1. No category

technical
installation
manual
vers. 15
ingenium
www.ingeniumsl.com
ingenium
www.ingeniumsl.com
introduction
Ingenium is a vanguard company dedicated since
1998 to the design, development and manufacturing of the highest domotics technology.
From the beginning we have been conscious of
the necessity to approach this emergent market
with high standards of quality and focusing on
R&D. This allows us to innovate without neglecting the manufacturing process while making us
confident of our effort. Our focus causes that
every year more people approach our system.
Our system BUSing® totally open and free of royalties, allows other manufacturers to design equipment under our standards and specifications, as
well as the development of integrations on other
devices or gateway with other standards.
Our products are versatile and intuitive, guaranteeing comfort, security and energy efficiency
without forgetting design; basic pillars on which
our concept of domotics is founded. This is how
we elaborate our catalogue.
BUSing®
This technical manual has been developed to provide the necessary assistance in the installation to
those companies that held the BUSing®Partner o
are BUSing®Installer certify and who also work with
INGENIUM's BUSing® Communications Equipment.
• The BUSing® Certificates are obtained by taking training courses that INGENIUM organizes periodically.
• For more information contact us:
(+34) 985 118 859 - [email protected]
In the following pages you will fin detailed characteristics and techniques, a brief description and a
connection sketch for INGENIUM’s equipment.
• The end of the manual shows examples of different
types of installations: centralized, distributed, mixed,
prolonged and extended; besides several integrations
schemes with devices from other companies.
• It also includes information on programming software
developed by INGENIUM, the BUSing® Development
System (SIDE), as well as the APPs to control BUSing®
installations.
General Requirements
• In no case should be used the power wiring pipes for
wiring BUS or inputs signals, because it is SELV signals.
• The system is virtually unlimited, and can count up to
255 devices or nodes per line, up to 255 lines. It represents more than 65,000 devices with more than
300,000 outputs in the same installation.
• Ingenium is not responsible for the improper functioning of the system in the case of making a star-wiring
BUS. It is recommended that BUS topology is used.
• It is fully scalable and new devices can be always
added in an already existing installation. Installed devices can be also reprogrammed at any time.
• The number of required power supplies can vary depending on wiring distances between devices and the
installation in general.
• The communications protocol, BUSing®, can be wireless (868 MHz frequency) or wired (4-wire BUS). Both
types can coexist in the same installation establishing
communications between different ways of communication.
• It is strictly recommended to use shielded and flexible
cable for the wiring of the data BUS.
• Ingenium always recommend the use of protection,
both in electrical line and telephone line, to prevent
possible damage by power surges.
• To ensure the proper functioning of communications,
especially in electrically noisy installations, an EndBUS device must be placed in the beginning and another one at the end of the bus line.
• Both the programming and implementation must be
carried out exclusively by installers / integrators who
are certified BUSing®.
3
index
Manual available for download in PDF format:
QR URL >
http://ingeniumsl.com/website/pdf/ingenium_manual_en.pdf
autonomous detector
sensors
SR .............................................................................8
temperature
visualization
STIBUS, STIBUS-SD ............................................86
STIBUS-NTC .........................................................88
MECBUS-G............................................................12
TECBUS-G .............................................................14
Smart Touch, Smart Touch Plus.......................16
PPL4-G ..................................................................18
PPL7-G .................................................................20
ETHBUS3 ..............................................................22
GSMdata...............................................................24
BPC-SC ..................................................................26
flooding
Sin-2h, Sin-3h ......................................................90
Sin-BUS, Sin-W ....................................................92
fire/smoke
DTV, DTV-BUS, DTV-W .........................................94
DH, DH-BUS .........................................................96
SG ..........................................................................98
movement
security
KCtr, KCtr-basic ...................................................30
GSMing .................................................................36
RFiD-BUS ..............................................................38
Sif ........................................................................100
SifBUS-E, SifBUS, SifBUS-W ...........................102
SifBUS-L .............................................................104
SRBUS ................................................................106
lighting
input/output
LDRBUS ..............................................................108
2E2S .....................................................................42
2E2S-PW ...............................................................44
2E2S-C30A ...........................................................46
4E4S, 4E4S-F4 ....................................................48
4E4S-30A .............................................................50
6E6S .....................................................................52
8S ..........................................................................54
MECing ..................................................................56
MECing-C ..............................................................58
contact
dimmers
RB300, RB300-W ...............................................62
2S300 ...................................................................64
RB1500 ................................................................66
RBF10A .................................................................68
RBLED500, RBLED1000 ...................................70
RBLED2S400 ......................................................72
RGBL .....................................................................74
RGBWL ..................................................................76
DMXBUS ...............................................................78
DALing ...................................................................80
iDALing-G ..............................................................82
4
DM-BUS, DM-W .................................................110
clima
BUSing-LGAC-I ...................................................114
BUSing-LGAC-D .................................................116
BUSing-DKAC-I...................................................118
BUSing-DKAC-D .................................................120
iRing ....................................................................122
RejiBUs ...............................................................124
audio
SoniBUS .............................................................128
ING-AS ................................................................130
energy efficiency
MeterBUS-1C ....................................................134
MeterBUS-3C ....................................................136
MeterBUS-4C ....................................................138
power supply
BF1-W, BF2, BF22.............................................142
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software
topology & connection
SIDE ....................................................................146
Paquete Sniffer .................................................146
SC-PC .................................................................148
SH-PC ..................................................................148
Conventional, Centralised Installation .........190
Conventional, Distributed Installation ..........191
Extended Installation .......................................192
Prolonged Installation......................................193
Mixed Installation .............................................194
Clima with Touch Screen Installation ...........195
apps
Ingenium aSC ....................................................152
ingenium iSC .....................................................152
ingenium sTV .....................................................152
other devices
programming
BPC-USB, BPC-USBW .......................................156
C-BUS..................................................................158
communication
integration schemes
SoniBUS - Sonelco ...........................................198
Fermax iLoft - BUSing® ...................................199
Fermax Smile - BUSing®.................................200
Fermax Vivo - BUSing® ...................................201
KNX - BUSing®..................................................202
DALI - BUSing® .................................................203
notes ...............................................................204
BW, BW-LA, BW-FERMAX .................................162
ROUTing..............................................................164
REPing ................................................................164
EndBUS ..............................................................166
integrations/others
RS232 ................................................................170
ULing ...................................................................172
RTC ......................................................................174
VeluxBUS ............................................................176
BUSing-KNX .......................................................178
accessories
Batería, Sirena ..................................................182
SenLluv, AneBUS ..............................................184
Cable BUSing®, ConectorT ............................186
5
autonomous detector
á SR
360¡
Patentado
Patented
‡ngulo de detecci—n
detection angle
Exento Licencia (Frec. Funcionamiento 9,9GHz)
Licence Exempt (Working Frecuency 9.9GHz)
N
1.5W@ 230V 50Hz
85V-250V~(50/60Hz)
L
Potencia M‡x
Max. Switching Power
ingenium
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· SR
6
85V-250V~(50/60Hz)
N.O.
2200W Cos ¯= 1
880W Cos ¯= 0.6
400W Cos ¯= -0.6
4
3
2
1
ingenium
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autonomous detector
SR ......................................................................8
7
autonomous detector
· SR
Hidden 360º Radiofrequency Detector
For movement detection with concealed installation.
á SR
360¡
• Detects movement through solid, non-metallic objects
(brick, wood, etc)
Patentado
Patented
• Detects minimum movements
Exento Licencia (Frec. Funcionamiento 9,9GHz)
Licence Exempt (Working Frecuency 9.9GHz)
‡ngulo de detecci—n
detection angle
N
1.5W@ 230V 50Hz
85V-250V~(50/60Hz)
L
Potencia M‡x
Max. Switching Power
85V-250V~(50/60Hz)
N.O.
2200W Cos ¯= 1
880W Cos ¯= 0.6
400W Cos ¯= -0.6
• Hidden installation in false ceilings or walls
4
• Autonomous operation (no BUSing® required)
3
2
• Automatic reset after detection
1
• Adjustable timer from pulse to 17 min.
ingenium
• Adjustable sensitivity up to 12m
www.ingeniumsl.com
• Size: 100x75x35mm
Description
This is an autonomous device (no BUSing®required). It is designed to be connected to the lighting in transit areas, such
as bathrooms, hallways or corridors and garages and installed in false ceilings and walls. Its hidden installation makes it
immune to vandalism.
It can detect objects through non-metallic solids by using radio frequency technology. It is superior to infra-red detectors,
from sensitivity to precision. It is practical, unobtrusive and easy to install and adds elegance to your lighting design.
Applicable power supplies depending on the load*
• Incandescent or halogen lamp 220V .......................................................... 2000W
• Incandescent 12V lamps containing mechanic transformer .......................... 1300W
• Incandescent 12V lamps containing electronic transformer ........................... 900W
• Fluorescent lamps not compensated ............................................................ 900W
• Fluorescent lamps compensated Low factor ................................................. 400W
High factor ................................................... 58W - 3µF
*Estimated power calculated with the losses of each type of lighting.
Technical Characteristics
Device
Voltage
Reference Supply
SR
85-265V AC
* voltage free, normally open relay.
8
Power
Consumption
Maximum
Detection Area
Secure
Adjustment
Detec. Area Parameters
4.5mA @ 230V AC
12x6m
6x3m
Sensitivity/Time
No.
Outputs
Switching
capacity
1*
10A
ingenium
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· SR
Installation
85V-250V~(50/60Hz)
1 2 3 4
L N
Min.
13
17
SR output wiring
Power consumption 4.5mA
Detection
Microprocessor
Supply
SR
Adjust.
Nor
2
1
M‡x
Min
Timer adjustment (Min.)
¥ The timer adjuster regulates the time a load
remains connected.
¥ Timers can be adjusted between 0.25secs (Pulse)
and 17mins, at 4sec intervals.
¥ Minimum timings are obtained by turning the
adjustment potentiometer clockwise.
4: Neutral
3: Phase
1: Load
Installation in a false ceiling
7
Sensitivity adjustments (Adjust.)
¥ The sensitivity adjustment limits the degree of
detection.
¥ Maximum distances that can be reached will
depend upon the density of obstacles to penetrate
(wood, plaster, brick, etc.).
Detection area
The detection area must face the room,
with the silk screened part of the device
face-down.
Detection area at
2.5m from the floor:
Guaranteed: 6x3m
Maximum: 12x6m
The device can be partially
blinded with metal tape to
cancel detection in a
zone/direction.
Floor
Guaranteed area 6x3m
Maximum area 12x6m
Length side of the room
Direction of the device
Place lengthwise, with the length of the
device parallel to the length of the room.
Together with the programming, this will
ensure optimal detection.
Do NOT install:
á In locations susceptible to vibrations.
á Over fluorescent lights.
9
visualization
· Smart Touch
· MECBUS-G
· TECBUS-G
· PPL4-G
· PPL7-G
N~L
N~L
á ETHBUS3
á GSMdata
Servidor Web
Web Server
Z1
Ethernet
· ETHBUS3
ingenium
Ref.
B
A
IN 4
IN 3
IN 2
IN 1
Ref.
B
A
· GSMdata
sim
+12V
www.ingeniumsl.com
www.ingeniumsl.com
Ethernet
+12V
Ref.
B
2
A
+12V
Ref.
B
A
+12V
Z4
ingenium
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10
Z3
á BPC-SC
ingenium
1
Z2
centralita alarmas GSM
GSM alarm smartbox
· BPC-SC
ingenium
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visualization
MECBUS-G .....................................................12
TECBUS-G ......................................................14
Smart Touch, Smart Touch Plus..................16
PPL4-G ............................................................18
PPL7-G ............................................................20
ETHBUS3 .......................................................22
GSMdata ........................................................24
BPC-SC ...........................................................26
11
visualization
· MECBUS-G
4.3” Colour Capacitive Touch Screen
To manage and monitor devices in the BUSing® installation.
• 4.3” LCD colour capacitive touch screen
• 2 scrollable carousels of 5 icons each with direct access on screen
• Mounted on universal box, screwed on wall
• Available in black or white finish
• Size: 129x88x4mm (13mm depth)
Description
Colour capacitve touch 4.3" interface to control and monitor the elements of a BUSing® installation, which aims to replace conventional switches and buttons and ideal to install one per location.
Automatically incorporates the ability to control up to 16 elements point to point by alluding icons and 16 scenes by a
programmable name and can control: lighting on and off, control lighting intensity, shutter control proportionally, turn on
and off the heating and temperature control, etc.
These controls may vary by model, incorporating a digital thermostat control screen area independent of climate in the
case of having internal temperature sensor (reference: STIBUS-SD, page 86). The thermostat allows readings of the
measured temperature, selecting a set point temperature and the variation between winter, summer, mixed or off.
Configuration using Development System (SIDE)
• Point to Point Controls and scenes by model:
- MECBUS-G: 16 point to point to point controls and 16 scenes.
- MECBUS-G + STIBUS-SD: 15 controls and 11 point to point scene.
Technical Characteristics
12
Device
Reference
Voltage
Supply
Current
Consumption
Range Measured
Temperature
MECBUS-G
9–16V DC (BUS)
150mA (BUS)
0–51ºC
ingenium
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· MECBUS-G
Installation
!
Use external mounting box is essential in any type of installation
allows future removal of the device.
Mounting box
14mm
129mm
8mm
4mm
120mm
ConectorT
73mm
88mm
UP
!
Glue connector housing In EMBEDDED installations
Before fitting the device inside
remove external border in
MASONRY WALL installation
Plastic part to remove in EMBEDDED
installation for ConectorT access
MicroSD
memory card
Device
When installed
the mounting
box, fit the
device inside
Installation options
SURFACE mounted on universal box
in PLASTERBOARD
EMBEDDED in MASONRY WALL
Device
To change skins or include
internal thermostat
(ref: STIBUS-SD)
Rear
BUSing¨
connection
Ref.
B
A
+12V
Using
ConnectorT
Cable
4x0.5mm
Consumes
13
visualization
· TECBUS-G
4.3” Colour Capacitive Touch Screen for technical alarms management
To control the installation, alarm management, intrusion alarms, presence simulation and timers.
• 4.3” LCD colour capacitive touch screen
• Optional gauge temperature range 0–51°C
• Includes presence simulation
• Display signaling up to 5 technical alarms, by
using icons and screen messages
• Mounted on universal box, screwed on wall
• Available in black or white finish
• Size: 129x88x4mm (13mm depth)
Description
Colour capacitive touch 4.3" interface to control and monitor the BUSing® fixtures. Incorporates management control up
to 5 alarms, intruder alarm with 4 zones and 5 levels of protection codes by 4-digit hierarchical code and presence and
timing simulation.
It automatically incorporates the ability to control up to 16 units from point to point through allusive icons and 15
scenes with a programmed identity.
These controls may vary by model, incorporating a digital thermostat control screen to an independent of climate zone in
the case of having internal temperature sensor (reference: STIBUS-SD, page 86).
The thermostat allows the reading of the measured temperature, by selecting a set point temperature and variation
mode between winter, summer, mixed or off.
Configuration using Development System (SIDE)
• Point to Point Controls and scenes by model:
- TECBUS-G: 16 point to point to point controls and 16 scenes.
- TECBUS-G + STIBUS-SD: 15 controls and 11 point to point scene.
• Up to 10 pre-programmed weekly scenes.
• Arm and disarm up to 4 intrusion zones alarm with 5 hierarchical keys (4 digits).
• Up to 5 technical alarm reminders using icons and screen messages.
Technical Characteristics
14
Device
Reference
Voltage
Supply
Current
Consumption
Temperature
Range
TECBUS-G
9–16V DC (BUS)
150mA (BUS)
0–51ºC
ingenium
www.ingeniumsl.com
· TECBUS-G
Installation
!
Use external mounting box is essential in any type of installation
allows future removal of the device.
Mounting box
14mm
129mm
8mm
4mm
120mm
ConectorT
73mm
88mm
UP
!
Glue connector housing In EMBEDDED installations
Before fitting the device inside
remove external border in
MASONRY WALL installation
Plastic part to remove in EMBEDDED
installation for ConectorT access
MicroSD
memory card
Device
When installed
the mounting
box, fit the
device inside
Installation options
SURFACE mounted on universal box
in PLASTERBOARD
EMBEDDED in MASONRY WALL
Device
To change skins or include
internal thermostat
(ref: STIBUS-SD)
Rear
BUSing¨
connection
Ref.
B
A
+12V
Using
ConnectorT
Cable
4x0.5mm
Consumes
15
visualization
· Smart Touch
[ Smart Touch · Smart Touch Plus ]
Vertical 4.3” Colour Capacitive Touch Screen
To manage and monitor devices in the BUSing® installation.
• 4.3” LCD colour capacitive touch screen
• Resolution 480x800px 4K colours
• Customizable interface appearance
• Supports up to 6 different themes
• Supports up to a total of 32 controls distributed on 4 pages
(8 checks per page)
• Own weather interface
• Ability to manage an independient climate zone
(internal temperature sensor integrated)
• Security options with No. password lock or menu restrictions
• Automatic software updates by Internet
• Mounted on universal box, screwed on wall
• Available in black or white finish
• Size: 88x129x4mm (13mm depth)
Description
Smart Touch is a vertical 4.3” colour capacitive touch interface that allows control and monitoring a BUSing® installation
by customizable icons on allusive images.
Its appearance is fully editable, from the wallpaper, even the colors of icons and text, controls, etc. You can set up to 6
different themes.
This screen integrates the ability to create a wireless network that will allow to control an installation locally from your
iOS or Android device, simply by downloading the official Ingenium apps.
An advanced version is avalaible, the Smart Touch Plus, extending local connectivity capability to remote/Internet. It also
has a higher quality screen, better contrast and wider viewing angle.
Configuration using Development System (SIDE)
• Choice of 3 custom themes from 9 editable options.
• Configuration of up to 32 controls distributed on 4 pages
• Program up to 16 scenes.
• Setup gestural shortcuts for execution of certain scenes.
Technical Characteristics
Device
Reference
Voltage
Supply
Smart Touch 9–16V DC (BUS)
16
Current
Consumption
Screen
Resolution
380mA (BUS)
480x800px
ingenium
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· Smart Touch
Installation
!
Use external mounting box is essential in any type of installation
allows future removal of the device.
Mounting box
Device
14mm
88mm
8mm
4mm
73mm
!
Arrow should point
to the RIGHT
Ignore UP indication
carved in the box
ConectorT
120mm
!
UP
129mm
Orientation
Glue connector housing In EMBEDDED installations
Before fitting the device inside
remove external border in
MASONRY WALL installation
Plastic part to remove in EMBEDDED
installation for ConectorT access
Installation options
SURFACE mounted on universal box
in PLASTERBOARD
EMBEDDED in MASONRY WALL
Ref.
B
A
+12V
Device
Rear
WiFi connection
To local network
access
When installed
the mounting
box, fit the
device inside
BUSing¨
connection
Cable
4x0.5mm
Consumes
Using
ConnectorT
17
visualization
· PPL4-G
4” Colour Capacitive Touch Screen
Installation controlling and monitoring through 3D plans.
• 4.3” LCD colour capacitive touch screen
• Resolution 800x480px 4K colours
• Includes real presence simulation
• Weather prediction interface
• Automatic software updates by Internet
• Mounted on universal box, screwed on wall
• Available in black or white finish
• Size: 129x88x4mm (13mm depth)
Description
The PPL4-G is a 4.3” colour capacitive touch interface to control and monitor a BUSing® installation using 3D drawings
and/or photographs, with alluding icons, custom panels, etc.
Like all models in PPL series, it allows to control thermostats in an installation, including the chrono-thermostat option
and the ability to perform annual time events, the real presence simulation and a weather prediction interface.
It has an integrated web server that allows to control the installation via the Internet using a web browser or through the
official Ingenium Apps available for Google Android, Apple iOS and Samsung Smart TV.
This display has Wi-Fi connectivity that allows upgrade to the latest software available or control the installation from the
cloud via Smartphone or Tablet.
Configuration using Development System (SIDE)
• Supports up to 16 control planes.
• Program up to 100 scheduled scenes.
• Armed and disarmed intruder alarm with password (4 digits).
• Technical alarm alerts using icons and screen messages,
e-mail messages or push notifications to mobile devices.
Technical Characteristics
18
Device
Reference
Voltage
Supply
Current
Consumption
Screen
Resolution
PPC4-G
9–16V DC (BUS)
380mA (BUS)
800x480px
ingenium
www.ingeniumsl.com
· PPL4-G
Installation
!
Use external mounting box is essential in any type of installation
allows future removal of the device.
Mounting box
14mm
129mm
8mm
4mm
120mm
ConectorT
73mm
88mm
UP
!
Glue connector housing In EMBEDDED installations
Before fitting the device inside
remove external border in
MASONRY WALL installation
Plastic part to remove in EMBEDDED
installation for ConectorT access
WiFi connection
Device
When installed
the mounting
box, fit the
device inside
Installation options
SURFACE mounted on universal box
in PLASTERBOARD
EMBEDDED in MASONRY WALL
Device
To local network
access
Rear
BUSing¨
connection
Ref.
B
A
+12V
Using
ConnectorT
Cable
4x0.5mm
Consumes
19
visualization
· PPL7-G
7” Colour Touch Screen
Installation controlling and monitoring through 3D plans.
• 7.1” LCD colour capacitive touch screen
• Resolution 800x480px 4K colours
• Controls thermostats in the installation,
including a chrono-thermostat option
• Executes anual timed events
• Technical alarm alerts using icons and screen
messages, e-mail messages or push notifications
to mobile devices
• Includes real presence simulation
• Weather prediction interface
• Automatic software updates by Internet
• Mounted on universal box, screwed on wall
• Available in black or white finish
• Size: 207x140x4mm (13mm depth)
Description
The PPL7-G is a 7.1” Colour capacitive touch interface to control and monitor a BUSing® installation using 3D drawings
and/or photographs, with alluding icons, custom panels, etc.
It has an integrated web server that allows to control the installation via the Internet using a web browser or through the
official Ingenium Apps available for Google Android, Apple iOS and Samsung Smart TV.
This display has Wi-Fi connectivity that allows upgrade to the latest software available or control the installation from the
cloud via Smartphone or Tablet.
Configuration using Development System (SIDE)
• Supports up to 16 control planes.
• Program up to 100 scheduled scenes.
• Armed and disarmed intruder alarm with password (4 digits).
• Technical alarm alerts using icons and screen messages,
e-mail messages or push notifications to mobile devices.
Technical Characteristics
20
Device
Reference
Voltage
Supply
Current
Consumption
Screen
Resolution
PPC7-G
9–16V DC (BUS)
380mA (BUS)
800x480px
ingenium
www.ingeniumsl.com
· PPL7-G
Installation
!
Use external mounting box is essential in any type of installation
allows future removal of the device.
207mm
Mounting box
14mm
185mm
8mm
4mm
ConectorT
171mm
107mm
119mm
140mm
UP
!
Glue connector housing In EMBEDDED installations
Before fitting the device inside
remove external border in
MASONRY WALL installation
Plastic part to remove in EMBEDDED
installation for ConectorT access
Device
Installation options
SURFACE mounted on universal box
When installed
the mounting
box, fit the
device inside
in PLASTERBOARD
EMBEDDED in MASONRY WALL
WiFi connection
Rear
To software actualization,
weather forecast and upload
data from the SIDE (plans and
configuration).
Ref.
B
A
+12V
BUSing¨
connection
Using
ConnectorT
Device
Cable
4x0.5mm
Consumes
21
visualization
· ETHBUS3
WEB server to remote control of BUSing® installations
Enables installation controlling via Internet using a conventional Web browser
or by the applications available for iOS, Android and Samsung Smart TV.
• Integrated web server
• Internet control and monitoring of the entire installation
• Java fully graphical interface with 3D planes
N~L
• Applications for Android, Apple iOS, Samsung Smart TV and
PC for local or remote control
á ETHBUS3
• Configurable IP with the Development System (SIDE)
Servidor Web
Web Server
ingenium
• Programming via FTP
Ethernet
Ref.
B
2
A
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
1
• DIN Rail mount (6 modules)
Description
Allows the installation to be controlled from any PC connected to the Internet with a conventional WEB browser through
Ingenium server or using Adroid devices, Apple iOS or Samsung Smart TV locally or remotely.
The device requests a password to control access to the installation and displays the status of the devices installed with
icons on a colour 3D planes or photographs, as configured in the Development System (SIDE).
The entire interface is graphical and intuitive and allows an easy control of the installation: on-off lighting, lighting control, blind control, on-off heating, temperature control of the rooms, programming thermostats, shortcuts available to act
on any part of the installation, perform scenes, etc.
For remote control using the APPs available for Android, Apple iOS or Samsung Smart TV you need to configure the
router installation (see the device instructions) and use a dynamic DNS service if you do not have a static IP address.
Configuration using Development System (SIDE)
JAVA Application Control:
• Supports up to 100 control planes.
• Program up to 100 scenes.
• Access to the installation locally or via Ingenium server with password (www.ingeniumsl.com).
Android, Apple iOS and Samsung Smart TV APP Control:
• See instructions.
Technical Characteristics
22
Device
Reference
Voltage
Supply
Power
Consumption
Internet
Connection
EHTBUS3
230V AC
2.8VA
ETHERNET 10Mbit/s
ingenium
www.ingeniumsl.com
· ETHBUS3
Installation
ETHBUS3 basic wiring
To function as a control
via Internet.
Neutral
Phase
Supply
230V AC ~ 50Hz
Optional
110V AC ~ 60Hz
Supply
Microprocessor
Ethernet
BUS 1
Local connection
Exclusive option, by
Wi-Fi or via Ethernet.
BUS 2
Consumes
BUS 1 wiring
For conventional
installations, use
this BUS only.
Gives
BUS 2 wiring
Additional BUS that
can supply power.
Ethernet
+12V
A
B
Ref.
Programming via FTP
To upload data from the SIDE
(plans and configuration).
Cable
4x0.5mm
+12V
A
B
Ref.
ETHBUS3 installation with IP cameras
Via the Ethernet network.
DSL router
á ETHBUS3
N~L
DSL connection
á ETHBUS3
Servidor Web
Web Server
ingenium
Ref.
B
2
A
+12V
Ref.
B
1
A
+12V
www.ingeniumsl.com
Ethernet
Tablet
PC
Wireless connection
Local by the Wi-Fi router
or remote by 3G Internet.
SmartPhone
23
visualization
· GSMdata
WEB server to remote control of BUSing® installations via GPRS
Enables installation controlling via Internet in locations that do not have or do not require access to
cable Internet network.
• Integrated web server with GPRS access
• Internet control and monitoring of the entire installation
• Java fully graphical interface with 3D planes
N~L
Z1
Z2
Z3
• Applications for Android, Apple iOS, Samsung Smart TV and
PC for remote control
Z4
á GSMdata
• ISP SIM card slot
centralita alarmas GSM
GSM alarm smartbox
ingenium
• Programming via microSD
IN 4
IN 3
IN 2
IN 1
Ref.
B
A
+12V
www.ingeniumsl.com
sim
• DIN Rail mount (6 modules)
Description
This device allows to control a BUSing® installation using icons on alluding 3D colour drawings or pictures from any device connected to the Internet, via GPRS. It incorporates a fully graphical interface WEB server. It sends push notifications to Android and Apple iOS mobile devices with Ingenium Apps installed.
It has 4 relay outputs with potential free switching capacity of 10A output and 4 inputs for low voltage (SELV) referred to
BUS mass. Programming via microSD memory card. An ISP carrier dada contract is required, having a SIM card slot.
Outputs
• 4 digital outputs with potential free relay.
• Switching capacity of 10A @ 230V per output. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Inputs
• 4 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• Active when connected to BUS mass.
• Maximum distance from device to switch or push-button, 30m.
• Configurable hardware and software filter through Development System (SIDE).
Technical Characteristics
Device
Reference
Voltage
Supply
Max Power
Consumption
No.
Switching
Outputs Capacity
Internet
Connection
Estimated
Data consumption
GSMdata
230V AC
5VA @ 230V AC
4*
GPRS + SIM card
50Mb/month
* potential free outputs to relay
24
10A
ingenium
www.ingeniumsl.com
· GSMdata
Installation
GSMdata output wiring
Maximum power per output, 10A resistive load.
1
2
4
3
Neutral
Phase
Phase
Neutral
Key
Supply
85Ð265V AC
50~60Hz
Light
Plug
Supply
Microprocessor
Switch
+5V
BUS
Push-Button
Consumes
+12V
A
B
Ref.
Electrovalve
sim
Cable
4x0.5mm
SIM card
Ref.
1
2
For GPRS communication.
Data contract plan required.
3
4
Data dumping
Optional, via BUS
or via MicroSD card.
GSMdata input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
25
visualization
· BPC-SC
Gateway Control Software (SC-PC) - BUSing®
Allows connection between a PC with BUSing® Software Control and an installation.
• Gateway connection between PC and BUSing® installation
• Includes BUSing® Software Control (Reference: SC-PC)
• Connection to the PC via Ethernet
• Configurable IP Development System (SIDE)
Ethernet
• Programming via microSD memory card
á BPC-SC
• DIN rail mounting (2 modules)
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
The BPC-SC is a device that allows you to control a BUSing® installation via a PC with Software Control (Reference: SCPC), establishing the connection to the PC via Ethernet.
Configuration using Development System (SIDE)
• View Software Control (Reference: SC-PC).
Technical Characteristics
26
Device
Reference
Voltage
Supply
Max. Power
Consumption
BPC-SC
230V AC
2.8VA
Programming
Card
Micro SD
FAT16 - 2GB (max.)
Internet
Connection
ETHERNET 10Mbit/s
ingenium
www.ingeniumsl.com
· BPC-SC
Installation
MicroSD memory card
To upload data from the SIDE
(plans and configuration).
Ethernet
Ethernet
Microprocessor
BPC-SC basic wiring
For operation with control software.
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
BPC-SC installation with IP cameras
Via the Ethernet network
DSL router
á BPC-SC
Ethernet
á BPC-SC
DSL connection
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
IP camera
PC
SC-PC > See page 148
Control Software
27
security
N~L
Ð +
BOILER
EVGAS
EVAGUA
SIREN
+ Ð
BAT.
4
5
6
3
AUD.
OUT
N~L
IN
Ð +
BOILER
EVGAS
EVAGUA
SIREN
+ Ð
BAT.
4
5
6
3
AUD.
TEL.
á KCtr
ingenium
· KCtr
N~L
Z1
Z2
Z3
Z4
á GSMing
centralita alarmas GSM
GSM alarm smartbox
ingenium
IN 4
IN 3
IN 2
IN 1
Ref.
B
A
+12V
www.ingeniumsl.com
· GSMing
á RFID-BUS
ingenium
www.ingeniumsl.com
· RFiD-BUS
sim
Ref.
4
Intr.
Ref.
3
Ref.
6
+12V
Water
SUPPLY
Ref.
Ref.
B
· KCtr-basic
5
Fire
A
+12V
Ref.
1
PRG OFF KEY
B
2
+12V
Ref.
4
Intr.
Ref.
Ref.
3
A
www.ingeniumsl.com
6
+12V
Water
SUPPLY
Ref.
Ref.
5
Fire
B
A
+12V
Ref.
B
A
www.ingeniumsl.com
+12V
TEL.
Centralita Alarmas
Alarm Smartbox
ingenium
28
OUT
á KCtr
Centralita Alarmas
Alarm Smartbox
2
1
PRG OFF KEY
IN
ingenium
www.ingeniumsl.com
security
KCtr, KCtr-basic .............................................30
GSMing ...........................................................36
RFiD-BUS ........................................................38
29
security
· KCtr
[ KCtr · KCtr-basic ]
Technical alarm BUSing® center with telephone controlling
Allows Technical alarms and installation components management by telephone calls.
• Controls the installation with a conventional telephone, guided by voice
menu.
N~L
Ð +
BOILER
EVGAS
EVAGUA
SIREN
+ Ð
BAT.
4
5
6
3
AUD.
• Password protected access (4 digits)
OUT
IN
• DIN Rail mount (9 modules)
TEL.
á KCtr
Centralita Alarmas
Alarm Smartbox
ingenium
Ref.
4
Intr.
Ref.
3
Ref.
6
+12V
Water
Ref.
Fire
SUPPLY
Ref.
B
A
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
5
2
1
PRG OFF KEY
Description
This device allows the control of technical alarms and any BUSing® installation element through telephone calls made
from inside or outside, through voice menu.
The access is password protected and is done from the outside waiting for a configurable number of tones or from a
phone inside the facility by simply pressing key # # and entering the pass.
KCtr-basic version has the same features as the KCtr eliminating the possibility of calls inside the house.
Configuration using Development System (SIDE)
• Be advised from a total of 3 phones of technical alarms events.
• Alerts of up to 8 alarms and execute 96 events.
• It has 96 voice menus organized in 8 main menus, each with 12 submenus.
Inputs
• 6 digital inputs low voltage (SELV) 5V, with a delay of 3 seconds to prevent false alarms.
• Outputs for connection of conventional gas sensors, fire, flood and intrusion.
• Free inputs for magnetic contacts, medical alarm, etc.
Outputs
• 4 digital relay outputs power free for siren, water electrovalve, gas electrovalve and boiler.
• Deactivated: Relay open. Activated: Relay closed.
• Switching capacity 6A @ 230V AC per output. To control circuits with higher power interlay a contactor.
Technical Characteristics
Device
Reference
Voltage
Supply
Max. Power
Consumption
Current
Given
No.
Outputs
Switching capacity
of each output
KCtr/KCtr-Basic
230V AC
5VA
300mA* (BUS)
4**
6A
* only sensors BUS
** potential free outputs to relay
30
ingenium
www.ingeniumsl.com
· KCtr
DSL installation
A filter must be used for
compatibility.
Installation of Fire/Smoke Sensors – Loop Type
Do not connect
batteries over 3A/h
Tel. line
INTERNAL
VERY IMPORTANT
Respect Polarity
!
%
(3 or 1 Domo/Dect max.)
Router
Battery
Automatic loading
if KCtr with voltage
+
Battery
Tel. line
EXTERNAL
Ð
Neutral
Neutral
Phase
Phase
Filter
N.A. Gas
Electrovalve
(220V AC)
or Siren
BUS
+ Ð
OUT
Aud.
IN
Tel.
Ref.
E4: Not Programmed
E2: Unlock Button
E1: Armed Key
Microprocessor
E6: Flood Sensors
E5: Fire/Smoke Sensors
Supply
S3: Siren
S6: EV Agua
Bat.
E3: Movement Sensors
Ð +
Optional
110V AC ~ 60Hz
S5: EV Gas
S4: Boiler
Supply
230V AC ~ 50Hz
Desactivate
Alarms
Gives
+12V
A
B
Ref.
+12V
A
B
Ref.
Cable
4x0.5mm
Push-Button
Cancel Alarms
Sensors
(Detection)
+
Ð
KCtr connection
Max. distance: 30m
3
4
á DH
2
1
Fire/Smoke Sensor
LOOP type
31
security
· KCtr
Installation of Fire/Smoke Sensors – Contact Type
Do not connect
batteries over 3A/h
Battery
Automatic loading
if KCtr with voltage
+
DSL installations > See page: 31
VERY IMPORTANT
Respect Polarity
!
Battery
%
Tel. line
INTERNAL
Tel. line
EXTERNAL
Ð
Neutral
Neutral
N.A. Gas
Electrovalve
(220V AC)
or Siren
Phase
Phase
S3: Siren
+ Ð
OUT
Aud.
Desactivate
Alarms
Gives
+12V
A
B
Ref.
Push-Button
Cancel Alarms
+12V
A
B
Ref.
Cable
4x0.5mm
Sensors
Ref.
+12V
(Detection)
á SG
Fire/Smoke sensor
CONTACT type
C NC NA
Ð+
32
IN
Tel.
Ref.
E4: Not Programmed
E2: Unlock Button
E1: Armed Key
BUS
E6: Flood Sensors
Microprocessor
E5: Fire/Smoke Sensors
Supply
E3: Movement Sensors
S5: EV Gas
Bat.
S6: EV Agua
Ð +
Optional
110V AC ~ 60Hz
S4: Boiler
Supply
230V AC ~ 50Hz
ingenium
www.ingeniumsl.com
· KCtr
Installation of Movement Sensors – Infrared Type
Do not connect
batteries over 3A/h
Battery
Automatic loading
if KCtr with voltage
+
DSL installations > See page: 31
VERY IMPORTANT
Respect Polarity
!
Battery
Tel. line
INTERNAL
%
Tel. line
EXTERNAL
Ð
Ref.
Neutral
Siren
+12V
Phase
S3: Siren
S6: EV Agua
+ Ð
OUT
Aud.
IN
Tel.
Ref.
E4: Not Programmed
E2: Unlock Button
E1: Armed Key
BUS
E6: Flood Sensors
Microprocessor
E5: Fire/Smoke Sensors
Supply
E3: Movement Sensors
Bat.
S5: EV Gas
Ð +
Optional
110V AC ~ 60Hz
S4: Boiler
Supply
230V AC ~ 50Hz
Activate
Intruder
Gives
+12V
A
B
Ref.
+12V
A
B
Ref.
Cable
4x0.5mm
Ref.
Switch
Key or Keypad
+12V
Sensors
(Detection)
á Sif
Movement sensor
INFRARED type
33
security
· KCtr
Installation of Flood Sensors – 2 wires
Do not connect
batteries over 3A/h
Battery
Automatic loading
if KCtr with voltage
+
DSL installations > See page: 31
VERY IMPORTANT
Respect Polarity
!
Battery
Tel. line
INTERNAL
%
Tel. line
EXTERNAL
Ð
Neutral
Neutral
N.A. Gas
Electrovalve
(220V AC)
Phase
Phase
S3: Siren
+ Ð
OUT
Aud.
Desactivate
Alarms
Cable
4x0.5mm
+12V
A
B
Ref.
Gives
+12V
A
B
Ref.
Flood
Signal
Push-Button
Cancel Alarms
Sensors
(Detection)
KCtr connection
Max. distance: 30m
á Sin-2h
á SIn-2h
34
IN
Tel.
Ref.
E4: Not Programmed
E2: Unlock Button
E1: Armed Key
BUS
E6: Flood Sensors
Microprocessor
E5: Fire/Smoke Sensors
Supply
E3: Movement Sensors
S5: EV Gas
Bat.
S6: EV Agua
Ð +
Optional
110V AC ~ 60Hz
S4: Boiler
Supply
230V AC ~ 50Hz
Flood sensor
2 wires
ingenium
www.ingeniumsl.com
· KCtr
Installation of Temperature Circuit
Do not connect
batteries over 3A/h
Battery
Automatic loading
if KCtr with voltage
DSL installations > See page: 31
VERY IMPORTANT
Respect Polarity
!
Tel. line
INTERNAL
Conventional
Thermostat
+
Battery
%
Tel. line
EXTERNAL
Ð
Phase
Neutral
Neutral
Heater
Air cond.
Phase
S3: Siren
S6: EV Agua
Aud.
OUT
IN
Tel.
Cable
4x0.5mm
+12V
A
B
Ref.
Gives
+12V
A
B
Ref.
+ Ð
Ref.
E4: Not Programmed
E2: Unlock Button
E1: Armed Key
BUS
E6: Flood Sensors
Microprocessor
E5: Fire/Smoke Sensors
Supply
E3: Movement Sensors
Bat.
S5: EV Gas
Ð +
Optional
110V AC ~ 60Hz
S4: Boiler
Supply
230V AC ~ 50Hz
Sensors
(Detection)
35
security
· GSMing
Technical alarm BUSing® center with SMS controlling
Allows technical alarms and installation components management by SMS.
• System monitoring by SMS
• Management of up to 5 technical and intrusion alarms
• Setting up for 3 phone numbers
N~L
Z1
Z2
Z3
• Ability to perform up to 10 scenes
Z4
• DIN Rail mount (6 modules)
á GSMing
centralita alarmas GSM
GSM alarm smartbox
ingenium
IN 4
IN 3
IN 2
IN 1
Ref.
B
A
+12V
www.ingeniumsl.com
sim
Description
This device allows control of alarms and any element of a BUSing® installation by SMS text messages, allowing scenes
run and point to point control of different areas of the facility: on and off lighting, shutter control, thermostats, etc.
No phone line required for operation, only a SIM card (no PIN configured).
Additionally is provided with 2 relay outputs with potential free switching capacity of 10A per output allowing for example
the opening and closing of the gas solenoid or water installation.
Configuration using Development System (SIDE)
• Set up to 3 phone numbers from which you send commands and receive alerts.
• Alerts of up to 5 alarms and intrusion techniques.
• Program up to 10 scenes (command: Run + scene name).
• Up to 16 point to point (commands: On, Off or regulates + output name).
Outputs
• 2 digital relay outputs power free for water electro valve, gas solenoid valve, etc.
• Switching capacity 10A @ 230V AC per output. For controlling circuits of higher power interlay a contactor.
• Deactivated: relay open. Activated: relay closed.
Technical Characteristics
Device
Reference
Voltage
Supply
Max. Power
Consumption
No.
Outputs
Switching capacity
of each output
Lithium
Battery
GSMing
85–265V AC
5VA @ 230V AC
2*
10A
1000mAh
* potential free outputs to relay
36
ingenium
www.ingeniumsl.com
· GSMing
Installation
GSMing output wiring
Maximum power per output, 10A resistive load.
1
2
4
3
Neutral
Phase
Phase
Neutral
Key
Supply
85Ð265V AC
50~60Hz
Light
Plug
Supply
Microprocessor
Switch
+5V
BUS
Push-Button
Consumes
+12V
A
B
Ref.
Electrovalve
sim
Cable
4x0.5mm
SIM card
Ref.
1
2
For GSM
communication
3
4
MicroSD memory card
To upload data from the SIDE
(plans and configuration).
Previous versions may use MMC card
GSMing input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
37
security
· RFiD-BUS
BUSing® - RFID Smart Cards Reader
For access control through RFID cards.
• Allows to program 255 identifiers (IDs) per device
• Permission or time restriction for 5 different levels of users
á RFID-BUS
• 3 operational modes: push button, long/short and switch
• Output to transistor (300mA, minimum 30V DC) to connect to the lock
ingenium
www.ingeniumsl.com
• Screw mounting on universal mechanism box
• Size: 55x55x10mm
Description
Device designed to be use with smart/intelligent cards (reference: TjRFiD).
Each device allows to read, control, interpret and program up to 255 users with different identification (255 users per device).
The card reader will distinguish the card to read, interpret and execute actions that have been programmed on it.
An specific schedule can be assigned to a each card to allow or restrict access to a particular personal stay level. This
schedule can be programmed easily subdivided at intervals of 30 minutes for each of the seven days of the week to five
user levels 0 through 4.
This device is also used, together with the Software Control for Hotels (reference: SH-PC), to program smart cards and access controls to rooms, common zones, privates areas, etc. You can also use it to activate/deactivate intruder alarms.
Operating Modes
•Push button mode: executes programmed scenes by change of flank.
•Switch mode: executes programmed scenes by level (ascendant flank-descendant flank).
•Long/short mode: distinguishes long/short detection of the RFID card.
Technical Characteristics
Device
Reference
Voltage
Supply
RFiD-BUS
9–16V DC (BUS) 50mA (BUS)
* transistor outputs with open collector
** (125MHz)
38
Current
Consumption
No.
Max. Voltage
Outputs in Outputs
1*
30V DC
Max. Current Compatible
in Outputs
Cards
UNIQUE,
300mA
EM 4102**
Max. Distance
to read
20cm (approx.)
ingenium
www.ingeniumsl.com
· RFiD-BUS
Installation
Power Supply
External Max. 30V DC
or 30V AC
+ Ð
Lock
á RFiD
Ref.
Ref.
B
A
+12V
GND
B
A
+12
Consumes
Cable
4x0.5mm
Universal box mounted
Card Holder
co
m
sl.
um
niu
m
in
w
w
w
.in
ge
ge
ni
ingenium
á TjRFiD
www.ingeniumsl.com
Opctional blind lid or card holder.
Blind lid
39
input /output
Z1
Z2
á 2E2S-C30A
ingenium
N~L
IN2
Z1
Z4
Ref.
· A4E4S-30A
Z1
Z2
Z2
Z4
Z5
Z6
Z8
Z7
á 8S
actuador
actuator
actuador
actuator
ingenium
ingenium
IN 4
IN 3
IN 2
IN 1
Ref.
B
Ref.
INT3
INT2
· 8S
INT1
· 6E6S
A
+12V
IN 6
IN 5
www.ingeniumsl.com
IN 4
IN 3
IN 2
IN 1
Ref.
B
www.ingeniumsl.com
Ref.
á MECing
ingenium
In1
In2
In3
Ref.
www.ingeniumsl.com
· MECing
40
Ref.
ingenium
www.ingeniumsl.com
In1
In2
In3
Ref.
ingenium
www.ingeniumsl.com
B
á MECing-W
A
á MECing
+12V
Ref.
B
A
+12V
+
Alimentaci—n/Supply: 3V CR2450
· MECing-W
· MECing-C
IN 4
prog. button
under cover
IN 3
Ref.
+12V
IN 4
IN 3
IN 2
www.ingeniumsl.com
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
A
Z3
ingenium
IN 1
Ref.
B
A
+12V
IN 4
IN 3
IN 2
Ref.
· 4E4S-F4A
N~L
Z2
á 4E4S-30A
www.ingeniumsl.com
· 4E4S
+12V
IN1
Z4
ingenium
IN 1
Ref.
B
Ref.
Ref.
B
IN1
Z3
actuador
actuator
www.ingeniumsl.com
A
Z2
actuador
actuator
ingenium
+12V
Z1
á 4E4S
IN 2
Z4
actuador
actuator
IN 1
Z3
á 4E4S
B
Z2
· 2E2S-C30A
· 2E2S-PW
A
Z1
120V-250V
(50/60Hz)
L
· 2E2S
N~L
www.ingeniumsl.com
N
Ref.
ingenium
IN2
IN1
IN2
Z1
B
www.ingeniumsl.com
Z1
Z2
A
ingenium
+12V
á 2E2S-PW
+12V
Z2
A
www.ingeniumsl.com
á 2E2S
ingenium
www.ingeniumsl.com
input /output
2E2S ...............................................................42
2E2S-PW ........................................................44
2E2S-C30A ....................................................46
4E4S, 4E4S-F4A ..........................................48
4E4S-30A .......................................................50
6E6S ...............................................................52
8S ...................................................................54
MECing, MECing-W .......................................56
MECing-C ........................................................58
41
input /output
· 2E2S
2 digital inputs and 2 digital outputs Actuator
To control 2 electrical loads or 1 blind/curtain.
• 2 digital inputs
á 2E2S
+12V
Z2
IN1
www.ingeniumsl.com
IN2
Z1
• 2 digital outputs with potential free relay
A
ingenium
B
Ref.
• Remembers last position when power fails
• Programmable inputs to work with switches or pushbutton
• 2 programmable BUS events for each input
• Size: 50x35x25mm
Description
The 2E2S is an on/off actuator equipped with 2 digital outputs with potential free relay with a switching capacity of 10A
per output and 2 digital inputs for low voltage (SELV) referred to the mass of BUS.
From the Development System (SIDE) is possible to assign sequences of 15 characters for each one of the outputs and
entries. You can also set the mode of operation of each of the inputs (button, switch or electric blinds mode), and two
BUS events for each input (one trigger event and one-off), allowing thus acting on any element of the installation from
the device inputs.
Inputs
• 2 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• Active when connected to BUS mass.
• Maximum distance from device to switch or push-button, 30m.
• Configurable hardware and software filter through Development System (SIDE).
Outputs
• 2 digital outputs with potential free relay.
• Switching capacity 10A @ 230V AC per output. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
No.
Outputs
2E2S
9–16V DC (BUS)
80mA (BUS)
2* (relay) 10A
* potential free outputs
42
Switching capacity
of each output
ingenium
www.ingeniumsl.com
· 2E2S
Installation
2E2S output wiring
Maximum power per output, 10A resistive load.
Ref.
Neutral
1
2
For blinds/curtains wiring
See diagram page 191
Key
+12V
A
B
Ref.
+5V
BUS
+24V~
Phase
Microprocessor
Consumes
Cable
4x0.5mm
Light
Switch
Push-Button
2
1
Electrovalve
2E2S input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
43
input /output
· 2E2S-PW
2 digital inputs and 2 digital outputs Actuator
To control 2 electrical loads or 1 blind/curtain.
• 2 digital inputs at 230V AC
á 2E2S-PW
• 2 digital triac outputs
Z2
Z1
www.ingeniumsl.com
120V-250V
(50/60Hz)
IN1
L
IN2
N
ingenium
• Remembers last position when power fails
• Programmable inputs to work with switches or pushbutton
• 2 programmable BUS events each entry
• Installed in distribution boxes
• Size: 50x35x25mm
Description
The 2E2S-PW is a wireless on/off actuator equipped with 2 triac outputs with a switching capacity of 2A per output and
2 inputs at 230V AC.
From the Development System (SIDE) is possible to assign sequences of 15 characters for each one of the outputs and
entries. You can also set the mode of operation of each of the inputs (button, switch or electric blinds mode), and two
BUS events for each input (one trigger event and one-off), allowing thus acting on any element of the installation from
the device inputs.
This version of 2E2S, is indicated for the fluorescence control or transformer preceded LEDs, because it has triac outputs (not for continuous current), and has not BUSing® connection, by receiving and sending data via radio (868MHz frequency) and its inputs are at 230V AC, unlike the other two models that are low voltage (SELV).
Inputs
• 2 digital inputs at 230V AC.
• Programmable filter hardware and software from the Development System (SIDE).
Outputs
• 2 digital triac outputs.
• Switching capacity 2A @ 230V AC per output. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Technical Characteristics
Device
Reference
Voltage
Supply
Max. Power
Consumption
No.
Outputs
Switching capacity
of each output
2E2S-PW
85–265V AC
0.5W @ 230V AC
2* (triac)
2A
* potential free outputs
44
ingenium
www.ingeniumsl.com
· 2E2S-PW
Installation
2S2S-PW output wiring
Maximum power per output, 2A resistive load.
Neutral
1
2
For blinds/curtains wiring
See diagram page 194
Microprocessor
Key
Neutral
Phase
Light
inal‡mbrico
wireless
Switch
This device is wireless.
Supply
85Ð265V AC
50~60Hz
No BUSing¨ wiring is
required.
2
Push-Button
1
Electrovalve
!
IMPORTANT
2E2S-PW input wiring
The inputs of this device are
230V AC, differently from
other devices that are SELV.
45
input /output
· 2E2S-C30A
2 digital inputs and 2 digital outputs Actuator
To control 2 electrical loads or 1 blind/curtain.
• 2 digital inputs low voltage (SELV) referred to the BUS mass
• 2 digital outputs with potential free relay
• Remembers last position when power fails
Z1
• Programmable inputs to work with switches or pushbutton
Z2
• 2 programmable BUS events for each input
á 2E2S-C30A
• DIN Rail Mount (2 modules)
ingenium
IN2
IN1
Ref.
B
A
+12V
www.ingeniumsl.com
Description
The 2E2S-C30A is an on/off actuator equipped with 2 relay outputs with potential free switching capacity of 30A output
and 2 inputs for low voltage (SELV) referred to BUS mass.
From the Development System (SIDE) is possible to assign sequences of 15 characters for each one of the outputs and
entries. You can also set the mode of operation of each of the inputs (button, switch or electric blinds mode), and two
BUS events for each input (one trigger event and one-off), allowing thus acting on any element of the installation from
the device inputs.
This version of 2E2S, is indicated for the control of lighting capacitive outputs, appliances, etc. Not connection available
to 230V AC, so it does not provide power to the BUS, rather uses it. Also the relays incorporate a manual reset.
Inputs
• 2 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• Active when connected to BUS mass.
• Maximum wiring distance to switch or pushbutton: 30m.
• Programmable filter hardware and software from the Development System (SIDE).
Outputs
• 2 digital triac outputs.
• Switching capacity 2A @ 230V AC per output. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
No.
Outputs
2E2S-C30A
9–16V DC (BUS)
12 mA (BUS)
2* (relay) 30A
* potential free outputs
46
Switching capacity
of each output
ingenium
www.ingeniumsl.com
· 2E2S-C30A
Installation
2E2S-C30A output wiring
Maximum power per output, 30A resistive load.
Neutral
1
2
+24V
Neutral
Phase
Key
Plug
Switch
Microprocessor
Push-Button
+5V
BUS
Electrovalve
Consumes
+12V
A
B
Ref.
Cable
8x0.22mm
Cable
4x0.5mm
Manual reset
Lifting up the device
cover you will find the
relay switches, one per
output
1
OFF
ON
Open
Closed
2
2E2S-C30A input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
47
input /output
· 4E4S
[ 4E4S · 4E4S-F4A ]
4 digital inputs and 4 digital outputs 10A Actuator
To control 4 electrical loads or 2 blinds/curtains.
• 4 digital inputs low voltage (SELV) referred to BUS mass
• 4 digital outputs with potential free relay depending on model
N~L
Z1
Z2
Z3
Z4
• Remembers last position when power fails
á 4E4S
• Programmable inputs to work with switches or pushbutton
actuador
actuator
ingenium
• 2 programmable BUS events for each input
IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
A
www.ingeniumsl.com
+12V
• Integrated power supply (depending on model) capable of delivering 150mA
power to other BUS devices
• DIN rail mounting (4 modules) or in a distribution box, 70mm depth
Description
The 4E4S is an on/off actuator equipped with 4 relay outputs with potential free switching capacity of 10A output and 4
inputs for low voltage (SELV) referred to BUS mass.
From the Development System (SIDE) is possible to assign sequences of 15 characters for each one of the outputs and
entries. You can also set the mode of operation of each of the inputs (button, switch or electric blinds mode), and two
BUS events for each input (one trigger event and one-off), allowing thus acting on any element of the installation from
the device inputs.
4E4S-F4A version is indicated for the control of fluorescent or LEDs preceded by a transformer, by having triac outputs
triac outputs (not suitable for DC).
Inputs
• 4 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• Active when connected to BUS mass.
• Maximum distance from device to switch or push-button, 30m.
• Configurable hardware and software filter through Development System (SIDE).
Outputs
• 2 digital outputs with potential free relay.
• Switching capacity depending on model. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Technical characteristics
Device
Reference
Voltage
Supply
Max. Power
Consumption
Current
Given
Current
Consumption
No.
Outputs
4E4S
4E4S-F4A
230V AC
230V AC
2.8VA @ 230V AC
2.8VA @ 230V AC
150mA (BUS)
150mA (BUS)
120mA* (BUS)
120mA* (BUS)
4** (relay) 10A
4A
4** (triac)
* without connection to 230V AC
** potential free outputs
48
Switching capacity
of each output
ingenium
www.ingeniumsl.com
· 4E4S
Installation
4E4S output wiring
Maximum power per output, 10A resistive load.
1
2
3
4
Phase
Neutral
Key
Supply
230V AC ~ 50Hz
Light
Optional
110V AC ~ 60Hz
Plug
Supply
Microprocessor
Switch
+5V
BUS
Push-Button
Gives
+12V
A
B
Ref.
Cable
4x0.5mm
1
2
3
4
4E4S input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
49
input /output
· 4E4S-30A
4 digital input 4 digital output Actuator
To control 4 electrical loads or 2 blinds/curtains.
• 4 digital inputs Low Voltage (SELV) referred to BUS mass
• 4 digital outputs power free by model
• Remembers last position when power fails
Z1
Z2
Z3
• Programmable inputs to work with switches or pushbutton
Z4
• 2 programmable BUS events each entry
á 4E4S-30A
actuador
actuator
• DIN rail mounting (4 modules) or in a distribution box, 70mm depth
ingenium
IN 4
IN 3
Ref.
IN 2
prog. button
under cover
IN 1
Ref.
B
A
+12V
www.ingeniumsl.com
Description
The 4E4S-30A is an on/off actuator equipped with 4 relay outputs power free with a breaking capacity of 30A, 4 low voltage inputs (SELV) referred to BUS mass.
From the Development System (SIDE) is possible to assign sequences of 15 characters for each one of the outputs and
entries. You can also set the mode of operation of each of the inputs (button, switch or electric blinds mode), and two
BUS events for each input (one trigger event and one-off), allowing thus acting on any element of the installation from
the device inputs.
This version of 4E4S, is indicated for the control of lighting capacitive outputs, appliances, etc. Not connection available
to 230 V, so it does not provide power to the BUS, rather uses it. Also the relays incorporate a manual reset.
Inputs
• 4 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• Active when connected to BUS mass.
• Maximum wiring distance to switch or pushbutton: 30m.
• Programmable filter hardware and software from the Development System (SIDE).
Outputs
• 2 digital triac outputs.
• Switching capacity 30A @ 230V AC per output. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Technical characteristics
Device
Reference
Voltage
Supply
Current
Consumption
No.
Outputs
4E4S-30A
9–16V DC (BUS)
12mA (BUS)
4* (relay) 30A
* potential free outputs
50
Switching capacity
of each output
ingenium
www.ingeniumsl.com
· 4E4S-30A
Installation
4E4S-30A output wiring
Maximum power per output, 30A resistive load.
Neutral
1
2
3
Phase
Neutral
4
Phase
Key
Light
Plug
Microprocessor
Switch
+5V
BUS
Push-Button
Consumes
+12V
A
B
Ref.
Electrovalve
Cable
4x0.5mm
Manual reset
Lifting up the device
cover you will find the
relay switches, one per
output
1
OFF
ON
Open
Closed
2
3
4
4E4S-30A input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
51
input /output
· 6E6S
6 digital inputs and 6 digital outputs 6A Actuator
To control 6 electrical loads or 3 blinds/curtains.
• 6 digital inputs low voltage (SELV) referred to BUS mass
• 6 digital outputs to relay internally connected to phase
N~L
• Integrated power supply (depending on model) capable of delivering 150mA
power to other BUS devices
Z1 Z2 Z3 Z4 Z5 Z6
• Remembers last position when power fails
á 6E6S
actuador
actuator
• Programmable inputs to work with switches or pushbutton
ingenium
• 2 programmable BUS events for each input
IN 6
IN 5
IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
A
+12V
www.ingeniumsl.com
• DIN rail mounting (4 modules) or in a distribution box, 70mm depth
Description
The 6E6S is an on/off actuator equipped with 6 digital outputs to relay internally connected to phase with a switching
capacity of 6A per output and 6 digital inputs low voltage (SELV) referred to BUS mass.
From the Development System (SIDE) is possible to assign sequences of 15 characters for each one of the outputs and
entries. You can also set the mode of operation of each of the inputs (button, switch or electric blinds mode), and two
BUS events for each input (one trigger event and one-off), allowing thus acting on any element of the installation from
the device inputs.
Inputs
• 6 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• Active when connected to BUS mass.
• Maximum distance from device to switch or push-button, 30m.
• Configurable hardware and software filter through Development System (SIDE).
Outputs
• 6 digital outputs to relay internally connected to phase.
• Switching capacity 6A @ 230V AC per output. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Technical Characteristics
Device
Reference
Voltage
Supply
Max. Power
Consumption
Current
Given
6E6S
230V AC
2.8VA @ 230V AC
150mA (BUS) 120mA* (BUS)
* without connection to 230V AC.
** internally connected to phase outputs
52
Current
Consumption
No.
Outputs
Switching capacity
of each output
6** (relay)
6A
ingenium
www.ingeniumsl.com
· 6E6S
Installation
6E6S output wiring
Maximum power per output, 6A resistive load.
1
2
3
4
5
6
Neutral
For blinds/curtains wiring
See diagram page 194
Neutral
Key
Phase
Supply
230V AC ~ 50Hz
Light
Optional
110V AC ~ 60Hz
Switch
Supply
Microprocessor
Push-Button
+5V
BUS
Gives
+12V
A
B
Ref.
Cable
4x0.5mm
1
2
3
4
5
6
6E6S input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
53
input /output
· 8S
4 digital input 8 digital output Actuator
To control 8 electrical loads or 4 blinds/curtains.
• 4 digital inputs Low Voltage (SELV) referred to BUS mass
• 8 digital outputs power free by model
• Remembers last position when power fails
Z1
Z2
Z2
Z4
Z5
• Programmable inputs to work with switches or pushbutton
Z6
• 2 programmable BUS events each entry
á 8S
actuador
actuator
• DIN rail mounting (6 modules)
or in a distribution box, 70mm depth
ingenium
IN 4
IN 3
IN 2
IN 1
Ref.
B
A
+12V
www.ingeniumsl.com
Z8
Z7
Description
The 8S is an on/off actuator equipped with 8 relay outputs power free with a breaking capacity of 10A, 4 low voltage inputs (SELV) referred to BUS mass.
From the Development System (SIDE) is possible to assign sequences of 15 characters for each one of the outputs and
entries. You can also set the mode of operation of each of the inputs (button, switch or electric blinds mode), and two
BUS events for each input (one trigger event and one-off), allowing thus acting on any element of the installation from
the device inputs.
Inputs
• 4 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• Active when connected to BUS mass.
• Maximum wiring distance to switch or pushbutton: 30m.
• Programmable filter hardware and software from the Development System (SIDE).
Outputs
• 8 digital triac outputs.
• Switching capacity 10A @ 230V AC per output. To control circuits with higher power interlay a contactor.
• Deactivated: Triac open. Activated: Triac closed.
Technical characteristics
Device
Reference
Voltage
Supply
Current
Consumption
No.
Outputs
Switching capacity
of each output
8S
9–16V DC (BUS)
300mA (BUS)
8* (relay)
10A
* potential free outputs
54
ingenium
www.ingeniumsl.com
· 8S
Installation
8S output wiring
Maximum power per output, 10A resistive load.
Neutral
Ref.
Neutral
Phase
+12V
Phase
1
2
3
4
6
5
Key
Light
Plug
Microprocessor
Switch
+5V
BUS
Push-Button
Consumes
+12V
A
B
Ref.
8
Cable
4x0.5mm
Ref.
Electrovalve
7
Phase
Neutral
1
2
3
4
8S input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
55
input /output
· MECing
[ MECing · MECing-W ]
Adaptor for Mechanical Controls to BUSing®
Device with 3 digital low voltage inputs.
• 3 digital low voltage (SELV) inputs referred to BUS reference
B
Ref.
A
+12V
• Up to 60 programmable events per scene and 2 scenes per input
á MECing
• Remembers last position against power failures
• Programmable inputs to work with switches or push-buttons
ingenium
In1
In2
In3
Ref.
www.ingeniumsl.com
• Mounting into universal mechanism box. Size: 45x45x10mm
• Available in wireless BUSing® version, frequency 868MHz (reference: MECing-W)
Description
Input device designed to be installed in mechanism boxes, behind the mechanisms (switches or push-buttons), being especially useful to distribute the installation and to execute events.
It has 3 digital inputs, being possible to program BUS events for activation and deactivation of each.
Supports 3 operating modes: Mode button, Mode switch and repeat mode, selectable for each of the inputs, also providing a configurable delay timer after pressing.
The wireless version, MECing-W, is similar to the wired version but has no connection to BUS, receiving and sending data
via radio (868MHz frequency) and is powered by a CR2450 battery (3V). Must check and/or replace the device battery
at least once every 2 years. Also does not support repetition operation mode due to consumption (8450 operations).
The battery idle life is 5 years.
Version available designed for installation on DIN rail (reference: MECing-C, page 58).
Inputs
• Low voltage 5V inputs (SELV), minimum activation current: 15mA
• Activated when connected to Ref.
• Maximum cabled distance to the switch or push-button: 30m.
• Each input has a delay timer once it has been pulsed,
which is configurable through Development System (SIDE).
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
No.
Inputs
No.
Scripts/Scene
No.
Scenes/Input
Operating
Modes*
MECing
MECing-W
9–16V DC (BUS)
Battery CR2450 (3V)
40mA (BUS)
–
3
3
2
2
60
10
Pul./Int./Rep.
Pul.
* operating modes of the inputss: button (Pul.), switch (Int.) o repetition (Rep.)
56
ingenium
www.ingeniumsl.com
· MECing
Installation
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
Key
+5V
In1
In2
In3
Ref.
Switch
Wall mounted
Behind the mechanism.
Cable
8x0.22mm
1
á MECing-W
inal‡mbrico
wireless
This device is
available in wireless
version.
CR2450
3V
Requires CR2450
battery for supply.
Push-Button
2
3
MECing input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
Battery
+
MECing-W maintenance
Must check and/or
replace the batteries for
these devices at least
once every two years.
It is important not to use
switches in MECing-W
inputs to avoid depleting
the battery.
Alimentaci—n/Supply: 3V CR2450
57
input /output
· MECing-C
Adaptor for Mechanical Controls to BUSing®
Device with 3 digital low voltage inputs.
• 3 digital low voltage (SELV) inputs referred to BUS reference
• Up to 60 programmable events per scene and 2 scenes per input
• Programmable inputs to work with switches or push-buttons
Ref.
INT3
INT2
INT1
• Remembers last position against power failures
• DIN rail mounted (2 modules) or in distribution box with depth 70mm
á MECing
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
Device similar to regular MECing, but designed for DIN rail mounting (2 modules). Especially useful to distribute the installation and to execute events.
It has 3 digital inputs, being possible to program BUS events for activation and deactivation of each.
Supports 3 operating modes: Mode button, Mode switch and repeat mode, selectable for each of the inputs, also providing a configurable delay timer after pressing.
Inputs
• Low voltage 5V inputs (SELV), minimum activation current: 15mA
• Activated when connected to Ref.
• Maximum cabled distance to the switch or push-button: 100m.
• Each input has a delay timer once it has been pulsed,
which is configurable through Development System (SIDE).
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
No.
Inputs
No.
Scripts/Scene
No.
Scenes/Input
Operating
Modes*
MECing-C
9–16V DC (BUS)
40mA (BUS)
3
2
60
Pul./Int./Rep.
* operating modes of the inputs: button (Pul.), switch (Int.) o repetition (Rep.)
58
ingenium
www.ingeniumsl.com
· MECing-C
Installation
MECing input wiring
Low voltage inputs (SELV), separated
by an optical isolator; they are
activated when connected to Ref.
1
2
3
Key
Cable
8x0.22mm
Switch
In1
In2
In3
Ref.
Push-Button
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
59
dimmers
á RB300-W
á RB300
L
N
Ref.
L
B
N
A
N~
+12V
L~
120V-250V~(50Hz)
N~
L~
Potencia M‡x. - Max. Power: 300W
0.5W-230V 50Hz
120-250V~ (50Hz)
ingenium
L ~N
L ~N
B
ingenium
B
A
+12V
B
Ref.
+12V
A
Ref.
www.ingeniumsl.com
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· DALing
· iDALing-G
GND
+12 +24
ingenium
Ref.
B
www.ingeniumsl.com
A
Ref.
B
A
· RGBL
pasarela BUSing-DALI
BUSing-DALI gateway
ingenium
60
R W
+12V
Ref.
Ref.
Ref.
· RBLED2S400
N~L
· DMXBUS
G
regulador LED
LED dimmer
www.ingeniumsl.com
á DALing
á DMXBUS
B
á RGBWL
ingenium
+12V
· RBLED1000
DMX Ð
DMX +
· RBLED500
GND
R
regulador LED
LED dimmer
IN 1
Ref.
B
A
+12V
Ref.
Ref.
Ref.
IN 1
NC
NC
Ref.
B
A
+12V
Ref.
Ref.
Ref.
G
á RGBL
www.ingeniumsl.com
www.ingeniumsl.com
IN 1
NC
B
~
ingenium
ingenium
www.ingeniumsl.com
NC
L2
regulador LED
LED dimmer
IN 2
ingenium
~
+12 +24
L1
á RBLED2S400
á RBLED1000
+12 +24
N~L
NC
L ~N
· RBF10A
NC
N~L
NC
· RB1500
regulador LED
LED dimmer
Ref.
+12V
Ref.
B
A
+12V
· 2S300
B
www.ingeniumsl.com
www.ingeniumsl.com
Ref.
B
A
+12V
www.ingeniumsl.com
A
ingenium
ingenium
Ref.
ingenium
regulador LED
LED dimmer
+ Ð
regulador F1
dimmer F1
regulador 1
dimmer 1
á RBLED500
N~L
á RBF10A
á RB1500
regulador 2
dimmer 2
+12V
L ~N
N~L
1-10V DC
á 2S300
L ~N
www.ingeniumsl.com
· RB300-W
N~L
2
ingenium
A
1
Potencia M‡x. - Max. Power: 300W
0.5W-230V 50Hz
120-250V~ (50Hz)
www.ingeniumsl.com
· RB300
L ~N
120V-250V~(50Hz)
· RGBWL
ingenium
www.ingeniumsl.com
dimmers
RB300, RB300-W..........................................62
2S300 ............................................................64
RB1500 ..........................................................66
RBF10A ..........................................................68
RBLED500, RBLED1000..............................70
RBLED2S400 ................................................72
RGBL...............................................................74
RGBWL ...........................................................76
DMXBUS.........................................................78
DALing ............................................................80
iDALing-G ........................................................82
61
dimmers
· RB300
[ RB300 · RB300-W ]
1 channel regulator, triac dimmer with BUSing® remote control
To regulate incandescent and halogen lighting, whether with transformers incorporated or not.
• 1 channel regulation
á RB300
L
N
• Protection against overloads
Ref.
120V-250V~(50Hz)
N~
L~
B
A
Potencia M‡x. - Max. Power: 300W
+12V
0.5W-230V 50Hz
120-250V~ (50Hz)
ingenium
www.ingeniumsl.com
• Digital control using a 200 regulation points Micro-Controller
• Junction box mounting
• Size: 70x50x20mm
• Available with wireless BUSing® (reference: RB300-W)
Description
This actuator is indicated for achieving a fine and precise digital control receiving orders only via the bus, whether it is
wired or wireless, so you can control these devices from conventional buttons (using MECing), from remote controls,
touch screens, PC, etc.
Is possible to configure the ramp control, ie the progressive on-off lighting and assign 15 characters strings to identify
its output, using the Development System software (SIDE).
Applicable power supplies depending on the load(1)
• Incandescent or halogen loads 230V AC ................................................................. 300 W
• Low Voltage loads with a conventional transformer(2) incorporated............................. 200 W
• Low Voltage loads with a electronic transformer(2) incorporated ................................. 100 W
(1) Estimated power calculated with the losses of each type of lighting.
(2) When using transformers, they must be LEADING EDGE or TRAILING-LEADING EDGE type.
Technical Characteristics
Device
Reference
RB300/-W
Voltage
Supply
85–265V AC
9–16V DC (BUS)
* triac output internally connected to phase
62
Power
Consumption
Current
Consumption
Current
Consumption (BUS)
0.5W @ 230V AC
2.5mA @ 230V AC 40mA/ –
No.
Outputs
1*
ingenium
www.ingeniumsl.com
· RB300
Installation
RB300 output wiring
300VA supply
Neutral
Key
Phase
Phase
Control
BUS
Supply
85Ð265V AC
50~60Hz
Microprocessor
Supply
Cable
4x0.5mm
Light
Ref.
B
A
+12V
Consumes
!
IMPORTANT
This device requires
a 85Ð265V AC and a 9Ð16V DC (BUS)
supply to work properly.
á RB300-W
inal‡mbrico
wireless
á RB300-W
This device is available in wireless version.
No BUSing¨ wiring is required.
L
N
120V-250V~(50Hz)
N~
L~
Potencia M‡x. - Max. Power: 300W
0.5W-230V 50Hz
120-250V~ (50Hz)
ingenium
www.ingeniumsl.com
63
dimmers
· 2S300
2 channel regulator, triac dimmer with BUSing® control
To regulate incandescent and halogen lighting, with transformers incorporated or not.
• 2 channel regulation
• Protection against overloads
• Digital control using a 200 regulation points Micro-Controller
L ~N
L ~N
1
2
N~L
• DIN rail mounted (4 modules) or in distribution box with depth 70mm
á 2S300
regulador 2
dimmer 2
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
This actuator is indicated for achieving a fine and precise digital control receiving orders only via the bus, so you can
control these devices from conventional buttons (using MECing), from remote controls, touch screens, PC, etc.
Is possible to configure the ramp control, ie the progressive on-off lighting and assign 15 characters strings to identify
its output, using the Development System software (SIDE).
Applicable power supplies depending on the load(1)
• Incandescent or halogen loads 230V AC ................................................................. 300 W
• Low Voltage loads with a conventional transformer(2) incorporated............................. 200 W
• Low Voltage loads with a electronic transformer(2) incorporated ................................. 100 W
(1) Estimated power calculated with the losses of each type of lighting.
(2) When using transformers, they must be LEADING EDGE or TRAILING-LEADING EDGE type.
Technical Characteristics
Device
Reference
2S300
Voltage
Supply
85–265V AC
9–16V DC (BUS)
* triac output internally connected to phase
64
Max. Power
Consumption
Current
Consumption
Current
Consumption (BUS)
0.5W @ 230V AC
2.5mA @ 230V AC 40mA
No.
Outputs
2*
ingenium
www.ingeniumsl.com
· 2S300
Installation
2S300 output wiring
300VA supply per output
1
2
Neutral
Phase
Supply
85Ð265V AC
50~60Hz
Key
Light
1
2
Phase
Control 1
Phase
Control 2
Supply
Microprocessor
BUS
Consumes
+12V
A
B
Ref.
!
Cable
4x0.5mm
IMPORTANT
This device requires
a 85Ð265V AC and a 9Ð16V DC (BUS)
supply to work properly.
65
dimmers
· RB1500
1 channel regulator, triac dimmer with BUSing® control
To regulate incandescent and halogen lighting, with transformers incorporated or not.
• 1 channel regulation
• Protection against overloads
• Digital control using a 200 regulation points Micro-Controller
L ~N
N~L
• DIN rail mounted (4 modules) or in distribution box with depth 70mm
á RB1500
regulador 1
dimmer 1
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
This actuator is indicated for achieving a fine and precise digital control receiving orders only via the bus, whether it is
wired or wireless, so you can control these devices from conventional buttons (using MECing), from remote controls,
touch screens, PC, etc.
Is possible to configure the ramp control, ie the progressive on-off lighting and assign 15 characters strings to identify
its output, using the Development System software (SIDE).
Applicable power supplies depending on the load(1)
• Incandescent or halogen loads 230V AC ................................................................. 1500 W
• Low Voltage loads with a conventional transformer(2) incorporated............................. 1400 W
• Low Voltage loads with a electronic transformer(2) incorporated ................................. 700 W
(1) Estimated power calculated with the losses of each type of lighting.
(2) When using transformers, they must be LEADING EDGE or TRAILING-LEADING EDGE type.
Technical Characteristics
Device
Reference
RB1500
Voltage
Supply
85–265V AC
9–16V DC (BUS)
* triac output internally connected to phase
66
Max. Power
Consumption
Power
Consumption
Current
Consumption
No.
Outputs
0.5W @ 230V AC
2.5mA @ 230V AC
40mA (BUS)
1*
ingenium
www.ingeniumsl.com
· RB1500
Installation
RB1500 output wiring
1500VA output
Neutral
Key
Phase
Supply
85Ð265V AC
50~60Hz
Light
Control de
Phase
Supply
Microprocessor
BUS
Consumes
+12V
A
B
Ref.
!
Cable
4x0.5mm
IMPORTANT
This device requires
a 85Ð265V AC and a 9Ð16V DC (BUS)
supply to work properly.
67
dimmers
· RBF10A
Regulator to control adjustable, electronic ballasts
Regulates fluorescent lighting, or adjustable electronic ballast lighting.
• 1 channel regulation
• Protection against circuit overload in output 1–10V
• Output to relay for turning ballasts on/off (not circuit overload protected)
L ~N
N~L
+ Ð
• Digital control using a 200 regulation points Micro-Controller
1-10V DC
• DIN rail mounted (4 modules) or in distribution box with depth 70mm
á RBF10A
regulador F1
dimmer F1
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
This actuator is indicated for achieving a fine and precise digital control receiving orders only via the bus, whether it is
wired or wireless, so you can control these devices from conventional buttons (using MECing), from remote controls,
touch screens, PC, etc.
Is possible to configure the ramp control, ie the progressive on-off lighting and assign 15 characters strings to identify
its output, using the Development System software (SIDE).
Outputs
On/Off Relay
• Maximum current 10A
• The number of ballasts that can be connected will depend on their activation peaks.
• To control circuits with higher power interlay a contactor.
1–10V tension
• This device can provide up to 35mA in the 1-10V voltage outputs.
• To calculate the maximum number of supported ballasts, consult the technical information provided by the ballast
manufacturer.
Technical Characteristics
Device
Reference
RBF10A
Voltage
Max. Power
Current
Supply
Consumption
Given
85–265V AC
9–16V DC (BUS) 2.8VA @ 230V AC 50mA (BUS)
* without connection to 230V AC
** triac output internally connected to phase
68
Current
Consumption
Max. Current
Output 1–10 V
No.
Outputs
250mA* (BUS)
35mA
1**
ingenium
www.ingeniumsl.com
· RBF10A
Installation
RBF10A output wiring
Maximum cut-off capacity 10A
Fluorescent
Neutral
N F
+Ð
Ballast/Transformer
Adjustable 1Ð10V
Key
Phase
Supply
85Ð265V AC
50~60Hz
+Ð
Fluorescent
1-10V d.c
Supply
Phase
Control
Microprocessor
BUS
Gives
+12V
A
B
Ref.
Cable
4x0.5mm
69
dimmers
· RBLED500, RBLED1000
Dimmers for LED lighting with BUSing® control
Regulates one LED lighting channel.
• 1 digital low voltage (SELV) input
• 1 channel regulation
• Digital control using a 200 regulation points Micro-Controller
L ~N
N~L
• Thermic protection and protection against short-circuits and overloads.
• Remembers last position against power failures
á RBLED500
regulador LED
LED dimmer
• DIN rail mounted (4 modules) or in distribution box with depth 70mm
ingenium
Ref.
Ref.
Ref.
IN 1
NC
NC
Ref.
B
A
+12V
www.ingeniumsl.com
Description
RBLED500 and RBLED1000 are LED dimmers with one channel regulation, maximum 500W and 1000W respectively.
Suitable for LED lighting, they also allow any incandescent or halogen lighting, with or without incorporated transformer.
Designed for achieving a precise digital regulation, receiving commands via the bus or from conventional push buttons
connected to its inputs, using standard control long/short keystroke.
Using the Development System software (SIDE) is possible to configure the ramp control (progressive on-off lighting), or
lower limit and upper limit.
Inputs
• 1 digital input low voltage (SELV) 5V, minimum activation current 5mA.
• For pushbutton (non-programmable input linked to the output of the device).
Outputs
• 1 channel regulation.
• Max. 500W for the RBLED500 model.
• Max. 1000W for the RBLED1000 model.
• A minimum load of 7W connected to the output is required.
Technical Characteristics
Device
Reference
Voltage
Max. Power
Current
Supply
Consumption
Consumption
85–265V AC
RBLED500/1000 9–16V DC (BUS) 0.5W @ 230V AC 40mA* (BUS)
* without connection to 230V AC.
** triac output internally connected to phase
70
No.
Inputs
Max. Power
per Output
No.
Outputs
1
500/1000W
1**
ingenium
www.ingeniumsl.com
· RBLED500, RBLED1000
Installation
RBLED500/RBLED1000 output wiring
500W/1000W output
Neutral
Key
Phase
Supply
85Ð265V AC
50~60Hz
LED
Control de
Phase
Supply
Switch
Microprocessor
+5V
BUS
Consumes
+12V
A
B
Ref.
1
Ref.
Cable
4x0.5mm
RBLED500/RBLED1000 input wiring
The input is SELV.
It is internally referred to 5V and
activated when connected to Ref.
71
dimmers
· RBLED2S400
Dimmers for LED lighting with BUSing® control
Regulates 2 LED lighting channels.
• 2 digital low voltage (SELV) inputs
• 2 channels regulation
~
L2
NC
NC
• Digital control using a 200 regulation points Micro-Controller
L1
~
• Thermic protection and protection against short-circuits and overloads.
• Remembers last position against power failures
á RBLED2S400
regulador LED
LED dimmer
• DIN rail mounted (4 modules) or in distribution box with depth 70mm
ingenium
Ref.
Ref.
Ref.
IN 1
IN 2
NC
Ref.
B
A
+12V
www.ingeniumsl.com
Description
RBLED2S400 is a LED dimmers with two channels regulation, maximum 400W each one. Suitable for LED lighting, it
also allows any incandescent or halogen lighting, with or without incorporated transformer.
Designed for achieving a precise digital regulation, receiving commands via the bus or from conventional push buttons
connected to its inputs, using standard control long/short keystroke.
Using the Development System software (SIDE) is possible to configure the ramp control (progressive on-off lighting), or
lower limit and upper limit.
Inputs
• 2 digital inputs low voltage (SELV) 5V, minimum activation current 5mA.
• For pushbutton (non-programmable input linked to the output of the device).
Outputs
• 2 channels regulation.
• Max. 400W per channel.
• A minimum load of 7W per channel is required.
Technical Characteristics
Device
Reference
Voltage
Max. Power
Current
Supply
Consumption
Consumption
85–265V AC
RBLED2S400 9–16V DC (BUS) 0.5W @ 230V AC 40mA* (BUS)
* without connection to 230V AC.
** triac outputs internally connected to phase
72
No.
Inputs
Max. Power
per Output
No.
Outputs
2
400W
2**
ingenium
www.ingeniumsl.com
· RBLED2S400
Installation
RBLED2S400 output wiring
Maximum power per output 400W.
Neutral
Neutral
Phase
Phase
1
2
Key
Supply
85Ð265V AC
50~60Hz
LED
Phase
Control 1
Phase
Control 2
Supply
Switch
Microprocessor
+5V
BUS
Consumes
+12V
A
B
Ref.
2
1
Ref.
Cable
4x0.5mm
RBLED2S400 input wiring
All inputs are SELV.
They are internally referred to 5V
and they are activated when
connected to Ref.
73
dimmers
· RGBL
3-channel dimmer to regulate RGB LED modules with BUSing® control
Allows control of RGB LED strips to create different shades of environment.
• 3 independent regulation channels (Red, Green, and Blue)
GND
• Individual programming control values for each channel
R
+12 +24
G
+12 +24
B
á RGBL
• Digital regulation control based on microcontroller with more than 200 regulation points
• PWM dimming metod
regulador LED
LED dimmer
• Mounting: Luminaire or ceiling integration
• Size: 35x77x17mm
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
RGBL is a three channels lighting regulator. Each channel can be individually controlled or simultaneously the four of
them. They are controlled via other BUSing® devices. It is recommended for controlling RGB LED strips, creating different
atmospheres thanks to their RGB colours combination.
It is designed to achieve a precise digital regulation. It receives the commands from other BUSing® devices.
Using the Development System Software (SIDE), different parameters can be configured for each channel, for instance
the ramp speed or the maximum and minimum regulation values.
Installation Details
• To connect the RGB module, it has 4 regulation channels (red, green, blue and white) and an output supply
(+12V DC - +24V DC) from RGB unit.
• The output voltage for feeding the LED strip will be the same as the one the device receives in the input; two wires
+12V DC - +24V DC and reference (GND).
• It is not necessary to connect +12V DC–Ref to the BUSing socket terminal of the RGBL device. It is only needed to connect A and B and the power supply plugs from the upper part (+12V DC - + 24V DC) as well as GND in order to feed and
control the device.
Technical Characteristics
Device
Reference
Voltage
Supply*
Output Power
(10V DC)
RGBL
12–24V DC 3x30W
* power supplied by the LED transformer
74
Output Power
(24V DC)
No of
channels
Max. Operating
Output Current
3x78W
3 (R-G-B)
6A
ingenium
www.ingeniumsl.com
· RGBL
Installation
Supply
12Ð24V DC (SELV)
B G R
+12 +24
+12 +24
GND
Output
To LED modules
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
75
dimmers
· RGBWL
4-channel dimmer to regulate RGBW LED modules with BUSing® control
Allows control of RGB+White LED strips to create different shades of environment.
• 4 independent regulation channels (Red, Green, Blue and White)
• Individual programming control values for each channel
R W
GND
G
+12 +24
B
á RGBWL
• Digital regulation control based on microcontroller with more than 200 regulation points
• PWM dimming metod
regulador LED
LED dimmer
• Mounting: Luminaire or ceiling integration
• Size: 35x77x17mm
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
RGBWL is a four channels lighting regulator. Each channel can be individually controlled or simultaneously the four of
them. They are controlled via other BUSing® devices. It is recommended for controlling RGBW LED strips, creating different atmospheres thanks to their RGBW colours combination.
It is designed to achieve a precise digital regulation. It receives the commands from other BUSing® devices.
Using the Development System Software (SIDE), different parameters can be configured for each channel, for instance
the ramp speed or the maximum and minimum regulation values.
Installation Details
• To connect the RGBW module, it has 4 regulation channels (red, green, blue and white) and an output supply
(+12V DC - +24V DC) from RGBW unit.
• The output voltage for feeding the LED strip will be the same as the one the device receives in the input; two wires
+12V DC - +24V DC and reference (GND).
• It is not necessary to connect +12V DC–Ref to the BUSing socket terminal of the RGBWL device. It is only needed to connect A and B and the power supply plugs from the upper part (+12V DC - + 24V DC) as well as GND in order to feed and
control the device.
Technical Characteristics
Device
Reference
Voltage
Supply*
Output Power
(10V DC)
RGBWL
12–24V DC 4x30W
* power supplied by the LED transformer
76
Output Power
(24V DC)
No of
channels
Max. Operating
Output Current
4x78W
4 (R-G-B-W) 6A
ingenium
www.ingeniumsl.com
· RGBWL
Installation
Supply
12Ð24V DC (SELV)
B G RW
+12 +24
GND
Output
To LED modules
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
77
dimmers
· DMXBUS
Gateway DMX512 - BUSing®
Allows digital lighting control by DMX512 protocol.
• Gateway for digital controllers with DMX 512 protocol
• Emulation up to 255 channels
DMX Ð
DMX +
• DIN rail mounted (2 modules)
á DMXBUS
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
The DMXBUS is a device that acts as a control interface for controlling DMX 512 protocol colour LEDs regulation through
BUSing® devices.
With this device it is possible to emulate each and every one of the channels available within a digital DMX dimmer 512.
The number of channels depends on the type of dimmer used, being usually 3 (RGB). Being able to control the level of
brightness of each of the LEDs, a complete chromatic circle can be configured.
Like any other regulator can be controlled from any control system, from touch screens, buttons, PC, etc., Achieving different intensities of light and colour tones.
Technical Characteristics
78
Device
Reference
Voltage
Supply
Current
Consumption
No. of
Emulable Channels
DMXBUS
9–16V DC (BUS)
100mA (BUS)
255
ingenium
www.ingeniumsl.com
· DMXBUS
Installation
A (DMX+)
B (DMXÐ)
DMX station connection
DMX-512 protocol
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
79
dimmers
· DALing
Gateway BUSing® - DALI
Allows digital control of lighting with DALI protocol.
• Gateway control for luminaires with DALI protocol
• DALI power supply built
• DIN rail mounting (6 modules)
N~L
á DALing
pasarela BUSing-DALI
BUSing-DALI gateway
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
The DALing gateway is a device that acts as a control interface for luminaires with DALI protocol through BUSing® teams.
With this device you can control up to 64 DALI luminaires + 16 luminaires groups, providing power required to include an
integrated source.
As with any other controller, you can control the DALI lighting control system from anywhere, from touch screens, buttons, PC, etc. On the other hand it is possible to make a more complete control, and address and direct parameters of
each fixture using the DALI master (reference: iDALing) along this gateway.
Technical Characteristics
80
Device
Reference
Voltage
Supply
Max. Power
Consumption
Current
Consumption
DALing
230V AC 2.8VA @ 230V AC 25mA (BUS)
No.
Controllable Luminaries
64+16dir. group
ingenium
www.ingeniumsl.com
· DALing
Basic Installation
See DALI integration example:
page 203
DALI Bus
Allows to power
up to 64 ballast
Neutral
Phase
Supply
230V AC ~ 50Hz
Optional
110V AC ~ 60Hz
Supply
Microprocessor
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
81
dimmers
· iDALing-G
4,3” Colour Touch Capacitive Screen for DALI Lighting Control
Allows control, routing and luminaries configuration with DALI protocol.
• DALI Master control for configuration and
addressing
• Communication protocol BUSing®
• Flushounting in universal mechanism box,
screwed to wall
• Black or white finish option
• Size: 129x88x4mm (13mm depth)
Description
The screen is a master DALI iDALing that acts as a control interface for those communicating that luminaires protocol
with those across the gateway BUSing® - DALI.
With this device it is possible to address and configure up to 64 luminaires + 16 DALI luminaire groups and can execute
scenes, make an individual control or group, etc.
Technical Characteristics
82
Device
Reference
Voltage
Supply
Current
Consumption
No. of
Controllable Luminaries
iDALing-G
9–16V DC (BUS)
150mA (BUS)
64+16dir. group
ingenium
www.ingeniumsl.com
· iDALing-G
Installation
!
Use external mounting box is essential in any type of installation
allows future removal of the device.
Mounting box
14mm
129mm
8mm
4mm
120mm
ConectorT
73mm
88mm
UP
!
Glue connector housing In EMBEDDED installations
Before fitting the device inside
remove external border in
MASONRY WALL installation
Plastic part to remove in EMBEDDED
installation for ConectorT access
MicroSD
memory card
Device
When installed
the mounting
box, fit the
device inside
Installation options
SURFACE mounted on universal box
in PLASTERBOARD
EMBEDDED in MASONRY WALL
Device
To upload data from the SIDE
(plans and configuration).
Rear
BUSing¨
connection
Ref.
B
A
+12V
Using
ConnectorT
Cable
4x0.5mm
Consumes
83
Ref.
B
A
+12V
sensors
+
Alimentaci—n/Supply: 3V CR2032
á SIn-3h
á SIn-BUS
á SIn-W
ingenium
ingenium
ingenium
ingenium
Ref.
B
A
+12V
á SIn-2h
á STIBUS-NTC
www.ingeniumsl.com
www.ingeniumsl.com
www.ingeniumsl.com
www.ingeniumsl.com
ingenium
www.ingeniumsl.com
· STIBUS
· STIBUS-SD
· STIBUS-NTC
· DTV
· Sin-2h
· DTV-BUS
· DTV-W
· DH
· DH-BUS
· Sin-3h
· Sin-BUS
· Sin-W
· SG
á SRBUS
360¡
Patentado
Patented
‡ngulo de detecci—n
detection angle
+12V
A
9-16 Vdc
100 mA @ 12 Vdc
B
DETECTION
SIDE
Ref.
ingenium
www.ingeniumsl.com
· SifBUS-E
· SifBUS-S
· SifBUS-W
· SifBUS-L
ingenium
www.ingeniumsl.com
Detecci—n / Detection
· LDRBUS
84
· DM-BUS
+
á DM-BUS
+12V
A
B
Ref.
Alimentaci—n/Supply:
3V CR2450
· Sif
á DM-W
ingenium
www.ingeniumsl.com
Detecci—n / Detection
· DM-W
· SRBUS
ingenium
www.ingeniumsl.com
sensors
temperature
STIBUS, STIBUS-SD ......................................88
STIBUS-NTC ...................................................90
flooding
Sin-2h, Sin-3h ................................................92
Sin-BUS, Sin-W ..............................................92
fire/smoke
DTV, DTV-BUS, DTV-W ...................................94
DH, DH-BUS ...................................................96
SG ...................................................................98
movement
Sif .................................................................100
SifBUS-E, SifBUS-S, SifBUS-W ..................102
SifBUS-L .......................................................104
SRBUS .........................................................106
lighting
LDRBUS .......................................................108
contact
DM-BUS, DM-W ...........................................110
85
sensors > temperature
· STIBUS
[ STIBUS · STIBUS-SD ]
BUSing® Temperature Sensor
For climate control of an installation area.
• Integrated circuit
• Sensor temperature range 0–51°C
• PI controller discretized
• Adjustable temperature control range programming
• Programmable BUS events for each operating mode
· STIBUS-SD
• Optional relative humidity probe
• Flush mounting in box universal mechanism
• Size: 55x45x5mm
Version for mounting
on a microSD connector on BUSing® devices
Description
The STIBUS is a device similar to BUSing® thermostat unlike that this one does not have a touch screen. The device
acts as a temperature sensor BUSing® but is to be controlled from another screen.
Incorporates a discretized PI for greater comfort and energy savings.
Includes function modes for summer, winter and allow it to be mixed via modified BUS, and also allows Fan-control-coils
and can program BUS events for different speeds.
STIBUS integrated circuit version includes a ventilated lid for universal box flush mounting.
STIBUS-SD version can be incorporated into the models TECBUS-G and MECBUS-G to control the temperature zone
where they are installed (this version does not include the control of fan coils).
Function Modes
• Summer mode: Performing actions before cooling demand.
• Winter mode: Performing actions before heat demand.
• Mixed mode: Summer and winter mode simultaneously.
• Off mode: Temperature reading without executing actions.
Technical Characteristics
86
Device
Reference
Voltage
Supply
Current
Consumption
Temperature
Range
STIBUS
9–16V DC (BUS)
40mA (BUS)
0–51ºC
ingenium
www.ingeniumsl.com
· STIBUS
Installation
· STIBUS
Mounted on universal
mechanism box.
This device has a cover for universal
mechanism box with ventilating grid.
BUSing¤ connection
Using ConnectorT
Ref.
B
A
+12V
Consumes
Cable
4x0.5mm
· STIBUS-SD
Insertion slot
MicroSD Memory Card
compatible screens:
· TECBUS-G
· MECBUS-G
87
sensors > temperature
· STIBUS-NTC
BUSing® Temperature Sensor Adaptor NTC 5KΩ model
For climate control of an installation area.
• Sensor temperature range 0–51°C
Ref.
B
A
+12V
• Integrated sensor NTC 5KΩ model
• PI controller discretized
á STIBUS-NTC
ingenium
• Range adjustable temperature control programming
www.ingeniumsl.com
• Programmable BUS events for each mode
• Flush mounting in box universal mechanism
• Size: 45x45x10mm
Description
This device allows climate control in the room where it is located by an integrated temperature sensor NTC 5KΩ.
The reading of the temperature of the probe is converted to data BUSing® by this device, and can be visualized in the
graphic control device where it has been programmed.
It incorporates a discretized PI for greater comfort and energy savings.
Includes operating modes summer, winter and let be mixed modified via BUS, also allows Fan-coils control being able to
schedule BUS events for different speeds.
Operating Modes
• Summer mode: Performing actions before cooling demand.
• Winter mode: Performing actions before heat demand.
• Mixed mode: Summer and winter mode simultaneously.
• Off Mode: Temperature reading without executing actions.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
Temperature
Range
Sensor Type
to connect (default)
STIBUS-NTC*
9–16V DC (BUS)
40mA (BUS)
0–51ºC
NTC 5 KΩ
* replaces device reference: BUS-Temp
88
ingenium
www.ingeniumsl.com
· STIBUS-NTC
Installation
á STIBUS-NTC
Integrated Sensor
NTC 5 K½
BUSing¨ connection
Using ConnectorT
Ref.
B
A
+12V
Cable
4x0.5mm
Consumes
89
sensors > flooding
· Sin
[ Sin-2h · Sin-3h ]
Flood Sensor
Allows the detection of water leaks in the installation.
á SIn-2h
á SIn-3h
ingenium
ingenium
www.ingeniumsl.com
www.ingeniumsl.com
· Sin-2h
· Sin-3h
Vertical contact detector 2 wires type
to be connected to the KCtr.
Vertical contact detector 3 wires
type to be connected to the KCtr.
• For KCtr connection
• For KCtr connection
• Vertical mount
• Vertical mount
• Size: 34x70x14mm
• Size: 34x70x14mm
Description
These devices have terminals with sensors that detect water. They are to be installed vertically with the bottom flap
touching the ground. For an alarm to sound, the water must be in contact with both metal terminals.
• They should be located in areas of water leaking risk.
• On sloping ground, should be placed at the points where, by fall, the water tends to accumulate.
• Can be installed hidden, because its function is to send information to the automation system.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
• Up to 30 programmable BUS events for each scene.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
Max. Recommended
Distance
Sin-2h
Sin-3h
9–16V DC (KCtr)
9–16V DC (BUS)
Negligible
Negligible
30m*
30m*
* maximum recommended distance between sensor and KCtr
90
ingenium
www.ingeniumsl.com
· Sin
Installation
Connection to KCtr
E6: Flood Sensors
Max. distance: 30m
6
KCtr
See KCtr diagram > Page 34
Installation of Flood Sensors (2 wires type).
Connection of additional Sin-2h sensors
KCtr
á Sin-2h
á Sin-2h
Floor
6
KCtr
Wall installation
These devices must be installed in vertical
position on the wall, with the sensor downside
and lapel of the housing stuck to the floor.
Connection to KCtr
E6: Flood Sensors
Max. distance: 30m
+12V
Ref.
Connection of additional Sin-3h sensors
KCtr
+12V
Ref.
á Sin-3h
á Sin-3h
Floor
Wall installation
These devices must be installed in vertical
position on the wall, with the sensor downside
and lapel of the housing stuck to the floor.
91
sensors > flooding
· Sin
[ Sin-BUS · Sin-W ]
BUSing® Flood Sensor
Ref.
B
A
+12V
Allows the detection of water leaks in the installation.
+
Alimentaci—n/Supply: 3V CR2032
á SIn-BUS
á SIn-W
ingenium
ingenium
www.ingeniumsl.com
www.ingeniumsl.com
· Sin-BUS
· Sin-W
Vertical detector to be connected
to BUSing®via cable.
Vertical wireless detector to be
connected to wireless BUSing®.
• BUSing® connection
• BUSing® wireless connection
• Vertical mount
• Vertical mount
• Size: 34x70x14mm
• Size: 34x70x14mm
Description
These devices have terminals with sensors that detect water. They are to be installed vertically with the bottom flap
touching the ground. For an alarm to sound, the water must be in contact with both metal terminals.
• They should be located in areas of water leaking risk.
• On sloping ground, should be placed at the points where, by fall, the water tends to accumulate.
• Can be installed hidden, because its function is to send information to the automation system.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
• Up to 60 programmable BUS events for each scene.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
Sin-BUS
Sin-W
9–16V DC (BUS)
40mA (BUS)
Battery CR2032 (3V) –
* maximum recommended distance to closest radio device (repeater)
92
Max. Recommended
Distance
–
15m*
ingenium
www.ingeniumsl.com
· SinBUS
Installation
Consumes
Cable
4x0.5mm
á Sin-BUS
Ref.
B
A
+12V
+12V
A
B
Ref.
á Sin-BUS
Wall installation
These devices must be installed in
vertical position on the wall, with
the sensor downside and lapel of
the housing stuck to the floor.
Floor
Sin-W maintenance
Requires CR2032
battery supply.
á Sin-W
CR2032
3V
Must check and/or
replace the batteries at
least once every two years.
+
Alimentaci—n/Supply: 3V CR2032
á Sin-W
Wall installation
These devices must be installed in
vertical position on the wall, with
the sensor downside and lapel of
the housing stuck to the floor.
inal‡mbrico
wireless
Floor
93
sensors > fire/smoke
· DTV
[ DTV · DTV-BUS · DTV-W ]
Thermovelocimetric Fire Detector
To detect fires indicated by sharp temperature changes.
· DTV
· DTV-BUS
· DTV-W
Contact detector to be connected
to the KCtr smartbox
Detector to be connected to
wired BUSing®.
Detector to be connected to
wireless BUSing®.
• For KCtr connection
• BUSing® connection
• BUSing® wireless connection
• Mounted on the ceiling (surface)
• Mounted on the ceiling (surface)
• Mounted on the ceiling (surface)
• Size: Ø74x26mm
• Size: Ø74x26mm
• Size: Ø74x26mm
Description
These types of detectors are mounted on ceilings and detect fires by measuring the rise in temperature produced in the
room where they are installed.
• The thermovelocimetric detectors are designed to be placed in areas where smoke might exist or occur, such as kitchens,
garages etc.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
• Up to 60 programmable BUS events for each scene.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
DTV
DTV-BUS
DTV-W
9–16V DC (KCtr)
Negligible
9–16V DC (BUS)
40mA (BUS)
Battery 2/3 AA (3V) –
Max. Recommended
Distance
30m*
–
15m**
* maximum recommended distance between sensor and KCtr
** maximum recommended distance to closest radio device (repeater)
94
ingenium
www.ingeniumsl.com
· DTV
Installation
5
+ Ð
See KCtr diagram > Page 31
Installation of Fire/Smoke Sensors
LOOP type
Connection to KCtr
E5: Fire/Smoke Sensors
Max. distance: 30m
Connection of additional DTV sensors
Up to 3 sensors can be connected directly
to the KCtr input.
á DTV
Ð
+
Consumes
+12V
A
B
Ref.
á DTV-BUS
Cable
4x0.5mm
DTV-W maintenance
Requires 2/3 AA
battery supply.
Must check and/or
replace the batteries at
least once every two years.
á DTV-W
inal‡mbrico
wireless
95
sensors > fire/smoke
· DH
[ DH · DH-BUS ]
Optical Smoke Detector
Allows detection of fire by the presence of smoke.
· DH
· DH-BUS
Contact detector prepared for KCtr
by main unit connection.
Detector prepared for KCtr by
wire connection.
• For connection to KCtr
• For BUSing® connection
• Mounted on the ceiling (surface)
• Mounted on the ceiling (surface)
• Size: 60x85x58mm
• Size: 60x85x58mm
Description
This kind of detectors are mounted on the ceiling and detect the presence of smoke in the room where are located.
• Optical detectors are designed to be placed in areas where there is usually the presence of smoke, ie. hallways, rooms, etc.
• They are also installed when you cannot install thermovelocimetric detectors, being areas where although there is smoke,
you cannot wait, in case of a fire, for the temperature to rise above the critical thermovelocimetric value.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
• Up to 60 programmable BUS events for each scene.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
Max. Recommended
Distance
DH
DH-BUS
9–16V DC (KCtr)
9–16V DC (BUS)
20mA
160 µA (off) / 25mA (on)
30 m*
–
* maximum recommended distance between sensor and KCtr
96
ingenium
www.ingeniumsl.com
· DH
Installation
Connection to KCtr
E5: Fire/Smoke Sensors
Max. distance: 30m
5
+ Ð
á DH
See KCtr diagram > Page 31
Installation of Fire/Smoke Sensors
LOOP type
Connection of additional DH sensors
Up to 3 sensors can be connected directly
to the KCtr input.
3
4
+
1
Consumes
3
3
Ð
2
3
4
2
4
2
1
4
2
1
1
Cable
4x0.5mm
+12V
A
B
Ref.
á DH-BUS
97
sensors > fire/smoke
· SG
Gas Ionization Detector
Allows the detection of toxic or explosive gases in a installation.
• Type contact detector
• Light and acoustic status indicator
• Wall height varies according to gas detection
• Size: 130x70x50mm
Description
These kind of devices are placed into the wall and detecting the presence of
smoke and toxic gases, such as butane, propane, methane, town gas, natural gas and others.
• Can also detect the presence of smoke from a fire through the gas given off
by the combustion itself. Although for effective fire detection is advisable and
appropriate to use optical or thermovelocimetric detectors.
• It has no connection to BUS, it is prepared to be connected directly to the
technical alarm center or any KCtr device with BUSing® inputs.
Knowing the difference in density of the various commercial gases, the detector will be installed at most 30cm from the
ground when the risk to protect will be either butane or propane gas, and 30cm from the ceiling in the case of City Gas
or Natural Gas.
• Must be installed preferably next to risks without being near of large sources of direct heat such as ovens, cooking fires,
stoves, etc. Ensure that the location is clear of furniture and partitions and beams. They may block the detection of gas
and away from drafts produced by the vents.
Technical Characteristics
Device
Reference
Voltage
Supply*
Current
Consumption
SG
9–16V DC
180mA (off) / 200mA (on)
* optional 230V AC version
** potential free output
*** LEL: lower explosive limit
98
Output**
Alarm Level 10% LEL***
Contact
NA or NC
5000 ppm Natural Gas
2000 ppm Butane/Propane
ingenium
www.ingeniumsl.com
· SG
Installation
5
+ Ð
Connection to KCtr
E5: Fire/Smoke Sensors
See KCtr diagram > Page 32
Installation of Fire/Smoke sensors
CONTACT Type
Ref.
+12V
á SG
C NC NA
Ð+
Sensitivity
Adjust
Service
Led
Sensor fitting
Following the density variations of different
commercial gases, the sensor must be installed up
to 30cm from the floor when the risk is from Butane
Gas and Propane Gas and 30cm from the ceiling
when the riskk is from Natural Gas or City Gas.
Alarm
Led
99
sensors > movement
· Sif
Infrared Movement Detector
Allows detection of presence in the installation.
• For KCtr connection
• Normally closed output
• Mounted on the ceiling (embedded)
• Size: Embedded Ø23mm - Seen Ø34mm - Length 52mm
Description
This detector have a passive infrared sensor which detects movements caused by intruders. They have a high level of
immunity from false alarms, electromagnetic fields and temperature variations.
• This type of detectors are indicated to be placed inside homes, buildings, etc.
• Avoid installation in places exposed to direct sunlight and drafts. Also, avoid placing these detectors behind large objects
as these will reduce their detection reach.
• It has no BUS connection, being ready to be directly connected to a KCtr alarm smartbox or any other device with a
BUSing® input.
Technical Characteristics
100
Device
Reference
Voltage
Supply
Current
Consumption
Detection
Angle
Max. Detection
Distance
Sif
9–16V DC
25mA @ 12V DC
90º
15m
ingenium
www.ingeniumsl.com
· Sif
Installation
3
Connection to KCtr
E3: Movement Detectors and E6
+12V
Ref.
See KCtr diagram > Page 33
Installation of Movement Detectors
INFRARED Type
á Sif
Ceiling
Connection to KCtr
E3: Movement Detectors and E6
Connection of additional SIf sensors
+12V
Ref.
Ref.
+12V
Ref.
+12V
101
sensors > movement
· SifBUS
[ SifBUS-E · SifBUS-S · SifBUS-W ]
Infrared Movement Detector BUSing®
Allows detection of presence in the installation.
· SifBUS-E
Detector to be connected to wired BUSing®
• BUSing® connection
• Mounted on the ceiling (embedded)
• Size: Embedded Ø23mm - Seen Ø34mm - Length 52mm
· SifBUS-S
· SifBUS-W
Detector to be connected to
wired BUSing®.
Detector to be connected to
wireless BUSing®.
• BUSing® connection
• BUSing® wireless connection
• Mounted on the ceiling (surface)
• Mounted on the ceiling (surface)
• Size: Ø74x26mm
• Size: Ø74x26mm
Description
These movement detectors have a passive infrared sensor which detects movements caused by intruders. They have a
high level of immunity from false alarms, electromagnetic fields and temperature variations.
• This type of detectors are indicated to be placed inside homes, buildings, etc.
• Avoid installation in places exposed to direct sunlight and drafts. Also, avoid placing these detectors behind large objects
as these will reduce their detection reach.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
• Up to 60 programmable BUS events for each scene.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
Max. Recommended
Distance
Detection
Angle
Detection Area
at 2.5m height
SifBUS · SIfBUS-E
SifBUS-W
9–16V DC (BUS)
Battery 2/3 AA (3V)
40mA (BUS)
–
–
15m*
360º
360º
Ø5m
Ø5m
* maximum recommended distance to closest radio device (repeater)
102
ingenium
www.ingeniumsl.com
· SifBUS
Installation
Consumes
Ref.
B
A
+12V
Cable
4x0.5mm
á SifBUS-E
Ceiling
Consumes
+12V
A
B
Ref.
á SifBUS-S
Cable
4x0.5mm
SifBUS-W maintenance
Requires 2/3 AA
battery supply.
Must check and/or
replace the batteries at
least once every two years.
á SifBUS-W
inal‡mbrico
wireless
103
sensors > movement
· SifBUS-L
Infrared Movement Detector BUSing® with light level sensor
Allows detection of presence and lighting in the installation.
• BUSing® connection
• Movement and light level sensor integrated
• Mounted on the ceiling (embedded)
• Size: Embedded Ø23mm - Seen Ø34mm - Length 52mm
Description
Infrared sensor for movement detection (intrusion, lighting) and brightness level. Designed for wired BUSing® connection. Possibility to program the desired events both in detection and when it finishes, or in the absence of light.
These detectors have a passive infrared sensor which detects movements caused by intruders. They have a high level of
immunity from false alarms, electromagnetic fields and temperature variations.
• Indicated to be placed inside homes, buildings, etc.
• Avoid installation in places exposed to direct sunlight and drafts. Also, avoid placing these detectors behind large objects
as these will reduce their detection reach.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
(2 for the movement sensor and 2 for the light sensor)
• Up to 30 programmable BUS events for each scene.
Technical Characteristics
104
Device
Reference
Voltage
Supply
Current
Consumption
Detection
Angle
Detection Area
at 2.5m height
SIfBUS-L
9–16V DC (BUS)
40mA (BUS)
360º
Ø5m
ingenium
www.ingeniumsl.com
· SifBUS-L
Installation
Consumes
Ref.
B
A
+12V
Cable
4x0.5mm
á SifBUS-L
Ceiling
105
sensors > movement
· SRBUS
Hidden 360º Radiofrequency Detector BUSing®
For movement detection with concealed installation.
• Detects movement through solid, non-metallic objects
á SRBUS
360¡
Patentado
Patented
• Detects minimum movements
‡ngulo de detecci—n
detection angle
+12V
A
9-16 Vdc
100 mA @ 12 Vdc
B
DETECTION
SIDE
Ref.
ingenium
www.ingeniumsl.com
• Hidden installation in false ceiling, wall or waterproof case
• Automatic reset after each detection
• Adjustable timer from pulse to 17min.
• Adjustable sensitivity up to 12m
• Size: 65x25x45mm
Description
The SR-BUS is a radio frequency detector for hidden installation can detect movement through walls and ceilings of any
non-metallic material. It is designed to replace passive 360° sensors, surpassing its performance.
Its installation hidden behind walls, partitions, ceilings, junction boxes or waterproof casings, ensure safety unwanted intrusions or vandalism to not be accessible.
By being able to detect the slightest movement, it is possible to link the lighting of a room to the presence of people or
trigger the intrusion alarm.
From Development System (SIDE) you can set the sensitivity, the sampling period, the response time and the delay after
detection, and a list of events BUS to send at the time in which detection occurs and when the timer expires.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
• Up to 60 programmable BUS events for each scene.
• Timing adjustment seconds after detection.
• Sensitivity adjustment and damping.
• Configuration control cycles and number of detections for activation.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
Detection
Angle
Maximum
Detection Area
Secure
Detection Area
SR-BUS
9–16V DC (BUS)
100mA (BUS)
360º
12x6m*
6x3m*
* approx. area at 2.5m height
106
ingenium
www.ingeniumsl.com
· SRBUS
Installation
SRBUS output wiring
Supply absorbed 100mA
+12V
A
B
Ref.
BUS
Microprocessor
Detection
Consumes
Cable
4x0.5mm
Detection adjustments
The detector emits a detection beam of high
intensity, being of greater or lesser scope
depending on the sensitivity for which it has been
programmed from the Development System.
Detection angles
The beam in the longitudinal direction
of the device has an angle of 140¼ and
in transversal, 70¼.
Installation in a false ceiling
Detection area
The detection area must face the room,
with the silk screened part of the device
face-down.
SRBUS
Detection area at
2.5m from the floor:
Guaranteed: 6x3m
Maximum: 12x6m
The device can be partially
blinded with metal tape to
cancel detection in a
zone/direction.
Floor
Guaranteed area 6x3m
Maximum area 12x6m
Length side of the room
Direction of the device
Place lengthwise, with the length of the
device parallel to the length of the room.
Together with the programming, this will
ensure optimal detection.
Do NOT install:
á In locations susceptible to vibrations.
á Over fluorescent lights.
107
sensors > lighting
· LDRBUS
BUSing® Light Level Sensor
Controls the installation according to the level of light measured.
• Light level sensor for BUSing® connection
• Discreet digital PI regulator
• 2 operational modes: linear mode and threshold mode
• Admits Lineal, on/off, or Sectorial controls
• Mounted embedded in ceilings or walls
• Size: Embedded Ø23mm - Seen Ø34mm - Length 52mm
Description
Operating Modes
Light level sensor with regulator incorporated that controls lighting loads according to the level of light available.
• Linear Mode: The device maintains, automatically, the level of light indicated at the input, acting on the devices it controls (according to the
fixed regulation law in the fixed parameters of
the PI).
It can be used to maintain an even lighting level in rooms,
using regulated lighting controlled by BUSing®.
With the regulator parameters correctly adjusted, light levels in
rooms can be maintained regardless of natural light available.
In combination with a presence detector (reference: SRBUS,
Sif-BUS, etc.) Luminaires can be controlled according to presence and light simultaneously.
Inputs
• Photodiode type light level detector; sensitivity: 0–6000lux.
Outputs
• BUSing®events as programmed with the parameters in the
device.
Technical Characteristics
108
Device
Reference
Voltage
Supply
Current
Consumption
LDRBUS
9–16V DC (BUS) 40mA (BUS)
Light
Sensitivity
0–6000lux
The devices that it has to control are programmed as a list of elements using the Development System (SIDE).
• Threshold Mode: Admits 4 scenes to be programmed, which will be executed when the lighting is between configurable values. In this mode
you can control on/off points working as a twilight switch.
• Off Mode: The device does not execute any action but it continues measuring light level.
ingenium
www.ingeniumsl.com
· LDRBUS
Installation
LDR output wiring
Connection to BUSing¨
Consumes
Ref.
B
A
+12V
Cable
4x0.5mm
Ceiling
Minimum distance: 50mm
Light
Minimum distance: 2m
Installation embedded in the ceiling
It is important to avoid direct interference with the lights.
Exterior installation
Use translucent isolated box.
109
sensors > contact
· DM
[ DM-BUS · DM-W ]
Magnetic Detector BUSing®
+12V
A
B
Ref.
+
á DM-BUS
ingenium
www.ingeniumsl.com
Alimentaci—n/Supply:
3V CR2450
Allows detection of open windows or doors.
Detecci—n / Detection
• Surface mount
á DM-W
ingenium
www.ingeniumsl.com
• Size:
Detector: 58x27x10mm
Magnet: 23x14x6mm
Detecci—n / Detection
· DM-BUS
· DM-W
Detector designed to be connected
to wired BUSing®.
Detector ready to be connected to
wireless BUSing®.
Description
The magnetic detectors have two physically separate pieces. The smaller one has a magnet and the bigger one has an
integrated circuit which can detect the presence or absence of the smaller piece.
They can be used for the following functions:
• Anti-intruder security device: that detects when an unwanted door or window opening.
• Air control devices for energy saving: on detecting that a window has been opened, it will (having been programmed) cut
off the air conditioning or heating accordingly.
They are installed in zones close to door or window openings in the moving part, so that the sensor detects the slightest
movement or displacement.
The smaller piece is installed on the edge of the window which is closest to the window opening.
• The smaller piece (magnet) is installed on the edge of the window which is closest to the window opening.
• The bigger piece is installed on the window frame and with its detecting side facing the magnet.
Configuration using Development System (SIDE)
• 2 programmable scenes for activation and deactivation of the sensor.
• Up to 60 programmable BUS events for each scene.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
DM-BUS
DM-W
9–16V DC (BUS)
40mA (BUS)
Battery CR2450 (3V) –
* maximum recommended distance to closest radio device (repeater)
110
Max. Recommended
Distance
–
15 m*
ingenium
www.ingeniumsl.com
· DM
Installation
Consumes
á DM-BUS
+12V
A
B
Ref.
Magnet position
(Detection)
Cable
4x 0.5mm
Detector
Magnet
á DM-W
Requires CR2450
battery supply.
CR2450
3V
Magnet position
(Detection)
Detector
Magnet
DM-W maintenance
Must check and/or
replace the batteries at
least once every two years.
inal‡mbrico
wireless
Window or Door Location (depending on frame type).
Option 1
Detector
Magnet
Option 2
Orientation possibilities
Option 1
Option 2
Detector
Magnet
Detector
Detector
Magnet
Magnet
111
á BUSing
LGAC
á BUSing
DKAC
ingenium
ingenium
á BUSing-LGAC-D
ingenium
www.ingeniumsl.com
emitter
ingenium
www.ingeniumsl.com
· BUSing-DKAC-I
+12 A B Ref.
+12 A B Ref.
Bus 1
Bus 2
á RejiBUS
á IRing
ingenium
www.ingeniumsl.com
Ref.
B
A
+12V
· iRing
112
emitter
á BUSing-DKAC-D
Ref.
B
A
+12V
· BUSing-LGAC-D
reciever
· BUSing-LGAC-I
reciever
Ref.
B
A
emitter
+12V
www.ingeniumsl.com
reciever
Ref.
B
A
www.ingeniumsl.com
+12V
B
A
B
A
clima
ingenium
www.ingeniumsl.com
· RejiBUS
Ref.
B
A
+12V
· BUSing-DKAC-D
ingenium
www.ingeniumsl.com
clima
BUSing-LGAC-I .............................................114
BUSing-LGAC-D ...........................................116
BUSing-LGDK-I.............................................118
BUSing-LGDK-D ...........................................120
IRing .............................................................122
RejiBUS ........................................................124
113
clima
· BUSing-LGAC-I
BUSing® – LG air conditioning gateway
Allows control by BUSIng® of air conditioning LG devices
• Suitable for industrial installations
• Connects to the LG HVAC units by RS485 bus
• DIN rail mounted (2 modules)
B
A
• Controls up to 64 LG units
á BUSing
LGAC
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
Gateway suitable for integration of LG HVAC air conditioning system with the BUSing® system control.
It supports up to 64 LG air conditioning industrial units connected via RS485 bus.
It allows to control set-point temperature, current temperature, function modes (cold, heat, ventilation, drying or automatic) and fan speed (low, medium, high or auto).
Technical Characteristics
114
Device
Reference
Voltage
Supply
Current
Consumption
No. AC units
Controllable
BUSing-LGAC-I
9–16V DC (BUS)
100mA (BUS)
64
ingenium
www.ingeniumsl.com
· BUSing-LGAC-I
installation
LG BUS
Direct connection to RS485 BUS
LG outdoor units and control up
to 64 units.
A B
Industrial
installation
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
115
clima
· BUSing-LGAC-D
BUSing® – LG air conditioning gateway for domestic use
Allows control by BUSIng® of an air conditioning LG device
emitter
reciever
• Suitable for domestic installations
• Connects to the LG unit by infrared
• Controls a DAIKIN unit
á BUSing-LGAC-D
ingenium
www.ingeniumsl.com
Ref.
B
A
+12V
• Mounting hidden next to AC device or ceiling integration
• Size: 44x38x14mm
Description
Gateway suitable for integration of LG air conditioning system with the BUSing® system control.
Through its infrared emitter connects wirelessly to a LG domestic air conditioner unit.
It allows to control set-point temperature, current temperature, function modes (cold, heat, ventilation, drying or automatic) and fan speed (low, medium, high or auto).
Installation Details
• Device’s IR receiver allows to keep updated on the BUSing® system control the state of the air conditioning unit. So this
IR receiver must stay uncovered and accessible by the remote control of the AC unit.
Technical Characteristics
116
Device
Reference
Voltage
Supply
Current
Consumption
No. AC units
Controllable
BUSing-LGAC-D
9–16V DC (BUS)
40mA (BUS)
1
ingenium
www.ingeniumsl.com
· BUSing-LGAC-D
installation
Infrared connection
IR emitter of IngeniumÕs
device connects with the
LGÕs AC reciever.
Domestic
installation
IR Reciever
of the AC device
IR Reciever
IR Emitter
For code
recepcion.
For emission
of codes.
á BUSing-LGAC-D
Ref.
B
A
+12V
!
IMPORTANT
After installation the IR receiver
of the BUSing¨ device should be
uncovered and accessible by the
remote control of the AC unit.
BUSing¨ connection
Using ConnectorT
Ref.
B
A
+12V
Cable
4x0.5mm
Consumes
117
clima
· BUSing-DKAC-I
BUSing® – DAIKIN air conditioning gateway
Allows control by BUSIng® of an air conditioning DAIKIN device
• Suitable for industrial installations
• Connects to the DAIKIN HVAC unit by RS485 bus
• DIN rail mounted (2 modules)
B
A
• Controls one DAIKIN unit
á BUSing
DKAC
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
Gateway suitable for integration of DAIKIN HVAC air conditioning system with the BUSing® system control.
Connects one DAIKIN air conditioning industrial unit via RS485 bus.
It allows to control set-point temperature, current temperature, function modes (cold, heat, ventilation, drying or automatic) and fan speed (low, medium, high or auto).
Technical Characteristics
118
Device
Reference
Voltage
Supply
Current
Consumption
No. AC units
Controllable
BUSing-DKAC-I
9–16V DC (BUS)
100mA (BUS)
1
ingenium
www.ingeniumsl.com
· BUSing-DKAC-I
installation
DAIKIN BUS
Direct connection to RS485 BUS
of a DAIKIN industrial unit.
A B
Industrial
installation
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
119
clima
· BUSing-DKAC-D
BUSing® – DAIKIN air conditioning gateway for domestic use
Allows control by BUSIng® of an air conditioning DAIKIN device
emitter
reciever
• Suitable for domestic installations
• Connects to the DAIKIN unit by infrared
• Controls one DAIKIN unit
á BUSing-DKAC-D
ingenium
www.ingeniumsl.com
Ref.
B
A
+12V
• Mounting hidden next to AC device or ceiling integration
• Size: 44x38x14mm
Description
Gateway suitable for integration of DAIKIN air conditioning system with the BUSing® system control.
Through its infrared emitter connects wirelessly to a DAIKIN domestic air conditioner unit.
It allows to control set-point temperature, current temperature, function modes (cold, heat, ventilation, drying or automatic) and fan speed (low, medium, high or auto).
Installation Details
• Device’s IR receiver allows to keep updated on the BUSing® system control the state of the air conditioning unit. So this
IR receiver must stay uncovered and accessible by the remote control of the AC unit.
Technical Characteristics
120
Device
Reference
Voltage
Supply
Current
Consumption
No. AC units
Controllable
BUSing-DKAC-D
9–16V DC (BUS)
40mA (BUS)
1
ingenium
www.ingeniumsl.com
· BUSing-DKAC-D
installation
Infrared connection
IR emitter of IngeniumÕs
device connects with the
DAIKINÕs AC reciever.
Domestic
installation
IR Reciever
of the AC device
IR Reciever
IR Emitter
For code
recepcion.
For emission
of codes.
á BUSing-DKAC-D
Ref.
B
A
+12V
!
IMPORTANT
After installation the IR receiver
of the BUSing¨ device should be
uncovered and accessible by the
remote control of the AC unit.
BUSing¨ connection
Using ConnectorT
Ref.
B
A
+12V
Cable
4x0.5mm
Consumes
121
clima
· IRing
Infrared emitter with learning ability
Allows infrared control with receiver devices.
• Infrared emitter with storage of up to 255 codes
• Extension with LED emitters and mini jack connector
• Suitable for IR transmitters in the 40KHz band
• Mounting hidden next to AC device or ceiling integration
reciever
emitter
• Size: 44x38x14mm
á IRing
ingenium
www.ingeniumsl.com
Ref.
B
A
+12V
Description
Infrared transmitter with code learning capability. Enables device control with IR receiver through centralized controls
from touch screens, PCs or internet.
Programmable from Development System (SIDE), is capable of recording in memory any infrared signal, showing the
pulse recorded and allowing their emission to verify proper operation.
It comes in 2 parts: a control board that incorporates the microprocessor, the bus connection, the receiver recorder type
and a mini jack connector for the connection to the terminal extension with two infrared LED emitters.
Its installation may be hidden, except for infrared emitter terminal, which must be visible and focused to control the recipients.
Technical Characteristics
122
Device
Reference
Voltage
Supply
Current
Consumption
No. of
Storable Codes
Emission
Distance (approx.)
iRing
9–16V DC (BUS)
40mA (BUS)
255
8m
ingenium
www.ingeniumsl.com
· IRing
Installation
IR Emitter
For emission of
memorized codes.
IR Reciever
For code
memorization.
Ref.
B
A
+12V
BUSing¨ connection
Using ConnectorT
Ref.
B
A
+12V
Cable
4x0.5mm
Consumes
123
clima
· RejiBUS
Device to control motorized grids
BUSing® actuator with 1 output to control 12V DC motors.
• 1 output to control a motor with reversing mode
• Grid motor casing mounted
+12 A B Ref.
+12 A B Ref.
Bus 1
Bus 2
• Size: 45x33x14mm
á RejiBUS
ingenium
www.ingeniumsl.com
Description
This device allows to control the motorized grids to control air supply in areas where it is placed, allowing a zone temperature control.
It has an engine output to connect the grids, which reverses the direction of rotation of the motor according to the operation to be performed (opening or closing).
As its sized are reduced, it can be installed in the grids mechanism itself, also has a connector for input and other for
BUS output for a much more comfortable wiring (in and out indifferent).
As any of the other actuators it can be controlled from any interface on the system such as touch screens, pushbuttons,
PC, remote control, etc.
Technical Characteristics
124
Device
Reference
Voltage
Supply
Current
Consumption
No.
Outputs
Output
Voltage
Switching
Capacity
RejiBUS
9–16V DC (BUS)
25mA (BUS)
1
12V DC
0.7A
ingenium
www.ingeniumsl.com
· RejiBUS
Installation
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
+12V
A
B
Ref.
Cable
4x0.5mm
+Ð
Motorized grill
Direct current
12V DC
125
2
1
Ref.
3
OUT
4
Ref.
24V DC
á ING-AS
á SoniBUS
sistema audio BUSingÐDLNA
BUSingÐDLNA audio system
control audio
audio control
ingenium
ingenium
126
+
Ð
· ING-AS
Ref.
2
Ð
B
Ref.
B
A
+12V
· SoniBUS
1
+
A
www.ingeniumsl.com
www.ingeniumsl.com
+12V
12V
audio
ingenium
www.ingeniumsl.com
audio
SoniBUS.......................................................128
ING-AS ..........................................................130
127
audio
· SoniBUS
Sound control device
To control up to 4 audio channels.
• 4 audio channels to multiplex
• 1 Output to preamplified speakers
2
1
Ref.
3
OUT
Ref.
12V
• BUS optoconnected.
4
• Audio level by each input
• DIN rail mounted (4 modules) or in distribution box with depth 70mm
á SoniBUS
control audio
audio control
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
Device devised to control sound, audio wire. It has four inputs to connect different audio sources to be controlled: MP3,
hi-fi, radio.
Allows to choose from four different channels, the sound system to listen to, as to regulate the volume. It has one output to connect to preamplified speakers and BUS connection.
A touch screen or PC is needed in order to select the audio sources and the volume regulation such as MECBUS,
TECBUS, PPC10… In this way it allows a sound zone control.
Technical Characteristics
128
Device
Reference
Voltage
Supply
Current
Consumption
Audio
Inputs
Audio
Outputs
SoniBUS
9–16V DC (BUS)
40mA (BUS)
4
1
ingenium
www.ingeniumsl.com
· SoniBUS
Basic Installation
See SONELCO integration examples:
page 198
Power supply
Audio sources
Max. 4 devices
Supply
12V DC
4 3 2 1
OUT
Ref.
12V
Ref.
Zone speakers output
Microprocessor
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
129
audio
· ING-AS
BUSing® – DLNA® Audio System
To control sound in a DLNA® wireless network by BUSing®
• 2 output channels (L+R Stereo) to amplifier
• Sound level controled by BUSing®
• Wireless reception from audio source
• DLNA® protocol (Digital Living Network Alliance)
24V DC
• DIN rail mounted (6 modules)
á ING-AS
sistema audio BUSingÐDLNA
BUSingÐDLNA audio system
ingenium
Ð
Ref.
+
B
Ð
+12V
+
2
A
www.ingeniumsl.com
1
Description
Device for the sound control by BUSing® using as audio source a network of wireless devices, enabling to hear amplified
sound/music from a smartphone, tablet, smartTV, etc.
Audio input is done wirelessly from devices DLNA®protocol compatible (Digital Living Network Alliance).
The device has two output channels (L+R stereo) ready for an audio amplifier inputs. The BUSing® connection lets you
control the main output level in the installation through Ingenium visualization devices and apps.
Technical Characteristics
130
Device
Reference
Voltage
Supply
Audio Output
Channels
Communication
Protocol
ING-AS
24V DC
L+R Stereo
DLNA® wireless
ingenium
www.ingeniumsl.com
· ING-AS
Installation
DLNA¨ compatible devices
ING-AS connects wirelessly
to get audio reception.
24V
Ref.
Supply
24V DC
Microprocessor
BUS
R
L
+ Ð + Ð
Audio output
2 channels
(L+R stereo)
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
Amplifier input
RCA connection
Audio Input
R
L
131
N~L
á MeterBUS
1C
1
Ch1
Ch2
Ch3
Ref.
NC
NC
energy efficiency
N~L
2
N~L
N~L
N~L
N~L
3
4
á MeterBUS-4C
á MeterBUS
3C
medidor de consumo elŽctrico
power consumption meter
· MeterBUS-1C
132
ingenium
ingenium
· MeterBUS-3C
Ref.
B
A
www.ingeniumsl.com
+12V
Ref.
B
www.ingeniumsl.com
A
Ref.
B
A
+12V
www.ingeniumsl.com
+12V
ingenium
N~L
1
N~L
2
· MeterBUS-4C
3
4
ingenium
www.ingeniumsl.com
energy efficiency
MeterBUS-1C ..............................................134
MeterBUS-3C ..............................................136
MeterBUS-4C ..............................................138
133
energy efficiency
· MeterBUS-1C
Device for electricity metering - 1 channel
To meter and control the power consumption of 1 physical channel and 3 virtual.
• Consumption meter of 1 single phase circuit
• 2 scenes and consumption threshold
for each channel programmable
Ch1
Ch2
Ch3
Ref.
• DIN rail mounting (2 modules)
á MeterBUS
3C
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
4-channel consumption meter (1 physical channel and 3 virtual channels).
Device measurements can be displayed in different Ingenium interfaces, as well as the FERMAX video intercoms and
Ingenium official Apps for iOS and Android.
Installation details
• In the upper terminals may be connected one current transformers ring.
• Upper termianls have the following order from left to right:
1st - Reference
2nd - Non connected (NC)
3rd - Non connected (NC)
4th - Channel 1
• Virtual channels requires a pulse counter connected to a Ingenium MECing input.
Technical Characteristics
134
Device
Reference
Voltage
Supply
Current
Consumption
Measurement
Channels
MeterBUS-1C
9–16V DC (BUS)
40mA (BUS)
1 physical + 3 virtual
ingenium
www.ingeniumsl.com
· MeterBUS-1C
Installation
Neutral
NC
NC
Phase
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
135
energy efficiency
· MeterBUS-3C
Device for electricity metering - 3 channels
To meter and control the power consumption of 3 physical channels and 1 virtual.
• Consumption meter up to 3 single phase circuits
• 2 scenes and consumption threshold
for each channel programmable
Ch1
Ch2
Ch3
Ref.
• DIN rail mounting (2 modules)
á MeterBUS
3C
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
4-channel consumption meter (3 physical channels and 1 virtual channel).
Device measurements can be displayed in different Ingenium interfaces, as well as the FERMAX video intercoms and
Ingenium official Apps for iOS and Android.
Installation details
• In the upper terminals may be connected one current transformers ring.
• Rings polarity must be respected, connecting the same side of all rings to the reference terminal. The other ring free
cable must be connected to the entry of the channel you want to link. Keeping this order is essential to the proper
functioning.
• Upper termianls have the following order from left to right:
1st - Reference
2nd - Channel 3
3rd - Channel 2
4th - Channel 1
• Virtual channel requires a pulse counter connected to a Ingenium MECing input.
Technical Characteristics
136
Device
Reference
Voltage
Supply
Current
Consumption
Measurement
Channels
MeterBUS-3C
9–16V DC (BUS)
40mA (BUS)
3 physical + 1 virtual
ingenium
www.ingeniumsl.com
· MeterBUS-3C
Installation
3 2 1
Ref.
Phase
Neutral
Phase
Ch3
Ch2
Ch1
Neutral
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
137
energy efficiency
· MeterBUS-4C
Device for electricity metering - 4 channels
To meter and control the power consumption of 4 physical channels.
• Consumption meter up to 4 single phase circuits
• Reading refresh rate of 5 seconds.
N~L
1
N~L
2
N~L
3
N~L
4
á MeterBUS-4C
• 2 scenes and consumption threshold
for each channel programmable
• DIN rail mounting (6 modules)
medidor de consumo elŽctrico
power consumption meter
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
N~L
1
N~L
2
N~L
3
N~L
4
Description
Electricity meter with 4 different physical channels (maximum 25A per channel), being possible to visualize them in compatible BUSing® interfaces, being able to set a consumption alarm per channel.
Possibility to visualize graphic of accumulated week consumption. It has 2 scenes, programmable from the Development
System (SIDE). One is executed when programmed consumption is exceeded, and the other one when programmed consumption is not more exceeded.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
MeterBUS-4C 9–16V DC (BUS) 75mA (BUS)
138
Measurement
Channels
Power/Channel
Range
Resolution
Consumption
Range
4 physical
0–5.8 KW
23 W
0–131000 kWh
ingenium
www.ingeniumsl.com
· MeterBUS-4C
Installation
From the protections
Phase
Neutral
BUS
Consumes
+12V
A
B
Ref.
Neutral
To charge
Cable
4x0.5mm
Phase
Lights
139
power supply
N~L
N~L
á BF22
á BF2
fuente
supply
á BF1-W
ingenium
ingenium
ingenium
www.ingeniumsl.com
www.ingeniumsl.com
· BF1-W
140
· BF2
Ref.
B
A
+12V
Ref.
B
A
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
· BF22
ingenium
www.ingeniumsl.com
power supply
BF1-W, BF2, BF22 .......................................142
141
power supply
· BF
[ BF1-W · BF2 · BF22 ]
BUSing® Power Supply
Allows supply power to BUSing® installation.
N~L
N~L
á BF22
á BF2
fuente
supply
ingenium
ingenium
www.ingeniumsl.com
B
A
+12V
Ref.
B
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
A
www.ingeniumsl.com
ingenium
Ref.
á BF1-W
· BF1-W
· BF2
· BF22
Power supply with integrated wireless BUSing® repeater. Universal
junction box mounting
Power supply suitable
for DIN rail mounting
(2 modules).
This supply has greater power than
the previous one. Mount on DIN
rail, 4 modules.
• Size: 55x55x28mm
• Size: DIN rail, 2 mod.
• Size: DIN rail, 4 modules.
Description
Continuous electrical supply devices for smart home installations.
They should be used to ensure that the installation is correctly supplied. The greater the number of existing devices, the
greater the number of supplies required depending on their consumption and power of the supplies.
Technical Characteristics
142
Device
Reference
Voltage
Supply
Output
Voltage
Power
Current
Given
BF1-W
BF2
BF22
85–265V AC
85–265V AC
85–265V AC
12V DC
12V DC
12V DC
5VA
5VA
12VA
≈ 410mA
≈ 410mA
≈ 1000mA
Has to be consider the voltage drop in the
cable (losses) depending on the length between them and the device type thereof.
The supply voltage on the bus must be between 10–16V DC for proper operation of
any BUSing® device.
ingenium
www.ingeniumsl.com
· BF
Installation
inal‡mbrico
wireless
á BF1-W
Ref.
B
A
+12V
Supply
85Ð250V AC
50~60Hz
Cable
4x0.5mm
Supply
85Ð250V AC
50~60Hz
á BF2
Gives
Supply
230V AC
50Hz
á BF22
Supply
Supply
BUS
BUS
Gives
Gives
+12V
A
B
Ref.
+12V
A
B
Ref.
Cable
4x0.5mm
Cable
4x0.5mm
143
software
ingenium
144
ingenium
www.ingeniumsl.com
software
SIDE .............................................................188
Sniffer Packet..............................................190
SC-PC ...........................................................192
SH-PC ...........................................................194
145
software
· SIDE
Configuration Software
To configure BUSing® installations.
The BUSing® Development System is used to configure BUSing® installations in residential locations, commercial areas,
and any major infraestructures.
This software is a powerful and intuitive tool for the installer/integrator who will be the responsible for programming
each device according to the funcionaliades required in the installation.
• Supports up to 65,500 node installations.
• Organizes the installation dividing into one main trunk and secondary branches where the nodes are distributed.
• Among its features includes individual addressing or programming of smart devices.
• Allows to configure the most advanced BUSing® visualization devices such as touch screens and Web servers.
• This software automatically updates via the Internet when new versions are available.
Correct use and training
For proper management and to take advantage of all its features, avoiding incidents and errors in configuring any installation, the installer/integrator, user of this software, should be credited with a BUSing® Certificate that guarantees a correct use. The BUSing® Certificates are obtained by taking training courses that INGENIUM organizes periodically.
· Sniffer Packet
Diagnostic Software
For the thorough control of a BUSing® installation.
This software can store, control, find and analyse the diagnostic of each BUSing® device connected in an installation,
and registers the data that circles through the BUS, state of the devices, outputs status at every instant, etc.
Specially indicated to carry out a complete and rapid control of an installation, being able to detect any error efficiently.
146
ingenium
www.ingeniumsl.com
BUSing® Development System
Installation module window where devices are selected.
Sniffer Packet
Installation diagnostic window.
ingenium
147
software
· SC-PC
Control Software
For the control of an installation through the PC.
The Control Software is devised to control BUSing home automation installations. It allows the programmer to configure
it through the Development System, being able to include up to 100 plans, those can be designed in 3D offering a very
graphic and intuitive appearance, or pictures offering a real visualization of the area being controlled, etc.
The PC control needs from a BPC device to enable the PC-installation communication. This control can also be done
through the internal net of the house (Ethernet) using the ETHBUS device.
This software has:
• Individual control of each of the devices through icons placed on the plan.
• It allows to implement up to 99 scenarios in a direct way.
• Year round timers of the implemented scenarios.
• Real presence simulation. The system records the actions being implemented in the house, once it is activated it will
simulate with the same timetable the presence of people as if they really were in the house, switching lights on and off,
opening/closing the blinds, etc.
• Control of technical alarms through icons and messages on the screen.
• Intrusion alarm control through keyboard.
· SH-PC
Control Software for Hotels
For hotels control and management.
The hotel control software allows control of the entire installation by different zones, for lighting, technical alarms, air
conditioning, stores, etc. It also includes the hotel management option trough access control with RFID technology
(intelligent cards).
It makes it possible to configure and customise the duration of stay of the client, allowing access to the correspondent
bedroom and the leisure areas, parking, etc. which have been linked; with the same card.
This software includes the following features:
• The access time of each user.
• Information regarding the presence or not of the user in the bedroom.
• Information regarding the need of the room to be cleaned, or if it has been cleaned already and by who.
• It can also be marked out if the room needs to be repaired, and it indicates if it has been repaired and by who.
This control software requires a BPC-SC device for communication between the PC and the installation.
148
ingenium
www.ingeniumsl.com
Control Software
Window including a plan with the home automation of a house and its devices.
149
apps
· ingenium aSC
· ingenium iSC
· ingenium sTV
150
ingenium
www.ingeniumsl.com
apps
Ingenium aSC..............................................152
Ingenium iSC ...............................................152
Ingenium sTV ..............................................152
151
apps
Ingenium applications allow to control BUSing® installations from different devices and operating systems.
They have an intuitive interface through control icons
on images or plans of the installation.
Our applications are in constant development and updating,
ensuring compatibility with the latest versions of devices and
operating systems.
Among its features, they perform:
• Lighting control
• Adjusting the light intensity (dimming)
• Thermostat control
N~L
á ETHBUS3
Servidor Web
Web Server
ingenium
Ref.
B
2
A
+12V
Ref.
B
1
A
+12V
www.ingeniumsl.com
Ethernet
BUSing® server
• Emergency light control
Require a compatible
server* in the installation
that will gateway to the
control elements.
• Blinds management
* An ETHBUS3 or a screen with
integrated server can be used.
· Ingenium aSC
• Monitoring different types of sensors
• Monitoring power consumption
• IP cameras visualization
• Push notifications of technical alarm alerts and
news or updates (Ingenium aSC and Ingenium iSC)
Android app
To control BUSing® installations from devices running Google Android operating system.
It supports a wide range of devices such as phones, tablets, smart boxes and multimedia equipment.
Available for download from Google Play:
QR URL >
https://play.google.com/store/apps/details?id=com.ingenium.ingeniumasc
· Ingenium iSC
iOS app
To control BUSing® installations from devices running Apple iOS operating system.
This app works on iPhone, iPad and iPod touch.
Available for download from Apple App Store:
https://itunes.apple.com/en/app/ingenium-isc/id511853632
· Ingenium sTV
Samsung SMART TV app
To control BUSing® installations from a Samsung television with SMART TV system.
It supports a wide range of TVs with Samsung SMART TV system.
It has an interface designed for navigation through the TV remote control.
152
QR URL >
ingenium
www.ingeniumsl.com
á Ingenium aSC
á Ingenium iSC
á Ingenium sTV
153
154
Ref.
B
A
+12V
Ref.
B
A
+12V
· C-BUS
Access
Micro
Ref.
IN8 Dig
Ref.
IN7 Dig
Ref.
IN6 Dig
IN8 Anl
IN7 Anl
IN6 Anl
IN5 Anl
IN4 Anl
IN3 Anl
IN2 Anl
IN1 Anl
Ref. Anl
Ref.
· BPC-USB
IN5 Dig
Z2 L.P.
Ref.
IN4 Dig
Ref.
IN3 Dig
Ref.
S2 Anl.
Z1 L.P.
Ref.
IN2 Dig
Ref.
IN1 Dig
Ref.
+12V
S1 Anl.
www.ingeniumsl.com
www.ingeniumsl.com
ingenium
á BPC-USBW
ingenium
á BPC-USB
programming
< other devices
· BPC-USBW
á C-BUS
equipo programable en C
C programming device
ingenium
www.ingeniumsl.com
ingenium
www.ingeniumsl.com
other devices
programming
BPC-USB, BPC-USBW .................................156
C-BUS ...........................................................158
155
programming
· BPC-USB
< other devices
[ BPC-USB · BPC-USBW ]
Gateway USB - BUSing®
www.ingeniumsl.com
ingenium
á BPC-USBW
ingenium
á BPC-USB
www.ingeniumsl.com
Allows connection of a PC with a BUSing® installation.
· BPC-USB
· BPC-USBW
Connects wired BUS devices
to the PC with the USB Port.
Connects wireless BUS devices
to the PC with the USB Port.
• Size: 65x25x5mm
• Size: 88x25x5mm
Description
These devices are PC to BUSing® gateways, they make the connection with BUS devices allowing their programming by a
PC (USB port) using the BUSing ® Development System (SIDE).
The BPC-USBW wireless version, allows you to connect with BUSing® wireless devices. There are up to 13 channels of
radio communication to avoid interference from one installation to another. It is possible to change the communication
channel of the wireless devices using the BPC-USBW.
Configuration using Development System (SIDE)
• Select the COM port communications.
• Setting the communication speed (baud).
• Channel selection radio communications for wireless BUSing® (13 channels available).
Technical Characteristics
Device
Reference
Voltage
Supply
Max. Recommended
Distance
BPC-USB
BPC-USBW
By USB port
By USB port
–
15m*
* maximum recommended distance to closest radio device (repeater)
156
ingenium
www.ingeniumsl.com
· BPC-USB
Installation
USB Port
Connection
á BPC-USB
A
B
USB Port
Connection
á BPC-USBW
inal‡mbrico
wireless
Cable
4x0.5mm
157
programming
< other devices
· C-BUS
Device to program in C language
Allows to develop programs in C language to control BUSing® devices.
• Digital inputs low voltage (SELV) referred to the BUS ground
IN8 Anl
IN7 Anl
IN6 Anl
IN5 Anl
IN4 Anl
IN3 Anl
Ref. Anl
Z2 L.P.
IN2 Anl
Z1 L.P.
IN1 Anl
Ref.
S2 Anl.
Ref.
S1 Anl.
+12V
• 2 digital outputs with potential free
relay switch capacity of 10A
á C-BUS
• 8 analog inputs 0–10V DC
• 2 analog outputs 0–10V DC
equipo programable en C
C programming device
• GNU Compiler available
ingenium
• Free Development Environment
Ref.
IN8 Dig
Ref.
IN7 Dig
Ref.
IN6 Dig
Ref.
IN5 Dig
Ref.
IN4 Dig
Ref.
IN3 Dig
Ref.
IN2 Dig
Ref.
Access
Micro
IN1 Dig
Ref.
B
A
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
• ISP programming of the device microcontroller – ATMEGA 128
• DIN rail mounted (9 modules)
Description
This device allows to develop C programming to control INGENIUM devices through it.
By using reserved programming libraries, it is possible to act over any of the BUSing®devices connected in the same installation, as well as connecting any type of analog sensor such as: wind sensor, barometer, etc; using the available inputs. The digital and analog inputs of the device can be controlled through the developed C program.
The options for the implementation of more or less complex projects depend on the ability of each user's programming
and his mastery of the C language.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
C-BUS
9–16V DC (BUS)
100mA (BUS) 8
* free potential outputs
158
Analogic
Inputs
Analogic
Outputs
Digital
Inputs
Analogic
Outputs
Switching capacity
of each digital output
2
8
2*
10A
ingenium
www.ingeniumsl.com
· C-BUS
Installation
Phase
Neutral
220V Electrovalve
With control signal
0Ð10V DC
Blind/
Curtain
Motor
Analogic
Sensor
IN8 Anl
REF Anl
LP-2
LP-1
S1 Anl
S2 Anl
Ref.
+12
Ref.
0-10V DC
BUS2
BUS1
IN1 Dig
Ref.
IN2 Dig
Ref.
Microprocessor
Consumes
BUS 2
+12V > Blue
Ref. > White
Signal > Yellow
+12V
A
B
Ref.
Cable
4x0.5mm
Consumes
BUS 1
+12V
A
B
Ref.
Cable
4x0.5mm
PC connection
Via USB port
+12V
á AneBUS
á SenLluv
Wind sensor
Rain sensor
Ref.
159
< other devices
á BW
á BW
ingenium
á BW
ingenium
www.ingeniumsl.com
ingenium
www.ingeniumsl.com
· BW
www.ingeniumsl.com
á ROUting
B
ingenium
· ROUTing
B
2
Ref.
www.ingeniumsl.com
Ref.
B
A
2
+12V
www.ingeniumsl.com
+12V
A
á REPing
ingenium
· REPing
+12V
A
B
Ref.
ingenium
www.ingeniumsl.com
á EndBUS
· EndBUS
160
1
Ref.
+12V
B
A
1
· BW-FERMAX
Ref.
+12V
· BW-LA
A
communication
ingenium
www.ingeniumsl.com
other devices
communication
BW, BW-LA, BW-FERMAX ............................162
ROUTing .......................................................164
REPing ..........................................................164
EndBUS ........................................................166
161
communication
· BW
< other devices
[ BW · BW-LA · BW-FERMAX ]
Gateway wired BUSing® - wireless BUSing®
Allows communication between teams BUSing® wiring and equipment BUSing® wireless.
• Gateway connection between wired
BUSing® and wireless BUSing®
• Flush mounting in universal mechanism box
á BW
• Size: 55x55x15mm
ingenium
www.ingeniumsl.com
· BW
· BW-LA
Bsic Version.
Long Range Version.
· BW-FERMAX
Adapted version for mounting with an FERMAX Iloft-BUSing video entry-phone
Description
This device allows the cable connection between devices with wireless devices.
These devices perform bidirectional conversion of orders shipped to different installation devices where there is a mixed
connection with wired and wireless devices.
There are up to 13 channels of radio communication to avoid interference from one installation to another.
The BW-FERMAX version, adapted for mounting along with video door-BUSing iLoft FERMAX®, is available for up to 255
IDs or indicators of identity besides the 13 programmable channels.
Configuration using Development System (SIDE)
• Radio communications channel (13 channels available).
• Identifier or ID (255 IDs available) in the case of BW-FERMAX version.
Technical Characteristics
Device
Reference
Voltage
Supply
Power
Consumption
Max. Recommended
Distance
BW / BW-FERMAX*
BW-LA
9–16V DC (BUS)
9–16V DC (BUS)
60mA (BUS)
60mA (BUS)
15m**
150m**
* for use exclusively with FERMAX iLoft- BUSing® video intercom
** maximum recommended distance to closest radio device (repeater)
162
ingenium
www.ingeniumsl.com
· BW
Installation
Consumes
Cable
4x0.5mm
+12V
A
B
Ref.
inal‡mbrico
wireless
163
communication
< other devices
· ROUTing
BUSing® Line Coupler
Allows to extend installations (up to 65,536 nodes)
• Coupling between main and secondary lines
• Selective management of traffic between secondary lines
B
1
Ref.
A
+12V
• 2 BUSing® connections: 1 – principal line / 2 – secondary line
á ROUting
Description
ingenium
A
B
2
Ref.
www.ingeniumsl.com
+12V
• DIN rail mounting (2 modules)
The ROUTing is a device that attaches BUS secondary lines to a main line and allows selective
filtering of traffic to some devices.
The division of an installation in primary and secondary lines is very advantageous because it
allows separating data traffic local to each secondary line, without affecting the data sent to
other lines, furthermore allowing that in case of failure of one of them, only affected this line,
leaving the rest perfectly communicated.
Its use is recommended in installations with more than 150 nodes and essential in installations with more than 255 nodes.
Configuration using Development System (SIDE)
• Select the communication speed of main trunk (baud).
• Configuring the selective filtering of traffic nodes.
· REPing
BUSing® Signal Repeater
Allows to prolong bus distances and the number of connected devices.
• Signal Repeater with 2 BUSing® connections
1
Ref.
B
A
+12V
• DIN rail mounting (2 modules)
Description
The REPing is a device that acts as a signal repeater, relaying data packets received, to achieve
greater cabling distances and allow a greater number of connecting devices to a single line.
á REPing
ingenium
Should consider the voltage drop in the cable for power supplies if needed.
Ref.
B
2
A
+12V
www.ingeniumsl.com
Technical Characteristics
Device
Reference
Voltage
Supply
ROUTing / REPing 9–16V DC (BUS)
164
Current
Consumption
100mA (BUS)
ingenium
www.ingeniumsl.com
· ROUTing · REPing
Basic Installation
See examples of extended and prolonged installations:
Pages 192 y 193
Cable
4x0.5mm
+12V
A
B
Ref.
BUS
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
165
communication
< other devices
· EndBUS
Active bus terminator
To check, checking and improving communications on the bus.
• Active Terminator with monitoring bus activity
• 2 green and red LED indicators
+12V
A
B
Ref.
• Installed in distribution boxes
• Size: 42x42x15mm
ingenium
www.ingeniumsl.com
á EndBUS
Description
The EndBUS is a device that connects to the two end that the bus line must possess for completion of this, allowing its
polarization and therefore improving communications besides activity monitoring.
It allows detection of errors in communications by registering collisions, lack of ACKs, corrupted packages, etc. You can
read these records using a PC with BUSing® Development System (SIDE).
Parameters diagnosed
• PACKETS (Packets): Displays the total number of packets sent by the BUS.
• ACKs (Acknowledgements or confirmations): Shows the number of confirmation packets received.
• COLS (Collision): Displays the number of collisions on the bus. Conflict in sending packets.
• NO CHKS (No Checksum): Shows the number of packets corrupted. It is a form of redundancy.
• NO FRAME: Shows the number of characters received outside a package.
Technical Characteristics
166
Device
Reference
Voltage
Supply
Current
Consumption
EndBUS
9–16V DC (BUS)
25mA (BUS)
ingenium
www.ingeniumsl.com
· EndBUS
Installation
Consumes
Cable
4x0.5mm
+12V
A
B
Ref.
LEDs state
Red: loss or collisions
when sending telegrams.
Green: satisfactory
telegrams sending.
167
TX
RX
< other devices
Ref.
integrations / others
á RS232
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
· RS232
Alimentaci—n/Supply
3V CR2032
á ULing
á RTC
reloj
clock
ingenium
ingenium
· ULing
Ref.
B
A
+12V
www.ingeniumsl.com
Ref.
B
A
+12V
www.ingeniumsl.com
· RTC
á VeluxBUS
+24
Ref.
GND
B
OUT 1
A
OUT 2
+12V
ingenium
www.ingeniumsl.com
· VeluxBUS
N~L
+
Ð
+
Ð
Prog.
á BUSing-KNX
pasarela BUSing-KNX
BUSing-KNX gateway
ingenium
Ref.
B
2
A
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
1
· BUSing-KNX
168
Ethernet
ingenium
www.ingeniumsl.com
other devices
integrations / others
RS232 ..........................................................170
ULing ............................................................172
RTC ...............................................................174
VeluxBUS .....................................................176
BUSing-KNX .................................................178
169
integrations / others
< other devices
· RS232
Gateway RS232 - BUSing®
Allows to control devices with RS-232 interface from a BUSing® installation.
Ref.
TX
RX
• DIN rail mounted (2 modules)
á RS232
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Description
The RS232 is a gateway between BUSing® and RS232 serial port, used to control devices with RS232 interface. This device is RS232 Master.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
RS232*
9–16V DC (BUS)
60mA (BUS)
* previous reference: BPC232
170
ingenium
www.ingeniumsl.com
· RS232
Installation
DB9 female connection
Pin 2: TX, Pin 3: RX, Pin 5: Ref.
1 2 3 4 5
9 8 7 6
Connection to RS232 port
Maximum distance: 30m
5:Ref.
3:RX
2:TX
á RS232
RS232
Supply
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
171
integrations / others
< other devices
· ULing
Logical drive BUSing®
Allows performing various logical operations.
• Logic type AND, OR and XOR operations
• 3-channel operation up to 48 operands
• 2 programmable BUS events per channel of operation
• DIN rail mounting (2 modules)
á ULing
Description
ingenium
The Uling is a device that allows the type logical operations AND, OR and XOR.
It has 3 separated logical channels performing by allowing each logical operation, with a maximum of 48 operands, being possible to program up to 60 BUS events for activation (true logic
operation) and off (false logic operation) of each channel.
Ref.
B
A
+12V
www.ingeniumsl.com
Logical operations are performed on records or internal bits of equipment to which you can
name. To modify the status of these bits Uling should receive activation or deactivation orders
of the involved BUSing® devices.
Includes 6 green and red LEDS to visually indicate whether the logical operation is true or false
in each channel, glowing green or red respectively (from left to right: channel 1 to 3).
Application Example
Technical Characteristics
172
Device
Reference
Voltage
Supply
Current
Consumption
• Enabling or disabling the recirculation pump the boiler or chiller,
in a climate installation with different areas controlled by thermostats.
ULing
9–16V DC (BUS)
60mA (BUS)
• On/off alarm control in a multiple alarm installation zones available.
ingenium
www.ingeniumsl.com
· ULing
Installation
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
173
integrations / others
< other devices
· RTC
Real time BUSing® clock
Allows you to synchronize the time on devices in an installation.
• Keeping the time in case of power failure
• Automatic and periodically synchronization through the BUS
• DIN rail mounting (2 modules)
Alimentaci—n/Supply
3V CR2032
Description
á RTC
reloj
clock
Device responsible for maintaining the system time to a power failure in the installation by synchronizing all BUSing® devices that need so when recovered.
ingenium
Thanks to this device time stored on any screen are not lost by power failures.
Ref.
B
A
+12V
www.ingeniumsl.com
It is powered by BUS and if there is any power failure, time is kept by a CR2032 (3V). It is recommended to check and / or replace the device battery at least every five years.
Technical Characteristics
Device
Reference
Voltage
Supply
Current
Consumption
RTC
9–16V DC (BUS)* 60mA (BUS)
* additional power lithium battery CR2032 (3V)
174
The date and time settings is done by configuring the installations touch screens. Each amendment is collected by the
PSTN and the other automatically overturned screens, thus
no need to set the date one at a time in each screen.
Also, for safety, the RTC resets itself every 30 minutes and
date and time is saved in all screens regardless power is
available or not.
ingenium
www.ingeniumsl.com
· RTC
Installation
RTC maintenance
Requires CR2032 battery in
order to maintain the time in
case of power cut.
CR2032
3V
Must check and/or
replace the batteries at
least once every five years.
BUS
Consumes
+12V
A
B
Ref.
Cable
4x0.5mm
175
integrations / others
< other devices
· VeluxBUS
Device to control Velux® type windows
BUSing® actuator with 1 output to control 24V DC motors.
• 1 output to control a motor step by step including reversing mode
á VeluxBUS
• Junction box mounting
+24
Ref.
GND
B
OUT 1
A
OUT 2
• Size: 70x50x20mm
+12V
ingenium
www.ingeniumsl.com
Description
This device allows to control motors step by step in VELUX type windows.
It has an output for connecting the windows motor, which reverses the direction of rotation of the motor according to the
operation to be performed (opening or closing).
As any of the other actuators it can be controlled from any interface on the system such as touch screens, pushbuttons,
PC, remote control, etc.
Technical Characteristics
176
Device
Reference
Voltage
Supply
Current
Consumption
No.
Outputs
Output
Voltage
Switching
Capacity
VeluxBUS
9–16V DC (BUS)
40mA (BUS)
1
24V DC
1A
ingenium
www.ingeniumsl.com
· VeluxBUS
Installation
+24V
Ref.
Cable
4x0.5mm
OUT 1
OUT 2
BUS
+24V
GND
Ref.
B
A
+12V
Consumes
177
integrations / others
< other devices
· BUSing-KNX
Gateway BUSing® - KNX®
Allows connection of BUSing® devices with native KNX® devices.
• Programming using the Development System (SIDE) or ETS
• DIN rail mounting (6 modules)
N~L
+
Ð
+
Ð
Prog.
á BUSing-KNX
pasarela BUSing-KNX
BUSing-KNX gateway
ingenium
Ethernet
Ref.
B
2
A
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
1
Description
Gateway to interconnect an installation with a KNX BUSing®.
It offers the following two options: integrate a device or a KNX installation in a BUSing® installation by using the Development System (SIDE) and integrating KNX software development using the ETS project.
The side gateway BUSing® programming is done by microSD card by connecting KNX by the connection to KNX bus and
the programming button.
Technical Characteristics
Device
Reference
Voltage
Supply
Max. Power
Consumption
BUSing-KNX 230V AC 2.8VA
178
No. of
Emulable Devices
500
Programming
Card
Micro SD
FAT16 - 2GB (max.)
ingenium
www.ingeniumsl.com
· BUSing-KNX
Basic Installation
See KNX integration example:
page 202
Neutral
KNX Bus
30V DC
Button and Led
Programming
Phase
Supply
230V AC ~ 50Hz
Optional
110V AC ~ 60Hz
Supply
Microprocessor
BUS 1
BUS 2
Consumes
BUS 1 wiring
For conventional
installations, use
this BUS only.
+12V
A
B
Ref.
Gives
BUS 2 wiring
Additional BUS that
can supply power.
MicroSD memory card
Cable
4x0.5mm
To upload data from the SIDE.
+12V
A
B
Ref.
179
accessories
< other devices
12 V 2.2 Ah / 24 HR
· Sirena
· Batería
· SenLluv
· AneBUS
ingenium
www.ingeniumsl.com
+12V
A
B
Ref.
+12V
A
B
Ref.
+12V
A
B
Ref.
Ref.
B
A
+12V
á ConectorT
· Cable BUSing®
180
· ConectorT
+12V
A
B
Ref.
ingenium
www.ingeniumsl.com
á ConectorT
Ref.
B
A
+12V
ingenium
www.ingeniumsl.com
other devices
accessories
Batería, Sirena ............................................182
SenLluv, AneBUS ........................................184
Cable BUSing®, ConectorT .......................186
181
accessories
< other devices
· Battery
Sealed Lead Battery
Allows supply of the alarm smartbox in case of power failure.
• Battery for alarm
smartbox connection
(reference: KCtr)
• Supply: 12V DC
• Capacity: 2.2Ah
• Size: 95x55x60mm
12 V 2.2 Ah / 24 HR
Description
• Installed to maintain the operation of the KCtr smartbox and sensors
connected to the bus (BUSing® 2 connector) in case of power-cuts. As
programmed, the installation allows operating the power failure alarm.
Sealed lead acid battery specially
indicated for connection to the KCtr
technical alarm smartbox.
· Siren
Sonorous and Luminous Siren
For alarm alerts.
• Siren for alarm smartbox connection (reference: KCtr)
• Supply: 9–16V DC (BUS)
• Consumption:
95mA (only light signal)
180mA (light + sound signal)
• Sound level: 115dBa (1 meter)
• Frequency: 2.4Khz to 4.2Khz
• Surface mount, screwed to wall or ceiling
• Size: 70x120x45mm
Description
Siren specially indicated to connect to the KCtr smartbox; includes an
audible and luminous alarm alert.
• Operation is already predefined in the smartbox to make the warning in
case of intrusion or fire at intermittent intervals of 1 minute (by legislation
this setting can not be changed).
182
ingenium
www.ingeniumsl.com
· Battery
Installation
See KCtr installation diagrams
> Pages 31 to 35
Ð+
Red
+
Ð
Connection to KCtr
Battery (Bat.)
!
VERY IMPORTANT
Respect polarity
· Siren
Installation
+12V
Ref.
Brown-White
Wiring
The siren have 3 wires:
á Brown-White
á Red-White (Option 1)
á White (Option 2)
Connection options
Use only ONE wire depending on
the option selected.
1. Red-White
Sound and light signal
2. White
Only light signal
Connection to KCtr
S3: Siren.
See KCtr installation diagrams
> Page 33
183
accessories
< other devices
· SenLluv
Rain Sensor
Allows rain detection.
• Outside surface mount
• Supply: 9–16V DC (BUS)
• Size: 60x117x21mm
Description
Rain sensor used for energy saving and comfort applications.
• It is a contact type sensor able to be connected to any input of any
device (actuators, MECing, etc.) to carry out programmable actions.
• Used with the C-BUS device allows complex control of the installation
to rain detection, for example for irrigation control.
· AneBUS
Anemometer
Allows measurement of the wind speed.
• Outside surface mount
• Supply: 9–16V DC (BUS)
• Size: Ø125x94mm
Description
Wind sensor devised for energy saving and comfort
applications.
• This sensor provides a pulse per revolution, making it
possible to connect it to a digital input of the C-BUS device
for complex control installation based on wind speed.
184
ingenium
www.ingeniumsl.com
· SenLluv
Installation
+12V > Blue
Ref. > White
Signal > Yellow
C-BUS connection
See C-BUS diagram > Page 159
Weather sensors installation
· AneBUS
Installation
+12
IN1 Dig
Ref.
Ref.
C-BUS connection
Pulse signal by each turn
See C-BUS diagram > Page 159
Weather sensors installation
185
accessories
< other devices
· Cable BUSing®
Cable for connecting BUSing® data bus
Allows devices communication and power supply.
• Flexible and shielded cable 2x0.5mm + 4x0.22mm
halogen free
• Operating temperature: –15 to +70ºC
• Fire behaviour: no flame retardant, fire retardant, halogen
free, low emission of opaque smoke and fumes.
• Outer diameter: 6.20mm (approx.)
Description
BUS cable supplied by Ingenium has 6 wires
(2x0.50mm + 4x0.22mm):
• 4 wires can be used for power supply
and two for data.
• Of the 4 used for supply, 2 are for +12 V DC and the
other 2 for reference or mass.
The maximum distance supported by the communication
bus between two devices is approximately 300 meters. It
should consider the voltage drop in the cable for power supplies if needed. The maximum bus distance should not exceed 1000 meters.
Pipeline of low voltage lines (bus and inputs) should be in a
different hose than supply (230V AC) and outputs (according
to RBT).
· ConnectorT
Connector for 3 BUSing® connections
Allows to make bus T joins clean and safe.
· Prepared for surface screw mounting
+12V
A
B
Ref.
+12V
A
B
Ref.
· 2 versions: with and without micro switch
· Size: 42x42x15mm
+12V
A
B
Ref.
ingenium
www.ingeniumsl.com
á ConectorT
Ref.
B
A
+12V
+12V
A
B
Ref.
ingenium
www.ingeniumsl.com
Ref.
B
A
+12V
á ConectorT
Description
The ConnectorT is a device that has 3 connections
BUSing® for crimp connnectors interconnected.
186
There is available a version that has a micro-connectors for
BUSing® cables supplied with Ingenium screens.
ingenium
www.ingeniumsl.com
· Cable BUSing®
Cable voltage
Installation
Red +12V
It is important to follow a colours code
for the BUS.
The BUSing® protocol bus line has 4 wires
of which two are used for power and two
for data.
Yellow
A
Green
B
Black
Ref
V+Ð = 10Ð16Vcc
VAÐRef = 2.8Vcc aprox. (> VBÐRef)
VBÐRef = 2.6Vcc aprox. (< VAÐRef)
Screw terminal
Cable BUSing¨
Red
S=0.50mm2
+12V
Red
S=0.22mm2
+12V
Yellow
S=0.22mm2
A
Green
S=0.22mm2
B
Black
S=0.22mm2
Ref
Black
S=0.50mm2
Ref
Crimp connector
Cable BUSing¨
Red
S=0.22mm2
Yellow
S=0.22mm2
A
Green
S=0.22mm2
B
Balack
S=0.22mm2
Ref
+12V
· ConnectorT
Installation
Cable BUSing¨ with microconnectors
Ingenium screens connection.
+12V
A
B
Ref.
Ref.
B
A
+12V
Cable
4x0.5mm
Cable
4x0.5mm
187
188
ingenium
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topology & connection
Conventional, Centralised Installation .....190
Conventional, Distributed Installation .....191
Extended Installation .................................192
Prolonged Installation ................................193
Mixed Installation .......................................194
Clima with Touch Screen Installation.......195
189
topology & connection
Conventional, Centralised Installation
This type of installation centralises all the BUSing® devices (actuators: 6E6S, 4E4S, 2S300, etc) in a general electrical
board. Push-buttons, conventional switches or other control devices are connected to the inputs of the devices in the
general electrical board. The outputs are wired to the lighting, curtains etc, which they are going to control. You can add
other equipment to the installation through BUSing®, such as: MECBUS, MECing o TECBUS.
Phase
Neutral
1
2
Blind/Curtain
Motor
Lights
M
Supply more devices
á 6E6S
N~L
á 6E6S
N~L
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
ingenium
BUS Cable
1
2
Push-Buttons
for lights
190
IN 6
IN 5
IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
A
+12V
IN 6
IN 5
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IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
www.ingeniumsl.com
A
Additional
Devices
actuador
actuator
ingenium
+12V
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
BUS to other devices
1
2
Push-Buttons
for blinds or curtains
Centalised General
Central Board
ingenium
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Conventional, Distributed Installation
In this kind of installation, the devices used are not DIN-rail type. They are much smaller (a large amount of cabling and
ducting is saved) and are installed in distribution boxes.
Phase
Neutral
2
Blind/Curtain
Motor
M
Distribution Box
Distribution Box
á 2E2S
á 2E2S
á 2E2S
á 2E2S
+12V
IN1
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IN2
+12V
Z2
A
ingenium
Z1
Z1
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BUS Cable
2
1
Push-Buttons
for lights
A
ingenium
B
Ref.
IN1
Z2
IN2
1
Lights
B
Ref.
BUS to other devices
2
1
Push-Buttons
for blinds or curtains
191
topology & connection
Extended Installation
This type of installation is recommended for oversized setups. The installation is divided into one main trunk and
secondary branches.
Main TrunkÊÊ-ÊÊMax 255 nodes
Secondary Branches
á 6E6S
á 6E6S
á ROUTing
Lighting
N~L
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
ingenium
IN 6
IN 5
IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
+12V
IN 6
IN 5
IN 4
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IN 3
Ref.
IN 2
IN 1
Ref.
B
A
Ref.
B
A
+12V
ingenium
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+12V
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2
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
ingenium
A
B
A
N~L
Ref.
+12V
Max 255 nodes
1
á ROUting
á 2S300
á ROUTing
Regulation
B
A
1
L ~N
Ref.
+12V
Max 255 nodes
L ~N
1
N~L
2
á 2S300
á ROUting
regulador 2
dimmer 2
ingenium
ingenium
Ref.
B
A
www.ingeniumsl.com
Ref.
B
A
+12V
2
+12V
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á 6E6S
á 6E6S
á ROUTing
Blinds/Curtains
N~L
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
á 6E6S
actuador
actuator
actuador
actuator
ingenium
ingenium
á ETHBUS3
N~L
Smart Control from PC
connection via ETHERNET port
á ETHBUS3
Servidor Web
Web Server
ingenium
192
Ref.
B
2
A
+12V
Ref.
B
1
A
+12V
www.ingeniumsl.com
Ethernet
IN 6
IN 5
IN 4
IN 3
Ref.
IN 2
B
+12V
IN 6
IN 5
www.ingeniumsl.com
IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
A
+12V
www.ingeniumsl.com
Ref.
B
A
+12V
www.ingeniumsl.com
IN 1
ingenium
2
Z1 Z2 Z3 Z4 Z5 Z6
Ref.
á ROUting
A
B
A
Ref.
+12V
Max 255 nodes
1
N~L
ingenium
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Prolonged Installation
This is done by placing a REPing which acts as a BUS repeater to obtain greater distances between two trunks in an installation.
á 6E6S
N~L
á 6E6S
N~L
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
ingenium
ingenium
IN 6
IN 5
IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
A
+12V
IN 6
IN 5
www.ingeniumsl.com
IN 4
IN 3
IN 2
Ref.
IN 1
B
A
Ref.
www.ingeniumsl.com
+12V
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
B
A
1
Ref.
+12V
á REPing
á REPing
ingenium
Ref.
B
2
á 6E6S
N~L
á 6E6S
N~L
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
ingenium
ingenium
IN 6
IN 5
IN 4
IN 3
IN 2
Ref.
IN 1
B
A
+12V
IN 6
IN 5
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IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
A
www.ingeniumsl.com
+12V
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
Ref.
A
+12V
www.ingeniumsl.com
193
topology & connection
Mixed Installation
This installation is a combitation of wired BUSing® devices and other with wireless BUSing®.
A B-W gateway is used for communication between the cable BUS and the wireless BUS.
Phase
Neutral
1
Blind/
Curtain M
Motor
2
Lights
inal‡mbrico
wireless
á 2E2S-PW
á 2E2S-PW
Z2
Z1
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IN1
L
ingenium
120V-250V
(50/60Hz)
IN2
N
á 6E6S
N~L
Z1 Z2 Z3 Z4 Z5 Z6
á 6E6S
actuador
actuator
ingenium
IN 6
IN 5
IN 4
IN 3
IN 1
IN 2
Ref.
B
A
+12V
www.ingeniumsl.com
Ref.
á MECing-W
+
Alimentaci—n/Supply: 3V CR2450
Supply
By Battery
ingenium
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In1
In2
In3
Ref.
BUS Cable
BUS to other devices
á MECing-W
á BW
á BW
ingenium
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1
2
Push-Buttons
for lights
194
1
inal‡mbrico
wireless
2
Push-Buttons
for blinds or curtains
inal‡mbrico
wireless
ingenium
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Clima with Touch Screen Installation
In this installation, a Smart Touch touch screen is used to control three climate zones. The screen acts by BUSing®on
the electrovalves using three outputs of a 4E4S. A BF2 supply provides the power required to the BUS. The temperature
is measured by STIBUS sensors placed in each zone. The touch screen includes an internal sensor that monitors the
temperature of the area where it is located.
Phase
Neutral
á Smart Touch
Ev1
Ev2
Ev3
Electrovalves
á BF2
á 4E4S
á Conector T
N~L
N~L
Z1
Z2
Z3
Z4
á 4E4S
á BF2
actuador
actuator
ingenium
ingenium
IN 4
IN 3
IN 2
Ref.
IN 1
Ref.
B
A
www.ingeniumsl.com
+12V
Ref.
B
A
+12V
www.ingeniumsl.com
á STIBUS
2 units
195
196
ingenium
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integration schemes
SoniBUS - Sonelco .....................................198
Fermax iLOFT - BUSing®............................199
Fermax SMILE - BUSing® ..........................200
Fermax VIVO - BUSing® .............................201
KNX - BUSing®............................................202
DALI - BUSing® ...........................................203
197
integration schemes
SoniBUS - SONELCO Integration
In this page we can see two integration examples of SoniBUS with SONELCO. The first one corresponds to a main module controlling only one audio source installation, the second one corresponds to a module installation being able to add
up to four modules.
2
1
Ref.
3
OUT
4
Ref.
12V
á SoniBUS
á SoniBUS
control audio
audio control
ingenium
Ref.
B
A
+12V
www.ingeniumsl.com
Up to 4 modules
One audio source
per module
Set in MONO position
2
control audio
audio control
ingenium
198
Ref.
B
A
+12V
www.ingeniumsl.com
1
Ref.
3
á SoniBUS
OUT
4
Ref.
12V
á SoniBUS
ingenium
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Fermax iLOFT - BUSing® Integration
This page shows an example of a domotic integration of a Fermax iLoft-BUSing®video door intercom in an installation to
allow the management of technical alarms and thermostat control. Communication between the video door intercom and
the BUSing® installation is done wirelessly through a BW receiver. For more information about the video door intercom installation wiring, consult the manufacturer documentation (FERMAX).
Phase
Neutral
á Battery
+
Ð
12 V 2.2 Ah / 24 HR
á BW-FERMAX
á KCtr
á BF2
á BW-FERMAX
N~L
N~L
Ð +
BOILER
EVGAS
EVAGUA
SIREN
+ Ð
BAT.
4
5
6
3
AUD.
OUT
ingenium
IN
www.ingeniumsl.com
TEL.
á KCtr
á BF2
Centralita Alarmas
Alarm Smartbox
ingenium
ingenium
1
á DTV
inal‡mbrico
wireless
á SinBUS
Ref.
B
A
+12V
2
PRG OFF KEY
Ref.
B
A
+12V
Ref.
4
Intr.
Ref.
3
Ref.
6
+12V
SUPPLY
Ref.
Ref.
B
Fire
A
+12V
Ref.
B
A
+12V
Ref.
B
A
+12V
5
Water
www.ingeniumsl.com
www.ingeniumsl.com
á SIn-BUS
á SIn-BUS
ingenium
ingenium
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á STIBUS
www.ingeniumsl.com
199
integration schemes
Fermax SMILE - BUSing® Integration
This page shows an example of a domotic integration of a Fermax SMILE video door intercom in a BUSing® installation
to allow the management of technical alarms and thermostat control. Communication between the video intercom and
the BUSing® installation is done wirelessly through a BW receiver. For more information about the door video intercom installation wiring, consult the manufacturer documentation (FERMAX).
.
Phase
Neutral
á Battery
+
Ð
12 V 2.2 Ah / 24 HR
á KCtr
á BF2
á BW-FERMAX
á BW-FERMAX
N~L
N~L
Ð +
BOILER
EVGAS
EVAGUA
SIREN
+ Ð
BAT.
4
5
6
3
AUD.
OUT
IN
ingenium
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TEL.
á KCtr
á BF2
Centralita Alarmas
Alarm Smartbox
ingenium
ingenium
Ref.
4
Intr.
Ref.
3
Ref.
6
+12V
SUPPLY
Ref.
Ref.
Fire
B
A
+12V
Ref.
B
A
+12V
Ref.
B
A
5
Water
www.ingeniumsl.com
www.ingeniumsl.com
+12V
á DTV-BUS
2
1
PRG OFF KEY
á SIn-BUS
á SIn-BUS
ingenium
ingenium
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200
Ref.
B
A
+12V
á SinBUS
Ref.
B
A
+12V
inal‡mbrico
wireless
www.ingeniumsl.com
á STIBUS
ingenium
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Fermax VIVO - BUSing® Integration
This page shows a domotic integration of a Fermax VIVO®video door intercom and its outdoor panel in a BUSing® installation using and advanced Ingenium ETHBUS3 Web server. A PoE switch connects the three devices using RJ45 terminals. Each device must be configured with a different IP address. For more information about the door video intercom
installation wiring, consult the manufacturer documentation (FERMAX).
Connection
RJ45
Phase
Neutral
IP-1 (VIVO)
Example: 10.0.0.5
PoE ports
á ETHBUS3
N~L
PoE switch
á ETHBUS3
Servidor Web
Web Server
ingenium
Ref.
B
2
A
+12V
Ref.
B
1
A
+12V
www.ingeniumsl.com
Ethernet
IP-2 (ETHBUS3)
Example: 10.0.0.8
Connection
RJ45
Outdoor panel
201
integration schemes
KNX® - BUSing® Integration
On this page we show an example of integration between a facility and a facility KNX® - BUSing®. Through BUSing® is
possible to control the lamp connected to the actuator KNX® translating the BUSing® orders through the gateway to orders KNX®.
Phase
Neutral
KNX
Power
Supply
KNX Actuator
Ð+
Ð+
á BUSing-KNX
á BF2
N~L
+
Ð
+
N~L
Ð
Prog.
á BF2
á BUSing-KNX
pasarela BUSing-KNX
BUSing-KNX gateway
ingenium
ingenium
á ConnectorT
202
Ref.
Ethernet
B
+12V
Ref.
B
A
+12V
Ref.
B
A
+12V
2
A
www.ingeniumsl.com
www.ingeniumsl.com
1
ingenium
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DALI - BUSing® Integration
On this page we show an example of integration between BUSing® installation and installation of luminaires DALI. By the
iDALing screen is possible to route, configure and control the lights.
Phase
Neutral
DALI Emergency
DALI Ballast
DALI 2
DALI 1
DALI 2
DALI 1
á DALing
N
L
N L
á iDALing-G
á BF2
N~L
N~L
á BF2
á DALing
pasarela BUSing-DALI
BUSing-DALI gateway
ingenium
ingenium
Ref.
B
+12V
Ref.
B
A
+12V
A
www.ingeniumsl.com
www.ingeniumsl.com
á ConnectorT
203
notes
204
rev. 15.05
ingenium
www.ingeniumsl.com
Parque Tecnol—gico
de Asturias, Parcela 50
33428 Llanera - Asturias - Spain
tel +34 985 118 859
[email protected]
www.ingeniumsl.com
Distributor:
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