Climatix LON communication with POL SNVTs for eq zone application v1.x

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Climatix SNVTs for eq zone application v1.x

Table of contents 1 About this document...3 1.1 Revision history...3 1.2 Before you start...3 1.3 Reference documents...3 2 Application...4 2.1 General information...4 3 Network variables...5 3.1 Overview...5 3.2 General...6 3.3 Mandatory variables...7 3.4 Optional input variables...8 3.5 Optional output variables...12 3.6 Configuration parameters...25 4 Appendix...26 4.1 Description of SNVTs...26 2

1 About this document 1.1 Revision history Version Date Changes Section Pages 26.01.2011 First edition 1.2 Before you start Validity This document applies to the following product: Name Type (ASN) Version Fläkt Woods standard application, eq POL63x.00/AHU x.xx zone LON image POLXXX_Std_AHU_V100 (ClimatixAHU) 1.00 This document is a supplement to the general integration guide: "" *) *) POL906.00: Climatix LON communication module That document must be read first and all general information such as document conventions, important information on safety, trademarks, copyright etc. are valid for this document as well. This document only contains the uniqe information for the product mentioned above. All general engineering information such as mounting modules, communication settings etc. are described in the integration guide. Prerequisite User has read the general LON integration guide for Climatix, 8971GB. 1.3 Reference documents Further information The following documents contain additional information on the products described in this manual: Document Order no. Data sheet "Communication module LON" CB1Q3931en Integration Guide "" 8971GB 3

2 Application 2.1 General information Standard application eq zone Standard application eq Zon v1.x is available at this time. It contains all common functions to control and monitor air conditioning in 4 zones and 4 associated fans. The following diagram provides an overview: Detailed information Contact Fläkt Woods support for a detailed description of standard application eq zon v1.x. Network variables The set of loadable files mentioned above also includes a mapping file for integration in a higher building automation and control system via communications module. The Climatix controller automatically assumes the network variables required for integration as per the plant data points and functions configured and parameterized previously. The following tables list all network variables as per the overview in Section 0. Network variables 4

3. Network variables 3.1 Overview Contents of LON image set AHU V1.x The LON module's Neuron application supports 62 network variables to integrate controllers with air handling applications in a management station, and allow controllers to exchange data over LON. The figure shows the variables for LON image set (XIF) POLXXX_Std_AHU_V100 (ClimatixAHU V1.x) and their SNVTs, grouped as follows: Mandatory network variables (A) Optional network variables (B) Configuration parameters (C) nvirequest SNVT_obj_request A nvostatus SNVT_obj_status P3931Z10 nvitemps SNVT_temp_setpt B nvotemps SNVT_temp_setpt nvotemp01 nvotemp02 nvitemp01 nvotemp03 nvotemp04 nvotemp05 nvitemp02 nvotemp06 nvotemp07 nvotemp08 nvihum00 SNVT_abs_humid nvohum00 SNVT_abs_humid nvohum01 SNVT_abs_humid nvihum01 SNVT_abs_humid nvoflow00 SNVT_flow nvoflow01 SNVT_flow nvippm00 nvoppm00 nvipress_flow00 nvopress00 SNVT_press_p nvopress01 SNVT_press_p nvopress02 SNVT_press_p nvipress_flow01 nvipress_flow02 nvipress_flow03 Neuron Application AHU V1.x nvopress_flow00 nvoperc00 nvoperc03 nvopress_flow01 nvoperc01 nvoperc04 nvoperc02 nvoperc05 nvipress_flow04 nvoperc06 nvoperc07 nvoperc08 nvipress_flow05 nvoperc09 nvoperc10 nvoperc11 nviresetalarm SNVT_switch nvoperc12 nvoperc13 nvoperc14 nviopmode SNVT_switch nvoopmode SNVT_switch nvicontrol SNVT_state nvoswitch00 SNVT_switch nviacttime SNVT_time_stamp nvostate SNVT_state_64 nvodo SNVT_state_64 nvodi SNVT_state_64 nvoalarm SNVT_state_64 ncimaxsndtime SNVT_time:sec C ncimaxrcvtime SNVT_time_sec ncistartupdelay SNVT_time_sec The sections below describe the network variables. 5

3.2 General Purpose SNVT handling The following sections describe the network variables used in the specific application and LON image (XIF), see Section 1.2 "Before you start". Pay attention to the following explanations concerning some specific characteristics of SNVTs and elements used: SNVT / Element Explanation Heartbeat All output (nvo) SNVTs send heartbeat. No SNVTs requires heartbeat from the network. All input (nvi) SNVTs write back changed values, from the controller, to the Neuron, means that a setpoint could be set from both the controller and the network, depending on BMS system. Min Send time Some output (nvo) SNVTs use the "Min send time". Means that this SNVT have fastest send interval of x seconds. SNVT_state Climatix are using SNVT_state binary counted from left to right and due to that some LON devices counts from right. In this case it is necessary to invert the bits, Bit0=Bit15, Bit1=Bit14... SNVT_switch The state part for SNVT_switch must be set to 1 (Active) to use the value part. SNVT_temp_setpt The SNVT_temp_setpt is used for different temperature set points and to show the actual set points, and it could be different set points than named within the SNVT due to these names are fixed. Example is the first value "occupied cool" used for Basic heating set point instead. See further in this document. Override I/Os Inputs that are possible to override via LON is marked with (I/O), theese must first be setup to be overridden via communication, see Integration guide. SNVT info The following tables briefly describe each variable used and it's SNVT. Thereby the "NV index" presents the network variable number in the XIF file (LON image). Refer to 4.1 "Description of SNVTs" for more information on the SNVTs. In the configuration mode it s possible to activate Zone 1 Zone 4 and Fan 1 4 in the same regulator. But the LON network variables are only 63 / regulator. This means that it s only possible to control 2 Zones or 2 Fans in 1 regulator. If there is a need to have 3 or 4 zones/fans it only possible with 2 regulators. Ex. Regulator 1 Zone 1 2, Fan 1 2 Regulator 2 Zone 3 4, Fan 3 4 Zone 1 and 3 use the same network variables. Fan 1 and 3 use the same network variables. Zone 2 and 4 use the same network variables. Fan 2 and 4 use the same network variables. 6

3.3 Mandatory variables Introduction Input variable nvirequest Two of the network variables supported by the LON module's Neuron application are mandatory. They are needed for system purposes: The two variables are: nvirequest nvostatus Requires a particular mode for a specific object in a device. nvirequest Object request SNVT_obj_request NV index: 0 Output variable nvostatus Signals the status of the requested object in the device. nvostatus Object status SNVT_obj_status NV index: 1 7

3.4 Optional input variables Introduction The LON module's Neuron application supports 62 network variables. 56 of these are optional. The following tables briefly describe each variable and its SNVT. The network variable tables are listed by: Input variables (23) Output variables (33) Input variables nvitemps Inputs variables sorted according to the overview of Section 0: nvitemps Names in SNVT Heating Setpoint Zone 1 or 3 Cooling deadzone Zone 1 or 3 Min limit Zone 1 or 3 Heating Setpoint Zone 2 or 4 Cooling deadzone Zone 2 or 4 Min limit Zone 2 or 4 NV index: 14 SNVT_temp_setpt Structured setpoint variable for 6 temperature setpoints. Different setpoint combinations are used depending on configuration. occupied_cool standby_cool unoccupied_cool occupied_heat standby_heat unoccupied_heat nvitemp02 nvitemp02 Outside air temperature NV index: 16 (I/O) 8

Optional input variables, continued nvipress_flow00 nvipress_flow00 Fan1 or 3 step 1 setpoint NV index: 2 For Pressure, Flow and %, depending on configuration. (max 32766 Pa or l/sec) nvipress_flow01 nvipress_flow01 Fan1 or 3 step 2 setpoint NV index: 3 For Pressure, Flow and %, depending on configuration. (max 32766 Pa or l/sec) nvipress_flow02 nvipress_flow02 Fan1 or 3 step 3 setpoint NV index: 4 For Pressure, Flow and %, depending on configuration. (max 32766 Pa or l/sec) nvipress_flow03 nvipress_flow03 Fan2 or 4 step 1 setpoint NV index: 5 For Pressure, Flow and %, depending on configuration. (max 32766 Pa or l/sec) nvipress_flow04 nvipress_flow04 Fan2 or 4 step 2 setpoint NV index: 6 For Pressure, Flow and %, depending on configuration. (max 32766 Pa or l/sec) nvipress_flow05 nvipress_flow05 Fan2 or 4 step 3 setpoint NV index: 7 For Pressure, Flow and %, depending on configuration. (max 32766 Pa or l/sec) 9

Optional input variables, continued nviresetalarm nviresetalarm Reset/Acknowledge alarms SNVT_switch NV index: 11 Values: 0 Normal 1 ResetA/Acknowledge > 1 Not defined State: 0: Inactive 1: Active Default: Value: 0 State : 0 State part must be set to 1 to use the value part. 10

Optional input variables, continued nvicontrol nvicontrol Control signals SNVT_state (16 bit) NV index: 13 Bits: Bit [0...15] Emergency stop input (I/O) External control input 1 (I/O) External control input 2 (I/O) Summer/winter changeover switch (I/O) Fire alarm input (I/O) Fan 1 External control input Fan 2 External control input Fan 3 External control input Fan 4 External control input Communicationtest puls Binary: * Reverse: 0 15 1 14 2 13 3 12 4 11 5 10 6 9 7 8 8 7 9 6 10 5 11 4 12 3 13 2 14 1 15 0 * On some LON tools the bits are named in the other direction, so take care nviacttime nviacttime System clock SNVT_time_stamp NV index: 57 11

3.5 Optional output variables Output variables Output variables sorted according to the overview on Section 0: nvotemps nvotemps Names in SNVT Actual heating setpoint Zone 1 or 3 Actual cooling setpoint Zone 1 or 3!!! Actual heating setpoint Zone 2 or 4 Actual cooling setpoint Zone 2 or 4!!! SNVT_temp_setpt NV index: 40 Structured setpoint variable for 6 setpoints. Actual main setpoints are depending on number of activated Zones. occupied_cool standby_cool unoccupied_cool occupied_heat (Uses Min Send time) standby_heat (Uses Min Send time) unoccupied_heat (COV 1.0) nvotemp01 nvotemp01 Supply air temperature Zon 1 or 3 NV index: 41 nvotemp02 nvotemp02 Actual room temperature Zone 1 or 3, or Return air temperature Zone 1 or 3 NV index: 42 Depending on configuration nvotemp03 nvotemp03 Heating frost temperature Zone 1 or 3 NV index: 43 Uses Min Send time nvotemp04 nvotemp04 External set point Zone 1 or 3 NV index: 44 Depending on configuration nvotemp05 nvotemp05 Supply air temperature Zon 2 or 4 NV index: 45 12

Optional output variables, continued nvotemp06 nvotemp06 Actual room temperature Zone 2 or 4, or Return air temperature Zone 2 or 4 NV index: 46 Depending on configuration nvotemp07 nvotemp07 Heating frost temperature Zone 2 or 4 NV index: 47 nvotemp08 nvotemp08 External set point Zone 2 or 4 NV index: 48 nvopress00 nvopress00 Supply air pressure Fan 1 or 3 Pa SNVT_press_p NV index: 19 COV 5.0 nvopress01 nvopress01 Supply air pressure Fan 2 or 4 Pa SNVT_press_p NV index: 20 COV 5.0 nvopress02 nvopress02 External Setpoint Fan 1 or 3 C SNVT_press_p NV index: 21 COV 5.0 13

Optional output variables, continued nvopress_flow00 nvopress_flow00 Actual setpoint Fan 1 or 3 NV index: 22 %, Pa or l/sec depending on configuration COV 1.0 nvopress_flow01 nvopress_flow01 Actual setpoint Fan 2 or 4 NV index: 23 %, Pa or l/sec depending on configuration COV 1.0 nvoflow00 nvoflow00 Supply air flow Fan 1 or 3 l/sec SNVT_flow NV index: 17 COV 10.0 nvoflow01 nvoflow01 Supply air flow Fan 2 or 4 l/sec SNVT_flow NV index: 18 COV 10.0 nvoperc00 nvoperc00 Heating / Electrical heating output signal Zone 1 or 3 NV index: 24 COV 1.0 nvoperc01 nvoperc01 Cooling output signal Zone 1 or 3 NV index: 25 COV 1.0 nvoperc02 nvoperc02 Heating / Electrical heating output signal Zone 2 or 4 NV index: 26 COV 1.0 14

Optional output variables, continued nvoperc03 nvoperc03 Cooling output signal Zone 2 or 4 NV index: 27 COV 1.0 nvoperc04 nvoperc04 Output signal Fan 1 or 3 NV index: 28 COV 1.0 nvoperc05 nvoperc05 Output signal Fan 2 or 4 NV index: 29 COV 1.0 nvoperc08 nvoperc08 Actual op mode Zone 1 or 3 NV index: 32 Off*Comfort*Economy*Na*FullHtg*FullClg*N a*stop COV 1.0 nvoperc09 nvoperc09 Actual op mode Zone 2 or 4 NV index: 33 Off*Comfort*Economy*Na*FullHtg*FullClg*N a*stop COV 1.0 15

Optional output variables, continued nvoperc10 nvoperc10 Actual Fan Op Mode Fan 1 or 3 NV index: 34 Off*On*Force*Na*Na*Na*Fire*Stop COV 1.0 nvoperc11 nvoperc11 Actual Fan Op Mode Fan 2 or 4 NV index: 35 Off*On*Force*Na*Na*Na*Fire*Stop COV 1.0 nvoperc13 nvoperc13 Actual Fan step Fan 1 or 3 NV index: 37 Off*Stage1*Stage2*Stage3 COV 1.0 nvoperc14 nvoperc14 Actual Fan step Fan 2 or 4 NV index: 38 Off*Stage1*Stage2*Stage3 COV 1.0 16

Optional output variables, continued nvostate nvostate General status SNVT_state_64 (64 bit) NV index: 55 Bits Bit [0 63] Alarm class danger (A) Alarm class critical (A) Alarm class low (B) Alarm class warning (C) Manual control active Summer mode Communicationtest puls Preheating, heating Zone 1 Preheating, heating Zone 2 Preheating, heating Zone 3 Preheating, heating Zone 4 Zone 1 Room Control mode Zone 1 Return Control mode Zone 1 Supply Control mode Zone 2 Room Control mode Zone 2 Return Control mode Zone 2 Supply Control mode Zone 3 Room Control mode Zone 3 Return Control mode Zone 3 Supply Control mode Zone 4 Room Control mode Zone 4 Return Control mode Zone 4 Supply Control mode Fan 1 Alarm class danger (A) Fan 1 Alarm class critical (A) Fan 1 Alarm class low (B) Fan 1 Alarm class warning (C) Fan 2 Alarm class danger (A) Fan 2 Alarm class critical (A) Fan 2 Alarm class low (B) Fan 2 Alarm class warning (C) Fan 3 Alarm class danger (A) Binary: * Reverse: 0 63 1 62 2 61 3 60 4 59 5 58 6 57 7 56 8 55 9 54 10 53 11 52 12 51 13 50 14 49 15 48 16 47 17 46 18 45 19 44 20 43 21 42 22 41 23 40 24 39 25 38 26 37 27 36 28 35 29 34 30 33 31 32 32 31 33 30 34 29 35 28 36 27 37 26 38 25 39 24 40 23 * On some LON tools the bits are named in the other direction, so take care 17

Optional output variables, continued nvostate, cont. nvostate Bit array for general status SNVT_state_64 (64 bit) NV index: 55 Bits Bit [0 63] Fan 3 Alarm class critical (A) Fan 3 Alarm class low (B) Fan 3 Alarm class warning (C) Fan 4 Alarm class danger (A) Fan 4 Alarm class critical (A) Fan 4 Alarm class low (B) Fan 4 Alarm class warning (C) Zone 1 Alarm class danger (A) Zone 1 Alarm class critical (A) Zone 1 Alarm class low (B) Zone 1 Alarm class warning (C) Zone 2 Alarm class danger (A) Zone 2 Alarm class critical (A) Zone 2 Alarm class low (B) Zone 2 Alarm class warning (C) Zone 3 Alarm class danger (A) Zone 3 Alarm class critical (A) Zone 3 Alarm class low (B) Zone 3 Alarm class warning (C) Zone 4 Alarm class danger (A) Zone 4 Alarm class critical (A) Zone 4 Alarm class low (B) Zone 4 Alarm class warning (C) Binary: * Reverse: 41 22 42 21 43 20 44 19 45 18 46 17 47 16 48 15 49 14 50 13 51 12 52 11 53 10 54 9 55 8 56 7 57 6 58 5 59 4 60 3 61 2 62 1 63 0 * On some LON tools the bits are named in the other direction, so take care 18

Optional output variables, continued nvodo nvodo All digital outputs SNVT_state_64 (64 bit) NV index: 54 Bits: Bit [0 63] Zone 1 Cooling Pump Zone 1 Cooling DX, stage 1 Zone 1 Cooling DX, stage 2 Zone 1 Cooling DX, stage 3 Zone 1 Heating Pump Zone 1 Electrical Heating Stage 1 Zone 1 Electrical Heating Stage 2 Zone 1 Electrical Heating Stage 3 Zone 2 Cooling Pump Zone 2 Cooling DX, stage 1 Zone 2 Cooling DX, stage 2 Zone 2 Cooling DX, stage 3 Zone 2 Heating Pump Zone 2 Electrical Heating Stage 1 Zone 2 Electrical Heating Stage 2 Zone 2 Electrical Heating Stage 3 Zone 3 Cooling Pump Zone 3 Cooling DX, stage 1 Zone 3 Cooling DX, stage 2 Zone 3 Cooling DX, stage 3 Zone 3 Heating Pump Zone 3 Electrical Heating Stage 1 Zone 3 Electrical Heating Stage 2 Zone 3 Electrical Heating Stage 3 Zone 4 Cooling Pump Zone 4 Cooling DX, stage 1 Zone 4 Cooling DX, stage 2 Zone 4 Cooling DX, stage 3 Zone 4 Heating Pump Zone 4 Electrical Heating Stage 1 Zone 4 Electrical Heating Stage 2 Zone 4 Electrical Heating Stage 3 Fan 1 Running Fan 1 Stage 1 Fan 1 Stage 2 Fan 1 Stage 3 Fan 2 Running Fan 2 Stage 1 Fan 2 Stage 2 Fan 2 Stage 3 Fan 3 Running Binary: * Reverse: 0 63 1 62 2 61 3 60 4 59 5 58 6 57 7 56 8 55 9 54 10 53 11 52 12 51 13 50 14 49 15 48 16 47 17 46 18 45 19 44 20 43 21 42 22 41 23 40 24 39 25 38 26 37 27 36 28 35 29 34 30 33 31 32 32 31 33 30 34 29 35 28 36 27 37 26 38 25 39 24 40 23 * On some LON tools the bits are named in the other direction, so take care 19

Optional output variables, continued nvodo, cont. nvodo All digital outputs SNVT_state_64 (64 bit) NV index: 54 Bits: Bit [0 63] Fan 3 Stage 1 Fan 3 Stage 2 Fan 3 Stage 3 Fan 4 Running Fan 4 Stage 1 Fan 4 Stage 2 Fan 4 Stage 3 Aux operation mode indication Alarm output, high ( and low ) Alarm output, low Binary: * Reverse: 41 22 42 21 43 20 44 19 45 18 46 17 47 16 48 15 49 14 50 13 51 12 52 11 53 10 54 9 55 8 56 7 57 6 58 5 59 4 60 3 61 2 62 1 63 0 * On some LON tools the bits are named in the other direction, so take care 20

Optional output variables, continued nvodi nvodi All digital inputs SNVT_state_64 (64 bit) NV index: 53 Bits: Bit [0 63] Emergency stop Summer/winter changeover Alarm acknowledge Zone 1 External control Zone 2 External control Zone 3 External control Zone 4 External control Binary: * Reverse: 0 63 1 62 2 61 3 60 4 59 5 58 6 57 7 56 8 55 9 54 10 53 11 52 12 51 13 50 14 49 15 48 16 47 17 46 18 45 19 44 20 43 21 42 22 41 23 40 24 39 25 38 26 37 27 36 28 35 29 34 30 33 31 32 32 31 33 30 34 29 35 28 36 27 37 26 38 25 39 24 40 23 * On some LON tools the bits are named in the other direction, so take care 21

Optional output variables, continued nvodi, cont. nvodi All digital inputs SNVT_state_64 (64 bit) NV index: 53 Bits: Bit [0 63] Binary: * Reverse: 41 22 42 21 43 20 44 19 45 18 46 17 47 16 48 15 49 14 50 13 51 12 52 11 53 10 54 9 55 8 56 7 57 6 58 5 59 4 60 3 61 2 62 1 63 0 * On some LON tools the bits are named in the other direction, so take care 22

Optional output variables, continued nvoalarm nvoalarm All alarms SNVT_state_64 (64 bit) NV index: 56 Bits: Bit [0 63] Zone 1 Supply temperature Zone 1 Room/Return temperature Zone 1 Heating Frost Zone 1 External Set point Zone 1 Supply, Ret./ Room deviation Zone 1 Cooling Zone 1 Heating/ Electrical heating Zone 2 Supply temperature Zone 2 Room/Return temperature Zone 2 Heating Frost Zone 2 External Set point Zone 2 Supply, Ret./ Room deviation Zone 2 Cooling Zone 2 Heating/ Electrical heating Zone 3 Supply temperature Zone 3 Room/Return temperature Zone 3 Heating Frost Zone 3 External Set point Zone 3 Supply, Ret./ Room deviation Zone 3 Cooling Zone 3 Heating/ Electrical heating Zone 4 Supply temperature Zone 4 Room/Return temperature Zone 4 Heating Frost Zone 4 External Set point Zone 4 Supply, Ret./ Room deviation Zone 4 Cooling Zone 4 Heating/ Electrical heating Fan 1 Fan alarm Fan 1 Pressure/Flow/Deviation Fan 1 External set point Fan 2 Fan alarm Fan 2 Pressure/Flow/Deviation Fan 2 External set point Fan 3 Fan alarm Binary: * Reverse: 0 63 1 62 2 61 3 60 4 59 5 58 6 57 7 56 8 55 9 54 10 53 11 52 12 51 13 50 14 49 15 48 16 47 17 46 18 45 19 44 20 43 21 42 22 41 23 40 24 39 25 38 26 37 27 36 28 35 29 34 30 33 31 32 32 31 33 30 34 29 35 28 36 27 37 26 38 25 39 24 40 23 * On some LON tools the bits are named in the other direction, so take care 23

Optional output variables, continued nvoalarm, cont. nvoalarm All alarms SNVT_state_64 (64 bit) NV index: 56 Bits: Bit [0 63] Fan 3 Pressure/Flow/Deviation Fan 3 External set point Fan 4 Fan alarm Fan 4 Pressure/Flow/Deviation Fan 4 External set point Outside temperature Manual control Communication test Modbus master Binary: * Reverse: 41 22 42 21 43 20 44 19 45 18 46 17 47 16 48 15 49 14 50 13 51 12 52 11 53 10 54 9 55 8 56 7 57 6 58 5 59 4 60 3 61 2 62 1 63 0 * On some LON tools the bits are named in the other direction, so take care 24

3.6 Configuration parameters Introduction The LON module's Neuron application supports 62 network variables. 4 3 of these must be used as configuration parameters as described below. ncimaxsndtime ncimaxsndtime Send heartbeat Max. time an output variable has to be sent even if there hasn't changed anything. SNVT_time_sec NV index: 58 ncimaxrcvtime ncimaxrcvtime Receive heartbeat Max. time an input variable has to be received. If it wasn't received during this time the value of this input variable is invalid. SNVT_time_sec NV index: 59 ncistartupdelay ncistartupdelay SNVT_time_sec NV index: 60 25

4 Appendix 4.1 Description of SNVTs You can find current descriptions of SNVTs (Standard Network Variable Types) used in set ClimatixAHU V1.x per Section 2.1, on the homepage of "LonMark International" at: http://types.lonmark.org/index.html "LONMARK Resource Files, version XX.XX" 26

We Bring Air to Life FWG Climatix GB 2011.018973 Copyright 2011 Fläkt Woods Group Fläkt Woods is a global leader in air management. We specialise in the design and manufacture of a wide range of air climate and air movement solutions. And our collective experience is unrivalled. Our constant aim is to provide systems that precisely deliver required function and performance, as well as maximise energy efficiency. Solutions for all your air climate and air movement needs Fläkt Woods is providing solutions for ventilation and air climate for buildings as well as fan solutions for Industry and Infrastructure. Air Handling Units (AHUs) Modular, compact and small AHU units. Designed to ensure optimisation of indoor air quality, operational performance and service life. Air Terminal Devices and Ducts Supply and exhaust diffusers and valves for installation on walls, ceiling or floor are all included in our large range and fit all types of applications. Chilled Beams Active induction beams for ventilation, cooling and heating, and passive convection beams for cooling. For suspended or flushmounted ceiling installation and multiservice configuration. With unique Comfort Control and Flow Pattern Control features. Residential ventilation A complete range of products for residential ventilation. Consists of ventilation units, exhaust air fans and cooker hoods designed to optimise indoor comfort and save energy. Fläkt Woods Group SA 18, avenue Louis Casaï, CH1209 Geneva, Switzerland Tel. +41 22 309 3800 email info@flaktwoods.com www.flaktwoods.com See global web site for international sales offices www.flaktwoods.com Fans Advanced axial, centrifugal and boxed fans for general and specialist applications. Comprehensive range including high temperature and ATEX compliant options. Engineered for energy efficiency andminimised life cycle cost. Chillers Aircooled and watercooled chillers with cooling capacity up to 1800 kw. Designed tominimise annual energy consumption in all types of buildings. Controls and drives Variable speed drives and control systems, all tested to ensure total compatibility with our products. Specialist team can advise on energy saving and overall systemintegration.

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