Munters Rotem Trio 20 User And Installation Manual

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User and Installation Manual

Trio

Swine Controller

Ag/MIS/ImEN-2748-09/19 Rev 2.7

P/N: 116798

Trio

Controller

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Page 1 Trio Controller User and Installation Manual Trio Swine Controller Ag/MIS/ImEN-2748-09/19 Rev 2.7 P/N: 116798...
Page 2 Munters reserves the right to effect modifications to the apparatus in accordance with technical and legal developments. © Munters AB, 2020...
Page 3 Analog Output Devices ......................3.4.5 Digital Devices ........................... 3.4.6 Analog Input Devices ......................3.4.6.1 CO2 Sensor Wiring ................... 3.4.6.2 Temperature Sensor Wiring ................................... 3.4.6.3 Humidity Sensor Wiring 3.4.6.4 Potentiometer Device Wiring ................3.4.6.5 Ammonia Sensor Wiring ................... © Munters AB, 2020...
Page 4 7.3.2.2 0 – 10 Volt Stir Fan .................... 7.4 Sensors ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- 7.4.1 Defining the Ammonia Sensor ....................7.4.2 Defining the CO2 Sensor ....................... 7.4.3 Defining the Humidity Sensor ....................7.4.4 Defining the Water Meter Sensors ..................© Munters AB, 2020...
Page 5 Animal Weight Main Screen ....................8.3.2 Animal Weight Curve ......................8.4 Adjusting the Animal Count --------------------------------------------------------------------------------------------------------------------------------------- 8.5 Tech Support Information -------------------------------------------------------------------------------------------------------------------------------------------- FEED MANAGEMENT ------------------------------------------------------------------------------------------------------------------------------------- 91 9.1 Feeding Summary ------------------------------------------------------------------------------------------------------------------------------------------------------------ 9.2 Setting up Feeding ---------------------------------------------------------------------------------------------------------------------------------------------------------- TEMPERATURE SETTINGS ------------------------------------------------------------------------------------------------------------------------------ 93 © Munters AB, 2020...
Page 6 ....................13.2.3.1 Level Control ..................... 13.2.3.2 Static Pressure Control ..................13.3 Extra Ventilation ------------------------------------------------------------------------------------------------------------------------------------------------------------ 13.3.1 Introduction to Extra Ventilation ..................13.3.2 Defining Extra Ventilation ....................13.4 Tunnel Ventilation --------------------------------------------------------------------------------------------------------------------------------------------------------- 13.4.1 Defining the Tunnel Ventilation Parameters ..............© Munters AB, 2020...
Page 7 ----------------------------------------------------------------------------------------------------------------------------------------------------- 19.3 Defining the Auxiliary Alarms ------------------------------------------------------------------------------------------------------------------------------- 19.4 Sending a General Alarm -------------------------------------------------------------------------------------------------------------------------------------- HISTORY------------------------------------------------------------------------------------------------------------------------------------------------------------- 146 20.1 Climate and Air Quality ------------------------------------------------------------------------------------------------------------------------------------------- 20.2 Alarms and Events ------------------------------------------------------------------------------------------------------------------------------------------------------- 20.3 Water and Feed History ------------------------------------------------------------------------------------------------------------------------------------------ 20.4 Devices History -------------------------------------------------------------------------------------------------------------------------------------------------------------- © Munters AB, 2020...
Page 8 25.3 Central Corridor Dashboard --------------------------------------------------------------------------------------------------------------------------------- 25.4 Central Corridor Functions ------------------------------------------------------------------------------------------------------------------------------------- 25.5 Setting the Pressure Levels -------------------------------------------------------------------------------------------------------------------------------------- 25.6 Defining the Heat --------------------------------------------------------------------------------------------------------------------------------------------------------- 25.7 Room Setting ------------------------------------------------------------------------------------------------------------------------------------------------------------------- APPENDIX E: TRIO EXPANSION 10 ------------------------------------------------------------------------------------------------------- 183 26.1 Expansion Layout --------------------------------------------------------------------------------------------------------------------------------------------------------- © Munters AB, 2020...
Page 9 27.1 Prerequisites -------------------------------------------------------------------------------------------------------------------------------------------------------------------- 27.1.1 Supported Devices ........................ 27.1.2 Required Software ......................... 27.1.3 Internet Access ........................27.2 Installation ------------------------------------------------------------------------------------------------------------------------------------------------------------------------ 27.2.1 Physical Installation ....................... 27.2.1.1 Modem and SIM Card ................... 27.2.1.2 Driilling ....................... 27.3 Configuration ----------------------------------------------------------------------------------------------------------------------------------------------------------------- WARRANTY ------------------------------------------------------------------------------------------------------------------------------------------------------ 203 © Munters AB, 2020...
Page 10 The information contained herein has been prepared by qualified experts within Munters. While we believe the information is accurate and complete, we make no warranty or representation for any particular purposes. The information is offered in good faith and with the understanding that any use of the units or accessories in breach of the directions and warnings in this document is at the sole discretion and risk of the user.
Page 11 In particular verify: That the cable shielding between the inverter and any motor meets industry standards • Proper grounding of the inverter's chassis and motor power cable • © Munters AB, 2020...
Page 12 Proper grounding of low voltage cable shield wire • That the controller and inverter cables are kept in separate conduits or wire bundles • 1. Controller 2. Inverter 3. Place the controller at least five meters from the inverter © Munters AB, 2020...
Page 13: Unit Installation
3 Unit Installation The following sections detail how to mount and wire the Trio. NOTE Munters recommends that a trained technician perform the following operations. Preliminary Information • Mounting the Unit • Layout • Wiring Diagrams • Pressure Sensor Hoses •...
Page 14: Mounting The Unit
Using a screwdriver and a hammer, gently apply pressure to the knockouts. o Only open the holes that you require. o Munters recommends removing the knockouts before mounting the unit. o 16*: Use this knockout for the Ethernet cable.
Page 15: Hanging The Unit
4. Close the Trio enclosure lid carefully and tightly. Use RTV silicon or equivalent sealant to seal the cable holders. CAUTION Munters strongly recommends that you seal all entry spots with RTV silicon. Failure to do so can lead to damage to the unit.
Page 16: Board Layout
Ground strip Ethernet port 20 relays Dipswitches Alarm relay Figure 3: Dipswitches, expanded One dipswitch only in each set is raised. • Only raise a dipswitch if a device is wired to an S port. • © Munters AB, 2020...
Page 17 Number of Relay Devices Number of Analog Devices Devices Cooling Central Exhaust Cooling 2 Heaters Inlets Outlets Tunnel Doors/Curtains Fans Exhaust/Tunnel Central Exhaust Fans Stir Fan Sprinkler Timer Auger Feeder Lighting As Relay As Analog Out Alarm © Munters AB, 2020...
Page 18: Wiring Diagrams
NOTE Refer to Appendix A: External Device (Previous Versions), page 153 to view details on the input/output capacity of previous versions. 3.4 Wiring Diagrams High Voltage Relays • Alarms and Power • Internet Connection • Analog Output Devices • Digital Devices • Analog Input Devices • Trio RPS • © Munters AB, 2020...
Page 19 3.4.1 H OLTAGE ELAYS Figure 4: High voltage devices (examples) Example of devices NOTE The relays control motors and heating devices via contactors, not directly. Figure 5: Relay wiring detailed view © Munters AB, 2020...
Page 21 3.4.2 A LARMS AND OWER Figure 7: Alarm relay and power ports Alarm relay Power ports Connect the light or siren device to the alarm relay. • © Munters AB, 2020...
Page 22: Internet Connection
3.4.3 I NTERNET ONNECTION Figure 8: Ethernet port CAUTION Connect the internet cable to port 2. Do not connect the cable to port 1. Internal port (do not use this port) Ethernet port RJ-45 cable © Munters AB, 2020...
Page 23 EVICES Trio supports analog control over a variety of devices. Figure 9: Analog Output devices (examples) Connect analog output devices to an AO and a COM port. Ground these devices! Figure 10: Analog Device Wiring Schematic © Munters AB, 2020...
Page 24: Digital Devices
Connect digital devices to a D port and a DCOM port. • Trio supports water meters and auxiliary inputs. • 3.4.6 A NALOG NPUT EVICES CO2 Sensor Wiring • Temperature Sensor Wiring • Humidity Sensor Wiring • Potentiometer Device Wiring • Ammonia Sensor Wiring • © Munters AB, 2020...
Page 25 3.4.6.1 CO2 Sensor Wiring Figure 13: CO2 Sensor Wiring Number Function S port COM port Shield wire Brown wire: phase Blue wire: neutral Red wire: +12VDC Black wire: -12VDC Figure 14: CO2 Sensor Wiring Schematic © Munters AB, 2020...
Page 26 Connect the CO2 device to: • o Controller:  S port. In the corresponding dipswitch, raise dipswitch 4 (4-20 mA).  COM port o Power supply  +12V  -12V © Munters AB, 2020...
Page 27 3.4.6.2 Temperature Sensor Wiring Figure 15: RTS Wiring Number Function COM port (black wire) T port (red wire) Figure 16: RTS Wiring Schematic Connect each RTS sensor to a: • o T port o COM port o Grounding strip! © Munters AB, 2020...
Page 28 Shield wire Figure 18: RHS+ Sensor Wiring Schematic Connect each RHS+ sensor to a: • o S port. In the corresponding dipswitch, raise dipswitch 3 (analog input). o COM port. o 12VDC port. o Grounding strip! © Munters AB, 2020...
Page 29 3.4.6.4 Potentiometer Device Wiring Figure 19: Potentiometer Wiring Figure 20: Potentiometer Wiring Schematic Connect each potentiometer to a: • o S port. In the corresponding dipswitch, raise dipswitch 2 (potentiometer). o COM port. o 3.3V port. o Grounding strip! © Munters AB, 2020...
Page 30 20.3 kohm resistor (Note: The resistor comes supplied with the sensor but must be installed on- site.) Quick connector Figure 22: Ammonia Wiring Schematic Connect an ammonia sensor to a: • o S port. In the corresponding dipswitch, raise dipswitch 3 (analog input). o COM port. © Munters AB, 2020...
Page 31 Trio supports up to two static pressure sensors, one built in and one external. Install the RPS in the second room. Figure 23: RPS Wiring Number Function S port. Raise the corresponding S3 dipswitch. COM port Shield wire Figure 24: RPS Wiring Schematic © Munters AB, 2020...
Page 32 Figure 25: Static pressure tubes NOTE After installing the RPS, no Cold Start is required. Pressure Sensor Hoses Figure 26: Static pressure hoses © Munters AB, 2020...
Page 33: Product Symbols
: Caution! Hazardous voltage : Caution: Refer to the manual : Main Protective Earthing Terminal CAUTION IF THE UNIT IS USED IN A MANNER NOT SPECIFIED BY THE MANUFACTURER, THE PROTECTION PROVIDED BY THE EQUIPMENT MAY BE IMPAIRED. © Munters AB, 2020...
Page 34 Required cable: CAT5E or CAT6, shield cable • Maximum distance between the Trio and router/switch: 100 meters (330 feet) • 4.1.2 T OPOLOGY Figure 28: Example topology Topology is point to point, from the router. All addressing is automatic. • © Munters AB, 2020...
Page 35: Network Information
Support ID: Use this address when contacting technical support or when connecting to the Trio via TeamViewer. o Munters ID: Use this to pair the unit to a farm. Refer to Using Trio Air App and Website. 4.3 Using Trio Air App and Website The following section describes how to control and manage the units via the Trio Air app or via a web browser.
Page 36 3. Type in your email address and click Send verification code. A code is sent to the email address. 4. Type in the verification code that and click Confirm. 5. Type in and confirm your password. © Munters AB, 2020...
Page 37 • o Reset Password: Change your password. o My Munters ID: Select this option to edit your email address, how you name appears on the screen, language and unit’s preferences. In addition, you can change a PIN code. o Scan New Device: Used when paring a Trio unit to the farm. Refer to Pairing a Trio.
Page 38 1. Go to System > General Settings > Network 2. Click Register. 3. Using the TrioAir App (Scan New Device) or a QR reader, scan the QR code. The Trio AIR sign in page appears. © Munters AB, 2020...
Page 39 4. Following the online instructions, sign in or create a new account. After signing in, the Trio Air app or web site opens. 5. Click Select Farm. © Munters AB, 2020...
Page 40 6. Click on an existing account (if there are) or click Add New Farm (follow the online instructions for creating a new farm). NOTE The person who creates a new farm is automatically defined as the owner. Munters recommends that the person responsible for the farm create the account, and then invite and assign roles to other people.
Page 41 Settings function nor can an operator invite users. View: View only. • NOTE TrioAir and the webpage cannot be used to map relays and sensors or define the General Settings. Perform these functions locally, on the Trio unit itself. © Munters AB, 2020...
Page 42 Once a farm is set up, you can invite people to connect to the farm using the Trio Air app (only). 1. Press down on the farm name. The Setting popup appears. 2. Click Settings. 3. Click Invite New User. © Munters AB, 2020...
Page 43 (according to the user’s permission level). Click on the room category (Boar 01 in the above picture) to go to the Comparison Page. This • page summarizes the rooms’ data. Place the cursor the items to view details. © Munters AB, 2020...
Page 45: Specifications
Main Supply Voltage: Permanently connect the controller to the mains in accordance with the • relevant national code. Provide fixed wiring inside a flexible conduit. Relays must be suitably protected against overcurrent, using a circuit breaker rated at 10A. © Munters AB, 2020...
Page 46 Go back to the main screen Settings icon Edit parameters Replace the dashboard battery with a standard 3V battery. Phone App Click the circle containing the user name to edit personal preferences such as the language, units, name, and more. © Munters AB, 2020...
Page 47 The Dashboard gives an overview of all Trio functions. Click on the in each section to go to the relevant control page. • Click on Ventilation, Temperature, or Devices squares to view the hot screen for those functions. • © Munters AB, 2020...
Page 48 7 Mapping and Defining the Input Output Devices NOTE Munters recommends that a trained technician perform the following operations. Mapping Devices • Temperature Sensors • Ventilation Devices • Sensors • Heating Devices • Defining the Cooling Devices • Inlets, Tunnel Doors, Outlets •...
Page 49 2. Click Click to map cooling devices, heaters, inlets, fans, stir fans, timers, tunnel • doors, outlets, or the alarm relay. Click to map auxiliary inputs, sensors (humidity, pressure, temperature, • CO2, ammonia), water meter, and potentiometers. © Munters AB, 2020...
Page 50 Devices having opening and closing relays require mapping both relays. 5. Repeat steps 3 and 4 four all the connected devices. 6. After mapping all installed devices, click NOTE To un-map a device, click on the required device and hold the icon down. © Munters AB, 2020...
Page 51 NOTE If you map a sensor that is not physically connected to the Trio, an error symbol appears on the designated analog port. © Munters AB, 2020...
Page 52: Temperature Sensors
Average temperature: Data from multiple sensors can be averaged. If a sensor fails, the • sensor's data is removed from any calculations. Device temperature: A sensor (or sensors) can be mapped to a specific device. • © Munters AB, 2020...
Page 53 To save costs on temperature sensors, one outdoor temperature sensor can provide data to the entire Trio network. 1. In System > Device and Sensors, define one sensor as Outside Temperature. 2. Go to System > Control Strategy > Weather Station 3. Enable Receive Outside Temp. Broadcast. © Munters AB, 2020...
Page 54 Define up to 20 relays or analog output ports as On/Off or 0 – 10 V fans, respectively (refer to Mapping Devices, page 48)). On-Off Fans • 0 – 10 Volt Fans • 7.3.1.1 On-Off Fans 1. On the Device and Sensors screen, click a fan relay. 2. Click © Munters AB, 2020...
Page 55 KWh: This field displays the amount of kilowatts used. Read-only. o Boost Time: During this amount of time, the controller applied full power to the fan motor (100%). 4. Click Save. 5. To test in the minimal and maximum voltages, click Test. © Munters AB, 2020...
Page 56 • 7.3.2.1 On Off Stir Fan Define: • o KWh: This field displays the amount of kilowatts used. Read-only o Operation: Define the relay mode. The status shows if the stir fan is currently operating. • © Munters AB, 2020...
Page 57 For example, if the minimum voltage is set to 2V and the maximum to 8V the controller applies the calculated 0-100% output over a 2V-8V signal. o KWh: This field displays the amount of kilowatts used. Read-only. © Munters AB, 2020...
Page 58 Define one analog input port as an ammonia sensor (refer to Mapping Devices, page 48)). Define: • o Offset: This is an optional correction for the ammonia sensor. Range: -10 to +10 ppm o Enable Mode: Enable/disable the sensor. The ammonia reading shows the measured amount, including the offset. • © Munters AB, 2020...
Page 59 Define one analog input port as a CO2 port (refer to Mapping Devices, page 48)). Define: • o Offset: This is an optional correction for the CO2 sensor. Range: -500 to +500 ppm o Enable Mode: Enables/disables the sensor. The CO2 reading shows the measured amount, including the offset. • © Munters AB, 2020...
Page 60 One analog input port as an outside humidity sensor Define: • o Offset: This is an optional correction for the humidity sensor. Range: -10 to +10% o Enable Mode: Enable/disable the sensor. The humidity reading shows the measured level, including the offset. • © Munters AB, 2020...
Page 61 Quan/Pulse: Set the water meter’s water flow per pulse. Range: 0.0 to 99.9 (unit depends on the Defining the Preferences, page 80.) o Meter input: Chose drinking water or cooling. o Enable Mode: Enable/disable the sensor. © Munters AB, 2020...
Page 62 Define up to three digital input ports as a gas meter (refer to Mapping Devices, page 48). o Quan/Pulse: Set the gas meter’s flow per pulse. Range: 0.0 to 999 (unit depends on the Defining the Preferences, page 80.) o Enable Mode: Enable/disable the sensor. © Munters AB, 2020...
Page 63 Zone heater will enable the assignment of temperature sensor/s in temperature definition. o Operation: Define the relay mode. o Operation Modes  Continues (default): The heater starts to operate continuously  Cycle: This option enables the operation of heater in cycles. © Munters AB, 2020...
Page 64  Enable: Zone Heater, the heater output has its own target set-point and its own sensors assign to it. Zone heater enables the assignment of temperature sensor/s in temperature definition. o KWh: This field displays the amount of kilowatts used. Read-only. © Munters AB, 2020...
Page 65 Define up to two relays as cooling devices (refer to Mapping Devices, page 48). Define: • o KWh: This field displays the amount of kilowatts used. Read-only. o Operation: Define the relay mode. The status shows if the cooling device is currently operating. • © Munters AB, 2020...
Page 66 Power up calibration: Enable this parameter to calibrate inlets each time that Trio is turned on. o Open/Close Time: Enter the amount of time required to fully open or fully close the inlet. These parameters are only enabled when Position/By Time is selected. © Munters AB, 2020...
Page 67 0% and 100% output, respectively. For example, if the minimum voltage is set to 2V and the maximum to 8V the controller applies the calculated 0-100% output over a 2V- 8V signal. o Open/Close Time: Enter the amount of time required to fully open or fully close the inlet. © Munters AB, 2020...
Page 68 7.8 Defining the Sprinkler  Define one relay as a sprinkler (refer to Mapping Devices, page 48). Define: • o KWh: This field displays the amount of kilowatts used. Read-only. o Operation: Define the relay mode. © Munters AB, 2020...
Page 69 Define: • o Related Channel: Define which relay number to follow. Range: 1 – 20 o KWh: This field displays the amount of kilowatts used. Read-only. o Operation: Define the relay mode. © Munters AB, 2020...
Page 70 Relays can be mapped to eight specific ports only. Define: • o Related Channel: Define which port number to follow. Port Number Related Channel o KWh: This field displays the amount of kilowatts used. Read-only. o Operation: Define the relay mode. © Munters AB, 2020...
Page 71 7.11 Defining the Timer  Define up to five relays as timers (refer to Mapping Devices, page 48). Define: • o KWh: This field displays the amount of kilowatts used. Read-only. o Operation: Define the relay mode. © Munters AB, 2020...
Page 72 7.12 Defining the Auxiliary Input  Define up to four digital inputs as auxiliary inputs (refer to Mapping Devices, page 48). Define: • o Operation: Define the relay mode. o Enable Mode: Enable/disable the input. © Munters AB, 2020...
Page 73 Related Fan: If the measuring fan is to be for compensation, define the fan to be used to provide the extra air. Refer to Ventilation Compensation, page 106. NOTE A relay or port must be defined as a fan for this parameter to be enabled. o Enable Mode: Enable/disable the sensor. © Munters AB, 2020...
Page 74 ELAY  Define one relay as feeder (refer to Mapping Devices, page 48). o KWh: This field displays the amount of kilowatts used. Read-only. o Operation: Select if the relay is normally open or normally close. © Munters AB, 2020...
Page 75 Define one digital input port as feeder active (refer to Mapping Devices, page 48). Define • o Operation: Select if the relay is normally open or normally close. o Enable Mode: Enable/disable the sensor. o Quantity Per Minute: Define the amount (weight per minute) of feed to be distributed. © Munters AB, 2020...
Page 76 2. Click . The Devices & Sensor screen appears. 3. Click 4. Click Pressure. 5. Define an analog input port as the pressure sensor. In the following screen, ports 5 is defined as the pressure sensor. © Munters AB, 2020...
Page 77: Static Pressure Calibration
DO NOT blow the air into the hose to see of the pressure changes! The sensor is sensitive and blowing air can cause irreparable damage. To calibrate the Static Pressure Sensor: 1. Disconnect the air hoses. 2. Go to System > Device & Sensors > Pressure. © Munters AB, 2020...
Page 78 4. If the A/D count is 100 +/- 30 (70 to 130), click Calibrate. 5. If the A/D count is less than 70 or greater than 130: a. Check for blocked air hoses or wind interference. b. Open the Trio. On the Main Board, find the Static Pressure Sensor. © Munters AB, 2020...
Page 79 Adjust the zero-pressure reading to approximately 100 by turning the calibration screw. d. When the A/D count is within the permitted range, press Calibrate. © Munters AB, 2020...
Page 80: Basic Setup
Pressure (Pascal/Inches of Water) o Weight (Kilogram/Pounds) o Air Flow: Cubic Meter/Hour or Cubic Feet/Minute 3. Enable/disable Pin Code Access: Pin Code Access is a security measure. Anyone wanting to edit the settings must have this code. © Munters AB, 2020...
Page 81  Date and Time Set: Manually enter the date and time. o Time Zone: Select the zone from the drop-down list. NOTE Set the time zone even if you enable automatic date and time adjustment. © Munters AB, 2020...
Page 82  Sows: Female pigs  Weaners: Same as Nursery  Mating: Breed gilts  Insemination  Stimulation  Quarantine When you change the room setting from Room to any other setting, the new setting appears on the menu bar. © Munters AB, 2020...
Page 83: Batch Settings
Defining the Batch Settings Parameters • Defining the Batch Settings • 8.2.1 D EFINING THE ATCH ETTINGS ARAMETERS Manual Set Up • New Batch Wizard • 8.2.1.1 Manual Set Up 1. Go to Batch > Batch Settings. © Munters AB, 2020...
Page 84 When starting a new batch Trio: o Resets historical data o Sets the growth day to zero o Increases the batch number by one o Records a “New Batch” event 1. Click © Munters AB, 2020...
Page 85 2. Define the batch number and click Next. 3. Select Growing or Pre-Heat. You must select an option to continue. o Growing Mode © Munters AB, 2020...
Page 86  Define the Growth Day (zero or higher) and Initial Number of Animals. o Pre-Heat Mode:  Define: o Growth Day (-7 or higher; default is -2) o Initial Number of Animals o Next Growing Stage:>> 4. Click Next, Review and Save. © Munters AB, 2020...
Page 87 Piglets: 1.5kg – 2.0kg • Remain with mothers 21 – 42 days (20 kg) • Finishing facility: up to 75 – 100 kg • Animal Weight Main Screen • Animal Weight Curve • © Munters AB, 2020...
Page 88 NOTE Trio provides a default growth curve. If required, you can edit the growth days and animal weights. o Growth Day: Define the growth day to determine the desired weight. Range 0 - 999 o Animal Weight: Set the expected animal weight. Range 0 - 250.0 © Munters AB, 2020...
Page 89 Edit the number of animals when animals are removed from or added to the herd. 1. Go to Batch > Animal Management. This screen displays the animal mortality data. 2. Click Add Mortality and edit (add or subtract) the number of animals removed or added. © Munters AB, 2020...
Page 90: Tech Support Information
8.5 Tech Support Information To view information on your unit go to System > General Settings > Network . You will need this information when speaking with technical support. © Munters AB, 2020...
Page 91 Use the Feed Screen to turn on/off augers and feeders according to the user-designed schedule. All augers operate according to the auger schedule and all feeders work according to the feeder schedule. 1. Go to Control > Feeding. 2. Click © Munters AB, 2020...
Page 92 Feed distribution continues until the pans are full. If the feed distribution is longer than the user-defined time, the feeder active sensor should generate an alarm.  Feeder under time: Feeder under time defines the time required to generate an alarm when the feeder is not active. © Munters AB, 2020...
Page 93: Temperature Settings
(Heat). Defines when heating turns off. • Defines when an alarm is sent when temperatures are too low (Low Alarm) • Defines when an alarm is sent when temperatures are too high (High Alarm) • © Munters AB, 2020...
Page 94 Low/High Temperature Alarm: These parameters are differentials from the target temperature at which Trio sends an alarm. Range:  Low Temp Alarm: -40°- Target  High Temp Alarm: Target - 90° 4. Click to view the curve history. © Munters AB, 2020...
Page 95 Ventilation levels will not fall lower than the Minimum Ventilation If there is no outside temperature sensor • o maintain the last known positive output (before the failure) o turn off negative output o Cooling and air quality treatment cease © Munters AB, 2020...
Page 96 11 Introduction to Ventilation Defining Munters’ Trio ventilation consists of three elements: Defining the Minimum and Maximum Ventilation: Defining the minimum and maximum • ventilation defines how much air is required for any given growth day. Based on these requirements, Trio determines which fans run.
Page 97: Basic Ventilation
In the illustration below, Basic Ventilation is running at 30% (the defined minimum). Maximum ventilation is set to 95%. In addition, the ventilation is running at the minimum and the temperature is low, heating is running at 10%. Refer to Basic Ventilation, page 108 for more details. © Munters AB, 2020...
Page 98: Tunnel Ventilation
• above the Tunnel Set Point (skipping over Extra Ventilation). You can set a differential for each level to ensure that ventilation increases only when required. • In this example, tunnel fans are at level T6. © Munters AB, 2020...
Page 100 Outside air is pushed into the attic; the controller maintains the required pressure in the air duct. By adjusting the air inlet, each room independently controls the amount of air entering. As temperature rises, the inlets’ opening increases. © Munters AB, 2020...
Page 101 Min/Max percentage: Define the minimum and maximum ventilation percentages. Trio will automatically adjust the ventilation as the temperature changes. Extra/Tunnel Minimum Ventilation: As option when additional minimum ventilation is required in hot climates, Extra and Tunnel Ventilation can provide minimum ventilation. © Munters AB, 2020...
Page 102 1. Go to System > Control Strategy > Ventilation 2. Under Minimum / Maximum Ventilation, enable: o Dynamic Minimum Ventilation or o Dynamic Maximum Ventilation or o Both. In this example both are enabled. 3. Go to Climate > Min/Max Ventilation > Settings. © Munters AB, 2020...
Page 103 Cold Max. Level: When the outside temperature reaches the Dynamic Maximum Cold Outside Temperature, Minimum Ventilation will not go above this level. o Warm Max. Level: When the outside temperature reaches the Dynamic Maximum Warm Outside Temperature, Minimum Ventilation will not go above this level. © Munters AB, 2020...
Page 104: Ventilation By Weight
12.2.2.2 Defining the Ventilation By Weight Parameters 1. Go to System > Control Strategy > Ventilation 2. Under Minimum / Maximum Ventilation, enable Min Ventilation By Weight. 3. Go to Climate > Min/Max Ventilation. © Munters AB, 2020...
Page 105 The following section shows how to configure your fans to increase in a curve between the days defined in the Min Max Ventilation Screen. 1. Go to System > Control Strategy > Ventilation 2. Enable Curve Status. Ventilation now increases in a curve. © Munters AB, 2020...
Page 106 Measuring Fan increases the speed of a designated fan to compensate for the difference.  Define a sensor as Measuring Fan. Refer to Mapping Devices, page 48. © Munters AB, 2020...
Page 107 5. In the Measuring Fan Usage parameter, define the usage as Real-Time Compensation. 6. In the Measuring Fan Maximum Compensation parameter, define the maximum percentage increase in the Related Fan’s speed. Range 0 – 100. Default 10%. © Munters AB, 2020...
Page 108: Levels Of Ventilation
This parameter determines the reevaluation time frequency. Leave at default. CAUTION Munters recommends leaving this function at the default. 13.2 Basic Ventilation Basic Level Ventilation defines the amount of air to be supplied at each minimum ventilation level. As the temperature increases, minimum ventilation increases the amount of air supplied to maintain the temperature as close to the target temperature as possible.
Page 109 1. Go to Climate > Ventilation. NOTE At this point, fans do not appear. 2. Click 3. Click a relay-controlled fan that you want to activate. 1) A box appears around the fan. 2) A fan appears in the upper right. © Munters AB, 2020...
Page 111: Fan Options
Analog Fans: Fan speed changes as ventilation requirements change. • Fans (Efficiency Fan): Fan runs at a maximum speed percentage defined by the user. • Fan Rotation: Different fans running in Minimum Ventilation Cycle can be designated to run in • rotation. © Munters AB, 2020...
Page 112 This parameter defines the minimum cycle off time. Range: 0 – 600 seconds. 3. System > Control Strategy > Ventilation 4. Enable Minimum Ventilation Cycle. 5. Go to Climate > Ventilation. The (Fan) On time appears on the screen. © Munters AB, 2020...
Page 113 Under On (sec), enter the cycle ON time (Go to the Settings to define the Off time). In this example, at Level 4 Fan 1 runs in cycles (100 seconds on) and Fan 2 runs continuously. The maximum ventilation capacity reflects the change caused by running the fan in a cycle. © Munters AB, 2020...
Page 114 At Level 1 (10% output of the total fan capacity), Fan 1 runs at 35% speed. At Level 4 (40% of the total output), the speed drops to 20% but Fan 2 turns on as well. © Munters AB, 2020...
Page 115 2. Click the fan in the upper right. Both fans turn blue. A percentage appears under the fan. 3. Click . This icon and the fan icon turn green. 4. In the percentage, enter the fan’s maximum speed (in percentage). © Munters AB, 2020...
Page 116 To enable fan rotation: 1. Go to System > Control Strategy > Ventilation. 2. Enable Fan Rotation and Minimum Ventilation Cycle. 3. Go to Climate > Ventilation. © Munters AB, 2020...
Page 117: Inlet And Curtain Ventilation
In Basic Ventilation, Trio enables control over the inlets using one of two methods: Level • Static Pressure • NOTE Outlet control is by level only. To select the inlet control method: 1. Go to System > Control Strategy > Ventilation © Munters AB, 2020...
Page 118 2. Under Inlet Operation Mode, select Level or Pressure. 13.2.3.1 Level Control 1. Go to Climate > Ventilation. 2. Click © Munters AB, 2020...
Page 119 Set the required pressure, according to the air flow specification. The greater the difference between the exterior and interior pressures, the great the air flow. Static Pressure in Minimum Ventilation or Extra Ventilation • Static Pressure Main Screen • Static Pressure Settings Screen • High Static Pressure Alarm State • © Munters AB, 2020...
Page 120 Outside Temperatures: Set the temperatures at which the inlets open or close. (This parameter requires an outside temperature sensor). o Pressure Alarm: Set the low and high pressures, at which an alarm is transmitted. © Munters AB, 2020...
Page 121 Extra ventilation is an option used to increase ventilation when: Minimum ventilation runs at 100% • Temperature has not reached tunnel target temperature. • The room temperature is at least 0.5⁰ C above the target temperature. However you can define • a higher differential. © Munters AB, 2020...
Page 122 Any differential must be higher than 0.5°C to take effect. NOTE Each differential must be equal to or higher than the previous level’s differential. o Fan Status. Refer to Defining Basic Ventilation, page 109 on how to configure fans. © Munters AB, 2020...
Page 123 • Tunnel Doors • 13.4.1 D EFINING THE UNNEL ENTILATION ARAMETERS 1. Go to System > Control Strategy > Ventilation 2. Under Ventilation, enable Tunnel. 3. Go to Climate > Ventilation and click the Tunnel Tab. © Munters AB, 2020...
Page 124 Tunnel Exit Delay (min.): When Trio calculates that ventilation should exit Tunnel Mode, there is a delay (of this amount of time) before actually exiting. This parameter prevents Trio from entering and exiting Tunnel Mode too rapidly. © Munters AB, 2020...
Page 125 Only one inlet or tunnel curtain can be calibrated at a time. Relay open occurs when the target position is 100%. • Relay close occurs when the target position is 0%. • 1. Go to System > Control Strategy > Ventilation © Munters AB, 2020...
Page 126 10%, the curtain closes when the opening is less than 10% and opens completely when the opening is greater than 90%. o Close Below This Temp. (out): Inlets close when the outside temperature reaches this point. © Munters AB, 2020...
Page 127 3. Option: Define the stir fan cycle time (refer to Minimum Ventilation Cycle, page 112) 4. If the ventilation fans are running in a cycle, go to Climate > Ventilations > Settings. 5. Define when the stir fan operates, during the cycle On or Off time. © Munters AB, 2020...
Page 128: Cooling Functions
Cycle: When activated, the cooling device operate according to user-defined an on/off cycle. • Ramping: Cycle modulation, frequency depends on the error in °C, with respect to the cooling • setting (target). 1. Go to Go to Climate > Cooling.> Settings. © Munters AB, 2020...
Page 129 Cooling Enabled: Define when cooling is enabled, 24 hours a day or time frames. 3. Go to Climate > Cooling. The screen that appears depends on the operation mode chosen. o Continuous Cooling o Cycle Cooling o Ramping Cooling © Munters AB, 2020...
Page 130  Stop cooling device temperature = Cooling Target ± Stop temperature o Enable from ventilation Level: Select the level (ventilation output) to enable cooling operation. (Default 1). o Humidity Limit: Enable stopping cooling at a certain humidity level. © Munters AB, 2020...
Page 131 Enable from ventilation Level: Select the level (ventilation output) to enable cooling operation. (Default 1). o ON/OFF Time: Describe the amount of time the cycle is ON and OFF, respectively. o Humidity Limit: Enable stopping cooling at a certain humidity level. © Munters AB, 2020...
Page 132 ON time. o Ramping Range T°: Sets a temperature range to modulate the cooling device cycle. o Humidity Limit: Enable stopping cooling at a certain humidity level. © Munters AB, 2020...
Page 133 Water is sprayed at different intervals, depending on the outside temperature.  Go to System > Devices and Sensors and define one relay as sprinkler (refer to Mapping Devices, page 48). 1. Go to Control > Sprinkling. © Munters AB, 2020...
Page 134 Cold outside Temperature: Set the cold temperature for maximum sprinkling off time. o Warm outside Temperature: Set the warm temperature for min sprinkling off time. o Stop outside temperature: The temperature below which the device stops. © Munters AB, 2020...
Page 135: Heating Functions
Heat Cycle: Enable central heaters to work in a cycle. o Total Cycle Time (sec.): For heaters defined as cycle heaters, define the cycle time. o Min Cycle On Time (sec.): For heaters defined as cycle heaters, define the minimum on time. © Munters AB, 2020...
Page 136 Off Temp Diff. This is a differential. When the temperature reaches the target temperature minus this amount, heating stops. o Max Heat Temp: Set the temperature under which the heaters work at their maximum output. o Min/Max Output: Set the voltage output for minimum and maximum. © Munters AB, 2020...
Page 137: Air Quality
2. Set the values over which the “air treatment” start, these values are adjusted over the growth days (no curve). 3. Define: o Day: Set the growth day to determine the desired set points for RH, C02 and NH3. Range 0-999 © Munters AB, 2020...
Page 138 Co2 Shutoff Differential: (ppm): When CO2 levels are below the target level by this amount, all CO2 treatment stops. Range: 0 to 500 ppm High Co2 Alarm threshold (ppm): Trio sends an alarm when the CO2 level rises above this level. Range: 0 to 5000 ppm © Munters AB, 2020...
Page 139 NH3 Shutoff Differential: (ppm): When ammonia levels are below the target level by this amount, all ammonia treatment stop. Range:0 ppm to 10 ppm o High NH3 Alarm threshold (ppm): Trio sends an alarm when the CO2 level rises above this level. Range: 0 to 100 ppm © Munters AB, 2020...
Page 140 Temperature: If enabled, define the temperature range in which the timers operate. Range [-40° - +90°]. 3. As an option, timers can be mapped to an outside temperature sensor. Go to System > Temperature Definition. © Munters AB, 2020...
Page 142: Alarm Definitions
19.1.1 A LARM EFINITIONS 1. Go to System > Control Strategy > Alarms NOTE Water Overflow, Water Shortage, and Potentiometer only appear if these devices are mapped. Refer to Mapping Devices, page 48. 2. Click 3. Define: © Munters AB, 2020...
Page 143: Alarm Test
. Stop the test as needed. • 19.1.2.2 Scheduled Tests Scheduled tests can be performed once a day only. 1. On the Alarm Screen, enable Scheduled Alarm Test. 2. Define the day(s) and time at which the test is performed. © Munters AB, 2020...
Page 144 Trio sends an alarm. You can define the auxiliary alarms to operate during specific time periods. Use this alarm for those relays controlling important functions.  Define at least one sensor as an auxiliary input in Mapping Devices, page 48. 1. Go to Control > Auxiliary Alarm. © Munters AB, 2020...
Page 145 Define the relay being monitored. When this relay is no longer in its defined state (normally open, normally closed) an alarm is sent. 19.4 Sending a General Alarm 1. Go to System > Device and Sensors. 2. Click An alarm is sent to everyone on the contact list. © Munters AB, 2020...
Page 146 2. Click the relevant tab to see its history. NOTE The History screen only shows the history of installed sensors. Temperature History: Records the average, minimum and maximum temperature for each • growth day every hour © Munters AB, 2020...
Page 147 Go to this screen to view the last 999 alarms and events. Alarms history can display the following alarms. NOTE Performing a Cold Start or Starting a new group clears the Alarm History. 1. Go to Batch > History > Alarms 2. Click the relevant tab. © Munters AB, 2020...
Page 148 20.3 Water and Feed History NOTE Water and feeder relays or sensors must be enabled to see these screens 1. Go to Batch > History > Water 2. Click the relevant tab to see its history. © Munters AB, 2020...
Page 149 Go to Batch > History > Devices • Click the clock symbol to view the hourly breakdown. • NOTE History displays installed devices only. © Munters AB, 2020...
Page 150 CAUTION Do not disconnect the power while resetting the unit. Any disconnection can cause severe hardware damage. To reset the Trio: 1. Go to System > General Settings. 2. Click . 3. Click 4. Follow the on-line instructions. You have the option of backing up the settings. © Munters AB, 2020...
Page 151 1. Go to System > General Settings and click 2. Click Choose Operation and select Load Settings or Save Settings. 3. Follow the instructions. 21.3 Viewing the Log The log displays which tables were successfully saved. © Munters AB, 2020...
Page 152: Updating The Software
CAUTION Do not disconnect the power while updating the software. Any disconnection can cause severe hardware damage. To update the Trio Software: 1. Go to System > General Settings. 2. Click 3. In Software Version, click Update. 4. Follow the on-line instructions. © Munters AB, 2020...
Page 153: Appendix A: External Device (Previous Versions)
Fans Exhaust/Tunnel Stir Fan Sprinkler Timer Feeder As Relay As Analog Output Alarm Temperature Sensors Humidity Sensors IN CO2 Sensors Ammonia Sensors Pressure Sensors Potentiometers Power Meter Gas Meter Water Meters Aux. Input Feeder Line Sensor © Munters AB, 2020...
Page 154 Fans Exhaust/Tunnel Stir Fan Sprinkler Timer Feeder As Relay As Analog Output Alarm Temperature Sensors Humidity Sensors IN CO2 Sensors Ammonia Sensors Pressure Sensors Potentiometers Power Meter Gas Meter Water Meters Aux. Input Feeder Line Sensor © Munters AB, 2020...
Page 155 Fans Exhaust/Tunnel Stir Fan Sprinkler Timer Feeder As Relay As Analog Output Alarm Temperature Sensors Humidity Sensors IN CO2 Sensors Ammonia Sensors Pressure Sensors Potentiometers Power Meter Gas Meter Water Meters Aux. Input Feeder Line Sensor © Munters AB, 2020...
Page 156: Appendix B: Service Manual
There is a lack of (silicon) sealing or that the sealing has degraded. Make sure that the silicon seal around the PGs installed in the knockouts is not cracked. • Check that the gasket is not cracked. • © Munters AB, 2020...
Page 157: Troubleshooting
1. Go to System > General Settings > Network Screen. Verify that there is an IP address. 2. Check the cable connections between the switch and the Trio. 3. Verify that the unit is powered. © Munters AB, 2020...
Page 158: Electronic Components
Solution: Check the load value. The maximum analog output load is 15 mA. Problem: An analog output terminal has no output voltage. Solution: Verify that the analog output terminals’ mapping corresponds to the actual wiring. Problem: The display screen appears but does not respond to any touch. © Munters AB, 2020...
Page 159: Spare Parts
Trio 20 Door Cards Spare Parts • Trio 20 Main Container Spare Parts • Additional Options • Cards • 23.3.1 P RELIMINARY NFORMATION Trio 20 Container Door Cards Main Container Cards Cables and Harnesses Munters Part Number Dealer Part Number © Munters AB, 2020...
Page 161 Trio-20 PLASTIC BOX BASE MPN: 940-99-00007 DPN: A1.3 Trio HINGE PLASTIC PIN V1.0.0 (SP-207128) MPN: 940-99-00019 DPN: Trio-20 PLASTIC BLUE PANEL (MUNTERS LOGO) MPN: 940-99-00001 DPN: A3.1 ONE / ONE PRO - LATCH GENERAL LOCK PLASTIC PART + MPN: 900-99-00217 LOCK FOR LATCH DPN: A3.2...
Page 163: Heatsink And Fan
VIDEO FLAT CABLE 0.02” (0.50 mm) Type 1,152.4 mm MPN: 940-99-00012 DPN: USB CABLE FOR Vitek DISPLAY (SP-140672) MPN: 940-99-00027 DPN: NETWORK CABLE RJ485 (8 WIRES, 0.5 METERS) MPN: 940-99-00011 DPN: FLAT FF14P 25CM F”D>_V1.0.0 (SP-141161) MPN: 999-99-00457 DPN: © Munters AB, 2020...
Page 165 MPN: 901-99-00028 DPN: ADO 3.a TUBES AND FILTERS FOR RPS (NO RPS CARD) MPN: 999-99-00503 DPN: ADO 4 STATIC PRESSURE (EXTERNAL) SENSOR-RPS-PIG-MUR MPN: 920-03-10001 DPN: ADO 5 CO2-PIG-EN-MUR MPN: 919-01-10005 DPN: ADO 6 AMMONIA-POU-MUN MPN: 929-01-00002 DPN: © Munters AB, 2020...
Page 166 Number 250061: LCD TFT 10.1' 940-99-00002 VT101C-KC17-B07A Vitek Or AM- 1024600O2TMQW- TA0H Ampire Or TWS2101RBTV20C APEX 140672: USB CABLE 940-99-00027 FOR Vitek\Ampire DISPLAY Trio 20 -PIG- DISPLAY 940-99-00041 CARD AND SOM VARISCITE CARD WITH HEATSINK AND © Munters AB, 2020...
Page 167: Display Card
Munters Ordering Number Trio 20 -PIG-CN- 940-99-00043 DISPLAY CARD AND SOM VARISCITE CARD WITH HEATSINK AND NOTE: CHINA ONLY 940-99-00004 R-Trio-DISPLAY: Trio 20 DISPLAY CARD (Trio-DISPLAY) Trio 20 -PIG- SOM 940-99-00040 VARISCITE CARD WITH HEATSINK AND © Munters AB, 2020...
Page 168 Trio 20 -PIG-CN- SOM 940-99-00042 VARISCITE CARD WITH HEATSINK AND NOTE: CHINA ONLY Trio 20 HEATSINK 940-99-00026 AND FAN FOR SOM CARD 204152: FAN FOR 940-99-00025 SOM CARD HEATSINK 491009: ANTENNA 940-99-00035 WI-FI MOLEX 1461530150 15cm CABLE, U.FL/I-PEX MHF © Munters AB, 2020...
Page 169: Static Pressure
23.3.6.2 Main Container Cards Card Description Munters Ordering Number R-Trio-20- 940-99- MAIN: 00003 MUNTERS ROTEM MIDDLE RANGE 2 CPU 370193: 900-99- SWPS LPV- 00264 60-12 Mean Well 100- 240V 12V STATIC PRESSURE 901-99-00028 SET-AC3G/SE/ PL/Trio-PIG © Munters AB, 2020...
Page 170 Card Description Munters Ordering Number TUBES AND 999-99-00503 FILTERS FOR RPS (NO RPS CARD) © Munters AB, 2020...
Page 171: Appendix C: Central Exhaust
Since Central Exhaust sets the pressure settings for the entire structure, there is only one room in this mode. 24.2 Selecting Central Exhaust To select the Central Exhaust Mode: 1. Perform a Cold Start. Go to System > General Settings > About. © Munters AB, 2020...
Page 172 3. Click Start New Setup. 4. Click Central Exhaust. 24.3 Central Exhaust Dashboard The basic task of the Central Exhaust Mode is to control and monitor the air pressure. The dashboard shows the pressure and ventilation status. © Munters AB, 2020...
Page 173 (Version 4.2.3 and above) Pressure Timers Aux Alarm History • Alarms & Events System • Temperature Definition Device & Sensors Definition and Mapping Room Settings Mapping Devices o General  Time & Date  Static Pressure © Munters AB, 2020...
Page 174 Ventilation Level while Pressure Fails: In the event that the pressure sensor fails, set the ventilation level. CAUTION This parameter is extremely important and can ensure animal survival in the event of a sensor failure. o Pressure Alarm: Set the low and high pressures, at which an alarm is transmitted. © Munters AB, 2020...
Page 175: Room Setting
Central Exhaust supports 30 levels of ventilation. The user adds each layer manually. To set up the ventilation levels: 1. Go to System > Devices & Sensors and define the fans. Refer to Mapping Devices, page 48 for details. 2. Go to Control > Ventilation. 3. Click © Munters AB, 2020...
Page 176 4. Enable the fan(s) in Level 1 as required. Refer to Defining the Fans/Ventilation Scheme, page 97 for details. 5. Click to add an additional level and define the Level 2 fan(s) as required. 6. Repeat these steps, up to 30 levels. 7. Click Save. © Munters AB, 2020...
Page 177: Appendix D: Central Corridor
25.2 Selecting Central Corridor To select the Central Corridor Mode: 1. Perform a Cold Start. Go to System > General Settings > About. a. Click Reset Factory Default. b. Create a backup if required. 2. Click Reset. © Munters AB, 2020...
Page 178 3. Click Start New Setup. 4. Click Central Corridor. 25.3 Central Corridor Dashboard The basic task of the Central Exhaust Mode is to control and monitor the air pressure. The dashboard shows the pressure and ventilation status. © Munters AB, 2020...
Page 179 System • Temperature Definition Alarm Settings Device & Sensors Definition and Mapping Room Settings Mapping Devices o General Time & Date  Alarm   User  Network  File Saving and Loading Software Update  © Munters AB, 2020...
Page 180 Pressure Alarm: Set the low and high pressures, at which an alarm is transmitted. o Inlet Position while Pressure Fails: In the event that the pressure sensor fails, define the inlet position to provide emergency ventilation. © Munters AB, 2020...
Page 181 Max Heat Temperature: Set the temperature at which heaters work at maximum capacity. Range: -40⁰ to On temperature o Minimum Output: Set the voltage at which heaters work at their minimum level. o Maximum Output: Set the voltage at which heaters work at their maximum level. © Munters AB, 2020...
Page 182 In System > Room Settings, select the room mode. Room mode is based on the animals’ growth stage. You can change the stage throughout the growth cycle. The default is Central Corridor. NOTE The room setting is used when comparing data from rooms, it does not change room settings. © Munters AB, 2020...
Page 183: Appendix E: Trio Expansion
Trio / Trio Expansion Termination • • Product Symbols • Mapping Devices in Expansion • Expansion Specifications • Expansion Spare Parts • 26.1 Expansion Layout Figure 30: Board layout 10 relays RS-485 ports Power ports Ground strip © Munters AB, 2020...
Page 184 IRING Figure 31: Wiring diagram The cable between the controller and the expansion unit should be a 4-wire twisted shielded • cable (22 or 24 AWG). 1 – red wire • 2 – black wire • © Munters AB, 2020...
Page 185 26.2.2 H OLTAGE ELAYS Figure 32: High voltage devices (examples) Example of devices NOTE The relays control motors and heating devices via contactors, not directly. © Munters AB, 2020...
Page 187 When Trio is wired to a Trio Expansion unit, the termination dipswitch in both units must be set to ON. NOTE When the Trio is not wired to an Expansion device, the termination dipswitch position is irrelevant. © Munters AB, 2020...
Page 188 : Caution! Hazardous voltage : Caution: Refer to the manual : Main Protective Earthing Terminal CAUTION IF THE UNIT IS USED IN A MANNER NOT SPECIFIED BY THE MANUFACTURER, THE PROTECTION PROVIDED BY THE EQUIPMENT MAY BE IMPAIRED. © Munters AB, 2020...
Page 189 To map the devices: 1. Go to System > Device and Sensors. 2. Click Expansion. 3. Map the devices as detailed in the Trio manual. Refer to Mapping Devices, page 48 for more information. © Munters AB, 2020...
Page 190: Expansion Specifications
Main Supply Voltage: Permanently connect the controller to the mains in accordance with the • relevant national code. Provide fixed wiring inside a flexible conduit. Relays must be suitably protected against overcurrent, using a circuit breaker rated at 10A. © Munters AB, 2020...
Page 191 Trio 10 Expansion Main Container Spare Parts • Main Container Card Spare Parts • 26.8.1 P RELIMINARY NFORMATION Trio 10 EXP Container Main Container Cards Munters Part Number Dealer Part Number 26.8.2 T 10 E XPANSION ONTAINER PARE ARTS © Munters AB, 2020...
Page 192 A1.2 Trio-20 PLASTIC BOX BASE MPN: 940-99-00007 DPN: A1.3 Trio HINGE PLASTIC PIN V1.0.0 (SP-207128) MPN: 940-99-00019 DPN: Trio-20 PLASTIC BLUE PANEL (MUNTERS LOGO) MPN: 940-99-00001 DPN: A3.1 GENERAL PLASTIC LATCH MPN: 900-99-00216 DPN: A3.2 ONE/ONE PRO LATCH GENERAL LOCK PLASTIC PART +...
Page 193 26.8.3 T 10 E XPANSION ONTAINER PARE ARTS ID No. Description Order Catalog Number Trio-EXP 10 CARD (SP: R-Trio-EXP10) MPN: 940-99-00029 DPN: B1.1 SWPS APV-16-12 Mean Well 115V/230V 12V 16W MPN: 999-99-00338 (SP: 370153) DPN: © Munters AB, 2020...
Page 194 26.8.4 M ONTAINER PARE ARTS Card Description Munters Ordering Number R-Trio-EXP10: Trio EXP 10 940-99- CARD 00029 370153: SWPS APV-16- 999-99- 12 Mean Well 00338 115V/230V 12V 16W © Munters AB, 2020...
Page 195: Appendix F: Trio Cell Modem Installation
EQUIRED OFTWARE Trio cell modem requires the following software installations: Image Version 1.5. Consult with a Munters technician on how to install the image. • Software Version 5.0 or higher. Upgrade this software via the Trio Software Upgrade screen. •...
Page 196: Physical Installation
Modem and SIM Card 1. Locate the designated spot for the modem. 2. Insert the modem into the connector and secure it using the two screws supplied. 3. Insert the SIM card into the SIM port. © Munters AB, 2020...
Page 197 4. Thread the modem cable to the connector as shown below. 5. Remove the sealing cap and attach the 6. Secure the antenna using the brace antenna. (For older units, refer to the next provided. section.) © Munters AB, 2020...
Page 198 27.2.1.2 Driilling In the event that the Trio unit was shipped before 08/2022, a hole must be drilled for the SMA connector. 1. Drill a 6.5-millimeter hole in the spot shown below. © Munters AB, 2020...
Page 200 3. Thread the modem cable to the connector as shown below. 27.2.2 C ONFIGURATION NOTE The cellular Modem function appears only if a modem is installed with a working SIM card. To configure the cell modem: 1. Go to System > General Settings > Network. © Munters AB, 2020...
Page 201 2. Under Cellular Modem, click Manage. 3. Under Cellular Modem, click Manage. 4. Final steps: a. Enable the modem. b. Using data provided by your service provider, enter the data in the fields. c. Click Save. © Munters AB, 2020...
Page 203: Warranty
12 months of the delivery of the defective product. Munters has thirty days from the date of receipt in which to take action, and has the right to examine the product at the customer’s premises or at its own plant (carriage cost to be borne by the customer).
Page 204 The liability of the manufacturer Munters ceases in the event of: • dismantling the safety devices; • use of unauthorised materials; • inadequate maintenance; • use of non-original spare parts and accessories. Barring specific contractual terms, the following are directly at the user’s expense: •...

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