Honeywell 3G SmartVFD HVFD3D2A0020 Installation And User Manual Download

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3G SmartVFD

Installation and User Guide

Summary of Contents for 3G SmartVFD HVFD3D2A0020

Page 1: ...3G SmartVFD Installation and User Guide ...

Page 2: ...Certifications 9 1 6 Disposal 9 2 Safety 11 2 1 Safety Symbols 11 2 2 Qualified Personnel 11 2 3 Safety Precautions 12 3 Mechanical Installation 15 3 1 Unpacking 15 3 2 Installation Environments 15 3 3 Mounting 16 4 Electrical Installation 19 4 1 Safety Instructions 19 4 2 EMC compliant Installation 20 4 3 Grounding 20 4 4 Wiring Schematic 21 4 5 Access 23 4 6 Motor Connection 24 ...

Page 3: ...t up Examples 49 7 Diagnostics and Troubleshooting 57 7 1 Maintenance and Service 57 7 2 Status Messages 57 7 3 Warning and Alarm Types 60 7 4 List of Warnings and Alarms 61 7 5 Troubleshooting 74 8 Specifications 78 8 1 Electrical Data 78 8 2 Line Power Supply 90 8 3 Motor Output and Motor Data 90 8 4 Ambient Conditions 91 4 5 Access 91 8 5 Cable Specifications 92 8 6 Control Input Output and Con...

Page 4: ...31 00559 01 iii 9 Appendix 104 9 1 Symbols Abbreviations and Conventions 104 9 2 Parameter Menu Structure 105 ...

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Page 6: ...d general warnings Keep this instruction manual available with the adjustable frequency drive at all times 1 2 Additional Resources Other resources are available to understand advanced adjustable frequency drive functions and programming The 3G SmartVFD Programming Guide provides greater detail on working with parameters and many application examples The 3G SmartVFD Design Guide provides detailed ...

Page 7: ... Depending on configuration the adjustable frequency drive can be used in stand alone applications or form part of a larger appliance or installation The adjustable frequency drive is allowed for use in residential industrial and com mercial environments in accordance with local laws and standards Foreseeable misuse Do not use the adjustable frequency drive in applications which are non compliant ...

Page 8: ...able shield connector 6 Cable shield connector 16 Brake terminal 81 82 7 USB connector 17 Load sharing terminal DC bus 88 89 8 Serial bus terminal switch 18 Motor output terminals 96 U 97 V 98 W 9 Analog switches A53 A54 19 Line power input terminals 91 L1 92 L2 93 L3 10 Relay 1 01 02 03 1 2 3 4 5 6 7 8 9 10 11 12 13 16 17 18 19 14 15 FAN MOUNTING QDF 30 DC DC Remove jumper to activate Safe Stop M...

Page 9: ...04 05 06 4 LCP input plug 13 Brake 81 82 and load sharing 88 89 terminals 5 Analog switches A53 A54 14 Line power input terminals 91 L1 92 L2 93 L3 6 Cable shield connector 15 USB connector 7 Decoupling plate 16 Serial bus terminal switch 8 Grounding clamp PE 17 Digital I O and 24 V power supply 9 Shielded cable grounding clamp and strain relief 18 Cover 1 2 3 4 5 6 7 8 9 10 11 12 13 14 8 15 16 17...

Page 10: ... 5 9 10 1 LCP local control panel 6 Mounting holes 2 Control terminals 7 Relays 1 and 2 3 Mains input terminals 91 L1 92 L2 93 L3 8 Motor output terminals 96 U 97 V 98 W 4 Ground terminals for IP21 54 Type 1 12 9 Cable clamps 5 Lifting ring 10 Ground terminals for IP20 Chassis ...

Page 11: ...7 Mounting hole 2 LCP local control panel 8 Relays 1 and 2 3 Control terminals 9 Terminal block for anti condensation heater optional 4 Mains input terminals 91 L1 92 L2 93 L3 10 Motor output terminals 96 U 97 V 98 W 5 Cable clamps 11 Ground terminals for IP21 54 Type 1 12 6 Lifting ring 12 Ground terminals for IP20 Chassis ...

Page 12: ... 10 5 1 8 1 Local control panel LCP 7 Mounting holes 2 RS485 termination switch 8 LCP connector 3 USB connector 9 Analog switches A53 A54 4 RS485 connector 10 Analog I O connector 5 Digital I O and 24 V supply 11 Relay 1 01 02 03 on power card 6 Lifting rings 12 Relay 2 04 05 06 on power card ...

Page 13: ... input to DC current to supply inverter power 3 DC bus Intermediate DC bus circuit handles the DC current 4 DC reactors Filter the intermediate DC circuit voltage Prove line transient protection Reduce RMS current Raise the power factor reflected back to the line Reduce harmonics on the AC input 5 Capacitor bank Stores the DC power Provides ride through protection for short power losses 6 Inverter...

Page 14: ...adjustable frequency drive complies with UL508C thermal memory retention requirements For more information refer to the section Motor Thermal Protection in the Design Guide 1 5 Disposal Do not dispose of equipment containing electrical components together with domestic waste Collect it separately in accordance with local and currently valid leg islation ...

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Page 16: ...alified personnel is allowed to install or operate this equipment Qualified personnel is defined as trained staff who are authorized to install com mission and maintain equipment systems and circuits in accordance with perti nent laws and regulations Additionally the personnel must be familiar with the instructions and safety measures described in this document Warning Indicates a potentially haza...

Page 17: ...stable frequency drive is connected to AC line power the motor may start at any time causing risk of death serious injury equipment or prop erty damage The motor can start by means of an external switch a serial bus command an input reference signal from the LCP or after a cleared fault con dition Disconnect the adjustable frequency drive from line power whenever personal safety considerations mak...

Page 18: ...cal installer LEAKAGE CURRENT HAZARD Contact with rotating shafts and electrical equipment can result in death or serious injury Ensure that only trained and qualified personnel perform installation start up and maintenance Ensure that electrical work conforms to national and local electrical codes Follow the procedures in this manual UNINTENDED MOTOR ROTATION WINDMILLING Unintended rotation of pe...

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Page 20: ...ncy drive loss of warranty 3 1 2 Storage Ensure that requirements for storage are fulfilled Refer to Chapter 8 Ambient Con ditions for further details Periodic forming capacitor charging is not necessary during storage unless stor age exceeds 12 months For drives stored more than 12 months but less than four years apply full voltage for three hours before running motor 3 2 Installation Environment...

Page 21: ...cations refer to chapter 8 4 Ambient Conditions 3 3 Mounting Note Improper mounting can result in overheating and reduced performance Cooling Ensure that top and bottom clearance for air cooling is provided See Figure 3 1 for clearance requirements Figure 3 1 Top and Bottom Cooling Clearance Table 3 1 Minimum Airflow Clearance Requirements Enclosure A2 A5 B1 B2 C1 C2 D1 D2 a ins mm 3 94 100 7 87 2...

Page 22: ...ng location supports the unit weight The adjustable frequency drive allows side by side installation Step 2 Place the unit as near to the motor as possible Keep the motor cables as short as possible Step 3 Mount the unit vertically to a solid flat surface or to the optional backplate to provide cooling airflow Step 4 Use the slotted mounting holes on the unit for wall mounting when provided Note A...

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Page 24: ...by the installer See maximum fuse ratings in 8 8 Fuses and Circuit Breakers INDUCED VOLTAGE Induced voltage from output motor cables that run together can charge equip ment capacitors even with the equipment turned off and locked out Failure to run output motor cables separately or use shielded cables or metal conduits could result in death or serious injury Run output motor cables separately or U...

Page 25: ...er in a daisy chain fashion Keep the ground wire connections as short as possible Follow the motor manufacturer wiring requirements Minimum cable cross section AWG 7 10 mm2 or two rated ground wires terminated separately For EMC compliant installation Establish electrical contact between cable shield and adjustable frequency drive enclosure by using metal cable connectors or by using the clamps pr...

Page 26: ...V NPN 19 D IN 24 V NPN 0 V PNP D IN OUT 0 V PNP 24 V NPN D IN OUT 24 V NPN 0 V PNP 0 V PNP 24 V NPN 33 D IN 32 D IN Chassis Ground 240 V AC 2 A 400 V AC 2 A 91 L1 92 L2 93 L3 PE 88 89 20 10 V DC 15 mA 130 200 mA U 96 V 97 W 98 PE 99 0 V 5 V S801 RS 485 03 24 V DC 02 01 05 04 06 27 24 V 0 V 0 V 24 V 29 1 2 ON S201 A53 ON 2 1 ON 0 4 20 mA OFF 0 10 V DC 10 V DC 95 P 5 00 2 1 ON S801 R 82 R 81 130BD55...

Page 27: ...can result in unintended behavior or reduced performance Minimum 7 9 in 200 mm clearance between power motor and control cables is required 1 PLC 6 Cable connector 2 Adjustable frequency drive 7 Motor 3 phase and PE 3 Output contactor 8 Line power 3 phase and reinforced PE 4 Grounding rail PE 9 Control wiring 5 Cable insulation stripped 10 Equalizing min 0 025 in2 16 mm2 130BD529 12 1 2 3 4 5 6 7 ...

Page 28: ...ee Figure 4 4 Figure 4 3 Access to Wiring for NEMA 1 IP21 Enclosures Figure 4 4 Access to Wiring for NEMA 12 IP54 55 Enclosures See Table 4 1 before tightening the covers Table 4 1 Tightening Torques for Covers Nm Enclosure IP55 A5 2 B1 B2 2 2 C1 C2 2 2 No screws to tighten for A2 A3 130BT248 10 130BT334 10 ...

Page 29: ...ghtening Torques Figure 4 5 Motor Connection INDUCED VOLTAGE Induced voltage from output motor cables that run together can charge equip ment capacitors even with the equipment turned off and locked out Failure to run output motor cables separately or use shielded cables or metal conduits could result in death or serious injury Comply with local and national electrical codes for cable sizes For ma...

Page 30: ...motor and grounding for basic adjustable frequency drives Actual configurations vary with unit types and optional equipment Figure 4 6 Motor Connection for Enclosure Type A2 and A3 Figure 4 7 Motor Connection for Enclosure Type A5 IP55 NEMA Type 12 MOTOR MOTOR U V W 99 130BT302 12 U V W 96 97 98 130BT337 10 ...

Page 31: ... Figure 4 8 Motor Terminals D1 shown Figure 4 9 Motor Line Power and Ground Wiring for Enclosure Types B and C Using Shielded Cable e30bg268 10 91 L1 92 L2 93 L3 96 U 97 V 98 W 88 DC 89 DC 81 R 8 R 130BA390 11 99 95 ...

Page 32: ...e 4 11 and Figure 4 12 Step 2 Depending on the configuration of the equipment input power will be connected to the line power input terminals or the input disconnect Step 3 Ground the cable in accordance with grounding instructions provided in Chapter 4 3 Grounding Step 4 When supplied from an isolated line power source IT line power or floating delta or TT TN S line power with a grounded leg grou...

Page 33: ...28 31 00559 01 Figure 4 11 Connecting to AC Line Power Frames A B and C Figure 4 12 AC Mains Terminals D1 shown L1 L2 L3 91 92 93 130BT336 10 e30bg267 10 ...

Page 34: ...in Table 4 2 Figure 4 13 Control Terminal Locations Figure 4 14 Terminal Numbers Connector 1 provides four programmable digital inputs terminals two additional digital terminals programmable as either input or output a 24 V DC terminal supply voltage and a common for optional customer supplied 24 V DC voltage Connector 2 terminals 68 and 69 are for an RS 485 serial communication connection Connect...

Page 35: ...tput Default setting is input 29 5 13 14 JOG 20 Common for digital inputs and 0 V potential for 24 V supply Analog Inputs Outputs 39 Common for analog output 42 6 50 Speed 0 High Limit Programmable analog output 0 20 mA or 4 20 mA at a maximum of 500 Ω 50 10 V DC 10 V DC analog supply voltage for potentiometer or thermistor 15 mA maximum 53 6 1 Reference Analog input For voltage or current Switche...

Page 36: ...nt faults or less than optimal operation See Chapter 8 5 Cable Specifications for control terminal wiring sizes and 6 Application Set up Examples for typical control wiring connections 4 8 3 Enabling Motor Operation Terminal 27 A jumper wire may be required between terminal 12 or 13 and terminal 27 for the adjustable frequency drive to operate if the drive is configured for External Inter lock Dig...

Page 37: ...ee Figure 4 16 Step 2 Remove any optional equipment covering the switches Step 3 Set switches A53 and A54 to select the signal type U selects voltage I selects current Figure 4 16 Location of Terminals 53 and 54 Switches 4 8 5 RS 485 Serial Communication Up to 32 nodes can be connected as a bus or via drop cables from a common trunk line to one network segment Repeaters can divide network segments...

Page 38: ...eed operation Check function and installation of any sensors used for feedback to the adjustable frequency drive Remove any power factor correction caps on motor s Adjust any power factor correction caps on the line power side and ensure that they are dampened Cable routing Ensure that motor wiring and control wiring are separated or shielded or in three separate metallic conduits for high frequen...

Page 39: ...ted on an unpainted metal surface Switches Ensure that all switch and disconnect settings are in the proper positions Vibration Check that the unit is mounted solidly or that shock mounts are used as necessary Check for an unusual amount of vibration Inspect for Parameter POTENTIAL HAZARD IN THE EVENT OF INTERNAL FAILURE Risk of personal injury when the adjustable frequency drive is not properly c...

Page 40: ...oltage on output terminals 96 U 97 V and 98 W phase tophase and phase to ground Step 6 Confirm continuity of the motor by measuring ohm values on U V 96 97 V W 97 98 and W U 98 96 Step 7 Check for proper grounding of the adjustable frequency drive as well as the motor Step 8 Inspect the adjustable frequency drive for loose connections on terminals Step 9 Confirm that the supply voltage matches vol...

Page 41: ...ion 5 3 1 Local Control Panel The local control panel LCP is the combined display and keypad on the front of the unit The LCP has several user functions Start stop and control speed when in local control Display operational data status warnings and cautions Programming adjustable frequency drive functions Manually reset the adjustable frequency drive after a fault when auto reset is inactive UNINT...

Page 42: ...rminal or an external 24 V DC supply The information displayed on the LCP can be customized for user application Select options in the Quick Menu Q3 13 Display Settings Table 5 1 Legend to Figure 5 1 Display Area Callout Display Parameter number Default setting 1 1 1 0 20 Reference 2 1 2 0 21 Motor current 3 1 3 0 22 Power kW 130BD512 10 Auto on Reset Hand on Status Quick Menu Main Menu Alarm Log ...

Page 43: ...quency 5 3 0 24 kWh counter Callout Key Function 6 Status Shows operational information 7 Quick Menu Allows access to programming parameters for initial set up instructions and many detailed application instructions 8 Main Menu Allows access to all programming parameters 9 Alarm Log Displays a list of current warnings the last ten alarms and the maintenance log Callout Key Function 10 Back Reverts...

Page 44: ...op the motor before uploading or downloading data Step 2 Go to Main Menu 0 50 LCP Copy and press OK Callout Key Light Function 15 ON Green The ON light activates when the adjustable frequency drive receives power from AC line voltage a DC bus terminal or an external 24 V supply 16 WARN Yellow When warning conditions are met the yellow WARN light comes on and text appears in the display area identi...

Page 45: ... Main Menu once to enter Main Menu View changes Quick Menu Q5 Changes Made lists all parameters changed from default set tings The list shows only parameters which have been changed in the current edit set up Parameters which have been reset to default values are not listed The message Empty indicates that no parameters have been changed 5 3 6 Restoring Default Settings Note Risk of losing program...

Page 46: ...n starts Factory default parameter settings are restored during start up This may take slightly longer than normal Manual initialization does not reset the following adjustable frequency drive information 15 00 Operating hours 15 03 Power Up s 15 04 Over Temp s 15 05 Over Volt s 5 4 Basic Programming 5 4 1 Commissioning with SmartStart The SmartStart wizard enables fast configuration of basic moto...

Page 47: ... 4 Press navigation keys to scroll to 0 03 Regional Settings and press OK Figure 5 4 Basic Settings Step 5 Press navigation keys to select 0 International or 1 North America as appropriate and press OK This changes the default settings for a number of basic parameters Step 6 Press Main Menu on the LCP Step 7 Press the navigation keys to scroll to 0 01 Language Step 8 Select language and press OK 1...

Page 48: ...e Step 3 1 23 Motor Frequency Step 4 1 24 Motor Current Step 5 1 25 Motor Nominal Speed 5 4 4 Permanent Magnet Motor Set up Note Only use permanent magnet PM motor with fans and pumps Initial Programming Steps Step 1 Activate PM motor operation 1 10 Motor Construction select 1 PM non salient SPM Step 2 Set 0 02 Motor Speed Unit to 0 RPM Programming motor data After selecting PM motor in 1 10 Motor...

Page 49: ...ble for a motor speed of 1000 RPM calculate the correct value as follows If back EMF is e g 320 V at 1800 RPM it can be calculated at 1000 RPM as follows Back EMF Voltage RPM 1000 320 1800 1000 178 This is the value that must be programmed for 1 40 Back EMF at 1000 RPM Test motor operation Step 1 Start the motor at low speed 100 to 200 RPM If the motor does not turn check installation general prog...

Page 50: ...tor The adjustable frequency drive builds a mathematical model of the motor for regulating output motor current The procedure also tests the input phase balance of electrical power It compares the motor characteristics with the data entered in parameters 1 20 to 1 25 The motor shaft does not turn and no harm is done to the motor while running the AMA Some motors may be unable to run the complete v...

Page 51: ...it Hz Step 1 Press Main Menu Step 2 Scroll to 1 28 Motor Rotation Check and press OK Step 3 Scroll to 1 Enable The following text appears Note Motor may run in wrong direction Step 4 Press OK Step 5 Follow the on screen instructions Note To change the direction of rotation remove power to the adjustable frequency drive and wait for power to discharge Reverse the connection of any two of the three ...

Page 52: ...after application set up is completed Step 1 Press Auto On Step 2 Apply an external run command Step 3 Adjust the speed reference throughout the speed range Step 4 Remove the external run command Step 5 Check sound and vibration level of the motor to ensure that the system is working as intended If warnings or alarms occur see or Chapter 7 4 List of Warnings and Alarms ...

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Page 54: ...ings are shown next to the drawings Where switch settings for analog terminals A53 or A54 are required these are also shown 6 1 Speed Table 6 1 Analog Speed Reference Voltage Parameters FC 24 V 24 V D IN D IN D IN COM D IN D IN D IN 10 V A IN A IN COM A OUT COM 12 13 18 19 20 27 29 32 33 50 53 54 55 42 39 A53 U I 10 10V 130BB926 10 Function Setting 6 10 Terminal 53 Low Voltage 0 07 V 6 11 Terminal...

Page 55: ...mA 6 13 Terminal 53 High Current 20 mA 6 14 Terminal 53 Low Ref Feedb Value 0 RPM 6 15 Terminal 53 High Ref Feedb Value 1500 RPM Default Value Notes comments Parameters FC 24 V 24 V D IN D IN D IN COM D IN D IN D IN 10 V A IN A IN COM A OUT COM 12 13 18 19 20 27 29 32 33 50 53 54 55 42 39 A53 U I 5kΩ 130BB683 10 Function Setting 6 10 Terminal 53 Low Voltage 0 07 V 6 11 Terminal 53 High Voltage 10 ...

Page 56: ... COM 12 13 18 19 20 27 29 32 33 50 53 54 55 42 39 130BB804 10 Function Setting 5 10 Terminal 18 Digital Input 8 Start 5 12 Terminal 27 Digital Input 19 Freeze Reference 5 13 Terminal 29 Digital Input 21 Speed Up 5 14 Terminal 32 Digital Input 22 Speed down Default Value Start 18 Freeze ref 27 Speed up 29 Speed down 32 Speed Reference 130BB840 11 ...

Page 57: ...IN A IN COM A OUT COM 12 13 18 19 20 27 29 32 33 50 53 54 55 42 39 130BB802 10 Function Setting 5 10 Terminal 18 Digital Input 8 Start 5 12 Terminal 27 Digital Input 0 No operation Default Value Notes comments If 5 12 Terminal 27 Digital Input is set to 0 No operation a jumper wire to terminal 27 is not needed 130BB805 11 Speed Start 18 ...

Page 58: ...IN D IN D IN COM D IN D IN D IN 10 V A IN A IN COM A OUT COM 12 13 18 19 20 27 29 32 33 50 53 54 55 42 39 130BB803 10 Function Setting 5 10 Terminal 18 Digital Input 9 Latched Start 5 12 Terminal 27 Digital Input 6 Stop Inverse Default Value Notes comments Speed 130BB806 10 Latched Start 18 Stop Inverse 27 ...

Page 59: ...ital Input 8 Start 5 11 Terminal 19 Digital Input 10 Start reversing 5 12 Terminal 27 Digital Input 0 No operation 5 14 Terminal 32 Digital Input 16 Preset ref bit 0 5 15 Terminal 33 Digital Input 17 Preset ref bit 1 3 10 Preset Reference Preset ref 1 Preset ref 2 Preset ref 3 50 75 100 Default Value Parameters FC 24 V 24 V D IN D IN D IN COM D IN D IN D IN 10 V A IN A IN COM A OUT COM 12 13 18 19...

Page 60: ... 33 37 50 53 54 55 42 39 01 02 03 04 05 06 61 68 69 RS 485 130BB685 10 Function Setting 8 30 Protocol FC 8 31 Address 1 8 32 Baud Rate 9600 Default Value Notes comments Select protocol address and baud rate in the above mentioned parameters D IN 37 is an option THERMISTOR INSULATION Risk of equipment damage exists Use only thermistors with reinforced or double insulation to meet PELV insulation re...

Page 61: ...D IN 10 V A IN A IN COM A OUT COM 12 13 18 19 20 27 29 32 33 50 53 54 55 42 39 A53 U I Function Setting 1 90 Motor Thermal Protection 2 Thermistor trip 1 93 Thermistor Source 1 Analog input 53 Default Value Notes comments If only a warning is desired 1 90 Motor Thermal Protection should be set to 1 Thermistor warning ...

Page 62: ...r intervals depending on the operating conditions Replace worn or damaged parts with origi nal spare parts or standard parts For service and support refer to buildings honeywell com 7 2 Status Messages When the adjustable frequency drive is in status mode status messages are gener ated automatically and appear in the bottom line of the display see Figure 7 1 Figure 7 1 Status Display Table 7 1 to ...

Page 63: ...W has been reached Coast Coast inverse was selected as a function for a digital input parameter group 5 1 Digital Inputs The corresponding terminal is not connected Coast activated by serial communication Ctrl Ramp down Control Ramp down was selected in 14 10 Mains Failure The AC line voltage is below the value set in 14 11 Mains Voltage at Mains Fault at line power fault The adjustable frequency ...

Page 64: ...rvoltage Control 2 Enabled The connected motor supplies the adjustable frequency drive with generative energy The overvoltage control adjusts the V Hz ratio to run the motor in controlled mode and to prevent the adjustable frequency drive from tripping PowerUnit Off Only adjustable frequency drives with an external 24 V power supply installed Line power supply to the adjustable frequency drive was...

Page 65: ... reset input command Auto reset Speed low Motor speed is below the value set in 4 52 Warning Speed Low Standby In Auto On mode the adjustable frequency drive starts the motor with a start signal from a digital input or serial communication Start delay In 1 71 Start Delay a delay starting time was set A start command is activated and the motor starts after the start delay time expires Start fwd rev...

Page 66: ...tus Indicator Lights 7 4 List of Warnings and Alarms The warning alarm information below defines each warning alarm condition pro vides the probable cause for the condition and details a remedy or troubleshooting procedure WARNING 1 10 Volts low The control card voltage is below 10 V from terminal 50 Remove some of the load from terminal 50 as the 10 V supply is overloaded Max 15 mA or minimum 590...

Page 67: ... test WARNING ALARM 4 Mains phase loss A phase is missing on the supply side or the line voltage imbalance is too high This message also appears for a fault in the input rectifier on the adjustable fre quency drive Options are programmed at 14 12 Function at Mains Imbalance Troubleshooting Check the supply voltage and supply currents to the adjustable frequency drive WARNING 5 DC link voltage high...

Page 68: ...uency drive cannot be reset until the counter is below 90 The fault is that the adjustable frequency drive has run with more than 100 over load for too long Troubleshooting Compare the output current shown on the LCP with the adjustable frequency drive rated current Compare the output current shown on the LCP with measured motor current Display the thermal drive load on the LCP and monitor the val...

Page 69: ...r 19 digital input PNP only and terminal 50 Check 1 93 Thermistor Source selects terminal 18 or 19 WARNING ALARM 12 Torque limit The torque has exceeded the value in 4 16 Torque Limit Motor Mode or the value in 4 17 Torque Limit Generator Mode 14 25 Trip Delay at Torque Limit can change this warning from a warning only condition to a warning followed by an alarm Troubleshooting If the motor torque...

Page 70: ...l with the present control board hardware or soft ware Record the value of the following parameters and contact Honeywell 15 40 FC Type 15 41 Power Section 15 42 Voltage 15 43 Software Version 15 45 Actual Typecode String 15 49 SW ID Control Card 15 50 SW ID Power Card 15 60 Option Mounted 15 61 Option SW Version for each option slot ALARM 16 Short circuit There is short circuiting in the motor or...

Page 71: ...ck for proper fan operation Cycle power to the adjustable frequency drive and check that the fan operates briefly at startup Check the sensors on the heatsink and control card WARNING 24 External fan fault The fan warning function is an extra protective function that checks if the fan is running mounted The fan warning can be disabled in 14 53 Fan Monitor 0 Dis abled Troubleshooting Check for prop...

Page 72: ...ooting Remove power to the adjustable frequency drive and remove the brake resistor WARNING ALARM 28 Brake check failed The brake resistor is not connected or not working Check 2 15 Brake Check ALARM 29 Heatsink temp The maximum temperature of the heatsink has been exceeded The temperature fault does not reset until the temperature falls below a defined heatsink tempera ture The trip and reset poi...

Page 73: ...ting Cycle power Check that the option is properly installed Check for loose or missing wiring It may be necessary to contact your Honeywell supplier or service department Note the code number for further troubleshooting directions Table 7 4 Internal Fault Codes 0 Serial port cannot be initialized Contact your Honeywell supplier or Honeywell Service Department 256 258 Power EEPROM data is defectiv...

Page 74: ...X30 7 check the load connected to X30 7 or remove the short circuit connec tion Check 5 33 Term X30 7 Digi Out MCB 101 ALARM 45 Ground fault 2 Ground fault Troubleshooting Check for proper grounding and loose connections Check for proper wire size Check motor cables for short circuits or leakage currents ALARM 46 Power card supply The supply on the power card is out of range There are three power ...

Page 75: ...ive shows a warning When the speed is below the specified limit in 1 86 Trip Speed Low RPM except when starting or stopping the adjustable frequency drive trips ALARM 50 AMA calibration failed Contact Honeywell supplier or Honeywell service department ALARM 51 AMA check Unom and Inom The settings for motor voltage motor current and motor power are wrong Check the settings in parameters 1 20 to 1 2...

Page 76: ...fre quency limit Be sure the system can operate safely at a higher output frequency The warning clears when the output drops below the maximum limit WARNING ALARM 65 Control card overtemperature The cut out temperature of the control card is 176 F 80 C Troubleshooting Check that the ambient operating temperature is within limits Check for clogged filters Check fan operation Check the control card ...

Page 77: ...pump 22 26 Dry Pump Function is set for alarm Troubleshoot the system and reset the adjustable frequency drive after the fault has been cleared ALARM 94 End of curve Feedback is lower than the setpoint This may indicate leakage in the system 22 50 End of Curve Function is set for alarm Troubleshoot the system and reset the adjustable frequency drive after the fault has been cleared ALARM 95 Broken...

Page 78: ...unit Operating in this condition voids unit warranty Cycle power to the unit to remove the warning See the fire mode data in the alarm log WARNING 203 Missing motor With an adjustable frequency drive operating multi motors an underload condi tion was detected This could indicate a missing motor Inspect the system for proper operation WARNING 204 Locked rotor With an adjustable frequency drive oper...

Page 79: ... 12 13 to 20 39 or 10 V supply for terminals 50 to 55 Wire the terminals properly Incompatible LCP Use only LCP 101 or LCP 102 Wrong contrast setting Press Status to adjust the contrast Display LCP is defective Test using a different LCP Replace the faulty LCP or connection cable Internal voltage supply fault or SMPS is defective Contact supplier Intermittent display Overloaded power supply SMPS d...

Page 80: ...setting Apply 24 V on terminal 27 or program this terminal to No operation Wrong reference signal source Check reference signal Local remote or bus reference Preset reference active Terminal connection correct Scaling of terminals correct Reference signal available Program correct settings Check 3 13 Reference Site Set preset reference active in parameter group 3 1 References Check for correct wir...

Page 81: ...DC Brake and 3 0 Reference Limits Open power fuses or circuit breaker trip Phase to phase short Motor or panel has a short phase to phase Check motor and panel phase for shorts Eliminate any short circuits detected Motor overload Motor is overloaded for the application Perform start up test and verify motor current is within specifications If motor current is exceeding nameplate full load current ...

Page 82: ...se current limit in 4 18 Current Limit Increase torque limit in 4 16 Torque Limit Motor Mode Adjustable frequency drive deceleration problems Motor data are entered incorrectly If warnings or alarms occur see chapter 7 4 List of Warnings and Alarms Check that motor data are entered correctly Increase the ramp down time in 3 42 Ramp 1 Ramp Down Time Enable overvoltage control in 2 17 Over voltage C...

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Page 84: ... Typical Shaft Output HP at 208 V 1 5 2 0 2 9 4 9 Typical Shaft Output kW 1 1 1 5 2 2 3 7 Enclosure Size IP21 NEMA 1 A2 A2 A2 A3 IP55 NEMA 12 A5 A5 A5 A5 Output Current Continuous 3x200 240 V A 6 6 7 5 10 6 16 7 Intermittent 3x200 240 V A 7 3 8 3 11 7 18 4 Continuous kVA 208 V AC kVA 2 38 2 70 3 82 6 00 Max Input Current Continuous 3x200 240 V A 5 9 6 8 9 5 15 0 Intermittent 3x200 240 V A 6 5 7 5 ...

Page 85: ...on HVFD3D 3A0075 3A0100 3A0150 3A0200 Typical Shaft Output HP at 208 V 7 5 10 15 20 Typical Shaft Output kW 5 5 7 5 11 15 Enclosure Size IP21 NEMA 1 B1 B1 B1 B2 IP55 NEMA 12 B1 B1 B1 B2 Output Current Continuous 3x200 240 V A 24 2 30 8 46 2 59 4 Intermittent 3x200 240 V A 26 6 33 9 50 8 65 3 Continuous kVA 208 V AC kVA 8 7 11 1 16 6 21 4 Max Input Current Continuous 3x200 240 V A 22 0 28 0 42 0 54...

Page 86: ... at 208 V 25 30 40 50 60 Typical Shaft Output kW 18 5 22 30 37 45 Enclosure Size IP21 NEMA 1 C1 C1 C1 C2 C2 IP55 NEMA 12 C1 C1 C1 C2 C2 Output Current Continuous 3x200 240 V A 74 8 88 0 115 143 170 Intermittent 3x200 240 V A 82 3 96 8 127 157 187 Continuous kVA 208 V AC kVA 26 9 31 7 41 4 51 5 61 2 Max Input Current Continuous 3x200 240 V A 68 0 80 0 104 0 130 0 154 0 Intermittent 3x200 240 V A 74...

Page 87: ...a fully loaded control card and options for slots A and B each add only 4 W 2 Measured using 5 m 16 4 ft shielded motor cables at rated load and rated frequency Efficiency mea sured at nominal current For energy efficiency class see chapter Chapter 8 4 Ambient Conditions Type Designation HVFD3D 3A0750 3A1000 3A1250 Typical shaft output at 230 V hp 75 100 120 Typical shaft output at 230 V kW 55 75 ...

Page 88: ...A3 IP55 NEMA 12 A5 A5 A5 A5 A5 A5 Output Current Continuous 3x380 440 V A 3 4 1 5 6 10 13 16 Intermittent 3x380 440 V A 3 3 4 5 6 2 11 14 3 17 6 Continuous 3x441 480 V A 2 7 3 4 4 8 8 2 11 14 5 Intermittent 3x441 480 V A 3 0 3 7 5 3 9 0 12 1 15 4 Continuous kVA 400 V AC kVA 2 1 2 8 3 9 6 9 9 0 11 0 Continuous kVA 460 V AC kVA 2 4 2 7 3 8 6 5 8 8 11 6 Max Input Current Continuous 3x380 440 V A 2 7 ...

Page 89: ...1 B2 B2 IP55 NEMA 12 B1 B1 B1 B2 B2 Output Current Continuous 3x380 439 V A 24 32 37 5 44 61 Intermittent 3x380 439 V A 26 4 35 2 41 3 48 4 67 1 Continuous 3x440 480 V A 21 27 34 40 52 Intermittent 3x440 480 V A 23 1 29 7 37 4 44 61 6 Continuous kVA 400 V AC kVA 16 6 22 2 26 30 5 42 3 Continuous kVA 460 V AC kVA 16 7 21 5 27 1 31 9 41 4 Max Input Current Continuous 3x380 439 V A 22 29 34 40 55 Int...

Page 90: ...C2 C2 IP55 NEMA 12 C1 C1 C1 C2 C2 Output Current Continuous 3x380 439 V A 73 90 106 147 177 Intermittent 3x380 439 V A 80 3 99 117 162 195 Continuous 3x440 480 V A 65 80 105 130 160 Intermittent 3x440 480 V A 71 5 88 116 143 176 Continuous kVA 400 V AC kVA 50 6 62 4 73 4 102 123 Continuous kVA 460 V AC kVA 51 8 63 7 83 7 104 128 Max Input Current Continuous 3x380 439 V A 66 82 96 133 161 Intermitt...

Page 91: ...uency Efficiency mea sured at nominal current For energy efficiency class see Chapter 8 4 Ambient Conditions Type Designation HVFD3D 3C1500 3C2000 3C2500 Typical shaft output at 460 V hp 150 200 250 Typical shaft output at 400 V kW 110 132 160 Typical shaft output at 480 V kW 132 160 200 Enclosure Size IP21 NEMA 1 D1 D1 D1 IP54 NEMA 12 D1 D1 D1 Output Current Continuous 3x400 V A 212 260 315 Inter...

Page 92: ...pical Shaft Output kW 2 2 4 0 5 5 7 5 IP21 NEMA 1 A3 A3 A3 A3 IP55 NEMA 12 A5 A5 A5 A5 Output Current Continuous 3x525 550 V A 4 1 6 4 9 5 11 5 Intermittent 3x525 550 V A 4 5 7 0 10 5 12 7 Continuous 3x525 600 V A 3 9 6 1 9 0 11 0 Intermittent 3x525 600 V A 4 3 6 7 9 9 12 1 Continuous kVA 525 V AC kVA 3 9 6 1 9 0 11 0 Continuous kVA 575 V AC kVA 3 9 6 1 9 0 11 0 Max Input Current Continuous 3x525 ...

Page 93: ... kW 11 15 18 5 22 30 IP21 NEMA 1 B1 B1 B1 B2 B2 IP55 NEMA 12 B1 B1 B1 B2 B2 Output Current Continuous 3 x 525 550 V A 19 23 28 36 43 Intermittent 3 x 525 550 V A 21 25 31 40 47 Continuous 3x525 600 V A 18 22 27 34 41 Intermittent 3x525 600 V A 20 24 30 37 45 Continuous kVA 525 V AC kVA 18 1 21 9 26 7 34 3 41 Continuous kVA 575 V AC kVA 17 9 21 9 26 9 33 9 40 8 Max Input Current Continuous 3x525 60...

Page 94: ... 55 75 90 IP21 NEMA 1 C1 C1 C1 C2 C2 IP55 NEMA 12 C1 C1 C1 C2 C2 Output Current Continuous 3 x 525 550 V A 54 65 87 105 137 Intermittent 3 x 525 550 V A 59 72 96 116 151 Continuous 3x525 600 V A 52 62 83 100 131 Intermittent 3x525 600 V A 57 68 91 110 144 Continuous kVA 525 V AC kVA 51 4 61 9 82 9 100 130 5 Continuous kVA 575 V AC kVA 51 8 61 7 82 7 99 6 130 5 Max Input Current Continuous 3x525 60...

Page 95: ...d only 4 W 2 Measured using 5 m 16 4 ft shielded motor cables at rated load and rated frequency Efficiency mea sured at nominal current For energy efficiency class see Chapter 8 4 Ambient Conditions Type Designation HVFD3D 3D1500 3D2000 Typical shaft output at 575 V hp 150 200 Typical shaft output at 525 V kW 110 132 Typical shaft output at 690 V kW 132 160 Enclosure Size IP21 NEMA 1 D1 D1 IP54 NE...

Page 96: ...ted supply voltage True Power Factor λ 0 9 nominal at rated load Displacement power factor cos φ near unity 0 98 Switching on input supply L1 L2 L3 Frame A B C up to 10 HP maximum 2 times min greater than 10 HP maximum 1 time min Frame D maximum 1 time 2 min Environment according to EN60664 1 Overvoltage category III pollution degree 2 The unit is suitable for use on a circuit capable of deliverin...

Page 97: ...113 F 45 C Derating for high ambient temperature see special conditions in the Design Guide Minimum ambient temperature during full scale operation 32 F 0 C Minimum ambient temperature at reduced performance 14 F 10 C Temperature during storage transport 13 149 158 F 25 65 70 C Maximum altitude above sea level without derating 3 300 ft 1000 m Derating for high altitude see special conditions in th...

Page 98: ...x 4 kΩ All digital inputs are galvanically isolated from the supply voltage PELV and other high voltage terminals 1 Terminals 27 and 29 can also be programmed as output Number of analog inputs 2 Terminal number 53 54 Modes Voltage or current Mode select Frame A B C Switch S201 and switch S202 Frame D Switch A53 and A54 Voltage mode Switch OFF U Voltage level 10 to 10 V scalable Input resistance Ri...

Page 99: ...and other high voltage terminals Number of programmable analog outputs 1 Terminal number 42 Current range at analog output 0 4 20 mA Max load GND analog output 500 Ω Accuracy on analog output Frame A B C Max error 0 5 of full scale Frame D Maximum error 0 8 of full scale Resolution on analog output 8 bit The analog output is galvanically isolated from the supply voltage PELV and other high voltage...

Page 100: ... V AC 2 mA Relay 01 Frame D Terminal number 1 2 NO 1 3 NC Maximum terminal load1 1 2 NO 400 V AC 2A Resistive2 3 240 V AC 0 2A Inductive cosφ 0 4 80 V DC 1 A Resistive 24 V DC 0 1A Inductive Maximum terminal load1 1 3 NC 240 V AC 2A Resistive 240 V AC 0 2A Inductive cosφ 0 4 60 V DC 1 A Resistive 24 V DC 0 1A Inductive Minimum terminal load1 1 2 NO and 1 3 NC 24 V DC 10 mA 24 V AC 2 mA Relay 02 Al...

Page 101: ... outputs Control Card 10 V DC output Terminal number 50 Output voltage 10 5 V 0 5 V Max load 15 mA The 10 V DC supply is galvanically isolated from the supply voltage PELV and other high voltage terminals Control card USB serial communication USB standard 1 1 full speed USB plug USB type B device plug Connection to PC is carried out via a standard host device USB cable The USB connection is galvan...

Page 102: ...0 6 16 1 8 26 5 3 5 0 6 A3 5 7 5 to 10 3 to 10 5 0 6 5 0 6 5 0 6 16 1 8 26 5 3 5 0 6 A5 1 5 to 5 1 5 to 10 3 to 10 5 0 6 5 0 6 5 0 6 16 1 8 26 5 3 5 0 6 B1 7 5 to 15 15 to 25 15 to 25 16 1 8 16 1 8 13 2 1 5 13 2 1 5 26 5 3 5 0 6 B2 20 30 to 40 30 to 40 40 4 5 40 4 5 32 5 3 7 32 5 3 7 26 5 3 5 0 6 C1 25 to 40 50 to 75 50 to 75 88 5 10 88 5 10 88 5 10 88 5 10 26 5 3 5 0 6 C2 50 to 60 100to 125 100 t...

Page 103: ...tage rating With the proper fusing the adjustable frequency drive Short Circuit Current Rating SCCR is 100 000 Arms 8 8 1 CE Compliance Table 8 27 200 240 V Enclosure Types A B and C Enclosure Type Power hp kW Recommended Fuse Size Recommended Max Fuse Size Recommended Circuit breaker Moeller Max Trip Level A A2 1 5 3 1 1 2 2 gG 10 1 5 2 1 1 1 5 gG 16 3 2 2 gG 25 PKZM0 25 25 A3 4 5 3 0 3 7 gG 16 4...

Page 104: ... A100 100 C1 50 75 37 55 gG 80 50 37 gG 100 60 45 gG 160 75 55 gG 160 NZMB2 A200 160 C2 100 125 75 90 aR 200 100 75 aR 250 125 90 aR 250 NZMB2 A250 250 Enclosure Type Power hp kW Recommended Fuse Size Recommended Max Fuse Size Recommended Circuit breaker Moeller Max Trip Level A A3 3 to 10 5 5 7 5 gG 10 7 5 5 5 gG 16 10 7 5 gG 32 PKZM0 25 25 A5 1 5 10 1 1 7 5 gG 10 1 5 7 5 1 1 5 5 gG 16 10 7 5 gG ...

Page 105: ...0 JJN 50 15 11 KTN R 60 JKS 60 JJN 60 20 15 KTN R 80 JKS 80 JJN 80 25 30 18 5 22 KTN R 125 JKS 125 JJN 125 40 30 KTN R 150 JKS 150 JJN 150 50 37 KTN R 200 JKS 200 JJN 200 60 45 KTN R 250 JKS 250 JJN 250 Recommended Max Fuse Power hp kW SIBA Type RK1 Littlefuse Type RK1 Ferraz Shawmut Type CC Ferraz Shawmut Type RK1 3 Bussmann Type JFHR2 2 Littelfuse JFHR2 Ferraz Shawmut JFHR2 4 Ferraz Shawmut J 1 ...

Page 106: ...25 90 KTS R 250 JKS 250 JJS 250 Recommended Max Fuse Power hp kW SIBA Type RK1 Littlefuse Type RK1 Ferraz Shawmut Type CC Ferraz Shawmut Type RK1 Bussmann JFHR2 Ferraz Shawmut J Ferraz Shawmut JFHR2 1 Ferraz Shawmut JFHR21 1 5 1 1 5017906 006 KLS R 6 ATM R 6 A6K 10 6 FWH 6 HSJ 6 2 3 1 5 2 2 5017906 010 KLS R 10 ATM R 10 A6K 10 R FWH 10 HSJ 10 5 4 5017906 020 KLS R 20 ATM R 20 A6K 20 R FWH 20 HSJ 2...

Page 107: ...SJ 60 50 37 KTS R 80 JKS 80 JJS 80 5014006 080 KLS R 075 A6K 80 R HSJ 80 60 45 KTS R 100 JKS 100 JJS 100 5014006 100 KLS R 100 A6K 100 R HSJ 100 75 55 KTS R 125 JKS 125 JJS 125 2028220 125 KLS 125 A6K 125 R HSJ 125 100 75 KTS R 150 JKS 150 JJS 150 2028220 150 KLS 150 A6K 150 R HSJ 150 125 90 KTS R 175 JKS 175 JJS 175 2028220 200 KLS 175 A6K 175 R HSJ 175 Enclosure Type A2 A3 A5 B1 B2 C1 C2 Rated P...

Page 108: ...ø0 75 ø19 ø0 75 ø19 e ø0 22 ø5 5 ø0 22 ø5 5 ø0 26 ø6 5 ø0 35 ø9 ø0 35 ø9 ø0 35 ø9 ø0 35 ø9 f 0 35 9 0 26 6 5 0 35 9 0 35 9 0 35 9 0 39 9 8 0 39 9 8 Max weight lbs kg 11 7 5 3 15 5 7 0 29 8 31 3 13 5 14 2 51 23 59 6 27 99 2 45 143 3 65 Front cover tightening torque Nm Plastic cover NEMA 1 IP21 Click Click Click Click Click Click Metal cover NEMA 12 IP55 1 5 2 2 2 2 2 2 2 2 Enclosure Type D1 D2 Rate...

Page 109: ...103 31 00559 01 ...

Page 110: ... Magnet Motor AMA Automatic Motor Adaptation PELV Protective Extra Low Voltage C Degrees Celsius PCB Printed Circuit Board DC Direct Current PWM Pulse Width Modulated EMC Electro Magnetic Compatibility ILIM Current Limit ETR Electronic Thermal Relay IINV Rated Inverter Output Current FC Adjustable Frequency Drive RPM Revolutions Per Minute LCP Local Control Panel Regen Regenerative Terminals MCT M...

Page 111: ...y Save 0 50 LCP Copy 0 51 Set up Copy 0 6 Password 0 60 Main Menu Password 0 61 Access to Main Menu w o Password 0 65 Personal Menu Password 0 66 Access to Personal Menu w o Password 0 67 Bus Access Password 0 7 Clock Settings 0 70 Date and Time 0 71 Date Format 0 72 Time Format 0 74 DST Summertime 0 76 DST Summertime Start 0 77 DST Summertime End 0 79 Clock Fault 0 81 Working Days 0 82 Additional...

Page 112: ...stments 1 80 Function at Stop 1 81 Min Speed for Function at Stop RPM 1 82 Min Speed for Function at Stop Hz 1 86 Trip Speed Low RPM 1 87 Trip Speed Low Hz 1 9 Motor Temperature 1 90 Motor Thermal Protection 1 91 Motor External Fan 1 93 Thermistor Source 2 Brakes 2 0 DC Brake 2 00 DC Hold Preheat Current 2 01 DC Brake Current 2 02 DC Braking Time 2 03 DC Brake Cut in Speed RPM 2 04 DC Brake Cut in...

Page 113: ...om Hz 4 62 Bypass Speed to RPM 4 63 Bypass Speed To Hz 4 64 Semi Auto Bypass Set up 5 Digital In Out 5 0 Digital I O mode 5 00 Digital I O Mode 5 01 Terminal 27 Mode 5 02 Terminal 29 Mode 5 1 Digital Inputs 5 10 Terminal 18 Digital Input 5 11 Terminal 19 Digital Input 5 12 Terminal 27 Digital Input 5 13 Terminal 29 Digital Input 5 14 Terminal 32 Digital Input 5 15 Terminal 33 Digital Input 5 16 Te...

Page 114: ...o 6 2 Analog Input 54 6 20 Terminal 54 Low Voltage 6 21 Terminal 54 High Voltage 6 22 Terminal 54 Low Current 6 23 Terminal 54 High Current 6 24 Terminal 54 Low Ref Feedb Value 6 25 Terminal 54 High Ref Feedb Value 6 26 Terminal 54 Filter Time Con stant 6 27 Terminal 54 Live Zero 6 3 Analog Input X30 11 6 30 Terminal X30 11 Low Voltage 6 31 Terminal X30 11 High Voltage 6 34 Term X30 11 Low Ref Fee...

Page 115: ...s Message Count 8 81 Bus Error Count 8 82 Slave Messages Rcvd 8 83 Slave Error Count 8 84 Slave Messages Sent 8 85 Slave Timeout Errors 8 89 Diagnostics Count 8 9 Bus Jog 8 90 Bus Jog 1 Speed 8 91 Bus Jog 2 Speed 8 94 Bus Feedback 1 8 95 Bus Feedback 2 8 96 Bus Feedback 3 9 Profibus 9 00 Setpoint 9 07 Actual Value 9 15 PCD Write Configuration 9 16 PCD Read Configuration 9 18 Node Address 9 22 Tele...

Page 116: ...ignment 12 01 IP Address 12 02 Subnet Mask 12 03 Default Gateway 12 04 DHCP Server 12 05 Lease Expires 12 06 Name Servers 12 07 Domain Name 12 08 Host Name 12 09 Physical Address 12 1 Ethernet Link Parameters 12 10 Link Status 12 11 Link Duration 12 12 Auto Negotiation 12 13 Link Speed 12 14 Link Duplex 12 2 Process Data 12 20 Control Instance 12 21 Process Data Config Write 12 22 Process Data Con...

Page 117: ...balance 14 2 Reset Functions 14 20 Reset Mode 14 21 Automatic Restart Time 14 22 Operation Mode 14 23 Typecode Setting 14 25 Trip Delay at Torque Limit 14 26 Trip Delay at Inverter Fault 14 28 Production Settings 14 29 Service Code 14 3 Current Limit Ctrl 14 30 Current Lim Ctrl Propor tional Gain 14 31 Current Lim Ctrl Integration Time 14 32 Current Lim Ctrl Filter Time 14 4 Energy Optimizing 14 4...

Page 118: ...ial No 15 70 Option in Slot A 15 71 Slot A Option SW Version 15 72 Option in Slot B 15 73 Slot B Option SW Version 15 74 Option in Slot C0 15 75 Slot C0 E0 Option SW Ver sion 15 76 Option in Slot C1 15 77 Slot C1 E1 Option SW Ver sion 15 8 Operating Data II 15 80 Fan Running Hours 15 81 Preset Fan Running Hours 15 9 Parameter Info 15 92 Defined Parameters 15 93 Modified Parameters 15 98 Drive Iden...

Page 119: ...arning Word 2 16 94 Ext Status Word 16 95 Ext Status Word 2 16 96 Maintenance Word 18 Info Readouts 18 0 Maintenance Log 18 00 Maintenance Log Item 18 01 Maintenance Log Action 18 02 Maintenance Log Time 18 03 Maintenance Log Date and Time 18 1 Fire Mode Log 18 10 Fire Mode Log Event 18 11 Fire Mode Log Time 18 12 Fire Mode Log Date and Time 18 3 Inputs Outputs 18 30 Analog Input X42 1 18 31 Analo...

Page 120: ...um Feedback Level 21 09 PID Autotuning 21 1 Ext CL 1 Ref Fb 21 10 Ext 1 Ref Feedback Unit 21 11 Ext 1 Minimum Reference 21 12 Ext 1 Maximum Reference 21 13 Ext 1 Reference Source 21 14 Ext 1 Feedback Source 21 15 Ext 1 Setpoint 21 17 Ext 1 Reference Unit 21 18 Ext 1 Feedback Unit 21 19 Ext 1 Output 21 2 Ext CL 1 PID 21 20 Ext 1 Normal Inverse Con trol 21 21 Ext 1 Proportional Gain 21 22 Ext 1 Inte...

Page 121: ...nd of Curve 22 50 End of Curve Function 22 51 End of Curve Delay 22 6 Broken Belt Detection 22 60 Broken Belt Function 22 61 Broken Belt Torque 22 62 Broken Belt Delay 22 7 Short Cycle Protection 22 75 Short Cycle Protection 22 76 Interval between Starts 22 77 Minimum Run Time 22 78 Minimum Run Time Override 22 79 Minimum Run Time Override Value 22 8 Flow Compensation 22 80 Flow Compensation 22 81...

Page 122: ...Rotor Function 24 96 Locked Rotor Coefficient 1 24 97 Locked Rotor Coefficient 2 24 98 Locked Rotor Coefficient 3 24 99 Locked Rotor Coefficient 4 25 Cascade Controller 25 0 System Settings 25 00 Cascade Controller 25 02 Motor Start 25 04 Pump Cycling 25 05 Fixed Lead Pump 25 06 Number Of Pumps 25 2 Bandwidth Settings 25 20 Staging Bandwidth 25 21 Override Bandwidth 25 22 Fixed Speed Bandwidth 25 ...

Page 123: ...erminal X42 7 Max Scale 26 43 Terminal X42 7 Bus Control 26 44 Terminal X42 7 Timeout Pre set 26 5 Analog Out X42 9 26 50 Terminal X42 9 Output 26 51 Terminal X42 9 Min Scale 26 52 Terminal X42 9 Max Scale 26 53 Terminal X42 9 Bus Control 26 54 Terminal X42 9 Timeout Pre set 26 6 Analog Out X42 11 26 60 Terminal X42 11 Output 26 61 Terminal X42 11 Min Scale 26 62 Terminal X42 11 Max Scale 26 63 Te...

Page 124: ...Temp Input X48 10 35 34 Term X48 10 Filter Time Constant 35 35 Term X48 10 Temp Monitor 35 36 Term X48 10 Low Temp Limit 35 37 Term X48 10 High Temp Limit 35 4 Analog Input X48 2 35 42 Term X48 2 Low Current 35 43 Term X48 2 High Current 35 44 Term X48 2 Low Ref Feedb Value 35 45 Term X48 2 High Ref Feedb Value 35 46 Term X48 2 Filter Time Con stant 35 47 Term X48 2 Live Zero ...

Page 125: ...119 31 00559 01 ...

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Page 127: ... Honeywell 715 Peachtree Street NE Atlanta GA 30308 buildings honeywell com 31 00559 01 08 22 ...

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