VAV说明书

INSTALLATION AND OPERATION MANUAL ELECTRIC HEATERS FOR VAV TERMINAL UNITSPage 1 of 46/20 IOM-EHVAV (Supercedes 4/02)GENERAL INFORMATION•Nailor electric heaters require little or no maintenance.Be sure the heater elements are free of foreign matter,and then check that the connections are tight and proper control interlocks have been made before turning the heater on.•Heaters are open wire type and, except on very small heaters with element wires less than 1 kW, use special ‘arrowhead’ insulators that expose the entire surface area of the element wires to the air stream. This eliminates the possibility of hot spots on the larger wires that can burn the elements in half or cause spalding that enhances hot spots.•All electric heaters ordered from Nailor are manufactured in-house.•All Nailor electric coils are ETL listed for safety under UL 1995 as part of the VAV unit.•All electric heating units have built-in controls for all options required by the engineer.•Single point power connection.INSTALLATION•All single duct terminal units with electric coils are designed to be mounted in a horizontal plane with respect to the "UP" arrow marked on the product label. Fan powered units can be flipped over in the field and will not have "UP" arrow.•Before applying power, make sure electric coils are not damaged.•All field wiring must comply with NEC and local building codes.•Use copper conductors only.•Phase rotation of the incoming power is recommended when connecting three-phase electric coils.•Allow a minimum clearance as specified by NEC in front of all electric coil enclosures.•Always check product label to determine proper wire size and current protection.•These recommendations do not preclude NEC or local building codes that may be in effect.OPERATION•To avoid possible nuisance tripping of the thermal cutouts due to insufficient airflow, a minimum airflow of 70 cfm (33L/s) per kilowatt must be maintained.•For Single Duct Terminal Units, A minimum of .1” w.g. (25Pa) of downstream static pressure is required to ensure proper operation of the heater.Figure 1. Fan Powered Terminal Unit with Electric HeaterFigure 2. Single Duct Terminal Unit with Electric HeaterCAUTION: ELECTRIC SHOCK HAZARD 1. Turn off power before servicing unit.2.Do not operate unit without control cover .NAMEPLATE LABELElectric coil data are incorporated in the nameplate label, which is affixed to the control enclosure cover. The label shows all necessary information required by UL with respect to electrical power and circuit protection requirements.HEATER CONTROL ENCLOSUREFigure 4 shows the interior of a typical heater control enclosure. All components within this space work together to provide safe operation of the heater. Although it is not required to meet NEC requirements, Nailor recommends a door interlocking disconnect switch. This safety switch must be disconnected before the enclosure can be opened. In the absence of a disconnect switch, a terminal block is provided for single point power connection. A ground lug ensures the proper grounding of the unit housing and enclosure. Line fuses and fan motor fuses provide overcurrent protection, and come as an option. An airflow switch de-energizes the heater when it detects no airflow across the elements.In fan powered VAV terminal units, auto-reset limit switches in line with each element provide high temperature protection. A single auto-reset limit switch provides protection for single duct terminal unit heaters. These switches automatically cut the heater off when overheating occurs, and turn the heater back on when the elements have cooled down. Manual-reset limit switches in line with each element provide secondary over temperature protection in single duct terminal units.A control transformer is provided whenever a 24V circuit is required. PE switches (when pneumatic controls are used), like magnetic contactors, are used to energize stages of electric heat. Small heaters may often use a load carrying PE switch as the only control component. When control systems require frequent cycling or silent operation, mercury contactors are available as an option. An SCR control will provide fine space temperature control and highest reliability. For fan-powered terminal units, a fan relay is provided when required or requested.Figure 3. Sample Nameplate Label. Fan Powered Terminal Unit6/20 IOM-EHVAV (Supercedes 4/02) Page 2 of 4Page 3 of 46/20 IOM-EHVAV (Supercedes 4/02)Wiring DiagramsA specific wiring diagram for each heater including all controls is glued to the inside of the control panel door. Another wiring diagram is provided loose in the control box.Heater Element Rack Replacement For Series Fan Powered Terminal UnitsOn series fan Powered Terminal Units, the element rack is removable for replacement. The header plate is located behind a hinged door enclosure on the side of the terminal electric heater section.1. Turn off power supply before servicing.2. Locate the element rack header plate.3. Before removing wires from the element rack header plate, mark where the wires are connected so they can bereconnected correctly on the new element rack.4. Remove the wires and screws holding the heater plate in the coil housing.5. Insert the new element rack into coil housing and replace the screws to secure the element rack.6. Replace the wires.7.Replace the enclosure cover before turning on the power.Figure 4: Typical Line Voltage Control Enclosure BoxHeater Rack Header PlateHeating ElementsElementTerminationsArrowhead InsulatorsFigure 5. Typical element rack for a series Fan Powered Terminal UnitCalgary, Canada Tel: 403-279-8619Fax: 403-279-5035Houston, Texas Tel: 281-590-1172Fax: 281-590-3086Las Vegas, Nevada Tel: 702-648-5400Fax: 702-638-0400Toronto, Canada Tel: 416-744-3300Fax: 416-744-3360"C o m p l e t e A i r C o n t r o l a n d D i s t r i b u t i o n S o l u t i o n s."w w w.n a i l o r.c o m6/20 IOM-EHVAV (Supercedes 4/02)Page 4 of 4Electric Heater Replacement PartsDescriptionRAPP Code Disconnect SwitchesToggle Disconnect Switch 1P , 600V, 25A EC-DISTG251P Toggle Disconnect Switch 3P , 600V, 40A EC-DISTG403P Toggle Disconnect Switch 3P , 600V, 60AEC-DISTG603P Interlocking Disconnect Switch 3P , 600V, 25A EC-DISINT25A Interlocking Disconnect Switch 3P , 600V, 40A EC-DISINT40A Interlocking Disconnect Switch 3P , 600V, 60A EC-DISINT60A Interlocking Disconnect Handle EC-DISINTHDL Interlocking Disconnect ShaftEC-DISINTSFTContactorsContactor MAG 1P , 600V, 50Amp EC-CONM50A1P Contactor MAG 1P , 600V, 40Amp EC-CONM40A1P Contactor MAG 1P , 600V, 30Amp EC-CONM30A1P Contactor MAG 2P , 600V, 50Amp EC-CONM50A2P Contactor MAG 2P , 600V, 40Amp EC-CONM40A2P Contactor MAG 2P , 600V, 30Amp EC-CONM30A2P Contactor MAG 3P , 600V, 50Amp EC-CONM50A3P Contactor MAG 3P , 600V, 40Amp EC-CONM40A3P Contactor MAG 3P , 600V, 30AmpEC-CONM30A3PSCR/SSRSCR Elect. Heat controller, 600V, 1ph, 45A EC-SCR SSR Elect. Heat controller, 600V, 1ph, 45AEC-SSRTransformersTransformer 120V, 24V, 50VAEC-TRANS120A Transformer 208-240V, 24V, 50VA EC-TRANS208A Transformer 277V, 24V, 50VA EC-TRANS277A Transformer 480V, 24V, 50VAEC-TRANS480A Isolation Transformer 24V, 24V, 40VAEC-TRANS2424Transformer 120V/208/240/480 to 24V, 75VA EC-TRANSB Transformer 277V, 24V, 75VAEC-TRANS277BMISCAirflow SwitchEC-AFSW Airflow Switch Probe 4"EC-AFSWPB Airflow Switch Probe 6"EC-AFSWPBL Auto Temp. LMT Swtch EC-AUTOLMTSW Manual Temp. LMT Swtch EC-MANLMTSW Fan Relay 24VEC-FANRELAYDescriptionRAPP CodePower Distribution Blocks2 pole, 175A, 600V, 1 in / 4 out H1-0271A 2 pole, 300V, 1 in / 4 out (quick connect)H1-02933 pole, 600V, 1 in /4 out H1-0270Power Terminal Blocks 1 pole, 600V H1-00442 pole, 600V H1-00763 pole, 600VH1-0004FuseFuse, 250V, 15A EC-FUS250V15Fuse, 250V, 20A EC-FUS250V20Fuse, 250V, 25A EC-FUS250V25Fuse, 250V, 30A EC-FUS250V30Fuse, 250V, 35A EC-FUS250V35Fuse, 250V, 40A EC-FUS250V40Fuse, 250V, 45A EC-FUS250V45Fuse, 250V, 50A EC-FUS250V50Fuse, 250V, 60A EC-FUS250V60Fuse, 600V, 15A EC-FUS600V15Fuse, 600V, 20A EC-FUS600V20Fuse, 600V, 25A EC-FUS600V25Fuse, 600V, 30A EC-FUS600V30Fuse, 600V, 35A EC-FUS600V35Fuse, 600V, 40A EC-FUS600V40Fuse, 600V, 45A EC-FUS600V45Fuse, 600V, 50A EC-FUS600V50Fuse, 600V, 60AEC-FUS600V60。

Features and BenefitsOrder NumberDescription BMUC210AAA0T00011UC210 Programmable VAV Controller with Trane actuator BMUC210AAA0B00011UC210 Programmable VAV Controller with Belimo actuator BMUC210AAA0100011UC210 Programmable VAV Controller with no actuatorFeaturesBenefits BACnet MS/TPAn open standard building automation communications protocol, which enables connections to other BAS systems and controllers Configurable and fully programmable•VAV programs available through quick configuration for lowest setup time •Programmable for flexibility to meet unique sequence or hardware needs Total of 14 built-in I/O pointsMeets the needs of most VAV applications with extra built-in I/Os available to network, or additional programming on controller Expandable to 22 points Flexibility to meet additional equipment needsracer™ UC210 ProgrammableController Specifications and Enclosure LocationDimensions (Without Actuator)StorageTemperature:-40°F to 185°F (-40°C to 85°C)Humidity: 5% to 95% (non-condensing)OperatingTemperature:-40°F to 158°F (-40°C to 70°C)Humidity: 5% to 95% (non-condensing)Power:20-4–27.6 Vac, (24 Vac ±15% nominal, 50–60 Hz, 10.5 VA plus 1 VA per 20mA of 24 VDC load plus12 VA maximum per binary loadEnvironmental Rating (Enclosure):NEMA 1Installation:U.L. 840: Category 3Pollution:U.L. 840: Degree 2Agency Compliance•UL916 PAZX- Open Energy Management Equipment •UL94-5V Flammability •CE Marked •FCC Part 15, Subpart B, Class B Limit •AS/NZS CISPR 22:2006•VCCI V-3/2008.04•ICES-003, Issue 4:2004•Communications BACnet MS/TP , supports BACnet protocol ASHRAE 135-2004 and meets BACnet Testing Laboratory (BTL) as an Application Specific Controller (ASC) profile device •Suitable for Plenum mountingDimensions (with Actuator)Dimensions (Trane VAV Factory Version)Trane optimizes the performance of homes and b uildings around the world. A b usiness of Ingersoll Rand, the leader in creating and sustaining safe, comfortab le and energy efficient environments, Trane offers a b road portfolio of advanced controls and HVAC systems, comprehensive b uilding services, and parts. For more information, visit .Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice.We are committed to using environmentally © 2013 Trane All rights reservedBAS-PRC076B-EN 19 Nov 2013Inputs and Outputs Analog Inputs 1 through 3Note:Configuration options when used as spare; 10k Ω thermistor , 0 to 1k Ω linear setpoint, 200Ω to 20k Ω linear . Universal Inputs UI1 and UI2Note:Configuration options when used as spare; 4–20mA, 0-10V , resistive (see AI specifications), binary (solid state open collector).•AI1: Space temperature; thermistor: 10k Ω @77°F (25°C) range:32°F to 122°F (0°C to 50°C)•AI2: Space setpoint; potentiometer: 1k Ω from 50 to 90°F (10 to32.2°C), */** (thumbwheel) functionality supported•AI3: Discharge air temperature: 10k Ω @77°F (25°C) from -40°F to212°F (-40 to 100°C)•UI1: Relative Humidity •UI2: CO 2Pressure Input P1Binary Input BI1, Dry Contact •P1: Supply air flow; pressure transducer: From 0 to 5 in. watercolumn (0 to 1240 Pa)•BI1: OccupancyAnalog Outputs AO1 and AO2Note:Configuration options when used a spare; Voltage output is 0 to 10 VDC, 500 ohm min. impedance. Current output is 4 - 20 mA, 500Ω max. impedance.Binary Outputs 1 through 5Note:0.5A Resistive Maximum Rating•AO1: ECM•AO2: SCR Heat •BO1: Heat stage 3 TRIAC •BO2: Heat stage 2/Water Valve Close TRIAC •BO3: Heat stage 1/Water Valve Open TRIAC •BO4: Air Damper Close TRIAC •BO5: Damper Open TRIAC。

VAV-CompactVAV-CompactContentsModbus General Notes 2 Modbus Register Overview 3 Modbus Register Description 4Volumetric flow compact control deviceModbus General NotesGeneral information Date25.03.2019Product Name VAV-CompactActuator type..MV-D3-MOD, LHV24A-D3-MODProtocol Modbus RTU over RS-485Modbus RTU Transmission formats1-8-N-2, 1-8-N-1, 1-8-E-1, 1-8-O-1 (Default: 1-8-N-2)Baud rates9‘600, 19‘200, 38‘400, 76‘800, 115’200 Bd(Default: 38‘400 Bd)Address 1...247 (Default: 1)Number of nodes Max. 32 (without repeater)Terminating resistor120 �Parameterisation Tool ZTH EUQuick adressing Actuators support quick addressing via the …Address“ and …Adaption“ buttons.For detailed, information please see product datasheet (chapter Service).Register implementation All data is arranged in a table and addressed by 1..n (Register No.) or 0..n-1 (Address). No distinctionis made between data types (Discrete Inputs, Coils, Input Registers and Holding Registers). As aconsequence, all data can be accessed with the two commands for Holding Register. The commandsfor Discrete Inputs and Input Registers can be used as an alternative.Commands Standard commands:Read Holding Registers [3]Write Single Register [6]Optional commands:Read Discrete Inputs [2]Read Input Registers [4]Write Multiple Registers [16]Command …Read Discrete Inputs“The command reads one or more bits and can alternatively be used for Register No. 105(Malfunction and Service information).Example The start address to be used is 1664 → 104 (Register Address) * 16 (Bit) = 1664 Interpret values in the registers All values in the register are unsigned integer datatypes.Example Read (Function 03, 1 Register) Value Register No. 12 = 0001‘1010‘1100‘10002 = 6‘85610Actual Value = Value * Scaling factor * Unit = 6‘856 * 0.01 * m3/h = 68.56 m3/h 32-Bit values in two registers Values that exceed 65,535 are stored in two consecutive Registers and have to be interpreted as…little endian“ / LSW (Least Significant Word) firstExample Register No. 10 (AbsFlow LowWord) = 14,55110 = 0011‘1000‘1101‘01112Register No. 11 (AbsFlow HighWord) = 1910 = 0000‘0000‘0001‘00112AbsFlow HighWord AbsFlow LowWord1914,5510000‘0000‘0001‘001120011‘1000‘1101‘01112AbsFlow = 0000‘0000‘0001‘0011‘0011‘1000‘1101‘01112 = 1,259,73510 = 1259.735 l/hMath formula:AbsFlow = ( AbsFlow HighWord * 65,536 ) + AbsFlow LowWordAbsFlow = ( 19 * 65,536 ) + 14,551 = 1,259,735 = 1259.735 l/hDeactivated registers If a register is not supported by a device or by a device setting it is indicatedwith 65‘535 (1111‘1111‘1111‘11112).!All writeable registers on registers >100 are persistent and are not supposed to be written on aregular base.Operation No.Address Register Access 10Setpoint [%]R / W21Override control R / W32Command R / W43Actuator type R54Relative position [%]R65Absolute position [°] [mm]R76Relative volumetric flow [%]R87Absolute volumetric flow [m3/h]R98Sensor value 1 [mV] [–]R109––1110Absolute volumetric flow in unit selected LowWordR1211HighWord1312Setpoint analog [%]RService No.Address Register Access 10099Bus termination R101100Series number 1st partR 102101Series number 2nd part103102Series number 4th part104103Firmware version R105104Malfunction and service information R106105Min [%]R / W107106Max [%]R / W108107Sensor type 1R / W109108Bus fail position R / W110109Communication Watchdog R / W111110Nominal volumetric flow [m3/h]R112111––113112Nominal volumetric flow in unit selected LowWordR114113HighWord115114––116115––117116Control Mode R / W 118117Unit Selection Flow R / W 119118Setpoint source R / WNo.Address DescriptionComment RangeEnumerationUnit Scaling Access10SetpointSetpoint for actuator between Min (Register No. 106) and Max (No. 107)0…10‘000Default: 0%0.01R / W21Override ControlOverride setpoint with defined values 0: None1: Open2: Close3: Min4: Mid5: MaxDefault: None(0)––R / W32CommandInitiation of actuator functions for service and testAfter command is sent, register returns to None(0)With Reset(4) all Malfunction and Service Information (Register No. 105)Information can be reset.0: None1: Adaption2: Test3: Sync4: ResetDefault: None(0)––R / W43Actuator Type0: Actuator not connected1: Air / Water2:VAV / EPIV3: Fire4: Energy Valve5: 6way EPIV––R 54Relative Position0...10‘000%0.01R65Absolute PositionThe unit depends on the device:[°] for actuators with rotary movement[mm] for actuators with linear movement 0...max angle / stroke°mm11R76Relative volumetric flowRelative volumetric flow of Vnom0...10‘000%0.01R87Absolut volumetric flow0...Vnom m3/hPa1R98Sensor 1 ValueCurrent value of sensor 1, depending on the setting of the Sensor 1 Type(Register No. 108)[mV] if Sensor 1 Type (Register No. 108) is Active(1)[0 / 1] if Sensor 1 Type (Register No. 108) is Switch(4)0...65‘535mV0 / 11R109–––––1110Absolute volumetric flowAbsolute flow in unit selected (Register No. 118) LowWordLower 16 bit of 32 bit value–UnitSel0.001R1211Absolute volumetric flowAbsolute flow in unit selected (Register No. 118) HighWordUpper 16 bit of 32 bit value1312Setpoint AnalogShows the setoint in % if actuator is control by analog signal0...10‘000%0.01RNo.Address DescriptionComment RangeEnumerationUnit Scaling Access10099Bus TerminationIndicates if bus termination (120 Ω) is enabledBus termination can be set with the configuration tools 0: inactive1: activeDefault: inactive(0)––R / W101100Series Number 1st partEach device has an unambiguous series number, which is either impressedon or glued to the housingThe series number consists of 4 segments, although only parts 1, 2 and 4are displayed on ModusExample: 00839-31324-064-0081st part: 008392nd part: 313244th part: 008–––R102101Series Number 2nd part–––R 103102Series Number 4th part–––R 104103Firmware VersionFirmware version of communication moduleExample: 302, Version 3.02–––R105104Malfunction and Service InformationValue is bit-coded. More than one bit can be set to 1All bits not montioned in the enumeration are not used for this actuator rangeMechanical travel increased: The actuator has been moved outside theadapted working rangeActuator cannot move: Mechanical overload e.g. blocked actuator, etc.Internal activity: Actuator performs a test run, adaption, etc.Gear disengaged: The gear disengaged button is pressedBus Watchdog triggered: Timeout for the Bus Watchdog expired Bit1: Mech travel increasedBit2: Actuator cannot moveBit8: Internal activityBit9: Gear disengagedBit10: Bus Watchdog triggered––R106105VminMin has to be ≤ Max 0...VmaxDefault: 0%0.01R / W107106VmaxMax has to be ≥ Min and > 20%Vmin...10‘000Default: 10‘000%0.01R / W108107Sensor 1 TypeIf Setpoint Source (Register 119) is analog (Hybrid mode) the sensor type 1can be set to Active(1) in order to see the Setpoint Analog in mV 0: None1: Active / Hybrid2: –3: –4: SwitchDefault: None(0)––R / W109108Bus Fail PositionModbus communication is not monitored as standard. In the event of abreakdown in communication, the actuator retains the current setpointThe bus implementation tracks the Modbus communication. If neitherthe Setpoint (Register No. 1) nor the Override Control (Register No. 2) isrenewed before the Timeout for Bus Watchdog (Register No. 110) expires,the actuator controls to the Bus Fail PositionTriggered bus watchdog is indicated in the Malfunction and ServiceInformation (Register No. 105)0: None / Last setpoint1: Fast close2: Fast open3: Mid position(parameterized)Default: None(0)––R / W110109Timeout for Bus Watchdog in sTime until Bus Fail will be detected. If Bus Watchdog = 0 then deactivatedIf Bus Fail Position (Register No. 110) different from 0, the Bus Fail Positionbecomes active after the Timeout for Bus Watchdog is expired 0...3‘600Default: 0If Bus Fail Position (RegisterNo. 110) not None(0), thenDefault: 120s1R / WNo.Address DescriptionComment RangeEnumerationUnit Scaling Access111110Nominal volumetric flow–m3/h1R 112111–––––113112Nominal volumetric flowVnom in unit selected (Register 118) LowWordLower 16 bit of 32 bit value–UnitSel0.001R114113Nominal volumetric flowVnom in unit selected (Register 118) HighWordUpper 16 bit of 32 bit value115114–––––116115–––––117116Control Mode0: Position control1: Flow control––R / W118117Unit Selection Flow0: m3/s1: m3/h2: l/s3: l/min4: l/h5: gpm6: cfmDefault: m3/h(1)––R / W119118Setpoint SourceAnalog: Setpoint from analog signal 0 ... 10 V on wire 3Bus: Setpoint from Modbus (Register 1)0: Analog1: BusDefault: Bus(1)––R / W。

通风柜VAV控制系统说明通风柜面风速V A V控制说明采用目前国内外风量测量中运用最广泛的流量装置——机翼测风装置。

机翼测风装置适用于空气流量大、风道截面积大、流速较低、直管段长度短的情况，是一种最为可靠的传统风量检测装置。

我公司采用机翼测风装置原理（伯努力方程基本原理），同时根据实验室通风的特殊要求设计开发，制作出适合各种实验室通风检测装置。

以2006年自主开发，为实验室公司配套工程项目使用近10000套，以其实用性、稳定性深受用户好评。

配套工程项目：江西赛维LDK太阳能高科技有限公司，广州龙沙制药（瑞士）研究开发中心，大亚湾技创新产业园精细化工实验室研发楼，广西医科大临床教学中心综合楼，广东省兽药与饲料监察总所等400多个项目。

1、设备配置：系统配置包括1）、通风柜控制器2）、变风量风阀3)、通风柜调节门高传感器4）、机翼测风装置。

2、控制方案：采用管道风量监测及门高监测，实时计算面风速，以通风柜面风速为常量,控制阀门的开度，使其恒定在安全气流值范围内。

3、控制功能：◆可靠的管道风量及门高监测，即时面风速控制，不管通风设备视窗高度变化或遇到外部气流干扰，系统均能自动监测并适时调整，始终保证面风速恒定0.5m/s（±20%）。

◆全方位数字显示功能：系统具有风速显示功能,它能将最安全的控制结果显示给使用者；◆不安全情况下报警功能，当门高或风速过高或过低时，系统能发出声光报警信号。

◆强排风功能，紧急情况下按下系统强排风键能实现强排风，不受控制系统控制。

◆节能工作功能，按下系统节能键（或若排风键）系统将以较小的风速排风。

◆压力无关功能，通过风速传感器实测风速值当依据进行控制，与门高变化，外部气流干扰都没关系，所以它能做到绝对压力无关，即不管风柜在管网的首端还是末端，也不管是1.8米风柜还是1.2米风柜，其面风速都恒定在0.5m/s。

4、系统工作原理利用机翼测风装置及门高传感器实时测量，换成电压信号传递给控制面板，实时计算面风速，指示当前风速值，控制面板根据面风速实际测量值与设定值进行比较，如果风速值偏离设定值，则改变给执行器的输入信号，执行器调整风阀开度，从而调整风量，使面风速值回归设定值。

Honeywell’s Spyder™ Model 7 VAV controller is a programmable room controller with integrated actuator and air flow sensor.As a freely programmable VAV controller with universal inputs and outputs, Spyd er™ Mod el 7 has configuration flexibility to achieve a variety of specific applications. Smart engineering and commissioning tools with Niagara WEBs-N4 workbench and a mobile application for test and balance make installation cost-effective.Spyder™ Model 7 offers BACnet IP or BACnet MSTP, Sylk™ bus technology, Modbus RTU RS-485, flexible universal input / output (UIO) points and solid-state relays.COMMUNICATION• Supports BACnet IP or BACnet MSTP bus for communication.• BTL-listed, IP VAV: B-BC profile and MSTP VAV: B-AAC profile (BTL certification in process).• BACnet IP enables faster download, thereby reducing commissioning time, and increased databandwidth for increased data sharing compared to traditional BACnet MSTP communication.• BACnet IP variants supports:• IPv4 addressing • DHCP and Link Local addressing modes• Connection speed: 10/100 Mbps • Modbus client for integration purposes.• Automatic addressing functionality.• Sylk™ bus two-wire polarity-insensitive interface connects to Honeywell Sylk™ wall modules without using physical I/O points.• Integrated BLE (Bluetooth)ALL-IN-ONE• Freely programmable in WEBs-N4.• Compact design for small enclosures and easy to install on round ducts.• Color-coded, removable terminal blocks to simplify wiring and replacement.• Real-time clock, a supercapacitor for 24-hour data retention.• 24 VAC power supply.• 20 VDC at 75 mA auxiliary supply for field devices.• Seven universal inputs/outputs usable as analog voltage/current output or as a universal/binary input.• All UI can be used for pulse input. Maximum frequency 100 Hz, Minimum duty cycle (50 % / 50 %) 5 ms ON / 5 ms OFF.• Five 24 VAC solid state relay outputs with 1.5 A continuous and 3.5 A in-rush for 100 ms per SSR output.• Features a non-isolated RS-485interface for Modbus communication.ACTUATOR• Integrated 44 in-lbs (5 Nm) actuator with 90 sec runtime at 60 Hz (108 sec at 50 Hz) with position feedback.PRESSURE SENSOR• Field replaceable differential pressure sensor (± 500 Pa; accuracy +/- 3 % of full range).MOBILE APPLICATIONMobile app for VAV balancing with easy access to the controller viaBluetooth integrated in the controller.• Easy pairing without the need to open the ceiling.• Supports Android and iOS.• Language support: English,French, Spanish, German, Italian.• Wireless signal strength indication.• Password protection• Supports different types of balancing (min/max, set-point).• Command individual / group of VAV, e.g. open a group of VAV dampers.• Provides a report on balancing activities.FEATURES AND HIGHLIGHTSSpyder™ Model 7VAV CONTROLLERWEB- V MODBUSVAVINTEGRATED ACTUATORBRAND IDENTIFIERA 75 IB 24 NMUNIVERSAL INPUTS DIGITAL OUTPUTS(SSR)NOT USEDPOWER SUPPLY BLE (Bluetooth) IP/MSTPCONTROLLER PART NUMBERS DESCRIPTIONSDPPF500PA Air flow sensor replacementANT-REMUse the remote antenna if the antenna mounted on the controller does not provide reliable communication due to environmental conditions. The packet contains four antennas.PART NUMBER WEB-VA75IB24NM PART NUMBERSMOBILE APPFIELD-REPLACEABLE IP MODEL MS/TP MODELTOP VIEWSIDE VIEWBOTTOM VIEWFIELD-REPLACEABLE AIRFLOW SENSORRS-485 MODBUSRTU 7 UNIVERSAL INPUTS / OUTPUTS((HARDWARE OVERVIEWDIMENSIONSAll dimensions shown are in ”(mm).SYSTEM OVERVIEW - MSTPSYSTEM OVERVIEW - IPPRODUCT SPECIFICATIONBy using this Honeywell literature, you agree that Honeywell will have no liability for any damages arising out of your use or modification to, the literature. You will defend and indemnify Honeywell, its affiliates and subsidiaries, from and against any liability, cost, or damages, including attorneys’ fees, arising out of, or resulting from, any modification to the literature by you.@U.S. Registered Trademark© 2022 Honeywell International Inc.Honeywell Building Technologies715 Peachtree St NE Atlanta, Georgia STANDARDS AND APPROVALS• CE• BACnet BTL ®-Listed; IP VAV model as BACnet Building Controller (B-BC) and MSTP VAV model as BACnet Advanced Application Controller (B-AAC); (BTL certification in process)• UL916, Energy Management Equipment • FCC Part 15, Class A • EN 55022. Class A • EN 61000-3-2, 61000•UL2043Spyder Model 7 VAV Installation Instructions31-00475Spyder Model 7 VAV Mounting Instructions 31-00473Spyder Model 5 and Spyder Model 7 System Engineering Guide31-00282Spyder Model 5 and Spyder Model 7 Function Blocks User Guide31-00364Honeywell VAV Balancing Tools User Guide 31-00472CONFORMANCE STATEMENTFCC NOTICEThis device complies with part 15 of the FCC rules. Operation is subject to the following two conditions:• This device may not cause harmful interference.• This device must accept any interference received, including interference that may cause undesired operation.APPLICABLE TECHNICAL。

SQUARE/RECTANGULAR VAV TERMINALS INSTALLATION, OPERATION &MAINTENANCE (IOM) MANUALReceiving Inspection Prior to removing the shipping materials, visually inspect the packing materials. There should be a black plastic strip wrapped in the clear plastic stretch wrap. If this black plastic strip is missing, the shipment may have been repacked by the shipper and you should make a note of this on the shipping documents and inform the delivering carrier .After unpacking the terminals, check for shipping damage. If any shipping damage is found, report it immediately to the delivering carrier .Always store the product in a clean dry location prior to installation.Units with controls are not recommended for use in ambient temperatures greater than 95º F . For protection of controls, do not store in temperatures above 135ºF .Caution: Do not use the flow sensor , connecting tubing or damper shaft as a lift point. Damage to the components may result.Hanging/Installation Requirements5Unless local building codes require hangers, the basic Square/Rectangular Air Terminals may be light enough to be supported by the ductwork itself. 5Straps or the method prescribed for round duct on the job specification may be used. (See figure 1) 5Trapeze hangers or the method prescribed for round duct on the job specification may be used. (See figure 2)Figure 1 Hanging StrapsMinimum Clearance for AccessSquare/Rectangular Air Terminals require sufficient space to allow servicing of the controls and electric power hook up. Horizontal clearance requirements are dependent upon access panel dimensions which are indicated on the appropriate submittal. For control panel access, a minimum of 18” is recommended. See the appropriate submittal for control panel location.Connecting Duct Work 1. Slip each inlet duct over the inlet collar of the Square/Rectangular Retrofit Air Terminal. 2. Fasten and seal the connection by method prescribed by job specification.3. The dimension of the inlet duct in inches, must be equal to the listed size of the Square/Rectangular Retrofit Air Terminal. The inlet connection of the Square/Rectangular Retrofit Air Terminal is manufactured 1/8” smaller than the listed size in order to fit inside the duct.4. If an inlet air flow sensor is installed, it is recommended the installer provide a minimum of 3 duct diameters of straight duct at the Square/Rectangular Retrofit Air Terminal inlet.5. The outlet end of the Square/Rectangular Retrofit Air Terminal is designed for use with the same duct connections as the inlet.Figure 2 TrapezeField Electrical Wiring 5All field wiring must comply with local building codes and NEC. (ANSI/NFPA 70-2002) 5When Applicable, electrical control and piping diagrams are attached to exterior of Square/Rectangular Retrofit Air Terminal. 5Use copper only conductors. 5Square/Rectangular Retrofit Air Terminal must be properly grounded per NEC 424-14 and 250. 5Always check product label for voltage and current data to determine the proper wire size and over current protection. 5The control cabinet contains live electrical parts. 5Contacting these parts with power applied may cause serious injury or even death. 5The control panel cover must be closed or in place before applying electric power to the Square/Rectangular Retrofit Air Terminal. 5These recommendations are not meant to precluded NEC requirements or applicable local building codes and are the sole responsibility of the installing contractor .ImportantIf equipped with pneumatic controls, the orientation of the Square/Rectangular Retrofit Air Terminal unit is critical. The pneumatic controls must be mounted right side up. The Square/Rectangular Retrofit Air Terminal must be level within + or – 10 degrees of horizontal, both parallel to the air flow and at right angle of air flow. The control side of the Square/Rectangular Retrofit Air Terminal is labeled with an arrow indicating up. Unless otherwise noted, most electric, analog electronic and digital are not position sensitive and may be installed in any orientation. Controls For information on controls provided by other manufactures and installed on the Square/Rectangular Retrofit Air Terminals, contact the local branch or dealer . Installing the Air Terminal in a different location than noted on the Square/Rectangular Retrofit Air Terminal label and building plans, may result in excessive start up labor and is the sole responsibility of the contractor .ImportantSquare/Rectangular retrofit Air Terminals with digital controls, if factory programmed, incorporate specific communication addresses.Inlet Flow Sensor Square/Rectangular Retrofit Air Terminals are shipped with factory installed (where applicable) pressure differential inlet flow sensors in the primary inlet. See figure 3 for calibration curve and K belingSquare/Rectangular Retrofit Air Terminals are shipped from the factory with multiple information labels.Control Sequence Label: Affixed to the exterior of the Square/Rectangular Retrofit Air Terminal casing. Displays piping/wiring diagram, control sequence number and any optional components.Terminal I.D. Label: Affixed to the exterior of Square/Rectangular Retrofit Air Terminal. Shows tagging, representative name, sales order number , applicable certifications, model number, Made in USA, any applicable electrical data and UL compliance markings.AHRI Certification Label: Identifies applicable industry test standard and certifies Air Terminal is in compliance.Orientation Label: Identifies the proper air flow direction and top of Square/Rectangular Retrofit Air Terminal.TroubleshootingInvestigating Noise Complaints 5Noise from a Square/Rectangular Retrofit Air T erminal can be due to a variety of conditions and can be difficult to eliminate. 5The first step is to isolate the type, source and direction.5Generally noise heard at the air outlet is considered a discharge type. 5Noise heard through the ceiling is considered radiated noise. 5For detailed information concerning noise transmission in buildings, refer to AHRI Standard 885-2008, “Procedure for estimating occupied space sound levels in the application of Air Terminals and air outlets”.Discharge Noise 5This is usually caused by high static or little to no internal duct lining downstream of the Square/Rectangular Retrofit Air Terminal. 5It can sometimes be caused by air outlet itself. 5Air outlet generated sounds can be reduced by reducing flow or increasing an outlet size. 5Reducing static pressure, flow or adding additional downstream attenuation materials will reduce discharge sounds from the Air Terminal.Radiated Noise 5Radiated noise is most commonly associated with Fan Powered Terminals.Figure 3。

Trane Family of Terminal ProductsIt’s time to take another look at the terminal. As your partner, Trane® understands it takes more than a concept to design an effective HVAC system. Between cost and code compliance—not to mention comfort, acoustics and efficiency—the complicated priorities can be challenging to satisfy.The Trane family of terminal products has been redesigned from the inside out, with innovative high-efficiency upgrades guaranteed to fulfill virtually any building’s requirements without compromising your needs. Now, these terminal units come standard with an exclusive Trane electronically commutated motor (ECM)—an industry first. Integrated with the industry’s first factory programmed variable speed controller, the single-zone variable air volume (VAV) solution improves efficiency by up to 66 percent compared to other motor options.Single-source solutionFrom chillers to compressors, the complete line of variable speed Trane HVAC solutions are designed to work together to deliver exceptional performance and value. These high-efficiency systems with flexible configurations can be the perfect fit for your building.Fan CoilA Trane® UniTrane® fan coil is anin-room unit composed of a fanand chilled or hot water coils.Trane also offers vertical unitsspecifically intended for high-rise applications. Fan coil units areideal for hotels, condominiums, dormitories and apartments. Trane® Force-Flo® cabinet heaters are high-capacity forced-air fan coil units for entryways and corridors in large office buildings, schools, hospitals and dormitories.Unit VentilatorsTrane unit ventilator operates onthe same principles as the fancoil but is tailored specifically forschools with a sturdy institutionaldesign and an integrated airside economizer. Our unit ventilator unitsare an especially effective solution forK-12 classroom renovation projects.Blower CoilsA Trane blower coil is an entrylevel air handler for chilled water or refrigeration systems with ductedair distribution. Applicationsinclude schools, hospitals, offices,retail stores and stadiums.2Single-zone VAV SystemSingle-zone variable air volume (VAV) is a high-efficiency system in which the motor speed and air volume automatically adjust in response to a space’s needs. Those spaces—in which occupancy varies—include classrooms, office buildings, gymnasiums, dormitories and barracks.Single-zone VAV offers substantial operating savings over a constant volume system because a high-efficiency motor-driven variable fan speed can be the most energy-efficient way to address partial load conditions. Single-zone VAV lowers operating costs because of the efficiency gains that come from the ability to operate at low speeds for partial loads.A single-zone VAV system can improve comfort for building occupants through:Temperature stability variable speed technology gradually changes fan speed, which reduces temperature swings.Quiet operation variable speed units run at the lowest fan speed necessary and move up and down slowly between speeds. This soft ramp capability means fewer audible changes and a substantial5-to-8-decibel reduction in system noise. Dehumidification operating at lower speeds for more time improves dehumidification, a key factor in IAQ and comfort.Trane® ECM terminal units integrated with the UC400 unit controller offers the only factory-commissioned single-zone VAV solution in the industry.Building LifeTrane knows that careful attention to the unique needs of a building can improve life of the equipment, controls and the HVAC systems.This solutions-oriented commitment to delivering exceptional performance fosters an environment that has a positive impact on the lives of the people within it.Single-zone ConfigurationIn a single-zone VAV system, the temperaturesensor in the zone is used to vary the airtemperature and the air volume in order tomaintain the desired set point.EAOA SARASPACETerminal TransformedTerminal units shouldn’t be an industry afterthought. Trane ® understands these are critical system components, with special consideration given toevery design and technical specification to transform our family of terminal solutions into a high-performing driver for your building’s efficiency. Whether you’re concerned with occupant comfort or system design, Trane can work with you to find the right solution. Innovations in ECMTerminal products were updated from conventional permanent split capacitor (PSC) motors to our exclusive new electronically commutated motor(ECM), making Trane the only manufacturer currently offering environmental conditioning systems (ECSs) as standard technology on all terminal products.Real-time FeedbackVelociTach ™ is our ECM control board that features aTrane exclusive LED screen to provide real-time feedback to installers and maintenance staff. This eliminates the inconvenience of using a separate service tool.Single-zone VAVTrane terminal ECM units integrated with the UC400 unit controller are the industry’s first factory-commissioned single-zone VAV solution, with automated and optimized motor speed adjustments to meet a space’s heating or cooling needs.Met exerum dolupta dolenda autae etus de num cum rem rerrum re tem rateControl Board Benefits Enhances serviceability and improves response time for maintenance staff. Allows maintenance to monitor performance and maximize efficiency.Eliminates cost of additionalcomputer hardware and software. Reduces the time needed tobalance the unit during installation.Trane ECMs ...Giving you ...Have sealed bearings and completelyenclosed construction Extended motor life and lower maintenance costs over the life of the systemOptimize performance at every speed Dramatically enhanced efficiency, with energy savings up to 66 percent Have fewer moving parts and are much Lower maintenancesystems with lower totalTerminal TransformedTrane® developed innovative control algorithms that maximize the performance and efficiency for each of the units under all operating conditions.Only Trane terminal products are available with factory mounted, wired and programmed Tracer® unit controllers, providing unmatched system integration and performance optimization.Flexible ConnectivityHigh-efficiency terminal products—unlike competitive offerings—allow for building connectivity through multiple control options. Preprogrammed Air-Fi®wireless controls can offer plug-and-play connectivity, as well as individual guest control.Tracer UC400-B Unit ControllerThe UC400-B single-zone VAV controller maximizes fan speed while reducing energy consumption by delivering only the airflow necessary to address the space load. This programmable controller’s functions include:• Random start• Warm-up, pre-cool• Freeze avoidance• Built-in dehumidification• Auto fan speed adjustment Controlled CostsThe lowest total cost of ownership in the industry makes the new Trane high-efficiency terminal unitsa value-added asset to any building’s HVAC system.Separation InnovationWe separated the Trane ECM from the VelociTach™motor control board, and added an LED display and manual interface.This delivers the convenience of a visual status report and the ease of push button adjustments, facilitating optimal performance and simplifying serviceability.Tracer UC400-B Unit Controller5Understanding the UpgradesThe terminal products upgrade is more revolution than redesign. Rather than incremental improvements, we took a technological leap forward and elevated the industry standard for this product class.We leveraged the synergy of the new technology suite to produce dramatic improvements in easeof installation, cost of ownership, acoustics and temperature control.Streamlined InstallationUnits, unit controls and piping packages are installed, configured and tested during assembly.A factorycommissioned system makes the job-site installation a streamlined plug-and-play process and ensures long-term trouble-free operation.Quiet OperationSoft ramp technology slowly ramps motor speeds up and down to address the space load and eliminates the distracting noise associated with units turning on and off. And because the moderated air flow achieves the same comfort levels as running at full capacity, variable units are 5 to 8 decibels quieter than traditional three-speed models.Continuous ComfortInnovative tempering algorithms in the UC400 controller eliminate the typical temperature variations that cause occupants discomfort. This discharge air temperature control means your space reached the desired set point more quickly and the temperature maintenance is more stable. Superior PerformanceECM is a high-efficiency programmable motor technology. Motors require less maintenance, are more reliable and have longer service life. They can be performanceoptimized at any speed, dramatically increasing energy efficiency over conventional three-speed PSC motors.ECM has significant efficiency gains over PSC20406080100Full-loadEciency,%Brushless DC (ECM)Permanent Split Capacitor ACShaded Pole ACNo Compromise SolutionThe features you want. The technology you need.Trane® asked customers what they need in a terminal unit. Then we built their feedback into the new designs. The result is a flexible line of high-efficiency solutions that meet all of your new construction and renovation needs. No compromise necessary.Universal CompatibilityTrane terminal units offer flexible solutions for variable speed operation through compatibility with existing thermostats and controllers.The open communication protocol of the Tracer® UC400 supports seamless integration at the building system or equipment level through BACnet communication.With a smart controls retrofit solution, there are no limits to what Trane can do for you.Trane Select AssistHigh-efficiency terminal products are now available through Trane Select Assist. This web-based program improves efficiency and accuracy in your selection process, and enhanced outputs and reports are intuitive and easy to read. With just a few clicks, the program’s guided selections eliminate time spent setting common fields across multiple units. Trusted PartnersYour new Trane system is built on a foundation of expertise earned with a century of hard work. We bring commitment to industry leadership, product innovation and superior performance, and we are focused on providing comprehensive solutions you can count on.Total Cost ofOwnership Efficiency Serviceability Flexibility Acoustics ComfortTrane ExclusiveECM StandardAdvanced ControlsPlug & PlaySoft RampDischarge AirTemperature ControlReal-time FeedbackReduced FLA7Learn more at Trane – by Trane Technologies (NYSE: TT), a global climate innovator – creates comfortable, energy efficient indoor environments through a broad portfolio of heating, ventilating and air conditioning systems and controls, services, parts and supply. For more information, please visit or .© 2021 Trane. All Rights Reserved. All trademarks referenced in this document are the trademarks of their respective owners.UNT-SLB030-EN09/29/2021。