CaptiveAire RTULink Installation, Operation And Maintenance Manual Download Page 19 | Manualshive

Page: 19 / 56

background image

19

Current Transducer

If current transducer(s) are called for in the specifications, follow the instructions in this section.

A current transducer (CT) will be
installed in the RTU control
panel with mounting screws or
on a piece of din rail.  Energy
consumption will be measured
by routing the line wiring
through the hole in the CT.  For
an RTU application, the CTs
can measure condenser power
consumption, heating element
power consumption (if electric),
or total RTU power
consumption.  These lines can
usually be accessed inside of
the RTU.  Refer to RTU
manufacturer documentation for
detailed wiring schematics.
Only one wire can be inserted
through each CT for measurement.

Set the current transducer jumper to monitor the closest amperage that is equal to or higher than the maximum expected
current of the circuit that will be monitored (do not account for inrush current). For example, a condenser with a maximum
amperage rating of 80 amps will have a current transducer jumper installed to monitor 100 amps (100 amp is the lowest
setting that exceeds 80 amp).  Connect the positive (+) and negative (-) terminals of the current transducer to the positive
(+) and negative (-) terminals of a 0-10VDC input on the RTULink.  PN: A/CTV-50 is used to measure components in the
range of 10, 20, and 50 amps.  PN: A/CTV-250 is used to monitor components in the range of 100, 200, and 250 amps.

shows a detail and terminology of a current transducer. For specialized applications out of these ranges

contact support.

shows a wiring diagram of a current

transducer that is wired to Input 1 on the “RTU” side of
the board and whose jumper set to measure 10 Amps.
Standard 18-2 wire should be used for sensor wiring.
Once the sensor is wired to an input, enter the
configuration menu via the onboard HMI and configure
the corresponding

input for “Current X”. The X will

represent the number of the current transducer that is
installed on the RTULink (if this is the second, the X will
be a 2). Next, “Current X” will need to be configured
with the corresponding Amps/V. In the above example,
the “RTU IN 1” would be configured for “Current 1”
(since this is the first and only current transducer wired
to the RTULink) and “Current 1” would then be
configured for 1 Amps/V.

Figure 22. CT

– RTULink Wiring

Figure 21. Current Transducer Detail

«
...
17
18
19
20
21
...
»

Summary of Contents for RTULink

Page 1: ...rior and exterior damage and if found report it immediately to the carrier Also check that all accessory items are accounted for and are damage free WARNING Installation of this control panel should o...

Page 2: ...2...

Page 3: ...ontrol 24 Monitor Only 24 External Mode 24 Emergency Heat 24 FUNCTIONALITY 25 Info 25 Configuration 25 Faults 29 Reboot 29 Main Board HMI Menu Tree 30 Space HMI and Remote Room Sensor Installation 35...

Page 4: ...apacity 5 The invoice is not paid within the terms of the sales agreement The MANUFACTURER shall not be liable for incidental and consequential losses and damages potentially attributable to malfuncti...

Page 5: ...to during installation testing servicing and repairing of these boards Component damage may result if proper procedures are not followed To ensure proper operation do not install any of the monitorin...

Page 6: ...y offering remote and dynamic monitoring control and scheduling Components whose processes were previously invisible such as damper economizer powered exhaust demand control ventilation and more are e...

Page 7: ...ing or rerouting existing RTU wiring Secure the board with four of the provided self tapping screws Become familiar with the terminal labeling on the RTULink RTULink Control Kit Thermistors Figure 2 s...

Page 8: ...which will provide the most accurate reading A hole should be drilled in the return duct so that the sensor probe can be inserted through the duct and into the return airstream Two of the provided sel...

Page 9: ...the remaining subsections to determine which features will repurpose board terminals Figure 5 RTULink RTU Wiring Table 1 RTULink to RTU Wiring Terminals TERMINAL LABEL SIGNAL VOLTAGE RTULINK INPUT OUT...

Page 10: ...o individually disconnect the incoming thermostat wire and connect it on the THERMOSTAT side of the RTULink Do not disconnect all of the wires at once disconnect wires one at a time so it is easier to...

Page 11: ...reas near diffusers areas near appliances areas more than 6 ft above the floor etc Route the thermistor wire to the RTULink and connect it to the and C terminals thermistor input is not polarity sensi...

Page 12: ...12 Figure 10 Space Temperature RTULink Wiring Figure 9 Space Thermistor Detail Plastic Housing Wall Mount...

Page 13: ...onnect the RTULinks together using the CAT5 cable If an RTULink is the last in a line it will only have one CAT5 cable connected to it and will require an end of line resistor PN EOL120A in its unused...

Page 14: ...holes in the junction box should be completely sealed with caulk to prevent humid air from coming in contact with the sensors circuit board Figure 12 shows an install detail for a wall mounted temper...

Page 15: ...uld remain OFF These dip switches can be seen in the sensor detail in Figure 14 Once the sensor is wired to an input enter the configuration menu of the RTULink via the onboard HMI and configure the c...

Page 16: ...or connecting conduit to the knockout make sure that they are properly sealed with liquid tight fittings to prevent moisture from entering the sensor housing Standard 18 5 thermostat wire should be us...

Page 17: ...ng wire back to the RTULink control board Standard 18 5 thermostat wire should be used for sensor wiring The sensor has a bank of eight dip switches that control the range of the output voltage of the...

Page 18: ...of the airways Once the sensor is in its final position secure it to the duct with self tapping screws Wire nuts will be provided with the sensor so that wire connections can be made The sensor will...

Page 19: ...80 amp Connect the positive and negative terminals of the current transducer to the positive and negative terminals of a 0 10VDC input on the RTULink PN A CTV 50 is used to measure components in the...

Page 20: ...hich are explained in Table 3 For enthalpy economizers enthalpy is calculated using temperature and relative humidity In Table 3 the outside air enthalpy is represented as OAE and the return air entha...

Page 21: ...s not provide power to the powered exhaust it only signals an ON OFF state Powered Exhaust 0 10VDC If the RTULink will be using a 0 10VDC as the control signal for a powered exhaust it must be configu...

Page 22: ...this Once this feature is enabled the RTULink must we wired accordingly Wire the DEFROST terminal on the TO THERMOSTAT side of the RTULink to the RTU occupied terminal this will send the occupied sig...

Page 23: ...is performed only once at the beginning of the startup procedure If a hardware configuration parameter is incorrectly set or if the RTULink board is switched from one RTU to another or if Hardware Co...

Page 24: ...o action will be taken to correct the fault An external thermostat is required in order to operate in this control mode External Mode External mode is a hybrid control mode It offers the ability to co...

Page 25: ...page 25 for nomenclature explanations used in this menu Hardware Config The hardware configuration settings are displayed in this menu No settings or parameters can be changed in this menu current set...

Page 26: ...MI when the screen is inactive HMI x Avg Enable Sets if averaging is ON or OFF Heating SP The heating set point is the default set point that the RTULink defaults to if it ever comes out of a schedule...

Page 27: ...llowed to turn OFF This timer is intended to reduce condenser cycling and increase life cycle of the cooling components The timer is in a MM SS format and is adjustable from 00 00 to 20 00 Min Heat Of...

Page 28: ...d View APPENDIX C for enthalpy economizer operation and logic Dry Bulb Band Dry bulb band is the modulation band for the dry bulb economizer in degrees Fahrenheit View APPENDIX C for dry bulb economiz...

Page 29: ...s View the current transducer documentation to determine the amperage per volt supplied by the current transducer Diagnostics Diagnostics mode allows for binary and analog inputs to be turned ON OFF a...

Page 30: ...30 Main Board HMI Menu Tree...

Page 31: ...31...

Page 32: ...32...

Page 33: ...33...

Page 34: ...34...

Page 35: ...r surface mounted or recessed mounted HMIs have a built in temperature relative humidity RH sensor which is typically used to help control the automatic function of the unit The HMI can also be config...

Page 36: ...r to change or set certain temperature and configurations on the unit Any changes within this menu do not require a reboot to take effect Factory settings Requires a password to enter this menu 1 1 1...

Page 37: ...tput signals Y and O B are used Standard output signals Y and W are used HP O B Mode For heatpump units this will set the reversing valve to activate for heating or cooling Heat Stages Sets the number...

Page 38: ...upancy can be overridden on the HMI Room Ovrd Duration Length of override timer If override is active it can be manually stopped by pressing the end override button on the HMI The default setting is 1...

Page 39: ...is selected temperature and humidity will be used to control the economizer If Dry Bulb is selected the temperature will be used to control the economizer Select None if an economizer is not equipped...

Page 40: ...For a modulating powered exhaust the speed of the exhaust will modulate linearly as the economizer damper opens from this threshold to fully open 100 open Enable Max HP Setting to enable or disable ma...

Page 41: ...41...

Page 42: ...42...

Page 43: ...43...

Page 44: ...44...

Page 45: ...nsor is faulty Discharge Temp Not Connected Temperature sensor has been disconnected or has failed Verify correct resistance across Type II 10k thermistor and replace if the sensor is faulty Out of Sc...

Page 46: ...SLink and ensure that all RTULink board data has timestamps that are current If the board is currently reporting all data overwrite the current schedule with an OFF control mode and pass a new one Gap...

Page 47: ...20 amp or 0 50 amp and one with an adjustable range of 0 100 amp 0 200 amp or 0 250 amp The measurable range is based on the position of the jumper on the top of sensor L M or H respectively The range...

Page 48: ...t sticks out of the sensor should always be pointed downward to protect it from the elements To improve sensor readings mount this in a location that will be free from the elements and direct sunlight...

Page 49: ...49 APPENDIX A NOTE DO NOT ROUTE COMMUNICATION WIRING WITH HIGH VOLTAGE WIRES Daisy Chain Topology Figure 29 Daisy Chain Ideal Configuration Star Topology Figure 30 Star...

Page 50: ...50 APPENDIX B 1 Strip the CAT5 cable and arrange the wires in the color configuration seen below Figure 31 Straight Through Wiring Configuration Figure 32 RJ45 Pinout...

Page 51: ...Ensure that the wires are completely inserted into the connector You can accomplish this by looking at the tip of the RJ45 connector the end without the opening and being able to see the copper ends o...

Page 52: ...52 APPENDIX C Fixed Dry Bulb Economizer Figure 34 Fixed Dry Bulb Economizer Operation...

Page 53: ...53 Differential Dry Bulb Economizer Figure 35 Differential Dry Bulb Economizer Operation...

Page 54: ...54 Fixed Enthalpy Economizer Figure 36 Fixed Enthalpy Economizer Operation...

Page 55: ...55 Differential Enthalpy Economizer Figure 37 Differential Enthalpy Economizer Operation...

Page 56: ...ddress Address City City State State Zip Zip Phone Number Phone Number Fax Number Fax Number Contact Contact Purchase Date Startup Date MAC Address Static IP if Assigned Maintenance Date Service Perfo...

Reviews:

No comments

Related manuals for RTULink

Brand: lancer Pages: 12

Brand: RAPID REBOOT Pages: 18

Brand: MacDon Pages: 170

Brand: MacDon Pages: 108

Brand: MacDon Pages: 108

Brand: MacDon Pages: 51

Brand: MacDon Pages: 104

Brand: MacDon Pages: 240

QUANTOFIX Relax

Brand: Macherey-Nagel Pages: 192

Brand: MacDon Pages: 182

Brand: MacDon Pages: 192

Brand: MacDon Pages: 53

Brand: MacDon Pages: 2

Brand: Qiagen Pages: 48

Brand: Qiagen Pages: 162

Brand: Qazqa Pages: 4

Brand: Qlightec Pages: 12

Brand: Safety 1st Pages: 4

Brands by name

0 1 2 3 4 5 6 7 8 9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

Popular brands

Load more brands