drives from Normal to Safety
– Safety
– Damper drives from Safety to Normal

Actuator Drive Time Error

❁  ● actuator drive time
(Error state can be left by pushing the Test
PIN)

Override Thermal Fuse is active:

● nviRequest to

Opens a closed damper

Fire/Smoke Condition Display:
– Fire/Smoke Alarm
– Pollution (> 70%) Warning
– Air Flow Failure
– Electronic Failure of SCFI

Test Sequence FSDA:

1. Damper is driven into the safety position

2. Damper is in safety position

3. Damper is driven into the normal position

4. Damper is in normal position

●

●

●



Test/Reset SCFI (approx. 3 s active) ● nviDeviceRequest

Test PIN Function:
Test/Reset SCFI (approx. 3 s active)

●

or

1. Test/Reset SCFI (approx. 3 s active)

2. Test Sequence FSDA

●

●

(sequence see above)

Service Display:
– applicationless
– unconfigured
– configured ●

Service PIN Function:
The neuron / program ID is sent over the
network during installation. The Controller can
be found on the bus and binding can be made.
(Functionality is defined by Neuron Chip
Firmware)

DI1 DI2 DI5 DI6 DI7 DI8

Initiated by

Service LED

after the damper
has reached
normal position

Damper Actuator

●
❁







●
❁

Switches

> SCPTdriveTime
or SCPToffDely
(FSDA object)

Node Object

Fire/Smoke

●

Detector Switches

●

●

●

nviRequest to

❁




●



●
❁



Node Object

to SCFI Object

pushing the Test
PIN less than 3 s

pushing the Test
PIN longer than 3 s

Firmware

●
❁



● pushing the
Service PIN

 LED off ● LED on ❁ LED blinks (frequency 1 s ON / 1 s OFF)

Table 4 LED and Pin Functions

EN1B-0246GE51 R0803 6

INSTALLATION & START-UP

Q7014C FIRE & SMOKE DAMPER CONTROLLER

Connections

Fig. 4 shows a wiring diagram for typical applications. For the

connector position refer to Fig. 3.

Power Supply Wiring

Multiple Controllers can be supplied by a central power

transformer in a daisy chained manner, as long as the
minimum supply voltage at the last controller is guaranteed.
Cable shield must not be connected.

Digital Input / Output Wiring

For wiring of the max. 8 digital inputs as well as for the 4

digital outputs (relay outputs) refer to the instructions in
Table 5.

Wiring run to

Controller

Cable type

Contact

load

Digital input IY(St)Y 2x2x0.8 mm ≤ 100 Ω

incl. status
contact

Relay output Local standard

0.5 mm
(AWG 20 to AWG 14)

2

... 2.0 mm

I

≤ 2 A

L

2

≤ 250 Vac

U

L

Table 5 Digital Wiring

LonWorks® Wiring Instructions

The LONWORKS® network used consists of individual

subnetworks (segment) with max. 60 nodes. The individual
segments are connected by a router.

A NSI (Network Services Interface) interfaces the building

management system (control node) with the network.

Using the free topology transceivers FTT10A allows the

following bus topologies (see Fig. 5):

• Bus

• Star

• Loop

• Mixed topology

Bus topologies should be preferred. Other topologies,
especially mixed topologies or deviations, must be approved
by Honeywell.
The technical data of wiring (e.g. max. cable length and bus
termination) depends on the cable types and transceivers
used.

For using IY(St)Y 2x2x0.8mm cables, refer to the technical
data in Table 6.
By using other cable types (e.g. Belden 85102, Belden 8471
or Level IV, 22AG), the cable length can be increased.

Bus topology Bus

Cable type

Maximum Length:

Segment 900 m 500 m 500 m

Node - Node 320 m 320 m 320 m

Stub length 3 m 3 m 3 m

SLTA - building
management system

Max. node
per segment

Bus termination

1)

2)

3)

2)

3)

Several bus linked with a repeater
Cable shield must be connected at one side only to

terminal
(PE).

RC-array: Use termination module 206317A

and must be kept free from protection earth

Table 6 LONWORK Wiring

1)

15 m 15 m 15 m

60 60 60

both sides single single

Star Loop

IY(St)Y 2x2x0.8 mm

(shielded)

Installation Check

After installation, blinking of the service LED shows the
operating mode of the firmware (see Table 4).

Configuration Requirements

Device configuration can either be done with the standard
LonMaker for Windows Browser Plug-In or with a dedicated
controller device Plug-In.
For binding of network variables in industrial environment with
heavy disturbance, the 'Acknowledge Message Service' must
be used.

7 EN1B-0246GE51 R0803

Q7014C FIRE & SMOKE DAMPER CONTROLLER

A

A

A

A

A

A

pp

LON-BUS

24VAC BUS

T-connector

Q7014C

AAB

LON BUS

AC

24V

24V BUS

T-connector

AC

24V

24V OUT

L3

AUX

5

2

DI6

IN

4

Pollution

DI5

IN

3

Smoke

TROX

L4

24VDC Out

++

LL

-

-

Application 1

LON-BUS

24VAC BUS

Q7014C

AUX

IN

6

Failure

RM-O-VS

L1

NN

230VAC

T-connector

DI7

AUX

7

21

Air

L9

Remote Contr.

DI8

AUX

IN

8

695

Electronic

Failure

L7

12…

Te s t / Re s e t

LON BUS

1)

UX
4

S4S4S5

=

°

<80

DO1

CCNONONC

S6

2)

DI4

DI3

UX
2

+

M

1)

UX

IN

IN

3

S1

S3

S2

2)

<

=

°

5

AUX

1

DI2

IN

112

DI1

IN

-

DO2

CCNONONC

DO3

CCNONONC

Damper Actuator

T-connector

AC

B

24V

24V BUS

AC

24V

24V OUT

DO4

CCNONONC

Thermal

Fuse

Override

1

1)

DI8

AUX

5

DI6

AUX

IN

837

Pollution

6

DI5

IN

3

Smoke

UG-2-A4-O-SR-SST-

STAND-ALONE *

DI7

AUX

IN

7

Electronic

IN

Failure

AUX

8

10

DI1

IN

AUX

1

DI2

UX

IN

IN

2

S1

2

-

+

M

1

2

*

Oppermann

Regelgeräte

A

lication 2

1)

Not used. The firmware uses a subset of the I/O’s (see Fig. 2 Functional Diagram). Additional functions are available, upon request.

2)

Damper is in safety position.

Test / Reset

Damper Actuator

DI3

<

DI4

UX

IN

3

S3

S2

2)

=

°

5

UX
4

<80

DO1

1)1)

S6

S5

2)

=

°

DO2

NC

DO3

NC

NC

DO4

NC

Thermal

Fuse

Override

122

Fig. 4 Wiring Diagram

EN1B-0246GE51 R0803 8

1)

Q7014C FIRE & SMOKE DAMPER CONTROLLER

T

NSI

Central

LION

# 60

−

= Bus Termination

NSI

= Network System Interface

Techn. Data see Table 2

LION

# 3

3

2

0

m

320m

LION

# 2

900m

LION

# 1

T

LION

# 4

LION

−

3

2

m

0

# 60

+

5

1

m

+

Bus Topology

Star Topology

LION

# 3

NSI

Central

−

LION

T

# 2

LION

# 1

+

1

5

m

+

LION

# 4

LION

# 60

−

LION

m

0

2

3

# 3

−

LION

# 2

0

5

0

m

LION

# 1

NSI

+

m

5

1

Central

+

Fig. 5 Network Topology

= Bus Termination

=

Network System Interface

NSI

Techn. Data see Table 2

−

LION

# 4

LION

# 60

LION

# 3

5

0

0

−

m

0

2

3

LION

# 2

m

LION

# 1

3

m

NSI

+

m

5

1

Central

+

9 EN1B-0246GE51 R0803

Q7014C FIRE & SMOKE DAMPER CONTROLLER

DIMENSIONS AND MOUNTING

The compact and robust design allows direct field mounting
on air ducts, heating, ventilation and air conditioning systems
or in area above the ceiling etc. close to the damper actuators
to be controlled or the fire/smoke detectors to be monitored.

Dimensions and mounting are shown in Fig. 6.

Unused PG cable entries have to be sealed with inserted
blind washers.

Fig. 6 Dimensions and Mounting

Honeywell

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

EN1B-0246GE51 R0803
7157 671