KOOLAIR KOOLCOM Manuale utente
series
Motor-driven
fire damper
monitoring systems
KOOLCOM
www.koolair.com
KOOLCOM
KOOLCOM fire damper monitoring system
CONTENTS
Description 2
General system schematic diagram 3
System components 4
KHUK connection schematic diagram 14
Accessories 17
Coding 18
Environment and guarantee 19
1
KOOLCOM
KOOLCOM fire damper monitoring system.
Introduction
KOOLCOM is an electronic control system for re dampers that allows
the condition and functionality of each re damper to be periodically and
automatically monitored and checked. It can also close the dampers
should the re alarm be activated.
While this system is capable of being managed by a BMS (Building
Management System) system, KOOLCOM can also work in Standalone
mode, i.e., operate autonomously without the need for a BMS or any
external maintenance personnel.
HUB Design Concept
KOOLCOM is the only system on the market whose installation
is based on the HUB design concept (a central communications hub).
This allows:
- Control of up to 31,616 re dampers.
- Greater data communication speed (32 times faster than systems
without this arrangement).
- Simple alarm wiring.
Technical specications
- Control electronics for 1 to 4 re dampers (DCU)
- Control electronics for 24 V (AC and DC) and 230 V AC dampers
- Autonomous or interactive with the central re alarm system
- Programmable periodic checks
- Supply fan actuator, congurations for extract fans and smoke
extract by means of an external contact.
- MODBUS Communication. Adjustable velocity. Integrated
bus terminator.
- Alarm input/output. Dry contact.
- Test mode for smoke detectors
- Segregated graphic console.
Graphic console
Communication control unit
KHUK
Fire damper control unit
DCU 1CH
2
KOOLCOM
General schematic diagram of the KOOLCOM
monitoring system.
BMS
MODBUS-USB
Power
DCU1
DCU32
(Possible connections
for 1 to 32 DCUs).
(Possible connections
for 1 to 32 DCUs).
DCU1
DCU32
(Possible connections
for 1 to 32 DCUs).
(Possible connections
for 1 to 247 KHUKs).
Power
DCU1
DCU32
DCU1CH
DCU4CH
CONSOLE
Bus
ModBus
KHUK
Note: If the KHUK alarm input is connected to a re panel, the modbus wiring between KHUK and DCUs, and between
KHUK and the BMS, must be ame retardant.
A - Power Connection-KHUK. 24V. 2 Wires. Observe polarity +24V and GND(-).
B - KHUK-RESET PUSH BUTTON. 24V.2 Wires. Observe polarity RESET and +24V
C - KHUK- INPUT FROM ALARM PANEL. 2 Wires. Observe polarity. +24V and ALARM.
D - KHUK-KHUK. ModBus. 3 Wires. Observe polarity A+, B- and GND.
E - KHUK-DCU. ModBus. 3 Wires. Observe polarity A+, B- and GND.
F - DCU-FIRE DAMPER. 2 Wires contacts + 2 Wire Motor.
G - DCU-SMOKE DETECTOR. 2 Wires.
H - DCU-Power 220V. 2 Wires.
I - KHUK-CONSOLE. 2 Wires. No polarity.
J - KHUK-BMS. ModBus.
K - DCU-GATE. 3 wires + 2 wires Motor.
AWG20 (0.5mm2).
AWG26 (0.13mm2).
AWG26 (0.13mm2).
0.2mm2.
0.2mm2.
Contacts AWG206 (0.13mm2)/ Motor AWG20 (0.5mm2).
AWG20 (0.5mm2).
AWG20 (0.5mm2).
AWG20 (0.5mm2).
0.2mm2.
Contacts AWG206 (0.13mm2) / Motor AWG20 (0.5mm2).
Minimum cross sections for a maximum length of 100m. For longer lengths refer to standard values A.W.G. ModBus:
3 Wires. RS-485 specic cable, minimum 3 conductors + screen. Nominal impedance 100-120 ohms. AWG24 (0.2mm2
section, 0.51mm diameter, twisted).
Note: If the Alarm Input of the DCU is used, use 2 wires AWG26 (0.13mm2).
3
KOOLCOM
System components.
Damper Control Unit (DCU 1CH)
DAMPER CONTROL UNIT 1 CHANNEL (DCU 1CH)
DCU 1CH (Damper Control Unit, 1 Channel) are devices used to send commands and
supervise motorised re dampers, which by means of commands sent through the
ModBus allow them to be automated and controlled.
They are integrated in the KOOLCOM re damper control and supervision system. This
system is completed with KHUK units (KoolCom Hub Unit KoolAir), which allow DCUs
(1CH or 4CH) to be grouped in sets of 32 units, and connects the colour, touch screen
consoles.
Each DCU 1CH has:
• 1 input for a conventional smoke detector (zone).
• 1 output for re damper in two available formats:
• Direct connection for Belimo motors.
• Universal motor connection.
• 1 power input.
• 1 ModBus connection.
• Models:
• 24V (AC/DC) - 100-DCK300: For 24V re damper motor.
• 230V AC - 100-DCK400: For 230V power supply damper motor.
The DCU contains the control electronics for the dierent re dampers. KOOLCOM oers two models which allow either 1,
or up to 4 dampers to be controlled by the same device.
Materials:
− Casing: ABS (-40°C | 100°C).
− Cable inlet: Nylon 6/6 and TPE.
Waterproong:
− Box: IP 54
− Cable inlet: IP 67/68
4
KOOLCOM
Specifications (DCU 1CH)
• Maximum load on the damper motor output:
24V (AC/DC) model: 3A
230V AC model: 0.5A
• Maximum load in the detection zone: 100mA
• Maximum power consumption (without detector or damper):
24V (AC/DC) model: 100mA@24V 0.72W
230V AC model: 70mA@230V 0.88W
• Protected against short circuits and ESDs at zone connections, re damper contacts, and ModBus.
• MODBUS:
- Device type: Slave
- ModBus implementation: RTU on RS-485
- Maximum number of DCUs (without repeater): 32
- Default conguration: 9600bps 8E1
- Bus data transfer speed can be congured both on the PCB and via ModBus.
- Integrated termination in PCB, can be activated by jumper.
- Typical response time: <10 ms.
• Installer push-button on the front panel to:
- Perform tests and set up from the front panel.
- Reset alarms from the DCU itself: a laptop is not required to reset alarms if the operator is present at the DCU.
• Zone Connection:
- Protected against short circuits and ESDs.
- Monitored: If there is a wiring failure or the detector is disassembled, monitoring allows the problem to be
detected and highlighted.
- Most smoke detectors are supported, including both those that are self-limiting and those that need current to be
limited in the control panel.
- Automatic detection in the zone: it is not necessary to place a resistance at the terminals or to simulate a fault if
the zone is not in use.
- Smoke detector test mode: allows smoke detectors to be tested without the DCU triggering the re alarms.
• Automatic re damper testing with programmable test intervals.
• Automatic detection of re damper and zone: it is not necessary to bypass the damper or simulate a fault if the zone
is not in use.
• Clearly indicated connections next to each connector.
5
KOOLCOM
Damper Control Unit 1 channel (DCU 1CH)
The universal damper connection is a 5-wire connection:
o Contacts:
- S4+S1: can be connected inside the damper.
- S2 and S6: Are the normally open contacts of the matching limit switches.
o Motor:
- COM: common, negative (or neutral in DCU 230V)
- MOT: positive (or phase in DCU 230V)
MOT: normally not used, it is the same signal as MOT but with inverse logic.
The output connections to the damper motor are not dry contacts, but are already powered to supply the voltage needed
to power the motor: 24V o 230V, as per the DCU model.
Binary ModBus
address
ModBus
termination
activation
Default load
values
Input
24 AC/DC
Smoke
detector
connector
Connection
ModBus
Cable tie
230v Input
230v AC
Direct
connection
Belimo / Siemens
Universal
connection
Motor Contacts
6
KOOLCOM
Damper Control Unit 1 channel connection
(DCU 1CH): two versions (24V / 230V)
Power
24V
100-DCK300 - 24V:
100-DCK400 - 230V:
Power
220V
ModBus IN
ModBus OUT
KHUK
DCUs
DETECTOR
Contacts Motor
DAMPER
Power supply 230V (cable tie is essential) or 24V. 2 wires.
ModBus. 3 wires.
2 Wires.
Contacts 3 wires + motor supply 2 wires.
7
KOOLCOM
System components
Damper Control Unit 4 channel (DCU 4CH)
DCU 4CH (Damper Control Unit, 4 Channel) are devices used to send
commands and supervise up to 4 motor-driven re dampers and 4 smoke
detectors, which, by means of commands sent through the ModBus, allow
them to be automated and controlled
They are integrated in the KOOLCOM system for controlling and supervising
motor-driven re dampers and four smoke detectors (zones). This system is
completed with KHUK units (KoolCom Hub Unit KoolAir), which allow DCUs
to be grouped (1CH or 4CH) in sets of 32 units, in addition to connecting the
colour, touch screen consoles.
Each DCU 4CH has:
• 4 inputs for a conventional smoke detector.
• 4 outputs for re dampers. Direct connection from motors.
• 1 power input.
• 1 ModBus connection.
• 24V (AC/DC) and 230V AC models
• Damper test button
• Dry contact for external alarm input
• Dry contact for supply/extract fan
• Dry contact indicating alarm detected
• Visual indication of the status of all the elements by means of LEDs on the board
8
KOOLCOM
Specifications (DCU 4CH)
• Maximum joint load on the damper motor outputs:
24V (AC/DC) model: 3A
230V AC model: 0.5A
• Maximum load in the detection zone: 100mA per zone / 300 mA combined
• Maximum consumption (without detector or damper):
24V (AC/DC) model: 100mA@24V DC
230V AC model: 70mA@230V AC
• Auxiliary Relays (FAN AND ALARM):
24V (AC/DC) model: 5 A@24V DC
230V AC model: 5 A@230V AC (for resistive loads)
• Protected against short circuits and ESDs at zone connections, re damper contacts and ModBus.
• MODBUS:
- Device type: Slave
- ModBus implementation: RTU on RS-485
- Maximum number of DCUs (without repeater): 32
- Default conguration: 9600bps 8E1
- Bus data transfer speed can be congured both on the PCB and via ModBus.
- Termination integrated in internal PCB, can be activated by jumper.
- Typical response time: <10 ms.
• Installer push-button on the panel to:
- Perform tests and set up.
- Reset alarms from the DCU itself: a laptop is not required to reset alarms if the operator is at the DCU.
• Zone Connection:
- Protected against short circuits and ESDs.
- Monitored: If the wiring fails or the detector is disassembled, monitoring allows problems to be detected and
highlighted.
- Most smoke detectors are supported, including both those that are self-limiting and those that need current to be
limited in the control panel.
- Automatic detection in the zone: it is not necessary to place a resistance at the terminals or to simulate a fault if
the zone is not in use.
- Smoke detector test mode: allows smoke detectors to be tested without the DCU activating the re alarms.
• Automatic re damper testing with programmable test periods.
• Automatic detection of dampers and zones: it is not necessary to bridge or to simulate a fault if the zone is not in use.
9
Indice
