Page 1 Effective June 2018 Variable Speed Drive Series III Supersedes March 2018 Application manual Supports Firmware Version Bundle: DH1-V0003-JCI...
Page 2 BETWEEN THE PARTIES. In no event will Johnson Controls be responsible to the purchaser or user in contract, in tort (including negligence), strict liability, or otherwise for any special, indirect, incidental, or consequential damage or loss whatsoever, including but not...
Page 3 Variable Speed Drive Series III Support services Support services The goal of Johnson Controls is to ensure your greatest possible satisfaction with the operation of our products. We are dedicated to providing fast, friendly, and accurate assistance. That is why we offer you so many ways to get the support you need.
Page 4: Table Of Contents
Variable Speed Drive Series III Table of contents SAFETY Before commencing the installation ........xv Definitions and symbols .
Page 5 Variable Speed Drive Series III Table of contents, continued CHAPTER 5—BASIC APPLICATION, continued Control I/O configuration ..........33 Basic application—parameters list .
Page 6 Variable Speed Drive Series III Table of contents, continued CHAPTER 7—ADVANCED APPLICATION PARAMETER I/O Controls ............92 Force open/force close selection .
Page 7 Figure 3. VS3 carton rating label ......... .2 Figure 4. Johnson Controls Series III VSD—catalog numbering system ...3 Figure 5.
Page 8 Variable Speed Drive Series III List of fi gures, continued Figure 40. AI1 reference potentiometer 10V ......147 Figure 41.
Page 9 Variable Speed Drive Series III List of tables Table 1. Common abbreviations ......... .1 Table 2.
Page 10 Variable Speed Drive Series III List of tables, continued Table 39. Analog Output 2 — P3.4 ........44 Table 40.
Page 11 Variable Speed Drive Series III List of tables, continued Table 80. Supervisions — P3.2 ......... .67 Table 81.
Page 12 Variable Speed Drive Series III List of tables, continued Table 120. Interval 3 — P11.3 ......... . .83 Table 121.
Page 13 Variable Speed Drive Series III List of tables, continued Table 163. Energy Savings Calc — P4.4 ........109 Table 164.
Page 14 Variable Speed Drive Series III List of tables, continued Table 206. SA Bus — P12.3.4 .........125 Table 207 .
Page 15: Before Commencing The Installation
Variable Speed Drive Series III Safety WARNING! DANGEROUS ELECTRICAL VOLTAGE! Measures should be taken to ensure the proper restart Before commencing the installation • of programs interrupted after a voltage dip or failure. Disconnect the power supply of the device This should not cause dangerous operating states even for •...
Page 16: Definitions And Symbols
Variable Speed Drive Series III Definitions and symbols Warnings and cautions This manual contains clearly marked cautions and warnings WARNING which are intended for your personal safety and to avoid This symbol indicates high voltage. It calls your any unintentional damage to the product or connected attention to items or operations that could be appliances.
Page 17: Important Safety Information
Variable Speed Drive Series III Important safety information Hazardous high voltage Important warnings WARNING WARNING The components of the power unit are live when the AC drive is meant for fixed installations only. AC drive is connected to mains potential. Coming into contact with this voltage is extremely dangerous and WARNING may cause death or severe injury.
Page 18 Variable Speed Drive Series III Additional cautions CAUTION The AC drive must always be grounded with an grounding conductor connected to the grounding terminal marked with. The ground leakage current exceeds 3.5 mA AC. According to EN61800-5-1, one or more of the following conditions for the associated protective circuit shall be satisfied: a) The protective conductor shall have a cross-sectional...
Page 19 Variable Speed Drive Series III Sécurité AVERTISSEMENT ! TENSION ÉLECTRIQUE DANGEREUSE ! Les dispositifs conçus pour un montage dans des boîtiers • Avant de commencer l’installation ou armoires de commande ne doivent être utilisés et contrôlés qu’après avoir été installés et avec le boîtier Débrancher l’alimentation de l’appareil •...
Page 20 Variable Speed Drive Series III Pour réduire les risques d’accidents et de dommages Haute tension dangereuse • matériels, l’utilisateur doit inclure dans la conception de la machine des mesures limitant les conséquences de AVERTISSEMENT panne ou de mauvais fonctionnement de l’entraînement (augmentation de la vitesse ou arrêt soudain du moteur).
Page 21 Variable Speed Drive Series III Avertissements et mises en garde AVERTISSEMENT AVERTISSEMENT Un dispositif de protection/déconnexion en amont S’assurer de mettre l’appareil à la terre en suivant doit être fourni, tel que requis par le code électrique les instructions de ce manuel. Les unités non mises national (NEC ®...
Page 22 Variable Speed Drive Series III AVERTISSEMENT MISE EN GARDE Le fonctionnement de cet équipement nécessite Installer cet entraînement sur une surface perpendiculaire le respect des instructions d’installation et de capable de supporter le poids de l’entraînement et non fonctionnement détaillées fournies dans le manuel soumise à...
Page 23 Variable Speed Drive Series III Sécurité du moteur et de l’équipement MISE EN GARDE Les entrées anti-rebond ne sont pas permises dans le MISE EN GARDE schéma du circuit de sécurité. Des disjoncteurs de courant résiduel (RCD) ne peuvent être installés qu’entre le réseau n’effectuer aucun test de résistance de tension ou au de courant alternatif et l’entraînement.
Page 24 Variable Speed Drive Series III MISE EN GARDE Lorsque les bornes de commande de deux ou plusieurs unités d’entraînement sont raccordées en parallèle, la tension auxiliaire de ces connexions de commande doit être fournie par une source unique, qui peut être soit l’une des unités, soit une alimentation externe.
Page 25: Chapter 1-Variable Speed Drives Series Iii Overview
Chapter 1—Variable Speed Drives Series III overview Chapter 1—Variable Speed Drives Series III overview This chapter describes the purpose and contents of this Real time clock battery activation manual, the receiving inspection recommendations and the To activate the real time clock (RTC) functionality in the VFD, Open Drive catalog numbering system.
Page 26: Rating Label
Chapter 1—Variable Speed Drives Series III overview Rating label Carton rating label Figure 2. VS3 rating label Figure 3. VS3 carton rating label VARIABLE SPEED DRIVE SERIES III LIT-12012999—June 2018 www.johnsoncontrols.com...
Page 27: Catalog Number System
Chapter 1—Variable Speed Drives Series III overview Catalog number system Figure 4. Johnson Controls Series III VSD—catalog numbering system VS3 – 010 – 4 – UL1 – 0 Basic Naming Bypass Option VS3 = Drive 0 = N/A VS3 hp Rating Style 208–240 V...
Page 28: Power Ratings And Product Selection
Chapter 1—Variable Speed Drives Series III overview Power ratings and product selection VS3 drives—FRO, 230 Volt Table 2. Open Type /IP20 Constant torque (CT)/high overload (I Variable torque (VT)/low overload (I 230 V, 50 Hz 230 V, 60 Hz Current 230 V, 50 Hz 230 V, 60 Hz Current...
Page 29: Table 5. Open Type /Ip20
VS3-343D3EB-C20C VS3-344D3EB-C20C VS3-345D6EB-C20C VS3-347D6EB-C20C Note: IP20 FR0 will be available in June 2019. VS3 series drives—380–500 volt Table 6. Type 1/IP21 Constant torque (CT)/high overload (I Variable torque (VT)/low overload (I 400 V, 50 Hz 460 V, 60 Hz Current...
Page 30: Table 7. Type 12/Ip54
Chapter 1—Variable Speed Drives Series III overview Table 7. Type 12/IP54 Constant torque (CT)/high overload (I Variable torque (VT)/low overload (I 400 V, 50 Hz 460 V, 60 Hz Current 400 V, 50 Hz 460 V, 60 Hz Current Frame size kW rating kW rating Catalog number...
Page 31: Table 9. Type 12/Ip54
Chapter 1—Variable Speed Drives Series III overview Table 9. Type 12/IP54 Constant torque (CT)/high overload (I Variable torque (VT)/low overload (I 600 V, 60 Hz 600 V, 60 Hz Current 600 V, 60 Hz 600 V, 60 Hz Current Frame size kW rating kW rating Catalog number...
Page 32: Chapter 2-Keypad Overview
Chapter 2—Keypad overview Chapter 2—Keypad overview The keypad is the interface between the drive and the user. It features an LCD display, 3 LED lights and 11 buttons. With the control keypad, it is possible to control the speed of a motor, to supervise the state of the equipment and to set the frequency converter’s parameters.
Page 33: Keypad Buttons
Chapter 2—Keypad overview Keypad buttons Buttons description Table 10. Keypad buttons Icon Button Description Soft key 1, Soft key 1, soft key 2: Soft key 2 The functions of these two buttons shall be the following: Forward/Reverse, this shall change motor’s run direction. •...
Page 34 Chapter 2—Keypad overview Table 10. Keypad buttons, continued Icon Button Description Left Left arrow: Navigation button, movement to left when editing a parameter digit by digit. • Backs up one step. • At Main Menu page by hitting Back/Reset takes to Default Page. •...
Page 35: Led Lights
Chapter 2—Keypad overview LED lights The lines definition is as below: The first line is State line, shows: RUN/STP/NRD/FIM/TFM—If motor is running, the run Table 11. LED state indicators • state shall display “RUN” , otherwise the state display Indicator Description “STP”...
Page 36: Figure 8. Upgrade Page
Chapter 2—Keypad overview Upgrade page Soft key description After welcome page, keypad will check whether there is There are two soft key buttons. They have different different keypad firmware version in MCU’s serial flash. If definitions under different pages. yes, then ask user whether to upgrade the keypad. Table 12.
Page 37: Figure 11. Parent Node Page
Chapter 2—Keypad overview 2. For the parameter group, the two soft keys 4. If one parameter has been added to the favorite list, it “REVERSE/FORWARD” and “BYPASS” shall be shown. shall appear in the favorite menu. Then when you enter See Figure 11 into the favorite menu, two soft keys “DELETE”...
Page 38: Chapter 3-Menu Overview
Chapter 3—Menu overview Chapter 3—Menu overview Main menu page The data on the keypad are arranged in menus and sub-menus. The first menu level consists of M, P , F , B, T, O and S, and it is called the Main Menu. Figure 16.
Page 39: Menu Structure
Chapter 3—Menu overview Menu structure Table 13. Keypad menus Item Description Item Description Monitor M1 - Basic Fault F1 - Active Fault M2 - IO Status F2 - History fault M3 - Optional Boards F3 - Fault Log M4 - Energy savings Option Boards B1 - Slot A M5 - FB Monitor Menu...
Page 40: M - Monitor
Chapter 3—Menu overview M — Monitor In monitor page, user shall not be able to edit the parameters except multi-monitor parameter. Multi-monitor parameters allow for displaying 3 monitor values on display. The three values can be changed to any of the listed values. The navigation for monitor is as Figure 17.
Page 41: F - Fault
Chapter 3—Menu overview F — Fault After the DETAIL soft key is pressed, the following detail information about the fault shall be shown: fault code, There are three fault pages. The first one is F1 active faults; type, power day count, power hour count, frequency, the second one will pop-up automatically when fault occurs;...
Page 42: Pop-Up Fault
Chapter 3—Menu overview Pop-up fault The navigation for the pop-up active fault is as Figure 19. Figure 20. Pop-up active faults Back key to the last page F1.2: Fault Code: 2 Soft key 2 Over Voltage Type: Fault Total Power Day Count: 0 2012.04.08 12:30:45 DETAILS 13:53...
Page 43: Fault History
Chapter 3—Menu overview Fault history The navigation for fault history is as Figure 20. In any page, OK button is used to clear all the active faults and fault history by pressing more than 5s without password. Figure 21. Fault history P: Parameters F1: Active Fault Right/OK ke...
Page 44: Fault Log
Chapter 3—Menu overview Fault Log The Fault Log will store the last 50 faults in it with 1 being the most recent and 50 being the oldest. Only the fault code, name and time stamp are stored with these faults. P —...
Page 45 Chapter 3—Menu overview Figure 23. Parameter sets P12: Communication P13: System P1: Basic Parameters REVERSE BYPASS 13:53 Right/OK and down keys P13.1.2: Application P13.1.3: Parameter Sets P13.1.4: Up to Keypad BYPASS 13:53 REVERSE Right key twice and Up key P13.1.3 P13.1.3 Down key Parameter Sets...
Page 46: Figure 23. Down From Keypad
Chapter 3—Menu overview 2. Up to keypad and P13.1.5 Down from keypad Down from keypad is to download parameters from keypad to drive. Up to keypad takes the parameters from During this operation, “waiting…” shall flash, which the drive and loads them to the keypad. means it is in process.
Page 47: Figure 24. Parameters Comparison
Chapter 3—Menu overview 3. P13.1.6 Parameters Comparison If the user wants to modify the current value, user shall be able to enter the edit mode by right key. After the operation, the number of different parameter will be shown. Then press the right key; the first User shall be able to browse all the different parameters different parameter shall be shown.
Page 48: Figure 25. Password
Chapter 3—Menu overview 4. P13.1.7 Password Enter the password setting page. If the password is 0000, then the “Not use” shall be shown. If the Password protects the parameters’ security. Zero means password is not 0000, then the “in use” shall be shown. not used, otherwise in use.
Page 49: Value Edit
Chapter 3—Menu overview Value edit (just read the value of this parameter), press “Right” key again to enter the edit mode (user can modify the value This topic shows the methods to edit value, and what of this parameter), press “Right” key again to enter the will happen to edit value when password is in use and bit-by-bit edit mode.
Page 50: T-Favorite
Chapter 3—Menu overview 1. If password is in use, password shall be needed to check before edit parameter value. 2. If no action in 1min, the password shall need to be checked again. 3. If Parameter locked is enabled, *Locked* shall be shown if user tries to edit the parameter.
Page 51: Chapter 4-Startup
Chapter 4—Startup Chapter 4—Startup Table 14. Startup wizard instructions Startup wizard page Item Description The Startup Wizard is a sub-menu of main menu. Once user Startup Wizard Press OK? enters into this menu, the Startup Wizard will begin. Application 0 = basic In the Startup Wizard, you will be prompted for essential 1 = PID information needed by the drive so that it can start...
Page 52: Pid And Advanced Application Mini-Wizard
Chapter 4—Startup Table 14. Startup wizard instructions continued PID and Advanced Application Mini-Wizard The PID Mini-Wizard is activated in the Quick Setup menu. Item Description This Wizard assumes that you are going to use the PID Hand Reference, continued 13 = AI1 * AI2 controller in the “one feedback/one setpoint”...
Page 53: Chapter 5-Basic Application
Chapter 5—Basic application Chapter 5—Basic application The Basic Application is designed for preloaded application I/O controls sets for use with HVAC specific terminology and functions. Terminal To Function (TTF) Programming It has the patent Active Energy Control algorithm that will •...
Page 54: Force Open/Force Close Selection
Chapter 5—Basic application Force open/force close selection DIGIN selection The Force Open Selection would make the selected This allows Assignment of a hardware digital input to a function always off. Essentially this is a virtual switch that function, this is set in a format of DigIN:X where X is one of is always open.
Page 55: Basic Application Control I/O Configuration
Chapter 5—Basic application Basic Application Control I/O configuration Run 240 Vac and 24 Vdc control wiring in separate conduit • Communication wire to be shielded • Table 16. I/O connection External Wiring Signal Name Signal Default Setting Description +10V Ref. Output Voltage 10VDC Supply Source AI1+ Analog Input 1...
Page 56: Table 17. Drive Communication Ports
Chapter 5—Basic application Table 17. Drive communication ports Port Communication RJ45 Keypad Port Upload/Download Parameters USB to RJ45 Remote Mount Keypad Ethernet Upgrade Drive Firmware USB to RJ45 RJ45 Ethernet Port Upload/Download Parameters Ethernet BACnet IP Communications Ethernet Modbus TCP Communications Ethernet RS-485 Serial Port Upload/Download Parameters...
Page 57: Control I/O Configuration
Chapter 5—Basic application Control I/O configuration Run 240 Vac and 24 Vdc control wiring in separate conduit • Communication wire to be shielded • Basic application—parameters list On the next pages you will find the lists of parameters within the respective parameter groups. The parameter descriptions are given in Appendix A, “Description of Parameters.
Page 58: Table 20. Optional Boards - M3
Chapter 5—Basic application Table 20. Optional Boards — M3 Code Parameter Min. Max. Unit Default Note M3.1 PT100 Temperture 1000.0 Table 21. Energy Savings — M4 Code Parameter Min. Max. Unit Default Note Energy Savings Varies 0.000 2120 M4.1 Table 22. FB Monitor Menu — M5 Code Parameter Min.
Page 59: Table 22. Fb Monitor Menu - M5 Continued
Chapter 5—Basic application Table 22. FB Monitor Menu — M5 continued Code Parameter Min. Max. Unit Default Note M5.4 Application Status Bit 0 = MC_Ready Word Bit 1 = MC_Run Bit 2 = MC_Fault or Fault Trip Bit 3 = FB_Ref_Active Bit 4 = MC_Stopping Bit 5 = MC_Reverse Bit 6 = MC_Warning...
Page 60: Parameters
Chapter 5—Basic application Table 25. Multi-Monitoring — M10 Code Parameter Min. Max. Unit Default Note M10.1 Multi-Monitoring 1,2,3 Parameters Table 26. Basic Parameters — P1 Code Parameter Min. Max. Unit Default Note P1.1 Min Frequency 0.00 See Par ID 102 0.00 P1.2 Max Frequency...
Page 61: Inputs
Chapter 5—Basic application Inputs Table 27. Basic Setting — P2.1 Code Parameter Min. Min. Unit Default Note P2.1.4 AI Ref Scale Min Value 0.00 See Par ID 145 0.00 P2.1.5 AI Ref Scale Max Value See Par ID 144 400.00 0.00 Table 28.
Page 62: Table 28. Digital Input - P2.2, Continued
Chapter 5—Basic application Table 28. Digital Input — P2.2, continued Code Parameter Min. Min. Unit Default Note P2.2.7 Thermistor Input Select 0 = Digital Input 1 = Thermistor Input P2.2.8 Reverse See Par ID 190 P2.2.9 Ext. Fault 1 NO See Par ID 190 P2.2.10 Ext.
Page 63: Table 29. Preset Speed - P2.3
Chapter 5—Basic application Table 29. Preset Speed — P2.3 Code Parameter Min. Max. Unit Default Note P2.3.1 Preset Speed 1 0.00 See Par ID 102 5.00 P2.3.2 Preset Speed 2 0.00 See Par ID 102 10.00 P2.3.3 Preset Speed 3 0.00 See Par ID 102 15.00...
Page 64: Outputs
Chapter 5—Basic application Outputs Table 32. Digital Output — P3.1 Code Parameter Min. Min. Unit Default Note P3.1.1 DO1 Function 0 = Not Used 1 = Ready 2 = Run 3 = Fault 4 = Fault Invert 5 = Warning 6 = Reversed 7 = At Speed 8 = Zero Frequency...
Page 65: Table 32. Digital Output - P3.1 Continued
Chapter 5—Basic application Table 32. Digital Output — P3.1 continued Code Parameter Min. Max. Unit Default Note P3.1.2 RO1 Function See Par ID 151 P3.1.3 RO1 On Delay 320.0 2112 P3.1.4 RO1 Off Delay 320.0 2113 P3.1.5 RO2 Function See Par ID 151 P3.1.6 RO2 On Delay 320.0...
Page 66: Table 33. Supervisions - P3.2 Continued
Chapter 5—Basic application Table 33. Supervisions — P3.2 continued Code Parameter Min. Max. Unit Default Note P3.2.29 Second AI Supv Select 2193 See Par ID 170 P3.2.30 Second AI Limit Supv 2194 See Par ID 154 P3.2.31 Second AI Limit Supv Val 0.00 100.00 0.00...
Page 67: Drive Control
Chapter 5—Basic application Drive Control Table 36. Basic Setting — P4.1 Code Parameter Min. Max. Unit Default Note P4.1.1 Keypad Reference See Par ID 101 See Par ID 102 0.00 P4.1.2 Keypad Direction 0 = Forward 1 = Reverse P4.1.3 Keypad Stop 0 = Enabled-Keypad Operation 1 = Always Enabled...
Page 68: Motor Control
Chapter 5—Basic application Table 39. Analog Output 2 — P3.4 Code Parameter Min. Max. Unit Default Note P4.4.1 Currency 2122 0 = $ 1 = £ 2 = € 3 = ¥ 4 = Rs 5 = R$ 6 = Fr 7 = kr P4.4.2 Energy Cost...
Page 69 Chapter 5—Basic application Table 41. Motor — P6.1, continued Code Parameter Min. Max. Unit Default Note Motor Thermal Time P6.1.6 P6.1.7 Stall Protection See Par ID 308 P6.1.8 Stall Current Limit ActiveMotorNomCurr*2 A ActiveMotorNomCurr*13/10 Stall Time Limit 120.0 15.0 P6.1.9 P6.1.10 Stall Frequency Limit 1.00...
Page 70: Table 42. Drive - P6.2
Chapter 5—Basic application Table 41. Motor — P6.1, continued Code Parameter Min. Max. Unit Default Note P6.1.19 Preheat Enter Temp 19.9 ºC 10.0 2161 P6.1.20 Preheat Quit Temp 20.0 40.0 ºC 20.0 2162 P6.1.21 Preheat Output Volt 20.0 2163 Table 42. Drive — P6.2 Code Parameter Min.
Page 71: Table 44. Auto Restart - P6.4
Chapter 5—Basic application Table 44. Auto Restart — P6.4 Code Parameter Min. Max. Unit Default Note P6.4.1 AR Wait Time 1.00 300.00 1.00 P6.4.2 AR Trail Time 0.00 600.00 30.00 P6.4.3 AR Start Function 0 = Flying Start 1 = Ramp P6.4.4 Undervoltage Attempts P6.4.5...
Page 72: Communication
Chapter 5—Basic application Table 46. Basic Setting — P10.1, continued Code Parameter Min. Max. Unit Default Note P10.1.19 Fan Cooling Fault Bypass Enable 1707 See Par ID 1679 P10.1.20 Keypad Com Fault Bypass Enable 1708 See Par ID 1679 P10.1.21 Option Card Fault Bypass Enable 1709 See Par ID 1679...
Page 73: Rs485 Bus
Chapter 5—Basic application Table 48. FB Process Data Output Sel -- P12.2, continued Code Parameter Min. Max. Unit Default Note P12.2.9 Standard Status Word Bit0 2415 27 = Ext Fault/Warning Function Select 28 = Auto Control 29 = Jog Speed Select 30 = Motor Therm Protection 31 = FB Digital Input 1 32 = FB Digital Input 2...
Page 74: Ethernet Bus
Chapter 5—Basic application Table 51. BACnet MS/TP — P12.3.3 Code Parameter Min. Max. Unit Default Note P12.3.3.1 MSTP Baud Rate 0 = 9600 1 = 19200 2 = 38400 3 = 76800 4 = 115200 P12.3.3.2 MSTP Device Address P12.3.3.3 MSTP Instance Number 4194302 Varies...
Page 75: System
Chapter 5—Basic application Table 55. BACnet IP — P12.4.3 Code Parameter Min. Max. Unit Default Note P12.4.3.1 BACnet IP UDP port number 47808 1733 47808 = BAC0 47809 = BAC1 47810 = BAC2 47811 = BAC3 47812 = BAC4 47813 = BAC5 47814 = BAC6 47815 = BAC7 47816 = BAC8...
Page 76 Chapter 5—Basic application Table 56. Basic Setting — P13.1, continued Code Parameter Min. Max. Unit Default Note P13.1.10 Default Page 0 = None 1 = Main Menu 2 = Multi-Monitor 3 = Favorite Menu 4 = Keypad Reference P13.1.11 Timeout Time 65535 P13.1.12 Contrast Adjust...
Page 77: Table 57. Version Info - P13.2
Chapter 5—Basic application Table 57. Version Info — P13.2 Code Parameter Min. Max. Unit Default Note P13.2.1 Keypad Software Version P13.2.2 Motor Control Software Version P13.2.3 Application Software Version P13.2.4 Software Bundle Version 1714 Table 58. Application Info — P13.3 Code Parameter Min.
Page 78: Chapter 6 - Pid Application
Chapter 6 — PID Application Chapter 6 — PID application Start source (Local/Remote control function) Introduction • The PID Application is designed for preloaded application Reference source • sets for use with HVAC specific terminology and functions Flying start when using PID control loops internal to the drive. This is •...
Page 79: Force Open/Force Close Selection
Chapter 6 — PID Application Force open/force close selection Option board DigIN selection The Force Open Selection would make the selected This allows Assignment of a hardware digital input on an function always off. Essentially this is a virtual switch that option card to a function, this is set in a format of DigIN: is always open.
Page 80: Control I/O Configuration
Chapter 6 — PID Application Control I/O configuration Run 240 Vac and 24 Vdc control wiring in separate conduit • Communication wire to be shielded • Table 61. PID application default I/O connection Default AI1: 0 to 10V AI1: 0 to 20mA AI2: 0 to 20mA AI2: 0 to 10V AI2: -10V to 10V...
Page 81: Pid Application-Parameters List
Chapter 6 — PID Application Table 62. Drive communication ports Port Communication RJ45 Keypad Port Upload/Download Parameters USB to RJ45 Remote Mount Keypad Ethernet Upgrade Drive Firmware USB to RJ45 RJ45 Ethernet Port Upload/Download Parameters Ethernet BACnet IP Communications Ethernet Modbus TCP Communications Ethernet RS-485 Serial Port...
Page 82: Table 63. Basic - M1
Chapter 6 — PID Application Table 63. Basic - M1 Code Parameter Min. Max. Unit Default Note M1.1 Output Frequency M1.2 Freq Reference M1.3 Motor Speed M1.4 Motor Current M1.5 Motor Torque M1.6 Motor Power M1.7 Motor Voltage M1.8 DC-link Voltage M1.9 Unit Temperature ˚C...
Page 83: Table 67. Fb Monitor Menu - M5
Chapter 6 — PID Application Table 67. FB Monitor Menu — M5 Code Parameter Min. Max. Unit Default Note M5.1 Control Board DIDO Status 2209 Bit 0 = DIN1 Status Bit 1 = DIN2 Status Bit 2 = DIN3 Status Bit 3 = DIN4 Status Bit 4 = DIN5 Status Bit 5 = DIN6 Status...
Page 84: Table 68. Pid Monitor - M6
Chapter 6 — PID Application Table 67. FB Monitor Menu — M5, continued Code Parameter Min. Max. Unit Default Note M5.4 Application Status Word Bit 0 = MC_Ready Bit 1 = MC_Run Bit 2 = MC_Fault or Fault Trip Bit 3 = FB_Ref_Active Bit 4 = MC_Stopping Bit 5 = MC_Reverse Bit 6 = MC_Warning or AR...
Page 85: Table 69. Timer/Interval Control - M7
Chapter 6 — PID Application Table 69. Timer/Interval Control — M7 Code Parameter Min. Max. Unit Default Note M7.1 TC1, TC2, TC3 M7.2 Interval 1 0 = Inactive 1 = Active M7.3 Interval 2 See Par ID 559 M7.4 Interval 3 See Par ID 559 M7.5 Interval 4...
Page 86: Parameters
Chapter 6 — PID Application Parameters Table 73. Basic Parameters — P1 Code Parameter Min. Max. Unit Default Note P1.1 Min Frequency 0.00 See Par ID 102 0.00 P1.2 Max Frequency See Par ID 101 400.00 Varies P1.3 Accel Time 1 3000.0 20.0 P1.4...
Page 87: Table 75. Digital Input - P2.2
Chapter 6 — PID Application Table 75. Digital Input — P2.2 Code Parameter Min. Max. Unit Default Note P2.2.1 IO Terminal 1 Start Stop 0 = Forward - Reverse Logic 0 = Forward - Reverse 1 = Start - Reverse 2 = Start - Enable 3 = Start Pulse - Stop Pulse P2.2.2...
Page 88 Chapter 6 — PID Application Table 75. Digital Input — P2.2, continued Code Parameter Min. Max. Unit Default Note P2.2.12 Ext. Fault 2 NO 2293 See Par ID 190 P2.2.13 Ext. Fault 2 NC 2294 See Par ID 190 P2.2.14 Ext.
Page 89: Table 76. Preset Speed - P2.3
Chapter 6 — PID Application Table 76. Preset Speed — P2.3 Code Parameter Min. Max. Unit Default Note P2.3.1 Preset Speed 1 0.00 See Par ID 102 5.00 P2.3.2 Preset Speed 2 0.00 See Par ID 102 10.00 P2.3.3 Preset Speed 3 0.00 See Par ID 102 15.00...
Page 90: Outputs
Chapter 6 — PID Application Outputs Table 79. Digital Output — P3.1 Code Parameter Min. Max. Unit Default Note P3.1.1 DO1 Function 0 = Not Used 1 = Ready 2 = Run 3 = Fault 4 = Fault Invert 5 = Warning 6 = Reversed 7 = At Speed 8 = Zero Frequency...
Page 91: Table 80. Supervisions — P3.2
Chapter 6 — PID Application Table 79. Digital Output — P3.1, continued Code Parameter Min. Max. Unit Default Note P3.1.6 RO2 On Delay 320.0 2114 P3.1.7 RO2 Off Delay 320.0 2115 P3.1.8 RO3 Function See Par ID 151 P3.1.9 RO3 On Delay 320.0 2116 P3.1.10...
Page 92: Table 81. Analog Output 1 - P3.3
Chapter 6 — PID Application Table 80. Supervisions — P3.2, continued Code Parameter Min. Max. Unit Default Note P3.2.33 PID1 Superv Enable 1346 0 = Disabled 1 = Enabled P3.2.34 PID1 Superv Upper Limit See Par ID 1298 See Par ID 1300 Varies 0.00 1347...
Page 93: Drive Control
Chapter 6 — PID Application Table 82. Analog Output 2 — P3.4 Code Parameter Min. Max. Unit Default Note P3.4.1 AO2 Mode See Par ID 222 P3.4.2 AO2 Function See Par ID 146 P3.4.3 AO2 Minimum See Par ID 149 P3.4.4 AO2 Filter Time 0.00...
Page 94: Table 84. Brake - P4.2
Chapter 6 — PID Application Table 84. Brake — P4.2 Code Parameter Min. Max. Unit Default Note P4.2.1 DC-Brake Current DriveNomCurrCT*15/100 DriveNomCurrCT*15/10 A DriveNomCurrCT*1/2 P4.2.2 Start DC-Brake Time 0.00 600.00 0.00 P4.2.3 Stop DC-Brake Frequency 0.10 10.00 1.50 P4.2.4 Stop DC-Brake Time 0.00 600.00 0.00...
Page 95: Motor Control
Chapter 6 — PID Application Motor Control Table 87. Basic Setting — P5.1 Code Parameter Min. Max. Unit Default Note P5.1.1 Motor Control Mode 0 = Freq Control 1 = Speed Control P5.1.2 Current Limit DriveNomCurrCT*1/10 DriveNomCurrCT*2 DriveNomCurrCT*2 P5.1.3 V/Hz Optimization See Par ID 1346 P5.1.4 V/Hz Ratio...
Page 96 Chapter 6 — PID Application Table 89. Motor — P6.1, continued Code Parameter Min. Max. Unit Default Note P6.1.15 Thermistor Fault Response See Par ID 308 P6.1.16 PT100 Fault Response See Par ID 308 P6.1.17 Preheat Mode 2159 See Par ID 1346 P6.1.18 Preheat Control Source 2160...
Page 97: Table 90. Drive - P6.2
Chapter 6 — PID Application Table 90. Drive — P6.2 Code Parameter Min. Max. Unit Default Note P6.2.1 Line Start Lockout 0 = Disabled, No Change 1 = Enable, No Change 2 = Disabled, Changed 3 = Enable, Changed P6.2.2 Fault Reset Start 2483 0 = Start/Stop After Fault...
Page 98: Pid Controller 1
Chapter 6 — PID Application PID Controller 1 Table 93. Basic Setting — P7.1 Code Parameter Min. Max. Unit Default Note P7.1.1 PID1 Control Gain 0.00 200.00 100.00 1294 P7.1.2 PID1 Control ITime 0.00 600.00 1.00 1295 P7.1.3 PID1 Control DTime 0.00 100.00 0.00...
Page 99: Setpoint
Chapter 6 — PID Application Table 94. Monitor — P7.2 Code Parameter Min. Max. Unit Default Note P7.2.1 FB PID1 Set Point 1 See Par ID 1298 See Par ID 1300 Varies 2542 P7.2.2 FB PID1 Set Point 2 See Par ID 1298 See Par ID 1300 Varies 2544...
Page 100: Feedback
Chapter 6 — PID Application Table 96. Setpoint 1 — P7.3.2, continued Code Parameter Min. Max. Unit Default Note P7.3.2.9 PID1 Set Point 1 Boost -2.0 1320 P7.3.2.10 PID1 Set Point 1 Comp Enable 1352 See Par ID 1346 P7.3.2.11 PID1 Set Point 1 Comp Max -200.00 200.00...
Page 101: Feedforward
Chapter 6 — PID Application Table 99. Feedback 1 — P7.4.2 Code Parameter Min. Max. Unit Default Note P7.4.2.1 PID1 Feedback 1 Source 1332 0 = Not Used 1 = AI1 2 = AI2 3 = Slot A: AI1 4 = Slot B: AI1 5 = FB Process Data Input 1 6 = FB Process Data Input 2 7 = FB Process Data Input 3...
Page 102: Pid Controller 2
Chapter 6 — PID Application Table 102. Feedforward 1 — P7.5.2 Code Parameter Min. Max. Unit Default Note P7.5.2.1 PID1 Feedforward 1 Source 1340 0 = Not Used 1 = AI1 2 = AI2 3 = Slot A: AI1 4 = Slot B: AI1 5 = FB Process Data Input 1 6 = FB Process Data Input 2 7 = FB Process Data Input 3...
Page 103: Setpoint
Chapter 6 — PID Application Table 105. Monitor — P8.2 Code Parameter Min. Max. Unit Default Note P8.2.1 PID2 Wake Up Action 2467 See Par ID 2466 P8.2.2 FB PID2 Set Point 1 See Par ID 1298 See Par ID 1300 Varies 2546 P8.2.3...
Page 104: Feedback
Chapter 6 — PID Application Table 108. Setpoint 2 — P8.3.3 Code Parameter Min. Max. Unit Default Note P8.3.3.1 PID2 Set Point 2 Source 1383 See Par ID 1374 P8.3.3.2 PID2 Set Point 2 Min -200.00 200.00 0.00 1384 P8.3.3.3 PID2 Set Point 2 Max -200.00 200.00...
Page 105: Feedforward
Chapter 6 — PID Application Table 111. Feedback 2 — P8.4.3 Code Parameter Min. Max. Unit Default Note P8.4.3.1 PID2 Feedback 2 Source 1397 See Par ID 1394 P8.4.3.2 PID2 Feedback 2 Min -200.00 200.00 0.00 1398 P8.4.3.3 PID2 Feedback 2 Max -200.00 200.00 100.00...
Page 106: Bypass
Chapter 6 — PID Application Table 115. Fire Mode — P9 Code Parameter Min. Max. Unit Default Note P9.1 Fire Mode Function 0 = Closing Contact 1 = Opening Contact P9.2 Fire Mode Ref Select Function 0 = Fire Mode Min Frequency 1 = Fire Mode Ref 2 = Fieldbus Ref 3 = AI1...
Page 107: Real Time Clock
Chapter 6 — PID Application Table 117. Redundant Drive — P10.2 Code Parameter Min. Max. Unit Default Note P10.2.1 Redundant Drive Enable 2476 See Par ID 1346 P10.2.2 Drive ID 2278 P10.2.3 Redundant Run Time Enable 2477 See Par ID 1346 P10.2.4 Redundant Run Time Reset 2478...
Page 108: Communication
Chapter 6 — PID Application Table 121. Interval 4 — P11.4 Code Parameter Min. Max. Unit Default Note P11.4.1 Interval 4 Setting 2490 See Par ID 2487 P11.4.2 Interval 4 On Time P11.4.3 Interval 4 Off Time P11.4.4 Interval 4 From Day See Par ID 517 P11.4.5 Interval 4 To Day...
Page 109: Table 125. Fb Process Data Output Sel - P12.2
Chapter 6 — PID Application Table 125. FB Process Data Output Sel — P12.2 Code Parameter Min. Max. Unit Default Note P12.2.1 FB Process Data Output 1 Sel 1556 P12.2.2 FB Process Data Output 2 Sel 1557 P12.2.3 FB Process Data Output 3 Sel 1558 P12.2.4 FB Process Data Output 4 Sel...
Page 110: Rs485 Bus
Chapter 6 — PID Application Table 125. FB Process Data Output Sel — P12.2, continued Code Parameter Min. Max. Unit Default Note P12.2.10 Standard Status Word Bit1 2416 See Par ID 2415 Function Select P12.2.11 Standard Status Word Bit2 2417 See Par ID 2415 Function Select P12.2.12...
Page 111: Ethernet Bus
Chapter 6 — PID Application Table 128. BACnet MS/TP — P12.3.3 Code Parameter Min. Max. Unit Default Note P12.3.3.1 MSTP Baud Rate 0 = 9600 1 = 19200 2 = 38400 3 = 76800 4 = 115200 P12.3.3.2 MSTP Device Address P12.3.3.3 MSTP Instance Number 4194302...
Page 112: System
Chapter 6 — PID Application Table 131. BACnet IP — P12.4.3 Code Parameter Min. Max. Unit Default Note P12.4.3.1 BACnet IP UDP port number 47808 1733 47808 = BAC0 47809 = BAC1 47810 = BAC2 47811 = BAC3 47812 = BAC4 47813 = BAC5 47814 = BAC6 47815 = BAC7...
Page 113 Chapter 6 — PID Application Table 132. Basic Setting — P13.1, continued Code Parameter Min. Max. Unit Default Note P13.1.6 Parameter Comparison 0 = No 1 = Compare with Keypad 2 = Compare with Default 3 = Compare with Set 1 4 = Compare with Set 2 P13.1.7 Password...
Page 114: Table 133. Version Info - P13.2
Chapter 6 — PID Application Table 132. Basic Setting — P13.1, continued Code Parameter Min. Max. Unit Default Note P13.1.20 Output Display Unit 2424 0 = % 1 = 1/min 2 = rpm 3 = ppm 4 = pps 5 = l/s 6 = l/min 7 = l/h 8 = kg/s...
Page 115: Table 134. Application Info - P13.3
Chapter 6 — PID Application Table 134. Application Info — P13.3 Code Parameter Min. Max. Unit Default Note P13.3.1 Brake Chopper See Par ID 2118 P13.3.2 Brake Resistor Status See Par ID 2118 P13.3.3 Serial Number Table 135. User Info — P13.4 Code Parameter Min.
Page 116: Chapter 7-Advanced Application Parameter
Chapter 7—Advanced application parameter Chapter 7—Advanced application parameter The Advanced Application is designed for a large subset I/O Controls of applications in the HVAC industry. It includes some Terminal To Function (TTF) Programming advanced timer and logic control to operate in addition to •...
Page 117: Force Open/Force Close Selection
Chapter 7—Advanced application parameter Force open/force close selection Timer channel selection The Force Open Selection would make the selected A Time Channel is a virtual path to link the digital function always off. Essentially this is a virtual switch that output of a timer function to a digital input function.
Page 118: Control I/O Configuration
Chapter 7—Advanced application parameter Control I/O configuration Run 240 Vac and 24 Vdc control wiring in separate conduit • Communication wire to be shielded • Table 137. Advanced Application Default I/O Configuration External Wiring Signal Name Signal Default Setting Description +10V Ref.
Page 119: Table 138. Drive Communication Ports
Chapter 7—Advanced application parameter Table 138. Drive Communication Ports Port Communication RJ45 Keypad Port Upload/Download Parameters USB to RJ45 Remote Mount Keypad Ethernet Upgrade Drive Firmware USB to RJ45 RJ45 Ethernet Port Upload/Download Parameters Ethernet BACnet IP Communications Ethernet Modbus TCP Communications Ethernet RS-485 Serial Port Upload/Download Parameters...
Page 120: Advanced Application-Parameters List
Chapter 7—Advanced application parameter Advanced application—Parameters List On the next pages you will find the lists of parameters within the respective parameter groups. The parameter descriptions are given in the Appendix A. The descriptions are arranged according to the parameter number. Column explanations: Code = Location indication on the keypad;...
Page 121: Table 141. Optional Boards - M3
Chapter 7—Advanced application parameter Table 141. Optional Boards — M3 Code Parameter Min. Max. Unit Default Note M3.1 PT100 Temperture 1000.0 Table 142. Energy Savings — M4 Code Parameter Min. Max. Unit Default Note M4.1 Energy Savings Varies 0.000 2120 Table 143.
Page 122: Table 144. Pid Monitor - M6
Chapter 7—Advanced application parameter Table 143. FB Monitor Menu — M5, continued Code Parameter Min. Max. Unit Default Note M5.4 Application Status Word Bit 0 = MC_Ready Bit 1 = MC_Run Bit 2 = MC_Fault or Fault Trip Bit 3 = FB_Ref_Active Bit 4 = MC_Stopping Bit 5 = MC_Reverse Bit 6 = MC_Warning or AR...
Page 123: Parameters
Chapter 7—Advanced application parameter Table 145. Timer/Interval Control — M7 Code Parameter Min. Max. Unit Default Note M7.1 TC1, TC2, TC3 M7.2 Interval 1 0 = Inactive 1 = Active M7.3 Interval 2 See Par ID 559 M7.4 Interval 3 See Par ID 559 M7.5 Interval 4...
Page 124: Table 150. Basic Setting - P2.1
Chapter 7—Advanced application parameter Table 149. Basic Parameters — P1, continued Code Parameter Min. Max. Unit Default Note P1.11 Hand Control Place 1695 0 = Keypad 1 = I/O Terminal Start 1 2 = I/O Terminal Start 2 3 = Fieldbus P1.12 Hand Reference 0 = AI1...
Page 125: Table 151. Digital Input - P2.2
Chapter 7—Advanced application parameter Table 151. Digital Input — P2.2 Code Parameter Min. Max. Unit Default Note P2.2.1 IO Terminal 1 Start 0 = Forward - Reverse Stop Logic 1 = Start - Reverse 2 = Start - Enable 3 = Start Pulse - Stop Pulse P2.2.2 IO Terminal 1 Start Signal 1 0 = DigIN:NormallyOpen...
Page 126 Chapter 7—Advanced application parameter Table 151. Digital Input — P2.2, continued Code Parameter Min. Max. Unit Default Note P2.2.11 Ext. Fault 1 Text 2297 0 = External Fault 1 = Vibration Cut out 2 = High Motor temp 3 = Low Pressure 4 = High Pressure 5 = Low Water 6 = Damper Interlock...
Page 127: Table 152. Preset Speed - P2.3
Chapter 7—Advanced application parameter Table 152. Preset Speed — P2.3 Code Parameter Min. Max. Unit Default Note P2.3.1 Preset Speed 1 0.00 See Par ID 102 5.00 P2.3.2 Preset Speed 2 0.00 See Par ID 102 10.00 P2.3.3 Preset Speed 3 0.00 See Par ID 102 15.00...
Page 128: Outputs
Chapter 7—Advanced application parameter Outputs Table 155. Digital Output — P3.1 Code Parameter Min. Max. Unit Default Note P3.1.1 DO1 Function 0 = Not Used 1 = Ready 2 = Run 3 = Fault 4 = Fault Invert 5 = Warning 6 = Reversed 7 = At Speed 8 = Zero Frequency...
Page 129: Table 156. Supervisions - P3.2
Chapter 7—Advanced application parameter Table 155. Digital Output — P3.1, continued Code Parameter Min. Max. Unit Default Note P3.1.2 RO1 Function See Par ID 151 P3.1.3 RO1 On Delay 320.0 2112 P3.1.4 RO1 Off Delay 320.0 2113 P3.1.5 RO2 Function See Par ID 151 P3.1.6 RO2 On Delay...
Page 130: Table 156. Supervisions - P3.2
Chapter 7—Advanced application parameter Table 156. Supervisions — P3.2, continued Code Parameter Min. Max. Unit Default Note P3.2.31 Second AI Limit Supv Val 0.00 100.00 0.00 2195 P3.2.32 Second AI Supv Hyst 1.00 10.00 1.00 2199 P3.2.33 PID1 Superv Enable 1346 0 = Disabled 1 = Enabled...
Page 131: Table 158. Analog Output 2 - P3.4
Chapter 7—Advanced application parameter Table 157. Supervisions — P3.2, continued Code Parameter Min. Max. Unit Default Note P3.3.3 AO1 Minimum 0 = 0V / 0 mA 1 = 2V / 4 mA P3.3.4 AO1 Filter Time 0.00 0.00 1.00 P3.3.5 AO1 Scale P3.3.6 AO1 Inversion...
Page 132: Drive Control
Chapter 7—Advanced application parameter Table 159. Logic Function — P3.5, continued Code Parameter Min. Max. Unit Default Note P3.5.2 Logic Operation Input A 36 = Bypass Enable 37 = Jog Speed Select 38 = Motor Therm Protection 39 = FB Digital Input 1 40 = FB Digital Input 2 41 = FB Digital Input 3 42 = FB Digital Input 4...
Page 133: Motor Control
Chapter 7—Advanced application parameter Table 161. Brake — P4.2 Code Parameter Min. Max. Unit Default Note P4.2.1 DC-Brake Current DriveNomCurrCT DriveNomCurrCT DriveNomCurrCT *15/100 *15/10 *1/2 P4.2.2 Start DC-Brake Time 0.00 600.00 0.00 P4.2.3 Stop DC-Brake Frequency 0.10 10.00 1.50 P4.2.4 Stop DC-Brake Time 0.00 600.00...
Page 134: Protections
Chapter 7—Advanced application parameter Table 164. Basic Setting — P5.1, continued Code Parameter Min. Max. Unit Default Note P5.1.3 V/Hz Optimization 109 See Par ID 1346 P5.1.4 V/Hz Ratio 108 0 = Linear 1 = Squared 2 = Programmable 3 = Linear + Flux Optimization P5.1.5 Field Weakening Point...
Page 135: Table 166. Motor - P6.1
Chapter 7—Advanced application parameter Table 166. Motor — P6.1, continued Code Parameter Min. Max. Unit Default Note P6.1.18 Preheat Control Source 2160 0 = DigIN:NormallyOpen 1 = DigIN:NormallyClose 2 = DigIN: 1 3 = DigIN: 2 4 = DigIN: 3 5 = DigIN: 4 6 = DigIN: 5 7 = DigIN: 6...
Page 136: Table 167. Drive - P6.2
Chapter 7—Advanced application parameter Table 166. Motor — P6.1, continued Code Parameter Min. Max. Unit Default Note P6.1.19 Preheat Enter Temp 19.9 ºC 10.0 2161 P6.1.20 Preheat Quit Temp 20.0 40.0 ºC 20.0 2162 P6.1.21 Preheat Output Volt 20.0 2163 Table 167.
Page 137: Pid Controller 1
Chapter 7—Advanced application parameter Table 169. Auto Restart — P6.4, continued Code Parameter Min. Max. Unit Default Note P6.4.4 Undervoltage Attempts P6.4.5 OverVoltage Attempts P6.4.6 OverCurrent Attempts P6.4.7 4mA Fault Attempts P6.4.8 Motor Temp Fault Attempts 0 P6.4.9 External Fault Attempts P6.4.10 Underload Attempts PID Controller 1...
Page 138: Setpoint
Chapter 7—Advanced application parameter Table 170. Basic Setting — P7.1, continued Code Parameter Min. Max. Unit Default Note P7.1.5 PID1 Process Unit Min -99999.99 See Par ID 1300 Varies 0.00 1298 P7.1.6 PID1 Process Unit Max See Par ID 1298 99999.99 Varies 100.00 1300...
Page 139: Table 173. Setpoint 1 - P7.3.2
Chapter 7—Advanced application parameter Table 173. Setpoint 1 — P7.3.2 Code Parameter Min. Max. Unit Default Note P7.3.2.1 PID1 Set Point 1 Source 1312 0 = Not Used 1 = PID1 Keypad Set Point 1 2 = PID1 Keypad Set Point 2 3 = AI1 4 = AI2 5 = Slot A: AI1...
Page 140: Feedback
Chapter 7—Advanced application parameter Feedback Table 175. Basic — P7.4.1 Code Parameter Min. Max. Unit Default Note P7.4.1.1 PID1 Feedback Function 1330 0 = Source 1 1 = SQRT(Source 1) 2 = SQRT(Source 1 - Source 2) 3 = SQRT(Source 1) + SQRT(Source 2) 4 = Source 1 + Source 2 5 = Source 1 - Source 2...
Page 141: Pid Controller 2
Chapter 7—Advanced application parameter Table 179. Feedforward 1 — P7.5.2 Code Parameter Min. Max. Unit Default Note P7.5.2.1 PID1 Feedforward 1 Source 1340 0 = Not Used 1 = AI1 2 = AI2 3 = Slot A: AI1 4 = Slot B: AI1 5 = FB Process Data Input 1 6 = FB Process Data Input 2 7 = FB Process Data Input 3...
Page 142: Setpoint
Chapter 7—Advanced application parameter Table 182. Monitor — P8.2 Code Parameter Min. Max. Unit Default Note P8.2.1 PID2 Wake Up Action 2467 See Par ID 2466 P8.2.2 FB PID2 Set Point 1 See Par ID 1298 See Par ID 1300 Varies 2546 P8.2.3 FB PID2 Set Point 2...
Page 143: Feedback
Chapter 7—Advanced application parameter Table 185. Setpoint 2 — P8.3.3 Code Parameter Min. Max. Unit Default Note P8.3.3.1 PID2 Set Point 2 Source 1383 See Par ID 1374 P8.3.3.2 PID2 Set Point 2 Min -200.00 200.00 0.00 1384 P8.3.3.3 PID2 Set Point 2 Max -200.00 200.00 100.00...
Page 144: Feedforward
Chapter 7—Advanced application parameter Feedforward Table 189. Basic — P8.5.1 Code Parameter Min. Max. Unit Default Note P8.5.1.1 PID2 Feedforward Func 1400 See Par ID 1330 P8.5.1.2 PID2 Feedforward Gain -1000.0 1000.0 100.0 1401 Table 190. Feedforward 1 — P8.5.2 Code Parameter Min.
Page 145: Bypass
Chapter 7—Advanced application parameter Bypass Table 193. Basic Setting — P10.1 Code Parameter Min. Max. Unit Default Note P10.1.1 Bypass Enable 1418 See Par ID 1346 P10.1.2 Bypass Start Delay 32765 P10.1.3 Auto Bypass See Par ID 1346 P10.1.4 Auto Bypass Delay 32765 P10.1.5 OverCurrent Bypass Enable...
Page 146: Table 196. Interval 2 - P11.2
Chapter 7—Advanced application parameter Table 195. Interval 1 — P11.1, continued Code Parameter Min. Max. Unit Default Note P11.1.4 Interval 1 From Day 0 = Sunday 1 = Monday 2 = Tuesday 3 = Wednesday 4 = Thursday 5 = Friday 6 = Saturday P11.1.5 Interval 1 To Day...
Page 147: Communication
Chapter 7—Advanced application parameter Table 200. Timer — P11.6 Code Parameter Min. Max. Unit Default Note P11.6.1 Timer 1 Duration 72000 P11.6.2 Timer 1 Channel See Par ID 519 P11.6.3 Timer 2 Duration 72000 P11.6.4 Timer 2 Channel See Par ID 519 P11.6.5 Timer 3 Duration 72000...
Page 148: Rs485 Bus
Chapter 7—Advanced application parameter Table 202. FB Process Data Output Sel — P12.2, continued Code Parameter Min. Max. Unit Default Note P12.2.9 Standard Status Word Bit0 2415 26 = In Bypass Mode Function Select (cont.) 27 = Ext Fault/Warning 28 = Auto Control 29 = Jog Speed Select 30 = Motor Therm Protection 31 = FB Digital Input 1...
Page 149: Ethernet Bus
Chapter 7—Advanced application parameter Table 204. Modbus RTU — P12.3.2, continued Code Parameter Min. Max. Unit Default Note P12.3.2.3 Parity Type 0 = None 1 = Odd 2 = Even P12.3.2.4 Modbus RTU Protocol Status 0 = Initial 1 = Stopped 2 = Operational 3 = Faulted P12.3.2.5...
Page 150: Table 131. Bacnet Ip - P12.4.3
Chapter 7—Advanced application parameter Table 208. Modbus TCP — P12.4.2 Code Parameter Min. Max. Unit Default Note P12.4.2.1 Connection Limit P12.4.2.2 Modbus TCP Unit ID P12.4.2.3 Comm Timeout Modbus TCP 0 60000 10000 P12.4.2.4 Modbus TCP Protocol Status See Par ID 599 P12.4.2.5 Modbus TCP Fault Response 2517...
Page 151: System
Chapter 7—Advanced application parameter System Table 210. Basic Setting — P13.1 Code Parameter Min. Max. Unit Default Note P13.1.1 Language 0 = English 2 = Deutsch P13.1.2 Application 0 = Basic 1 = PID 2 = Advanced P13.1.3 Parameter Sets 0 = No 1 = Reload Defaults 2 = Reload Set 1...
Page 152: Table 210. Basic Setting - P13.1
Chapter 7—Advanced application parameter Table 210 Basic Setting — P13.1, continued Code Parameter Min. Max. Unit Default Note P13.1.20 Output Display Unit 2424 0 = % 1 = 1/min 2 = rpm 3 = ppm 4 = pps 5 = l/s 6 = l/min 7 = l/h 8 = kg/s...
Page 153: Table 212. Application Info - P13.3
Chapter 7—Advanced application parameter Table 212. Application Info — P13.3 Code Parameter Min. Max. Unit Default Note P13.3.1 Brake Chopper See Par ID 2118 P13.3.2 Brake Resistor Status See Par ID 2118 P13.3.3 Serial Number Table 213. User Info — P13.4 Code Parameter Min.
Page 154: Appendix A-Description Of Parameters
Appendix A—Description of parameters Appendix A—Description of parameters On the following pages you will find the parameter descriptions arranged according to the parameter number. Some parameter names are followed by a number code indicating the applications in which the parameter is included. See the list of applications below.
Page 155: Figure 29. Motor Parameters From Ratings Plate
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P1.5 Motor Nom Current 1,2,3 Use this parameter to set the Motor rated current. Figure 29. Motor parameters from ratings plate P1.8 P1.5 230/400V 4.0/2.3A cos 0.67 0.75 kW 1410 min –1 50 Hz P1.7...
Page 156 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P1.12 Hand Reference 1,2,3 This parameter determines the reference for "Hand" control mode. 0 = AI1 - Control Terminals 2 and 3, defined as a voltage or current signal input based on S1 DIP switch setting.
Page 157 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P1.16 Auto 2 Reference 1,2,3 Use this parameter to select what frequency reference source to look at when in the “Auto 2” control mode. 0 = AI1 - Control Terminals 2 and 3, defined as a voltage or current signal input based on S1 DIP switch setting.
Page 158: Figure 30. With And Without Reference Scaling
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.1.5 AI Ref Scale Max Value 1,2,3 Max Frequency when max of Analog Reference is applied. With values set at 0 scaling will follow the maximum frequency value parameter Para ID 102. Figure 30.
Page 159: Figure 32. Start, Stop And Reverse
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.1 1 = Para ID 190: DI closed contact = start /open contact = stop Para ID 191: DI closed contact = reverse 1,2,3 / open contact = forward - This would be considered 2 wire control with a contact on start/stop, contact open it stops and direction on 2nd start signal.
Page 160: Figure 33. Start Pulse/Stop Pulse
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.1 3 = Three-wire connection (pulse control): Para ID 190: DI changes from open to closed = start pulse Para 1,2,3 ID 191: DI changes from closed to open = stop pulse Para ID 198: DI closed contact = reverse/ open contact = forward - This would be considered 3 wire control with Start Signal 1 being the Start Pulse and Start Signal 2 being the NC Stop.
Page 161: Figure 34. Start Forward/Start Reverse
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.4 2206 IO Terminal 2 Start Stop Logic 1,2,3 This parameter defines the start and stop of the drive with the digital signals. 0 = Para ID 2207: DI closed contact = start forward Para ID 2208: DI closed contact = start reverse - This would be considered 2 wire control with either a contact used on the Start FWD or Start REV commands.
Page 162: Figure 35. Start Pulse/Stop Pulse
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.4 2206 2 = Para ID 2207: DI closed contact = start / open contact = stop Para ID 2208: DI closed contact = start 1,2,3 enabled / open contact = start disabled and drive stopped if running Motor direction keeps forward - This would be considered 3 wire control with Start signal 2 required to be closed to enable Start on Start signal 1.
Page 163 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.9 Ext. Fault 1 NO 1,2,3 Use this parameter for setting external input causing drive to fault. This function is defined as NO so the function activates on a closed contact. If this function is assigned to Normally Open - the function is always off so the drive will not fault, when set to Normally Closed the function will be active and fault all the time.
Page 164 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.14 2298 Ext. Fault 2 Text 1,2,3 This parameter allows for the text to be changed when using external Fault 1 NO or NC. 0 = External Fault 1 = Vibration Cut Out 2 = High Motor Temp 3 = Low Pressure 4 = High Pressure...
Page 165 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.19 Run Enable 1,2,3 Use this parameter for setting external safety start input that is required along with start command for frequency converter to turn on output. When using this command if the function is set for Normally Open, the drive will see this as a open input and not allow the drive to run due to no Ready.
Page 166: Figure 36. Activation Of Fixed Frequencies
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.22 Preset Speed B2 1,2,3 Use this parameter selecting the of the digital input for an external speed setpoint desired. Validating 3 digital inputs will allow for 7 preset speeds to be obtained. When switching between inputs it will follow the acceleration and deceleration time.
Page 167 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.26 No Access To Param 1,2,3 Use this parameter selecting an external input for locking out the ability to change parameters when this input is enabled, this can be used with the password protection. When this function is set for Normally Open it will allow for changing of parameters, if it is set for Normally Closed it prevents any changes to parameters.
Page 168 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.33 AI Ref Source Select 1,2,3 Use this parameter for selecting an external input for switching between AI1 and AI2 reference signals that are located on the control board. When this function is set for Normally Open the drive will follow the AI1 input.
Page 169 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.40 DC Brake Active 1,2,3 Use this parameter for selecting an external input for enabling DC brake on a closed contact. When enabled this will cause the drive inject DC voltage into the motor to assist in bring it to a stop. When this function is set for Normally Open the drive will not activate the DC brake function.
Page 170: Figure 37. Ai1 2Wire-Current
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.2.47 Start Timer 3 Use this parameter for selecting an external input for enabling the timer functions to begin counting. When this function is set for Normally Open the drive will not start the Timer sequence. If the function is set for Normally Close the Timer function will start.
Page 171: Figure 39. Ai1 4Wire-Current
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW Figure 39. AI1 4wire-current Standard I/O Board Terminal Signal 10V+ 10V supply AI1+ Analog input 1+ AI1- Analog input 1- 4-wire transducer AI2+ Analog input 2+ AI2- Analog input 2- Actual −...
Page 172: Figure 42. Ai1 Signal Filtering
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.4.5 AI1 Filter Time 1,2,3 When this parameter is given a value greater than 0, the function that filters out disturbances from the incoming analog signal is activated. A long filtering time makes the regulation response slower. Figure 42.
Page 173: Figure 45. Example Of Joystick Hysteresis
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.4.7 AI1 Joystick Hyst This parameter is used to set the analog joystick control hysteresis around the 0 speed reference. To ignore values around the 0 speed reference, set the value greater then 0%, this will cause a +/- dead band around the low analog reference.
Page 174: Figure 47. Ai2 2Wire-Current
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P2.4.10 AI1 Joystick Offset This parameter defines the mid point of the analog joystick control. By moving the offset in a positive or negative direction will cause the min frequency crossing point to be move between +/-50% of the analog input scale.
Page 175: Figure 51. Ai2 Pot Ref
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW Figure 51. AI2 pot ref Standard I/O Board Terminal Signal 10V+ 10V supply AI1+ Analog input 1+ AI1- Analog input 1- AI2+ Analog input 2+ AI2- Analog input 2- I/O Ground 24Vo 24V auxillary voltage P2.5.2...
Page 176 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.1.1 DO1 Function 1,2,3 Use this parameter to select signal to show the digital output. Setting Value Signal Content 0 = Not Used - Out of operation 1 = Ready - Frequency converter is ready for operation 2 = Run - frequency converter is operating (motor is running 3 = Fault - A fault trip has occurred 4 =Fault Invert - A fault trip not occurred...
Page 177 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.1.2 RO1 Function 1,2,3 Use this parameter to select signal to show the digital output. Setting Value Signal Content 0 = Not Used - Out of operation 1 = Ready - Frequency converter is ready for operation 2 = Run - frequency converter is operating (motor is running 3 = Fault - A fault trip has occurred 4 =Fault Invert - A fault trip not occurred...
Page 178 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.1.5 RO2 Function 1,2,3 Use this parameter to select signal to show the digital output. Setting Value Signal Content 0 = Not Used - Out of operation 1 = Ready - Frequency converter is ready for operation 2 = Run - frequency converter is operating (motor is running 3 = Fault - A fault trip has occurred 4 =Fault Invert - A fault trip not occurred...
Page 179 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.1.8 RO3 Function 1,2,3 Use this parameter to select signal to show the digital output. Setting Value Signal Content 0 = Not Used - Out of operation 1 = Ready - Frequency converter is ready for operation 2 = Run - frequency converter is operating (motor is running 3 = Fault - A fault trip has occurred 4 =Fault Invert - A fault trip not occurred...
Page 180 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.1.12 2463 Virtual RO1 Function 1,2,3 Use this parameter to select the function of output relay VO1. This relay is a internal relay that can be used to tie to internal functions in the drive. The functions are the same with the standard hardware relays.
Page 181 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.1.13 2464 Virtual RO2 Function 1,2,3 Use this parameter to select the function of output relay VO2. This relay is a internal relay that can be used to tie to internal functions in the drive. The functions are the same with the standard hardware relays.
Page 182: Figure 52. Supervision Function
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.2.2 Freq Limit 1 Supv Val 1,2,3 Use this parameter to select the frequency value supervised by Para ID 154. If the output frequency goes under/over the set limit, this function generates a warning message via the digital output DO1 or relay outputs RO1 or RO2 or RO3 .
Page 183 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.2.10 Ref Limit Supv 1,2,3 Use this parameter to select how the frequency converter functions upon the reference supervision value being a high or low limit. 0 = No supervision 1 = Low limit supervision 2 = High limit supervision P3.2.11...
Page 184 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.2.23 2189 Motor Current 1 Supv 1,2,3 Use this parameter to select how the frequency converter functions based off the motor current supervision. The drive monitors the active motor current and based of this supervision will enable itself based off the supervision value.
Page 185: Figure 53. Analog Output Filtering
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.2.36 1351 PID1 Superv Delay Use this parameter to set the delay time after which the PID feedback goes above or below the limit settings to provide status to relay output function. P3.2.37 1408 PID2 Superv Enable...
Page 186: Figure 54. Analog Output Scaling
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.3.5 AO1 Scale 1,2,3 This parameter will scale the analog output function from 10% to 1000%, in adjusting this value it will either extend or shrink the scale on the analog signal from 0-10V/0-20mA or 2-10V/4-20mA. Figure 54.
Page 187 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P3.4.4 AO2 Filter Time 1,2,3 Use this parameter to define the filtering time for the analog output signal, with a higher number the more filtering time is added on the output signal. Setting this parameter value to 0.00 will deactivate filtering.
Page 188: Figure 56. Acceleration/Deceleration (S-Shaped)
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P4.1.9 2423 Run Delay Time 1,2,3 Run Delay time parameter sets the time required for the drive to wait before another run command can be received. During this time the run signal is given it is ignored until the time has expired upon which it will then start, in keypad, I/O, or fieldbus Control Modes.
Page 189 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P4.1.14 Accel Time 2 1,2,3 Use this parameter to set the time required for the output frequency to accelerate from the zero frequency to the set maximum frequency. These parameters provide the possibility to set two different acceleration/deceleration time sets for one application.
Page 190: Figure 57. Dc-Braking Time When Stop Mode = Coasting
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P4.2.4 Stop DC-Brake Time 1,2,3 Use this parameter to set the length of DC braking at stop. 0.0 = DC-brake is not used >0.0 = DC-brake is in use and its function depends on the Stop function. The DC-braking time is determined with this parameter.
Page 191 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P4.2.6 Flux Brake 1,2,3 Use this parameter to enable the flux braking, the frequency is reduced and the flux in the motor is increased, which in turn increases the motor’s capability to brake. Unlike DC braking, the motor speed remains controlled during braking.
Page 192: Figure 59. Example Of Skip Frequency Area Setting
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P4.3.7 Skip F3 High Limit 1,2,3 Use this parameter to set frequency limits to prevent the drive from operating in, the frequency converter will skip the set frequencies, ramp time will be the same. In some systems it may be necessary to avoid certain frequencies because of mechanical resonance problems.
Page 193: Figure 60. Linear And Squared Change Of Motor Voltage
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P5.1.2 Current Limit 1,2,3 This parameter determines the maximum motor current allowed from the frequency converter. When the motor current hits this level it goes into the current controller and tries to limit the output frequency to drop the current.
Page 194: Figure 61. Programmable V/Hz Curve
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P5.1.4 2 = The V/Hz curve can be programmed with three different points. These points are the 0 frequency 1,2,3 voltage, midpoint and weakening point. A programmable V/Hz curve can be used if the other settings do not satisfy the needs of the application.
Page 195 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P5.1.10 Switching Frequency 1,2,3 This parameter sets the frequency that the PWM wave rides on, higher switching frequency will be cleaner the output sine wave, lower switching frequency will be a choppier sine wave. Motor noise can be minimized using a high switching frequency but the amount of heat dissipation increases.
Page 196: Figure 62. Motor Thermal Current It Curve
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.1.3 2158 Ground Fault Limit 1,2,3 This parameter sets the level of the ground fault protection, this protection is based off the amount of leakage current that is seen to ground on the output of the drive. P6.1.4 Motor Thermal Protection 1,2,3...
Page 197: Figure 63. Motor Temperature Calculation
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.1.6 Motor Thermal Time 1,2,3 This parameter is used to set the time constant of the motor to reise to 63% of thermal laod. The motor thermal time is specific to the motor design and it varies between different motor manufacturers.
Page 198: Figure 64. Stall Characteristics Settings
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.1.8 Stall Current Limit 1,2,3 This parameter is used to set the current level when above the unit will stall. For a stall stage to occur, the current must have exceeded this limit. The software does not allow entering a greater value than In-Motor*2.
Page 199: Figure 66. Setting Of Minimum Load
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.1.12 Underload Fnom Torque 1,2,3 This parameter gives the value for the minimum torque allowed when the output frequency is at or above the field weakening point. If you change Para ID486, nominal motor current, this parameter is automatically restored to the default value.
Page 200 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.1.16 PT100 Fault Response 1,2,3 This parameter sets the device reaction after a “PT100 Fault” condition has occurred. This condition could be possible device dependent. 0 = No response 1 = Warning 2 = Fault, stop mode after fault according to standard stop mode 3 = Fault, stop mode after fault always by coasting P6.1.17...
Page 201 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.1.21 2163 Preheat Output Volt 1,2,3 This parameter is used to set the voltage level output to the motor when the drive is in the Preheat operation mode. This is a percentage of the motor nameplate voltage. P6.2.1 Line Start Lockout 1,2,3...
Page 202 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.2.9 RTC Fault 1,2,3 This parameter sets the device reaction after a “Realtime Clock Fault” condition has occurred. This condition could be possible device dependent. 0 = No response 1 = Warning 2 = Fault, stop mode after fault according to standard stop mode 3 = Fault, stop mode after fault always by coasting P6.2.10...
Page 203: Figure 68. Auto Restart Fail (Try Number >2.)
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.3.2 OPTCard Fault Response 1,2,3 This parameter used to set the reaction after a “Link to Option Card” condition occures. This failure could be device dependent. 0 = No response 1 = Warning 2 = Fault, stop mode after fault according to standard stop mode.
Page 204 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P6.4.5 OverVoltage Attempts 1,2,3 This parameter determines the number of allowed restart-attempts after “DC-Overvoltage” condition has occured. 0 = No automatic restart after overvoltage fault trip >0 = Number of automatic restarts after overvoltage fault trip. The fault is reset and the drive is started automatically after the DC-link voltage has returned to the normal level.
Page 205 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P7.1.7 1302 PID1 Process Unit Decimal This parameter is used to defines the amount of decimal places used in the value for the PID Controller setpoint. P7.1.8 1303 PID1 Error Inversion This parameter defines the way the process value output reacts to the feedback signal.
Page 206 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P7.3.2.4 1315 PID1 Set Point 1 Sleep Enable Use this parameter to enable PID Set Point Sleep mode function. When enabled this function will disable the output when the frequency drops below the sleep frequency for the sleep delay time. The output re engages when feedback rises above the wakeup level.
Page 207: Figure 69. Setting Up Pid Application
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P7.3.3.7 1326 PID1 Set Point 2 Sleep Delay Use this parameter sets the minimum time after the variable drops below the Sleep level for this amount of time that the output will shutoff. P7.3.3.8 1327 PID1 Set Point 2 Wake Up Level...
Page 208 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P7.4.1.1 1330 PID1 Feedback Function Use this paramter to select if the feedback value is taken form a single signal or a combination of two signals. The mathematical functions can be selected that is used when two feedback signals are combined.
Page 209 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P8.1.2 1357 PID2 Control I Time This parameter is used to defines the integration time constant of the PID Controller. Over the time the integral time contributes to the deviation between the reference and the feedback signal. If this value is set to 1.00 sec, a change of 10% in the error value causes the controller output to change by 10.00%/s.
Page 210 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P8.2.7 2557 FB PID2 Feedforward 2 PID Feedforward value from Network. Can be assigned to PID Feedforward Source P8.3.1.1 1369 PID2 Keypad Set Point 1 This parameter sets the Keypad PID Reference value set point 1. P8.3.1.2 1371 PID2 Keypad Set Point 2...
Page 211 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P8.3.2.11 1415 PID2 Set Point1 Comp Max Use this paramter to set the maximum compensation for the PID setpoint value that is applied to the output frequency of the drive is at its maximum frequency level. This value is added to the actual setpoint value as a function of the output frequency.
Page 212: Figure 70. Setting Up Pid Application
Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P8.3.3.11 1417 PID2 Set Point 2 Comp Max Use this parameter to set the maximum compensation for the PID setpoint value that is applied to the output frequency of the drive is at its maximum frequency level. This value is added to the actual setpoint value as a function of the output frequency.
Page 213 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P8.4.2.2 1395 PID2 Feedback 1 Min Use this parameter to set the minimum unit value for the feedback signal. P8.4.2.3 1396 PID2 Feedback 1 Max Use this parameter to set the maximum unit value for the feedback signal. P8.2.4 2552 FB PID2 Feedback 1...
Page 214 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P9.2 Fire Mode Ref Select Function 1,2,3 Use this parameter allows for setting the reference location for when the firemode is enabled. 0 = Fire Mode Min Frequency (see Para ID 537) 1 = Fire Mode Ref - follows Para ID 565 and ID 564 with the use of an digital input to select the active speed.
Page 215 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P10.1.9 OverVoltage Bypass Enable 1,2,3 This parameter specifies whether an automatic switch to bypass when an overvoltage fault occurs. 0 = Disable Auto bypass on overvoltage fault 1 = Enable Auto bypass on overvoltage fault P10.1.10 1698 Motor OverTemp Bypass Enable...
Page 216 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P10.1.22 1710 RTC Clock Fault Bypass Enable 1,2,3 This parameter specifies whether an automatic switch to bypass when an Charge Switch fault occurs. 0 = Disable Auto bypass on Charge Switch fault 1 = Enable Auto bypass on Charge Switch fault P10.1.23 1711...
Page 217 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P11.1.5 Interval 1 To Day Use this parameter to set the day of week for Interval function to stop on. 0 = Sunday 1 = Monday 2 = Tuesday 3 = Wednesday 4 = Thursday 5 = Friday 6 = Saturday...
Page 218 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P11.3.3 Interval 3 Off Time Use this parameter to set the off time for Interval function. It uses 24-hour format. Use to specify a time of day for a desired function to be disabled. P11.3.4 Interval 3 From Day Use this parameter to set the day of week for Interval function to start on.
Page 219 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P11.4.6 Interval 4 Channel Use this parameter to assign the interval to a select time channel to store the interval time. 0 = Not used 1 = Time channel 1 2 = Time channel 2 3 = Time channel 3 P11.5.1...
Page 220 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P11.6.5 Timer 3 Duration Use this parmeter to set the duration of time the timer will run when activated. (Activated by DI) P11.6.6 Timer 3 Channel Use this parameter to assign the interval to a select time channel to store the timer channel. 0 = Not used 1 = Time channel 1 2 = Time channel 2...
Page 221 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P12.2.2 1557 FB Process Data Output 2 Sel 1,2,3 Use this parameter to accessing the Fieldbus Data Output Selections, parameter/monitor ID's can be assigned to these registers and then read over the desired Fieldbus Network Word for Process Data. Default Values for Process Data Out in Fieldbus(build table for below values) Process Data Out1 - Output Frequency = ID 1 Process Data Out2 - Motor Speed = ID 2...
Page 222 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P12.2.7 1562 FB Process Data Output 7 Sel 1,2,3 Use this parameter to accessing the Fieldbus Data Output Selections, parameter/monitor ID's can be assigned to these registers and then read over the desired Fieldbus Network Word for Process Data. Default Values for Process Data Out in Fieldbus(build table for below values) Process Data Out1 - Output Frequency = ID 1 Process Data Out2 - Motor Speed = ID 2...
Page 223 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P12.3.2.2 Baud Rate 1,2,3 Use this parameter set communication speed for RS-485 communication. P12.3.2.3 Parity Type 1,2,3 Use this parameter set parity type for RS-485 communication. P12.3.2.4 Modbus RTU Protocol Status 1,2,3 Use this parameter to show the protocol status for RS-485 communication.
Page 224 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P12.3.4.4 1730 SA Bus Comm Timeout 1,2,3 Communication error is initiated if the drive is a “Sole Master” in the network for a time more than defined with this parameter. P12.3.4.5 1731 SA Bus Protocol Status...
Page 225 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P12.4.3.3 1735 BACnet IP BBMD IP 1,2,3 The IP address of the BACnet IP Broadcast Management Device. P12.4.3.4 1737 BACnet IP BBMD Port 1,2,3 The BBMD Port number. P12.4.3.5 1738 BACnet IP Registration Interval 1,2,3 The registration interval to keep a live connection to the BBMD.
Page 226 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P13.1.7 Password 1,2,3 Use this parameter to setup a password to protected against unauthorized changes. When the password function is enabled, the user will be prompted to enter a password before application changes, parameter value changes, or password changes.
Page 227 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P13.1.17 Startup Wizard 1,2,3 The Startup Wizard facilitates commissioning the drive. If selected Enable, the Startup Wizard prompts operator for the language and application desired, RTC time clock and then advances through the start- up parameter list/Application Mini wizard in keypad.
Page 228 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW P13.1.21 2460 Output Display Unit Min 1,2,3 Use this parameter to set the minimum scaled value when changing the display unit to a value other than the default Hz. P13.1.22 2425 Output Display Unit Max 1,2,3...
Page 229 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW M1.2 Freq Reference 1,2,3 Instantaneous frequency reference value in Hz. M1.3 Motor Speed 1,2,3 Calculated motor speed in rpms based off the motor parameters entered and the V/Hz curve when running.
Page 230 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW M2.9 RO1, RO2, RO3 1,2,3 Relay output status for RO1, RO2 and RO3. IO Terminals 27 through 34. M3.1 PT100 Temperture 1,2,3 Maximum PT100 thermistor temperature value in ºC. M4.1 2120 Energy Savings 1,2,3...
Page 231 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW M5.3 2211 SlotB DIDO Status 1,2,3 SlotB DIDO Status will give the input and output status of a board inserted in the B expander board slot. Depending on the board inserted different bits will become active if the I/O is enabled. Bit 0 = IO1_DIN1 Status Bit 1 = IO1_DIN2 Status Bit 2 = IO1_DIN3 Status...
Page 232 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW M6.6 PID2 Set Point PI(D) Controller 2 setpoint reference value, units will vary based on PI(D) Controller 2 units setting. M6.7 PID2 Feedback PI(D) Controller 2 actual value feedback, units will vary based on the PI(D) Controller 2 unit setting. M6.8 PID2 Error Value PI(D) Controller 2 Error or difference from between the reference and feedback, units will vary based on...
Page 233 Appendix A—Description of parameters Code Modbus ID Parameter Application RO/RW M7.9 Timer 3 Timer 3 value in seconds, value counts up to set timer value. See the RTC parameter group for defined Timer value. M8.1 2445 Output 1,2,3 User defined output value that can be seen in a specific desired unit and scale factor based on the output frequency.
Page 234: Appendix B- Fault Log
Appendix B— Fault Log Appendix B— Fault Log Under this menu, you can find Active faults, History faults and Fault codes. Table 215. Active faults Menu Function Note Active Faults When a fault/faults appear(s), the display with the name and fault time of The fault remains active until it is cleared with the Reset button the fault will be pop.
Page 235 Appendix B— Fault Log Fault code Fault Name Fault Type Default Possible Cause Remedy Realization Brake Chopper Superv Fault No brake resistor installed Check brake resistor and cabling. If these • are OK, the chopper is faulty. Contact the Brake resistor is broken •...
Page 236 Appendix B— Fault Log Fault code Fault Name Fault Type Default Possible Cause Remedy Realization Keypad Comm Fault Configurable Fault The connection between the Check keypad connection and possible control “keypad and frequency keypad cable. converter is broken, and The local reference is keypad reference or the local control place is keypad, and The keypad communication fault...
Page 237 Appendix B— Fault Log Fault code Fault Name Fault Type Default Possible Cause Remedy Realization Fieldbus Fault Configurable Fault Loss of communication with Check RS485 communication wiring. SA Bus, and the fieldbus reference Verify drive parameter are set correctly. is the remote reference OR the Check master programming to verify fieldbus control place is the remote proper addressing.
Page 238 Appendix B— Fault Log Fault code Fault Name Fault Type Default Possible Cause Remedy Realization Option Card Fault Configurable Fault External supply on the Check voltage and wiring of power supply DeviceNet communication of the DeviceNet communication. connector is not present. External Fault 2 Configurable Fault...
Page 239: Appendix C-Recommended Secure Hardening Guidelines
Johnson Controls is committed to minimizing the Cybersecurity risk in its products and deploys cybersecurity best practices and latest cybersecurity technologies in its products and solutions; making them more secure, reliable and competitive for our customers.
Page 240 Appendix C—Recommended Secure Hardening Guidelines Category Description Restrict Logical access to Drive It is extremely important to securely configure the logical access mechanisms provided in VFD to safeguard the device from unauthorized access. VFD provides various types of administrative, operational, configuration privilege levels.
Page 241 Best Practices Apply Firmware updates and patches regularly Due to rapidly increasing Cyber Threats in Industrial Control Systems, Johnson Controls implements a comprehensive patch and update process for its products. Users are encouraged to maintain a consistent process to promptly monitor for fresh firmware updates and apply the update whenever required.
Page 242 Appendix C—Recommended Secure Hardening Guidelines VARIABLE SPEED DRIVE SERIES III LIT-12012999—June 2018 www.johnsoncontrols.com...

This manual is also suitable for:

Vs3-326d6eb-c20c Vs3-327d8eb-c20c Vs3-324d8eb-c20c Vs3-324d8dn-c21c Vs3-327d8dn-c21c Vs3-326d6dn-c21c ... Show all

Johnson Controls VS3 Series Applications Manual

Chapter 1-Variable Speed Drives Series III Overview

Chapter 2-Keypad Overview

Chapter 3-Menu Overview

Chapter 4-Startup

Chapter 5-Basic Application

Chapter 6 - Pid Application

Chapter 7-Advanced Application Parameter

Quick Links

Need help?

Questions and answers

Related Manuals for Johnson Controls VS3 Series

Summary of Contents for Johnson Controls VS3 Series