Page 1 HF-430NEO Series High-performance Inverter 5.5〜55kW/200V Class 5.5〜55kW/400V Class Operating and Maintenance Manual NOTICE 1. Make sure that this operating and maintenence manual is delivered to the end user of inverter unit. 2. Read this manual before installing or operating the inverter unit, and store it in a safe place for reference. Manual DM3401E...
Page 2 Copyright © 2020 Sumitomo Heavy Industries,Ltd. All rights reserved. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, mechanical, electronic, photocopying, recording, or otherwise, without the prior written permission of Sumitomo.
Page 3: Introduction
Introduction Introduction Thank you for purchasing HF-430NEO series inverter. This instruction manual describes how to handle and maintain HF-430NEO. Please read this manual carefully before using HF-430NEO, and keep it handy for those who operate, maintain and inspect it. For the purpose of reducing paper consumption and provision of the latest information, we enclose the instruction manual only, while providing the User's Guide for more detailed description through electronic data instead of CD or printed document.
Page 4: Table Of Contents
Table of Contents Table of Contents ● Introduction ............ S-1 ● Table of Contents .......... S-2 Chapter 1 Safety Instructions 1.1 Type of Warnings ..........1-1 1.4 Compliance to European Directive (CE) ..1-6 1.2 Description of Safety Symbols ...... 1-1 1.5 Compliance to UL Standards .......
Page 5: Table Of Contents
Table of Contents Chapter 7 Specifications 7.1 200V class specifications ......7-1 7.3 Common Specifications .........7-3 7.2 400V class specifications ......7-2 7.4 Current delating ..........7-4 Appendix Parameter list ..........App.1-1 Quick start ............App.2-1 Index ............... App.3-1 Warranty Warranty ............App.4-1 To inverter users ..........
Page 6: Chapter 1 Safety Instructions
Safety Instructions Chapter 1 Chapter 1 Safety Instructions 1.1 Types of Warnings In the Instruction Manual, the severity levels of safety precautions and residual risks are classified as: "DANGER", "WARNING" and "CAUTION". Display meanings DANGER Indicates that incorrect handling may cause hazardous situations, which would most likely result in serious personal injury or death, and may result in major physical loss or damage.
Page 7 Safety Instructions Chapter 1 1.3.2 Precautions during the installation! WARNING ● Risk of Fire! • DO NOT place inflammable objects nearby. Fire • DO NOT let scraps of wire, welding sputtering, irons scraps or other objects get inside the device. Hazard •...
Page 8 Safety Instructions Chapter 1 ● Risk of an electric shock and/or injury! Electric shock Injury • Perform the wiring only after installing the inverter. ● Risk of short circuit and ground fault! Short circuit Ground • Do not remove rubber bushings from the wiring section. fault Otherwise, the edges of the wiring cover may damage the wire.
Page 9 Safety Instructions Chapter 1 ● Risk of electric shock! Electric • Be sure to close the terminal block cover before turning on the inverter power. shock Do not open the terminal block cover while power is being supplied to the inverter or voltage remains inside. •...
Page 10 Safety Instructions Chapter 1 1.3.5 Precautions for Maintenance/Inspection DANGER ● Risk of electric shock! Electric • Before inspecting the inverter, be sure to turn off the power supply and wait for more than 10 or 15 minutes shock depending on the invertor model＊. (Before inspection, confirm that the Charge lamp on the inverter is off and the DC voltage between terminals P and N is 45 V or less.) •...
Page 11 Safety Instructions Chapter 1 1.4 Compliance to European Directive (CE) 1.4.1 Caution for EMC (Electromagnetic Compatibility) HF-430NEO inverter conforms to requirements of Electromagnetic Compatibility (EMC) Directive (2014/30/EU). However, when using the inverter in Europe, you must comply with the following specifications and requirements to meet the EMC Directive and other standards in Europe: WARNING: This equipment must be installed, adjusted, and maintained by qualified engineers who have expert knowledge of electric work, inverter operation, and the hazardous circumstances that can occur.
Page 12 Safety Instructions Chapter 1 1.5 Compliance to UL standards 1.5.1 UL CAUTION GENERAL: HF-430NEO inverter is open type AC Inverter with three phase input and three phase output. It is intended to be used in an enclosure. It is used to provide both an adjustable voltage and adjustable frequency to the AC motor. The inverter automatically maintains the required volts-Hz ratio allowing the capability through the motor speed range.
Page 13 Safety Instructions Chapter 1 Terminal size and terminal tightening torque for field wiring: Required Conductor Required Conductor Model Load Type Torque size Model Load Type Torque size (N.m) (AWG) (N.m) (AWG) HF4322-5A5 HF4322-5A5 HF4322-7A5 HF4322-7A5 HF4322-011 HF4322-011 HF4322-015 HF4322-015 2.5-3.0 HF4322-022 HF4322-022 5.5 –...
Page 14 Safety Instructions Chapter 1 1.6 Precautions for installation ◆ Notes for HF4322-011 (200V class 11kW) For the use of HF4322-011 at low duty (LD)/very low duty (VLD), follow the installation procedures shown in the figure below. Change [Ub-03] to 00 and [Ub-03] to 01 to set VLD and LD, respectively. Procedures: (1) Remove four truss head screws that hold the (upper and lower) brackets provided by factory configuration.
Page 15 Safety Instructions Chapter 1 ◆ Notes for HF4322-022 (200V class 22kW) For the use of HF4322-022 at very low duty (VLD), follow the installation procedures shown in the drawings below. Change [Ub-03] to 00 to set VLD. Procedures: (1) Tighten spacers to the (upper and lower) brackets as shown in Figure 1 using M3×8 screws included in the package. (Tightening torque 0.6 to 0.8 Nm) (2) Install HF4322-022 on the wall using four screws prepared on your own.
Page 16 Safety Instructions Chapter 1 Safety Guideline Safety Guideline Sicherheitsrichtlinien As "Warning" and "Caution" are critical information to prevent Da es sich bei „Warnung“ und „Achtung“ um überaus wichtige Hinweise hazardous situation, make sure to read this guideline fully along with zur Verhinderung von Gefahrensituationen handelt, müssen Sie diese the instruction manual and follow the instructions therein.
Page 17 Safety Instructions Chapter 1 Consignes de sécurité Linee guida sulla sicurezza Les sections «Danger» et «Attention» fournissent d’importantes Poiché "Avvertenza" "Attenzione" forniscono informazioni informations sur la prévention des situations dangereuses. Veillez par fondamentali per prevenire situazioni pericolose, leggere interamente conséquent à lire les présentes consignes dans leur intégralité, le presenti linee guida e il manuale di istruzioni, attenendosi alle conjointement avec le manuel d'instructions, et à...
Page 18 Safety Instructions Chapter 1 Directrices de seguridad Indicações de segurança "Advertencia" y "Precaución" indican elementos de información As secções "Aviso" e "Cuidado" contêm informações essenciais para esenciales para evitar situaciones peligrosas. Por lo tanto, asegúrese de evitar situações de perigo; certifique-se de que lê estas indicações na leer detenidamente estas directrices junto con el manual de totalidade, juntamente com o manual de instruções e siga as instrucciones, y de seguir las indicaciones que contienen.
Page 19: Chapter 2 Installation And Wiring
Chapter 2 Installation and Wiring Chapter 2 Installation and Wiring 2.1 Check the Inverter Check the contents in the package, and confirm the inverter model with a specification label. M3×8 screw : 4pcs Eye bolts for hanging the inverter Spacer : 4pcs HF4322-030 to 055 HF-430NEO...
Page 20: Install The Inverter
Chapter 2 Installation and Wiring 2.2 Install the Inverter Transportation • The inverter is made of plastics component. When carrying the inverter, handle it carefully to prevent the parts from damaging. • Do not carry the inverter by holding the front or terminal block cover. Doing so may cause the inverter to fall. •...
Page 21 Chapter 2 Installation and Wiring Installation environment • Avoid installing the inverter in a place where the inverter is subject to dust, corrosive gases, explosive gases, flammable gases, grinding fluid mist, or salt water. • Foreign particles entering the inverter will be the cause of failure. If you use the inverter in a considerably dusty environment, install the inverter inside a totally enclosed panel.
Page 22 Chapter 2 Installation and Wiring Procedure to hang an inverter When lifting the inverter, please lift according to the figure below. (1) Rigidly tighten the accessory hanging bolts to top of left and right. (2) Keep an angle less than 45 degree when hanging with wire.
Page 23 Chapter 2 Installation and Wiring 2.3 Dimension Drawing ・If you add optional parts to the inverter, some extra space is required in the direction of the depth of the inverter depending on the wiring layout. Keep a clearance of 50 mm or more. For details, refer to the instruction manual for each optional product.
Page 24 Chapter 2 Installation and Wiring Model 200V class: HF4322-055（55kW） W(mm) H(mm) D(mm) Dimension 2-φ12...
Page 25: Inverter Wiring
Chapter 2 Installation and Wiring 2.4 Inverter Wiring Applicable peripheral equipment Notes: • The description of peripheral equipment is for 3-phase, 4-pole squirrel-cage motor. • Select breakers with proper interrupting capacity. (Use inverter-ready breakers) Power • Use earth-leakage circuit breakers (ELB or MCB) to ensure safety. supply •...
Page 26: Wiring Of The Main Circuit
Chapter 2 Installation and Wiring 2.5 Wiring of the main circuit Wire the main circuit of the inverter. The following illustration shows the power supply and wiring connections to a motor only. Open a terminal block cover to wire the terminal block in the main circuit. Internal EMC filter Jumper or terminal Jumper...
Page 27: Recommended Wire Gauges, Wiring Accessories And Crimp Terminals
Chapter 2 Installation and Wiring 2.6 Recommended wire gauges, wiring accessories and crimp terminals ■200V class Power line cable External braking Tightening Grounding Power line cable Crimp Rating AWG(mm resistor torque( N • Model cable Terminal screw terminal setting R,S,T,U,V,W, between P and Power/Ground AWG(mm...
Page 28 Chapter 2 Installation and Wiring ■400V class Power line cable External braking Tightening Grounding Power line cable Crimp Rating AWG(mm resistor torque( N • Model cable Terminal screw terminal setting R,S,T,U,V,W, between P and Power/Ground AWG(mm size Power/Ground P,P1,N PR AWG(mm (maximum value) 12(3.3) 12(3.3)
Page 29 Chapter 2 Installation and Wiring 2.7 Applicable circuit breaker ■200V class For ND rating • Applicable devices (Input Voltage 200 to 220V) Without reactor With reactor (DCL or ACL) (DCL or ACL) Applicable Earth-leakage breaker Circuit Magnetic Earth-leakage breaker Circuit Magnetic Model Motor...
Page 30 Chapter 2 Installation and Wiring ■400V class For ND rating • Applicable devices (Input Voltage 400 to 440V) Without reactor (DCL or ACL) (DCL or ACL) With reactor Applicable Magnetic Magnetic Earth-leakage breaker Circuit Earth-leakage breaker Circuit Model Motor Contactor Contactor (ELB) Breaker...
Page 31 Chapter 2 Installation and Wiring 2.8 Chopper Braking Resistor • HF-430NEO has a built-in chopper braking circuit in model below. HF4322-5A5 to HF4322-022 HF4324-5A5 to HF4324-037 • By using an optional braking resistor, permit to use for high regeneration load application such as lift or high speed load.
Page 32 Chapter 2 Installation and Wiring 2.9 Wiring Model Main Circuit Terminal 200V class : HF4322-5A5 to HF4322-011（5.5 to 11kW） 400V class : HF4324-5A5 to HF4324-011（5.5 to 11kW） Motor output wire 5.5kW,7.5kW Screw size (L1) (L2) (L3) (T1) (T2) (T3) r1,t1 : M4 Control circuit Ground terminal: M5 OFF G...
Page 33 Chapter 2 Installation and Wiring Model Main Circuit Terminal 200V class : HF4322-030（30kW） Short circuit connector for Charge Lamp EMC filter Power Input wire Motor Output wire Disable (L1) (L2) (L3) (T1) (T2) (T3) Screw size r1,t1 : M4 E(G) E(G) Ground Terminal: M6 Other Terminal : M8...
Page 34 Chapter 2 Installation and Wiring Model Main Circuit Terminal 400V class : HF4324-037（37kW） Charge lamp Short circuit (Turn-on while connector for Power input wire Motor output wire powered) EMC Filter Disable (L1) (L2) (L3) (T1) (T2) (T3) E(G) E(G) Screw size r1, t1: M4 P1-P short bar Ground Terminal: M8...
Page 35 Chapter 2 Installation and Wiring Model Main Circuit Terminal 200V class : HF4322-055（55kW） Charge lamp (Turn-on while powered) Power input wire Motor output wire (L1) (L2) (L3) (T1) (T2) (T3) Disable Short circuit bar for EMC Filter E(G) E(G) P1-P short bar Enable Screw size r1,t1: M4...
Page 36 Chapter 2 Installation and Wiring 2.10 Wiring of the control circuit ・An example for sink logic. Control circuit terminal 24V power Alarm relay section supply terminal 1C contact points （Alarm：Initial set） (SW6) (SW5) Sink Relay RL/ZS Sink or source logic 1A contact points for input terminal is switched by SW6.
Page 37 Chapter 2 Installation and Wiring ■Recommended terminals for wiring • The following ferrule terminals are recommended for signal cable for easy wiring and improving reliability of connectivity. Ferrule Power cable   terminal model size L1 [mm] L2 [mm] d [mm] D [mm] ＊...
Page 38 Chapter 2 Installation and Wiring 2.11 Control circuit wiring section Control circuit terminal ■Input terminals • All COMs have the same electric potential. • Change SW5 to external power source (EX) to connect the power source between Input terminals and COM. •...
Page 39 Chapter 2 Installation and Wiring ■Output terminals Control circuit terminal (Wiring example) Output Alarm relay Relay Output terminal Output terminal [FL] [RL] : Equipment including lamps, relays and PLC • [ ] : It means factory default settings. : Relays Terminal Terminal Description...
Page 40 Chapter 2 Installation and Wiring SW4 SW3 SW2 SW1 ■Analog input/output Control circuit terminal (Wiring example) Analog input/output ＋V AMI AMV ・When variable resistor is connected on ＋V-VRF-COM terminal, voltage input is given to inverter, Sw1 for analog input 1 (VRF) is to be set on "voltage" side therefore. Frequency ・If a frequency meter connected in left example is current type meter...
Page 41 Chapter 2 Installation and Wiring ■Functional safety STO terminals Control circuit terminal Terminal Terminal name STO Safety terminal label 24V output power source P24S terminal COM terminal for functional safety Logic switching terminal STO input1 Safety confirmation terminal STO input2 Output terminal for P24S monitoring...
Page 42 Chapter 2 Installation and Wiring ■Serial communication (Wiring example) Control circuit terminal Modbus communication Connect CM1 For enabling the termination Into the SG (signal ground) of resistor, short-circuit between external devices, RP and SN. • SP and SN with the same name are internally connected, which are available for a plurality of wiring. •...
Page 43 Chapter 2 Installation and Wiring 2.12 Connection for the Programmable controller ■Connection for the Programmable controller and Input terminals In case of internal power supply In case of external power supply (SW5＝IN) (SW5＝EX） Sink logic DC24V SINK Inverter Output module Output module Inverter DC24V...
Page 44 Chapter 2 Installation and Wiring 2.13 Residual risk Parts subject to residual risk Please check for any residual risk upon completion of the installation before power on. Residual risk checklist No. Name of part DANGER CAUTION WARNING Main circuit 8,10 terminal block Heat sink Input/output...
Page 45 Chapter 2 Installation and Wiring Operational Residual ✓ Work Part Details of harm or damage Preventive measures phase risk When the motor wiring distance exceeds Motor insulation damage due to surge □ 20m or more, try to shorten the wiring. caused by long distance motor wiring.
Page 46: Chapter 3 Operation Setting And Examples Of I/O Adjustment
Chapter 3 Operation Setting and Examples of I/O Adjustment Chapter 3 Operation Setting and Examples of I/O Adjustment This chapter describes basic settings, frequency source required for operation, examples of run command source settings and examples of adjusted I/O terminals. See “Chapter 4 Settings” for detailed operating instructions. 3.1 Set the load rating Select [Ub-03] load specification selection on the parameter setting screen.
Page 47: Frequency Setting From Keypad
Chapter 3 Operation Setting and Examples of I/O Adjustment The frequency source and run command source are necessary to drive the motor. 3.3 Frequency setting from keypad ・Select [AA101] = 07 Frequency source from parameter setting screen. ・Changing frequency setting from each source (1) [FA-01] for frequency setting from keypad or (2) [Ab110] for frequency setting at multispeed profile.
Page 48: Multispeed Terminals Command
Chapter 3 Operation Setting and Examples of I/O Adjustment 3.5 Multispeed terminals command ・While multispeed command is off, the speed command will follow the parameter setting [AA101]. ・To use multispeed 0, select [AA101] = 07 frequency source selection. Input terminals ■Frequency command source ・Change the frequency command by turning ON/OFF from multispeed input terminals [DFL] and [DFM].
Page 49: Potentiometer Frequency Command
Chapter 3 Operation Setting and Examples of I/O Adjustment 3.7 Potentiometer frequency command ・Select [AA101] = 01 VRF terminal input from parameter setting screen. ＊Select voltage input (0 to 10V) for VRF switch of control circuit board. Analog input/output Control circuit terminal ＋V 20mA Potentiometer for frequency...
Page 50 Chapter 3 Operation Setting and Examples of I/O Adjustment 3.9 Adjust the analog input (VRF/IRF) E.g.) Adjust operation (E.g. for VRF) E.g.) Make a fine adjustment (E.g. for VRF) ・Set the ratio to input to limit the operating range of the frequency command.
Page 51 Chapter 3 Operation Setting and Examples of I/O Adjustment 3.11 Adjust the analog input (VF2) E.g.) Adjust operation (E.g. for VF2) E.g.) Make a fine adjustment [Cb-35]=200.0(%) Forward operation 100(%) Maximum frequency [Cb-34]=50.0(%) Slope [Cb-35]=100.0(%) [Cb-24] Max. (-10V) [Cb-25] -100% Analog input (Ai3) -100...
Page 52: Chapter 4 Parameter Setting
Parameter setting Chapter 4 Chapter 4 Parameter Setting 4.1 Keypad overview 4.1.1 How to use the keypad ＊Image colour may differ from the real product. Name Description Transition to home, cancel, etc. ① F1 key Function of the key is indicated at the bottom left of the screen.
Page 53 Parameter setting Chapter 4 4.1.3 Monitor mode For screens not described below, refer to User’s Guide. Pressing F1 key will return to any monitor screen. ＜Monitor screen＞＜Parameter setting screen＞＜Wide monitor screen＞ Output frequency Output frequency dA-01 29.51 Hz 29.51 Hz Output frequency Output Current...
Page 54 Parameter setting Chapter 4 ＜Home Screen Option Menu＞ Option Description 01 Controller (Inverter) name You can specify 8-digit string from alphanumeric letters and symbols. 00 Frequency command The current frequency command is displayed. 01 Torque command The current torque command is displayed (during torque control). 02 Lower center data 02 Real time The current time is displayed.
Page 55 Parameter setting Chapter 4 4.1.3.2 Monitor To change the monitor details. Press the SEL (O) key while on the monitor screen, highlighting the first line as result. Output frequency Output frequency 46.49 Hz 46.49 Hz Output Current Output Current 11.9 A 11.9 A Input Terminal Input Terminal...
Page 56 Parameter setting Chapter 4 4.1.3.4 Retry history screen To display time in retry history, you need to configure clock settings. To use the clock function, you need an optional battery(CR2032). On the screen that is displayed upon power-on, using the right and left ( ) keys, navigate to "H09".
Page 57 Parameter setting Chapter 4 4.1.4 Test run This explains the method to how to do a test run using the keypad. ＜ Home screen＞ Output frequency 46.49 Hz Output Current 11.9 A Input Terminal LLLLLLLLLLL 46.49 Hz Option Menu (E)↑ (F)↑ 4.1.4.1 Confirm the operation command.
Page 58 Parameter setting Chapter 4 ② Change the code with UP/DOWN/LEFT/RIGHT ( ) keys to [AA111]. STOP Output frequency 0.00 Hz AA111 00:Term.[FW] / [RR] 29.51 Hz ---- Back ③ Press the SEL(O) key and then with UP/DOWN( ) keys select the RUN operation to be executed between all the choices.
Page 59 Parameter setting Chapter 4 ③ Press the SEL(O) key, with UP/DOWN/LEFT/RIGHT( ) keys change the frequency value. STOP Output frequency 0.00 Hz FA-01 46.49 Hz [0.00-60.00] 0.00 Hz Save Back (F)↑ ④ To save the changes press the SEL (O) key, and after that in the position (F) should be displayed the set frequency. Press the F1 key, and will go to Home screen.
Page 60 Parameter setting Chapter 4 4.1.5 Scroll mode（01） In scroll mode, to set parameters by monitoring monitor, please refer to “4.1.3.1 Parameter setting screen. 4.1.5.1 Try scroll mode ① Press the F1 key [Menu] on [home] screen STOP STOP Output frequency Menu 0.00 Hz 01 Scroll mode...
Page 61 Parameter setting Chapter 4 ⑤-1 When the parameter is to be set as alternative, Press UP/DOWN ( ) key to select data and press F2 (Save) key to store then return to parameter list. STOP AA101 7 Keypad 8 RS485 9 Option-1 10 Option-2 0.00 Hz...
Page 62 Parameter setting Chapter 4 4.1.5.2 Group Jump Function ① Press LEFT/RIGHT ( ) key to jump to 1 parameter of each group. （…⇔All parameters ⇔ d:Monitor ⇔ F:Command Monitor/Setting ⇔…⇔ U:Initial Setting、PDN⇔All Parameters ⇔…） ② When to jump to the detailed subgroup (AA, Ab etc) in parameter group, press F2 key. A group for example : …⇒AA⇒Ab⇒AC⇒…⇒AJ⇒AA⇒...
Page 63 Parameter setting Chapter 4 4.1.6 User mode（02） STOP ・ The user mode will display user-registered parameters only. User mode This will allow to quickly access the parameters that are frequently used or are essential to the user. 46.49 Hz ・ Select the "02 User mode" option from the menu screen, then press dA-02 Output Current the SEL(O) to display the main user mode screen.
Page 64 Parameter setting Chapter 4 4.1.8 Compare mode (04) ・The compare mode will only display the parameters that have been STOP modified from its initial settings, allowing the user to quickly verify or Compare mode modify the implemented changes. Ab110 Multi-Speed 0_M1 ・Select the "04 Compare mode"...
Page 65 Parameter setting Chapter 4 4.1.10 Read/Write function (06) Data can be stored in the keypad and then copied to other inverter unit. It is strongly recommended to make backup of the data just in case. Refer to user’s guide for a more detailed explanation. ①...
Page 66: Monitor Naming
Parameter setting Chapter 4 [dA-01] to [dA-41] [dA-42] to [dA-83] Code/Name Range (unit) 4.2 Monitor naming (Nomenclature) dA-42 Electronic thermal load dA - 01 rating monitor (Motor) 0.00 to 100.00(%) dA-43 Electronic thermal load rating monitor (Inverter) 00(no input)/01(P-1A) 02(P-2A)/03(P-1b) dA-45 Safety STO monitor 04(P-2b)/05(P-1C)
Page 67 Parameter setting Chapter 4 [db-01] to [db-64] [dC-01] to [dE-50] Code/Name Range (unit) Code/Name Range (unit) 00(Very Low duty) db-01 to 23 Reserved dC-01 01(Low duty) Inverter load type status 02(Normal duty) dC-02 0.0 to 6553.5(A) Rated current monitor Code/Name Range (unit) dC-07 db-30...
Page 68 Parameter setting Chapter 4 [FA-01] to [FA-40] ■Variable mode monitor(F code) (Reference Monitor/Setting) ・If a parameter that is being monitored by one of the [FA] parameters can be modified, it can directly be modified through that [FA] parameter. Code/Name Range (unit) FA-01 0.00 to 590.00(Hz) Main speed reference monitor...
Page 69 Parameter setting Chapter 4 [AA101] to [AA106] 4.6 Parameter explanation 4.4 Parameter naming (Nomenclature) AA 1 01 ・To set parameters, please read an understand HF-430NEO user’s guide first. ・For the motor protection, the following parameters are necessary to be set. Working -[Hb102] to [Hb108](If [IM]) Parameter...
Page 70 Parameter setting Chapter 4 [AA111] to [AA115][bb-40] [AA121] to [AA223] RUN command selection Control mode selection Code/Name Range (unit) Initial value Initial Code/Name Range (unit) value 00([FR]/[RR] terminal) 01(3-wire) 00 ([V/f] Fixed torque characteristics) AA111 02(Keypad’s RUN-key 01 ([V/f] Reducing torque characteristics) 03(RS485) 02 ([V/f] Free V/f ) RUN command input source...
Page 71 Parameter setting Chapter 4 [Ab-01] to [Ab-25] [Ab210][AC-01] to [AC-02] ・For the 8 speeds selection, set [Ab-03]=01 assigning the Scaled Output Frequency gain monitor [dA-06] intelligent terminals 007[SF1] to 013[SF7] makes Code/Name Range (unit) Initial value available the use of the speeds 0 to 7. Ab-01 0.01 to 100.00 1.00...
Page 72 Parameter setting Chapter 4 [AC-03] to [AC117] [AC120] to [AC126] Acceleration/deceleration curve selection Acceleration/deceleration time setting Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value AC-03 00(Linear) AC120 Acceleration time setting 01(S-curve) Acceleration curve selection 1, 1st-motor 02(U-curve) AC-04 AC122 Deceleration time setting 03(Inverted-U-curve)
Page 73 Parameter setting Chapter 4 [AC-30] to [AC-88] [AC215] to [Ad-42] 2nd motor When Intelligent Input terminal 024[SET] is enabled. Setting for two-stage Accel/Decel time Code/Name Range (unit) Initial value Initial Code/Name Range (unit) AC215 value Same as AC115 Accel/Decel change trigger, 2nd-motor AC-30 Accel.
Page 74 Parameter setting Chapter 4 [AE-01] to [AE-13] [AE-20] to [AE-62] Position control Absolute position control Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value AE-01 AE-20 00(Feedback side) Electronic gear setting Position reference 0 01(Reference side) point selection AE-22 Position reference 1 AE-02 AE-24...
Page 75 Parameter setting Chapter 4 [AE-64] to [AE-73] [AF101] to [AF109] Positioning function adjustment DC braking (DB) function Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value 00(Disable) AE-64 AF101 DC braking 01(Enable) 50.00 to 200.00(%) 100.00 Deceleration stop distance selection, 1st-motor 02(Frequency reference) calculation gain...
Page 76 Parameter setting Chapter 4 [AF120] to [AF144] [AF150] to [AF254] Brake control function Initial Range Initial Code/Name Range (unit) Code/Name value (unit) value 00(Disable) AF150 AF120 Brake open delay time, 1st-motor 0.00 to Contactor control 01(Enable: primary side) 0.20 2.00(s) AF151 enable, 1st-motor 02(Enable: secondary side)
Page 77 Parameter setting Chapter 4 [AG101] to [AG113] [AG-20] to [AG213] Resonant frequency avoidance (Jump) Jogging function Range Initial Initial Code/Name Code/Name Range (unit) (unit) value value AG101 AG-20 0.00 Jump frequency 1, 1st-motor 0.00 to 10.00(Hz) 5.00 Jogging AG102 0.50 Jump frequency width 1, 1st-motor frequency AG103...
Page 78 Parameter setting Chapter 4 [AH-01] to [AH-06] [AH-07] to [AH-50] Initial Code/Name Range (unit) PID1 function value AH-07 Code/Name Range (unit) Initial value 00 to 13 *2) 00(Disable) PID1 set-point 1 input source selection AH-01 01(Enable) AH-10 PID1 set-point-1 setting PID1 enable 02(Enable (with inverted output) AH-12...
Page 79 Parameter setting Chapter 4 [AH-51] to [AH-54] [AH-60] to [AH-70] Range (unit) Initial Initial Code/Name Code/Name Range (unit) value value AH-51 AH-60 00(Using gain-1 only) PID1 feedback 1 input PID1 gain 01([PRO] terminal) source selection change method selection AH-52 AH-61 00 to 06/08 to 13 PID1 feedback 2 input 0.0 to 100.0...
Page 80 Parameter setting Chapter 4 [AH-71] to [AH-74] [AH-75] to [AH-92] Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value AH-71 AH-75 0.00 to 100.00(%) 0.00 00(Disable) PID1 output range 01(Enable) PID soft start function enable PID Output (%) AH-76 PID Output variable range 0.00 to 100.00(%) 100.00...
Page 81 Parameter setting Chapter 4 [AH-93] to [AH-96] [AJ-01] to [AJ-12] PID2 function Initial Code/Name Range (unit) Initial value Code/Name Range (unit) value 01(Deviation) AH-93 00(Disable) AJ-01 02(Low feedback) 01(Enable) PID wake trigger selection 03([WAKE] terminal) PID2 enable 02(Enable (with inverted output)) AH-94 ・Validates the PID2 operation.
Page 82 Parameter setting Chapter 4 [AJ-13] to [AJ-19] [AJ-21] to [AJ-32] Initial PID3 function Code/Name Range (unit) value Initial Code/Name Range (unit) AJ-13 0.0 to 100.0 value PID2 proportional gain AJ-21 AJ-14 00(Disable)/01(Enable) 0.0 to 3600.0(s) PID2 integral time constant 02(Enable (with inverted output)) PID3 enable AJ-15 0.0 to 100.0(s)
Page 83 Parameter setting Chapter 4 [AJ-33] to [AJ-39] [AJ-41] to [AJ-52] Initial PID3 function Code/Name Range (unit) value Initial Code/Name Range (unit) AJ-33 0.0 to 100.0 value PID3 proportional gain AJ-41 AJ-34 00(Disable)/01(Enable) 0.0 to 3600.0(s) PID3 integral time constant 02(Enable (with inverted output) PID4 enable AJ-35 0.00 to 100.00(s)
Page 84 Parameter setting Chapter 4 [AJ-53] to [AJ-59] [bA101] to [bA116] ■Parameter mode (B code：Fine Tuning Function) Initial Code/Name Range (unit) value Frequency limit AJ-53 0.0 to 100.0 PID4 proportional gain Initial Code/Name Range (unit) value AJ-54 0.0 to 3600.0(s) PID4 integral time constant 00(Disable) AJ-55 0.00 to 100.00(s)
Page 85 Parameter setting Chapter 4 [bA120] to [bA128] [bA-30] to [bA145] Overcurrent suppression function setting Deceleration / stop at power loss (Non-stop) Initial Code/Name Range (unit) Initial value Code/Name Range (unit) value 00(Disable) 01(Deceleration-stop) bA120 00(Disable) Overcurrent 02 (Voltage controlled bA-30 Instantaneous power 01(Enable) suppression enable, 1st-motor...
Page 86 Parameter setting Chapter 4 [bA146] to [bA149] [bA-70] to [bA-71] [bA-60] to [bA-63] [bA201] to [bA249] Cooling-fan operation Overvoltage suppression - Over-excitation Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value bA-70 00(Always ON) 00(Disable) Cooling fan bA146 01(While inverter operates) 01(Always enable) control method 02(Depends on temperature)
Page 87 Parameter setting Chapter 4 [bb101] to [bb-23] [bb-24] to [bb-42] Carrier frequency Initial Code/Name Range (unit) value Initial Code/Name Range (unit) bb-24 value Restart mode selection after instantaneous power failure/ 0.5 to 16.0(kHz) under-voltage error ([Ub-03]=02(ND)) bb-25 bb101 0.5 to 12.0(kHz) Instantaneous power failure Carrier frequency 0.3 to 25.0(s)
Page 88 Parameter setting Chapter 4 [bb-43] to [bb-62] [bb-65] to [bb260] Frequency pull-in restart Phase loss detection Code/Name Range (unit) Initial value Code/Name Range (unit) Initial value bb-43 bb-65 Inverter Input phase loss Inverter rated current rated Level of frequency pull-in detection enable 00(Disable) ×(0.2 to 2.5)(A)
Page 89 Parameter setting Chapter 4 [bC110] to [bC125] [bC210] to [bC225] (Example) When [bC111]=01, Inverter rated current:64A，[bC110]=64(A), Electronic thermal protection Base frequency[Hb103]=60Hz, Output frequency=2.5Hz Code/Name Range (unit) Initial value Inverter rated Inverter Reduction bC110 Electronic thermal current × rated current scale level setting, 1st-motor X1.0 (0.0 to 3.0)(A)
Page 90 Parameter setting Chapter 4 [bd-01] to [bd-04] Safety terminal Initial Code/Name Range (unit) value 00(Warning(display)) bd-01 STO input 01(Warning(without display)) display selection 02(Trip) bd-02 0.00 to 60.00(s) 1.00 STO input change time bd-03 00(Warning(display)) Display selection during 01(Warning(without display)) STO input change time bd-04 00(Maintain current status) 01(Disable)
Page 91 Parameter setting Chapter 4 [CA-01] to [CA-31] [CA-41] to [CA-55] ■Parameter mode (C code：I/O terminals, RS485) Output terminal chatter prevention Input terminal settings Range Initial Code/Name (unit) value Initial Code/Name Range (unit) value CA-41 Input terminal [FR] response time CA-01 Input terminal [FR] function Reference CA-42...
Page 92 Parameter setting Chapter 4 [Input terminal function list] Function Function Function Symbol Description Symbol Function name Description code name code Not use Stall stall Switches between prevention prevention 1(OFF) and 2(ON). Activating (ON) only one of them Forward rotation selection ⇒[bA122] to [bA128] will grant forward or reverse rotation command.
Page 93 Parameter setting Chapter 4 [Input terminal function list] Function Function Function Symbol Function name Description Symbol Description code code name For drooping control, switches Pulse Clear the count for the pulse P/PI control mode between PI control (OFF) and P counter selection counter function.
Page 94 Parameter setting Chapter 4 [CA-60] to [CA-84] [CA-90] to [CA-99] [UP] / [DWN] operations Pulse train input terminal Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value CA-60 CA-90 00(Speed reference) 00(Disable) 01(PID1 Set point) 01(Reference) UP/DWN overwrite target selection Pulse train input, 02(Speed feedback) target function...
Page 95 Parameter setting Chapter 4 [Cb-01] to [Cb-35] [CA-40][Cb-41][Cb-51] to [Cb-57] Analog input acquisition [CC-01] to [CC-07] Initial Code/Name Range (unit) Thermistor error detection value Code/Name Range (unit) Initial value Cb-01 1 to 500(ms) 00(Disable) Cb-40 [VRF] Filter time constant 01(PTC) Cb-03 Thermistor type selection 0.00...
Page 96 Parameter setting Chapter 4 [Intelligent output terminal function list] [CC-11] to [CC-33] Function Function Symbol Description code name Output terminal NO/NC settings Not use Running While output is active Initial Code/Name Range (unit) Constant-speed When constant speed reached, value UPF1 reached ON.
Page 97 Parameter setting Chapter 4 [Output terminal function list] Function Function Symbol Function name Description Symbol Function name Description code code Zero speed ON if output frequency is less ～ detection than set value [CE-33] Reserved ON if speed deviation exceeds Speed the set value.[bb-82] [bb-83] Emergency force...
Page 98 Parameter setting Chapter 4 [CC-40] to [CC-60] [Cd-01] to [Cd-35] Logic output terminals settings Analog output terminal adjustment Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value <Intelligent output Cd-01 00(PWM) CC-40 [FRQ] Output wave terminal function list> 01(Frequency) form selection LOG1 operand-1 selection reference...
Page 99 Parameter setting Chapter 4 [CE101] to [CE107] [CE-10] to [CE-31] Low-current detection signal Frequency arrival signal Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value CE101 CE-10 00(During Accel/Decel and Low current Arrival frequency 1 value constant speed) signal output mode setting during acceleration 01(During constant speed only) selection, 1st motor...
Page 100 Parameter setting Chapter 4 [CE-33] to [CE-55] [CE201] to [CE223] If [CE-51] [CE-53] [CE-55] = 02 0Hz speed detection signal VRF/IRF/VF2 Input Initial Code/Name Range (unit) Max (100%) value Hysteresis width CE-33 Maximum-limit level 0.00 to 100.00(Hz) 0.50 [CE-42]/[CE-45]/[CE-48] Zero speed detection level of window comparator ・Sets the level in which the Inverter outputs the 0Hz detection CE-40/CE-43/CE-46...
Page 101 Parameter setting Chapter 4 [CF-01] to [CF-11] [CF-20] to [CF-50] Modbus communication EzCOM peer to peer communication Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value 03(2400bps) CF-20 EzCOM start node No. 04(4800bps) 1 to 8 CF-21 05(9600bps) EzCOM end node No. CF-01 06(19.2kbps) 00(Terminal...
Page 102 Parameter setting Chapter 4 [HA-01] to [HA115] [HA120] to [HA134] ■Parameter mode (H code：Motor Control) Control response gain Auto-tuning Initial Code/Name Range (unit) value Initial Code/Name Range (unit) 00([CAS] terminal) value HA120 ASR gain switching mode 01(Parameter 00(Disable) selection, 1st-motor setting) HA-01 01(No-rotation)
Page 103 Parameter setting Chapter 4 [HA210] to [HA234] [Hb102] to [Hb108] 2nd motor When Intelligent Input terminal 024[SET] is enabled. Basic parameters for Induction motor Range Initial Code/Name Code/Name Range (unit) Initial value (unit) value 00：IE1 motor HA210 Hb101 Same as HA110 01：AF motor Stabilization constant, 2nd-motor 02：d2G4 motor...
Page 104 Parameter setting Chapter 4 [Hb110] to [Hb131] [Hb140] to [Hb146] Induction motor constants Manual torque boost adjustment Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value 00(Disabled) Hb110 Async. Motor 01(Always enable) Hb140 constant R1, 1st-motor 0.000001 to 1000.000000 Manual torque 02(Enable at Forward (Ω)
Page 105 Parameter setting Chapter 4 [Hb150] to [Hb171] [Hb180] to [Hb280] Free V/f setting Output adjustment gain Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value Hb150 Hb180 0.00 to 0 to 255(%) Output voltage gain, 1st-motor 0.00 [Hb152](Hz) Free-V/f frequency 1 setting, 1st-motor ・When the motor is hunting, there is a possibility that the Hb151 motor stabilizes by adjustment of the output voltage...
Page 106 Parameter setting Chapter 4 [HC101] to [HC115] [HC120] to [HC121] Automatic torque boost adjustment Motor control adjustment gain Initial Code/Name Range (unit) Initial value Code/Name Range (unit) value HC120 0 to 100(ms) HC101 Torque current reference filter Automatic torque boost voltage time constant, 1st-motor compensation gain, 1st-motor 0 to 255(%)
Page 107 Parameter setting Chapter 4 [Hd102] to [Hd118] [Hd130] [Hd137][Hd-41] [Hd-58] (SM/PMM) basic parameters Minimum frequency settings Code/Name Range (unit) Initial value Initial Code/Name Range (unit) value Hd102 Hd130 0.01 to 75.00 (kW) Minimum frequency Sync. Motor capacity 0 to 50(%) setting, 1st-motor adjustment for Sync.M, 1st-motor Factory setting...
Page 108 Parameter setting Chapter 4 [Hd202] to [Hd237] [oA-10] to [oA-33][ob-01] to [ob-04] ■Parameter mode (O code：Option Card) 2nd motor When Intelligent Input terminal 024[SET] is enabled. Range Initial ・”o” parameters are displayed by the [UA-11] = 01. This Code/Name (unit) value configuration is not necessary except when option is used.
Page 109 Parameter setting Chapter 4 [ob-10] to [ob-16][oC-01] to [oC-28] [oE-01] to [oE-33] HF-FB Pulse train input terminal setting P1-AG Optional analog input setting Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value ob-10 oE-01 00(Frequency reference) Pulse train 1 to 500(ms) 01(Pulse train position input, target function [Ai4] Filter time constant...
Page 110 Parameter setting Chapter 4 [oE-35] to [oE-49] [oE-50] to [oE-70] P1-AG Window comparators output condition P1-AG Optional analog output adjustment Initial Initial Code/Name Range (unit) Code/Name Range (unit) value value oE-35 oE-50 dA-01 [Ai4] Window comparator upper [Ao3] Output monitor selection limit oE-51 0 to 100(%)
Page 111 Parameter setting Chapter 4 [oH-01] to [oH-34] [oJ-01] to [oJ-40] P1-EN Optional Ethernet setting Optional Interface Group A option I/F flexible command Initial Code/Name Range (unit) value Initial Code/Name Range (unit) value oH-01 00(Group 1) 01(Group 2) oJ-01 IP-address selection Writing register 1, Gr.A oH-02 00(Auto-negotiation)
Page 112 Parameter setting Chapter 4 [oJ-41] to [oJ-60] [oL-01] to [oL-36] Group C option I/F flexible command Range Initial Initial Code/Name Code/Name Range (unit) (unit) value value oL-01 oJ-41 IPv4 IP address (1) Gr.1 Writing register 1, Gr.C oL-02 oJ-42 IPv4 IP address (2) Gr.1 Writing register 2, Gr.C oL-03 oJ-43...
Page 113 Parameter setting Chapter 4 [oL-40] to [oL-76] Initial Code/Name Range (unit) value oL-40 IPv4 IP-address (1) Gr.2 oL-41 IPv4 IP-address (2) Gr.2 oL-42 IPv4 IP-address (3) Gr.2 oL-43 IPv4 IP-address (4) Gr.2 oL-44 IPv4 subnet mask (1) Gr.2 oL-45 IPv4 subnet mask (2) Gr.2 0 to 255 oL-46 IPv4 subnet mask (3) Gr.2...
Page 114 Parameter setting Chapter 4 [PA-01] to [PA-05] [PA-20] to [PA-31] ■Parameter mode (P code：Special Function) Simulation mode settings Em-force mode settings Initial Code/Name Range (unit) value Initial Code/Name Range (unit) value PA-20 00(Disable) Simulation 01(Enable) PA-01 mode enable 00(Disable) PA-21 Enable Emergency-force Error code 01(Enable)
Page 115 Parameter setting Chapter 4 [UA-01] to [UA-19] [UA-20] to [UA-62] ■Parameter mode (U code：Set-up, PDN) Password setting Keypad communication lost operation Code/Name Range (unit) Initial value Initial Code/Name Range (unit) value UA-01 Password for display 0000 to FFFF 0000 00(Error) UA-20 UA-02 Action...
Page 116 Parameter setting Chapter 4 [UA-90] to [UA-94] [Ud-01] to [Ud-37] Trace function [Ub-01] to [Ub-05] [UC-01] Initial Code/Name Range (unit) value Initial 00(Disable) Code/Name Range (unit) Ud-01 Trace function enable value 01(Enable) UA-90 to 94 00(Stop) Reserved Ud-02 Trace start 01(Start) Ud-03 Number of trace data setting...
Page 117 Parameter setting Chapter 4 [Ud-38] to [Ud-60] [Unit table] Number Unit Number Unit Initial Code/Name Range (unit) value °F Ud-38 00 (Input: [Ud-39]) Trace signal 6 01 (Output: [Ud-40]) input/output selection l/min Ud-39 Trace signal 6 input Similar to [CA-01] terminal selection /min Ud-40...
Page 118: Chapter 5 Troubleshooting
Chapter 5 Troubleshooting Chapter 5 Troubleshooting 5.1 Error events Next are the descriptions of the basic errors that may occur. For more information, refer to the user’s guide. ■Trip event screen The error code (E005 as example) is explained further ahead. TRIP NRDY With the ▼...
Page 119 Chapter 5 Troubleshooting Code Details Corrective actions Related parameter ・Ground fault is detected at main ・Check for ground fault of the motor, wiring, etc. E014 power supply turned ON. ・The main power supply voltage ・Review the power circumstances, such as the power E015 [dA-40] has been continuously above the...
Page 120: Confirming Status
Chapter 5 Troubleshooting 5.2 Confirming the status ■Frequently asked questions – FAQ (simplified edition) (A) Main operation status Details of display Display Description <d> <a> <b> <c> RUN,FR While in forward operation <e> <h> <g> <f> RUN,RR While in reverse operation While output operation is 0Hz.
Page 121 Chapter 5 Troubleshooting (E) Panel’s RUN key function Display Description Forward operation from panel’s RUN key. Reverse operation from panel’s RUN key. >FR Forced forward operation. >RR Forced reverse operation. (None) Different operation (other than RUN). ・Displayed if the panel RUN key is activated. ・Review AA111 if is not displayed and want to use the panel for RUN operation.
Page 122 Chapter 5 Troubleshooting 5.3 Possible errors and solutions If the corrective action does not solve the problem, refer to the user's guide where there are more detailed descriptions. Event ▶ Estimated cause ▶ Corrective action ・Press a key of the Keypad and the screen will be displayed. ・Keypad in idle mode Screen is not displayed even...
Page 123 Chapter 5 Troubleshooting Event ▶ Estimated cause ▶ Corrective action ・ If output current is high, the overload restriction function ・Overload restriction function is [bA122] lowers the frequency. To increase the acceleration time [AC120], it is necessary to suppress the current in operation.
Page 124: Chapter 6 Inspection And Maintenance
Chapter 6 Inspection and Maintenance Chapter 6 Inspection and Maintenance Read this before performing any inspection or maintenance! There is risk of electric shock! ・Before an inspection the supply power must to be cut off, and then wait at least 10 minutes(*1) or 15 minutes(*2) before proceeding.
Page 125: Daily And Periodic Inspections
Chapter 6 Inspection and Maintenance 6.2 Daily and periodic inspections Inspection cycle Inspected Inspection Every Details of inspection Inspection method Criterion Tester device part entry Daily year years Ambient temperature, level of Thermometer Surrounding Check the ambient temperature, level ○ Refer to the installation guide.
Page 126: Insulation Resistance Test
Chapter 6 Inspection and Maintenance 6.3 Insulation resistance test ・When testing an external circuit with a megger, disconnect all the external circuit cables from the inverter to prevent it from being exposed to the test voltage. ・In the control circuit carry out a conduction test, use a multi-meter (with high resistance range), do not use a megger® or buzzer /continuity tester.
Page 127: Checking Method For Inverter/Converter
Chapter 6 Inspection and Maintenance 6.5 Checking method for Inverter/Converter ・Using the multi-meter, you can check if the inverter or converter unit are defective or non-defective. (Preparation) ① Remove the supply (R,S,T) and motor wiring (U,V,W), and also the regenerative braking resistor(P,PR). ②...
Page 128: Smoothing Capacitor Life Span Curve
Chapter 6 Inspection and Maintenance 6.6 Smoothing capacitor life span curve ・80% of the ND rated current value for continuous drive. Ambient temperature (°C) For continuous supplying power of 24h a day Capacitor life span (years) *1) The ambient temperature is considered to be measured around 5 cm of the bottom centre of the inverter (Atmosphere temperature).
Page 129: Input/Output Voltage, Current And Power Measurement Methods
Chapter 6 Inspection and Maintenance 6.8 Input/output voltage, current and power measurement methods Standard equipment for measuring input/output voltage, current, and power measurement. Inverter Power Motor Supply Measured Measuring point Measuring instrument Remarks Standard reference values data 200V class:200〜240V 50/60Hz Input voltage R-S, S-T, Moving-iron voltmeter or...
Page 130: Class Specifications
Chapter 7 Specifications Chapter 7 Specifications 7.1 200V class specifications HF4322- Model name 18.5 Applicable motor (4 poles) (kW) 33.0 46.0 60.0 80.0 Rated output current 30.0 40.0 56.0 73.0 24.0 32.0 46.0 64.0 95.0 110% 60sec / 120% 3sec Overload current 120% 60sec / 150% 3sec rating...
Page 131 Chapter 7 Specifications 7.2 400V class specifications HF4324- Model name Applicable motor (4 poles) 18.5 (kW) 17.5 25.0 31.0 40.0 62.0 77.0 93.0 Rated output 16.0 22.0 29.0 37.0 57.0 70.0 85.0 current(A) 14.8 19.0 25.0 32.0 48.0 61.0 75.0 91.0 110% 60sec / 120% 3sec Overload current...
Page 132 Chapter 7 Specifications 7.3 Common specifications PWM system Sine-wave PWM system Output frequency range *1) 0.00〜590.00Hz Frequency accuracy For the highest frequency, digital±0.01%, analog±0.2% (25±10℃) Digital: 0.01Hz：Analog: Max. frequency/4000 Frequency resolution (VRF terminal/IRF terminal:12bit/0〜+10V or 0〜+20mA, VF2 terminal 12bit/-10〜+10V) V/f control (constant torque/reduced torque/ free / automatic boost control ) V/f with encoder( constant torque/reduced torque/ free / automatic boost control ) Control system *2) Cascade type sensorless vector control, 0Hz sensorless vector control, Vector control with encoder...
Page 133 Chapter 7 Specifications 7.3 Common specifications (continue) Transistor output terminal 5, 1a contact relay 1 point, 1c contact relay 1 point DRV(While in run), UPF1〜5(Reached frequency signal), IRDY(Inverter ready), FRR(Forward rotation), Output terminals RRR(Reverse rotation), FREF(panel frequency reference), REF(panel motion operation), SETM(2nd-motor selected), OPO(Option-Output), AL(Alarm signal), MJA(Major failure signal), OTQ(Over-torque), IP(Power loss), UV(Undervoltage), TRQ(Torque limited), IPS(Decel.
Page 134: Appendix 1
Appendix 1 List of Parameters List of Parameters A1.1 What This Chapter Explains This chapter describes lists of monitors and parameters as well as setting range of each parameter and their initial values. A1.2 How to View Parameters and Lists Structure of parameter number •...
Page 135 Appendix 1 List of Parameters After configuring settings for motor protection, choose the frequency command destination and operation command destination to run the device. • With [AA101], choose a frequency command destination. • With [AA111], choose an operation command destination. •...
Page 136 Appendix 1 List of Parameters Monitors related to PID function  Code Name Data range Page db-01 to 23 Reserved db-30 PID1 feedback data 1 monitor db-32 PID1 feedback data 2 monitor 0.00~100.00 (%) (adjustable in [AH-04][AH-05][AH-06]) db-34 PID1 feedback data 3 monitor db-36 PID2 feedback data monitor 0.00~100.00 (%) (adjustable in [AJ-04][AJ-05][AJ-06])
Page 137 Appendix 1 List of Parameters ■Monitors（F code：Reference Monitor / setting） Code Name Data range Note Page FA-01 Main speed command monitor 0.00~590.00 (Hz) FA-02 Auxiliary speed command monitor -590.00 - 590.00 (Hz) (for monitoring)/0.00 - 590.00 (Hz) (for setting) FA-10 Acceleration time monitor 0.00~3600.00 (s) FA-12...
Page 138 Appendix 1 List of Parameters Initial Code Name Data range Note Page value AA201 Second main speed command selection Same as AA101 AA202 Second auxiliary speed command selection Same as AA102 AA204 Second auxiliary speed setting Same as AA104 0.00 AA205 Second operator selection Same as AA105...
Page 139 Appendix 1 List of Parameters Initial Code Name Data range Note Page value AC-30 Acceleration time for multi-speed 1st speed AC-32 Deceleration time for multi-speed 1st speed AC-34 Acceleration time for multi-speed 2nd speed AC-36 Deceleration time for multi-speed 2nd speed AC-38 Acceleration time for multi-speed 3rd speed AC-40...
Page 140 Appendix 1 List of Parameters Code Name Data range Initial value Note Page AE-01 Electronic gear installation position selection 00 (Feedback side)/01 (Command side) AE-02 Electronic gear ratio numerator 1~10000 AE-03 Electronic gear ratio denominator AE-04 Positioning completion range setting 0~1000 (ms) AE-05 Positioning completion delay time setting...
Page 141 Appendix 1 List of Parameters Initial Code Name Data range Note Page value 00 (Disabled) 01 (Brake control 1 common forward/reverse rotation) AF130 First brake control selection 02 (Brake control 1 forward/reverse set individually) 03 (Brake control 2) First brake release establishment AF131 waiting time (normal rotation) First acceleration waiting time...
Page 142 Appendix 1 List of Parameters Code Name Data range Initial value Note Page Second brake release establishment AF238 Same as AF138 waiting time (normal rotation) Second acceleration waiting time AF239 Same as AF139 (normal rotation) AF240 Second stop waiting time (normal rotation) Same as AF140 0.00 Second brake confirmation waiting time...
Page 143 Appendix 1 List of Parameters Initial Code Name Data range Note Page value AH-32 PID1 multistage target value 11 AH-34 PID1 multistage target value 12 AH-36 PID1 multistage target value 13 -100.00~100.00 ＊ 0.00 AH-38 PID1 multistage target value 14 AH-40 PID1 multistage target value 15 AH-42...
Page 144 Appendix 1 List of Parameters Initial Code Name Data range Note Page value 00 (Disabled)/01 (Enabled without reverse output) AJ-01 PID2 selection 02 (Enabled with reverse output) AJ-02 PID2 deviation negative 00 (Disabled)/01 (Enabled) AJ-03 PID2 unit selection See <Unit options> at the end of Appendix-1 AJ-04 PID2 scale adjustment (0%) -10000~10000...
Page 145 Appendix 1 List of Parameters Parameter mode (B code：Fine Tuning Function) Initial Code Name Data range Note Page value 00 (Disable)/01 (VRF terminal input) 02 (IRF terminal input)/03 (VF2 terminal input) 04 (Ai4 terminal input)/05 (Ai5 terminal input) bA101 First frequency upper limit selection 06 (Ai6 terminal input)/07 (Parameter setting) 08 (RS485)/09 (Option 1)/10 (Option 2) 11 (Option 3)/12 (Pulse string input (main body))
Page 146 Appendix 1 List of Parameters Initial Code Name Data range Note Page value Braking resistor operation circuit (DBTR) bA-60 10.0 0.0 - 10.0×([bA-63]/minimum resistance) use rate 00 (Disabled)/01 (Enabled: disabled at stop) bA-61 Braking resistor circuit (DBTR) selection 02 (Enabled: enabled at stop) (200V class) 330.0 - 400.0 (V) 360.0 bA-62...
Page 147 Appendix 1 List of Parameters Initial Code Name Data range Note Page value Retry wait time after instantaneous power bb-26 0.3~100.0 (s) failure/undervoltage Instantaneous power failure 00 (Disabled)/01 (Enabled at stop) bb-27 undervoltage tripping selection during 02 (Disabled at stop and deceleration stop) stop 00 (0Hz)/01 (Frequency matching) bb-28...
Page 148 Appendix 1 List of Parameters Code Name Data range Initial value Note Page 1.00× Inverter bC110 First electronic thermal level (0.00 - 3.00)× Inverter rated current rated current 00 (Reduction characteristics) bC111 First electronic thermal characteristics selection 01 (Constant torque characteristics) 02 (Arbitrary setting) bC112 First electronic thermal subtraction function selection...
Page 149 Appendix 1 List of Parameters Initial Code Name Data range Note Page value CA-60 UP/DWN target selection 00 (Frequency command)/01 (PID1) CA-61 UP/DWN memory selection 00 (Not save)/01 (Save) CA-62 UP/DWN UDC mode selection 00 (0Hz)/01 (saved data) CA-64 Acceleration time for UP/DWN functions 0.00~3600.00 (s) 30.00 CA-66...
Page 150 Appendix 1 List of Parameters Initial Code Name Data range Note Page value 00 (Disabled) Cb-40 Thermistor selection 01 (PTC resistance value enabled) 02 (NTC resistance value enabled) Cb-41 Thermistor [TH+/TH-] adjustment 0.0~1000.0 100.0 Cb-51 Reserved Cb-57 4-44 CC-01 Selection of output terminal function [UPF] CC-02 Selection of output terminal function [DRV] CC-03...
Page 151 Appendix 1 List of Parameters Initial Code Name Data range Note Page value Cd-01 [FRQ] terminal output form selection 00 (PWM)/01 (frequency) [FRQ] terminal standard frequency Cd-02 0~3600 (kHz) 2880 (for PWM output) Cd-03 [FRQ] terminal output selection Cd-04 [AMV] terminal output selection See the List of output monitor functions [dA-01] Cd-05...
Page 152 Appendix 1 List of Parameters Code Name Data range Initial value Note Page 00 (During acceleration/deceleration, CE201 Second low current signal output mode selection at constant speed) 01 (Only at constant speed) CE202 Second low current detection level 1 1.00 × Inverter (0.00 to 2.00) ×...
Page 153 Appendix 1 List of Parameters Parameter mode (H code：Motor Control) Initial Code Name Data range Note Page value 00 (Disabled)/01 (Non-rotation)/02 (Rotation) HA-01 Auto-tuning selection 03 (IVMS) 00 (RUN key on the operator keypad) HA-02 Operation command for auto-tuning 01 ([AA111]/[AA211]) HA-03 Online tuning selection 00 (Disabled)/01 (Enabled)
Page 154 Appendix 1 List of Parameters Code Name Data range Initial value Note Page 00 (Disabled)/01 (Always enabled) First manual torque boost operation mode Hb140 02 (Enabled only for forward revolution) selection 03 (Enabled only for reverse revolution) Hb141 First amount of manual torque boost 0.0~20.0 (%) 4-53 Hb142...
Page 155 Appendix 1 List of Parameters Initial Code Name Data range Note Page value HC101 First automatic torque boost voltage compensation gain 0~255 (%) HC102 First automatic torque boost slip compensation gain HC110 First zero-speed range limiter (IM-0Hz) 0~100 (%) HC111 First amount of boost at the start (IM-SLV) 0~50 (%) HC112...
Page 156 Appendix 1 List of Parameters Initial Code Name Data range Note Page value Hd202 Second SM (PMM) motor capacity selection Same as Hd-102 Hd203 Second selection of number of SM (PMM) motor poles Same as Hd-103 Hd204 Second SM (PMM) base frequency Same as Hd-104 Hd205 Second SM (PMM) maximum frequency...
Page 157 Appendix 1 List of Parameters Code Name Data range Initial value Note Page oC-01 Reserved oC-28 oE-01 [Ai4] terminal input filter time constant 1~500 (ms) oE-03 [Ai4] terminal start amount 0.00 0.00~100.00 (%) oE-04 [Ai4] terminal end amount 100.00 oE-05 [Ai4] terminal start ratio 0.0~ [oE-06] (%) oE-06...
Page 158 Appendix 1 List of Parameters Initial Code Name Data range Note Page value oH-01 IP address selection (P1-EN) 00 (Gr.1)/01 (Gr.2) oH-02 Transmission speed (port 1) (P1-EN) 00 (Auto negotiation)/01 (100M: full duplex) 02 (100M: half duplex)/03 (10M: full duplex) oH-03 Transmission speed (port 2) (P1-EN) 04 (10M: half duplex)
Page 159 Appendix 1 List of Parameters Code Name Data range Initial value Note Page oJ-50 Gr.C flexible command registration writing register 10 oJ-51 Gr.C flexible command registration reading register 1 oJ-52 Gr.C flexible command registration reading register 2 oJ-53 Gr.C flexible command registration reading register 3 oJ-54 Gr.C flexible command registration reading register 4 oJ-55...
Page 160 Appendix 1 List of Parameters Parameter mode (P code：Special Function) Initial Code Name Data range Note Page value PA-01 Forced operation mode selection 00 (Disabled)/01 (Enabled) PA-02 Forced operation frequency setting 0.00~590.00 (Hz) 0.00 PA-03 Forced operation rotation direction command 00 (Normal rotation)/01 (Reverse rotation) PA-04 Commercial power supply bypass function selection...
Page 161 Appendix 1 List of Parameters Parameter mode (U code：Set-up, PDN) Initial Code Name Data range Note Page value UA-01 Password input for display selection 0000~FFFF 0000 UA-02 Soft-lock password input 00 (Full display)/01 (By function)/02 (User setting) UA-10 Display selection 03 (Conveyor display)/04 (Only monitor display) UA-12 Clearing of integrated input power...
Page 162 Appendix 1 List of Parameters Initial Code Name Data range Note Page value Ud-01 Trace function selection 00 (Disabled)/01 (Enabled) Ud-02 Trace start 00 (Stop)/01 (Start) Ud-03 Selection of the number of trace data sets Ud-04 Selection of the number of trace signals Ud-10 Selection of trace data 0 Ud-11...
Page 163 Appendix 1 List of Parameters <List of output monitor functions> Monitor No. Function Monitor No. Function dA-01 Output frequency monitor db-36 PID2 feedback data monitor dA-02 Output current monitor db-38 PID3 feedback data monitor dA-04 Frequency command after calculation db-40 PID4 feedback data monitor dA-08 Speed detection value monitor...
Page 164 Appendix 1 List of Parameters <List of input terminal functions> Function Function Function name Page Function name Page Abbreviation Abbreviation Without allocation SVC2 PID1 multistage target value 2 Normal rotation SVC3 PID1 multistage target value 3 Reverse rotation SVC4 PID1 multistage target value 4 Multistage speed 1 Switching of PID gain Multistage speed 2...
Page 165 Appendix 1 List of Parameters <List of output terminal functions> Function Function name Page Function No. Function name Page Abbreviation Abbreviation Without allocation LOG7 Result of logical operation 7 During operation 069 to 075 Reserved Forced operation in process UPF1 When the constant speed is attained EMFC signal...
Page 166: Quick Start
Appendix 2 Quick Start Quick Start Thoroughly read “Chapter 1 Safety ・Part of the keypad screen is shown in below. Instructions” and “Chapter 2 Installation and Frequency setting from keypad DANGER Wiring” in the Instruction Manual for installation and wiring of the inverter. AA101 Main Speed source_M1 1 Term.[VRF]...
Page 167: Index
Index absolute position control ........4-23 FOC ..............4-42 accel/decal curve selection ......4-21 forward operation ..........4-41 acceleration curve constant ......4-21 FOT ..............4-42 acceleration time ..........4-21 free setting of electronic thermal acceleration (2) time ......... 4-21 characteristics ..........
Page 168 Index main circuit terminal ..........2-8 test run ............... 3-1 major failure signal ........... 4-45 thermistor ............2-23 manual torque boost ......... 4-53 THM ..............4-45 MBS ..............4-36 torque bias setting ..........4-22 MJA ..............4-45 torque boost ............. 4-48 Modbus .............
Page 169: Warranty
Appendix 4 Warranty Warranty The warranty shall be 18 months from date of shipment or 12 months after initial period operation, whichever is shorter. In the event that any problem or damage to the Product arises during the “Warranty Period” from defects in the Product whenever the Product is properly installed and combined with the Buyer’s equipment or machines maintained as specified in the maintenance manual, and properly operated under the conditions described in the catalog or as otherwise agreed upon in writing between the Seller and Buyer or its...
Page 170: To Inverter Users
Appendix 4 To inverter users: The inverter described in this operation manual is used for variable-speed operation of 3-phase induction motors for general industry use. ！ CAUTION ▼ The inverter described in this manual is not designed and manufactured for use in equipment or a system used under the following conditions that will directly lead to death or injury: atomic energy control, aerospace equipment, traffic equipment, medical instrument and all kinds of safety devices.
Page 171 Worldwide Locations U.S.A Austria Korea Sumitomo (SHI) Cyclo Drive Germany GmbH Sumitomo Machinery Corporation of America Sumitomo (SHI) Cyclo Drive Korea, Ltd. (SCK) (SMA) (SCG) Royal Bldg. 19 Rm. 913, 5 Saemunan-ro 5-Gil Jongro-Gu SCG Branch Austria O ce 4200 Holland Blvd. Chesapeake, VA 23323, U.S.A. Seoul, Korea 03173 Gruentalerstraße 30A, 4020 Linz, Austria TEL (1)757-485-3355...

Sumitomo Drive Technologies HF-430NEO Series Operating And Maintenance Manual

Chapter 1 Safety Instructions

Chapter 2 Installation and Wiring

Chapter 3 Operation Setting and Examples of I/O Adjustment

Chapter 4 Parameter Setting

Chapter 5 Troubleshooting

Chapter 6 Inspection and Maintenance

Chapter 7 Class Specifications

Appendix 1

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