McQuay UV11 Installation Manual

Operation Maintenance Manual OM 755-2
MicroTech II® Unit Ventilator Controls
for AAF®-HermanNelson® Classroom Unit Ventilators
Group: Applied Systems
Part Number: 106506328
Date: April 2010
2-Pipe Chilled Water Cooling and Hot Water Heat-
Software Model UV11 (Valve Control)
Software Model UV12 (F&BP Damper Control)
Used with AAF-HermanNelson Classroom Unit Ventilator
Model AVS, AVV - Floor Mounted
Model AHF, AHV - Ceiling Mounted
IMPORTANT
Before unit commissioning, please read this publication in its entirety.
Develop a thorough understanding before starting the commissioning procedure.
This manual is to be used by the commissioner as a guide. Each installation is unique, only general topics are covered.
The order in which topics are covered may not be those required for the actual commissioning.
© 2010 McQuay International
Introduction 3
Acronyms/Abbreviations 5
Getting Started 7
Using the Keypad/Display 7
Display Format 7 Keypad Functions 7 Using the Keypad/Display 9 Menu Reference 9
Description of Operation 12
State Programming 12 UVC Unit Modes 13
OFF Mode (State 9) 14 Night Purge Mode (State 8) 15 Fan Only Mode (State A) 15 Emergency Heat Mode (Super State) 16 Auto Mode 17 Cool Mode (Super State) 19 “CO2 Demand Controlled Ventilation (optional)” on page 35Special
Purpose Unit Modes 23 Unit Mode Priority 24 Occupancy Modes 25
Occupied Mode 26 Unoccupied Mode 26 Standby Mode 26 Bypass Mode 26
Additional Occupancy Features 26
Networked Occupancy Sensor Capability 26 Unit-Mounted Time-Clock 26 Unit-Mounted Tenant Override Switch 26 Remote Wall-Mounted Sensor Tenant Override Switch 27 Remote Wall-Mounted Sensor Status LED 27
Space Temperature Set Points 27
Networked Set Point Capability 27 Networked Set Point Offset Capability 27 Networked Set Point Shift Capability 28 Networked Space Temperature Sensor Capability 28 Remote Wall-Mounted Sensor with +/–3°F
Adjustment (optional) 28
Remote Wall-Mounted Sensor with 55°F to 85°F
Adjustment (optional) 28
Effective Set Point Calculations 28
Proportional Integral (PI) Control Loops 30
Discharge Air Temperature Control 30
PI Control Parameters 31
Proportional Band 31 Integral Time 32
Indoor Air Fan Operation 32
Auto Mode 32 Occupied, Standby, and Bypass Operation 32 Unoccupied Operation 33 Cycle Fan 33 Off Delay 33
Outdoor Air Damper Operation 33
Minimum Position 33 Economizer Operation 33 Networked Space Humidity Sensor Capability 35 Networked Outdoor Humidity Sensor Capability 35 CO2 Demand Controlled Ventilation (optional) 35 Networked Space CO2 Sensor Capability 35 ASHRAE Cycle II 36
Source (Water-in) Temperature Sensor 36
Networked Source (Water-in) Temperature Capability 36 Valve Control (software model 11) 36 Face and Bypass Damper Control (software model 12) 36
End-of-Cycle Valve Control (software model 12) 36
Passive Dehumidification (optional, software model 12) 37 Floating-Point Actuator Auto-Zero, Overdrive and Sync 37
Water Coil Leaving Air Thermostat (Freeze-stat) 37
Valve Control (software model 11) 37 Face & Bypass Damper Control (software model 12) 38
External Binary Inputs 38
External Binary Input 1 38 External Binary Input 2 38 External Binary Input 3 39
External Binary Outputs 39
External Binary Output 1 39 External Binary Output 2 40 External Binary Output 3 40
UVC Input and Output Table 41
Diagnostics and Service 42
Alarm and Fault Monitoring 42
Space Temp Sensor Failure () 43 Condensate Overflow Indication (optional) () 43 Outdoor Temp Sensor Failure () 43 Discharge Air Temp Sensor Failure () 43 Source (Water-in) Temp Sensor Failure () 44 Space Humidity Sensor Failure (optional) () 44 Outdoor Humidity Sensor Failure (optional) () 44 Space CO2 Sensor Failure (optional) () 44 Source (Water-in) Temp Inadequate Indication () 44 Change Filter Indication () 45 EPROM Memory Indicator () 45
Configuration Display () 45 Troubleshooting Temperature Sensors 45 Troubleshooting Humidity Sensors 46 Troubleshooting Carbon Dioxide (CO2) Sensors 46
UVC Configuration Parameters 48
1 McQuay IM 708-2

Introduction

Introduction
This manual provides information on the MicroTech II® control system used in the AAF®-
®
HermanNelson
Unit Ventilator product line. It describes the MicroTech II components, input/
output configurations, field wiring options and requirements, and service procedures. For installation and general information on the MicroTech II Unit Ventilator Controller, refer
to IM 747, MicroTech II Unit Ventilator Controller. For installation, commissioning instructions, and general information on a particular unit
ventilator model, refer to the appropriate manual (Table 1), as well as accompanying software operating instruction manual (T able 4), and possible accessory manuals that may pertain to the unit (Table 3).
For installation and maintenance instructions on a plug-in communications card, refer to the appropriate protocol-specific installation and maintenance manual (Table 2). For a description of supported network variables for each protocol, refer to Protocol Data Packet bulletin ED
15065. Copies of the latest version of these manuals are available for download on our website at
www. mcquay.com or from your local McQuay Representative.
Table 1: Model-spe c ific unit ventilator installation literature
Description Manual #
Vertical IM 817 X X X X Horizontal IM 830 X X X X Vertical Self-Contained IM 789 X X X X X X
AHF
AHB
AHV
AHR
AVS
AVB
AVV
AVR
AZB
AZR
AZS
AZU
AZV
AZQ
Table 2: Protocol-specific communication card installation literature and protocol data
Description Manual #
Unit Ventilator Unit Controller LonWorks® Communications Module IM 729 Unit Ventilator Unit Controller JCI N2 Open® Communications Module IM 730 Unit Ventilator Unit Controller BACnet® Communications Module IM 731 Protocol Data Packet ED-15065
Table 3: Accessory-specific installation literature
Description Manual #
MTII Unit Ventilator Controls Installation IM 747 Room Temperature Sensors Installation IM 629 ATS Service Cable Installation for Unit Ventilators IM 762
McQuay OM 755 3
Introduction
Table 4: Software program literature
Description Manual #
Air Source Heat Pump with Electric Heat (Software Model 00) OM 748 Water Source Heat Pump with Electric Heat (Software Model 02) Water Source Heat Pump without Electric Heat (Software Model 03) DX Cooling with Electric Heat (Software Model 04) OM 750 DX Cooling Only (Software Model 05) OM 751 Electric Heat Only (Software Model 06) OM 752 DX Cooling with Hydronic Heat - Valve Control (Software Model 07) DX Cooling with Hydronic Heat - F&BP Damper Control (Software Model 08) 2-Pipe Hydronic Heat Only - Valve Control (Software Model 09) 2-Pipe Hydronic Heat Only - F&BP Damper Control (Software Model 10) 2-Pipe Chilled Water Cooling and Hot Water Heat - Valve Control (Software Model 11) 2-Pipe Chilled Water Cooling and Hot Water Heat - F&BP Damper Control (Software Model 12) 4-Pipe Chilled Water Cooling and Hydronic Heat - Valve Control (Software Model 13) 4-Pipe Chilled Water Cooling and Hydronic Heat - F&BP Damper Control (Software
Model 14) 2-Pipe Chilled Water Cooling Only - Valve Control (Software Model 15)
2-Pipe Chilled Water Cooling Only - F&BP Damper Control (Software Model 16) 2-Pipe Chilled Water Cooling with Electric Heat - Valve Control (Software Model 17)
2-Pipe Chilled Water Cooling with Electric Heat - F&BP Damper Control (Software Model 18)
OM 749
OM 753
OM 754
OM 755
OM 756
OM 757
OM 758
NOTICE
This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with this instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against detrimental interference when the equipment is operated in a commercial environment. Operation of this equipment in a residential area is likely to cause detrimental interference in which case users are required to correct the interference at their own expense. McQuay International disclaims any liability resulting from any
interference or for the correction thereof.
WARNING
Electric shock hazard. Can cause personal injury or equipment damage.
This equipment must be properly grounded. Connections and service to the MicroTech II control panel must be performed only by personnel that are knowledgeable in the operation of the equipment being controlled.
CAUTION
Extreme temperature can damage system components.
The MicroTech II controller is designed to operate in ambient temperatures from -20°F to 125°F. It can be stored in ambient temperatures from -40°F to 140°F. It is designed to be stored and operated in relative humidity up to 95% (non-condensing).
CAUTION
Static sensitive components. A static discharge while handling electronic circuit boards can damage components.
Discharge any static electrical charge by touching the bare metal inside the main control panel before performing any service work. Never unplug any cables, circuit board terminal blocks, relay modules, or power plugs while power is applied to the panel.
4 McQuay OM 755
Introduction

Acronyms/Abbreviations

The following table list acronyms and abbreviations that may or may not be used within this manual. Other abbreviations for keypad displays and parameters can be found in Table 7 on page 10 and Table 26 on page 48.
Table 5: Acronyms and abbre v iations
Description
Air Fan AF Auxiliary Heat End Differential AHED Auxiliary Heat Start Differential AHSD American Standard Code for Information Interchange ASCII American Society of Heating, Refrigerating, and Air Conditioning Engineers, Inc Compressorized Cooling Lockout CCLO Spac e C O Chilled Water CW Chilled Water Valve Position CWVP Discharge Air DA Discharge Air High Limit DAHL Discharge Air Temperature DAT Discharge Air Temperature Setpoint DATS Demand Controlled Ventilation DX Cooling Discharge Air Low Limit DXLL Economizer Compare Differential ECD Economizer IA/OA Enthalpy Differential EED Economizer OA Enthalpy Setpoint EES Emergency Heat Setpoint EHS Exhaust Interlock OAD Min Position Setpoint EOAD Outdoor Air Temperature Setpoint EOAT End-of-Cycle EOC EOC OAT Low Setpoint EOCS Outdoor Air Humidity Output EORH Space Humidity Setpoint ERH Economizer IA/OA Temp Differential ETD Economizer OA Temp Setpoint ETS Source (water in) Temperature EWIT Face and Bypass Damper Position FBDP Federal Communications Commission FCC Face and Bypass F & BP Heating, Ventilating, Air Conditioning Refrigeration HVACR Heating EOC Valve Setpoint HEOC Hot Water HW Indoor Air IA Indoor Air Fan IAF Indoor Air Temperature IAT Light Emitting Diode LED Local User Interface LUI Mixed Air Low Limit MALL Mechanical Cooling Low Limit Setpoint MCLL National Electric Code NEC Outside Air OA Outside Air Dampers OAD Energize Exhaust Fan OAD Setpoint OADE OAD Min Position High-Speed Setpoint OADH OAD Min Position Low-Speed Setpoint OADL OAD Min Position Med-Speed Setpoint OADM Outdoor Air Damper Position OADP OAD Lockout Setpoint OALS OAD Max Position Setpoint OAMX Outside Air Temperature OAT
Setpoint CO2S
2
Acronym/
ASHRAE
DCV
Abr.
McQuay OM 755 5
Introduction
Description
Occupied Cooling Setpoint OCS Occupied Heating Setpoint OHS Occupancy Override Input OOI Occupancy Sensor Input OSI Proportional Integral PI Parts Per Million PPM Positive Temperature Coefficient PTC Relative Humidity RH Space Humidity Setpoint Read Only RO Read Write RW Standby Cooling Setpoint SCS Standby Heating Setpoint SHS Thermal Expansion Valve TXV Unoccupied Cooling Setpoint UCS Unoccupied Heating Setpoint UHS Unit Ventilator UV Unit Ventilator Controller UVC UVC (Heat/Cool) Mode Output UVCM UVC State Output UVCS Wet Heat Valve Position VALP Ventilation Cooling Low Limit Setpoint VCLL Ventilation Cooling Lockout VCLO Ventilation Cooling Setpoint VCS Wet Heat WH Source (water in) Temperature Differential WITD
Acronym/
RHS
Abr.
6 McQuay OM 755

Getting Started

Getting Started
The MicroTech II Unit Vent Controller (UVC) is a self-contained device that is capable of complete, stand-alone operation. Information in the controller can be displayed and modified by using the keypad/display (local user interface). The following sections describe how to use the keypad/display.
Note – Many UVC parameters are accessible both through the keypad/display and the network
interface. The shared keypad/display and the network interface variables have a “last­change-wins” relationship.

Using the Keypad/Display

The keypad/display shown in Figure 1 is provided with all MicroTech II Applied Unit Ventilator unit controllers. With the keypad/display, operating conditions, system alarms, and control parameters can be monitored. Set points and other parameters also can be modified.
Figure 1: Keypad/display
MicroTechTMII
FAN ONLY
COOL
HEAT
AUTO
MODE FAN
HIGH
MED
LOW
AUTO
FUNC
ON /
STOP

Display Format

The keypad/display’s 2-digit, 7-segment display normally shows the effective heating or cooling temperature set point (Effective Set Point Output). The display also is used to view and modify UVC parameters as explained in the following sections.
Note – When the UVC is in the OFF mode, the effective heating set point appears in the display.
All other LEDs are switched off.

Keypad Functions

Security Levels
The keypad/display provides a 4-level password security feature that can be used to restrict access. The available security levels are shown in Table 6.
Note – All unit ventilator controllers ship with the lowest security (level 0) enabled. To change
security levels, see Figure 2. Once a security level is changed, the keypad/display remains at that security level until the next time it is changed.
Why can’t I use the MODE or FAN key or adjust Set Point Offset?
Most likely this is due to the security feature being used. If the security feature is set higher than level 0, then some keypad/display functionality is locked out. To ensure this is not the problem, enter the level 0 password then try to use the keypad/display again.
McQuay OM 755 7
Getting Started
Table 6: Keypad/display security levels
Level Display What is restricted? Password
0
1
2
3

Default level (access all) 10 Does not allow set point offset changes;

also locks out keypad/display menu access.
Does not allow set point offset changes nor MODE key changes; also locks out

keypad/display menu access. Does not allow set point offset changes

nor MODE and FAN key changes; also locks out keypad/display menu access.
21
32
43
Figure 2: Changing keypad/display security levels
ON/STOP Key and LED
Use the ON/STOP key to toggle the UVC between OFF mode and running (Application Mode Input). The ON/STOP LED is off when the UVC is in the OFF mode.
Note – When the UVC is in the OFF mode, the effective heating set point appears in the display.
All other LEDs are switched off.
– The UVC archives each change to the keypad/display FAN and MODE keys. When the
ON/STOP key is used to bring the unit out of OFF mode, the UVC implements the last active fan and unit modes.
– Each time the UVC power cycles, the UVC is in the auto fan and auto unit modes when
power is returned.
WARNING
Off mode is a “stop” state for the unit ventilator. It is not a “power off” state. Power may still be provided to the unit.
FAN Key
Use the F AN key to toggle through each of the fan speeds (Fan Speed Command Input): Auto, Low, Medium, and High.
MODE Key
Use the MODE key to toggle through the keypad/display accessible unit modes (Heat/Cool Mode Input): Auto, Heat, Cool, and Fan Only.
Arrow Keys
Use the arrow keys to scroll between parameters and to adjust parameters.
FUNC Key
Use the Func key to view the actual space temperature or to confirm selection and changes to user-adjustable parameters.
8 McQuay OM 755
Getting Started

Using the Keypad/Display

Viewing Actual Indoor Air Temperature (IAT)
Normally, the effective set point temperature appears on the keypad/display. You also can use the keypad/display to view the indoor air temperature (IAT). See Figure 3.
Note – When the actual indoor air temperature (Effective Space Temp Output) equals the
effective set point temperature (Effective Set Point Output), you there is no change to the keypad/display when you view space temperature.
Figure 3: Viewing indoor air temperature
70 71 70
Effective set point
Changing Set Points
The keypad/display can be used to make a +/–5°F (+/–3°C) offset adjustment to the effective temperature set point. See Figure 4. Also see “Space Temperature Set Points” on page 27 to learn more about temperature set points.
Figure 4: Adjusting the set point offset
FUNC
Enter
(5-sec)
Actual space temperature
Effective set point
-1
Flash value
FUNC
Enter
0
0
Current
offset
So 69
Effective set point
70
Effective set point
-1
Adjusted
offset
FUNC
Save
change
So
Set point
offset
Note – The set point offset clears whenever UVC power is cycled. When you change the set point
offset after a power cycle, or for the very first time, this cleared value shows as the highest allowed value (5°F/3°C) but is not an actual offset value.
– When using the +/–3°F (+/–1.7°C) remote wall sensor, any set point offset adjustment
made at the keypad/display causes the UVC to override and ignore the remote wall sensor set point adjustment knob. To use the remote wall sensor set point adjustment knob after you changed the set point offset on the keypad/display, clear the keypad/ display set point offset by cycling UVC power.
– When using the 55°F to 85°F remote wall sensor, the UVC ignores any LUI set point offset
adjustments.

Menu Reference

The keypad/display menu eases troubleshooting and simplifies UVC configuration. The user can access the most common parameters and system status values without a PC or network interface.
The keypad/display menu is accessed via an unmarked, hidden key. This hidden key is located approximately behind the letter “h” in the MicroTech II logo on the keypad/display face.
The keypad/display menu consists of two levels. The first level is the keypad/display Menu Item List containing alphanumeric characters representing each parameter. The second level is where the parameter’s value is viewed and adjusted if the parameter is adjustable. After 15­seconds, an inactivity timer automatically causes the display to back out of the menu levels, returning to the effective set point display.
McQuay OM 755 9
Getting Started
Figure 5: Changing a keypad/display menu item
Table 7: Keypad/display menu item list
Display Keypad menu item list Abr. Description
Reset Alarm Input

UVC (Heat/Cool) Mode

Output
UVC State Output UVCS

Discharge Air Temp Set

point Output
Discharge Air Temp Output DAT Display current DA temperature. RO x x

Ventilation Cooling Low

Limit set point Mechanical Cooling Low

Limit set point
Slave Type Configuration

Valve Override Input

Effective Occupancy Output Display current occupancy. RO x x

Occupancy Override Input

Occupied Cooling set point OCS Adjust occupied cooling set point. RW x x

Standby Cooling Set point SCS Adjust standby cooling set point. RW x x

Unoccupied Cooling Set

point
Occupied Heating Set point OHS Adjust occupied heating set point. RW x x

Standby Heating Set point SHS Adjust standby heating set point. RW x x

Unoccupied Heating Set

point
Wall Sensor Type Set wall sensor type: 0 = +/–3F, 1 = 55°F to 85°F. RW x x 0

Outside Air Damper Position

Output OAD Min Position High-

Speed Set point
OAD Min Position Med-

Speed Set point
OAD Min Position Low-

Speed Set point
Enter 1 to clear alarms (clears all inactive alarms, except filter alarm). To enable the alarm again, enter 0. Display current UVC mode. 1 = Heat, 3 = Cool, 4 = Night Purge, 6 = Off, 8 =
UVCM
Emerg. Heat, 9 = Fan Only Display current UVC state. 1 = EconMech, 2 = Mech, 3 = Econ, 4 = DA Heat, 5 = Heat, 6 = ActiveDehum, 7 = Full Heat, 8 = Night Purge, 9 = Off, 10 = Fan Only, 11 = Heat Mode Cant Heat, 12 = CantCool, 13 = Emerg Heat Mode Cant Heat, 14 = Heat Mode Low Limit, 15 = Cool Mode Low Limit
DATS Display current DA temperature set point. RO x x
VCLL Adjust economizer cooling DA temperature low limit. RW x x
MCLL Adjust mechanical cooling DA temperature low limit. RW x x
Set slave type: 0 = Independent (slave uses own sensors), 1 = Dependent (slave follows master). This feature requires a network over which the master and slave UVCs can communicate. Override valve position: 0 = normal operation, 20 = fully open all heating valves, 21 = fully close all heating valves. Adjusting this variable is intended only for troubleshooting and hydronic system balancing. Once you are done, set this variable to 0 or cycle unit power to return the UVC to normal operation.
Set occupancy: 0 = occupied, 1 = unoccupied, 2 = bypass, 3 = standby. Adjusting this variable is intended only for troubleshooting. Once you are done, cycle unit power to clear this variable and return the UVC to normal operation.
UCS Adjust unoccupied cooling set point. RW x x
UHS Adjust unoccupied heating set point. RW x x
OADP Display OA damper position. RO x x
Adjust OA damper minimum position with IAF at high speed. (This variable is
OADH
factory set to 5% open when the unit is ordered with optional Adjust OA damper minimum position with IAF at medium speed. (This variable
OADM
is not used when the optional OA damper minimum regardless of fan speed.) Adjust OA damper minimum position with IAF at low speed. (This variable is not
OADL
used when the optional damper minimum regardless of fan speed.)
CO2 DCV is e na bled. Only OA DH is act iv e as the
CO2 DCV is enabled. Only OADH is active as the OA
CO2 DCV.)
RO
11 12
1
RW
RW x x
RO x x
RO x x
RW x x 0
RW x x 0
RW x x
RW x x 20%
RW x x 25%
RW x x 30%
Default

54°F
(12°C)
45°F
(7°C)

73°F
(23°C)
77°F
(25°C)
82°F
(28°C)
70°F
(21°C)
66°F
(19°C)
61°F
(16°C)
2
10 McQuay OM 755
Display Keypad menu item list Abr. Description
Exhaust Interlock OAD Min

Position Set point Energize Exhaust Fan OAD

Set point
OAD Max Position Set point OAMX Adjust OA damper maximum position. RW x x 99%

OAD Lockout Enable

OAD Lockout Set point OALS

Economizer Enable Set economizer status: 0 = disable, 1 = enable. RW x x 1

Economizer OA Temp Set

point Economizer IA/OA Temp

Differential Economizer OA Enthalpy

Set point Economizer IA/OA Enthalpy

Differential
Space Humidity Output ERH Display room humidity (optional). 00 = No sensor connected. RO x x

Space Humidity Set point RHS Adjust room humidity set point for active dehumidification (optional). RW x x 60%

Outdoor Air Humidity Output EORH Display OA humidity (optional). 00 = No sensor connected. RO x x

Outdoor Air Temp Output EOAT Display OA temperature. RO x x

Emergency Heat Enable Set emergency heat status: 0 = disable, 1 = enable. RW x x 1

Emergency Heat Set point EHS Adjust emergency heat set point. RW x x

Emergency Heat Shutdown

Configuration Auxiliary Heat Start

Differential Auxiliary Heat End

Differential
Auxiliary Heat Configuration Set auxiliary heat type: 0 = N.O. device, 1 = N.C. device. RW x 0

External BI-1 Configuration

External BI-3 Configuration

External BO-3 Configuration

Fan Cycling Configuration

Filter Alarm Enable Set filter alarm status: 0 = disable, 1 = enable. RW x x 0

Reset Filter Alarm Input Enter 1 to clear filter alarm. RW x x

Source (Water-in) Temp

Output
Source (Water-in) Temp

Differential
F&BP Damper Position

Output WH or CW/HW Valve

Position Output
Space Temp Sensor Offset Adjust this setting to bias the UVC measured space temperature. RW x x 0

Keypad/display

Temperature Units
1. RW = read and write capable, RO = read only.
2. If a menu value is greater than 2-digits (higher than 99), then
3. Additional UVC field configuration is required if the dewpoint/humidity binary input is used. Consult the factory.
Adjust OA damper position above which the exhaust fan output will be
EOAD
energized. There is a fixed –5% differential associated with this set point.
OADE Adjust OA damper minimum position when exhaust interlock input is energized. RW x x 12%
Set OA damper lockout feature status: 0 = disable, 1 = enable. (This variable is factory set to 1 when the unit is ordered as a recirc unit with no OAD.) Adjust OA temperature below which the OA damper closes if the OA damper lockout is enabled. (This variable is factory set to –99°C when the unit is ordered as a recirc unit with no OAD.)
Adjust economizer OA temperature set point. DO NOT lower this set point
ETS
below CCLO or you risk creating a deadband where no cooling occurs.
ETD Adjust economizer IA/OA temperature differential. RW x x
EES Adjust economizer OA enthalpy set point. RW x x
EED Adjust economizer IA/OA enthalpy differential. RW x x
Set emergency heat operation during shutdown, 0 = no emergency heat during shutdown: 1 = allow emergency heat during shutdown.
AHSD Adjust auxiliary heat start differential. RW x
AHED Adjust auxiliary heat stop differential. RW x
Set the function of external binary input 1: 0 = unoccupied, 1 = dewpoint/ humidity switch Set the function external binary Input 3: 0 = ventilation lockout, 1 = exhaust interlock. Set the function of external binary output 3: 0 = exhaust fan on/off signal, 1 = auxiliary heat. Set space fan cycles (switches off) during occupied, bypass, and standby mode: 2 = continuous, 3 = cycling.
EWIT Display current water-in temperature. RO x x
Adjust the water-in and room temp differential, used to set the minimum
WITD
differential between water-in and room temperature before water will be used for heating or cooling.
FBDP Display F&BP damper position. RO x
VALP Display WH or CW/HW valve position. RO x
Set keypad/display temperature units in English or SI. This set point also effects which unit types displayed over Metasys N2 and BACnet MS/TP networks using the appropriate optional communications modules.
3
.
will be displayed on the keypad/display.
Getting Started
RO
11 12
1
RW
RW x x 99%
RW x x 0
RW x x
RW x x
RW x x 0
RW x 0
RW x x 0
RW x 0
RW x x 2
Default
35.6°F (2°C)
68°F
(20°C)
1.8°F (1°C)
25 Btu/lb
(58 kJ/kg)
1.3 Btu/lb (3 kJ/kg)
53.6°F (12°C)
1.8°F (1°C)
1.8°F (1°C)

RW x x
RW x x F
5°F
(3°C)
2
McQuay OM 755 11

Description of Operation

Description of Operation

State Programming

The MicroTech II UVC takes advantage of “state” machine programming to define and control unit ventilator operation. “State” defines specific states or modes of operation for each process within the unit ventilator (e.g., heating, cooling, etc.) and contain the specific logic for each state. This eliminates some of the most common problems associated with control sequences such as the possibility of simultaneous heating and cooling, rapid cycling, etc.
State machine programming, and the unique nature of state diagrams, can be easily used to describe operation. It can simplify sequence verification during unit commissioning, as well as simplify troubleshooting. With the unique combination of state machine programming and the keypad/display’s ability to allow a technician to easily determine the active UVC state, troubleshooting the UVC can be very simple.
The state diagrams presented in the following sections consist of several “elements” including super states, states, conditional jumps (also called transitions) and transition points. Super states are used as a means to group two or more related states into a single control function such as cooling, or heating, etc. States are where all the actual work takes place, within each state the UVC enables PI-loops and other logic sequences required to control unit ventilator operation within that particular state, while other functions and PI-loops not needed durin g that state may be disabled. Conditional jumps, or transitions, are the logic paths used by the UVC to determine which state should be made active, these are the “questions” the UVC continually considers. The transition point is simply a point through which a number of conditional jumps meet. Think of it as a point where a number of questions must be considered from which the UVC then determines which path is followed and which state is then made active.
The UVC states and super states are used to define the “normal” unit modes, such as Off, Night Purge, Fan Only, Emergency Heat, Auto, Cool, and Heat. The UVC also supports several “special purpose” unit modes such as Purge, Pressurize, De-pressurize, and Shutdown, which can be forced via a network connection and override typical UVC operation.
Note – Not all states or modes are available for all UV configurations, and some states (such as
Active Dehum) are optional.
– In the state descriptions below the terms, saturated high and saturated low, indicate that
the heating or cooling function being described has reached 100% or 0%, respectively.
12 McQuay OM 755
Figure 6: Complete UVC—state diagram
EmergencyHeat
ModeSuperState
FullHeat
CantHeat
Heat
LowLimit
7
D
5
E
FanOnly
A
NightPurge
8
Off
9
HeatMode
SuperState
AutoMode
Econ
EconMech
Mech
3
1
2
CantCool
C
DAHeat
LowLimit
4
F
CoolMode
SuperState
CantHeat
B
Description of Operation

UVC Unit Modes

The UVC provides several “normal” modes of unit operation. These include: Off, Night Purge, Fan Only, Cool, Emergency Heat, Auto, Heat, and Cool.
Normal UVC modes can contain a single state or several states depending upon the functionality required for each particular mode. Each UVC state is assigned a number, which can be very helpful when trying to understand which state is currently active within the UVC. To view the current UVC state number, use the keypad/display.
McQuay OM 755 13
Description of Operation
OFF
9
F
Table 8: UVC st a t e na mes and numbers
Normal UVC modes State names
OFF OFF 9 9 57
Night purge Night Purge 8 8 56
Fan only Fan Only 10 A 65
Emergency heat
Heat
Auto
Cool
Full Heat 7 7 55
Cant Heat 13 D 68
Heat 5 5 53 Cant Heat 11 B 66 Low Limit 14 E 69
EconMech 1 1 49
Mech 2 2 50
Econ 3 3 51
DA Heat 4 4 52 Cant Cool 12 C 67 Low Limit 15 F 70
Decimal ASCII Hex
State numbers
WARNING
Off mode is a “stop” state for the unit ventilator. It is not a “power off” state. Power may still be provided to the unit.

OFF Mode (State 9)

Off mode is provided so that the UVC can be forced into a powered OFF condition. OFF mode is a “stop” state for the unit ventilator; it is not a power off state. OFF mode consists of a single UVC state: OFF [9].
When OFF mode becomes active, the UVC stops all normal heating, cooling, and ventilatio n (OA damper is closed), and fan operation ends. The UVC continues to monitor space conditions, indicate faults, and provide network communications (if connected to a network) in the OFF mode while power is maintained to the unit.
While in OFF mode, the UVC does not maintain DA temperatures. If the space temperature drops below EHS while in the OFF mode, the UVC is forced into the Emergency Heat mode (see “Emergency Heat Mode (Super State)” on page 16).
Note – Special purpose unit modes such as Purge, Pressurize, and De-pressurize can force the
UVC to perform “special” functions during which the display appears to be in the OFF mode.
Figure 7: Off state diagram
UVC Mode
UVC Mode  OFF
OF
Transition
point
14 McQuay OM 755
Description of Operation
Night Purge
8
UVC Mode 
Night purge
UVC Mode
Night purge
Transition
point
Fan Only
A
UVC Mode 
Fan Only
UVC Mode
Fan Only
Transition
point

Night Purge Mode (State 8)

Night Purge mode is provided as a means to more easily and quickly ventilate a space. Night purge can be useful in helping to remove odor build up at the end of each day, or after cleaning, painting, or other odor generating operations occur within the space. Night Purge mode consists of a single UVC state: Night Purge [8].
Night Purge is a full ventilation with exhaust mode, during which room comfort is likely to be compromised. Therefore, McQuay strongly recommends using Night Purge only when the space is unoccupied.
When Night Purge mode becomes active, the UVC stops all normal heating and cooling. Since any new energy used to treat the incoming air would be wasted in the purge process. In the Night Purge mode, the space fan is set to high speed, the OA damper is set to 100% open, and the Exhaust Fan binary output (see “External Binary Outputs” on page 39) is set to ON. If the UVC is not set to another mode within 1 hour (fixed), the UVC automatically switches to the Fan Only mode (see “Fan Only Mode (State A)” on page 15).
While in Purge mode, the UVC does not maintain DA temperatures. If the space temperature drops below the EHS, the UVC is forced into the Emergency Heat mode (see “Emergency Heat Mode (Super State)” on page 16).
Figure 8: Night purge state diagram

Fan Only Mode (State A)

The Fan Only mode is provided so that the UVC can be forced into a Fan Only operation via a keypad/display or a network connection. Fan Only mode consists of a single UVC state: Fan Only [A].
When Fan Only mode becomes active, the UVC stops all normal heating and cooling. While in Fan Only mode, the UVC does not maintain DA temperatures. If the space
temperature drops below the EHS, the UVC is forced into the Emergency Heat mode (see “Emergency Heat Mode (Super State)”).
Figure 9: Fan only state diagram
McQuay OM 755 15
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