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8,046 bytes added ,  11:34, 6 January 2022
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<languages/>
{{RevisionChanger | hasA = 1 | hasB = 1 | hasC = 1}}
{{Infobox module
| name = DW-HC10.C
| image = DW-HC10C.png
| outCount = 10
| dimmOut =
| peakl = 0.5A
| peakdl =
| dt =
| inDisc =
| inDigit = 12
| voltage = 11.5...27.5 V DC
| dim = 4U, 69x110x58 mm
}}

==10-CHANNEL HEATING CONTROLLER==

The device is designed for controlling heating devices (radiators, floor heating, fan coil units, etc.).
The device is equipped with 12 input channels for connection of temperature sensors (FW-FT or FW-TS).

==Features==
*10 outputs for NO/NC/PWM valves
*12 inputs for digital/analogue temperature sensors (FW-FT, FW-TS, NTC)
*Can to use temperature data from other modules
*10 independed heating zones with weekly shedule
*Up to 20 heating profiles
*Built-in real time clock

<div class="caution">
CAUTION! All work related to the installation, connection, setting up, service and support must be carried out by qualified personnel with sufficient skills and experience in working with electrical equipment.
To avoid the risk of fire, electric shock, damage to the system and/or personal injury, the system installation and assembly must be performed in accordance with the instructions listed below:
*all connectivity work must be carried out with the power turned OFF;
*use appropriate tools and personal protection against electric shock;
*do not use damaged cables, wires and connectors;
*avoid folding the cables and wires;
*do not apply excessive force to the wires by kinking or pressing them too hard: the inner conductors of the cables and wires may get stripped or damaged;
*do not use the power socket with poor contacts to connect;
*do not exceed the load limit parameters specified in the manual;
*the supply conductors wire section is subject to the specifications for current density limit, insulation type and wire material. Light section can result in cable overheating and fire.
When the power is on, NEVER:
*connect/disconnect the connectors;
*open modules and sensors.
</div>

==Overview==

[[File:HC10C VIEW.png|500px]]

==Example of connection==

[[File:HC10C EXA.png|500px]]

==Module dimensions==

[[File:HC10C DIM.png|500px]]

==Module parameters==

{{Mp
| outqty = 10
| inqty = 12
| loadtype = NO / NC / PWM (0.4Hz)
| supportedsens = DS18B20 / NTC (7-15kOhm)
| involtage = 20-250V
| currtype = AC/DC
| maxperch = 0.5A(110W at 220V)
| maxperdev = 1A(220W at 220V)
| power = 11.5 … 27.5 V DC from CAN
| maxcur24v = 110 mA
| smaxlen = 30m
| bustype = CAN (4-wire)
| instalation = DIN-rail (EN 60715)
| case = ABS
| protection = IP40
| temprange = -10 … +50 °C
| size = 4U, 69x110x58 mm
| weight = 140 g
}}

==Connection of high load device==

{| class="wikitable" style="width:800px" ;
|-
|[[File:HC10Cexa1.png|200px|Contactor]]|| style="margin:20px" |Recomended contactors:
*ABB ESB series
*Schneider Acti 9 iCT series
*Hager ESC series.
|}

==Input connector pinout==

[[File:inputs.png|200px|Contactor]]


==Example of sensors connection==

[[File:HC10Cexa3.png|200px|Contactor]]

==Indication of module operation==
===Bootloader===
{{indication| textBBB= Waiting for bootloader command}}
===Firmware===
{{indicationfw
|topgl = 1
|topyl = 0
|err1 = 1
|err2 = 1
|err4 = 1
|err5 = 1
}}

==Module installation and connection procedure==

*Install the module in the switchboard on the DIN rail and fix it with the special latch on the module base.
*Connect the CAN connector.
*Connect the input/output channels.
*Configure the module using LT setup.
*Apply power to the load.
*Check all equipment for proper operation.

==Module shut-off and deinstallation procedure==

*Disconnect the power from the load.
*Disconnect the input/output channels.
*Disconnect the CAN connector.
*Remove the module from the DIN rail, releasing the latch at the bottom of the module base.

==HW settings==
{| class="wikitable"
|-
!Name!!Type, range!!SUBID!!Default!!Description
|-
|-
|def||string||1-10||'OFF'||Def is the element status is set after restart, is used for lamp, heating, valve(1 pole);
Set 'last' saved state of the element in case of a power reset. The element save his state after stay unchanged for 10 minutes.
Example:
def='ON'
def='last'
|-
|offset||integer -39 – 39||31-42||0||It is the sensor values offset; Example: offset='-1.2'
|-
|mode||string||98||'AС'||Output operatoin mode:
*'AС' – 220V AC
*'DC' – DC current
|-
|out||char[10]||98||'HHHHHHHHHH'||Each char is responsible for the type of a particular channel
*'D'- PWM output (frequency 0.4Hz);
*'L'-Lamp;
*'M'-Lamp Inverse;
*'J'-Heating NO, valve-heating, normally open;
*'H'-Heating NC, valve-heating, normally closed;
*'V'-Valve (2 pole), 2 pole valve;
*'W'-Valve (2 pole) Inverse, 2 pole valve, invert open-close;
*'R'-Valve (1 pole), 1 pole valve,;
*'S'-Valve (1 pole) Inverse, 1 pole valve, invert open-close;
*'K'-Lock (short press);
*'N'-Lock (short press) Inverse;
*'F'-FanCoil. Group1 (Lamp Toggle). For fancoil speed control;
*'E'-FanCoil. Group2 (Lamp Toggle). For fancoil speed control;
*'Q'-FanCoil. Group3 (Lamp Toggle). For fancoil speed control;
*'U'-FanCoil. Group4 (Lamp Toggle). For fancoil speed control;
*'I'-FanCoil. Group5 (Lamp Toggle). For fancoil speed control;
*'-'-none, nothing is connected.
Example: out='BGLKMVX'
|-
|in||char[12]||98||'++++++++++++'||Each char is responsible for the type of a particular channel
*'D'-DS18B20 digital sensor;
*'R'-Analogue temperature sensor;
*'+'-Autodetection;
*'-'Not used;
Example: out='+DR+R–R+RD+'
|-
|r||int||31-42||'10000'||Analogue temperature sensor`s resistance on 25 °C.
Example: r='8000'
|}

<syntaxhighlight lang="xml" line="">
<item addr="348:1" cfgid="43" name="Jalousie" sub-type="120" type="jalousie" uniq_id="4097" hw="runtime=45"/>
<item addr="348:3" auto-period="600" cfgid="43" name="Lamp" type="lamp" uniq_id="4098" hw="def='ON'"/>
<item addr="348:4" cfgid="43" name="Gate" sub-type="120" type="gate" uniq_id="4099" hw="runtime=30"/>
<item addr="348:6" cfgid="43" name="Lock" type="lamp" uniq_id="4100" hw="hold=5000"/>
<item addr="348:7" cfgid="43" name="Radiator" type="valve-heating" uniq_id="4029" hw="def='ON'">
<automation name="Eco" temperature-level="16" uniq_id="4030"/>
<automation name="Comfort" temperature-level="22" uniq_id="4031"/>
<automation name="Hot" temperature-level="25" uniq_id="4032"/>
</item>
<item addr="348:8" cfgid="43" name="Radiator" type="valve-heating" uniq_id="4033" hw="def='OFF'">
<automation name="Eco" temperature-level="16" uniq_id="4034"/>
<automation name="Comfort" temperature-level="22" uniq_id="4035"/>
<automation name="Hot" temperature-level="25" uniq_id="4036"/>
</item>
<item addr="348:31" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4089" hw="offset=10"/>
<item addr="348:32" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4090" hw="offset=-15"/>
<item addr="348:33" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4091"/>
<item addr="348:34" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4092" hw="offset=5"/>
<item addr="348:35" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4093"/>
<item addr="348:36" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4094"/>
<item addr="348:37" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4095"/>
<item addr="348:38" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4096"/>
<item addr="348:39" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4097"/>
<item addr="348:40" cfgid="43" name="Temperature" type="temperature-sensor" uniq_id="4098"/>
<item addr="348:97" cfgid="43" name="Temperature" system="yes" type="temperature-sensor" uniq_id="4041"/>
<item addr="348:98" cfgid="43" hw="out='B-LG-KHJ--'" name="Temperature" system="yes" type="temperature-sensor" uniq_id="4042"/>
</syntaxhighlight>
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