Domino

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Revision as of 12:03, 4 July 2014 by Ulde (talk | contribs) (→‎3.3.1)
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The DOMINO system is DUEMMEGI’s proprietary bus architecture for home automation. HSYCO fully integrates with this system through the DFCP control and gateway module, and its FXP-XT serial communication protocol.

A serial connection between the DFCP and the HSYCO SERVER is required for the integration, either directly through the server’s RS-232 port or via the RS-232 port of a supported serial to IP gateway, including the WEBS module.

Communication

Employ a DE-9 (often called DB-9) male-female RS-232 straight cable to connect the RS-232 DFCP port to the serial port on HSYCO SERVER or serial gateway.

RS-232 parameters:

Baud rate 9600, 38400, 57600 or 115200 bps (according to the DFCP serial port setting)
Data bits 8
Stop bit 1
Parity none
Flow control none


Note A speed of 115200 bps is recommended to achieve good performance, particularly when the number of devices connected to the bus is large.

HSYCO Configuration

You can define and connect to more than one DOMINO bus using several DFCP gateways.

The DOMINO I/O Server also supports dual, redundant connections between HSYCO and DFCP.

If the main connection fails, HSYCO automatically re-routes the communication with DFCP through the fail-over connection.

Options

ID Default Values Description
startupevents false true generate IO events also during the driver’s start-up phase
false start generating events only after HSYCO is aligned with the current status of the system
inputdiscovery false true auto-detects DOMINO’s input devices as configured in the DFCP, and automatically creates the list of all detected devices and individual data points in the systemtopo.txt file. Should be enabled to allow the automatic update of (button) objects’ states
false auto-detect for input devices is disabled
outputdiscovery true true auto-detects DOMINO’s output devices as configured in the DFCP, and automatically creates the list of all detected devices and individual data points in the systemtopo.txt file. Should be enabled to allow the automatic update of (button) objects’ states
false auto-detect for output devices is disabled
virtualdiscovery false true auto-detects DOMINO’s virtual points for input and output devices as configured in the DFCP, and automatically creates the list of all detected virtual data points in the systemtopo.txt file. Should be enabled to allow the automatic update of (button) objects’ states
false auto-detect for devices’ virtual data points is disabled
virtualpoints false 1...2033 enables polling for the first n virtual points of the DFCP. Enable this option only if you need to generate I/O events based on these virtual points
true enables polling for all the 2032 virtual points of the DFCP
false polling of the DFCP virtual data points is disabled
registers false 1...1024 enables polling for registers R0-Rn of the DFCP. Enable this option only if you need to generate I/O events based on these registers
true enables polling for registers R0-R127 of the DFCP
false polling of the DFCP registers is disabled
powerdisplay false true enables polling for registers R0-Rn of the DFCP. Enable this option only if you need to generate I/O events based on these registers
≥ 0 (DFANA address) enables the automatic display in the GUI of the total real power measured by a DFANA module connected to this DFCP. Note that, if you have more than one DFCP gateway, you should enable this option for one gateway only
false power display disabled for this DFCP
powersensivity 50 ≥ 0 measured power changes are reported only if the difference from last reading is equal or greater than the power sensivity option, in Watts
powerinterval 1 ≥ 0 power polling interval for the DFCC meter, in seconds
detectevents false true generate forced events when a device is detected at start-up
false do not generate events when a device is detected at start-up
toolspassword string set this option with a long string (only letters and numbers) password to allow the remote connection of DFCP-IDE and other configuration tools to the DFCP gateways that are connected to HSYCO. For additional security, it is recommended to set this option only when required
language english en it fr language for all messages from the DOMINO system: English, Italian or French

Initialization and Connection Events

Event name Value Description
connection online connection established to the DFCP module
offline HSYCO can’t connect to the DFCP module
detected.input.<n>. model name an input device of the type passed as value has been detected at address <n>, using addresses
detected.output.<n>. model name an output device of the type passed as value has been detected at address <n>, using addresses

The Device Configuration Database

The systemtopo.txt file contains the list of all devices and their individual input, output and virtual data points that could be directly associated to graphic object in the Web-based user interface. This file can be filled manually or automatically by HSYCO at start-up. To enable automatic discovery and automatic generation of devices’ information in the systemtopo file, use the inputdiscovery, outputdiscovery and virtualdiscovery options in Settings. The default behavior is to only discover devices with output data points.

This is an example of an automatically generated systemtopo.txt file:

(devices)
domino.o10.1 : LIGHT ; LIGHT
domino.o6.1 : LIGHT ; DIMMER
domino.o7.2 : LIGHT ; LIGHT
domino.o7.1 : LIGHT ; DIMMER
domino.o9.2 : AUTOM ; VSHUT
domino.o5.4 : LIGHT ; LIGHT
domino.o9.1 : AUTOM ; VSHUT
domino.o5.3 : LIGHT ; LIGHT
domino.o5.2 : LIGHT ; LIGHT
domino.o5.1 : LIGHT ; LIGHT

You should then manually add comments and other optional parameters:

(devices)
domino.o10.1 : LIGHT ; LIGHT; main entrance light
domino.o6.1 : LIGHT ; DIMMER; lobby dimmer
domino.o7.2 : LIGHT ; LIGHT; kitchen workbench
domino.o7.1 : LIGHT ; DIMMER; kitchen main dimmer

DFCP Virtual Data Points and Registers

The DFCP implements 2032 virtual points for binary (on/off) data and 1024 registers for positive scalar values (0-65535).

All the virtual points and the registers can optionally generate I/O events. You can also write to the virtual data points and registers using the IO action in EVENTS or ioSet() method in Java.

You cannot directly control the DFCP virtual data points and registers using GUI objects.

To enable polling of the current state of the DFCP’s virtual data points, enable the virtualpoints options in hsyco.ini.

To enable polling of the current state of the DFCP’s registers, enable the registers options in hsyco.ini.

If you only have to write to virtual points or registers, enabling polling is not strictly required.

ID Value R/W Description
v0.<n> 0 RW virtual data point <n> off (<n>: 1-2032)
1 RW virtual data point <n> on (<n>: 1-2032)
r0.<n> <x> RW register <n> off (<n>: 0-1023) set to value <x> (<x>: 0-65535)

DFCP Internal Clock

The DFCP module has an integrated real-time clock. You can use the clock datapoint to read the DFCP date and time, and set the DFCP clock to HSYCO’s current time.

ID Value R/W Description
clock yyyy-mm-dd hh:mm:ss R the DFCP clock current time
read W read the DFCP clock, and the delta with HSYCO’s time
sync W set the DFCP clock to HSYCO’s current time
clock.delta integer number R the delta time in seconds between the DFCP and HSYCO clocks. A positive number means that the DFCP clock is ahead of HSYCO

DOMINO Modules Events and Control

Module Code Description
DF4I 4 digital inputs
DFCK3 clock
DF8I 2x4 digital inputs
DF2R 2 outputs (relay)
DF4R, DF4RP 4 outputs (power relay)
DF4RP/I 4 generic inputs ON-OFF + 4 outputs
DFDI, DFDI2, DFDI2B, DFDM, DFDT 1 output (dimmer)
DFDMX DMX interface
DFDALI DALI interface
DFDV 1 output (1-10V - ballast) + 1 output (power relay)
DFTP 2 outputs (shutters)
DFTP/I 2 outputs (shutters) + 4 digital inputs
DFTR 2 outputs (shutters) + 1 output (relay)
DF4IL 4 digital inputs + 4 outputs (LED)
DF8IL 8 digital inputs + 8 outputs (LED)
DFAI 2 analog inputs
DFLUX, DFSUN light sensor
DFCT/DFTZ temperature sensor
DFRHT temperature and humidity sensor
DFMETEO weather module
DFCC electric energy meter and load manager

DF4I

The DF4I is an input module with 4 digital inputs.

It uses one address in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on

DFCK3

The DFCK3 is an input module for managing up to 15 different zones with an integrated clock.

It uses one address in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on
i<address>.5 0 R input pin 5 off
1 R input pin 5 on
i<address>.6 0 R input pin 6 off
1 R input pin 6 on
i<address>.7 0 R input pin 7 off
1 R input pin 7 on
i<address>.8 0 R input pin 8 off
1 R input pin 8 on
i<address>.9 0 R input pin 9 off
1 R input pin 9 on
i<address>.10 0 R input pin 10 off
1 R input pin 10 on
i<address>.11 0 R input pin 11 off
1 R input pin 11 on
i<address>.12 0 R input pin 12 off
1 R input pin 12 on
i<address>.13 0 R input pin 13 off
1 R input pin 13 on
i<address>.14 0 R input pin 14 off
1 R input pin 14 on
i<address>.15 0 R input pin 15 off
1 R input pin 15 on

DF8I

The DF8I is an input module with 2x4 digital inputs.

It uses two consecutive addresses in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on
i<address+1>.1 0 R input pin 1 off
1 R input pin 1 on
i<address+1>.2 0 R input pin 2 off
1 R input pin 2 on
i<address+1>.3 0 R input pin 3 off
1 R input pin 3 on
i<address+1>.4 0 R input pin 4 off
1 R input pin 4 on

DF2R

The DF2R is an output module with 2 relay outputs.

It uses one address in the DOMINO bus.

ID Value R/W Description
o<address>.1 0 RW output pin 1 off
1 RW output pin 1 on
o<address>.2 0 RW output pin 2 off
1 RW output pin 2 on

You can also set the value to “on” or “off”, that is equivalent to 1 and 0.


DF4R, DF4RP

The DF4R (DF4RP) is an output module with 4 relay outputs.

It uses one address in the DOMINO bus.

ID Value R/W Description
o<address>.1 0 RW output pin 1 off
1 RW output pin 1 on
o<address>.2 0 RW output pin 2 off
1 RW output pin 2 on
o<address>.3 0 RW output pin 3 off
1 RW output pin 3 on
o<address>.4 0 RW output pin 4 off
1 RW output pin 4 on

DF4RP/I

The DF4RP/I is an output module with 4 generic inputs and 4 relay outputs.

It uses one input address and one output address in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
o<address>.1 0 RW output pin 1 off
1 RW output pin 1 on
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
o<address>.2 0 RW output pin 2 off
1 RW output pin 2 on
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
o<address>.3 0 RW output pin 3 off
1 RW output pin 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on
o<address>.4 0 RW output pin 4 off
1 RW output pin 4 on

DFDM, DFDI, DFDI2, DFDI2B, DFDT

The DFDM, DFDI, DFDI2, DFDI2B and DFDT are output modules with 1 dimmer output.

They use one address in the DOMINO bus.

ID Value R/W Description
o<address> program R program mode
fault R dimmer fault
auto R auto mode
man R manual mode
o<address>.1 off RW dimmer off
1...100% RW percent dimmer level
on RW dimmer on at last level
o<address>.ramp save RW saves the current ramp as default
1...30 RW ramp value in seconds (1 sec steps up to 10 and 2 sec steps up to 30)
40, 50, 60 RW ramp value in seconds (10 sec steps)
o<address>.setpoint 0...1023 RW setpoint level
o<address>.hysteresis 0...255 RW tolerance level
o<address>.time 0...255 RW period (seconds)

The dimmer level can be set using additional formats besides the standard percent values:

  • absolute positive integer number between 0 and 100
  • percent number, formatted as x%
  • fractional format, formatted as “n/m”, where 0 <= n <= m.

DFDMX

The DFDMX is a DMX-512 protocol output module.

It uses one address in the DOMINO bus.

ID Value R/W Description
o<address>.<command> 0...255 RW commands and values according to the DFDMX programming manual

DFDALI

The DFDALI is a DALI interface module. Using the DFDALI you can control up to 32 DALI devices.

You can control individual devices, groups or broadcast commands to all devices.

It uses one input (if enabled) and one output address in the DOMINO bus.

ID Value R/W Description
o<address> refresh RW queries the DFDALI module to update the current status of all DALI devices
o<address> off RW broadcast off command
o<address>.all

o<address>.0

<level> RW broadcast level command
o<address>.group.<DALI group> off RW broadcast off command
<level> RW group level command
o<address>.<DALI address> off RW turn off a single device
<level> RW set a single device to a specific level
> 100 RW special functions, having values between 101 and 255, as defined in the DFDALI manual
i<address>.polling off RW polling mode is disabled
on RW polling mode is enabled
i<address>.test 0 RW test button not pressed
1 RW test button pressed
i<address>.dali nopower RW power failure on the DALI bus
open RW DALI bus is open
short RW DALI bus is shorted
on RW DALI bus on
i<address>.1 fault RW DALI device 1 reporting a lamp failure
unknown R DALI device 1 status unknown

The DALI level can be set using additional formats besides the standard percent values:

  • absolute positive integer number between 0 and 100
  • percent number, formatted as x%
  • fractional format, formatted as “n/m”, where 0 <= n <= m
  • special functions, having values between 101 and 255, as defined in the DFDALI manual.

DFDV

The DFDV is an output module with 1 output (1-10V for ballast) + 1 generic power relay output. It uses one address in the DOMINO bus.

ID Value R/W Description
o<address>.1 off RW dimmer off
1 ... 100% RW percent dimmer level
on RW dimmer on at last level
o<address>.2 0 RW output pin 1 off
1 RW output pin 1 on

The dimmer level can be set using additional formats besides the standard percent values:

  • absolute positive integer number between 0 and 100
  • fractional format, formatted as “n/m”, where 0 <= n <= m.

You can also set the value to “on” or “off”, that is equivalent to 1 and 0.


DFTP

The DFTP is an output module for 2 shutters.

It uses one output address in the DOMINO bus.

ID Value R/W Description
o<address>.1 up RW shutter up command
down RW shutter down command
stop RW shutter stop command
unknown R unknown state
offup RW shutter off, up position
offdown RW shutter off, down position
o<address>.2 up RW shutter up command
down RW shutter down command
stop RW shutter stop command
unknown R unknown state
offup RW shutter off, up position
offdown RW shutter off, down position

DFTP/I

The DFTP is an input/output module for 2 shutters and 4 generic inputs.

It uses one input and one output address in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
o<address>.1 up RW shutter up command
down RW shutter down command
stop RW shutter stop command
unknown R unknown state
offup RW shutter off, up position
offdown RW shutter off, down position
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
o<address>.2 up RW shutter up command
down RW shutter down command
stop RW shutter stop command
unknown R unknown state
offup RW shutter off, up position
offdown RW shutter off, down position
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on

DFTR

The DFTR is an output module with 1 shutter output and 1 relay output.

It uses one address in the DOMINO bus.

ID Value R/W Description
o<address>.1 up R shutter up
down R shutter down
unknown R unknown state
offup R shutter offup
offdown R shutter offdown
o<address>.2 0 R output pin 2 off
1 R output pin 2 on

DF4IL

The DF4IL is an input/output module with 4 digital inputs and 4 digital open collector outputs for LEDs.

It uses one input and one output address in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
o<address>.1 0 RW LED 1 off
1 RW LED 1 on
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
o<address>.2 0 RW LED 2 off
1 RW LED 2 on
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
o<address>.3 0 RW LED 3 off
1 RW LED 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on
o<address>.4 0 RW LED 4 off
1 RW LED 4 on

You can also set the value to “on” or “off”, that is equivalent to 1 and 0.


DF8IL

The DF8IL is an input/output module with 8 digital inputs and 8 digital open collector outputs for LEDs.

It uses 4 input and 4 output addresses in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on
i<address+1>.1 0 R input pin 5 off
1 R input pin 5 on
i<address+1>.2 0 R input pin 6 off
1 R input pin 6 on
i<address+1>.3 0 R input pin 7 off
1 R input pin 7 on
i<address+1>.4 0 R input pin 8 off
1 R input pin 8 on
i<address+2>.1 0 R LED 1 is off
1 R LED 1 is on
i<address+2>.2 0 R LED 2 is off
1 R LED 2 is on
i<address+2>.3 0 R LED 3 is off
1 R LED 3 is on
i<address+2>.4 0 R LED 4 is off
1 R LED 4 is on
i<address+3>.1 0 R LED 5 is off
1 R LED 5 is on
i<address+3>.2 0 R LED 6 is off
1 R LED 6 is on
i<address+3>.3 0 R LED 7 is off
1 R LED 7 is on
i<address+3>.4 0 R LED 8 is off
1 R LED 8 is on
v<address+2>.1 0 RW LED 1 is off
1 RW LED 1 is on
v<address+2>.2 0 RW LED 2 is off
1 RW LED 2 is on
v<address+2>.3 0 RW LED 3 is off
1 RW LED 3 is on
v<address+2>.4 0 RW LED 4 is off
1 RW LED 4 is on
v<address+3>.1 0 RW LED 5 is off
1 RW LED 5 is on
v<address+3>.2 0 RW LED 6 is off
1 RW LED 6 is on
v<address+3>.3 0 RW LED 7 is off
1 RW LED 7 is on
v<address+3>.4 0 RW LED 8 is off
1 RW LED 8 is on

You can also set the value to “on” or “off”, that is equivalent to 1 and 0.

Note Note that the first two output addresses are reserved and should not be used. Use address + 2 and address + 3 to control the LEDs.


DFIGLASS

The DFIGLASS is an input/output module with 6 touch buttons with addressable LEDs and a buzzer for audio feedback.

It uses 1 input and 1 output addresses in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R button 1 off
1 R button 1 on
i<address>.2 0 R button 2 off
1 R button 2 on
i<address>.3 0 R button 3 off
1 R button 3 on
i<address>.4 0 R button 4 off
1 R button 4 on
i<address>.5 0 R button 5 off
1 R button 5 on
i<address>.6 0 R button 6 off
1 R button 6 on
i<address>.fault 0 R no fault
1 R touch keypad fault
i<address>.led.1 0 RW led 1 off
1 RW led 1 on
i<address>.led.2 0 RW led 2 off
1 RW led 2 on
i<address>.led.3 0 RW led 3 off
1 RW led 3 on
i<address>.led.4 0 RW led 4 off
1 RW led 4 on
i<address>.led.5 0 RW led 5 off
1 RW led 5 on
i<address>.led.6 0 RW led 6 off
1 RW led 6 on
i<address>.backlight 0 RW backlight off
1 RW backlight on
i<address>.buzzer 0 RW buzzer disabled
1 RW buzzer enabled

You can also set the value to “on” or “off”, that is equivalent to 1 and 0.


DF4I/V

The DF4I/V is an input/output module with 4 digital inputs and 12 digital virtual outputs.

It uses four consecutive addresses in the DOMINO bus.

ID Value R/W Description
i<address>.1 0 R input pin 1 off
1 R input pin 1 on
i<address>.2 0 R input pin 2 off
1 R input pin 2 on
i<address>.3 0 R input pin 3 off
1 R input pin 3 on
i<address>.4 0 R input pin 4 off
1 R input pin 4 on
v<address+1>.1 0 RW virtual pin 1 off
1 RW virtual pin 1 on
v<address+1>.2 0 RW virtual pin 2 off
1 RW virtual pin 2 on
v<address+1>.3 0 RW virtual pin 3 off
1 RW virtual pin 3 on
v<address+1>.4 0 RW virtual pin 4 off
1 RW virtual pin 4 on
v<address+2>.1 0 RW virtual pin 1 off
1 RW virtual pin 1 on
v<address+2>.2 0 RW virtual pin 2 off
1 RW virtual pin 2 on
v<address+2>.3 0 RW virtual pin 3 off
1 RW virtual pin 3 on
v<address+2>.4 0 RW virtual pin 4 off
1 RW virtual pin 4 on
v<address+3>.1 0 RW virtual pin 1 off
1 RW virtual pin 1 on
v<address+3>.2 0 RW virtual pin 2 off
1 RW virtual pin 2 on
v<address+3>.3 0 RW virtual pin 3 off
1 RW virtual pin 3 on
v<address+3>.4 0 RW virtual pin 4 off
1 RW virtual pin 4 on

You can also set the value to “on” or “off”, that is equivalent to 1 and 0.


DFAI

The DFAI is an input module (0-10V) with 2 analog inputs.

It uses two consecutive input addresses in the DOMINO bus.

ID Value R/W Description
i<address> 0...1000 R input voltage in Volt/100
i<address+1> 0...1000 R input voltage in Volt/100

DFLUX, DFSUN

The DFLUX and DFSUN are input modules with 1 analog light sensor.

They use one input address in the DOMINO bus.

ID Value R/W Description
i<address> 0...1023 R lux level (raw level, not translated to the lux range)

DFCT

The DFCT is an input/output temperature sensor module.

It uses two consecutive input addresses and five consecutive output addresses in the DOMINO bus.

ID Value R/W Description
i<address>.mode winter R winter mode
summer R summer mode
i<address>.fan min R min fan speed
med R medium fan speed
max R max fan speed
off R fan off
i<address>.fan.mode man R manual fan mode
auto R auto fan mode
i<address>.setpoint 1 R setpoint 1
2 R setpoint 2
3 R setpoint 3
off R off
man R manual setpoint
i<address>.setpoint.mode man R manual setpoint mode
auto R auto setpoint mode
i<address>.temp <temp> R temperature value (in C/10)
fault R temperature sensor fault
i<address>.status off R off
cooling R cooling status mode
heating R heating status mode
o<address>.mode winter RW winter mode
summer RW summer mode
o<address>.fan min RW min fan speed
med RW medium fan speed
max RW max fan speed
off RW fan off
o<address>.fan.mode man RW manual fan mode
auto RW auto fan mode
o<address>.setpoint 1 RW setpoint 1
2 RW setpoint 2
3 RW setpoint 3
0 RW setpoint off
man RW manual setpoint
o<address>.setpoint.temp.1 <temp> RW temperature setpoint 1 value (in C/10)
o<address>.setpoint.temp.2 <temp> RW temperature setpoint 2 value (in C/10)
o<address>.setpoint.temp.3 <temp> RW temperature setpoint 3 value (in C/10)
o<address>.setpoint.temp.man <temp> RW temperature manual setpoint 1 value (in C/10)
o<address>.program.summer
o<address>.program.winter
refresh RW forces to daily summer/winter program for all days of the week
o<address>.program.summer.<day>
o<address>.program.winter.<day>
refresh RW forces to daily summer/winter program for the reported day (mon:1, sun:7)
<s0>...<s47> RW 48 character represents the daily setpoint program divided in time slots of 30 minutes

DFTZ

The DFTZ is an input/output temperature sensor module.

It uses 3 consecutive input addresses and 4 consecutive output addresses in the DOMINO bus.

ID Value R/W Description
i<address>.mode winter R winter mode
summer R summer mode
i<address>.setpoint comfort R comfort setpoint
eco R eco setpoint
off R off
i<address>.temp <temp> R temperature value (in C/10)
fault R temperature sensor fault
i<address>.status off R off
cooling R cooling status mode
heating R heating status mode
o<address>.mode winter RW winter mode
summer RW summer mode
o<address>.setpoint comfort RW comfort setpoint
eco RW eco setpoint
0 RW off
o<address>.setpoint.temp.comfort <temp> RW comfort setpoint value (in C/10)
o<address>.setpoint.temp.eco <temp> RW eco setpoint value (in C/10)
o<address>.setpoint.temp.limit <temp> RW summer/winter setpoint temperature limit (in C/10)

DFRHT

The DFRHT is a temperature and humidity sensor.

It uses four consecutive input addresses and two consecutive output addresses in the DOMINO bus.

ID Value R/W Description
i<address>.humidity 0...100 R relative percent umidity
i<address>.temp <temp> R temperature value
i<address>.dewpoint <temp> R dew point value
i<address>.dewpoint.limit.1 0 R dew point is lower than limit 1
1 R dew point is higher than limit 1
<temp> RW dew point limit 1
off RW limit 1 not set
i<address>.dewpoint.limit.2 0 R dew point is lower than limit 2
1 R dew point is higher than limit 2
<temp> RW dew point limit 2
off RW limit 2 not set

DFMETEO

The DFMETEO is the weather sensor module.

It uses four consecutive input addresses and three consecutive output addresses in the DOMINO bus.

ID Value R/W Description
i<address>.temp <temp> RW temperature value (in C/10)
off RW limit not set
i<address>.lux <lux*10> R lux level according to the DFLUX range
<lux> RW lux limit
0 RW limit not set
i<address>.wind 1 m/s /10 R wind value
m/s RW wind limit
0 RW limit not set
i<address>.rain 0 R no rain
1 R rain
i<address>.night 0 R day
1 R night
i<address>.temp.limit 0 R measured temp is less than limit
1 R measured temp is greater than limit
i<address>.lux.limit 0 R measured lux is less than limit
1 R measured lux is greater than limit
i<address>.wind.limit 0 R measured wind is less than limit
1 R measured wind is greater than limit
i<address>.light.south 0 R light is not coming from south
1 R light is coming from south
i<address>.light.west 0 R light is not coming from west
1 R light is coming from west
i<address>.light.east 0 R light is not coming from east
1 R light is coming from east
i<address>.fault 0 R sensor not fault
1 R sensor fault

DFCC

The DFCC is an energy meter and load manager module.

In the following table, <N> is the sequential index (1 to 3) of the DFCC module.

ID Value R/W Description
energy.<n>.power.real 0...65535 R real power (Watt)
energy.<n>.power.reactive -32768...+32767 R reactive power (var)
energy.<n>.power.apparent -32768...+32767 R apparent power (VA)
energy.<n>.power.realavg 0...65535 R average real power (Watt)
energy.<n>.power.reactiveavg -32768...+32767 R average reactive power (var)
energy.<n>.cos -1000...+1000 R cos(φ) * 1000
energy.<n>.load.1 0 R load 1 disabled
1 R load 1 enabled
energy.<n>.load.2 0 R load 2 disabled
1 R load 2 enabled
energy.<n>.load.3 0 R load 3 disabled
1 R load 3 enabled
energy.<n>.load.4 0 R load 4 disabled
1 R load 4 enabled
energy.<n>.load.5 0 R load 5 disabled
1 R load 5 enabled
energy.<n>.load.6 0 R load 6 disabled
1 R load 6 enabled
energy.<n>.load.7 0 R load 7 disabled
1 R load 7 enabled
energy.<n>.load.8 0 R load 8 disabled
1 R load 8 enabled

DFANA

Network analyzer module for Domino bus.

Uses up to 20 consecutive input addresses and, if enabled, 1 output address equal to the base input address.

ID Value R/W Description
i<address>.v12 [V] R chained voltage phase 1-2
i<address>.v23 [V] R chained voltage phase 2-3
i<address>.v31 [V] R chained voltage phase 3-1
i<address>.vtm [V] R average chained voltage
i<address>.i1 [A] R current phase 1
i<address>.i2 [A] R current phase 2
i<address>.i3 [A] R current phase 3
i<address>.itm [A] R average current
i<address>.ptot [W] R total active power
i<address>.ptotk [kW] R total active power
i<address>.qtot [W] R total reactive power
i<address>.qtotk [kW] R total reactive power
i<address>.pf [pf] R total power factor
i<address>.frequency [Hz] R frequency
i<address>.v1n [V] R voltage phase 1
i<address>.v2n [V] R voltage phase 2
i<address>.v3n [V] R voltage phase 3
i<address>.p1 [W] R active power phase 1
i<address>.p1k [kW] R active power phase 1
i<address>.p2 [W] R active power phase 2
i<address>.p2k [kW] R active power phase 2
i<address>.p3 [W] R active power phase 3
i<address>.p3k [kW] R active power phase 3

User Interface

All DOMINO devices data points that have been defined in the systemtopo.txt database are automatically listed in the Project Editor.

Adding a button to control a device output point requires just a few clicks and no additional EVENTS logic.


IO Servers Domino Project Editor.png


Besides the direct association of control buttons and data points, the DOMINO driver also automatically updates graphical objects that represent values or states of complex devices, like the DFCT temperature control unit. It will also automatically intercept buttons to manually set operation modes and temperature set-points.


DFDMX

You can define a standard HSYCO DMX server for each DFDMX module, then use the dmx and dmxrgb objects to control channels 1-64 of the DMX bus connected to the DFDMX module.

For example:

dmxServers = dmx
dmxServersId.dmx = domino.o8

Note Note that, instead of defining the dmxServersIP parameter, the dmxServersId is used to associate the DMX server with the id of the DFDMX module.


DFCC

Setting the powerdisplay option to true in Settings enables the automatic display in the GUI of the total real power measured by all DFCC modules connected to this DFCP.

Note Note that, if you have more than one DFCP gateway, you should enable this option for one gateway only.

UISET Actions

You can use any object that accepts a text attribute, usually text but also marquee and others, to automatically display the average real power measured by all DFCC modules connected to the DOMINO bus. These objects are updated even when the powerdisplay option is false.

ID Attribute Set to
energy.<n>.power value real power, followed by “ W”. <n> is the sequential index (1 to 3) of the DFCC module.

DFCT

You can use the temp and tempmini objects to control DFCT devices.


IO Servers Domino DFCT.png


UISET Actions

You can use any object that accepts a text attribute, usually text but also marquee and others, like images, to automatically display the relevant information of all DFCT modules.

ID Attribute Set to
<address>.mode summer summer mode (cooling)
winter winter mode (heating)
<address>.mode.label.summer visible the DFCT is in summer mode
<address>.mode.label.winter visible the DFCT is in winter mode
<address>.status off zone off
on zone on
<address>.status.label.cooling visible if the zone is cooling
<address>.status.label.heating visible if the zone is heating
<address>.fan off fan off
min minimum fan speed
med medium fan speed
max maximum fan speed
<address>.fan.label.min visible the fan speed is min
<address>.fan.label.med visible the fan speed is med
<address>.fan.label.max visible the fan speed is max
<address>.fan.mode man manual fan mode
auto auto fan mode
<address>.setpoint 1,2,3 active setpoint
man manual setpoint
off zone off
<address>.setpoint.label.1 visible setpoint 1 is active
<address>.setpoint.label.2 visible setpoint 2 is active
<address>.setpoint.label.3 visible setpoint 3 is active
<address>.setpoint.label.man visible manual setpoint is active
<address>.setpoint.label.off visible zone is off
<address>.setpoint.mode man manual setpoint mode
auto auto setpoint mode
<address>.setpoint.temp <value> the active setpoint temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.setpoint.temp.1 <value> the active setpoint 1 temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.setpoint.temp.2 <value> the active setpoint 2 temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.setpoint.temp.3 <value> the active setpoint 3 temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.setpoint.temp.man <value> the manual setpoint temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.temp <temp> the manual setpoint temperature, in Celsius degrees with one decimal digit, followed by " °C"
fault fault/error condition

USER Commands

There are several predefined buttons. Use any ordinary user object, setting the name and param fields based on this table.

Name Param Action
<address> mode cycle through summer and winter mode
mode.summer set summer mode (cooling)
mode.winter set winter mode (heating)
fan cycle through fan speeds and modes (auto, off, man/min, man/med, man/max, auto)
<address>.setpoint mode cycle through the manual, automatic and off operation modes
mode.man set manual operation mode
mode.auto set automatic operation mode
mode.off off mode
temp.1.up increase setpoint 1 temperature in 0.5C steps
temp.1.down decrease setpoint 1 temperature in 0.5C steps
temp.1.<t> setpoint 1 set to temperature t, in C/10 (0 <= t <= 355)
temp.2.up increase setpoint 2 temperature in 0.5C steps
temp.2.down decrease setpoint 2 temperature in 0.5C steps
temp.2.<t> setpoint 2 set to temperature t, in C/10 (0 <= t <= 355)
temp.3.up increase setpoint 3 temperature in 0.5C steps
temp.3.down decrease setpoint 3 temperature in 0.5C steps
temp.3.<t> setpoint 3 set to temperature t, in C/10 (0 <= t <= 355)
temp.man.up increase manual setpoint temperature in 0.5C steps
temp.man.down decrease manual setpoint temperature in 0.5C steps
temp.man.<t> manual setpoint set to temperature t, in C/10 (0 <= t <= 355)
<address>.fan mode cycle through the manual and automatic fan speed modes
mode.man set manual fan speed mode
mode.auto set automatic fan speed mode
up increase fan speed
down decrease fan speed
min set min fan speed
med set med fan speed
max set max fan speed
off fan off

DFTZ

You can use the tempmini object to control DFTZ devices.

You could also use the larger temp object, but some of its controls are not used with the DFTZ module.

IO Servers Domino DFTZ.png

UISET Actions

You can use any object that accepts a text attribute, usually text but also marquee and others, like images, to automatically display the relevant information of all DFTZ modules.


ID Attribute Set to
<address>.mode summer summer mode (cooling)
winter winter mode (heating)
<address>.mode.label.summer visible the DFTZ is in summer mode
<address>.mode.label.winter visible the DFTZ is in winter mode
<address>.status off zone off
on zone on
<address>.status.label.off visible if the zone is not cooling or heating
<address>.status.label.cooling visible if the zone is cooling
<address>.status.label.heating visible if the zone is heating
<address>.setpoint com comfort setpoint
man manual setpoint
off zone off
<address>.setpoint.label.1 visible comfort setpoint is active
<address>.setpoint.label.2 visible eco setpoint is active
<address>.setpoint.label.off visible zone is off
<address>.setpoint.temp <value> the active setpoint temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.setpoint.temp.1 <value> the comfort setpoint temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.setpoint.temp.2 <value> the eco setpoint temperature, in Celsius degrees with one decimal digit, followed by " °C"
<address>.setpoint.temp.man <value> the summer or winter setpoint temperature limit, in Celsius degrees with one decimal digit, followed by " °C"
<address>.temp <temp> the manual setpoint temperature, in Celsius degrees with one decimal digit, followed by " °C"
fault fault/error condition

USER Commands

There are several predefined buttons. Use any ordinary user object, setting the name and param fields based on this table.

Name Param Action
<address> mode cycle through summer and winter mode
mode.summer set summer mode (cooling)
mode.winter set winter mode (heating)
<address>.setpoint mode cycle through the manual, automatic and off operation modes
mode.comfort set comfort operation mode
mode.eco set eco operation mode
mode.off off mode
temp.up increase the active setpoint temperature in 0.5C steps
temp.down ddecrease the active setpoint temperature in 0.5C steps
temp.<t> active setpoint set to temperature t, in C/10 (0 <= t <= 355)
temp.1.up increase comfort setpoint temperature in 0.5C steps
temp.1.down decrease comfort setpoint temperature in 0.5C steps
temp.1.<t> comfort setpoint set to temperature t, in C/10 (0 <= t <= 355)
temp.2.up increase eco setpoint temperature in 0.5C steps
temp.2.down decrease eco setpoint temperature in 0.5C steps
temp.2.<t> eco setpoint set to temperature t, in C/10 (0 <= t <= 355)
temp.man.up increase setpoint temperature limit in 0.5C steps
temp.man.down decrease setpoint temperature limit in 0.5C steps
temp.man.<t> set-point temperature limit set to temperature t, in C/10 (0 <= t <= 355)

Release Notes

3.3.1

  • improved communication error logging
  • improved support of tools remote access
  • DFH module support
  • fix: DFTZ user commands mode.comfort, mode.eco, mode.off not working

3.2.2

bug fixes:

  • the toolspassword optional parameter was incorrectly converted to lower case
  • fixed a bug that prevented reading the input pins of DF4RP/I and DF4RPR/I

3.2.1

  • support for DFTZ

3.2.0

  • support for DFIGLASS
  • new "detectevents" option, generates forced events when a device is detected at start-up
  • support for the toolspassword option, to allow DFCP-IDE and other tools secure remote access to the DFCP via HSYCO
  • new clock datapoint to read the DFCP internal clock and set it to HSYCO's time

3.1.2

bug fixes:

  • the (temp) object's DFCT configuration function was broken in HSYCO 3.1.0
  • energy metering data point were not updated

3.1.1

  • added support for DF4RP/I and DFDT

3.1.0

  • added support for DFANA energy meter module

3.0.3

  • optimized performance of DFCP’s registers status polling

3.0.1

  • you can now limit the number of virtual points and registers read and written by HSYCO, and have access to all of the 1024 registers; defaults are unchanged
  • added support for DF8IL, DFDI2B and DFRHT modules

3.0.0

  • update DFDMX state at startup
  • support for failover mode

1.2.0

  • fixed bugs related to the DFDM and DFDI modules
  • integration with the DMX server engine
  • enhanced GUI support for DFCC and DFCT

1.1.0

  • automatic generation of the device map in systemtopo.txt
  • Web Editor support
  • support for DFCP’s virtual data points and registers
  • support for serial connection to the DFCP through the serial ports of HWg PortBox and ERxx network devices

1.0.0

  • initial release


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