MDT Technologies RF-AKK1ST.01 User manual
MDT technologies GmbH,Geschäftsbereich Gebäudeautomation
1
01/2015
Technical Manual
MDT RF-Socket
KNX RF+
RF –AxK1ST.01
RF-AKK1ST.01 - RF+ Socket
RF-AZK1ST.01 - RF+ Socket with active power measurement
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
2
1 Content
1 Content................................................................................................................................................. 2
2 Overview............................................................................................................................................... 4
2.1 Overview devices........................................................................................................................... 4
2.2 Verwendung & Einsatzgebiete ...................................................................................................... 4
2.3 Aufbau & Bedienung ..................................................................................................................... 5
2.4 Functions ....................................................................................................................................... 6
2.5 Settings at the ETS-Software ......................................................................................................... 7
2.6 Starting up ..................................................................................................................................... 7
3 Communication objects........................................................................................................................ 8
3.1 Summary and Usage...................................................................................................................... 8
3.2 Default settings of the communication objects .......................................................................... 12
4 Parameter –Switch Channel .............................................................................................................. 13
4.1 Identical parameter..................................................................................................................... 13
4.1.1 Relay operating mode .......................................................................................................... 13
4.1.2 Central function.................................................................................................................... 14
4.1.3 Behavior at block/unblock.................................................................................................... 14
4.2 Switching output ......................................................................................................................... 16
4.2.1 Overview............................................................................................................................... 16
4.2.2 On-/Off-delay ....................................................................................................................... 18
4.2.3 Logical functions................................................................................................................... 19
4.2.4 Scene function...................................................................................................................... 21
4.3 Staircase ...................................................................................................................................... 26
4.3.1 Overview............................................................................................................................... 26
4.3.2 Staircase time ....................................................................................................................... 28
4.3.3 Prewarning und Warning ..................................................................................................... 29
4.3.4 Manual switch off................................................................................................................. 30
4.3.5 Extend staircase time ........................................................................................................... 30
5 Parameter - Measurement................................................................................................................. 31
5.1 Active power measurement........................................................................................................ 31
5.2 Current measurement................................................................................................................. 34
5.3 Voltage measurement................................................................................................................. 36
5.4 Meter........................................................................................................................................... 38
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
3
6 Index ................................................................................................................................................... 39
6.1 List of figures ............................................................................................................................... 39
6.2 List of tables................................................................................................................................. 39
7 Attachment......................................................................................................................................... 40
7.1 Statutory requirements............................................................................................................... 40
7.2 Routine disposal .......................................................................................................................... 40
7.3 Assemblage.................................................................................................................................. 40
7.4 Datasheet .................................................................................................................................... 40
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
4
2 Overview
2.1 Overview devices
The manual refers to the following devices:
RF-AKK1ST.01 KNX RF+ Socket
oflush-mounted, nominal voltage: 230V AC, maximum load: 10A, Switching- and
Staircase-function, Communication by new KNX RF+ protocol in system mode
RF-AZK1ST.01 KNX RF+ Socket with active power measurement
oflush-mounted, nominal voltage: 230V AC, maximum load: 10A, Switching- and
Staircase-function, Power, Current and Voltage measurement with power monitoring,
Metering, Communication by new KNX RF+ protocol in system mode
2.2 Verwendung & Einsatzgebiete
The MDT RF socket can switch almost all electrical devices. The outputs can operate as normal
switching outputs or as output with staircase function. In both settings extensive options are
available.
The RF socket with active power measurement contains of an integrated true RMS measurement. By
measuring current and voltage, the power consumption of a device can be measured precisely.
Furthermore, measured values for voltage and current can be sent and in accordance to the values,
actions can be triggered.
The devices communicate via the KNX RF+ protocol. By using the RF socket, normal sockets can be
controlled via the KNX system.
The device communicates via the KNX RF+ protocol. Detailed information for planning and working
with radio lines via the KNX RF+ protocol can be downloaded at
http://www.mdt.de/EN_Downloads_Manuals.html.
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
5
2.3 Aufbau & Bedienung
The following figure shows the design of the RF socket:
Figure 1: Overview Hardware RF socket
The output can be switched via a short key press on the button. An active output is shown by the
green status LED. Via a long key press, the programming mode is activated/deactivated. An active
programming mode is shown by the red programming LED.
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
6
2.4 Functions
Every channel can be selected as one of these 3 states:
not active
The channel has no function. So there are no communication objects for this channel shown.
Switch
If the channel is chosen as switch, there will be different parameterization options for
configuring the switching process.
Staircase
Now, the channel can become a staircase light function. This function causes an automatic
switch off of the channel after an adjusted time.
At the RF socket with active power measurement, the following menus are also available:
Active power measurement
The active power measurement can send the current power of the connected load and in
accordance to the value, specific function, such as Send messages and / or switch the
output off, can be triggered.
Current measurement
The current measurement can send the measured current of the connected load and in
accordance to the value, specific function, such as Send messages and / or switch the
output off, can be triggered.
Voltage measurement
The voltage measurement can send the measured current of the connected load and in
accordance to the value, specific function, such as Send messages and / or switch the
output off, can be triggered.
Meter
2 counters, main and sub meters, are available. With these various power measurements
for daily / weekly / monthly or annual values can be realized.
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
7
2.5 Settings at the ETS-Software
Selection at the product database:
Manufacturer: MDT Technologies
Product family: Actuator
Product type: Switch Actuators
Medium Type: RF
Product name: addicted to the used type, e.g.: RF-AZK1ST.01
Order number: addicted to the used type, e.g.: RF-AZK1ST.01
2.6 Starting up
After wiring the allocation of the physical address and the parameterization of every channel follow:
(1) Connect the interface with the bus, e.g. MDT USB interface
(2) Connect, parameterize and download RF+ Line Coupler
(3) Connect and download MDT RF+ Line coupler, RF-LK001.01
(4) Press the programming button at the device(red programming LED lights)
(5) Loading of the physical address out of the ETS-Software by using the interface(red LED goes
out, as well this process was completed successful)
(6) Loading of the application, with requested parameterization
(7) If the device is enabled you can test the requested functions(also possible by using the ETS-
Software)
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1 • Tel.: +49-2263-880 • Fax: +49-2263-4588 • knx@mdt.de • www.mdt.de
8
3 Communication objects
3.1 Summary and Usage
Nr.
Name
Object function
Data type
Direction
Info
Usage
Tip
Switch Channel:
0
Channel A
Switch on/off
DPT 1.001
receive
Actuator reacts to
Incoming-telegramm
Push buttons,
Visu...
for manual
control
Communication object is shown at
the operatig ode „sitch and
controls the channel On/Off, which
is normally connected to all control
keys.
(= Main function at switch)
1
Channel A
Staircase
DPT 1.001
receive
Actuator reacts to
Incoming-telegramm
Push buttons,
Visu...
for manual
control
Communication object is shown at
the operatig ode „sitch and
controls the channel On/Off, which
is normally connected to all control
keys. The channel switches off again
after adjusted time is expired.
(= Main function at staircase)
3
Channel A
Block
DPT 1.003
receive
Actuator reacts to
Incoming-telegramm
Push buttons,
Visu...
for manual
control
Communication object is only
shown after activation of the
blocking object. Object blocks the
function of this channel.
(= Additional function)
4
Channel A
Scene
DPT 18.001
receive
Actuator reacts to
Incoming-telegramm
Push buttons,
Visu...
for manual
control
Communication onject appears only
after activating scenes. For calling
of saved scenes, which are saved in
the actuator.
(= Additional function)
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1 • Tel.: +49-2263-880 • Fax: +49-2263-4588 • knx@mdt.de • www.mdt.de
9
5
Channel A
Status
DPT 1.001
sending
Actuator sends
current state
For diplay on
Visu, Tableau,
and Display
Connection to
Push button
ojet „Value for
toggle
Communication object operates as
status indication and can be used
for isualizatio…
Must be connected to the object
alue for toggle of the cotrollig
push button for sending its current
state to the push button.
6
Channel A
Logic 1
DPT 1.002
receive
Actuator reacts to
Incoming-telegramm
external
switching, state
object of other
devices
Channel switches only On, if the
logic function of activated objects
and switching onbject (Nr. 85) is
true.
Only available for switching output.
7
Channel A
Logic 2
DPT 1.002
receive
Actuator reacts to
Incoming-telegramm
external
switching, state
object of other
devices
Channel switches only On, if the
logic function of activated objects
and switching onbject (Nr. 85) is
true.
Only available for switching output.
Table 1: Communication objects switching output
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1 • Tel.: +49-2263-880 • Fax: +49-2263-4588 • knx@mdt.de • www.mdt.de
10
The following objects are only for the device RF-AZK1St.01 available:
Nr.
Name
Object function
Data type
Direction
Info
Usage
Tip
Objects for the measurement:
8
Active power
meter
Active power
DPT 9.024/
DPT 14.056
send
Socket sends the
current power of the
connected load
Visu, Diagnostic,
Recording
Communication object is shown at
activated power measurement
9
Active power
meter
Current value
DPT 7.012/
DPT 9.021/
DPT 14.019
send
Socket sends the
current of the
connected load
Visu, Diagnostic,
Recording
Communication object is shown at
activated current measurement
10
Active power
meter
Voltage value
DPT 14.027
send
Socket sends the
current voltage at the
connected load
Visu, Diagnostic,
Recording
Communication object is shown at
activated voltage measurement
11
Sub Meter
Active Energy
DPT 13.010/
DPT 13.013
send
Socket sends the
active energy since
the last reset
Visu, Diagnostic,
Recording
Communication object is shown at
activated meters
12
Main Meter
Active Energy
DPT 13.013
send
Socket sends the
active energy since
the last reset
Visu, Diagnostic,
Recording
Communication object is shown at
activated meters
13
Active power
meter
Exceedance of load
DPT 1.001
send
Socket sends
exceedance of load
Visu, Diagnostic,
Atuator…
Communication object is shown at
power measurement and
monitoring of load
14
Active power
meter
Lower deviation of load
DPT 1.001
send
Socket sends lower
deviation of load
Visu, Diagnostic,
Atuator…
Communication object is shown at
power measurement and
monitoring of load
15
Active power
meter
Exceedance of current
DPT 1.001
send
Socket sends
exceedance of
current
Visu, Diagnostic,
Atuator…
Communication object is shown at
current measurement and
monitoring of current
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1 • Tel.: +49-2263-880 • Fax: +49-2263-4588 • knx@mdt.de • www.mdt.de
11
16
Active power
meter
Lower deviation of
current
DPT 1.001
send
Socket sends lower
deviation of current
Visu, Diagnostic,
Atuator…
Communication object is shown at
current measurement and
monitoring of current
17
Active power
meter
Exceedance of voltage
DPT 1.001
send
Socket sends
exceedance of
voltage
Visu, Diagnostic,
Atuator…
Communication object is shown at
voltage measurement and
monitoring of voltage
18
Active power
meter
Lower deviation of
voltage
DPT 1.001
send
Socket sends lower
deviation of volatage
Visu, Diagnostic,
Atuator…
Communication object is shown at
voltage measurement and
monitoring of voltage
19
Sub Meter
Reset
DPT 1.001
receive
Reset of the sub
meter
Visu, Push
Butto…
Communication object is shown at
activated meters
20
Main Meter
Reset
DPT 1.001
receive
Reset of the main
meter
Visu, Push
Butto…
Communication object is shown at
activated meters
Table 2: Overview objects - Measurement
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
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3.2 Default settings of the communication objects
The following chart shows the default settings of the communication objects:
Default settings
Nr.
Name
Object Function
Length
Priority
C
R
W
T
U
Switch channel:
0
Channel A
Switch on/off
1 Bit
Niedrig
X
X
1
Channel A
Staircase
1 Bit
Niedrig
X
X
3
Channel A
Block
1 Bit
Niedrig
X
X
4
Channel A
Scene
1 Byte
Niedrig
X
X
5
Channel A
Status
1 Bit
Niedrig
X
X
X
6
Channel A
Logic 1
1 Bit
Niedrig
X
X
7
Channel A
Logic 2
1 Bit
Niedrig
X
X
Active power meter:
8
Active power
meter
Active power
2 Byte/
4 Byte
Niedrig
X
X
X
9
Active power
meter
Current value
2 Byte/
4 Byte
Niedrig
X
X
X
10
Active power
meter
Voltage value
4 Byte
Niedrig
X
X
X
11
Sub Meter
Active Energy
4 Byte
Niedrig
X
X
X
12
Main Meter
Active Energy
4 Byte
Niedrig
X
X
X
13
Active power
meter
Exceedance of load
1 Bit
Niedrig
X
X
X
14
Active power
meter
Lower deviation of load
1 Bit
Niedrig
X
X
X
15
Active power
meter
Exceedance of current
1 Bit
Niedrig
X
X
X
16
Active power
meter
Lower deviation of
current
1 Bit
Niedrig
X
X
X
17
Active power
meter
Exceedance of voltage
1 Bit
Niedrig
X
X
X
18
Active power
meter
Lower deviation of
voltage
1 Bit
Niedrig
X
X
X
19
Sub Meter
Reset
1 Bit
Niedrig
X
X
20
Main Meter
Reset
1 Bit
Niedrig
X
X
Table 3: Communication objects –default settings
You can see the default values for the communication objects from the upper chart. According to
requirements the priority of the particular communication objects as well as the flags can be
adjusted by the user. The flags allocates the function of the objects in the programming thereby
stands C for communication, R for Read, W for write, T for transmit and U for update.
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
13
4 Parameter –Switch Channel
4.1 Identical parameter
The following parameters are as well available at channels selected as switch as at channels
selected as staircase.
4.1.1 Relay operating mode
The following illustration shows the setting options for this parameter:
Figure 2: Operating mode
The following chart shows the dynamic range for this parameter:
ETS-text
Dynamic range
[default value]
comment
Mode
normally opened
normally closed
Relay operating mode of the
channel
Table 4: Operating mode
The following diagram shows the behavior of the relay operating mode normally closed and normally
opened. The input for the channels is a KNX-telegram, which sends alternating 0-signals and 1-signals:
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
14
4.1.2 Central function
The following illustration shows the setting options at the ETS-Software:
Figure 3: Central function
The following chart shows the dynamic range for this parameter:
ETS-text
Dynamic range
[default value]
comment
Central function
not active
active
switches the central function
on/off for this channel
Table 5: Central function
The central function can be switched on/off for every channel. For switching on this function, you
have to choose the option atie. By allig the etral ouiatio ojet, all haels ith a
activated central function are switched on with their current parameterization. So switch-on delays
or staircase functions are still kept.
The central function can make programming much more easier and your project can become more
clear.
The following chart shows the associated communication object:
Number
Name
Length
Usage
16
Central function
1 Bit
central switching of the channels
number depends to the number of channels
Table 6: Communication object central function
4.1.3 Behavior at block/unblock
The following illustration shows the setting options at the ETS-Software:
Figure 4: Blocking function
The following chart shows the dynamic range for this parameter:
ETS-text
Dynamic range
[default value]
comment
Behavior when locked
Behavior when unlocked
On
Off
no change
Behavior to a
blocking/unblocking process
Table 7: Behavior at block/unblock
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
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The blocking function gets active, when the corresponding communication object becomes a logical
. By sedig a logial , the lokig futio a e deatiated agai.
The paraeter Behaior he loked defies a atio for the output at atiatig the blocking
process. There are the setting on, off and no change available. The same settings are also available
for the Behaior he uloked. This atio is alled he the lokig futio is deatiated
again.
The following chart shows the corresponding communication object:
Number
Name
Length
Usage
3
Block
1 Bit
blocks the channel
Table 8: Communication object blocking function
The folloig diagra desries the lokig proess. For the Behaior he loked, the ation on
as paraeterized ad for the Behaior he uloked the atio off as paraeterized:
The KNX telegra shos hih alues are sed to the lokig ojet. By sedig a logial , the
blocking function is activated and the channel is switched on. The blocking function is deactivated
agai y sedig a logial . “o the hael is sithed off.
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
16
4.2 Switching output
The following parameters, which are described at the headings 4.3.x, are only available at channels
selected as switch.
4.2.1 Overview
By choosing a channel as switch, a sub menu, called Channel A Switching, appears for this channel at
the left drop down menu.
The sub menu is shown at the following illustration:
Figure 5: Switching output
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
17
The chart shows the possible settings for switching outputs:
ETS-text
Dynamic range
[default value]
comment
Mode
normally opened
normally closed
Operation mode of the channel
On-Delay
… sec
[0=no delay]
Switch on delay of the channel in
seconds
Off-Delay
0… sec
[0=no delay]
Switch off delay of the channel in
seconds
Central function
not active
active
Activates the central function for this
channel
Behavior when locked
Off
On
no change
Action for activating the blocking
process
Behavior when unlocked
Off
On
no change
Action for deactivating the blocking
process
Logic function
not active
with one object
with two objects
Activation of the logic function with one
or two objects
Logic operation
And
Or
Selection of the logic function
only available, when the logic function
was activated
Scene
not active
active
Activation of the scene function
by activation this parameter a new sub
menu appears
(have a look at 4.4.4)
Table 9: Switching output
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
18
4.2.2 On-/Off-delay
The following illustration shows the setting options at the ETS-Software:
Figure 6: On/Off delay
The on-delay causes a delayed switch of the channel. At sending an on-signal to the channel, first the
adjusted on delay time expires and afterwards the channel will be switched on.
The off delay works on the same principle. At sending an off-signal, first the adjusted off delay time
expires and afterwards the channel will be switched off.
Both functions work as well alone as combined. By adjusting seods for a delay the futio is
switched off.
The following diagram describes the combination of on and off delay:
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
19
4.2.3 Logical functions
The following illustration shows the setting options at the ETS-Software:
Figure 7: Logical functions
The logic function can be activated with one or two objects. The objects are the inputs of the logic
block. Furthermore you can choose between an AND-function and an OR-function. The following
figure shows an overview of the basic logic function with two objects:
Figure 8: Overview Logic function
The logic function consists of the activated input objects and the switching object for each channel.
The output of the logic is the respective relay output of the channel, so the physical switching of the
channel.
The following chart shows the relevant communication objects:
Number
Name
Length
Usage
6
Logic 1
1 Bit
Logic object 1, is the first input for the logic
block
7
Logic 2
1 Bit
Logic object 2, is the second input for the logic
block
Table 10: Communication objects logic
Technical Manual RF Socket RF-AxK1ST.01
MDT technologies GmbH • 51766 Engelskirchen • Papiermühle 1
20
The following table illustrates the two logic functions:
AND-Connection OR-Connection
Switch
On/Off
Logic 1
Logic 2
Channel
switched?
Switch
On/Off
Logic 1
Logic 2
Channel
switched?
0
0
0
Nein
0
0
0
Nein
0
0
1
Nein
0
0
1
Ja
0
1
0
Nein
0
1
0
Ja
0
1
1
Nein
0
1
1
Ja
1
0
0
Nein
1
0
0
Ja
1
0
1
Nein
1
0
1
Ja
1
1
0
Nein
1
1
0
Ja
1
1
1
Ja
1
1
1
Ja
Table 11: Logic function
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