Transcript Folie 1
KNX radio frequency products
© Technical training, Blieskastel
27.02.2013
KNX/Device training 2
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TR131B: TR131B: Innovation signed Hager
Integrate, configure and program
radio products directly into your
project, using ETS software
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Konnex
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New radio solutions
S–Mode
E–Mode
System configuration
Easy configuration
ETS
quicklink
tebis TX
(push-button)
(Manually program device)
Hager, Berker
Hager, Berker
Hager
ABB, Busch Jäger
Siemens
Gira, Jung
Merten
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RF in the Konnex Association
Configuring
System basis
Transfer
medium
S-Mode
KNX – system model
E-Mode
EIB - compliant
TP
TP = Twisted Pair
PL
PL = Power line
RF
RF = Radio
IR
Ethernet
……..
IR = Infrared
tebis TX
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Technological selection
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Technological selection
The frequency used for this
system is 868 MHz
This frequency is harmonised on
European level
The highest transmission power is
25 mW
There are two power ranges,
the amplifier with 25 mW and the
battery powered transmitter with
a power of less than 10 mW
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Topology
Radio TP mixed installation
TX
1.0.250
USB interface
Media coupler
Media coupler required
1.1.0
Own radio line
From software version 2.6
from RF to TP
2048 connections
from TP to RF
LK
Device 1 TX
TX
Device 2
Device 3 TX
TX
Device 4
Device 5 TX
TX
Device 63
LV
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1.2.0
Device 64
LV Device 128
LV
Device 192
Device 65
TX
TX
Device 66
Device 193
TX
TX
Device 194
Device 67
TX
TX
Device 68
Device 195
TX
TX
Device 196
Device 126
TX
TX
Device 127
Device 254
TX
TX
Device 255
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Twisted pair (TP) – and radio device
Media coupler
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TR131B: behind the scenes
The prerequisites
Database .vd5 (to download in the e-catalogue)
the TR131B plug-in is included
ETS version 3.0f or ETS version 4.0.3 as a minimum
(Update ETS4 available on the KNX site since April 2011)
Hold administrator rights
Power supply
Exclusively via the bus
Consumption: 15mA
TR131B
KNX bus
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TR131B: its integration into ETS
Create a special radio line with only radio
products to be configured, and with the
TR131B media coupler
Physical address = Z.L.0
The physical address of the media coupler
corresponds to that of a line coupler: Z.L.0
(for example 1.1.0)
The radio participants must be inserted in
the line created by the TR131B
Virtual radio line in the installation,
but physically under ETS
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TR131B: the topology in practice
TR131B
"virtual" radio line created under ETS
Example under ETS3, identical procedure with ETS4
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TR131B: the programing in practice
Example remote control
parameters
TR131B
Configuring the radio participants and
creation of group addresses between
radio and wired participants is achieved
without changing programming practices
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TR131B: the plug-in in practice
The configuration of the radio products can be viewed by editing the
TR131B parameters
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TR131B: the programming methodology
1.Create a radio line in the ETS project
2.Add radio participants
3.Program and create the links between participants
4.Assign and download the physical address of the TR131B
(an installation code is generated)
By editing the
parameters, the
plug-in gives
access to the
configuration of
the radio
products
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5.Scan the radio products
6.Download the physical addresses
7. Download the parameters and the links in the radio
products
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TR131B: TR131B: physical radio addressing
View of the physical addressing of the radio participants
List of the detected and
incompatible radio products
which can be programmed by
the TR131B
Procedure:
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1.
Select the product to
physically address
2.
Click on the “ "
button, the physical
addressing occurs
3.
signifies that the product
belongs to the installation and
is physically addressed
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TR131B: the view for downloading the links
The download view of the application and the links
There are two ways to
download the parameters of
the radio products:
From ETS, by right clicking
on "download a radio
product"
From the plug-in, by
selecting the product and the
type of download: all,
parameters only, or links only
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TR131B: Recommendations
IT recommendations
•Program using version ETS3.0f, ETS4.0.2 or superior
• Ensure you have administrator rights to install the plug-in. The plug-in is automatically installed when
the TR131 is configured after its import into the project
Recommendations for implementation
• Do not use old generation TR130 radio couplers in the installation
• The TR131 coupler does not require a 230 V power supply. The product is supplied with power
directly via the bus. Warning, during a power assessment, allow for 15 mA of consumption
• The TR131 coupler must remain in place after configuration. It translates the wired frames to radio
and the radio frames to wired
• A special radio line must be created under ETS with the TR131 as coupler, for which the physical
address must be of the Z.L.0 type
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TR131B: Recommendations
Recommendations during programming with ETS software
•Separate the wired lines from the radio line. The radio line should only contain radio products
• Only the plug-in can be used for downloading the physical address, the application and the group
addresses of the radio products. The rest of the configuration does not change. The parameters and
the creation of group addresses is achieved as for conventional wired products.
• Several downloads or factory returns of unidirectional products may be required to complete the
procedure.
• Some advice about ETS for radio products
• Do not use the product copy function
• Do not copy a project containing a configured TR131 as this will cause a malfunction of the
plug-in
• Do not use the "by default" button in the ETS configuration window
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Product range
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Radio input TRB302A
Two floating input channels
Dimensions: Ø 50 mm, depth 16 mm
Battery: 1 x ½ AA 3.6 V
Battery life at least 5 years
Range: 100 m
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Radio input TRB302B
Two floating input channels
Dimensions: Ø 56 mm, depth 26 mm
Power supply: 230 V
Range: 100 m
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Remote controls TU402, TU404, TU406 and TU418
New design and colours
Multicoloured LED display
various operating modes
Identification plate
2, 4, 6 and 18 input channels
Battery: 2 x CR2430 3 V
Battery lifespan ~ 5 years
Line of sight range 100 m
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Binary radio output TRB201
One binary radio output 16 A
Dimensions: Ø 56 mm, depth 29 mm
Cable cross-section: up to 2.5 mm².
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Binary radio input/output TRB501
One binary radio output 10 A
One binary input
Dimensions: Ø 56 mm, depth 29 mm
Cable cross-section: up to 2.5 mm².
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Radio switch - adapter plug TRC270D
Switch capacity 16 A
Three country-specific versions
Dimensions: 98 x 54 x 39 mm.
Colour: White RAL 7035
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Output TRE201
1-fold output 16 A
IP55, surface mounted
Incandescent lamps 1500 W
Electronic transformers 600 W
Sensing range 100 m in the open air
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Output TRE202
2-fold output 10 A
IP55, surface mounted
Incandescent lamps 1500 W
Electronic transformers 600 W
Sensing range 100 m in the open air
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Output TRE221
1-fold shutters output 10 A
IP55, surface mounted
Sensing range 100 m in the open air
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Output TRE400
1-fold output 10 A
IP55, surface mounted
Incandescent lamps 1500 W
Electronic transformers 600 W
Sensing range 100 m in the open air
1-fold input, floating
button contact
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Movement detectors TRE52x, TRE53x
Surface mounted movement
detectors, battery
IP55
TRE520, white
TRE521, anthracite
TRE521
Sensing range 100 m in the open air
TRE530, white, solar
TRE531, anthracite, solar
TRE530
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Blinds/shutters output TRB221
One shutter output 5 A
Dimensions: Ø 56 mm, depth 27mm
Cable cross-section: up to 1.5 mm².
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Blinds/shutters output TRB521
One shutter output 5 A
Two input channels
Dimensions: Ø 56 mm, depth 27mm
Cable cross-section: up to 1.5 mm².
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New range of universal
dimmers
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New tebis universal dimmer
TXA210A
TXA210
TXA213
TXA215
TXA210AN
TXA210N
TXA213N
TX211A
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New lamp developments
Since the legal phasing out of
incandescent bulbs, the following
lamps have been placed on the market:
New halogen lamps
-energy-saving lamps and
-LED lamps
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New lamp developments
Incandescent
halogen lamp
Halogen
HV
ESL
dimmable
Dimmable LED
Dimmable
Osram type ESL
ESL
not dimmable
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Good dimming capacity with earlier
universal dimmers
Good dimming capacity with earlier
universal dimmers
Limited dimming bandwidth
(not standard compliant)
High minimum level
Limited dimming bandwidth,
continuously lit, flickering
Not dimmable with existing technology
(inductive)
Not dimmable
"inductive dimming dangerous"
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Lamp dimming
New dimmer technology:
- Able to « learn » each dimmable
lamp
- Including LED and CFL lamps
- Integrated « lamp learning
function »
- Manual adjustment of the dimming
characteristics is possible
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New tebis universal dimmer
Replacing the existing product range
Incorporating new dimmer Technology
Dimming new lamps
(ESL, LED)
Reducing stand-by energy
consumption
green power
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New tebis universal dimmer
USP:
- Unique load detection
- genuine universal dimmer
(dims everything)
- very low standby consumption
(0.2 W per output)
- automatic load detection can
be overwritten manually with a
defined setting
- also very well prepared
for future lamps
- TX100B and ETS compatible
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New tebis universal dimmer
New detection principle:
- Also enables recognition of dimmable LEDs and ESL as well as Osram bulbs
- detects the minimum light level
- time required ~30 sec. therefore not possible each time ??
- dynamic process (displays the selection)
- by default, the automatic learning process uses the old TXA21x
- in the event of unsatisfactory dimming results, the end user can
start the learning process with a KNX button
- if the process fails (unknown or not dimmable lamps)
the dimmer goes back to the automatic learning process (capacitive)
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Dimmers, TXA210N, TXA210AN, TXA213N
Easy detect
Manual selection (expert mode)
Quick connect technology
Identification plate
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Easydetect (start of automatic load detection via KNX sensor buttons)
Device must be connected on the network and on the bus
Learning the load is used to identify the characteristics of the controlled lamp
type in order to ensure its efficient management (in particular ESL and LEDlamps):
- press five times on a KNX touch sensor configured to dim
(5 ON, 5 OFF or 5 SWITCH), then press and hold until the load switches off
- Give one short press of the button to initiate the automatic learning phase. This
process takes approx 30 seconds and a dimming process will occur.
After this learning phase, the load lights up again at the maximum level and will
flash once to indicate that the learning process is completed.
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Manual load selection (expert mode)
Press and hold down button 8, until the status
displays flash
By pressing button 3, select the channel for which
you wish to alter the dimmer mode
Give one or more short presses on button 8, in
order to select the desired dimmer mode
Press and hold down button 8, to confirm the
selected operating mode. The indicator light
flashes rapidly
Release button 8. The indicator light comes on
continuously and then extinguishes
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Dimmer technology status in 2013
Incandescent
halogen lamp
Good dimming ability with the new
universal dimmers
Halogen
HV
Good dimming ability with the new
universal dimmers
CFL
dimmable
Good dimming ability with the new
universal dimmers
Dimmable
LED
CFL dimmable
Osram type
CFL
not dimmable
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Good dimming ability with the new
universal dimmers
Dimmable with new universal dimmer
technology (inductive)
Not dimmable
but On/Off
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New tebis universal dimmers TXA210N, TXA210AN
Expert mode
LED
LED Status
Meaning
LED 1:
Short circuit/
overload indicator
LED On
Short circuit or
overload
LED flashes
rapidly
Load type not
suitable for dimming
LED flashes
No load
connected
LED Off
No error
LED On
Overheated
LED Off
No error
LED 2:
Overtemperature
indicator
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Connection and control elements TXA213N
Select load coupling
3-fold KNX dimmer can load using a
variable sliding switch from 3 x 300 W, via
1 x 600 W and 1 x 300 W up to 3 x 300 W
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Manual selection of the dimming range
Enter the min. and max. dim values:
- Turn switch 1 to "manual" and
then press button 3 (long press:
adjust brightness, short press:
switch on and off). Set the switch,
depending on min. or max.
- or, set switch 1 to min or max
and with the output connected, set
the desired value (make a preadjustment using ETS and/or TX100)
Save the entered value:
- Press and hold button 3 for 3
seconds.
The saving process is confirmed by
two flashes of LED 2
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KNX IP router TH210 instead of
area coupler TA008
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Line/area coupler TA008
Coupler used as an area coupler BK
(application TL008A)
- Connection between the area
line and a main line
Coupler used as a line coupler LK
(application TL008A)
- Connection between a main
line and a sub-line
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KNX/IP router for applications in
commercial buildings
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KNXnet/IP:
Building system technology on existing data networks
Building system technology
based on KNX
Use of existing
data networks:
- Intranet
- Internet
+
Technology
- Ethernet
- Internet Protocol
= KNXnet/IP
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Use of the existing data network in commercial buildings
for communication between the KNX bus systems
Advantages:
- extension of a KNX system
through one or more buildings,
by using the LAN and WAN
connections
- faster communication
between KNX lines
- direct transfer of KNX-data to each
network user
- KNX remote configuration with ETS
from any network access
- easy access to
monitoring and Facility
Management Systems
Source: heisse-elektrotechnik.de
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KNX/IP Router TH210
R5
old version
Power supply:
- 30 V DC from KNX bus + external
24 V AC/DC (12-30V AC/DC)
- Another possibility: power supply
via "PoE" (Power over Ethernet),
only with new version
- Thus the IP router has the
possibility to send a bus voltage
error message to the data network
R1
new version
Network Communication:
- Ethernet 10BaseT (10Mbits)
- KNXnet/IP protocol according to
the Konnex system specifications
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KNX/IP Router TH210
Connections:
- Line:
Bus terminal (black-red)
- Voltage supply:
Bus terminal (yellow-white)
- Ethernet/IP network:
RJ45 socket
2 modules wide
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Location and function of the display
and controls
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Changes compared with the previous version, "R5":
IP-address assignment via Auto-IP
(Automatic Private IP Addressing
APIPA)
Independent allocation of the IP-address
without DHCP-service
Type of IP-address assignment
is indicated by the "TX" LED for 10 seconds after the blank key
was pressed
Up to 4 KNX/IP tunnelling connections for parallel bus access of the ETS
and e.g. a visualisation
Object – Server connection for visualisation via network connections
with long signal times
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Principle
The KNX/IP router converts KNX
telegrams to IP telegrams and back
This allows fast communication
between KNX lines and
enables longer distances
+
= KNXnet/IP
KNX
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From KNX to KNXnet/IP
System overview - for KNXnet/IP
Building management/
Facility management
RS232 or
USB
Arealine
Areacoupler
Area
Area
Bk
Bk
Main line
Line
coupler
Lk
Lk
Lk
Lk
Voltage
supply
Line
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From KNX to KNXnet/IP
KNX/IP Router TH210 as area coupler
Routing =
coupler function
Building management/
Facility management
Tunnelling =
interface function
Arealine
Areacoupler
IP Network
(LAN, WAN)
Area
Bk
BK
Area
Coupling
BK
(Routing)
Main line
Line
coupler
Lk
Lk
Lk
Lk
Voltage
supply
Line
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Principle
The KNX/IP router can be used
as a line coupler or area coupler,
both in existing and new
KNX-networks
Building management/
Facility management
The KNX/IP router contains a filter
table, with which certain bus
telegrams from or to the bus line are
either blocked or transmitted. This
reduces the bus load.
Areacoupler
Arealine
IP Network
(LAN, WAN)
Area
BK
Area
Coupling
Bk (Routing)
BK
Main line
Line
coupler
Lk
Lk
Lk
Lk
Voltage
supply
Line
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From KNX to KNXnet/IP
KNX/IP Router TH210 as line coupler
Building management/
Facility management
Arealine
Areacoupler
Main line
IP Network
(LAN, WAN)
Area
Area
LK
LK
LK
LK
Coupling(Routing)
Line
coupler
Voltage
supply
Line
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KNX/IP Router TH210 as line coupler
Line coupler replaced by IP router
No area coupler required
Existing LAN network is used
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KNXnet/IP
Applications and advantages
Application:
- Line couplers
- Area couplers
Data network
(multicast-capable)
Advantage:
- Via the Ethernet, therefore easy
line/area connecting as via the
bus
- Usual configuration with
ETS without additional software
- System remains simple
even using the Ethernet
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Summary
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Applications
Configuration with ETS3 through
Ethernet network and the Internet
via VPN access
- Commissioning, configuration and
maintenance of the KNX installation
via the data network
- Writing of bus telegrams
without losses to the interface
- Configuration from any point of the
network:
- In the building, on the site, on the
Intranet, from the Internet (via VPN)
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Applications
Remote maintenance via ETS3
- Advantages:
no travel, faster connection
process
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KNXnet/IP
Applications and advantages
Cable free commissioning of for
example DALI EVG and KNX-DALI
interface with mobile PC with ETS
and WLAN communications
WLAN Access Point
KNX-DALI
interface
TX216
IP interface
TH210
Cable free
Commissioning
Advantages:
- saves second commissioning staff
- faster commissioning
(less travel)
- faster fault diagnosis
(by mobile ETS)
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Tablet PC
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Visualisation and control of distributed installations
Commissioning, configuration and
maintenance of the KNX installations
over the data network
Visualisation of distributed site
areas, for each area
Control and monitoring
via a web-browser
Maintenance optimisation
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KNXnet/IP router within the LAN network
KNX
KNX
KNX
KNX
The product must be commissioned by a trained electrician or in collaboration
with a network administrator
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KNXnet/IP router within the LAN network
Connection example
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Thank you
for your attention