Manual for the integration in BMS/GTC

Manual for the integration in BMS/GTC Communication parameters MODBUS RTU and BACNET COMMUNICATION UTBS PRO-REG Software Version 3.6 EN

ÍNDEX 1. GENERALITIES...2 1.1. Introduction...2 1.2. signals types...2 2. INTEGRATION IN MODBUS SYSTEM...3 2.1. Configuration...3 2.2. Transmission model...3 2.3. Writing values...4 2.4. Reading values...4 3. INTEGRATION IN BACNET SYSTEMS...4 3.1. BACnet communication...4 3.2. BACnet/IP configuration...5 3.3. BACnet MS/TP Configuration...6 4. MAIN SIGNALS...7 4.1. Registers only availables from the remote controller...7 4.2. Holding register...8 1. GENERALITIES 1.1 Introduction The heat recovery units with PRO-REG controller include an application pre-programed that allows the control of the Heat recovery unit. The configuration is done via the display or by using the configuration tool E tool on PC. This document describes the signals available via. 1.2 signals types All signals accessible from a SCADA system are described further in this document. Signals with a default value are settings that can be changed via a SCADA system. Signals without a default value are actual values which cannot be changed using a SCADA system. The type of the signals: 1 = Coil Status Register (function = 1, 5 and 15) 2 = Input Status Register (function = 2) 3 = Holding Register (function = 3, 6 and 16) 4 = Input Register (function = 4) Supported functions: 1 = Read Coils 2 = Read Discrete Input 3 = Read Holding Register 4 = Read Input Register 5 = Write Single Coil 6 = Write Single Register 15 = Write Multiple Coils 16 = Write Multiple Registers Max. 47 registers A maximum of 47 registers can be read in one message. Communication limitations The master must wait for a minimum of 3.5 character times (4 ms at 9600 bps) between two messages. When the master communicates with more than one controller on the same communication line (RS485), the master must wait for a minimum of 14 character times (16 ms at 9600 bps) between the answer and the first question for the next controller. 2

The controller is limited to10 fast communications every 30 seconds. Any other communications will have a delayed answer time of approximately 1 second. Scale factor Real signals have scale factor 10, except for the time setting signals which have scale factor 100, and the airflow signals which have scale factor 1 for communication. Integer, Index and Logic always have scale factor 1. A protocol like consists of several layers (OSI-model). The bottom layer is always the physical layer; the number of wires and signal levels. The next layer describes the communication digits (number of data bits, stop-bits, parity etc). Next are the layers describing the -specific functions (number of digits per message, the meaning of different messages, etc.). RS485 is the electric part of the protocol or physical layer. The RS485 protocol has two connections, A and B. Often there is also a ground (N). The RS485 connection is: A -> A and B -> B. The RS485 protocol is called half duplex : indeed the communication can not make in one direction at a time, ie d. the master device sends a request and then waits for a reply. A and B are used both for transmission and for reception. 2. INTEGRATION SYSTEM WITH MODBUS 2.1 Configuration The communication parameters for the line is the most important thing to configure first. As described earlier, these parameters must be identical in both the master unit and slave units, since they define the structure of messages and the transmission speed. The default configuration values of a Corrigo controller are shown in the figure below. Corrigo is set to Slave 1 as a default. If more units are added, a new address can be set for each unit using the Corrigo display or E tool. 2.2 Transmission model Corrigo uses the RTU transmission mode; not to be confused with the ASCII mode in the settings. The settings for the transmission mode must be the same in the master unit and the slave units, since /RTU cannot understand /ASCII messages. The configuration parameter word length is always 8 for /RTU. 3

2.3 Writting values To override the Corrigo output values, set the output to manual mode using a signal. Then set the corresponding..._anset signal to the wanted level. These signals are listed in Chapter 5: Holding Registers. Remember that only values with a default value are adjustable, you will find these in the chapters Coil Status Register and Holding Register. 2.4 Reading values An effective way to read values is to read multiple variables simultaneously. To, for example, read all analogue outputs, set the query to the values shown in the figure below. The first analogue output variable starts at address 54 (QAnaOut.AQ1). To read address 54 to 58, set the length to 5. The answer will then communicate all 5 values in just one message, making the communication more effective. 3. INTEGRATION IN BACNET SYSTEMS 3.1 BACnet communication Corrigo is capable of communication via the BACnet protocol, using either IP or MS/TP data link formats. In order to connect a Corrigo running a ventilation application to a BAS (Building Automation System) via BACnet/IP, a third generation Corrigo with a TCP/IP port is required. To connect to a BAS via BACnet MS/TP, a third generation Corrigo with a second RS485 communication port is required. BACnet type The BACnet type of signals: 10XXX = Read and write binary 20XXX = Read binary 30XXX = Read and write analogue 40XXX = Read analogue 30XXX = Read and write multistate 40XXX = Read multistate (Where XXX = address) NOTE: In the variable lists contained in this manual, the following abbrevations are used: AV = Analogue BV = Binary MSV = Multistate BACnet object names are the same as for EXOL type objects, but are shortened by removing the preamble Cor_ (e.g.: VentSettings.Cor_OverHeatFastStop becomes VentSettings.OverHeatFastStop, etc.). 4

3.2 BACnet/IP configuration Upon delivery, the BACnet/IP protocol is disabled as a default. To enable BACnet communication, simply change the setting Not active to Active. The protocol will now be available for use: TCP/IP BACnet/IP communication Active Device name CorrigoVentilation BBMD address Device ID low 2640 Device ID high 0 (x10000) Device name This is the devices name that is shown on the BAS when a device is discovered. BBMD address The BBMD address (BACnet/IP Broadcast Management Device) is used for discovering devices that are attached to different BACnet/IP subnets and separated by an IP router. The address is entered as host:port, where host can be the host s name if DNS is configured. If DNS is not configured, the host address should be entered in the format xxx. xxx.xxx.xxx, followed by the port number (default setting 47808). Example: mybbmd:47808 (with DNS configured) or 10.100.50.99:47808 Device ID The ID of a device, used to identify it on the BACnet network. This number cannot be duplicated anywhere on the BACnet network and must therefore be unique. To set an ID value of 34600, the low number would be set to 4600 and the high number to 3. DHCP The Dynamic Host Configuration Protocol (DHCP) is a network protocol used on Internet Protocol (IP) networks for dynamic distribution of network configuration parameters, such as IP addresses, DNS servers and other services. The Corrigo can be configured to either obtain an IP address from a DHCP server (dynamic) or the address can be set manually (static). If you wish to set a static IP address for the Corrigo, simply enter the IP address you wish to use along with the subnet mask, gateway address and DNS server address: 5

TCP/IP DHCP: Yes Set static IP Current IP - IP 192.168.001.234 Subnet mask 255.255.255.000 Current subnet mask - Current gateway - Default gateway 192.168.001.001 DNS 192.168.001.001 Current DNS - 3.3 BACnet MS/TP Configuration Upon delivery, the BACnet MS/TP protocol is disabled as a default. To enable BACnet communication, the function must first be activated. The default communication settings upon delivery are as follows: Speed = 9600 bps MAC address = 0 Device ID = 2640 Max Master = 127 Function port1 Slave BACnet MS/TP communication port1 Active Device name CorrigoVentilation MAC 0 Device ID low 2640 Device ID high 0 (x10000) Speed 9600 bps Max master address 127 6

Device name This is the name of the device, as shown on the BAS when discovering devices. MAC The MAC address of the device. This needs to be unique only to the subnet to which the device is attached. Device ID The ID of a device, used to identify it on the BACnet network. This number cannot be duplicated anywhere on the BACnet network and must therefore be unique. To set an ID value of 34600, the low number would be set to 4600 and the high number to 3. Speed Sets the communication speed of the MS/TP network. This value is typically set to 38400 or 76800 but can be 9600, 19200, 38400 or 76800. Max master address The max master is the MAC address of the highest master device on the BACnet MS/TP network segment. Setting this number above the highest MAC address will decrease network performance. For additional information, see the Corrigo PICS document, available via www.regincontrols.com 4. MAIN SIGNALS 4.1 Particularities. Registers only availables from the remote controller Some of the control functionalities are adapted to the remote hand controller use, which involves that some configuration parameters can exclusively be modified via the remote hand controller and do not have a corresponding parameter: Fans working mode (VAV, COP, CAV) Functionalities that depends on a phisical contact (digital input). Remote ON/OFF, Boost function, fire alarm, can not be activated via a /Bacnet parameter. VAV variables (used to define the behaviour of the fan s when controlled with an external sensor) - Vmin, - Vmax, - Speed at Vmin - Speed at Vmax Fire alarm strategy Depending on the necessities or local regulations, the controller offers differents strategies that can be only configured through the remote terminal controller. Via modbus it is only possible to enable the fire alarm function as it was configured from the remote terminal: 7

4.2 Holding register Bacnet NA: Not available Default Description FAN CONTROL CAV PARAMETERS Setpoint full speed supply air fan flow. Scale factor = 1 HR R/W 28 AV, 30028 4500 m 3 /h 4500 SAF Manual normal flow (m 3 /h). Scale factor = 1 The value depends on the model Setpoint reduced speed supply air fan flow. Scale factor = 1 HR R/W 29 AV, 30029 2000 m 3 /h 2000 SAF Manual reduced flow (m 3 /h). Scale factor = 1 The value depends on the model Running mode air unit (in CAV or COP mode) HR R/W 368 MSV, 30368 : 0=Manual off 1=Manual reduced speed (COP and CAV modes) 2=Manual normal speed (COP and CAV modes) 3=Auto BACnet: 1=Manual off 2=Manual reduced speed 3=Manual normal speed 4=Auto SAF output when free cooling HR R/W 486 NA 50% 500 SAF output when free cooling (0=The output is normal speed) PI control parameters HR R/W 322 NA 1000Pa 10000 P-band flow control Supply fan Supply fan HR R/W 323 NA 25 s 250 I-time flow control Supply fan SAF/EAF factor HR R/W 447 NA 100% 10 Slave fan factor COP PARAMETERS Setpoint full speed supply air HR R/W 24 AV, 30024 500 Pa 5000 SAF Manual normal pressure (Pa) fan pressure Setpoint reduced speed supply HR R/W 25 AV, 30025 300 Pa 3000 SAF Manual reduced pressure (Pa) air fan pressure Running mode air unit (in CAV or COP mode) HR R/W 368 MSV, 30368 : 0=Manual off 1=Manual reduced speed (COP and CAV modes) 2=Manual normal speed (COP and CAV modes) 3=Auto BACnet: 1=Manual off 2=Manual reduced speed 3=Manual normal speed 4=Auto SAF output when free cooling HR R/W 486 NA 50% 500 SAF output when free cooling (0=The output is normal speed) P-band pressure control SAF HR R/W 322 NA 1000 Pa 10000 PI control parameters I-time pressure control SAF HR R/W 323 NA 20 s 200 SAF/EAF factor HR R/W 447 NA 100% 10 Slave fan factor VAV PARAMETERS Running mode air unit HR R/W 516 MSV, 30516 VAV working mode (0 = off, 1 = manual, 2 = auto) (in VAV mode) Speed in VAV manual mode HR R/W 517 MSV, 30517 Percentage of the speed in Manual mode (0-100%) SAF/EAF factor HR R/W 447 NA 100% 10 Exhaust factor 8

Bacnet NA: Not available Default 9 Description FANS SUPERVISION Unit Status IR R 3 MSV, 40003 : 0=Stopped 1=Starting up 2=Starting reduced speed 3=Starting full speed 4=Starting normal run 5=Normal run 6=Support control heating 7=Support control cooling 8=CO2 run 9=Night cooling 10=Full speed stop 11=Stopping fan BACnet: 1=Stopped 2=Starting up 3=Starting reduced speed 4=Starting full speed 5=Starting normal run 6=Normal run 7=Support control heating 8=Support control cooling 9=CO2 run 10=Night cooling 11=Full speed stop 12=Stopping fan Unit run mode status IR R 284 MSV, 40284 : 0=Off 1=Reduced speed 2=Normal speed 3=Stop because of alarm BACnet: 1=Off 2=Reduced speed 3=Normal speed 4=Stop because of alarm SAF control signal (0-10V) IR R 122 AV, 40122 Control signal for supply air fan (0-10 V) EAF control signal (0-10V) IR R 123 AV, 40123 Control signal for slave fan (0-10 V) SAF Start ISR R 88 BV, 20088 Supply fan Start signal EAF Start ISR R 89 BV, 20088 Slave fan Start signal Supply air fan flow (m 3 /h). IR R 15 AV, 40015 SAF Flow. Scale factor = 1 When CAV or VAV modes are selected Supply air fan flow (m 3 /h). IR R 154 AV, 40154 SAF Flow. Scale factor = 1 When COP mode is selected Supply air fan pressure (Pa). When COP mode is selected IR R 13 AV, 40013 SAF Pressure. Scale factor = 1 TEMPERATURE CONTROL SELECCIÓN MODO CONTROL TEMPERATURA Select temperature control mode HR R/W 474 NA 1 1 0 = Supply air temperature control 1 = Outdoor temperature compensated supply air control 3 = Cascade extract air temperature control 5 = Outdoor dependent supply or extract temperature Constant Supply Air Supply Air Temp Setpoint (Constant Supply Air Temp. mode) HR R/W 1 AV, 30001 21 ºC 210 Temp Setpoint when Constant Supply Air mode is selected Temperature Supervision Outdoor Air Temperature IR R 1 AV, 40001 Outdoor Air Temperature (Ex: 231 =23,1ºC) Supply Air Temperature IR R 7 AV, 40007 Supply Air Temperature Extract Air Temperature IR R 9 AV, 40009 Extract Air Temperature Frost Protection Temperature IR R 19 AV, 40019 Water Temperature. Just for units with water post-heater Exhaust Air Temperature (De-icing temp) IR R 21 AV, 40021 Exhaust Air Temperature

Bacnet NA: Not available Default Description Supply Air Setpoint IR R 8 AV, 40008 Supply Air Setpoint. When Outdoor compensated control function is selected the setpoint is the calculated one. Post-heater control Running mode Heating HR R/W 377 NA 0=Off 1=Manual 2=Auto IMPORTANT! The control must be set in AUTO mode. Selecting Manual Mode securities are disconnected which could be cause of fire. Heating controller output if manual mode HR R/W 378 NA Heating control signal (0-10 V) Output 100% = value 1000 Post-heater supervision Heating control signal output IR R 119 AV, 40119 Supervison heating control signal (0-10 V). Heating 100% = value 1000 Cooling control Running mode Cooling HR R/W 381 NA 0=Off 1=Manual 2=Auto IMPORTANT! The control must be set in AUTO mode. Selecting Manual Mode securities are disconnected which could be cause of damage. Cooling output if manual mode HR R/W 382 NA Cooling control signal (0-10 V) Output 100% = value 1000 Cooling supervision Cooling output IR R 121 AV, 40121 Supervison heating control signal (0-10 V). Heating 100% = value 1000 Reversible coil supervision (Cooling and Heating) Control signal Heating or Cooling (by changeover thermostat) IR R 282 AV, 40282 Control signal (0-10 V), for heating or cooling depending on changeover thermostat. To determine the mode (heating or cooling) see Register 276 (ISR) MIXING DAMPER Mixing damper control: Control by CO2 Manual/Auto Mixing Damper control HR R/W 448 NA 0=Off 1=Manual 2=Auto Mixing damper output if manual mode HR R/W 449 NA Mixing damper control signal if manual mode selected. Output 100% = value 1000 Mixing Damper output (Supervision) IR R/W 283 AV, 40283 Supervison mixing damper control (0-10 V). 100% = value 1000 Mixing damper control: CO2 and Temp. Control Manual/Auto Mixing Damper control Mixing damper output if manual mode Mixing Damper output (Supervision) HR R/W 379 NA 0=Off 1=Manual 2=Auto HR R/W 380 NA Mixing damper control signal if manual mode selected. Output 100% = value 1000 IR R/W 120 AV, 40120 Supervison mixing damper control (0-10 V). 100% = value 1000 FUNCTIONS Boost (The function must be activated with the corresponding digital input DI) Boost function status ISR R 8 BV, 20008 1 = Boost activated. Note: Boost can only be actived via its digital input Boost minutes IR R 6 NA Number of minutes in boost mode Isolation damper (If exist) Running mode isolation damper Water frost protection Setpoint frost protection if the ventilation unit is stopped P-Gain frost protection when running (alarm limit+pgain) HR R/W 389 NA 0=Close 1=Open 2=Auto HR R/W 33 BV, 30033 25 C 250 HR R/W 34 BV, 30034 5 C 50 10

Bacnet NA: Not available Default Description ALARMS Alarm supervision Alarm ISR R 184 BV, 20184 0 0/1 Set if any alarm is active 0=No alarm 1=Alarm Run Error Supply Air Fan ISR R 33 BV, 20033 0 0/1 Fan Error Filter guard ISR R 38 BV, 20038 0 0/1 Filter needs replacement Fire alarm ISR R 42 BV, 20042 0 0/1 Fire alarm Remote On/Off ISR R 43 BV, 20043 0 0/1 Remote Off is active Electric heating is overheated ISR R 55 BV, 20055 0 0/1 Electric Heater Thermal protectors activated Frost risk ISR R 56 BV, 20056 0 0/1 Frost protection function is overriding the control of the water heater output Low frost guard temp ISR R 57 BV, 20057 0 0/1 Water temperature below frost limit value (<7ºC). System off Sensor error outdoor temp ISR R 59 BV, 20059 0 0/1 Malfunction of outdoor air temperature sensor Manual Heater Control ISR R 73 BV, 20073 0 0/1 The electric heater is in manual mode Manual exchanger control ISR R 74 BV, 20074 0 0/1 Mixing Damper in manual control: (temp control) & (temp control + CO2 modes) Manual cooler control ISR R 75 BV, 20075 0 0/1 Cooler in manual mode Internal battery error ISR R 80 BV, 20080 0 0/1 Internal battery needs replacing Sensor error Supply Air temp ISR R 90 BV, 20090 0 0/1 Malfunction of supply air temperature sensor Sensor error Extract Air temp ISR R 91 BV, 20091 0 0/1 Malfunction of extraction air temperature sensor Sensor error SAF pressure ISR R 96 BV, 20096 0 0/1 Malfunction of supply air pressure sensor Sensor error Frost Protection ISR R 99 BV, 20099 0 0/1 Malfunction of water temperature sensor temp Manual Y4-Extra Sequence ISR R 128 BV, 20128 0 0/1 Mixing Damper in manual control: CO2 control mode control Filter guard 2 ISR R 131 BV, 20131 0 0/1 External Filter needs replacement Alarm Acknowledgement Acknowledgement of individual alarms HR R/W 400 NA To acknowledge an alarm set this signal its alarm number (i.e: If Malfunction of supply fan, value will be 1 ) 1 = Malfunction of supply fan 6 = Filter needs replacement 10 = Fire alarm 11 = Remote Off is actived 23 = Electric Heater Thermal protectors activated 24 = Frost protection function is overriding the control of the water heater output 25 = Water temperature below frost limit value (<7ºC). System off 27 = Malfunction of outdoor air temperature sensor 41 = The electric heater is in manual mode 42 = Mixing Damper in manual control: (temp control) & (temp control + CO2 modes) 43 = Cooler in manual mode 48 = Internal battery needs replacing 49 = Malfunction of supply air temperature sensor 50 = Malfunction of extraction air temperature sensor 55 = Malfunction of supply air pressure sensor 58 = Malfunction of water temperature sensor 87 = Mixing Damper in manual control: CO2 control mode 90 = External Filter needs replacement Acknowledgement of all alarms CSR R/W 3 BV, 10003 Command to acknowledge all activated alarms INPUTS / OUTPUTS AI1 IR R 26 NA of AI1: Supply air temperature AI2 IR R 27 NA of AI2: Outdoor air temperature AI3 IR R 28 NA of AI3: Extract air temperature AI4 IR R 29 NA of AI4: Frost Protection Temperature (Water Heating) UAI1 IR R 30 NA of UAI1: SAF Pressure / SAF Pressure 2. Pressure trasmitter for measuring flow - SAF pressure for VAV and CAV modes - SAF pressure 2 for COP mode 11

Bacnet NA: Not available Default Description UAI2 IR R 31 NA of UAI2: Pressure trasmitter for controlling pressure in COP mode. Not used in VAV nor CAV modes UAI3 IR R 32 NA of UAI3: Depends on the mode and accessories: - VAV mode with CO2 sensor: External probe input in (CO2 / HR / etc ) - VAV mode without sensor: Not used - VAV mode with mixing dampers by CO2: External control SAF UAI4 IR R 33 NA of UAI4: CO2 sensor for mixing damper control AO1 IR R 54 NA of AO1: SAF control signal AO2 IR R 55 NA of AO2: Slave fan control signal AO3 IR R 56 NA of AO3: Heating control signal AO4 IR R 57 NA of AO4: Cooling control signal AO5 IR R 58 NA of AO5: Mixing damper control signal DI1 ISR R 14 BV, 20014 of DI1: Filter pressure switch (Closed: Filter OK, Open: Filter Clogged) DI2 ISR R 15 BV, 20015 of DI2: External filter pressure switch (Closed: Filter OK, Open: Filter Clogged) DI3 ISR R 16 BV, 20016 of DI3: Boost (Closed: Active Boost, Open: Boost disable) DI4 ISR R 17 BV, 20017 of DI4: Remote ON/OFF (Closed: Remote off active, Open: Remote off disable) DI5 ISR R 18 BV, 20018 of DI5: Electrical heater thermal protection activated Closed = No Alarm/ Change Over active Open = Electric heater alarm/change Over not active DI6 ISR R 19 BV, 20019 of DI6: Fire alarm (if previously enabled) DO1 ISR R 26 BV, 20026 of DO1: SAF Start/Stop DO2 ISR R 27 BV, 20027 of DO2: Slave fan Start/Stop DO3 ISR R 28 BV, 20028 of DO3: PWM Electric Heater DO4 ISR R 29 BV, 20029 of DO4: Run indication DO5 ISR R 30 BV, 20030 of DO5: Outdoor Air Damper DO6 ISR R 31 BV, 20031 of DO6: Alarm CONTROLLER TIME Time Configuration Seconds HR R/W 406 NA Real time clock: Second 0-59 Minutes HR R/W 407 NA Real time clock: Minute 0-59 Hours HR R/W 408 NA Real time clock: Hour 0-23 Day of Week HR R/W 409 NA Real time clock: Day of Week 1-7, 1=Monday Week number HR R/W 410 NA Real time clock: Week number 1-53 Day of month HR R/W 411 NA Real time clock: Day of month 1-31 Month HR R/W 412 NA Real time clock: Month 1-12 Year HR R/W 413 NA Real time clock: Year 0-99 Timer Supervision Timechannel full speed supervision ISR R 1 BV, 20001 Active (set to 1) when actual time is within Normal Speed Time Channel Timechannel reduced speed supervision ISR R 2 BV, 20002 Active (set to 1) when actual time is within Reduced Speed Time Channel Timer configuration Normal speed timer - Monday HR R/W 40 NA 8:00 800 Normal speed timer - Monday -Period 1 - Start (HH.MM) HR R/W 41 NA 12:00 1200 Normal speed timer - Monday -Period 1 - Stop (HH.MM) HR R/W 42 NA 14:00 1400 Normal speed timer - Monday -Period 2 - Start (HH.MM) HR R/W 43 NA 18:00 1800 Normal speed timer - Monday -Period 2 - Stop (HH.MM) Normal speed timer - Tuesday HR R/W 44 NA 8:00 800 Normal speed timer - Tuesday -Period 1 - Start (HH.MM) HR R/W 45 NA 12:00 1200 Normal speed timer - Tuesday -Period 1 - Stop (HH.MM) HR R/W 46 NA 14:00 1400 Normal speed timer - Tuesday -Period 2 - Start (HH.MM) HR R/W 47 NA 18:00 1800 Normal speed timer - Tuesday -Period 2 - Stop (HH.MM) 12

Normal speed timer - Wednesday Normal speed timer - Thursday Bacnet NA: Not available Default 13 Description HR R/W 48 NA 8:00 800 Normal speed timer - Wednesday -Period 1 - Start (HH.MM) HR R/W 49 NA 12:00 1200 Normal speed timer - Wednesday -Period 1 - Stop (HH.MM) HR R/W 50 NA 14:00 1400 Normal speed timer - Wednesday -Period 2 - Start (HH.MM) HR R/W 51 NA 18:00 1800 Normal speed timer - Wednesday -Period 2 - Stop (HH.MM) HR R/W 52 NA 8:00 800 Normal speed timer - Thursday -Period 1 - Start (HH.MM) HR R/W 53 NA 12:00 1200 Normal speed timer - Thursday -Period 1 - Stop (HH.MM) HR R/W 54 NA 14:00 1400 Normal speed timer - Thursday -Period 2 - Start (HH.MM) HR R/W 55 NA 18:00 1800 Normal speed timer - Thursday -Period 2 - Stop (HH.MM) Normal speed timer - Friday HR R/W 56 NA 8:00 800 Normal speed timer - Friday -Period 1 - Start (HH.MM) HR R/W 57 NA 12:00 1200 Normal speed timer - Friday -Period 1 - Stop (HH.MM) HR R/W 58 NA 14:00 1400 Normal speed timer - Friday -Period 2 - Start (HH.MM) HR R/W 59 NA 18:00 1800 Normal speed timer - Friday -Period 2 - Stop (HH.MM) Normal speed timer - Saturday HR R/W 60 NA 0:00 0 Normal speed timer - Saturday -Period 1 - Start (HH.MM) HR R/W 61 NA 0:00 0 Normal speed timer - Saturday -Period 1 - Stop (HH.MM) HR R/W 62 NA 0:00 0 Normal speed timer - Saturday -Period 2 - Start (HH.MM) HR R/W 63 NA 0:00 0 Normal speed timer - Saturday -Period 2 - Stop (HH.MM) Normal speed timer - Sunday HR R/W 64 NA 0:00 0 Normal speed timer - Sunday -Period 1 - Start (HH.MM) HR R/W 65 NA 0:00 0 Normal speed timer - Sunday -Period 1 - Stop (HH.MM) HR R/W 66 NA 0:00 0 Normal speed timer - Sunday -Period 2 - Start (HH.MM) HR R/W 67 NA 0:00 0 Normal speed timer - Sunday -Period 2 - Stop (HH.MM) Normal speed timer - Holiday HR R/W 68 NA 0:00 0 Normal speed timer - Holiday -Period 1 - Start (HH.MM) HR R/W 69 NA 0:00 0 Normal speed timer - Holiday -Period 1 - Stop (HH.MM) HR R/W 70 NA 0:00 0 Normal speed timer - Holiday -Period 2 - Start (HH.MM) HR R/W 71 NA 0:00 0 Normal speed timer - Holiday -Period 2 - Stop (HH.MM) Reduced speed timer - Monday HR R/W 72 NA 6:00 600 Reduced speed timer - Monday -Period 1 - Start (HH.MM) HR R/W 73 NA 8:00 800 Reduced speed timer - Monday -Period 1 - Stop (HH.MM) HR R/W 74 NA 12:00 1200 Reduced speed timer - Monday -Period 2 - Start (HH.MM) HR R/W 75 NA 21:00 2100 Reduced speed timer - Monday -Period 2 - Stop (HH.MM) Reduced speed timer - Tuesday Reduced speed timer - Wednesday Reduced speed timer - Thursday HR R/W 76 NA 6:00 600 Reduced speed timer - Tuesday -Period 1 - Start (HH.MM) HR R/W 77 NA 8:00 800 Reduced speed timer - Tuesday -Period 1 - Stop (HH.MM) HR R/W 78 NA 12:00 1200 Reduced speed timer - Tuesday -Period 2 - Start (HH.MM) HR R/W 79 NA 21:00 2100 Reduced speed timer - Tuesday -Period 2 - Stop (HH.MM) HR R/W 80 NA 6:00 600 Reduced speed timer - Wednesday -Period 1 - Start (HH.MM) HR R/W 81 NA 8:00 800 Reduced speed timer - Wednesday -Period 1 - Stop (HH.MM) HR R/W 82 NA 12:00 1200 Reduced speed timer - Wednesday -Period 2 - Start (HH.MM) HR R/W 83 NA 21:00 2100 Reduced speed timer - Wednesday -Period 2 - Stop (HH.MM) HR R/W 84 NA 6:00 600 Reduced speed timer - Thursday -Period 1 - Start (HH.MM) HR R/W 85 NA 8:00 800 Reduced speed timer - Thursday -Period 1 - Stop (HH.MM) HR R/W 86 NA 12:00 1200 Reduced speed timer - Thursday -Period 2 - Start (HH.MM) HR R/W 87 NA 21:00 2100 Reduced speed timer - Thursday -Period 2 - Stop (HH.MM) Reduced speed timer - Friday HR R/W 88 NA 6:00 600 Reduced speed timer - Friday -Period 1 - Start (HH.MM) HR R/W 89 NA 8:00 800 Reduced speed timer - Friday -Period 1 - Stop (HH.MM) HR R/W 90 NA 12:00 1200 Reduced speed timer - Friday -Period 2 - Start (HH.MM) HR R/W 91 NA 21:00 2100 Reduced speed timer - Friday -Period 2 - Stop (HH.MM) Reduced speed timer - Saturday HR R/W 92 NA 0:00 0 Reduced speed timer - Saturday -Period 1 - Start (HH.MM) HR R/W 93 NA 0:00 0 Reduced speed timer - Saturday -Period 1 - Stop (HH.MM) HR R/W 94 NA 0:00 0 Reduced speed timer - Saturday -Period 2 - Start (HH.MM) HR R/W 95 NA 0:00 0 Reduced speed timer - Saturday -Period 2 - Stop (HH.MM) Reduced speed timer - Sunday HR R/W 96 NA 0:00 0 Reduced speed timer - Sunday -Period 1 - Start (HH.MM) HR R/W 97 NA 0:00 0 Reduced speed timer - Sunday -Period 1 - Stop (HH.MM) HR R/W 98 NA 0:00 0 Reduced speed timer - Sunday -Period 2 - Start (HH.MM) HR R/W 99 NA 0:00 0 Reduced speed timer - Sunday -Period 2 - Stop (HH.MM) Reduced speed timer - Holiday HR R/W 100 NA 0:00 0 Reduced speed timer - Holiday -Period 1 - Start (HH.MM) HR R/W 101 NA 0:00 0 Reduced speed timer - Holiday -Period 1 - Stop (HH.MM) HR R/W 102 NA 0:00 0 Reduced speed timer - Holiday -Period 2 - Start (HH.MM) HR R/W 103 NA 0:00 0 Reduced speed timer - Holiday -Period 2 - Stop (HH.MM) Holiday period 1 HR R/W 264 NA 01.01 101 Holiday programmer - Period 1 - Start date (MM.DD) HR R/W 265 NA 01.01 101 Holiday programmer - Period 1 - End date (MM.DD) Holiday period 2 HR R/W 266 NA 01.01 101 Holiday programmer - Period 2 - Start date (MM.DD) HR R/W 267 NA 01.01 101 Holiday programmer - Period 2 - End date (MM.DD)

Bacnet NA: Not available Default Description Holiday period 3 HR R/W 268 NA 01.01 101 Holiday programmer - Period 3 - Start date (MM.DD) HR R/W 269 NA 01.01 101 Holiday programmer - Period 3 - End date (MM.DD) Holiday period 4 HR R/W 270 NA 01.01 101 Holiday programmer - Period 4 - Start date (MM.DD) HR R/W 271 NA 01.01 101 Holiday programmer - Period 4 - End date (MM.DD) Holiday period 5 HR R/W 272 NA 01.01 101 Holiday programmer - Period 5 - Start date (MM.DD) HR R/W 273 NA 01.01 101 Holiday programmer - Period 5 - End date (MM.DD) Holiday period 6 HR R/W 274 NA 01.01 101 Holiday programmer - Period 6 - Start date (MM.DD) HR R/W 275 NA 01.01 101 Holiday programmer - Period 6 - End date (MM.DD) Holiday period 7 HR R/W 276 NA 01.01 101 Holiday programmer - Period 7 - Start date (MM.DD) HR R/W 277 NA 01.01 101 Holiday programmer - Period 7 - End date (MM.DD) Holiday period 8 HR R/W 278 NA 01.01 101 Holiday programmer - Period 8 - Start date (MM.DD) HR R/W 279 NA 01.01 101 Holiday programmer - Period 8 - End date (MM.DD) Holiday period 9 HR R/W 280 NA 01.01 101 Holiday programmer - Period 9 - Start date (MM.DD) HR R/W 281 NA 01.01 101 Holiday programmer - Period 9 - End date (MM.DD) Holiday period 10 HR R/W 282 NA 01.01 101 Holiday programmer - Period 10 - Start date (MM.DD) HR R/W 283 NA 01.01 101 Holiday programmer - Period 10 - End date (MM.DD) Holiday period 11 HR R/W 284 NA 01.01 101 Holiday programmer - Period 11 - Start date (MM.DD) HR R/W 285 NA 01.01 101 Holiday programmer - Period 11 - End date (MM.DD) Holiday period 12 HR R/W 286 NA 01.01 101 Holiday programmer - Period 12 - Start date (MM.DD) HR R/W 287 NA 01.01 101 Holiday programmer - Period 12 - End date (MM.DD) Holiday period 13 HR R/W 288 NA 01.01 101 Holiday programmer - Period 13 - Start date (MM.DD) HR R/W 289 NA 01.01 101 Holiday programmer - Period 13 - End date (MM.DD) Holiday period 14 HR R/W 290 NA 01.01 101 Holiday programmer - Period 14 - Start date (MM.DD) HR R/W 291 NA 01.01 101 Holiday programmer - Period 14 - End date (MM.DD) Holiday period 15 HR R/W 292 NA 01.01 101 Holiday programmer - Period 15 - Start date (MM.DD) HR R/W 293 NA 01.01 101 Holiday programmer - Period 15 - End date (MM.DD) Holiday period 16 HR R/W 294 NA 01.01 101 Holiday programmer - Period 16 - Start date (MM.DD) HR R/W 295 NA 01.01 101 Holiday programmer - Period 16 - End date (MM.DD) Holiday period 17 HR R/W 296 NA 01.01 101 Holiday programmer - Period 17 - Start date (MM.DD) HR R/W 297 NA 01.01 101 Holiday programmer - Period 17 - End date (MM.DD) Holiday period 18 HR R/W 298 NA 01.01 101 Holiday programmer - Period 18 - Start date (MM.DD) HR R/W 299 NA 01.01 101 Holiday programmer - Period 18 - End date (MM.DD) Holiday period 19 HR R/W 300 NA 01.01 101 Holiday programmer - Period 19 - Start date (MM.DD) HR R/W 301 NA 01.01 101 Holiday programmer - Period 19 - End date (MM.DD) Holiday period 20 HR R/W 302 NA 01.01 101 Holiday programmer - Period 20 - Start date (MM.DD) HR R/W 303 NA 01.01 101 Holiday programmer - Period 20 - End date (MM.DD) Holiday period 21 HR R/W 304 NA 01.01 101 Holiday programmer - Period 21 - Start date (MM.DD) HR R/W 305 NA 01.01 101 Holiday programmer - Period 21 - End date (MM.DD) Holiday period 22 HR R/W 306 NA 01.01 101 Holiday programmer - Period 22 - Start date (MM.DD) HR R/W 307 NA 01.01 101 Holiday programmer - Period 22 - End date (MM.DD) Holiday period 23 HR R/W 308 NA 01.01 101 Holiday programmer - Period 23 - Start date (MM.DD) HR R/W 309 NA 01.01 101 Holiday programmer - Period 23 - End date (MM.DD) Holiday period 24 HR R/W 310 NA 01.01 101 Holiday programmer - Period 24 - Start date (MM.DD) HR R/W 311 NA 01.01 101 Holiday programmer - Period 24 - End date (MM.DD) 14

S&P SISTEMAS DE VENTILACIÓN, S.L.U. C. Llevant, 4 Polígono Industrial Llevant 08150 Parets del Vallès Barcelona - España Tel. +34 93 571 93 00 Fax +34 93 571 93 01 www.solerpalau.com Ref. MODBUS_UTBS_PRO-REG_160613