Corrigo manual Ventilation application © Copyright AB Regin, Sweden, 2014
DISCLAIMER The information in this manual has been carefully checked and is believed to be correct. Regin however, makes no warranties as regards the contents of this manual and users are requested to report errors, discrepancies or ambiguities to Regin, so that corrections may be made in future editions. The information in this document is subject to change without prior notification.
Table of contents CHAPTER 1 ABOUT THE MANUAL .................................................................................................. 6 More information ........................................................................................................................ 6 CHAPTER 2 ABOUT CORRIGO ......................................................................................................... 7 2.1 News in version 3.3 ......................................................................
13.4 Extended running .............................................................................................................. 71 13.5 Timer outputs 1…5 ............................................................................................................. 71 13.6 Holidays ............................................................................................................................. 72 CHAPTER 14 MANUAL / AUTO ........................................................................
INDEX ........................................................................................................................................ 114 APPENDIX FREQUENCY CONVERTERS ........................................................................................
Chapter 1 About the manual This manual covers all the models in the Corrigo series used with the ventilation application. This revision covers program revisions from 3.3. More information More information about Corrigo can be found in: Corrigo ventilation user guide – A simplified manual Manual E tool© – Manual on how to configure the controllers using the PC software E tool©, available in Swedish, English, German and French.
Chapter 2 About Corrigo The Corrigo series comprises three model sizes: 8, 15 or 28 in-/outputs. In each third generation model Corrigo, all applications are loaded in a separate memory area. The models have article number E...-3 (where 3 stands for third generation). A new feature in version 3.3 are models with three communication ports. The 3 port Corrigo models have article number E...3-3 (where the initial “3” stands for 3 ports). For more detailed information, see chapter 16.
2.2 Application choice On delivery, the main memory in the Corrigo is empty. All the application programs that can be run in the Corrigo are located in a separate memory area. On the first start-up, the controller will start a special program for downloading a suitable application to the main memory. For certain customised models, an application has already been selected when the product is delivered. If so, the selected application will be started immediately. E283W-3 PLA: 254 ELA: 30 Baud#1: 9600 Rev: 3.
EXOreal version. EXOreal C revision: 3.2-0-07 SVN Build: 1420 MAC address and IP address. MAC adress 00:30:97:00:87:78 IP: 10.0.0.197 Battery status and memory size. Backup battery: 3.13 V Flash total size: 8192 kB Memory status and voltage frequency. Flash mem. Free: 1168 kB Mains power freq: 50Hz Communication: Communication mode selection. Serial TCP/IP Serial: Enables selecting EXOline address, communication speed, port mode and routing span.
TCP/IP: Permits selection of EXOline address EXOline address PLA: 254 ELA: 30 Enables EXOline address selection and choice of DHCP (Yes/No). DHCP: Yes Set static IP Current IP: 10.0.0.197 Also enables manual IP address and subnet mask setting before the Corrigo is initiated. IP: 192.168.001.234 Subnet mask: 255.255.255.000 Default Gateway and DNS name is also available under this menu. Default gateway: 192.168.001.001 DNS: 192.168.001.001 Current subnet mask, gateway and DNS name.
Time/Date: Permits setting the time and date. Time: 11:50 Date: 2014-06-25 Weekday: Wednesday Input/Output: Enables In-/Output reading and writing. ->Analog Inputs Digital Inputs Universal Inputs Analog Outputs Digital Outputs Analog Inputs AI1: AI2: AI3: AI4: 0.0 0.0 0.0 0.0 0-10 0-10 0-10 0-10 Volts Volts Volts Volts Digital Inputs DI1: DI2: DI3: DI4: DI5: DI6: DI7: DI8: Off Off Off Off Off Off Off Off Universal Inputs UAI1: UAI2: UAI3: UAI4: UDI1: UDI2: UDI3: UDI4: 0.0 0.0 0.0 0.
2.2.2 Ventilation application The temperature controller is based on a supply air PI-controller for heating control with a preprogrammed set of control modes. A number of different control functions as well as analogue and digital in- and output functions can be bound to this controller. Certain functions are necessary, while others can be considered optional. The choice of which functions are to be used is free, the only restriction is the physical number of inputs and outputs of the different models.
Demand controlled ventilation In buildings with strongly varying occupancy the fan speeds or mixing dampers can be controlled by the air quality measured by a CO2 sensor. Support control When using the control function room control or extract air temperature control, it is possible to utilise support-heating and/or support-cooling.
E81-3 E81D-3 E151-3 E151W-3 E151D-3 E151DW-3 E15D-S-LON E152W-3 E152DW-3 E281-3 E281D-3 E281W-3 E281DW-3 E282W-3 E282DW-3 E28D-S-LON E283W-3 E283DW-3 Corrigo hardware overview AI* 2 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 DI* 3 3 4 4 4 4 4 4 4 8 8 8 8 8 8 8 8 8 UI* - - - - - - - - - 4 4 4 4 4 4 4 4 4 AO* 1 1 3 3 3 3 3 3 3 5 5 5 5 5 5 5 5 5 DO* 2 2 4 4 4 4 4 4 4 7 7 7 7 7 7 7 7 7 RS485 • • • • •
2.3 Technical data Protection class .................................................................................................................. IP20 Display........................................................ 4 rows of 20 characters. Background illumination. LEDs Yellow ....................................................................................................... Settable parameter Red .......................................................................................................
Inputs Analogue inputs AI.............................................. Settable 0…10 V DC or PT1000, 12 bit A/D Digital inputs DI .......................................................................................Potential-free closure Universal inputs UI...........................................Can be set to act as either an analogue input or a digital input with specifications as above Outputs Analogue outputs AO ...............................................
Chapter 3 Installation and wiring 3.1 Installation Corrigo can be mounted in a DIN-standard casing (minimum 9 modules), on a DIN-rail in a cabinet or, using a suitable front-mounting kit, in a cabinet door or other control panel. Ambient temperature: 0…50°C. Humidity: Max. 90 % RH, non-condensing. The picture below shows a wiring example for Corrigo E283W-3.
3.2 Wiring 3.2.1 Supply voltage 24 V AC ±15%, 50…60 Hz or 21…36 V DC If Corrigo and its connected actuators share the same transformer, it is essential that the same transformer pole is used as reference for all the equipment. The equipment may otherwise not function as intended and may also suffer damages. 3.2.2 Inputs and outputs The list of input and output functions in section 3.2.3 is a handy instrument to help you keep track of which inputs and outputs you will need to configure.
All the digital outputs are controlled by MOSFET transistors. The outputs are internally connected with G0 and can deliver max 2 A per output. However, the total power for all the DOs must not be over 8 A. A number of different wiring alternatives are possible depending on the type of supply voltage to the Corrigo and the relay type.
24 V24 ACVAC 24 V DC supply and 24 V AC relays L N 24 V DC + - G G0 10 11 12 3.2.3 Input and output lists The lists below are intended to be used during commissioning to help you keep track of the desired input and output functions. The left column contains a description of the in-/output signal, the middle column displays the name of the corresponding signal in E tool© and the right column shows the text displayed in the Corrigo controller.
© Description E tool Display Pressure transmitter supply air 2 SAF Pressure 2 SAF pressure2 Intake temperature Intake Temp Humidity out Extra temperature sensor 1 Extra Sensor Temp 1 Intake temp Extra temperature sensor 2 Extra Sensor Temp 2 Extsensor2 Extra temperature sensor 3 Extra Sensor Temp 3 Extsensor3 Extra temperature sensor 4 Extra Sensor Temp 4 Extsensor4 Extra temperature sensor 5 Extra Sensor Temp 5 Extsensor5 Extra pressure transmitter supply air Extra SAF Pressure
© Description E tool Display Extra alarm 1 Extra alarm 1 Ext alarm1 Extra alarm 2 Extra alarm 2 Ext alarm2 Extra alarm 3 Extra alarm 3 Ext alarm3 Extra alarm 4 Extra alarm 4 Ext alarm4 Extra alarm 5 Extra alarm 5 Ext alarm5 Extra alarm 6 Extra alarm 6 Ext alarm6 Extra alarm 7 Extra alarm 7 Ext alarm7 Extra alarm 8 Extra alarm 8 Ext alarm8 Extra alarm 9 Extra alarm 9 Ext alarm9 Extra alarm 10 Extra alarm 10 Ext alarm10 Start extra motor 1 Motor control 1 Motor1 Start e
Analogue output signal © Description E tool Display Inactive output Not used Not used Y1 actuator heating Heating Y1 Y1 heating Y2 actuator exchanger Exchanger Y2 Y2 exchanger Y3 actuator cooling Cooling Y3 Y3 cooling Frequency converter, supply air fan SAF SAF Frequency converter, extract air fan EAF EAF Actuator Humidity control Dehumidification/ Humidification Humidity Split of any one of temp outputs Y1, Y2, Y3 or Y1 Heating/Y3 Cooling outputs Split Split Extra controller
24 © Description E tool Display Fresh air close-off damper Outdoor Air Damper Outd air damper Recirculation damper Recirculation Air Damper Exhaust air damper Heating 3-position actuator, increase Heating Increase Heat inc Heating 3-position actuator, decrease Heating Decrease Heat dec Exchanger 3-position actuator, increase Exchanger Increase Exch inc Exchanger 3-position actuator, decrease Exchanger Decrease Exch dec Cooling 3-position actuator, increase Cooling Increase Cool in
Chapter 4 Commissioning General Before the Corrigo can be used, all inputs and outputs must first be configured, as well as all relevant parameters. All commissioning can be done using the Corrigo front panel display and buttons or using the external display unit E3-DSP. E tool © The best way however, is to configure the Corrigo by using E tool©. E tool© is a PC-based configuration program specially developed to simplify the commissioning of the Corrigo series.
Option 2: Read this manual in the order given below: The manual has been designed to act as a guide through the commissioning. The last chapters of the manual, not listed below, cover menus and functions that are not used during commissioning. Functional description Start by reading chapter 5. Functional description below. Some functions are essential to the working of the unit and must be included. Others are more of the nature of optional extras which can be excluded.
Manual/Auto Chapter 14 Learn to use manual control. Very useful for testing out and troubleshooting your system. Other functions Chapter 18 Alarm handling etc.
Chapter 5 Functional description 5.1 Temperature control General Corrigo has a choice of the following control modes: 1. Supply air control 2. Outdoor temperature compensated supply air control 3. Cascaded room temperature control 4. Cascade connected extract air temperature control 5. Outdoor temperature dependent switching between supply air control with outdoor temperature compensation and room temperature control 6.
Example: 0 % Cooling at HCOut = 30 % 100 % Cooling at HCOut = 0 % 0 % heat exch. at HCOut = 32 % 100 % heat exch. at HCOut = 50 % 0 % Heating at HCOut = 54 % 100 % Heating at HCOut = 100 % Output signal 100% 0% Controller signal 100% Cooling Heat exch. Heating 54% 50% 32% 30% 0% Heat demand In addition to these three, it is possible to connect two additional anologue output signals for control of optional sequences, Y4 extra sequence and Y5 extra sequence.
5.1.1 Control modes 1. Supply air control The supply air temperature is kept at the setpoint value by controlling the output signals for "Heating Y1", "Exchanger Y2", "Cooling Y3", "Extra sequence Y4" and “Extra sequence Y5”. A single PI control loop is used. A neutral zone can be set around the setpoint value. For example, if the setpoint is 18°C and the neutral zone is 2K, the setpoint for cooling will be 19°C and the setpoint for heating will be 17°C (FI = 0K).
6. Outdoor temperature dependent switching between supply air temperature control and extract air temperature control When the outdoor temperature is lower than a settable limit (winter), outdoor compensated supply air temperature control will be active, otherwise (summer) cascaded room temperature control as in control mode 4. 7. Outdoor compensated room temperature control The room temperature can be compensated when the outdoor temperature increases.
Frost protection The heater return water temperature is measured using the analogue input ”Frost prot.temp”. Low temperatures will generate an internal, proportional signal that is used to force the heating valve open thereby preventing freeze-up of the heater. The internal signal (“Internal signal”) will begin to rise as the frost protection temperature falls below “Alarm level” + “Prop. Band” in order to reach 100 % output when the signal has fallen to “Alarm level”.
Contactors drawn inactivated. Note: It is important that the high temperature thermostat is hardwired to disconnect the power to the heater to ensure that the heating is shut down when the thermostat is activated even if the Corrigo should be faulty. 5.1.2.3 Water heating and electric heating The water heating is controlled by "Y1 heating", and the electric heating is controlled by the sequence "Split". Split (see the section Split of optional temp sequence) must always be set to "Heating".
Deicing De-icing is activated either when the digital input signal ”De-icing exchanger” is activated or when the value of the analogue input ”Deicing temp” falls below the deicing limit (-3°C). It is deactivated when the digital input is reset or the analogue input rises above the limit value plus a settable differential.If a differential pressure switch is used in addition to the heat exchanger, the digital input ”Deicing thermostat exchanger” is also used.
CO2 If demand controlled ventilation (see 5.4.2) is activated in combination with mixing dampers, and the CO2-value rises above the setpoint value, the dampers will let in more outdoor air. The function is controlled by a PI-controller. Factory settings: P-band 100ppm and I-time 100 seconds. These values can only be changed in E tool©. CO2/VOC control can be used on ”Y2 exchanger” or ”Y4 extra sequence”. The control is selectable for use on Y2, Y4 or on both outputs.
1 Y1 = 1 2 1 1 4 2 1 Step controllers and Change-over The digital output signals "Heating/cooling step 1", "Heating/cooling step 2" and "Heating/cooling step 3" are used for step controllers during change-over control (see section 5.1.12). They have the same functions as other step controller outputs, but are set to either heating or cooling depending on whether heating or cooling is required.
When two DX cooling steps are used with binary function, the cooling effect is divided into three steps. The desired blocking level can be set individually for each of these steps. When three DX cooling steps are used with binary function, the cooling effect is divided into seven steps. However, the controller still only has three blocking level settings. Therefore, Blocking step 1 will apply to binary steps 1 and 2, Blocking step 2 to binary steps 3 and 4, and Blocking step 3 to binary steps 5, 6 and 7.
Support control heating Demand for support control heating is when the room temperature is lower than the start value which is settable 0 to 30°C. The fans will run at the preset speed, the heater and the heat exchanger are controlled by the supply air temperature controller with the configured max limitation for the supply air (FS=30°C) as setpoint and the cooling is shut off (0%).
In- and outputs Outdoor temperature sensor or Intake temperature AI AI Room sensor or Extract air sensor DO Free cooling operation 5.1.7 Cooling recovery If the cooling recovery has been configured, there is a cooling requirement and the extract air temperature is a settable amount lower than the outdoor temperature, cooling recovery can be activated. When cooling recovery is activated the heat exchanger signal will be reversed to give increasing recovery on increasing cooling demand.
5.1.9 Heat exchanger efficiency monitoring General The function calculates the heat exchanger temperature efficiency in percent when the output signal to the exchanger is higher than 5 % and the outdoor temperature is lower than 10°C. When the control signal is lower than 5 % or the outdoor temperature is higher than 10°C the display will show 0 %.
The recirculation setpoint can be configured as constant or offset. Constant means that the recirculation setpoint will be used. Offset is based on an offset from the supply air setpoint. To lower the temperature, it is possible to configure free cooling to be used during recirculation, if the conditions for free cooling are fulfilled. Then, the recirculation damper closes, the supply and extract air dampers open and the extract air fan starts (the supply air fan also starts, if it is not already running).
The extra controller can also be used for humidity control. The cooling battery will be used for dehumidification if the room/extract air humidity is too high. The function uses the sensor “Extra unit temp” and is placed immediately after the cooling battery. The function also requires use of a room humidity or extract air humidity sensor. Example: If the room humidity exceeds the setpoint for the function, the cooling battery will be controlled by the external controller. The heater is controlled normally.
Digital humidity signal A digital output signal, "Dehumidification/Humidification", can be used for on/off control of humidifiers/dehumidifiers. The output signal has an activation value and a deactivation value which are connected to the humidity controller output. The signal is activated when the humidity controller output rises above the set activation value and is deactivated when the humidity controller output drops below the set deactivation value.
The extract air fan and the supply air fan have individual start and stop delays which are normally set so that the extract air fan is started before the supply air fan. If there are not enough digital outputs for individual control, both fans will have to be started using the signal for the supply air fan, and the delay be created using an external time relay. 5.4.
Output signal Utsignal 100% Y3 Y2 Y1 10000 units 10000 units Controller output Regulator- 0% utsignal Kompensation vid Cooling demand kylbehov compensation Kompensation vid Heating demand värmebehov compensation Frequency control flow Instead of giving a pressure setpoint value, it is possible to use an airflow volume value in m 3/h. The value from the pressure transmitter is recalculated to a volume flow using the formula below and the fans will be controlled to give a constant flow.
Utsignal 100% Y3 Y2 Y1 10000 units 10000 units Controller output Regulator- 0% utsignal Kompensation vid Cooling demand kylbehov compensation Kompensation vid Heating demand värmebehov compensation Frequency control manual Frequency controlled fans can be controlled at a fixed rotational speed. The rotational speed is selected by setting a fixed output signal (0 – 100%). Values for normal and reduced speed can be configured for each fan.
Frequency control EAF with flow control SAF The rotational speed of the extract air fan is controlled by a pressure transmitter which is placed in the extract air duct. The supply air fan is controlled by the extract air duct flow in order to achieve a balanced ventilation. A pressure transmitter placed in the extract air fan cone (“Extra SAF Pressure”) provides a measurement of the current extract air flow.
When the function is activated and combined with pressure controlled fans and the CO 2 value rises above control value one the fans will start at reduced speed, if they are not already running. Should the CO2 value continue to rise the fan speed will also increase until the CO 2 value reaches control value two at which point the fans will be running at normal speed. The fans will stop when the CO 2 value falls 160 ppm below control value one.
The function has a settable minimum running time. In- and outputs CO2 sensors AI 5.4.3 Extra control for external motor External control of an external (fan) motor can be configured. The fan is started either via a digital input or via a time channel. A digital output activates the (fan) motor. A digital input is available for run time indication/motor protection.
Corrigo can be configured to block DX cooling if a ”Malfunction P1-Cooling” alarm should occur. In- and outputs Heating Exch. Cooling Outdoor temperature sensor AI DO DO DO Start/stop circulation pump DI DI DI Run ind/alarm, circ. pump 5.6 Damper control 5.6.
All dampers must be wired to the same output in order to get correct results. The fire alarm input can be configured as normally closed or normally open. In- and outputs Outdoor air damper DO DO Exhaust air damper DO Fire damper DI Fire alarm DI Fire damper end switch monitoring 5.7 Extended running and External switch The digital inputs for extended running can be used to force the unit to start although the timer says the running mode should be “Off”.
Alarm priorities Alarms can be given different priority levels, A-alarm, B-alarm, C-alarm or not active. Digital outputs can be bound to act as alarm outputs for A-alarms or B/C-alarms or both A- and B/C alarms. The digital outputs can be inverted, so that an inoperative alarm gives a high output and vice versa. A- and B-alarms must be acknowledged to reset. C-alarms automatically reset as soon as there is no longer a cause for alarm.
Chapter 6 Starting and stopping the unit 6.1 Start conditions The unit will be started and will run when any one of the following conditions is met: 1. Timer output for normal speed or timer output for reduced speed is ON 2. The unit is started manually using the Corrigo front panel or via E3-DSP 3. Digital input for extended running is activated 4. Support control is activated and the present room temperature is higher/lower than the preset starting value (Support heating/cooling) 5.
6.3 Start sequence Start of the unit will run according to the following sequence: 1. If the controller is configured for water heating and has an outdoor temperature sensor and the outdoor temperature is below +3ºC the heating valve is opened and the heating circulation pump is started. 2. If the controller is configured with a heat exchanger and has an outdoor temperature sensor and the outdoor temperature is below +15ºC the heat exchanger will be run at 100% capacity for a pre-set time. 3.
Chapter 7 Display, LEDs and buttons This section is applicable to Corrigo units with display and buttons but also to the hand terminal E3DSP which can be connected to Corrigo units without display and buttons. Room units are available with or without display, or as a touch display (see instructions and product sheets for ED-RU..., ED-RU-D... and ED-TCV). 7.1 Display The display has four rows of 20 characters and is backlit.
Regulator vent. sys 2008-11-20 13:30 System: Running Sp: 18.0 Act: 18.2°C Pressing DOWN will move you through the menu choices at this, the lowest level. UP will move you back through the choices. Which menus are shown depends on which access level you are using (see chapter eight for more information about logging on to higher levels).
Chapter 8 Access rights Running mode Temperature Time settings Access rights There are four different access levels. The Admin level has the highest access, while the Service, Operator and basic “no-log on” level have the lowest. The choice of access level determines which menus are shown, as well as which parameters can be changed in the displayed menus. Admin level gives full read/write access to all settings and parameters in all menus.
8.3 Change password As default Corrigo comes with the following passwords for the different levels: Admin Service Operator Normal 1111 2222 3333 5555 You can only change the password for log on levels lower or equal to the presently active level, i.e. if you are logged in as Admin you can change all passwords, but as Operator you can only change the Operator and Normal passwords. There is no point in changing the Basic password since access to that level is granted automatically to all users.
Chapter 9 Running mode Running mode Temperature Time settings Access rights Collected here are a number of menus showing running mode, selected functions, alarm events and status of inputs and outputs. Running mode Selected functions Alarm events Input/Output 9.1 Running mode, unit The unit’s running mode can be changed without logging on. Running mode Auto Running time SAF: 14.6 Running time EAF: 14.6 h h 9.2 Selected functions Shows the present configuration. These are read-only menus.
Fire damper funct Not active Operation when alarm Stopped Frost protection Active Cooling recovery No External setpoint Not active 9.3 Alarm events Alarm log which contains the 40 latest alarm events. The most recent event is listed first. The alarm log can only be used for viewing the alarm history. Alarms are handled in a special area, see section 18.1. 24 Nov 14:32 Malf. SAF B Acknowledged 9.
Chapter 10 Temperature Running mode Temperature Time settings Access rights Here you can view all actual and setpoint values for temperature control. The menu is visible to all users, regardless of log on level. However, to make changes you need at least Operator authority. The below menus are available, providing the corresponding input has been activated. Setpoints are available with a separate value for reduced speed. This is achieved using a temperature offset when the unit runs in reduced speed.
Outdoor -5.0°C 0.0°C 5.0°C comp setp = 23.0°C = 22.0°C = 20.0°C Outdoor comp setp 10.0°C = 18.0°C 15.0°C = 18.0°C In-between-values are calculated using straight lines between breakpoints. Setpoints for temperatures lower than the lowest breakpoint and higher than the highest breakpoint are calculated by extending the line between the two last breakpoints at either end. Example: At the lower end the setpoint is increasing by 1°C for every 5 °C lowering of the outdoor temperature.
Outdoor -20.0°C -15.0°C -10.0°C comp setp = 25.0°C = 24.0°C = 23.0°C Outdoor -5.0°C 0.0°C 5.0°C comp setp = 23.0°C = 22.0°C = 20.0°C Outdoor comp setp 10.0°C = 18.0°C 15.0°C = 18.0°C If cascade control max/min supply setp Max: 30.0°C Min: 12.0°C In control mode seven, the room setpoint is compensated based on outdoor temperature. Note that the curve must be reset for optimum functionality. Both the outdoor and room temperature are changeable for the curve.
Support control heating Support heating Room temp for Start: 15.0°C Stop: 21.0°C Support control cooling Support cooling Room temp for Start: 30.0°C Stop: 28.0°C Frost protection temperature Frost protection Actual: 30.9°C Deicing exchanger Deicing exchanger Actual: 11.2°C Setp: -3.0°C Hysteresis: 1.0°C Heat exchanger efficiency monitoring Efficiency exch Actual: 93% Output exchanger Actual: 100% Recirculation (see 5.1.11) Temp.setpoint when recirc. (Supply/ Extract/Room) 18.
Submenus Outd temp Act: 12.8 °C Humidity outdoors Act: 98.7% RH Indoor temp Act: 17.2 °C Humidity indoors Act: 55.
Chapter 11 Air control Pressure control SAF and EAF Pressure control can be set in pascal (Pa) or in inch water gauge (in.wg). A factor (x100) is used in the program and displays when the unit is set to in.wg. When using pressure or flow controlled fans, the setpoint can be temperature compensated. The compensation has the default value 0 Pa, i.e. no compensation is added. The compensation is linear between the setting points. The compensation can be positive or negative.
Controller output compensation Not active Submenu “Compensation only when” Compensation only when 1/1-speed: No defrosting: No Flow units can be measured in both m3/h (cubic meters per hour) and in CFM (cubic feet per minute). Flow control SAF (there are corresponding menus for EAF) Flow control SAF Actual: 1800 m3/h Setp: 2000 m3/h Submenu "Setpoint" Flow control SAF Setp 1/1: 2000 m3/h Setp 1/2: 1000 m3/h Submenu "Outdoor compensation" Outdoor comp setp -20 °C = 0.0 m3/h 10 °C = 0.
Flow units can be measured in both m3/h (cubic meters per hour) and in CFM (cubic feet per minute). Manual frequency control SAF (there are corresponding menus for EAF) Frequency control manual SAF Output: 75% Submenu "Setpoint" Frequency control manual SAF Output 1/1: 75% Output 1/2: 50% Submenu "Outdoor compensation" Outdoor comp. outp.
Chapter 12 Humidity control Humidity control can be configured as Humidification, Dehumidification or both Humidification and Dehumidification. Two humidity sensors can be connected, a room sensor for control and an optional duct sensor for maximum limiting. The limit sensor can be omitted. The humidity control is handled by a PI-controller. The humidity sensors must give 0…10 V DC for 0…100 % RH. Humidity sensor room Humidity room Actual: 51.9% RH Setp: 50.
Chapter 13 Time settings Running mode Temperature Time settings Access rights General Corrigo has a year-base clock function. This means that a week-schedule with holiday periods for a full year can be set. The clock has an automatic summertime/wintertime change-over. Individual schedules for each week-day plus a separate holiday setting. Up to 24 individual holiday periods can be configured. A holiday period can be anything from one day up to 365 days.
If you want to run the unit from one day to another, e.g. from Mon 22:00 to Tue 09:00, the desired running time for both days must be entered. Normal speed Monday Per 1: 07:00 – 16:00 Per 2: 22:00 - 24:00 Normal speed Tuesday Per 1: 00:00 – 09:00 Per 2: 00:00 - 00:00 13.3 Timer Reduced speed These settings will be ignored if single speed fans are configured. Should periods for normal speed and periods for reduced speed overlap, normal speed takes precedence.
13.6 Holidays Up to 24 separate holiday periods for a full year can be set. A holiday period can be any number of consecutive days from 1…365. The dates are in the format: MM:DD. When the present date falls within a holiday period, the scheduler will use the settings for the weekday “Holiday”.
Chapter 14 Manual / Auto General In this menu the running mode of all the configured output signals and a number of control functions can be manually controlled. This is a very handy feature which simplifies the checking of individual functions in the Corrigo. The running mode for the whole unit is set in the menu "Running mode". See section 9.1. The supply air controller's output signal can be manually set (Manual/Auto) to any value between 0 and 100 %.
EAF: Auto Manual set: 0.0 Y1 heating output Heating Auto Manual set: 0.0 Y2 heat exchanger Exchanger Auto Manual set: 0.0 Y3 cooling Cooling Auto Manual set: 0.
Extra sequence Y4 Extra sequence Y4 Auto Manual set: 0.0 Extra sequence Y5 Extra sequence Y5 Auto Manual set: 0.
Chapter 15 Settings In this menu group all settings for all activated functions should be available. The menu group is only available when logging on as Admin. Depending on what choices have been made during configuration, some of the alternatives in this menu group may not be shown. Settings Control temp Control pressure Control flow Control humidity Control CO2 Control extra unit Alarm settings 15.1 Control temp Supply air controller Supply air control P-band: 33.0 °C I-time: 100.
Shutdown mode Shutdown mode P-band: 100.0 °C I-time: 100 s Frost protection temperature Frost protection Frost protection Active Setp shutdown: 25°C P-band active: 5°C Fast stop at frostprotection alarm Yes "Setp shutdown" is the shutdown mode setpoint. P-band active 5°C means that the frost protection controller will start overriding the heating output when the frost protection temperature is less than five degrees above the set frost alarm limit. The default alarm limit is 7°C.
Flow control EAF Flow control EAF P-band: 1000 m3/h I-time: 60 s Min.output: 0 % 15.4 Humidity control Control humidity P-band: 100.0 %RH I-time: 300.0 s 15.5 Control extra unit Control extra unit P-band: 33.0 °C I-time: 100.0 s 15.6 Alarm settings Alarm settings Alarm limits Alarm delays Restore alarm 15.6.1 Alarm limits Alarm limits, supply air Al lim supply Control dev: High temp: Low temp: air 10.0 °C 30.0 °C 10.0 Alarm limits, extract air Al lim extract air High temp: 30.0 °C Low temp: 10.
Alarm limit, pressure Control dev SAF 40.0 Pa Control dev EAF 40.0 Pa Alarm limit Humidity Control deviation humidity: 10 % Alarm limit, exchanger efficiency Low efficiency 50.0 % Service alarm filter Service alarm (Filter alarm) Time until alarm activates: 0 month 15.6.2 Alarm delays Alarm delay, supply air Al del supply Control dev: High temp: Low temp: air 30 min 5 sec 5 sec Alarm delay, extract air Al del extract air High temp: 30.0 min Low temp: 30.0 min Alarm delay, room Al. del.
Alarm delay, exchanger efficiency Low efficiency 30 min Alarm delay, fan malfunction (SAF and EAF) Alarm delay malfunction SAF: 120 s ----------------------EAF: 120 s Alarm delay, pump malfunction Alarm delay malfunc P1 heating: 5 s P1 cooling: 5 s P1 exchan: 20 s Alarm delay, misc. Filter guard1: 180 s Filter guard2: 180 s Flow switch: 5 s Frost prot: 0 s Ext. Frost prot. DI refers to the digital input signal Deicing Heat exchanger. Alarm delay, misc.
Chapter 16 Expansion model 2 and 3 port Corrigo units are available with or without display. Both models have a TCP/IP port and one or two serial ports. For a list of the various models, see the Corrigo model overview in chapter 2. 16.1 Ports The ports are used for connecting to E tool© and, possibly, a SCADA system. In an E…3W-3 model, port 3 is the TCP/IP output. The serial ports (ports 1 and 2) are used for expansion purposes, e.
16.2.2 Expansion units EXOline Communication between the master and expansion units takes place via EXOline. The slave controllers will be given the addresses 241:1 and 241:2 (ELA:PLA) respectively. 16.2.3 Expansion units LON For a 2 or 3 port Corrigo master to be able to communicate via LON, the first expansion unit must have a LON port. Communication between the master and expansion units takes place via EXOline.
Chapter 17 Configuration Start by logging on as Admin. See chapter 8. Move the marker using the DOWN and UP buttons until it is opposite the menu ”Configuration” and press RIGHT. The configuration main menu is shown (different menus are visible depending on the configured inputs and outputs).
17.1.1 Analogue inputs AI AI1: Sign: Outd temp Raw value: 18.4 Compensation:0.0 °C All analogue inputs are for PT1000 or 0…10 V. Input signals can be compensated e.g. for wiring resistance. The raw value will show the actual, uncompensated input value. If inputs have been assigned to pressure or flow control of fans, alternatively humidity or CO2 control, the following menus will appear: SAF Pressure at 0 V: 0.0 Pa 10 V:500.0 Pa Filter factor: 0.2 CO2 at 0V: 0.0 ppm 10V: 2000 ppm Filter factor: 0.
After choosing AI or DI signal (the unused alternative must be set to not active) there are submenus with settings. These menus are accessed by pressing RIGHT. UAI1: Sign: SAF pressure Raw value:8.5 Compensation: 0.0 °C UDI1: NO/NC: NO Signal Not used Status: No To simplify adaptation to external functions, all universal inputs configured as digital inputs can be set to be either normally open, NO, or normally closed, NC. The inputs are as standard normally open, i. e.
17.3 Control function Control function Mode: Supply air control There are eight different control functions to choose from: 1. Supply air control. 2. Outdoor-temperature compensated supply air control. 3. Cascaded room temperature control 4. Cascade connected extract air temperature control. 5. Outdoor temperature dependent switching between outdoor compensated supply air temperature control and room temperature control 6.
SAF/EAF CAV factor 1.00 For more detailed description, see the section SAF with EAF slave under 5.4.1 Pressure control. SAF with EAF flow control / EAF with SAF flow control If fan slave operation and flow control has been configured, there are submenus for setting the flow calculation factors for "SAF" and "EAF", and the CAV factor for "SAF/EAF". SAF flow control factors K-constant: 100 X-constant: 0.50 EAF flow control factors K-constant: 100 X-constant: 0.50 SAF/EAF CAV factor: 1.
17.6 Extra sequence Y4 "Extra sequence Y4" can be configured to one of the following alternatives: "Active", "Active with cooling recovery", "Active with enthalpy control" and "Active with both cooling recovery and enthalpy control". Mode Extra sequence Y4 Not active 17.7 Extra sequence Y5 "Extra sequence Y5" can be configured to “Active” or “Not active”. Mode Extra Sequence Y5 Not active 17.8 Heating coil Heating Water The heater can be set to "Water", "Electric", "Water/Electric" or "Not used".
17.10 Chiller Cooling Water Select chiller type: "Water", "DX", "DX with exchanger control" or "Not used". For detailed description of DX-cooling, se section 5.1.4 Step controllers. If DX cooling has been configured, there are submenus for setting of certain operation parameters. Min limit lowering If DX cooling is used in combination with room or extract air control, the supply air temperature minimum limit value can be lowered to give smoother (more continuous) running of the chillers.
17.11 Pump control P1 heating P1 exchanger P1 cooling In these menus the parameters for pump control are set. If, for any of the control circuits, no output is configured for pump control these settings will be ignored. P1 Heating Pump stop: Yes Stop delay: 5 min Outd temp stop 10 °C Differential: 1.0 P1 Exchanger P1 exchanger Stop delay: 5 min P1 Cooling P1 cooling Stop delay: 5 min For a detailed description of pump functions, see the section Pump control. 17.
Outdoor sensor placed in intake channel No For detailed description, see section 5.1.6 Free cooling. 17.13 Support control Note: If you select the function support control without EAF (extract air fan), a recirculation damper must be used. See more in section 5.1.5. Support control active: Yes EAF running during support contr: Yes Minimum running time Min run time for support ctrl: 20 min For detailed description, see 5.1.5 Support control. 17.
Fire alarm input Normally open Damper exercise No Set the parameters for damper exercise in the submenu. Damper exercise Running time: 90 s Interval in days: 1 Hour for exerc: 00 Running time is the time the damper actuator needs to open or close. Hour for exercise is the hour of the day at which you want the function to be run. For detailed description of damper exercising, see the section Damper control. 17.
17.20 Enthalpy control Cooling recovery run when enthalpy is greater outd than indoors : Active For a detailed description, see section 5.1.8 Enthalpy control. 17.21 External setpoint An external setpoint device, for example TBI-PT1000 or TG-R4/PT1000 can be connected. The setpoint device must follow the PT1000 resistance curve. The setting range can be restricted. External setpoint Not active Min setp: 12.0°C Max setp: 30.0°C For details, see section 5.1.10 External setpoint. 17.
Alarm from frequency converter When running frequency controlled fans, you sometimes want to use both a pressure signal from a pressure transmitter and a digital alarm signal from a frequency converter. An analogue input for a pressure transmitter and a digital input for "SAF Indication" or "EAF Indication" must then be configured. The setting "Run indication/Motor protection SAF" or "EAF Indication" must be set to "Motor protection".
17.25 Step controllers Step contr. heating Step contr. Cooling 17.25.1 Step controller heating Step controller heating can be set to sequential or binary. Step contr. heating Sequential Binary steps Step controller Heating activation levels for sequential control.
Nbr of steps: 3 Minimum on/offtime: 60 sec Hyst: 0.5 % When DX cooling is used in conjunction with pressure controlled or flow controlled fans it is possible to block DX cooling if the supply air fan control signal falls below a preset values. The blocking level is individually settable for each DX cooling step. At lower SAF output block step1: 0 % block step2: 0 % block step3: 0 % For a more detailed description, see section 5.1.4 Step controllers. 17.25.
Recirculation is activated either via a digital input signal or by connecting it to "Timer output 5". EAF running during recirculation: No The extract air fan can be selected to run during recirculation. 17.27 Pretreatment Control of dampers and pump for preheated or pre-cooled outdoor air via an underground intake channel.
Alarm text The alarm text that should be shown in the display when there is an alarm can be changed using E tool©. For more information, see the E tool© manual. Alarm list The alarm text and priority columns show the factory set values. .
.No Alarm text Pri Description 28 Analogue deicing - Exchanger de-icing activated by de-icing sensor 29 Rotation sentinel exchanger B Exchanger rotation sentinel alarm activated 30 Malfunction fire damper B Fire damper exercise test failed 31 Supply air fan control error - Supply air pressure deviates too much from the setpoint for too long. 32 Extract air fan control error - Extract air pressure deviates too much from the setpoint for too long.
.No 100 Alarm text Pri Description 64 Sensor error external control EAF B Malfunction of connected sensor 65 Sensor error SAF pressure 2 B Malfunction of connected sensor 66 Sensor error outdoor humidity B Malfunction of connected sensor 67 Sensor error intake temp B Malfunction of connected sensor 68 Sensor error extra sensor 2 B Malfunction of connected sensor 69 Sensor error extra sensor 3 B Malfunction of connected sensor 70 Sensor error extra sensor 4 B Malfunction of conn
.No Alarm text Pri Description 99 High temp extra sensor 5 - High temperature extra sensor 5 100 Low temp extra sensor 5 - Low temperature extra sensor 5 101 Extra alarm 1 Extra alarm 1 on digital input 102 Extra alarm 2 Extra alarm 2 on digital input 103 Extra alarm 3 Extra alarm 3 on digital input 104 Extra alarm 4 Extra alarm 4 on digital input 105 Extra alarm 5 Extra alarm 5 on digital input 106 Extra alarm 6 Extra alarm 6 on digital input 107 Extra alarm 7 Extra alarm 7 o
Expansion unit In order to connect additional I/Os (in- and outputs) to the Corrigo, port 1 or 2 should be set as an expansion unit (only Corrigo controllers can be connected). It is possible to connect two expansion units, giving a maximum number of 28*3 = 84 inputs/outputs. The expansion units must have the addresses 241:1 and 241:2 respectively (ELA:PLA). Expansion unit1 None Expansion unit2 None To initiate the expanded controllers, select ”Expansion unit” at start-up (see below).
Press RIGHT to select which expansion units are to be connected. Expansion unit1 None Expansion unit2 None Then go a step down to select which frequency converters are to be connected. For additional settings for frequency converters, see appendix at the end of this document. Type of freq conv connected on Modbus None Dual? No Expansion unit and external display Function port1 Exp and ext display An expansion unit and external display can be used on the same port simultaneously. 17.29.
Retardation time 1/1-1/2-speed 10 s 17.30.3 Heating at start-up and high speed blocking At outdoor temperatures below the set value, the heating output will be forced to 100% before startup. Two speed fans and pressure controlled fans can be blocked from using high speed at outdoor temperatures lower than the set value. This function should not be combined with the function ”Outdoor compensation of pressure setpoint”. See the section Demand control. Both functions need an outdoor temperature sensor.
The remaining 2°C are the neutral zone between cooling and exchanger and between exchanger and heating. Split settings exchanger 0% at HCOut= 32% 100% at HCOut= 50% Split settings heating 0% at HCOut= 54% 100% at HCOut= 100% Split settings cooling 0% at HCOut= 30% 100% at HCOut= 0% Split settings extra Sequence Y4 0% at HCOut= 0% 100% at HCOut= 0% Split settings extra Sequence Y5 0% at HCOut= 0% 100% at HCOut= 0% Output signal 100% 0% Controller signal 100% Cooling Heat exch.
17.30.8 Split of optional temp. sequence Any one of the analogue temperature control output sequences "Y1", "Y2" and "Y3", ”Y1 Heating/Y3 Cooling”, ”Y4-extra sequence” or ”Y5-extra sequence” can be split, for example to control two heating valves in sequence. The split is always even, 50/50, which means that each part of the split will have half the part of the P-band assigned to the output. An analogue output must be assigned to the output signal “Split”.
Type 1 The text on the first line can be changed using E tool©. The second line shows the date and time. The third line shows the present running status. The fourth line shows the present temperature setpoint and actual values. Vent unit 18 PX 2004-08-15 11:28 System: Running Sp:22.0°C Act:21.8°C Type 2 The first line shows the date and time. The second line shows the present running status. The third line shows the present temperature setpoint and actual values.
17.31.3 Automatic summer-/wintertime change-over When Corrigo is set on automatic summertime/wintertime change-over, the timer will automatically change between summertime and wintertime according to European standard. Automatic summer/ winter time change-over Yes 17.31.4 Address Corrigo uses the addresses below when connecting to E tool©, and when multiple controllers are connected in an EXO network.
Chapter 18 Other functions 18.1 Alarm handling If an alarm condition occurs, the red Alarm LED on the front panel of units with display or the Alarm LED on a connected display unit will start flashing. The LED will continue to flash as long as there are unacknowledged alarms. Alarms are logged in the alarm list. The list shows type of alarm, date and time for the alarm and the alarm class (A, B or C alarm).
18.4 Language When the start menu is displayed, pressing the RIGHT button three times will display a menu in which the language can be changed. The different language files are stored in the application memory and are downloaded to the work memory. If a Corrigo via E tool© has been reloaded with a newer program revision than the factory revision, the controller will not allow language files to be downloaded from the application memory.
Remove the cover by pressing down the locking torques at the edge of the cover using a small screwdriver, and at the same time pulling the edges outwards. Battery location Grip the battery firmly with your fingers and lift it upwards until it rises from its holder. Press the new battery firmly down into place. Note: To preserve correct polarity, the battery can only be inserted the “right way round”! 18.7 Start-up wizard The start-up wizard is a function that can be activated in "Configuration"/"System".
Choose language English In the second menu, the setpoint is set. The appearance of the menu depends on which control type has been configured. Supply air temp Setp: 18°C In the third menu, time and date are set. Time: 14:27 Date: 2013-11-25 Weekday: Tuesday In the fourth menu, the running time for normal speed Monday – Friday is set. Normal Monday Per 1: Per 2: speed Friday 07:00 – 16:00 00:00 – 00:00 In the fifth menu, the running time for normal speed Saturday, Sunday and holiday is set.
18.8 Energy calculation The total energy consumption of the air handling unit can be obtained by internally calculating the various partial outputs of system components. By combining the various outputs of heaters/coolers, fans, etc., current power consumption is calculated based on their combined output. 18.
Index A Access rights, 55 Actuator type, 92 Address, 106 Air control, 64 Alarm Setting, 95 Alarm events, 58 Alarm list, 96 Alarm settings, 76 Alarms, 49 Alarm delay at startup, 102 Alarm delays, 77 Alarm handling, 107 Alarm limits, 76 Alarm list, 96 Analogue inputs, 16 Analogue outputs, 16 Automatic restart at power-up, 104 B BACnet, 101 Battery exchanger.
F L Fans Control, 41 Delays, 101 Frequency control EAF with flow control SAF, 44 Frequency control external control signal, 44 Frequency control flow, 43 Frequency control SAF with EAF slave, 44 Frequency control SAF with flow control EAF, 44 Interlock, 85 Manual frequency control, 43 Pressure control, 42 Retardation time, 101 Timer output ½ speed, 69 Timer output 1/1 speed, 68 Fire dampers, 48, 89 Exercising, 48 Flow control Extra compensation curve, 43 Outdoor compensation, 43 Setpoint, 43 Settings, 75
Revision number, 107 Rotating exchanger, 32 Run indication / Motor protection, 91 Running mode, 57 Running mode, unit, 57 Running time, 3-position actuators, 92 S Save and restore settings, 78 Selected functions, 57 Setpoint fan control, 64 Setpoint humidity control, 67 Setpoint, external, 38, 91 Setpoints temperature, 59 Settings, 74 Shutdown mode, 30 Specific Fan Power, 111 Split of optional temp.
Appendix
Appendix Frequency converters and pressure transmitters Version 3.3 of Corrigo ventilation supports the frequency converters listed below: Vacon NXL Lenze Omron V1000 Emerson Commander LS EBM Danfoss FC 101 ABB ACS EC Blue HK Instruments pressure transmitter DPT-Dual-MOD-2500 When communicating via frequency converters through Modbus, it is sometimes necessary to change certain settings in the frequency converter.
The variables presented in the display of the Corrigo are: Frequency (Hz), Current (A), Output (kW), Accumulated power (kWh). Lenze No settings necessary. Lenze frequency converters are controlled via Modbus. Communication, alarms and certain indications can be read.
start/stop) b1-01 (0x180): Frequency Reference selection 1, default = 2 (via Modbus) b2-01 (0x181): Run command selection 1, default = 2 (via Modbus) Omron frequency converters are controlled via Modbus. Communication, alarms and certain indications can be read. The following signals can be read/written from/to the frequency converter: Adress Modbusregister Namn Skaln.
Set parameter 43 to 9.6 (9600 baud). Emerson frequency converters are controlled via Modbus. Communication, alarms and certain indications can be read.
Address Modbus register Name Scaling Type 5 30005,40005 FB Speed reference (SP) 10 % 6 30006,40006 FB Status word - Binary 10 30010,40010 Motor frequency 100 Hz 791 30791,40791 Torque 100 % 786 30786,40786 RPM 1 Rpm 784 30784,40784 Motor current 10 A 790 30790,40790 Output 10 kW 789 30789,40789 Voltage 10 V 14 30014,40014 Status change - Binary 816 30816,40816 Alarm - Binary 817 30817,40817 Alarm 2 - Binary EBM-PAPST EBM frequency converters are con
ECBlue frequency converters are controlled via Modbus. Communication, alarms and certain indications can be read.
Function 05: Write Single Register Register Parameter description Data type Value Area 4x0001 Beta value of NTC termistor 16 bit 1….
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