Airzone Azx6knxgtway User manual

rebmuNegaPdraobpilC

Installation Manual

TABLE OF CONTENTS

Warnings and environmental policy..................................................................................................................................................................................3

Precautions.............................................................................................................................................................................................................................3

Environmental policy .........................................................................................................................................................................................................3

General requirements..............................................................................................................................................................................................................3

Introduction.................................................................................................................................................................................................................................4

Assembly.......................................................................................................................................................................................................................................4

Connection...................................................................................................................................................................................................................................4

Configuration ..............................................................................................................................................................................................................................5

General recommendations ..............................................................................................................................................................................................6

Configuration parameters................................................................................................................................................................................................6

Communication objects..........................................................................................................................................................................................................8

AZ6 Range - Flexa 3.0 (AZCE6), Acuazone & Innobus Pro32 (AZDI6) ..............................................................................................................8

WARNINGS AND ENVIRONMENTAL POLICY

PRECAUTIONS

For your security, and to protect the devices, follow these instructions:

•Do not handle the system with wet or damp hands.

•Disconnect the power supply before making any connections.

•Take care not to cause a short circuit in any of the system connections.

ENVIRONMENTAL POLICY

Do not dispose of this equipment in the household waste. Electrical and electronic

equipment contain substances that may damage the environment if they are not handled

appropriately. The symbol of a crossed-out waste bin indicates that electrical equipment

should be collected separately from other urban waste. For correct environmental

management, it must be taken to the collection centres provided for this purpose, at the

end of its useful life.

The equipment's components may be recycled. Act in accordance with current regulations

on environmental protection.

If you replace it with other equipment, you must return it to the distributor or take it to a

specialized collection center.

Those breaking the law or by-laws will be subject to such purposes and measures as are

laid down in environmental protection legislation.

GENERAL REQUIREMENTS

Strictly follow the directions outlined in this manual:

•This system must be installed by a qualified technician.

•Make all the connections with total absence of power.

•Set and connect the elements in accordance with the electronic regulations in force.

•In order to connect the elements of the system, use the Airzone cable: shielded twisted cable formed by 4 wires

(2x0.22 mm2 + 2x0.5mm2).

•Do not connect the "-" pole in the "+" terminal. It may damage the device.

•For elements externally powered at 230 Vac, for the communications, it is only necessary to connect the poles "A"

and "B" of the bus. Connecting the "+" and " -" power poles is not recommended.

•Follow the color code for all the elements of the system.

•Do not place the system bus close to lines of force, fluorescent lights, motors, etc. It might cause interference on

communications.

Important: According to the current local and national regulations, it is mandatory to add a switch (or other element to

disconnect the system) to the external supply wiring so that a constant separation between poles is guaranteed. The system

will restart automatically if the supply is eventually turned off.

INTRODUCTION

The KNX gateway enables the integration of Airzone HVAC systems through ModBus in KNX TP-1 systems.

ASSEMBLY

KNX integration gateway is mounted on DIN rail. This module is powered through the automation bus of the main control

board and the KNX bus of the installation. It should be placed and mounted in accordance with the current electrotechnical

regulations.

Note: To remove the module, pull the reed down.

CONNECTION

The KNX gateway connects to the AC unit bus of the main control board.

AZCE6FLEXA3 / AZCE6IBPRO6

AZDI6ACUAZONE / AZDI6IBPRO32

Nº

Description

Programming button

KNX bus

Automation bus

It has a 5-pin terminal to connect it to the automation bus of the main control

board . Attach the wires with the terminal screws following the color code.

It has a KNX standard connector to connect it to the KNX bus . Connect the KNX

gateway to the KNX TP-1 bus following the color code.

The control module of radiant elements (ARZA6OUTPUT8Z) is a device connected

to the Airzone connection bus of the main board.

CONFIGURATION

This device is totally compatible with KNX, so you can configure it and set it up through ETS tool.

To do this, download the product database at:

http://doc.airzone.es/producto/actuales/Airzone/Comunes/Softwares/BBDD_AZX6KNXGTWAY.zip

The setup of the database in the ETS tool will be performed as usual. Once the database is imported, select the application

named DI6Flexa3App.

Note: For more information about the commissioning of KNX products from ETS, please refer to "Diseño de proyectos KNX con ETS:

Fundamentos”.

Important: The available database is compatible with HW v.1.2 version.

AZRA6OUTPUT8Z

AZRA6RADIANT

Nº

Description

Programming button

KNX bus

Automation bus

GENERAL RECOMMENDATIONS

Before starting the commissioning, please follow these recommendations:

•Address the zoning system before the commissioning from ETS to integrate it with the KNX devices available in the

network.

•Do not associate communication devices that won’t be used in the KNX project. The number of associations is

limited to 247.

•Configure the device parameters by selecting the topology of the used system and select the corresponding values

for the device parameters used in the system.

•If there is any zone without an Airzone thermostat, to control the zone from a KNX device, previously configure the

zone from the KNX control device or from the group address monitor. This configuration is important to control the

zones in water installations (to access a zone, it must have at least a valid Airzone address).

•If there is more than one system and these systems are connected to VRF units, it is essential to group the mode

changeover communication objects at the same group address.

•If you do not have Airzone thermostats in the installation, it is important to:

oTo indicate the flag switch in the OC of local temperature.

oReport the room temperature of each zone every 5 minutes or less. Otherwise, the main control board will

remove the zone and you will not be able to control it.

oAfter downloading the application program or after a power failure of the system, it is necessary to send

all communication objects that are being used (Room T, Set-point temp, On/Off, Mode, Stage, etc.).

CONFIGURATION PARAMETERS

The configurable parameters are related to the communication objects available for the KNX-Airzone gateway. They are

visible in the device database for the ETS software tool depending on the system configuration and the available zones. The

value of each parameter is selected during the setup process, based on the peripherals connected to the system.

To control the AC system through KNX it is necessary to select the proper system topology, because this parameter affects

the rest of parameters, as the number of available zones or the selection of some communication characteristic objects of

each technology.

The representation of the system communication objects will be displayed in the ETS tool according to the values assigned

to the parameters during the device configuration and setting up, changing the system and zone configuration.

The commissioning starts by selecting the values of the System parameters.

•System topology: Allows you to select the topology of the system. It is configured as centralized by default, so the

available communication objects will be displayed.

Remember: Depending on the selected topology, the communication objects related to this mentioned topology will be

displayed. Modify the topology anytime considering that this parameter is the most influential for the commissioning.

•System model: Allows you to select the model of the system. FLEXA 3 system is selected by default, which means

that the communication objects which are not available for this system will not be visible.

•Type of installation: Determines the type of installation. These are the available options: Inverter (A/A) - Fan Coil

(F/C) (by default), 2-pipe installation, 4-pipe installation and mixed.

When you configure it as Inverter (A/A) - Fancoil (F/C), you also have to select the Unit gateway type: Inverter

unit gateway (A/A) or Fancoil unit gateway.

If you configure it as 2-pipe or 4-pipe installation, the Ventilation speed per zone will be available if the zone is

controlled by a Fancoil module.

If it is configured as 4-pipe installation, you can select, in addition, the value of the operation mode of the AC unit

by enabling the Zone operation mode.

•Radiant elements module. Allows you to enable/disable the control module of radiant elements connected to the

system. It is Not connected by default. If you enable this parameter, you will see a sub-menu where you can enable

all the control modules of radiant elements connected to the system.

The KNX gateway can control the first 14 zones of the 32 zones available. Therefore only 2 out of the 4 modules

connected to the system can be controlled.

Furthermore, if you selected the Acuazone system on the System model parameter, you will see a sub-menu for

selecting the type of control performed by the radiant modules: Heating, Cooling or Combined

(Heating/Cooling). Depending on the option selected, the corresponding communication objects will be

activated.

Activate/deactivate the zones from the zone menu. When a zone is enabled, an Airzone thermostat appears next to the zone

menu. The value by default is No.

The default communication objects of the zones are CZ zone Error, zone On/Off,set-point temperature and local

temperature.

Zone Error combines the control of status of 3 different parameters: Window alarm, actuator error 3 and 4.

Heating source configuration and Cooling source configuration will only be available when the system chosen is

Acuazone and the Radiant elements module is configured as connected.

Follow these steps to configure the device:

Parameters in centralized topology

Parameters in distributed topology

COMMUNICATION OBJECTS

The available communication objects on the ETS will vary according to the system. For this reason, there is a functional

division of the communication objects available in two categories: systems or zones. There are 8 zones available for

centralized systems and up to 8 for distributed systems.

AZ6 RANGE - FLEXA 3.0 (AZCE6), ACUAZONE & INNOBUS PRO32 (AZDI6)

Object number

Name

CS communication error – Status

Function

System 1 status

Description

This object reports if a communication error occurs in the system communication gateway.

Values

Alarm Error; No Alarm No Error

Type of access to the Bus

Reading

Data point identification

1,005 (DPT_Alarm)

Object number

Name

AC operation mode

Function

Mode changeover

Description

This object allows the user to change the operation mode of the AC unit connected to system

1 increasing the value of the object if applicable.

Values

1 Heating; 3 Cooling; 6 Off; 9 Fan; 14 Dray

Type of access to the Bus

Reading

Data point identification

20,105 (DPT_HVACContrMode)

Object number

Name

AC operation mode

Function

Mode changeover

Description

This object allows the user to change the operation mode of the AC unit connected to system

1 increasing the value of the object if applicable.

Values

1 Heating; 3 Cooling; 6 Off; 9 Fan; 14 Dry

Type of access to the Bus

Writing

Data point identification

20,105 (DPT_HVACContrMode)

Object number

Name

STOP Mode

Function

On/off

Description

This communication object reads the operation mode of the AC unit, switching to STOP mode

when object value is ON and returning to the previous mode in system 1 if the mode value is

OFF.

Values

On STOP mode on; Off STOP mode off

Type of access to the Bus

Reading

Data point identification

1,001

Object number

Name

STOP Mode

Function

On/off

Description

This communication object activates/deactivates the operation mode of the AC unit,

switching to STOP mode when object value is ON and returning to the previous mode in

system 1 if the mode value is OFF.

Values

On STOP mode on; Off STOP mode off

Type of access to the Bus

Writing

Data point identification

1,001

Object number

Name

COOLING mode

Function

On/off

Description

This communication object reads the operation mode status of the AC unit connected to

system 1, switching to COOLING AIR mode when the value is ON and returning to the

previous mode when the mode value is OFF.

Values

Off Cooling air mode Off; On Cooling air mode On

Type of access to the Bus

Reading

Data point identification

1,001

Object number

Name

COOLING mode

Function

On/off

Description

This communication object activates/deactivates the operation mode of the AC unit

connected to system 1, switching to COOLING AIR mode when the value is ON and returning

to the previous mode when the mode value is OFF.

Values

Off Cooling air mode Off; On Cooling air mode On

Type of access to the Bus

Writing

Data point identification

1,001

Object number

Name

HEATING mode

Function

On/off

Description

This communication object reads the operation mode status of the AC unit connected to

system 1, switching to HEATING mode when the value is ON and returning to the previous

mode when the mode value is OFF.

Values

Off Heating air mode Off; On Heating air mode On

Type of access to the Bus

Reading

Data point identification

1,001

Object number

Name

HEATING mode

Function

On/off

Description

This communication object activates/deactivates the operation mode of the AC unit

connected to system 1, switching to HEATING mode when the value is ON and returning to

the previous mode when the mode value is OFF.

Values

Off Heating air mode Off; On Heating air mode On

Type of access to the Bus

Writing

Data point identification

1,001

Object number

Name

VENTILATION mode

Function

On/off

Description

This communication object reads the operation mode status of the AC unit connected to

system 1, switching to VENTILATION mode when the value is ON and returning to the

previous mode when the mode value is OFF.

Values

Off Ventilation mode Off; On Ventilation mode On

Type of access to the Bus

Reading

Data point identification

1,001

Object number

Name

VENTILATION mode

Function

On/off

Description

This communication object activates/deactivates the operation mode of the AC unit

connected to system 1, switching to VENTILATION mode when the value is ON and returning

to the previous mode when the mode value is OFF.

Values

Off Ventilation mode Off; On Ventilation mode On

Type of access to the Bus

Writing

Data point identification

1,001

Object number

Name

DRY mode

Function

On/off

Description

This communication object reads the operation mode status of the AC unit connected to

system 1, switching to DRY mode when the value is ON and returning to the previous mode

when the mode value is OFF.

This mode can be only activated when it is available in the AC unit to which the system is

connected.

Values

Off Dry mode Off; On Dry mode On

Type of access to the Bus

Reading/Writing

Data point identification

1,001

Object number

Name

DRY mode

Function

On/off

Description

This communication object activates/deactivates the operation mode of the AC unit

connected to system 1, switching to DRY mode when the value is ON and returning to the

previous mode when the mode value is OFF.

This mode can be only activated when it is available in the AC unit to which the system is

connected.

Values

Off Dry mode Off; On Dry mode On

Type of access to the Bus

Writing

Data point identification

1,001

Object number

Name

VENTILATION speed of the system

Function

Speed of the system changeover

Description

This object is used to read the value of the ventilation speed set in the system in installations

Values

0% Automatic; (1%-33%) Speed 1; (34%-66%) Speed 2; (67%-100%) Speed 3

Type of bus access

Reading

Data point identification

5,001 (DPT_Scalling)

Object number

Name

VENTILATION speed of the system

Function

Speed of the system changeover

Description

This object is used to read or write the value of the ventilation speed set in the system in

installations

Values

0% Automatic; (1%-33%) Speed 1; (34%-66%) Speed 2; (67%-100%) Speed 3

Type of bus access

Writing

Data point identification

5,001 (DPT_Scalling)

Object number

Name

Date

Function

Date

Description

This object is used to read the date stored in the system. Format = day/month/year.

Values

Day of the month: 1...31

Month: 1…12

Year: 1990...2089

Type of access to the Bus

Reading

Data point identification

11,001

Object number

Name

Date

Function

Date

Description

This object is used to read or write the date stored in the system. Format = day/month/year.

Values

Day of the month: 1...31

Month: 1…12

Year: 1990...2089

Type of access to the Bus

Writing

Data point identification

11,001

Object number

Name

Time

Function

Time

Description

This object is used to read the time stored in the system, displaying the

hour/minutes/seconds.

Values

Hour: 0…24

Minutes: 0…59

Seconds: 0…59

Type of bus access

Reading

Data point identification

10,001

Object number

Name

Time

Function

Time

Description

This object is used to read or write the time stored in the system, displaying the

hour/minutes/seconds.

Values

Hour: 0…24

Minutes: 0…59

Seconds: 0…59

Type of bus access

Writing

Data point identification

10,001

Object number

Name

COOLING demand

Function

Status

Description

This object reads the status register value, which indicates if there is cooling demand. This

value is 0 on direct expansion units.

Values

0 Deactivated; 1 Activated

Type of bus access

Reading

Data point identification

1,003 (DPT_Enable)

Object number

Name

HEATING demand

Function

Status

Description

This object reads the status register value, which indicates if there is heating demand. This

value is 0 on direct expansion units.

Values

0 Deactivated; 1 Activated

Type of bus access

Reading

Data point identification

1,003 (DPT_Enable)

Object number

Name

AIR demand

Function

Status

Description

This object reads the status register value, which indicates if there is air demand. This value is

0 on direct expansion units.

Values

0 Deactivated; 1 Activated

Type of bus access

Reading

Data point identification

1,003 (DPT_Enable)

Object number

Name

FLOOR demand

Function

Status

Description

This object reads the status register value, which indicates if there is floor demand.

Values

0 Deactivated; 1 Activated

Type of bus access

Reading

Data point identification

1,003 (DPT_Enable)

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

103

119

135

151

167

183

199

215

231

Name

Zone X - Communication Error

Function

Status

Description

This communication object allows the gateway to detect the communication errors occurred

in the zones.

Values

Alarm Error; No Alarm No Error

Type of bus access

Reading

Data point identification

1,005

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

104

120

136

152

168

184

200

216

232

Name

Zone x - ON/OFF

Function

On/off:

Description

From this object you can read the status of a zone.

Values

0 Zone OFF; 1 Zone ON

Type of bus access

Reading

Data point identification

1,001

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

105

121

137

153

169

185

201

217

233

Name

Zone x - ON/OFF

Function

On/off:

Description

From this object you can activate/deactivate a zone.

Values

0 Zone OFF; 1 Zone ON

Type of bus access

Writing

Data point identification

1,001

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

26 42 58 74 90 106 122 138 154 170 186 202 218 234

Name

Zone X - Set-point temperature

Function

Temperature

Description

It is used to read the set-point temperature value. It is possible to select any available zone.

Values

Celsius degrees format: 0ºC…99ºC, steps of 0,5ºC

Type of bus access

Reading

Data point identification

9,001

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

107

123

139

155

171

187

203

219

235

Name

Zone X - Set-point temperature

Function

Temperature

Description

It is used to define the set-point temperature value. It is possible to select any available zone.

Values

Celsius degrees format: 0ºC…99ºC, in steps of 0,5ºC

Type of bus access

Writing

Data point identification

9,001

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

108

124

140

156

172

188

204

220

236

Name

Zone x – Relative humidity

Function

Humidity

Description

It is used to read the relative humidity value.

Values

0=0% ... 100=100%

Type of bus access

Reading

Data point identification

9,007

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

109

125

141

157

173

189

205

221

237

Name

Zone X - Local temperature

Function

Temperature

Description

It is used to define the local temperature value. In order to make zones without Airzone

elements work, it is required to write the room temperature from this object.

Values

0ºC…99,9ºC, in steps of 0,1ºC

Type of bus access

Reading

Data point identification

9,001

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

30 46 62 78 94 110 126 142 158 174 190 206 222 238

Name

Zone X - Local temperature

Function

Temperature

Description

It is used to define the local temperature value. In order to make zones without Airzone

elements work, it is required to write the room temperature from this object.

Values

0ºC…99,9ºC, in steps of 0,1ºC

Type of bus access

Writing

Data point identification

9,001

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

111

127

143

159

175

191

207

223

239

Name

Zone x - Zone fancoil speed

Function

Speed changeover

Description

These objects are used to read the value of the ventilation speed of the zone in 2-pipe, 4-pipe

or mixed installations with Fancoil local module.

Values

0% Fan Speed Auto; (1-33%) Fan Speed (34-66%); 2 Fan Speed 2;

(67-100%)



Fan Speed 3

Type of bus access

Reading

Data point identification

5,001 (DPT_Scalling)

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

112

128

144

160

176

192

208

224

240

Name

Zone x - Zone fancoil speed

Function

Speed changeover

Description

These objects are used to read or write the value of the ventilation speed of the zone in 2-

pipe, 4-pipe or mixed installations with Fancoil local module.

Values



Fan Speed Auto; (1-33%)



Fan Speed (34-66%); 2



Fan Speed 2;

(67-100%) Fan Speed 3

Type of bus access

Writing

Data point identification

5,001 (DPT_Scalling)

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

113

129

145

161

177

193

209

225

241

Name

Zone X - Zone operation mode

Function

Mode changeover

Description

It is used to read the operation mode of the zone in 4-pipe installations.

Values

1 Heating; 3 Cooling; 6 Off; 9 Fan; 14 Dry

Type of bus access

Reading

Data point identification

20,105

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

34 50 66 82 98 114 130 146 162 178 194 210 226 242

Name

Zone X - Zone operation mode

Function

Mode changeover

Description

It is used to change the operation mode of the zone in 4-pipe installations.

Values

1 Heating; 3 Cooling; 6 Off; 9 Fan; 14 Dry

Type of bus access

Writing

Data point identification

20,105

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

115

131

147

163

179

195

211

227

243

Name

Zone X – Heat Stage

Function

Configuration

Description

It is used to read the configuration of the heating stages of the zone: Air, Underfloor Heating

or both of them at the same time.

Values

1 Air heating stage; 2 Water heating stage; 5 Water and air heating stage

Type of bus access

Reading

Data point identification

20,108 (DPT_ValveMode)

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

100

116

132

148

164

180

196

212

228

244

Name

Zone X – Heat Stage

Function

Configuration

Description

It is used to change the configuration of the heating stages of the zone: Air, Underfloor

Heating or both of them at the same time.

Values

1 Air heating stage; 2 Water heating stage; 5 Water and air heating stage

Type of bus access

Writing

Data point identification

20,108 (DPT_ValveMode)

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

101

117

133

149

165

181

197

213

229

245

Name

Zone X – Cool Stage

Function

Configuration

Description

It is used to change the configuration of the cooling stages of the zone: Air, Underfloor

Cooling or both of them at the same time.

Values

3 Air cooling stage; 4 Water cooling stage; 5 Water and air cooling stage

Type of bus access

Reading

Data point identification

20,108 (DPT_ValveMode)

Z. 1

Z. 2

Z. 3

Z. 4

Z. 5

Z. 6

Z. 7

Z. 8

Z. 9

Z. 10

Z. 11

Z. 12

Z. 13

Z. 14

Object number

102

118

134

150

166

182

198

214

230

246

Name

Zone X – Cool Stage

Function

Configuration

Description

It is used to change the configuration of the cooling stages of the zone: Air, Underfloor

Cooling or both of them at the same time.

Values

3 Air cooling stage; 4 Water cooling stage; 5 Water and air cooling stage

Type of bus access

Writing

Data point identification

20,108 (DPT_ValveMode)

Parque Tecnológico de Andalucía

Marie Curie, 21 - 29590

Campanillas - Málaga (España)

Teléfono: +34 900 400 445

Fax: +34 900 400 446

http://www.myzone.airzone.es

Parc Tertiaire Silic – Inmeuble Panama

45 Rue Villeneuve

94573 Rungis - France

Téléphone : +33 184 884 695

Fax : +33 144 042 114

http://www.myzone.airzonefrance.fr

Via Fabio Filzi, 19/E – 20032

Cormano – Milano - Italia

Telefono: +39 02 56814756

Fax: +39 02 56816158

http://www.myzone.airzoneitalia.it

Table of contents

Popular Gateway manuals by other brands

DEUTSCHMANN AUTOMATION

DEUTSCHMANN AUTOMATION UNIGATE CL instruction manual

SURFboard

SURFboard SBG6700-AC user guide

Johnson Controls

Johnson Controls MAP 1810 quick start guide

ZyXEL Communications

ZyXEL Communications P-660HW-T1 user guide

Dinstar

Dinstar DAG2000-32 user manual

Maretron

Maretron J2K100 Specifications

Honeywell

Honeywell RedLINK THM6000R operating manual

Trend Micro

Trend Micro Cloud Edge 70 G2 quick start guide

Dialogic

Dialogic IMG 1010 quick start guide

HMS Networks

HMS Networks Intesis INMBSDAL0640200 Installation sheet

Epygi

Epygi QUADROISDN installation guide

THOMSON

THOMSON SpeedTouch 510v5 user guide

IFM Electronic

IFM Electronic AC1376 operating instructions

Asus

Asus AAEON SPG-M041 user manual

ProSoft Technology

ProSoft Technology ICX35-HWC user manual

H3C

H3C SecPath M9000 Series quick guide

RTA

RTA 460ESBM-N34 Product user guide

VPNet

VPNet VSU 100 quick start

Airzone AZX6KNXGTWAY User manual

Popular Gateway manuals by other brands