Hitachi Koki USA 3H User's Manual
Contents
1. Port Error SP116 co C10 LD K101 LD K12 LDA 2000 RX TA5 CO SET C5 OUT Port Error SP116 co C10 LD K101 LD K8 LDA 03000 WX TA4 CO L RST The LD box designates the bottom port of the DirectLogic CPU as master and specifies address 1 as the slave address The last digit 1 cor responds to the number of SC OPEs devices on the network LD box specifies the amount of data to be read in bytes K12 specifies 12 bytes or 6 words LDA box specifies the destina tion of the values being read Read from TA5 V5 in the RX operation The equivalent MODBUS RTU address 40006 This rung writes values to the SC OPE We are loading the values from V3000 in the DL250 CPU and moving them into TA4 V4 The equivalent MODBUS address 40005 5 9 T a2 9 48 55 o lt 92 55 5 72 Using Networks for Inverter Operation The following rung helps to ensure the PLC is reading valid data It utilizes the fact that if either the comm port of the inverter the SC OPE s inverter port or the cable between the SC OPE and the drive has a fault error the only register that will not fail communications to the PLC is the Run Status register When a port error occurs we will attempt to read this register A read failure indicates the problem is between the PLC and SC OPE In this event2. Bit Description Bit Description 0 Analog Input Voltage Current Select 8 PID Reset 1 Set 3rd Motor data 9 Not Used 2 Reset Inverter 10 Control Gain Setting 3 Not Used 11 Remote Control UP Function 4 Start 3 Wire Interface 12 Remote Control DOWN Function 5 Stop 3 Wire Interface 13 Remote Control Data Clearing 6 FWD REV 3 Wire Interface 14 Not Used 7 PID Disable 15 Operator Control Input Terminal Information Word 4 Bit Description Bit Description 0 Not Used 8 Set 2nd 1 Reverse Run Stop 9 2 Stage Accel and Decel 2 Multi speed select bit1 10 Not Used 3 Multi speed select bit 2 11 Free run Stop 4 Multi speed select bit 3 12 External Trip 5 Multi speed select bit 4 13 Unattended Start Protection 6 Jogging 14 Commercial Power Source External DC Braking 15 Software Lock Output terminal Information Bit level Definitions for Factory I O Registers Output Terminal Information Word 1 Bit Description Bit Description 0 Not Used 8 Frequency Arrival Type 4 over frequency 2 1 Not Used 9 Frequency Arrival Type 5 at frequency 2 2 Not Used 10 Overload Advance Notice Signal 2 3 Brake Release Signal 11 Not Used 4 Brake Error Signal 12 Not Used 5 Zero Speed Detect 13 Not Used 6 Speed Deviation Maximum 14 Not Used 7 Position Completion 15 Not Used Output Terminal Information
3. Hand Run Command Source Freq Command Source Auto Select Display A002 Value Display A001 Value 1 OPE 02 Operator 02 keypad 2 00 Keypad potentiometer VR 3 01 Control terminal TRM 4 01 Control ter 01 Control terminal TRM minals TRM 5 iu 00 Keypad potentiometer VR 6 02 Operator keypad REM When the SC OPE is in another normal mode such as Program Mode or Quick Menu a press of the Hand Auto key will automatically switch to Monitor Mode and increment the Hand Auto setting Note Any Hand Auto setting change immediately changes parameters A001 and A002 in the inverter However you must perform a Store to EEPROM operation available in the Quick Menu to store the change to retentive memory Note Control of the inverter via a network connection to the SC OPE requires that you use the Hand Auto setting Run OPE Frq OPE This will permit the SC OPE to send network command values to A002 and A001 inverter parameters respectively Monitor As discussed in the Program Mode section see page 3 14 the SC OPE monitors the inverter s Software Lock Mode setting Run Stop Mode status SFT intelligent input status etc This enables the SC OPE to allow or prevent the editing of inverter parameters as appropriate for each parameter in real time Although Program Mod
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5. Confisuration Menu Inverter Ture L360 Series DConfisuration Menu Inverter Fort Cfa uoneinByuoD pue 5 o D e E Installation Configuration 8 Press the Down Arrow key twice to access the Store Confisuration Menu Configuration Menu Item Store Confisuration Press twice Enter 9 Press Store Enter ENTE to store configuration STORE Lonfisuration Menu change ENTER Store Configuration Confisuration Stored Network Port Network port configuration is only necessary when connecting the SC OPE to a Configuration factory network SC OPE communications to the Configuration Editor is automatic does not require network port configuration This section shows how to configure the network port using the Configuration Editor or using the SC OPE keypad Installation c 5 5 e je configure the network port by using the Configuration Editor 1 In the Network Port Configuration group click the Setup button The Network Port dialog ENSE box will appear Masao A Disable Network Control a Keypad Stop 2 In the Port Protocol field click the desired Baud Rate Stop Bits n n G1 RS232 factory network protocol in the list aie gt C 600 C 5485 4 Wire Data Bits 3 Please refer to Chapter 4 for a c
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7. e e Several mechanical mounting options for the SC OPE are available The proper option for your application depends on its requirements as described in the table below Additional guidelines are on the following page Application Description Mounting Option Use Network Port Use Network Port RS 485 RS 232 Mount to Inverter SJ300 L300P only No Yes Panel Mounting All inverters Yes Yes DIN rail Mounting All inverters Yes Yes After the SC OPE is mounted in the method appropriate for your application be sure to read the remaining sections in this chapter starting on page 2 15 Mount to Inverter M See Mounting the SC OPE to an Inverter on page 2 5 Panel Mounting See Panel Mounting the 5 on page 2 8 DIN rail Mounting See DIN Rail Mounting the 5 on page 2 12 Introduction e Only the 57300 L300P inverter families have the proper keypad bay to accept the SC OPE for direct mounting 5 00 L100 and J300 inverters will require remote mounting of the SC OPE in all applications The guidelines for selecting the mounting options are If you want to use the SC OPE s RS 485 network port you must mount the SC OPE separately from the inverter This is to accommodat
8. Ii 26 o Ooo 2 t Signal Output gt Freq Pattern Accel Freq Decel Freq Ov Trq Power Ov Trq Sig Regen Terminal Defs gt Input Pin 1 Input Pin 2 Input Pin 3 Input Pin 4 Input Pin 5 Input Pin 6 Input Pin 7 Input Pin 8 2 gt 5 D v Option Monitor Signal gt Option Error Option Select Orient Position Torque Input Pin 1 NO NC Input Pin 2 Input Pin NO NC Input Pin 4 NO NC Output Pin 11 Output Pin 12 Output Pin 1 NO NC Output Pin 2 NO NC Alarm Output NO NC gt OPI Error Oper 2 Error Oper Encoder Pulses Option Ctrl Mode Option RO TO gt Orient Stop Pos Chg Orient Stop Pos Orient Speed Orient Direction Orient End Range Orient End Delay gt Gear Setting Pos Gear Ratio num Gear Ratio den V Feed Fwd Gain Positional Gain gt Torque Limiter Fwd Torque Limit Rev Torque Limit Torque Boost p Torque Boost 5 V gain Set Value J300 Inverter Program Menu List Lr PID gt PID Switching Feedback AC DC Target PID Value PID P Gain Gain PID D Gain Y Digital gt Dig Input Term Dig Output Term Dig Thermal Level Y Analog gt Ana Input Term Ana Output Term Communications gt COMM
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10. 621 lt 922 O8LOv adAL Bay Boy Boy SaloN spun ebuey 10067 00275 00 1 sseooV snqpow ooers sde d00 1 00ers Bit level Definitions for Factory I O Registers Bit level Definitions for Factory I O Registers Input Terminal Information Input Terminal Information Word 1 Bit Description Bit Description 0 Position Train Position Command Input 8 Not Used Enable 1 Not Used 9 Not Used 2 Not Used 10 Not Used 3 Not Used 11 Not Used 4 Not Used 12 Not Used 5 Not Used 13 Not Used 6 Not Used 14 Not Used Not Used 15 Not Used Input Terminal Information Word 2 Bit Description Bit Description 0 Multi Speed Bit1 8 Torque Limit Enable 1 Multi Speed Bit2 9 Torque Limit Selection Bit 1 gt 2 Multi Speed Bit3 10 Torque LimitSelection Bit 2 3 Multi Speed Bit4 11 Proportional Proportional Integral S Selection 2 S 4 Multi Speed Bit5 12 Brake Confirmation Signal 5 Multi Speed Bit6 13 Orientation Home Search 5 6 Multi Speed Bit7 14 LAC LAD Cancel 5 7 Overload Restriction 15 Position Deviation Reset 2 Oo S 5 OD 9 e Se os 2 Input Terminal Information Word 3
11. Uploading a Using the Configuration Editor requires that you have performed basic setup tasks Configuration per the procedures given in prior sections in this chapter To prepare to edit a SC OPE configuration 1 Install the configuration software on the PC 2 Connect the SC OPE to the inverter either through direct mounting or via the cable supplied in the Bezel Kit 3 Connect the SC OPE to an open serial port on your PC using the cable supplied in the Configuration Kit PC with Configuration Editor Installation c 5 5 e je Installation Configuration To upload a configuration from the SC OPE to the PC 1 From Window s desktop click Start gt Programs gt Hitachi gt SC OPE 3 Editor Then the SC OPE 3 Configuration Editor window will appear Initially empty the window area will eventually contain config uration window s when you have uploaded or created new ones 2 Select the COM port which the editor will use to communicate with the SC OPE From the editor s menu click Editor gt Set COM Port Option gt or COM2 COM3 as needed for your PC If you select a COM port which is already in use on your PC an error message will appear Click OK and repeat this step selecting an available COM port 3 Turn on power to the inverter thus pow ering the SC OPE Ensure the motor if connected
12. Hitachi America Inc 5 7300 2 To edit a line in the screens click the Uer cursor in the appropriate field and enter or edit the existing content Help Screen For assistance call 2222 Hitachi America Inc Note The bottom two lines the Startup 1 914 631 0608 Screen have fixed content and cannot be edited Default Ok Cancel 3 Click Default to restore the Screens to display the factory default content as shown above 4 Click OK when you have completed the screen content edits Note The configuration edits do not affect the SC OPE until you download the new configuration to the SC OPE Downloading Configuration 2 31 SC OPE Configuration Editing The previous sections describe how to upload and edit a configuration To actually update the SC OPE s firmware you must download the new configuration from the PC to the SC OPE To download a configuration from the Editor 1 Ensure the SC OPE is in Config Transfer Mode will display screen as shown below If necessary press the Mode key for 4 seconds to place the SC OPE in Con figuration Transfer Mode Confis Transfer Mode Maitina for a Press MODE key for Confisuration menu 5 4 seconds QD 5 5 i 2 From the Configuration Editor click 5 Transfer gt Download Configuration A Connect the Configuration Cable from the PC serial port to the SC OPE 3 and
13. 2 Troubleshooting Diagnostics Troubleshooting SC OPE Inverter Control Inputs 70 2 2 2 and Diagnostics Keypad versus Network Control Run Command and Speed Setting Sources The inverter is always either under SC OPE keypad or network control That is the SC OPE is configured either to send commands from its keypad or to pass control commands through from an attached network Press the Monitor Mode key to view which setting is in effect See Selecting Keypad or Network Control on page 3 4 When using keypad control Hi HAS 8 The Run command and Frequency E B Setting sources must be set to come from IFES Fr Horm Stor Ctrl the keypad Run OPE Frq OPE When using network control Control source SC OPE Keypad For network control to operate either or HGA 6 84 Akh both the Run Source and Frequency Source a AG settings must be OPE A configuration of Run TRM Frq TRM will not follow the Horm Stor Het Ctrl network commands Control source Network You can choose the SC OPE s response to the Stop Key whether there is no action or whether it will change the SC OPE control source setting from Network Control to Keypad Control See SC OPE Network Configuration on page 4 12 Tip If
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15. Limit3 R D B043 Limit4 F R 8044 LADSTP Sel B045 Thermistor gt Thermistor Sel B098 Therm Err Level 099 Thermistor Adj C085 Other gt Dir Restrict B035 Rev Run Prevent B046 SW Lock Mode B031 Stop Key Enable B087 Cool Fan Ctrl B092 Debug Mode Sel C091 v Terminal gt input Defs gt Input Term 1 C001 Input Term 2 C002 a Input Term 3 C003 5 Input Term 4 C004 2t Input Term 5 C005 2 Input Term 6 C006 a V Input Term 7 C007 Input Term 8 C008 V Input States gt Input 1 NO NC C011 Input 2 NO NC C012 V Input NO NC C013 Input 4 NO NC C014 Input 5 NO NC C015 Input 6 NO NC C016 Input 7 NO NC C017 Input 8 NO NC C018 V Inp FWD NO NC C019 Analog Input gt AT Term Select A005 O2 Term Select A006 Start Freq A011 End Freq A012 Start Rate A013 End Rate A014 Start Select A015 Sampling Number A016 V OI Start Freq A101 Y OI End Freq A102 V OI Start Rate A103 Ol End Rate A104 OI Start Select A105 O2 Start Freq A111 O2 End Freq A112 02 Start Rate A113 O2 End Rate A114 SJ300 L300P Inverter Program Menu List Analog Meter V Output Defs Output States Output Levels AM Adjustment FM Adjustment O Adjustment OI Adjustment O2 Adjustment W AM Offset Adj Y AMI Adjustment Y AMI Offset Adj Zero Adj
16. 39 5 ao os FEE 55 Bo 9 29 9 2 Press the Read Write Menu key to access the Read FEAD HEITE Write Menu as shown READ were gt Read EEPROM Data Note You can use the Up and gt Write EEPROM Data 5 a Down Arrow keys to select either the read or write oper ation Using the Keypad for Inverter Inverter Operation gt 5 D 2 3 With the read operation Selected press Store Enter to TORE READING perform the Read EEPROM ENTER IHVERTER STATE Data After a few seconds the SC OPE displays the confir mation message as shown INVERTER STATE STORED IH MEMORY automatic 4 Press the Esc Cancel key to EXE HWA Heke WBE return to the default eee g a GA a on Mode or press the Monitor CANCEL Horm Store Het Chel 5 Power OFF the inverter Source Destination and disconnect the SC OPE WA 6 Connect the SC OPE to the desti nation inverter of the parameter set 7 Power ON the inverter Note Do not run the motor the inverter cannot update all of its parameters while it is in Run Mode 8 Press the Read Write Menu key to access the Read Write operati
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18. n m 9 n c 172 2 Troubleshooting Diagnostics Performing SC OPE Diagnostics The Configuration Menu in the SC OPE features a Diagnostics Mode You perform diagnostics to verify proper keypad operation LED indicator illumina tion and network port operation The network port check assumes a loopback con nection exists In order to pass the network port part of the diagnostics you must install the loopback connection However you can perform diagnostics on the keypad keys without installing a loopback connector but the network port test will fail Network Port To prepare a loopback connector for the network port RS422 485 Loopback Test 1 Find the connector plug in the Bezel Kit to install jumper wires for the loopback Caution Use insulated wire not bare wire for the loopback jumpers Otherwise a short circuit may develop 2 Connect TX terminal 1 to RX terminal 4 3 Connect TX terminal 2 to terminal 5 4 Connect a termination resistor 120 from TX terminal 1 to TX terminal 2 5 Insert the connector plug into the SC OPE network port connector 10987654321 Network Port RS 422 485 Connector SC OPE Bezel rps nm Housing Assembly Connector Plug keypad facing terminal screws down facing down D e
19. Mode Sel BHOR V Inverter Operation from the SC OPE Keypad EM 6 Press the Down Arrow key several times to access the Run Key Routing menu item 7 Press the Change Data key to enable the Change Data function 8 Use the Up Arrow and Down Arrow keys to change the setting REV and FWD are the available settings 9 Press the Store Enter key to accept the entry 10Press the Monitor Mode key The display will prompt you to save the change made in Program Mode to the inverter s EEPROM 11 Press the Store Enter key to save the parameter change to the inverter s retentive memory EEPROM 12 Press the Start Run key to run the motor The display shows the newly selected direction of rotation per the Run Key Routing parameter setting _ several times CHANGE DATA d STORE ENTER MONITOR STORE ENTER START RUN FROGREAM MEHL BHE Run Eoutina BF LE FROGREAM MEHL BHE Run Eoutina V PROGRAM B GHz Bass Dir Rezsiri PROGRAM B nir Restrict Inverter Foranerers haue been chanaed Store to EEPROM STORE 4 CANCEL Inverter Faramererz haue been charsed Store to EEPROM SLorimns Dato B dn pg 109 88 EB AHS
20. Storins Dota 13 The inverter will now reflect the restriction setting If set to REV for example B B nx B 109 88 the inverter will only respond to FWD command Horm Ztor Ctrl z E Jg Note The parameter F004 Motor Direction determines the which command Run FWD or Run REV the inverter applies when using either the standard Hitachi inverter keypad or the SC OPE 3H Changing the sense of direction for network Run commands will require reversing the two of the three motor wires e 9 mm 22 9 28 92 55 5 n for Inverter Operation 7 lt e 9 E Using Networks Inverter Operation Connecting to a ModBus RTU Network Overview Many PLCs are available with built in ModBus communication protocol The relay ladder logic RLL example in this section uses an arbitrary set of input points internal relays registers etc for a DirectLogic PLC as a typical example There fore it is not intended for use as is in an actual application When using network control of the inverter the SC OPE maps translates network commands to specific inverter parameters When writing your host computer control program you will need a map of network registers and inverter parameters Please refer to Appendix
21. Store Configuration Note When editing the network node address be sure to assign a unique number for each devi ce on the network 8 In the Network Port type setting be sure your configuration matches the physical network connection that will exist on the SC OPE 9 The Stop Key Action item at bottom of list selects whether the Stop Reset key on the SC OPE will be disabled no action or enabled disables network control when pressed and returns control to the keypad The proper setting de ular application pends on your partic Network Port Clg Network Protocol Network Address Network Port Type Baud Rate Data Bits Parity I Stop Bits Flow Control RTS Delay Mode Master Slave Max Gap Time L Stop Key Action Confisuration Meru Address a DConfisuration Meru Hetuork Fort Tare Confisuration Menu Stop Action Ho Action e 9 mm 22 9 28 55 5 n n e 2 gt 2 9 E 2 2 for Inverter Operation Using Networks for Inverter Operation 10After making all the Change Data Store changes to the E network settings press the Left Arrow key to exit the Network Settings submenu 11 Press the Down Arrow key to scroll down to the Store Configuration menu item S 12 Press the
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23. 400 00 v ADF 16 Hz Multi speed 13 A033 0 00 400 00 v ADF 17 Hz Multi speed 14 A034 0 00 400 00 v ADF 18 Hz Multi speed 15 A035 0 00 400 00 v ADF 19 Sec 1st Acceleration Time F002 0 01 3600 00 v ADF 20 Sec 2nd Acceleration Time F202 0 01 3600 00 v ADF 21 Sec 3rd Acceleration Time F302 0 01 3600 00 v SJ300 only ADF 22 Sec 1st Deceleration Time F003 0 01 3600 00 v ADF 23 Sec 2nd Deceleration Time F203 0 01 3600 00 v ADF 24 Sec 3rd Deceleration Time F303 0 01 3600 00 7300 only ADF 25 PID P Gain A072 0 2 5 0 v ADF 26 Sec PID Gain A073 0 0 3600 0 ADF 27 Sec PID D Gain A074 0 00 100 00 ADF 28 PID Scale A075 0 01 99 99 ADF 29 Hz Orientation Speed P015 SJ300 only 0 50 60 00 v ADF 30 Sec Orientation Completion Delay Time 0 00 9 99 v P018 SJ300 only ADF 31 Hr Accumulated Run Time 0016 0 0 999999 9 x ADF 32 Hr Accumulate On Time D017 0 0 999999 9 x ADF 33 Hz Terminal Set Frequency 0 00 99999 99 x ADF 34 V P N DC Bus Voltage 0 0 6553 5 x ADF 35 V Input Voltage 0 0 6553 5 x ADF 36 Hz Trip 1 Frequency D081 0 00 99999 99 x SJ300 and L300P Building Network Register Maps NPT NPA Units Point Description Range Value ADF 37 Trip 1Output Current D081 0 00 655 35 X A
24. pop up menu and click OK Delete Click Delete to delete the currently selected item in the menu list Edit Click Edit to replace the currently selected item in the menu list Select the new parameter from the pop up menu and click OK Default Click Default to restore the factory default list e Cancel Click Cancel to discard edit s to the Quick Menu Configuration in the Editor OK Click OK to apply the changes Add Insert Delete Edit Default to the configuration Note The configuration edits do not affect the SC OPE until you download the new configuration to the SC OPE Installation Configuration Startup Screen The SC OPE features two user configurable information screens The Startup and Help Screen Screen is displayed momentarily at powerup The Help Screen is displayed during Configuration normal operation when you press the Help key on the keypad These configurable screens are suited for editing by OEMs for their specific application areas For assistance call HITACHI AMERICA Ltd Hitachi Americas Ltd SC U PE 3H LAGGr 1 314 621 0688 Ver 2 18 S Startup screen default Help Screen default sE E To edit the content of the Startup and Help Screens ae 8 1 In the Startup Screen and Help Screen Rear screens BEE Configuration group click the Setup button So The Edit Screens dialog box will appear
25. 70 2 Loopback Configuration 2 and Diagnostics 5 7 Performing SC OPE Diagnostics Keypad and LED To perform SC OPE keypad and LED diagnostics Diagnostics 1 Access the Configuration Menu using the Mode key as shown Contis Transfer Maitins for Press MODE key for Confisuration menu hold 4 seconds M J Confisuration Menu 5 Inverter Port Cfa press once 2 Scroll down the Configuration Menu list with the Down Arrow key as shown until you reach the Diagnostics Mode menu item Confisuration Menu Tigsrostics Enter Red Loorback press 5 times 3 Press Enter to enter the Diagnostics Mode The network serial port test occurs immediately and the result is given on the display s bottom line TIAGHOSTICS MOTE 7 PRESS KEY Port Diag PASSED press once 4 Observe that the three LEDs are flashing ON repeatedly in the sequence LED Test v POWER LED 23 Oc e D RuNrEp 23 v 8a Troubleshooting Diagnostics 70 2 2 2 and Diagnostics 5 The keypad test is operator driven When you press any key shown below the display prints the name of that key for verification QUICK pRoGRAM MENU s
26. CHANGE READ lt gt DATA MODE WRITE A ue STORE ESC CANCEL i A START STOP HAND RUN RESET AUTO For example press the Program key to display its on the third display line TIAGHOSTICS MODE 1 FRESS AMY KEY FROGRAM KEY Fort Dias press once 6 Returning to normal SC OPE operation requires you to reset the SC OPE Press and hold the Mode key for 6 seconds release it when the Startup Screen displays X HITACHI AMERICA Ltd SC OPE L366F sees Ver 241 hold 6 seconds J300 L300P Program Menu List In This Appendix page J300 L300P Inverter Program Menu List 2 Q as fom _ SE of e 57300 L300P Inverter Program Menu List Note Parameters with an asterisk are available only on the SJ300 not L300P Monitor Vars gt Parameters gt Initial v Base Settings v Speed Jogging Var 1 1 Var 1 2 Var 1 3 Var 2 gt Initialize Mode Country Code Reintialize Drive Debug Mode Sel Run Key Routing gt Freq Set Method Run Set Method Base Frequency 2nd Base Freq 3rd Base Freq Max Frequency 2nd Max Freq 3rd Freq AVR Selection Y Motor Voltage Carrier Freq Multi Speed Sel Y Multi Speed 0 2nd Multi Spd 3rd Multi Spd 0 Multi Speed 1
27. Freq at Trip 5 D085 Viat Trip 5 D085 PN V at Trip 5 D085 Run Time Trip 5 D085 as fom _ mE SE of Network Control Software Lock Debug Mode Edit Mode gt gt gt Inverter Port Cfg v Network Port Cfg V Pwr Time Trip 5 Trip 6 Err Code Trip 6 Status Freq at Trip 6 iat Trip 6 PN V at Trip 6 Run Time Trip 6 Pwr Time Trip 6 gt Control Method Host Watchdog Timeout Action gt Operator Access W SW Lock Mode gt Address Data Press Esc Cancel to exit Debug Mode gt Inverter Type gt Network Protocol Network Address Port Baud Rate Data bits Y Parity Stop Bits Flow Control RTS Delay Y Master Slave Y Gap Time Stop Key Action D085 D086 D086 D086 D086 D086 0086 0086 B031 J300 L300P Inverter Program Menu List v Store Configuration gt Configuration stored v Transfer Mode gt Waiting for PC Press the Mode key to return to the Edit Menu v Run Mode gt Exits Edit Mode and Resets SC OPE 9 ss 35 m 0 v Diagnostics Mode gt Tests port and keypad Hold Mode key to exit v DOP Mode gt Hitachi Digital Operator Mode 52100 L100 Program Menu List In This Appendix page e 50100 L100 Inverter Program Menu List 2 5 100 L100 Inverter Prog
28. Revisions Revision History Table No Revision Comments Dateloflccne OPeration Manual No Initial Release of SC OPE 3H Instruction Manual October 2001 HAL1031 Getting Started In This page e 2 e Keypad 4 peclfhieatlons ES RS 6 Frequently Asked Questions 8 Getting Started Introduction The Hitachi Serial Communications Operator Interface SC OPE 3 15 an easy to use inverter operator panel Its 4 line dot matrix display shows inverter status and works in comes conjunction with its keypad to provide inverter control and parameter editing capability o s 72 S 202 The SC OPE 3H has various mounting options Directly on the inverter SJ300 L300P e Panel mounting with bezel housing DIN rail mounting inside panel The SC OPE 3H H connotes HVAC version provides a built in network inter face for connecting an inverter to popular building factory networks including DirectNet Host computer PC Inverters with SC OPE 3H N NN EN Allen Bradley DF1 Modbus ASCII Modbus RTU Metasys 2 This manual includes specific examples for ModBus RTU and DirectNet co
29. gt Ext Freq Start Ext Freq End Ext Bias Start Ext Bias End Ext Freq Offset Sampling Number FM Adjustment L O Adjustment L OI Adjustment gt Output Term 11 Output Term 12 Output Term Output Term AL gt Output 11 NO NC Output 12 NO NC Output AL NO NC gt Accel Arv Freq Decel Arv Freq gt Autotuning Sel Y Motor Data 2nd Motor Data Motor Capacity 2nd Motor Cap Y Motor Poles Motor Poles Motor Const Kp 2nd Mtr Cnst Motor Stab Cnst C011 C012 C013 C014 C015 C016 A011 A012 A013 A014 A015 A016 B081 C081 C082 C021 C022 C023 C024 C031 C032 C033 C042 C043 H001 H002 H202 H003 H203 H004 H204 H005 H205 H006 p G ego SS ER zo D o 5 5 52 2 5 fe Status gt Monitor Values v Operation Status v Frequency Status 2nd Motor Stab Motor Const R1 2nd Mtr Cnst R1 Motor Const R2 2nd Mtr Cnst R2 Motor Const L 2nd Mtr Cnst L Motor Const lo 2nd Mtr Cnst lo Motor Const J 2nd Mtr Cnst J gt Output Freq Output Current Rotation Dir Y PID Feedback Inp Terminals Out Terminals Freq Multiplier Scaled Freq Input Voltage P N Voltage Y kW Power kW Rating Status Byte Status State VM Freq Set TRM Freq Set H206
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31. 3 3 TX GND 5 5 GND 9 pin D shell 6 pin modular RJ11 An RS 232 connection provides an easy way to connect two devices Since the con nection is limited to only two devices RS 232 type communications is not a part of the 2 wire network discussion for Inverter Operation 7 lt p e 9 E Using Networks Inverter Operation 2 Network Wiring Configurations Guidelines to configure a RS 232 connection The port of the device you connect to the SC OPE must also be RS 232 type The TX line of one device connects to the RX line of the other device Remember to make the ground connection between the two ports The wiring distance will be limited to 50 feet at 19 2k baud Note When using a factory network protocol you can use the front panel network port for the connection However RS 232 signal levels limit the network to a point to point connection SC OPE and one other device If your network requires more than two devices use the RS 485 network port described on the following page Alternatively you can use the RS 232 port with an external RS 485 converter The RS 422 485 port is accessible on the 10 pin connector at the bottom of the SC OPE assembly as shown below The con nector for use in making a matching cable is included in the Bezel Kit The connector provides individual retention of wires facilitat
32. 8 While the motor is rotating press key for P ROS another normal mode such PROGRAM E B as Program Mode Note that the second line of the display shows the actual output frequency This feature permits you to use other modes while still observing the actual output frequency Using the Keypad for Inverter Operation Inverter Operation gt 5 D ic 2 Special SC OPE Modes The SC OPE 3H memory contains operating firmware and communications set tings The operating firmware in the SC OPE makes it specific to a particular inverter family This data can be transferred to or from a PC disk file called a config uration The SC OPE has a special Configuration Mode for use during a firmware update It is globally accessible from any of the four primary SC OPE modes by pressing and holding the Mode Key The following diagram shows the relationship of Transfer Mode to the other modes All SC OPE Operating Modes Special Modes TN DOP Keypad Simulation Hold 6 seconds onfig menu SC OPE Check items Hold 4 seconds Normal Modes powerup Program Diagnostics Configure SC OPE Configuration M E Read Write 00006 The diagram shows that the Mode key transitions SC OPE between Normal Modes and Special Modes based on the duration of the Mode key press Press the Mode key and
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34. H020 H220 H021 H221 H022 H222 H023 H223 24 H224 D001 D002 0003 0004 0005 0006 B086 D007 57100 L100 Inverter Program Menu List Trips gt it of Trips 0008 V Trip 1 Err Code D008 Freq at Trip 1 D008 at Trip 1 D008 PN V at Trip 1 D008 Time at Trip 1 D008 Trip 2 Err Code D009 Freq at Trip 2 D009 at Trip 2 D009 2 PN V at Trip 2 D009 8 2 Time at Trip 2 D009 39 Y Trip 3 Err Code D009 Freq at Trip 3 D009 8 lat Trip 3 D009 5 W PN V at Trip 3 D009 Time at Trip 3 D009 Network gt Control Method Control Y Host Watchdog Timeout Action Software gt Operator Access Lock SW Lock Mode B031 Debug Mode gt Address Data Press Esc Cancel to exit Debug Mode 8 o 5 2 5 gt 2 5 fe Edit Mode Inverter Port Cfg v Network Port Cfg v Store Configuration v Transfer Mode v Run Mode gt Inverter Type gt Network Protocol Network Address Port Baud Rate Data bits Parity Stop Bits Flow Control RTS Delay Y Master Slave Max Gap Time Stop Key Action gt Configuration stored Waiting for PC Press the Mode key to return to the Edit Menu gt Exits Edit Mode and Resets SC OPE J300 Program Menu List In This Appendix e J300 Inverter Program Menu List 2
35. HITACHI SC OPE 3H Instruction Manual Serial Communications Operator Interface for Hitachi Inverters ME peg E SC OPE 3H Manual Number HAL1031 After reading this manual keep it handy for future reference Hitachi America Ltd Tarrytown NY USA Contents REVISIONS lii Chapter 1 Getting Started S Keypad Orientation 1 amp Frequently Asked Questions Nt Chapter 2 Installation Configuration 5 OO Mounting the SC OPE to an Inverter Nt Panel Mounting SC OPE DIN Rail Mounting the SC OPE Nt Connecting the SC OPE to an Inverter via a Cable Powering the SC OPE via a Dedicated Supply Connecting the SC OPE to a PC o uite oti eed ads er ab qe e SC OPE Configuration Editing 1 3 arripit ee opino ese Tes eue et Chapter 3 Using the Keypad for Inverter Operation Orientation to Using the SC OPE nennen Inverter Operation from the SC OPE Keypad Prosram Moden A SC OPE and Inverter Memory Resources esee Quick Men OperatlQpr qs coetus
36. Menu dialog box will appear as shown The list of parameters is the current Quick Menu 1 001 Freq Set Method in the SC OPE 2 4002 Run Set Method 3 4003 Base Frequency 4 004 Max Frequency 8 You can make edits by using the buttons 5 A041 Boost Sel 4042 Man Boost at the top of the Configure Quick Menu 7 A044 1st Ctrl Method 8 082 Motor Voltage dialog box 9 H004 1st Mtr Pol Sel 10 2002 1st Accel Time Add Click Add to add a new item to n F003 1st Decel Time 12 8006 Open Phase Sel the bottom of the menu list Select the 13 8012 E Therm Level 14 091 Stop Mode Sel parameter from the pop up menu and 15 DODS Inp Terminals click OK 16 0005 Out Terminals 17 Trip History Insert Click Insert to insert a new item just above the currently selected item Defaut _ pI Canes in the menu list Select the parameter from the pop up menu and click OK en 5 9 lt 5 oa 0 O 55 go 82 29 9 Delete Click Delete to delete the currently selected item in the menu list Then click OK Edit Click Edit to replace the currently selected item in the menu list Select the new parameter from the pop up menu and click OK Default Click Default to restore the factory default list e Cancel Click Cancel to discard edit s to the Quick Menu Configuration in the Editor OK Click OK to accept the changes to the Quick Menu Configuration Using t
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40. is not rotating at this time press 55 SC OPE 3 Configuration Editor Ele Transfer Editor Window Help the Stop Reset key if necessary Note The SC OPE can only communicate with an inverter of the type specified in its configuration If your SC OPE is connected to a different type of inverter the SC OPE will not power up to normal operation However you can still re configure the SC OPE for proper operation by following this procedure 4 Press the Mode key for 4 seconds to place the SC OPE in Configuration Transfer Mode This mode permits you to transfer SC OPE configurations to from the PC onfia Transfer Made Maitina for FC Frees MODE for anfisuration menu 4 seconds Note More information on SC OPE operating modes is in Chapter 3 This section covers only the essential mode changes for configuration tasks 2 23 SC OPE Configuration Editing 3 gt 5 From the Configuration Editor s menu click Transfer gt Upload Configuration A Connect the Configuration Cable fron the PC serial port to the SC OPE 3 and place the SC 3 in Config Transfer dialog box appears which reminds you to do hold down the MODE key until Config Transfer Mode message appears the setup tasks covered in the steps above Click OK At this point the Editor will attempt to communicate with the SC OPE and upload its current configuration to the PC If the up
41. you will see that bit 7 is ON when the inverter is running bit 0 is ON when the inverter is stopped bit 7 and bit 2 are ON when the gt inverter is in deceleration Consult the register map for a detailed explanation on the 22 status register zm D o V2010 K1 C20 Inverter stopped 82 is the hex e OUT equivalent of 130 in decimal oz V2010 K82 C21 Inverter in deceleration 83 is 2 2 OUT the hex equivalent of 131 S6 5x V2010 K83 C22 Inverter at preset frequency 2 OUT 84 is the hex equivalent of 132 V2010 K84 C23 Inverter in acceleration 84 is OUT the hex equivalent of 132 V2010 K42 C24 Inverter in trip 42 is the hex OUT equivalent of 66 END End of program Using Networks for Inverter Operation Connecting to an Allen Bradley DF1 Network The SC OPE 3H includes the Allen Bradley DF1 protocol The SLC500 PLC family PLCs feature this network connection option You can connect multiple inverters to a DF1 network each inverter having its own network address The example in this section covers the network configuration settings of a SLC500 PLC RSLogix 500 is the programming software for the SLC500 family DF 1 network configuration consists of these steps Channel configuration Adding an MSG instruction for each network transaction in the ladder program Configuring the setup screen within each MSG instruction Channel To configure th
42. 7 co To 2 Plug the cable included in the Bezel Kit into the inverter s communication port L300P shown below left The connector location for SJ100 L100 families is under the inverter housing 3 Connect the other end of the cable to the SC OPE as shown below right If DIN rail mounted you ll need to temporarily detach the SC OPE assembly from the DIN rail for connector access 2 17 Powering the SC OPE via Dedicated Supply Powering the SC OPE via a Dedicated Supply If you have already connected the SC OPE to an inverter described in the previous section the SC OPE will have the communications and power it needs to operate the inverter In any of the mounting configurations and normal use the SC OPE gets its operating power from the inverter However it may be desirable in some sit uations to power the SC OPE when an inverter is not available For example you could connect a PC to the SC OPE and configure it described later in this chapter This section will show you how to power the SC OPE using an alternate method A Caution Do not connect the SC OPE to an inverter and also connect a power supply to the SC OPE at the same time Otherwise there is the danger of damaging the SC OPE or the inverter circuitry 5 o a D e E To connect an external supply to the SC OPE uoneinByuoD pue 1 Locate the 10 pin connector plug supplied in the bezel kit 2 Acquire a fully
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44. 9 S SC OPE Configuration Editor 2 19 control method 3 4 diagnostics 5 6 dimensions 2 8 EEPROM 3 17 features 1 2 firmware 3 17 keypad 3 2 mode selection 3 2 mounting options 2 2 mounting to DIN rail 2 12 mounting to inverter 2 5 mounting to panel 2 8 naming saving configuration 2 33 normal operation modes 3 3 orientation 3 2 power supply external 2 17 troubleshooting 5 2 Software Lock Mode 3 14 3 21 3 31 Special Modes 3 10 Specifications 1 6 Start Run key 3 9 Startup screen configuration 2 30 Stop Reset key 3 9 Store to EEPROM 3 18 3 19 3 20 T Termination resistors 4 8 5 6 Troubleshooting 5 2 V Variables 3 27 W Wiring diagram network wiring 4 4 serial port 4 3 4 5 5 4 Write EEPROM data 3 18 3 19
45. Baud Rate W COMM Station Num COMM Data Bits COMM Parity COMM Parity Y COMM Stop Bits COMM Test Mode CD Status P S Selection v Operation Status Status 1 Status 2 Status X 9 3 m lt D v Terminal Status gt Terminal 1 Status Input Term Info 1 Input Term Info 2 Input Term Info Input Term Info 4 Output Term Info 2 gt 5 D v Monitor Values v Inverter Setup gt OPE Freq Set p OPE Freq Set s Freq Set OP1 Freq Set 2 Freq Set Preset Freq Current Freq Freq Multiplier Scaled Freq Rotation Dir Y Mot Poles rpm Rotation Speed Output Cur A Output Cur 96 Output Torque 96 P N Voltage Input Voltage Y kW Power kW Hours kW Ratio Total Svc Time gt Country Code Model Code Y Voltage Class J300 Inverter Program Menu List Trips gt gt Warning Warning 5 Total of Trips Cur Trip Factor Trip Factor 1 Tripping Freq 1 Tripping Cur 1 Tripping P N V 1 Days at Trip 1 Trip Factor 2 Tripping Freq 2 Tripping Cur 2 Tripping P N V 2 Days at Trip 2 Trip Factor Tripping Freq 2 Tripping Cur 3 Tripping P N V 3 26 zo Days at Trip 3 oc Network gt gt Control Method Control Y Ho
46. D and Appendix E for network register maps Warning Be sure to set up the basic drive parameters before connecting the PLC to the drive and running it Failure to do this could result in damage to the drive or the equipment connected to the drive Note Remember that the number format of the registers in the drive is decimal while the number format of the registers in your PLC may be in BCD HEX If you are viewing the drive values in a data view window be sure to select decimal as the format for viewing If you are writing values to the drive be sure to change the value to decimal The following block diagram of the PLC controller shows its input switch assign ment for the following example program and the resulting inverter command N n P p t U lu w t k gt Run start motor X1 Stop SC OPE to inverter 2 Set speed 15 Hz Set speed 30 Hz X4 gt Set speed 45 Hz X5 Set speed 60 Hz Discrete input wiring ModBus Network Ladder Program Example for ModBus Port 2 Error SP117 Connecting to ModBus RTU Network Port Error C10 SET Special relay SP117 reports a communication error between the PLC and the SCOPE for example broken cable etc The following rung moves values from the SC OPE to PLC memory register V2000
47. D086 0 0 999999 9 x ADI 1 Pulse Orientation Stop Position 014 SJ300 0 4095 v only ADI 2 Orientation Direction P016 57300 only 0 Forward v 1 Reverse d0081 008fS Z 2 gt 2 9 e n 2 Oo S 5 OD 9 e Se os 2 Units Point Description Range Value Adjust Override AD 3 Pulse Orientation Completion Range P017 0 10000 57300 only 4 Electronic Gear Numerator 20 1 9999 v SJ300 only AD 5 Electronic Gear Denominator P021 1 9999 v SJ300 only AD 6 AT Terminal Selection A005 0 Changing v and OI 1 Changing O and O2 AD 7 PID Selection A071 0 Off v 1 8 PID Feedback Selection A076 0 From Ol v 1 From O AD 9 Operation Direction Monitor D003 0 Stopped x 1 Forward 2 Reverse AD 10 Trip Counter 0080 0 65535 X AD 11 Factor Status of Trip 1 D081 0 255 x AD 12 Factor Status of Trip 2 0082 0 255 x AD 13 Factor Status of Trip 3 0083 0 255 x AD 14 Factor Status of Trip 4 D084 0 255 x AD 15 Factor Status of Trip 5 0085 0 255 x AD 16 Factor Status of Trip 6 0086 0 255 x 5 100 L100 Network Register Maps In This Appendix page e 0100 and L1
48. DATA lt characters indicate Change Data is active 4 Use Right and Left Arrow keys to move the cursor to the digit you want to change Then use the Up and Down Arrow keys to increment or decrement the digit This example uses 10Hz We recommend using a relatively slow initial speed E 12 Caution Before running the motor ensure the mechanical load can move freely from obstructions and personnel Otherwise damage to equipment or injury to per sonnel may occur Inverter Operation from the SC OPE Keypad 5 Press Store Enter key to ar ie ee AG ALES accept the new desired fre BENI P STORE quency ENTER 2 Paia StoP 6 Press Start RUN LED should turn ON to indicate the inverter is in Run Mode The monitor screen will indicate the actual fre quency motor direction and status such as Ramp Up Const Spd Ramp Down and Norm Stop START RUN 7 Press the Stop Reset key The example motor profile below shows the keypad command of motor operation The Up Arrow and Down Arrow keys adjust the motor speed when the inverter frequency source is configured as the operator keypad SC OPE Output Target freq constant speed z2 Frequency oa ao EE 1 2 Sg START STOP RUN RESET
49. Hz Frequency Setting A020 A220 A320 0 00 400 00 v AO 2 Sec Acceleration Time Setting F002 F202 0 00 3000 00 v F302 AO 3 Sec Deceleration Time Setting F003 F203 0 00 3000 00 v F303 BO 1 Forward Run Command OzNo Action v 1 Run Forward BO 2 Reverse Run Command OzNo Action v 1 Run Reverse BO 3 Stop Reset Command 0 No Action v 1 Stop Reset ADF 1 Hz 1st Multi speed 0 A020 0 00 400 00 ADF 2 Hz 2nd Multi speed 0 220 0 00 400 00 v ADF 3 Hz 3rd Multi speed 0 A320 SJ300 only 0 00 400 00 v ADF 4 Hz Multi speed 1 A021 0 00 400 00 v ADF 5 Hz Multi speed 2 A022 0 00 400 00 v ADF 6 Hz Multi speed 3 A023 0 00 400 00 v d0081 008fS Z 2 e gt 2 e o 9 e n 2 Oo S 5 OD 9 e Se os 2 Units Point Description Range Value Adjust Override ADF 7 Hz Multi speed 4 A024 0 00 400 00 ADF 8 Hz Multi speed 5 A025 0 00 400 00 v ADF 9 Hz Multi speed 6 A026 0 00 400 00 v ADF 10 Hz Multi speed 7 A027 0 00 400 00 v ADF 11 Hz Multi speed 8 A028 0 00 400 00 v ADF 12 Hz Multi speed 9 A029 0 00 400 00 v ADF 13 Hz Multi speed 10 A030 0 00 400 00 v ADF 14 Hz Multi speed 11 A031 0 00 400 00 v ADF 15 Hz Multi speed 12 A032 0 00
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52. Multi Speed 2 Multi Speed 3 Multi Speed 4 B084 B085 C091 F004 A001 A002 C03 A203 A303 A004 A204 A304 A081 A082 B083 A019 A020 A220 A320 A021 A022 A023 A024 57300 L300P Inverter Program Menu List Multi Speed 5 025 Multi Speed 6 026 v Y Multi Speed 7 A027 Bo Y Multi Speed 8 A028 58 Multi Speed 9 A029 Y Multi Speed 10 A030 Y Multi Speed 11 A031 8 Y Multi Speed 12 A032 Multi Speed 13 A033 Multi Speed 14 A034 Y Multi Speed 15 A035 Jogging Freq A038 Jogging Mode A039 v VIF Character gt Boost Sel A041 2nd Boost A241 Man Boost A042 2nd Man Boost A242 3rd Man Boost A342 Man Boost Point A043 2nd Man Point A243 3rd Man Point A343 1st Ctrl Method A044 2nd Ctrl Method A244 3rd Ctrl Method A344 Outpt Volt Gain A045 v DC Braking DCB Selection A051 DCB Frequency A052 DCB Delay Time A053 DCB Power A054 DCB Time A055 DCB Edge Level A056 DCB Pwr Strt T A057 DCB Strt A058 DCB Carrier A059 as fom _ SE of v Braking Ctrl v PID Control vBRD v Operation gt Brake Ctrl Sel Wait Tm Release Wait Time Accel Y Wait Time Stop Y Wait Time Signl Release Freq Release Current gt PID Selection PID P Gain Gain PID D Gain Vv PID Scale PID Feedbak
53. Q Can I use the Configuration Editor on a PC to store inverter parameters to a disk file A No A configuration file contains settings pertaining to the SC OPE itself EE Getting Started Q My application will need to use the network port at the bottom edge of the SC OPE Can I still install the SC OPE into the keypad bay of the inverter SJ300 or L300P A No The network port at the bottom edge of the SC OPE uses a 10 pin plug connector The inverter s keypad bay does not have room for the plug con nector network wiring and network termination board when required There fore you will need to plan for either panel mounting or DIN rail mounting the SC OPE 3H in any networked application The Bezel Kit SC OPE3BK has the required accessories for mounting the SC OPE 3H via either method o T s 72 Installation Configuration In This Chapter page s Introduction desh on dhe 2 Mounting the SC OPE to an Inverter 5 e Panel Mounting the 5 8 DIN Rail Mounting the 5 12 Connecting the SC OPE to an Inverter via a Cable 15 e Powering the SC OPE a Dedicated Supply 17 Connecting the SC OPE toaPC 18 SC OPE Configuration Editing 19 Installation Configuration Introduction Mounting Options Installation
54. SC OPE Configuration Editor software Inverter RAM The inverter s scratchpad temporary memory area which con tains parameters for real time motor control These parameters may be edited during operation However the RAM does not retain data during power loss Inverter EEPROM Stores parameters which are used in real time for motor control in the inverter Its contents are non volatile preserved during power loss Inverter Firmware Contents include the factory default parameter values When you perform an initialization of the inverter to restore the factory defaults these default values are transferred from the firmware to the EEPROM Using the Keypad for Inverter Operation Data Operations block diagram below shows data operations or events that transfer parameters from one memory resource to another SC OPE Inverter Powerup 1 EEPROM Firmware Write EEPROM data Read EEPROM data Parameter edits Initialization Store to EEPROM factory defaults Read EEPROM data Transfers parameter values from the inverter EEPROM to the SC OPE EEPROM This operation is available from the Read Write Menu and is a component of the Copy Unit function of the SC OPE Write EEPROM data Transfers parameter values from the SC OPE EEPROM to the inverter s EEPROM This operation is available from the Read Write Menu and is a component of the Copy Unit function of the SC OPE Inve
55. SZZZA oslov uedo AlleuJoN 0 uonoejes ON ON M4 Mdu 6100 MWe 87 2 222 6vLOV uon ooers uedo AjeuuoN Q 9919S ON ON q e 8ndul lue6llelu 8109 MWe EZZZA 8vLOV uon Auo ooers uedo AjeuuoN Q 9919S ON ON q e 4 1ndui jueBijeju 2100 MWe 2222 pesolD uon Auo ooers uedo AjeuuoN Q 9919S ON ON 9 2 9 1ndui jueBijeju 9109 MWe SPEZN 9vLOV psesolD uon uedo AlleuJoN 0 ON ON q e s 1ndui 9100 0222 Stot AjeuuoNz uon uedo AjeuuoN Q 9919S ON ON q v 1ndui jueBijjeju 02 MWe LIZZA tboy A euuoN uonoejes ON AlleuuJoN 0 ON qegjlndul lue6lllelu 102 We QLZZA vLOV A euuoN uon uedo AjeuuoN Q 9919S ON ON q e z 1ndui lue6lllelu 2 00 GLZZA pesolD uon uedo AjeuuoN Q 9919S ON ON 9 2 1ndui lue6llelu LLOO OFEZN vLZZA LvLOv Auo ooers 9 uo ees Bunjes 8 ndul us6lllelu 8009 MWe GEL ZN ELZZA OvLOV Doi Bay Bou Boy seloN spun anle sa6uey 40027 00275 d0081 sseoov Shnqpow 100 BIST YJOMON 0027 00
56. Store Enter key to store the y SA STORE configuration in the ENTER SC OPE 13 Press the Down Arrow key twice to access the Monitor Mode menu item Press twice 14Press the Store Enter key to cause the STORE SC OPE to reset and ENTER enter Monitor Mode Confisuration Meru Hetwork Port DConfisuration Meru Store DConfisuration Enteri S J Confisuration Meru Store Confisuration Confisuration Stored J Confisuration Meru Monitor Made iEnter l HITACHI ANERT CAs Lid SC U PE SH Lzmar Ver 2 1 Limiting the Direction of Rotation Setting Up a Network Interface The SC OPE 3H keypad automatically limits motor rotation to one direction for operator initiated operation Intelligent terminal configuration can also limit rota tion for external inputs However a SC OPE and inverter under network control may could respond to either a Run FWD or Run REV command If Before you use the SC OPE the first time in any application it is very important to consider any motion restrictions the load may place on the motor Caution The SC OPE 3H can respond to FWD Run and REV Run commands which are equally accessible via network commands However some machines are designed for rotation in only one direction and may be damaged if run in the opposite direction If you have such an application you must follow the instructions in this
57. Variable 1 1 Variable 1 2 Variable 1 3 Variable 2 2 5 9 lt 5 3 6 8 88k MONITOR _ B BHz Fun PE Fra VM Horm Stor Ctrl 25 o2 n E Run command Inverter status Control source Frequency Source Setting source In addition to displaying the values you may occasionally need to refer to the vari able names For example a reading of 0 0 could refer to torque or current Press the Monitor Mode key to view the names of the vari ables in positions 1 1 1 2 MONITOR SE and 1 3 display line 1 Horn 5 Ln Ctrl 2 Monitor again to view the of the variable in position 2 display MONITOR i E E EE MM line 2 Press the Monitor 2 Horm Store Ctrl Mode key once more to return to the initial display 3 28 Using the Keypad for Inverter Operation When the source of Frequency Setting is the Operator Keypad OPE the second line becomes dedicated to displaying the set frequency and actual frequency pre configured variable 2 output is suppressed This feature is useful to help machine operators avoid severe frequency over shoot undershoot when the set acceleration and deceleration rates are relatively low Desired Actual output frequency output frequency ci gy BE BOB Bg 4 4 Horm St
58. a PC For shorter distances connect the adapter end of the cable directly to a 9 pin RS 232 port connector on the PC For longer distances connect a standard serial cable between the adapter and an RS 232 port connector on the Note The SC OPE will communicate with its Configuration Editor in a PC via the RS 232 port Do not attempt to use the Configuration Editor over a factory network SC OPE Configuration Editing SC OPE Configuration Editing Introduction The SC OPE 3H contains firmware which enables it to communicate via a partic ular factory network protocol and with a particular inverter family Additional set tings configure the SC OPE s Quick Menu Startup Screen and Help Screen You may need to change the SC OPE configuration from the factory defaults for your application The compatible inverter families are e 57300 factory default a L300P SEI 35 SJ100 a3 L100 1300 The compatible factory networks are DirectNet Allen Bradley DF1 ModBus RTU factory default ModBus ASCII Metasys 2 SC OPE configuration specifies an inverter family and a network protocol along with associated baud rate etc Even though each configuration contains a network selection you may operate a SC OPE and inverter without making any factory network connection Basic SC OPE configuration settings may be edited with the SC OPE keypad The Configur
59. and the typical application 9 for each o gt oF Application 2 Communications Network Port Mode i C ct Distance Devices PINE Duplex RS 232 Up to 15 m 2 only Half duplex Front RJ11 RS 485 2 wire Up to 100 m Up to 32 Simplex Bottom 10 pin RS 485 4 wire Up to 100 m Up to 32 Half duplex Bottom 10 pin RS 422 4 wire Up to 100 m Up to 2 Half duplex Bottom 10 pin 4 3 Setting Up a Network Interface RS 232 The RS 232 Port is accessible on the front panel of the SC OPE as shown below Its Serial Port most common use is for connecting to a PC for OEM configuration tasks However Wiring Diagrams the serial port can respond to network commands with the proper SC OPE configu ration The cable included in the Configuration Kit has a 4 wire RJ11 connector using the 4 wire subset You can also make a custom cable using the 6 wire set or the 4 wire subset and connect the SC OPE to a PC or host computer Network Port RS 232 Connector 4 wire 6 wire set subset RTs 1 GND 2 f GND2 Tx 3 3 2__ 4 5__ _5 6 A typical RS 232 network port connection is between and the SC OPE only Host computer Inverter Serial cable Connection details e 9 2323 22 9 ee 9 92 5 n Rx 2 4 RX
60. cor responding fashion 2 You can restore any minimized configuration window to bring it to the front From the Configuration Editor menu click Window gt lt windowname gt where the numbered list contains the configuration window names Using the Keypad for Inverter Operation In This Chapter page Orientation to Using the SC OPE 2 Inverter Operation from the SC OPE Keypad 4 Program bet tee eke tins 11 SC OPE and Inverter Memory Resources 17 e Quick Menu 19 Copying Parameters Between Inverters 25 e Monitor Mode 222225 eate Da d NR 27 Restoring Factory Default Inverter Settings 32 Using the Keypad for Inverter Operation Orientation to Using the SC OPE Using the The SC OPE 3H keypad provides direct access to inverter control and programming Keypad of parameters The keypad layout arrangement shown below groups the keys into functional groups keys that perform similar or related functions g MONITOR END PROGRAM Ana SC OPE Mode Selection E C N Parameter Editin CHANGE READ 3 DATA MODE WRITE 4 4 STORE ESC ENTER CANCEL x A Motor Control Bau Manual Automatic RUN RESET AUTO Selection SC OPE Mode Selection The SC OPE 3H has operational modes which are inde pende
61. hold for 4 seconds to enter Configuration Mode The Config Transfer Mode is the beginning action or mode within Configuration Mode Config Transfer Mode provides PC to SC OPE configuration data transfers Diagnostics and DOP operations are accessible from menu items from the Configu ration Menu After entering either of these modes you will need to reset the SC OPE to exit see below Press the Mode key and hold for 6 seconds to reset the SC OPE and enter Monitor Mode Programmable settings in the SC OPE 3H include network port settings SC OPE operational modes and inverter parameter settings Parameter changes initially affect a copy of the inverter s parameters in its RAM to be used for motor control A separate Store to EEPROM step writes any parameter change s to the inverter s non volatile memory so the changes are in effect upon the next powerup The Program Menu provides access to the programming capability outlined above To navigate through the Program Menu selections 1 Press the Program key to access the Program Menu Shown below the bottom two lines indicate the menu level and item to be programmed The second line dis plays inverter output frequency during programming PROGRAM 8 Hz 5 Monitor Yars B 2 Use the arrow keys to move up or down the list of items at the same level 3 Use the left or right arrow keys to change leve
62. increment a counter five times and when the counter is done turn control relay C34 ON SPNG nan LD Attempt to read the Run Status a EN K101 register when a port error or communications error occurs LD K2 LDA O2003 RX TA10 Port Error Run Status C10 V2003 K20 TMR Keep reading the run status reg ister until the comm error clears K50 between the SC OPE and the Drive K20 is the value of the run Port Error status register when there is an 10 error for SC OPE to inverter RST communications 5 9 55 2 gt 20 The following rung monitors communications for port errors after attempting to read 8 5 the run status register NE 0 CNT If errors persist then increment the E counter 5 times When the counter 5 error is done turn control relay C34 counter to record the error for SC OPE to K5 PLC communications Control relay C5 turns ON once normal communication is resumed to reset Comm Error SC OPE to the counter Counter PLC error CTO C34 100 C100 LD K1 OUT Run Cmd write V3000 Connecting to a ModBus RTU Network Start the inverter from input XO by loading the constant K1into V3000 run command register of the SC OPE K1 FWD K2 REV NOTE This example program uses separate Start and Stop switch inputs How ever it is possi
63. interpreting network write commands the SC OPE will command the inverter as if an operator were using the SC OPE from the inverter s point of view If the inverter is configured for control via its own keypad or input terminal it will ignore network commands sent via the SC OPE So controlling the inverter from a network requires that you set the following A002 Run Command Source 02 Operator keypad REM Run OPE A001 Frequency Setting Source 02 Operator keypad REM Frq OPE If either source setting is set for control terminal operation Run TRM or Frq TRM the corresponding control from the network will not be possible It is desirable for some applications to split the control source For example you may want network control of Run Stop functions and use control terminals for the frequency setting input Run OPE Frq TRM e 9 mm 22 9 28 EK E 9 3x n Tip To automatically set 002 and A001 as required for network control simple press the Hand Auto key to select OPE as the Run Command and Frequency Setting sources as shown More informa tion on Hand Auto operation is on Hand Auto setting page 3 30 EE Using Networks for Inverter Operation SC OPE Network The SC OPE 3H supports several factory network protocols You must configure it Configuration before connecting it to a particular factory network The configuration may be edited directly on t
64. oueunwN JoJo 4016 0 uonoy V N C4N 2000 60007 eleAul ol JUSS JON 0000 0040 5 Aq pesn 5 peiqesiq o 1 V N LOOZA 20007 ol 1195 JOU 3dO OS Aq Aju 5uewnN louoD ped ex Q 4 homaeN V N 0 ZN 000 0007 ed L Boy Boy SeloN spun enjeA sbuey 410067 00275 d0081 JON 6 lt 2 snqpow ooers sde Jelsl6ay u0j2e4 40071 pue 00 BIST YIOMON 10061 00ers 57300 L300P Network Register Maps AV 98999 0 eroa peay LZOZA 800 Auo ooers 008 00S snblol nding 20 peey QL ZN OZOZA 21007 spun 0 92999 0 Jojuo N uoisjeAuo ouenbej4 7000 peed ZLOZA 900 TVIeuluual 3ndino Ieuluuel yndyno yo o Z4 jeuiuue yndyno snlelS Indino 900d 9LOZA SLOOV Ieuluuel lndul 8Ieuluuel yndu LIeuluuel ynduyy 9 jeuiuJe lndul 9Ieuluuel lndul v yndu lndul NO 0 ZIeuluuel lndul ug LIeuluuael 3nduj snlelS ynduy 3ueDijeyul
65. port 2 4 Communications cable 2 15 Config Transfer 2 22 Configuration Editor 2 18 2 19 installation 2 20 naming saving configuration 2 33 options 2 33 printing a configuration 2 34 uploading a configuration 2 21 viewing multiple configurations 2 34 Configuration Kit 1 7 Configuration Mode 3 10 Connector plug 2 17 5 6 Control Method Setting 3 4 4 11 Conventions in this manual 1 3 Copying parameters 3 25 D DF1 4 28 Diagnostics 3 10 5 6 Dimensions 2 8 DIN rail 2 12 2 13 DIN rail clips 2 13 Direction restriction 4 15 DirectNet 2 19 4 2 host program example 4 23 DOP Mode 3 10 Downloading a configuration 2 31 E Edit permissions 3 14 3 21 3 31 F Factory default parameters 3 32 Frequency Setting source 3 30 Frequently asked questions 1 8 Full duplex 4 2 G Gasket seal 2 9 H Half duplex 4 2 Hand Auto key 3 30 Help screen accessing 3 3 configuration 2 30 Initialization 3 18 3 32 Inverter EEPROM 3 13 3 17 firmware 3 17 powerup 3 18 RAM 3 13 3 17 variables 3 27 Inverter port 2 4 Inverter type configuration 2 24 K Keypad key grouping 3 2 orientation 1 4 standard 2 5 Keypad bay 2 5 Keypad control 3 4 Kit components 1 7 L LED indicators 1 5 5 7 Loopback connector 5 6 M Manual automatic selection 3 2 Metasys N2 2 19 4 2 ModBus host program example 4 1
66. regulated 5 supply 5 4 75V min to 5 25V max 3 Connect the power supply to the 10 pin connector as shown below GND to pin 10 5V to pin 9 4 Plug the connector into the network port of the SC OPE pees 10987654321 229 Network Port RS 422 485 Connector vine SC OPE Bezel Connector Plug Housing Assembly keypad facing down terminal screws facing down 10987654321 GND 5V External Power Supply Installation Configuration Connecting the SC OPE to a PC The Configuration Kit includes a cable for connecting a PC to a SC OPE The typical connection will use a standard PC serial port connecting it to the SC OPE s front network port RS 232 To inverter Serial cable Adapter modular to 9 pin D shell 2 SS 5 5 D 6 5 20 To To connect the SC OPE to a 1 Ensure the SC OPE has a power source In most applications it will be connected to the inverter see page 2 15 Or you may use an external power supply if an inverter is not available see page 2 17 Do not use both power source connections at the same time 2 Plug one RJ11 modular end of the cable into the cable adapter as shown 3 Plug the other end of the cable into the SC OPE s RS 232 port as shown 4 You have two options in connecting the opposite cable end to
67. respectively In this example make a small safe change to the value or leave it at its current value 9 Press the Store Enter key EE to accept the new value for STORE ae A004 Max Frequency Note ENTER AGGd Mar Freauencu that the gt and lt charac B S5H z ters are now absent a Change Data 15 no longer pending You can change one or more parameters in any Program Mode session It is very important to remember the following points Program Mode changes to inverter parameters affect only the inverter s present copy of those parameters in inverter RAM It will use these parameters for motor control Changes made to parameters in inverter RAM are not retained during inverter T d 5 2 5 oa a FEE E 2 D of 58 power loss The next major section SC OPE and Inverter Memory Resources on page 3 17 describes how to more permanently apply your Change Data updates to the inverter s EEPROM which are loaded to its RAM for use upon each powerup 3 14 Inverter Operation gt x D 79 2 Using the Keypad for Inverter Operation Program Mode Edit Permissions Hitachi inverters have many user settable parameters and functions The inverter monitors various conditions and signals to appropriately allow or prevent editing on a parameter by parameter basis At any point in time each inverter parameter or functions
68. section to protect against accidental reverse rotation When a machine can run in only one direction it is usually desirable to arbitrarily assign that direction as forward whether the actual rotation 1s clockwise or counter clockwise You can change the direction of rotation associated with a Run FWD command by swapping any two of the three wires going from the inverter to the motor Warning Be sure to power OFF the inverter for five minutes before opening the power terminal access panel Otherwise the danger of electric shock exists The procedure in this section shows how to disable either one of the Run commands typically Run REV To restrict the Run commands to FWD only or REV only 1 Press the Program Mode D key to enter Program Mode Monitor ors SS PROGRAM 2 Press the Down Arrow key NN to reach the Parameters menu PROGRAM MENU i B Hz item 7 Parameters gt gt e 9 mm 22 9 28 92 55 5 n n e 2 gt 2 9 2 2 for Inverter Operation EX Using Networks for Inverter Operation 3 Press the Right Arrow key to enter the Parameters sub menu list 4 Press the Down Arrow key several times until you reach the Protection menu item 5 Press the Right Arrow key to enter the Protection sub menu list 6 Press the Down Arrow key several times to access the Othe
69. which is actually connected In that case the SC OPE will power up and only display the Startup Screen Press the Mode key for 4 seconds to enter Config Transfer Mode SC OPE Configuration Editing To change the inverter type selection by using the SC OPE keypad 1 Press the Mode key for 4 Seconds to place the SC OPE in Configuration Transfer Mode 2 Press the Mode key again briefly to get the Configu ration Menu The Inverter Port Cfg item at the top of the menu list determines the inverter type selection 3 Press the Right Arrow key to view the Inverter Port Cfg sub menu which consists of one item Inverter Type 4 Press the Change Data key The gt and lt charac ters indicate that Change Data is active 5 Press the Up Arrow or Down Arrow keys as needed to select the new type Remember that only the inverter type which shares the current firmware in the SC OPE can connect using this method 6 Press Store Enter to accept the new inverter type 7 Press the Left Arrow key to exit the Inverter Type sub menu _ NN MODE 4 seconds MODE CHANGE DATA lt gt 8 57 STORE ENTER Confia Transfer Mode kaitina for Press MODE for Confisuration menu DConfisuration Menu Inverter Fort Cfa Confisuration Menu Confisuration Menu Inverter Tore PLIGG
70. 0 and L300P Building Network Register Maps on page D 18 5 9 T a2 9 48 55 o lt 92 55 9 5z 72 Troubleshooting and Diagnostics In This Chapter page Basic Troubleshooting 2 e Troubleshooting SC OPE Inverter Control Inputs 4 Performing SC OPE Diagnostics 6 Troubleshooting Diagnostics wn 20 2 gt and Diagnostics Basic Troubleshooting The following list provides general troubleshooting tips When changing inverter parameters or configuring the SC OPE verify the effect of each adjustment as it is made If too many adjustments are made before checking for proper operation it may be very difficult to determine the cause of a sudden problem If and when a problem arises try to determine the most recent change made to the system It may have been a parameter value change wiring change etc Examine the latest change s for errors or restore the most recent known working system configuration When it is difficult to narrow the problem down to a single component try sub stituting a spare part SC OPE cable etc for the most likely problem component Load a known working set of parameters from one inverter to the problem inverter via the SC OPE as a copy unit Substitute a simpler method of operation For example if network control is not working try keypad control
71. 00 Factory Network Register Maps 2 e Intelligent Terminal Codes 9 puz 381 Jojo Jo sy 0009 eui uoneJeje eq LN 2002 80007 puz 481 palosleSs Jo sselple6ey sy 0009 UOHeJel39oV 9 9002 20007 puz 451 pejoejes 10 sselple6ey ZH 10 0000p 0 4 NH G LN 900ZA 90007 puz UNY Z SL pelosleSs JoloN piemuo Jo sselple6ey plleA 5uewnN dolS 0 uny 002 50007 Spuooes INOMd33 oiu S19 G 40 pelepdn Bureq 01 91016 eAup Aue 5810 5 0 9 105 VIN SIM 2 800ZA yooor Buluuny enuluoD 2 eIqesiq si pue ol JUBS JON puy 4ololN doys si elqeolldde Aluo 0 06 q oueunwN Jojo 4016 0 V N C4N 2000 60007 JeleAul JON 0000 00 40 26 Aq pesn 10 paiqesiq 0 enleA W N LOOZA 20007 ol JON
72. 1st Const lo AT 2nd Const lo AT W 1st Const J AT 2nd Const J C058 C062 C063 H001 H002 H202 H003 H203 H004 H204 H005 H205 H006 H206 H306 H020 H220 H021 H221 H022 H222 H023 H223 H024 H224 H030 H230 H031 H231 H032 H232 H033 H233 H034 H234 57300 L300P Inverter Program Menu List v P PI Switching gt 1st PI Pro Gain H050 V 2nd PI Pro Gain H250 v Y 1st PI Int Gain Y 2nd PI Int Gain H251 1st P Pro Gain H052 SL 2nd P Pro Gain H252 1st OHz SLV Lmt H060 5 2nd 0Hz SLV Lmt H260 W PI Pro Gain Sw H070 PI Int Gain Sw H071 P Pro Gain Sw H072 v Option gt Opt 1 Err Sel P001 Opt 2 Err Sel P002 Feedbck Opt Sel P010 Encdr Pulse Set P011 Ctrl Mode Sel P012 Pulse Train Sel P013 Orient Stop Pos P014 Orient Spd Set P015 Orient Dir Sel P016 Orient Comp Rng P017 Orient Comp Dly P018 Gear Pos Select P019 Gear Numerator P020 Gear Denominatr P021 Pos Fwd Gain P022 Pos Loop Gain P023 Comp 2nd Res P025 OverSpeed Level P026 SpeedErr Level P027 Acc Dec Select P031 P Set Select P032 During Snap P050 as fom _ 5 SE of Status v Communications gt Monitor Values v Operation Status v Frequency Status gt Data Co
73. 300 only 300 300 x Al f V Output Voltage Monitor D013 0 6553 5 X Al 8 kW Input Power Monitor D014 0 6553 5 x BI 1 Inverter Offline 0 Online x 1 Offline Bl 2 Stop Flag 0 x 1 Stopped Bl 3 Run Flag 0 x 1 Running Bl 4 Tripping Flag 0 x 1 Tripped Bl 5 Acceleration Flag 0 1 Accelerating 6 Deceleration Flag 0 X 1 Decelerating 7 Constant Speed Flag 0 x 1 Constant Speed Bl 8 Forward Flag 0 X 1 Forward 9 Reverse Flag 0 X 1 Reverse 10 Input Terminal 1 0 X 1 Closed 11 Input Terminal 2 0 X 1 Closed SJ300 and L300P Building Network Register Maps NPT NPA Units Point Description Range Value Adjust Override BI 12 Input Terminal 3 0 x 1 Closed 13 Input Terminal 4 0 x 1 Closed Bl 14 Input Terminal 5 0 Open X 1 Closed 15 Input Terminal 6 SJ300 only 0 x 1 Closed Bl 16 Input Terminal 7 SJ300 only 0 Open X 1 Closed 17 Input Terminal 8 SJ300 only 0 Open X 1 Closed 18 Output Terminal 1 0 Open 1 Closed 19 Output Terminal 2 0 Open 1 Closed 20 Output Terminal 3 SJ300 only 0 Open X 1 Closed 21 Output Terminal 4 SJ300 only 0 Open 1 Closed 22 Output Terminal 5 SJ300 only 0 Open X 1 Closed AO 1
74. 6 34 187 7 4 D 38 1 50 Bezel mounting hole center locations mm in Horizontal 137 5 39 Vertical 135 5 32 Network port protocols 1 DirectNet Allen Bradley DF1 ModBus RTU ModBus ASCII MetasysN2 Network baud rates 300 600 1200 2400 4800 9600 19200 Network mode electrical RS 232 RS 485 2 wire RS 485 4 wire RS 422 4 wire Accessory kits SC OPE3BK bezel kit SC OPE3CK configuration kit The communication protocols ModBus DirectNet DF1 and Metasys are discussed in Chapter 4 Using Networks for Inverter Operation 1 7 Specifications Kit Product SC OPE3BK Bezel Kit The Bezel Kit includes parts for mounting the SC OPE 3H Components to either a panel or DIN rail and the cable required to connect the SC OPE 3H to an inverter Q a Quantity Component Description for Bezel Kit 1 Bezel housing for SC OPE 5 1 Gasket for seal between bezel housing and control panel door E 1 O ring for seal between SC OPE keypad and bezel housing cutout 1 Network Termination Board 1 Communication cable 6 connects SC OPE to inverter 1 Connector plug for RS 485 port connections and external 5V power 4 Mounting screws for bezel housing 6 32 thread x 1 1 4 4 Nuts for mounting screws 6 32 thread 4 Lock washers for mounting screws 6 32 size 2 Screws for back of bezel housing without DIN rail clips 3 38 threa
75. 6007 6 3 slqel ees yndjno Aelel 2200 16 4N 86007 D 6 3 seS Bumes 2 Indino lueflllelu 2200 96 LN OtLZA 26007 6 3 ees 200 96 LN ZLELZA 9600 uon 9 Auo 00175 apo uedo AjeuuoN Q 9919S ON ON 9 1ndui 9109 V6 2N QELZA 96007 A euuoN uon z uedo AjeuuoN Q 9919S ON ON s 1ndui lue6lllelu S109 6 GELZA 600 gt uon 5 uedo AlleuuoN 0 9919S ON ON y Indu 02 Z6 LN vELZA lt 600 LL AjeuuoNz uon uedo AlleuuoN 0 9919S ON ON 100 16 26009 AjeuuoNz uon AlleuJoN 0 ON ON q e zlndul lue6lllelu 2100 06 LN ZELZA 600 My peso 5 A jeuuoN L uon uedo AleuuoN 0 9eles ON ON q e ndu 1100 MWe 68 ZN LELZA 0600 4 00175 6 3 slqel ees Bumes 9 indui 9002 88 LN O LZA 68007 6 3 ees lue6llelu S002 8 LN LZLZA 88007 6 3 slqel ees Bumes
76. 8 ModBus ASCII 2 19 4 2 ModBus RTU 2 19 4 2 Modular RJ45 connector 2 15 Monitor Mode 3 3 3 27 configuring Monitor Vars 3 29 edit permissions 3 31 Hand Auto key 3 30 Motor control example procedure 3 8 keys 3 2 Mounting 1 2 Mounting options 2 2 Mounting to DIN 2 12 Mounting to inverter 2 5 Mounting to panel 2 8 Mounting O ring 2 10 2 12 Network control 3 4 Network port 2 4 4 2 configuration 2 26 Network Register Map SJ100 L100 inverters 2 57300 L300P inverters D 2 Network setup 4 2 Network termination 4 8 Network termination board 4 9 installation 4 9 Normal operation modes 3 3 O ring 2 10 2 12 Output frequency 3 28 P Parameter editing 3 2 3 18 PC port selection 2 33 connecting to 2 18 downloading configuration 2 31 uploading configuration 2 21 Power Supply SC OPE 2 17 Powerup of inverter 3 18 Program Menu List J300 inverters 2 53100 L100 inverters 2 SJ300 L300P inverters A 2 Program Mode 3 3 3 11 edit permissions 3 14 example 3 12 Q Quick Menu 3 3 3 19 configuring 2 29 3 22 edit permissions 3 21 Read Write menu 3 25 standard items 3 22 R Read EEPROM data 3 18 3 19 RJ45 connector 2 15 RS 232 port 2 18 wiring diagram 4 3 5 4 RS 422 485 port wiring diagram 4 5 Run command source 3 30 Run direction restriction 4 15 Run FWD command 3
77. 9JON spun 40061 0 5 daro P a T Joo rs sde 0027 00 SJ300 L300P Network Register Maps ooers spy 0009 0 euim PIE 2064 9 04N 2202 900 2 spy 0009 0 euin uoneJe eooy 2024 NH Z9 LN 9202 lt 900 sy 0009 0 eui 2004 L9 2N GZOZA 2900 E skeq 92999 0 UO Jewod 9 dil 9800 09 LN 19007 m skeq 92999 0 uny 9 980d 69 8L0ZA 09007 2 V 92999 0 9 dui 980d 89 zL0ZA 69007 3 92999 0 jueunj jndino 9 980d LS LN LZOZA 89007 ZH 10 92999 0 AouenbelJ 9 980d 9S LN 0L0zA 29007 gt JequinN 15297 61 0 9 980d SGN 90zA 99007 8 skeq 92999 0 eui uoJewodg dui 980q 9900 99007 skeq 92999 0 uny G dul sgod GN S90ZA ty90oy AV 92999 0 N d S 9808 ZGZN ty90zZA 29007 x 92999 0 queuing dno 9 9808 LS ZN 90ZA 2500 5 ZH L0 92999 0 fouenbeijg dui 80 OGZN Z90ZA 19007 e
78. ANCEL Inverter in Inverter in Stop Mode STORE ESC STORE Run Mode ENTER CANCEL ENTER Inverter Parameters Inverter Parameters hove been changed howe been chanaed Store to EEPROM Stor motor now Storing Data STOF CANCEL ESC STOP CANCEL RESET Motor decels to stop Inverter Parameters howe beer chanaed Stor motor now torina Lato DV Display for next mode 3 17 5 Inverter Resources SC OPE and Inverter Memory Resources Overview The block diagram below shows representative memory resources in the SC OPE and inverter Events or operations transfer parameter data among these resources SC OPE Inverter Firmware EEPROM EEPROM Firmware The SC OPE and inverter memory resources operate according to the following SC OPE EEPROM It is the destination or source in Read Write operations respectively The EEPROM data is retained during power loss This is required when copying one inverter s parameters settings to another inverter uonejedo JeyeAu jen 2 0 A 0 lt t SC OPE Firmware Stores the SC OPE s operating system which includes the protocols needed to communicate with specific inverter families Updating the firm ware is necessary when you want to configure the SC OPE to operate with a dif ferent inverter family requires the use of a PC with the
79. DF 38 Trip 1 P N Voltage D081 0 0 6553 5 X ADF 39 Hr Trip 1Run Time D081 0 0 999999 9 X ADF 40 Hr Trip 1 Power On Time D081 0 0 999999 9 x ADF 41 2 Trip 2 Frequency 0082 0 00 99999 99 X ADF 42 Trip 2 Output Current D082 0 00 655 35 X ADF 43 V Trip 2 P N Voltage D082 0 0 6553 5 x ADF 44 Hr Trip 2 Run Time D082 0 0 999999 9 x ADF 45 Hr Trip 2 Power On Time D082 0 0 999999 9 x ADF 46 Hz Trip 3 Frequency D083 0 00 99999 99 x ADF 47 A Trip 3 Output Current D083 0 00 655 35 x ADF 48 Trip 3 P N Voltage D083 0 0 6553 5 x ADF 49 Hr Trip 3 Run Time D083 0 0 999999 9 x ADF 50 Hr Trip 3 Power On Time D083 0 0 999999 9 x ADF 51 Hz Trip 4 Frequency D084 0 00 99999 99 x ADF 52 Trip 4 Output Current D084 0 00 655 35 x ADF 53 Trip 4 P N Voltage D084 0 0 6553 5 x ADF 54 Hr Trip 4 Run Time D084 0 0 999999 9 x ADF 55 Hr Trip 4 Power On Time D084 0 0 999999 9 x ADF 56 Hz Trip 5 Frequency D085 0 00 99999 99 x ADF 57 Trip 5 Output Current D085 0 00 655 35 x ADF 58 Trip 5 P N Voltage D085 0 0 6553 5 x ADF 59 Hr Trip 5 Run Time D085 0 0 999999 9 x ADF 60 Hr Trip 5 Power On Time D085 0 0 999999 9 x ADF 61 Hz Trip 6 Frequency D086 0 00 99999 99 x ADF 62 A Trip 6 Output Current D086 0 00 655 35 x ADF 63 Trip 6 P N Voltage D086 0 0 6553 5 x ADF 64 Hr Trip 6 Run Time D086 0 0 999999 9 x ADF 65 Hr Trip 6 Power On Time
80. Eun PE Fra PE REY Ctrl 5 9 lt 5 oa 0 55 2 D D 9 Inverter Operation gt 5 D 2 Using the Keypad for Inverter Operation Motor Control from the SC OPE Operating the inverter and motor requires proper parameter setup If you have a new application it may be easiest to begin with the default parameters Refer to the inverter instruction manual and follow the Powerup Test given in the Installation and Wiring Chapter To run the inverter from the SC OPE keypad 1 Press the Monitor Mode Status of Run command source key to enter Monitor Mode Frequency setting source 2 Press the Hand Auto key successively until the Run and HAND Freq Source settings are both set to OPE as shown to the right This means the operator interface SC OPE is selected to generate Run FWD and Run REV commands and to generate the basic inverter speed setting parameter F001 Leave the SC OPE display in Monitor Mode In Monitor mode the second Desired output frequency Actual output frequency line displays the desired and actual frequencies You can edit the desired frequency in Monitor Mode setting param eter F001 Frequency Set ting in the inverter 3 Press the Change Data key 7 to edit the desired inverter fre CHANGE quency setting The gt
81. If the speed control potentiometer input does not work verify that the speed control register F001 method does work If the simpler method of operation does not work the more complex method has little chance of working Troubleshooting a new application is different from troubleshooting a system that 15 already installed and was once working For new applications it is impor tant to follow the installation instructions step by step for the inverter and for the SC OPE For an existing application that has stopped working check for simple things likely to interrupt proper operation such as input power a changed Hand Auto mode on the SC OPE a loose cable or wiring terminal a missing input signal from another system etc Basic Troubleshooting Basic Symptoms following table lists basic symptoms and possible causes and solutions More detailed troubleshooting tips are in the next section Symptom Possible Causes and Solutions SC OPE display is blank and its Power LED is OFF Inverter power is OFF Check input power circuit breakers or fuses or cutoff switches Cable from SC OPE to inverter is loose Check the connections at each end of the cable Inspect the RJ45 modular jacks for damage one on the inverter one on the SC OPE which the communi cations cable uses The cable from SC OPE to inverter may be defective Substitute a new cable If you suspect the SC OPE may be de
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83. RD Use Rate A029 A030 A031 A032 A033 A034 A035 A038 A039 A041 A241 A042 A242 A043 A243 A044 A244 A045 A051 A052 A053 A054 A055 071 A072 A073 A074 A075 A076 C044 B090 J100 L100 Inverter Program Menu List p G ego oS 38 EN zo D gt 5 5 o3 5 0 fe v Operation v Accel v Decel v Protection v Terminal gt Input Defs gt 2 Stage Adj 2nd 2 Stage Adj Start Freq Adj Y Motor Direction gt Acceleration 1 2nd Accel 1 Acceleration 2 2nd Accel 2 Accel Ch Freq 2nd Acc Ch Freq Accel Curve Deceleration 1 2nd Decel 1 Deceleration 2 2nd Decel 2 Decel Ch Freq 2nd Dec Ch Freq Decel Curve E Therm Level 2nd E Thm Level E Therm Char 2nd E Thm Char gt Input Term 1 Input Term 2 Input Term Input Term 4 Input Term 5 Input Term 6 A094 A294 B082 F004 F002 F202 A092 A292 A095 A295 A097 F003 F203 A093 A293 A096 A296 A098 B012 B212 B013 B213 C001 C002 C003 C004 C005 C006 50100 L100 Inverter Program Menu List V Input States Analog Input Analog Meter Output Defs Output States Output Levels v Motor Data SLV Input 1 NO NC Input 2 NO NC Input 3 NO NC Input 4 Input 5 NO NC Input 6 NO NC
84. Sel PID Deviation BRD Use Rate Y BRD Select Y BRD On Level gt Oper Mode Sel V Energy Save Adj 1st 2 Stage Adj 2nd 2 Stage Adj Start Reduced V Start Freq Adj Up Down Select Reset Selection Reset Match Running Direct 8120 8121 8122 B123 B124 B125 B126 071 072 A073 A074 A075 A076 C044 B090 095 096 085 086 094 294 036 082 101 C102 C103 F004 J300 L300P Inverter Program Menu List DEN v Free V F Free V F Freq 1 B100 Free V F Volt 1 B101 v Y Free V F Freq 2 B102 gy Y Free V F Volt 2 B103 59 Free V F Freq 3 B104 Y Free Volt 3 B105 E Free V F Freq 4 B106 2 Free V F Volt 4 B107 V Free V F Freq 5 B108 Free V F Volt 5 B109 Free V F Freq 6 B110 Free V F Volt 6 B111 Free V F Freq 7 B112 Free V F Volt 7 B113 v Accel gt 1st Accel Time F002 2nd Accel Time F202 3rd Accel Time F302 1st Accel Time2 A092 2nd Accel Time2 A292 3rd Accel Time2 A392 1st Acc Freq 2 A095 2nd Acc Freq 2 A295 Accel Pattern A097 Acc Curve Const A131 v Decel 1st Decel Time F003 2nd Decel Time F203 3rd Decel Time F303 1st Decel Time2 A093 2nd Decel Time2 A293 3rd Decel Time2 A393 1st Dec Freq 2 A096 2nd Dec Freq 2 A296 Decel Pattern 098 Dec Curve Const A132 as fom _ SE of v Protection g
85. UN LED is ON whenever a Run command is active the actual output frequency gt 0 and the motor is turning in either direction The Fault LED is ON whenever the inverter has recorded a trip event that has not been cleared Getting Started Getting Started Specifications The SC OPE 3H product features are outlined in the following table Description Inverter compatibility Hitachi SJ100 L100 SJ300 L300P J300 Display LCD dot matrix 20 character x 4 line display Keypad Membrane keys Key functions Monitor Quick Menu Program Mode Change Data Mode Change Read Write Store Enter Esc Cancel Help Screen Start Run Stop Reset Hand Auto Right Arrow Left Arrow Up Arrow Down Arrow LED indicators Power LED Run LED Fault LED Firmware L100 SJ100 families 57300 L300P families down load either firmware type Front connector Modular RJ11 RS 232 Rear connector Modular RJ45 SC OPE to inverter connection only Bottom connector 10 pin connector RS 422 RS 485 differential external 5V power Mounting options 1 Directly on inverter housing SJ300 or L300P only 2 Panel mount use bezel kit connect to inverter via cable 3 DIN rail mounting Power consumption 5V 5 regulated 200 mA maximum Dimensions mm in W 112 4 41 131 5 16 D 40 1 58 Bezel dimensions mm in W 161
86. Word 2 Bit Description Bit Description 0 Run Signal 8 Instantaneous Power Failure Signal 1 Frequency Arrival Type1 Constant 9 Under voltage Signal Speed 2 Frequency Arrival Type 2 10 In Torque Limit Over frequency 3 Overload Advance Notice Signal 1 11 Operation Time Over 4 Output Deviation for PID Control 12 Plug in Time Over 5 Alarm Signal 13 Thermal Alarm Signal 6 Frequency Arrival Type 3 at frequency 14 Not Used 7 Over torque Signal 15 Not Used d00 00 5 Z 2 gt 2 e o 9 e n Intelligent Input Setting Codes Intelligent Input Terminal Setting Codes Code Description Code Description 01 RV Reverse Run Stop 26 CAS Control Gain Setting 02 CF1 Multi speed select bit 0 27 UP Remote Control UP Function 03 CF2 Multi Speed select bit 1 28 DWN Remote Control DOWN Function 04 CF3 Multi speed select bit 2 29 UDC Remote Control Data Clearing 05 CF4 Multi speed select bit 3 30 Not Used 06 JG Jogging 31 OPE Operator Control 07 DB External DC Braking 32 SF1 Multi Speed Bit1 08 SET Set 2nd Motor Data 33 SF2 Multi Speed Bit2 09 2CH 2 Stage Accel and Decel 34 SF3 Multi Speed Bit3 10 Not Used 35 SF4 Multi Speed Bit4 11 FRS Free run Stop 36 SF5 Multi Speed Bit5 12 EXT External Trip 37 SF6 Multi Speed Bit6 13 USP Unattended Start Protection 38 SF7 Multi Speed Bi
87. ancel key as before Scroll up aN BUICK and down B BHz _ Quick Menu mui Frea Set Method 94 EREM You can select which items are on the Quick Menu list This feature is useful for particular market segments or applications or any time you know in advance which parameters will be edited most often To configure the Quick Menu in the SC OPE you will need the Configuration Kit SC OPE 3CK Install the Configuration Editor as described in Chapter 2 To configure the Quick Menu 1 Connect the configuration cable from the SC OPE s front network RS 232 port to a Comm port on the PC 2 From the Windows desktop click Start gt Programs gt Hitachi gt SC OPE 3 Editor Note If necessary configure the Configuration Editor 5 COM port settings to match the port used to connect to the SC OPE Click Editor gt Set COM Port Option 3 Click Transfer gt Upload Configuration 4 Place the SC OPE in Config Transfer Mode by holding down the Mode key for 4 seconds 3 23 Quick Menu Operation 5 Ifthe SC OPE is ready refer back to the PC and in the Set Up Upload dialog box click OK 6 When the Information dialog box indicates Upload Complete click OK The untitled SC OPE Configuration just uploaded will appear in a window in the Con figuration Editor 7 In the Quick Menu Configuration group click the Setup button The Configure Quick Add Insert Delete Edit Num Quick Menu
88. and Stop switch inputs How ever it is possible to use the NOT state of to load a zero into the run command register and achieve both start and stop functions with one input switch n lt e 2 gt 5 6 E 2 2 for Inverter Operation x1 C101 PD C101 LD OUT Run Cmd write V3004 X2 C102 PD C102 LD K1500 BIN OUT Preset freq write V3005 x3 C103 PD C103 LD K3000 BIN OUT Preset freq write V3005 Stop the inverter by loading KO into V3000 the run command register of the drive These next few rungs load dif ferent speeds into the Preset Frequency register in the drive The speed reference resolution is in 0 01 Hz so a load of K1500 yields 15 00 Hz Set the inverter speed to 30 Hz 4 27 Connecting to DirectNet Network X4 C104 Set the inverter speed to 45 Hz K4500 BIN OUT Preset freq write V3005 X5 C105 Set the inverter speed to 60 Hz C105 LD K6000 BIN OUT Preset freq write V3005 The following rungs implement diagnostic monitoring which you can access from the run status register 40009 The status register consists of bit level indicators of status events By viewing the register in binary
89. arameters before connecting the PLC to the drive and running it Failure to do this could result in damage to the drive or the equipment connected to the drive Note Remember that the number format of the registers in the drive is decimal while the number format of the registers in your PLC may be in BCD HEX If you are viewing the drive values in a data view window be sure to select decimal as the format for viewing If you are writing values to the drive be sure to change the value to decimal The following block diagram of the PLC controller shows its input switch assign ment for the following example program and the resulting inverter command c H 55 U W t k 5 J Run start motor 8 X1 Stop SC OPE to inverter oz 2 Set speed 15 Hz 2 2 gt Set speed 30 Hz S X4 gt Set speed 45 Hz 7 X5 gt Set speed 60 Hz Discrete input wiring DirectNet Network Using Networks for Inverter Operation Ladder Program Example for DirectNet n lt e 2 gt 5 6 E 2 2 for Inverter Operation Port 2 Error SP117 Error C10 SET Special relay SP117 reports a communication error between the PLC and the SCOPE for example broken cable etc The following rung moves values from the SC OPE to PLC mem
90. as two wires typically labeled TX RX TX RX these connect directly to the network Ifthe device has four wires you may need to jumper its transmitter receiver lines together Jumper TX to RX and jumper TX to RX All devices TX RX lines and lines connect in parallel Remember to make the ground connection between all ports on the network Add network termination resistors see page 4 8 Note that the device at each end of the network will only have one termination resistor Limit the total number of devices to 32 for RS 485 2 for RS 422 Each device on the network must have a unique address The diagram below shows a 2 wire network In this example the host computer has a 4 wire port that has been jumpered for 2 wire operation Sometimes a host com a puter will have internal jumpers or firmware settings that have the same effect as the gg p m jumpers shown However they are configured only two wires plus GND will e connect one device to another S Host Computer SC OPE Otherslave o9 network master devices 5 5 RS 422 485 ransceiver 2 wire network TXt 7 e ied TXIRX e RX GND RX GND Using Networks for Inverter Operation Network Termination Resistors When wiring a factory network it is important to consider Termination the reliability and noise immun
91. ater in this procedure 3 From the front side of the bezel housing insert the four mounting screws through the housing and the gasket This will serve to maintain alignment between gasket and housing for the next step Bezel housing 22 5 92 X oo ITI 2 F ck Bezel housing T washer Panel door Gasket Seal EX Installation and Configuration 4 Now take the bezel housing and gasket assembly and insert it into the panel opening as shown 5 On the back of the panel use the lock washers and nuts provided in the Bezel Kit to secure the bezel housing to the panel 6 Locate the O ring seal in the Bezel Kit compo nents and orient it as shown below left The seal ensures a tight fit between the SC OPE and the bezel housing 7 Carefully stretch the O ring around the SC OPE and situate it in the perimeter stepped channel as shown below right Installation nj 5 2 je 8 Take the SC OPE and tilt it into the bezel housing opening in the panel latching the bottom edge first as shown below left Then push the top of the SC OPE keypad to engage the upper latch below right Panel Mounting the SC OPE 9 Secure the SC OPE to the bezel housing with the two 3 38 x 1 screws included in the Bezel Kit To remove the SC OPE from the bezel housing at a later time 1 Unfasten the
92. ation Editor PC software provides access to all configuration settings and it can transfer configurations between the SC OPE and PC Note A SC OPE configuration does not contain inverter parameter settings You can use the SC OPE as a copy unit upload parameters from one inverter and download them to another inverter Since inverter parameters are not part of a SC OPE configuration a SC OPE configuration file saved to disk does not store inverter parameters Installation c D e e Installation and Configuration Installing the Configuration Editor The Configuration Kit includes an installation CD ROM serial cable and cable adapter This is all you will need to connect a PC to the SC OPE and edit the configuration To install the SC OPE Configuration Editor software 1 Insert the software installation CD into the CD ROM drive in your PC If the drive is configured to auto run the installation will automatically begin and you can skip to step 7 2 If the CD ROM does not auto run From Windows desktop click Start gt Run 3 In the Run dialog click Browse 4 In the Browse dialog navigate to the CD ROM drive letter typically D and click Open 5 Click select the file setup and click Open 6 In the Run dialog the filename path D Setup exe will appear in the Open field Click OK 7 Follow the on screen instructions in the installati
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94. ble to use the NOT state of to load a zero into the run command register and achieve both start and stop functions with one input switch x1 C101 PD C101 LD OUT Run Cmd write V3000 X2 C102 PD C102 LD K1500 BIN OUT Preset freq write V3001 x3 C103 PD C103 LD K3000 BIN OUT Preset freq write V3001 Stop the inverter by loading KO into V3000 the run command register of the drive These next few rungs load dif ferent speeds into the Preset Frequency register in the drive The speed reference resolution is in 0 01 Hz so a load of K1500 yields 15 00 Hz Set the inverter speed to 30 Hz 5 9 T a2 9 48 55 o lt 92 55 9 5z 72 Using Networks for Inverter Operation X4 C104 Set the inverter speed to 45 Hz K4500 BIN OUT Preset freq write V3001 X5 C105 PD Set the inverter speed to 60 Hz C105 LD K6000 BIN OUT Preset freq write V3001 The following rungs implement diagnostic monitoring which you can access from the run status register 40009 The status register consists of bit level indicators of status events By viewing the register in binary you will see that bit 7 is ON when the inverter is running bit 0 is ON when the in
95. cable to the above inverter series The SC OPE will mount in the keypad bay on the SJ300 L300P series The other inverter series require separate mounting of the SC OPE no keypad bay Can I use the same SC OPE firmware for the SJ100 L100 SJ300 L300P and J300 inverter series 0 5 CD ze amp z A It depends on the models involved There are three unique firmware sets 1 SJ100 L100 firmware 2 87300 L300P firmware 3 J300 firmware You can change between any two inverters that share the same firmware by using only the SC OPE keypad for example 5 00 and L100 To change between inverters that use different firmware sets requires downloading a new firmware set to the SC OPE see next question Q Is is possible to download new firmware to the SC OPE in the field A Yes You will need to order a SC OPE3CK Configuration Kit which is licensed for use on a single PC to be used as a configuration station Of course a single PC can configure as many SC OPEs as you need one at a time Q Can I use a SC OPE as a Copy Unit that is to copy parameters from one inverter to another A Yes You can connect or install the SC OPE into the inverter you want to use as the source for parameter values After reading the parameters to the SC OPE EEPROM retentive memory you can write the SC OPE s memory contents to another inverter See Copying Parameters Between Inverters on page 3 25
96. ce are also displayed When the sources for Run command and Frequency Setting are set to be the SC OPE keypad you can use Monitor Mode to change the motor speed and run the motor The Quick Menu displays a short list of frequently used parameters You can configure a SC OPE to display the particular subset of param eters most often referenced or changed in your application Program Mode provides access to edit the inverter s parameters The parameters are organized into categories to provide a tree like structure to access and edit parameter values The Change Data function allows you to change the value of the inverter parameter currently displayed on the SC OPE The Mode key allows navigation between the SC OPE s normal modes or functions and Configuration Mode used to configure the SC OPE Configuration Mode includes a data transfer utility that is used in com munications with a PC A configuration file stores the SC OPE s network port settings inverter family type and other data The Read Write Menu key accesses separate Read EEPROM Data or Write EEPROM Data operations which move SC OPE parameter set tings to from the inverter s EEPROM After a Change Data operation use the Store Enter key to store the new value to the inverter s RAM Pressing the Store Enter key is required when you want to enter certain operational modes or sub menu topics denoted by the Enter prompt on the SC OPE display The Esc Cancel key p
97. clone eS deti Ce en ree Copying Parameters Between Inverters pp MotrtorNIOde sss Leticia IN Qs al sU is dui aede Restoring Factory Default Inverter Settings 2 Chapter 4 Using Networks for Inverter Operation Setting Up a Network o Connecting to a ModBus RTU Network ps Connecting to a DirectNet Network Nt Connecting to an Allen Bradley DF1 Network RN Connecting to a Metasys N2 Network ett pete ridus Chapter 5 Troubleshooting Diagnostics Basic Troubleshooting Jeudi 5 2 Troubleshooting SC OPE Inverter Control Inputs pp 5 4 Performing SC OPE Diagnostics Nt 5 6 Appendix SJ300 L300P Program Menu List SJ300 L300P Inverter Program Menu List pp A 2 Appendix SJ100 L100 Program Menu List SJ100 L100 Inverter Program Menu 46 2 Appendix C J300 Program Menu List J300 Inverter Program Menu List i C 2 Appendix D SJ300 L300P Network Register Maps SJ300 L300P Factory Network Register Maps D 2 Bit level Definitions for Factory I O Registers D 13 SJ300 and L300P Building Network Register Maps D 18 Appendix E SJ100 L100 Network Register Maps SJ100 L100 Factory Network Register Maps 2 Intelligent Terminal Codes 9 Index
98. d x 1 2 DIN rail clips 2 Screws for back of bezel housing with DIN rail clips 4 40 x 1 1 4 SC OPE3CK Configuration Kit The Configuration Kit includes software and com munications cable for using a PC to manage SC OPE settings and inverter param eter transfers Use of the communication cable requires a cable adapter included Quantity Component Description for Configuration Kit 1 CD ROM with Configuration Editor and firmware configuration files 1 Configuration cable connects SC OPE to PC male RJ11 modular connector at both ends use with adapter below 1 Cable adapter 9 pin D shell female to RJ11 female modular Getting Started s 72 Frequently Asked Questions The inverter is already installed and running in my application using the standard Hitachi keypad How easy is it to install a SC OPE 3H and resume control via its keypad A It is easy to connect the SC OPE and resume operation See Inverter Opera tion from the SC OPE Keypad on page 3 4 Q Will I be able to use the SC OPE to initialize the inverter to restore factory default parameters A Yes for SJ300 and L300P inverters See Restoring Factory Default Inverter Settings on page 3 32 Other inverters require using standard keypad sequences or input terminal signals as described in their instruction manuals Q Can I use the SC OPE 3H with inverters tha
99. e is the obvious method to edit parameter values Monitor Mode also provides edit capability for specific parameters as shown below The section Motor Control from the SC OPE on page 3 8 introduced the Monitor Mode display of these parameters and how to edit or change them Monitor Mode Edit Permissions 2001 Output Frequency Setting A002 Run Command Source A001 Freq Command Source Output Frequency Editing The Change Data key provides access to edit W B 4 8 the Output Frequency Setting F001 Fun PE Fra PE and the gt edit cursors appear Then Horm Stor Ctrl the Up Down Arrow keys will immedi 2 2 ately increment decrement the fre CHANGE quency value with each key press If the DATA Ox status of the Software Lock Mode or 3 other conditions prevent editing the displayed for Sens o output frequency at any point pressing FreaEdit HOT ALLOWED 55 CHECK and the Change Data key or Up Down SFT OFF or Arrow keys will cause the SC OPE to BAZ GEs or 18 display the message shown to the right d Use the checklist to verify that condi tions allow parameter editing B 8A 8 6 B 8 88kl Similarly pressing the Hand Auto key A an OPE Ee immediately updates the Run Command Harm Siop Ctr Source A002 and or the Frequency S J Command Source A001 If the
100. e Lock Mode B031 and the section on SFT intelligent input operation Program Mode Behavior The SC OPE monitors the conditions and signals listed above during Program Mode use It evaluates the edit permission either a lowed or prevented in real time for each parameter when e you navigate to a parameter you want to edit and press the Change Data key or e you have tentatively edited a parameter value and then press the Store Enter key ERN Note The SC OPE re evaluates the edit permission for each parameter when the Store Enter key is pressed because the state of the SFT input if in use could change just after you press the Change Data key Change Data key The gt lt edit cursors normally appear after pressing the Change Data key If the current edit permission result prevents editing the edit cursors will not appear indicating editing is prevented Edit allowed 4 CHANGE FROGRAM MODE B mund Har Freauencaug DATA DATA M Edit prevented FROGRAM MODE BHE 4 iay Freauencu na gt MODE BHE Freauenca B Store Enter key After pressing the Store Enter key in an allowable edit the gt lt edit cursors normally disappear leaving the new parameter value If the current edit permission result prevents editing p
101. e SC OPE 3H normal operational modes feature unique display output fields Normal Oper Press the corresponding key to view the default or mode entry screen contents ating Modes Monitor Screen entry B GA p p 8 MONITOR Furi TEMS Fra Horm Store Chel J Quick Menu entry GUTCKE A Rm Eead Hrite Meru BIEnterl Read Write Menu FEAL HEITE gt Read EEPROM Data gt Write EEPROM Data V J 58 gt mio 13 Program Screen entry E MODE a BHE A PROGRAM Monitor Vars ES lt 4 2g Help Screen default 4 d E For azziztances call Hitachi Americas Lid HELP 1 314 631 0600 V The diagram to the right shows the organization of the SC OPE s operating modes The line and arrows indicate that you can switch from any mode to any other mode SC OPE Modes in Normal Operation powerup Read Write 3 4 Inverter Operation gt 5 D 2 Using the Keypad for Inverter Operation Inverter Operation from the SC OPE Keypad Selecting Keypad or Network Control An operator can run and program the inverter from the SC OPE keypad To achieve unattended operation the operator can configure the SC OPE to send factory network commands it receives on to the inver
102. e communications channel in a project Configuration 1 In the RSLogix software click File gt m New to begin a new project pmm ee eo DP jum SRA 2 Click File gt Save As to name the project at this time ELI 3 Refer to the project element explorer pane to the left of the RSLogix window In the Controller folder double click the E Channel Configuration item as shown Then Controller the Channel Configuration dialog will 3 Controller Properties appear Processor Status for Inverter Operation 1 IO Configuration he Channel Configuration a Program Files svso SYS1 Lap2 2423 Data Files Cross Reference oo OUTPUT 7 lt p e 9 E MSG Instruction Connecting to an Allen Bradley DF1 Network The remaining steps in this sequence refer to the Channel Configuration dialog below General Chan 1 System Chan 0 System Chan 0 User EAM 5 1 decimal Bad 9600 Parity NONE Z Protocol Control Control Line Handshaking m Timeout x20 ms 50 Error Detection CRC hd Retries 3 Embedded Responses Enabled fedl ENQ Retries 3 Duplicate Packet Detect Cancel Appl Help 4 For the Driver setting select DF1 Full Duplex 5 Leave the Source ID setting at 1 6 In the P
103. e network cabling and a network termination board where applicable Either the panel mount option or the DIN rail option will work Ifyou only want to use the SC OPE s RS 232 network port any mounting option is permitted Ifthe inverter will be mounted in an enclosure panel we generally recommend panel mounting the SC OPE This will provide easy operator access to the keypad including access to the RS232 port for updating the SC OPE configuration 5 2 e e 2 The Bezel Kit contains the bezel housing mounting hardware and the network accessories for using the RS 485 port After performing the basic mechanical SC OPE mounting you will be ready to make the network connection See Setting Up a Network Interface on page 4 2 Caution Be sure to power OFF the inverter before performing wiring changes to the inverter or SC OPE 3H including connecting or disconnecting the SC OPE from the inverter Otherwise erratic operation or damage to either unit may occur Installation c 5 5 e je Installation Configuration Comm Port Introduction The SC OPE has two logical serial ports and three physical connector ports Therefore it is essential to understand the function and location of the SC OPE serial ports The inverter port is located at the top rear edge of the SC OPE It must be con nected to a sing
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105. f the SC OPE from the DIN rail is accomplished by pressing on the front top edge of the SC OPE bezel housing This acts as a lever to unlatch the DIN rail clips at the bottom edge of the rail This capability requires that the DIN rail be mounted securely to a solid surface as described in Step 1 The next section shows how to connect the SC OPE to the inverter Connecting the SC OPE to an Inverter via Cable Connecting the SC OPE to an Inverter via Cable The panel mounting and DIN rail mounting options for SC OPE installation require the use of a cable for SC OPE to inverter communications A cable is included in the Bezel Kit for this purpose Note DIN rail mounting the SC OPE leaves a small clearance for the cable to exit Standard modular connectors such as Hitachi cable ICS 3 have an end connector too large to fit between the SC OPE and the wall behind it when DIN rail mounted Be sure to use the cable supplied in the Bezel Kit To connect the SC OPE to an inverter via a cable 3 1 Carefully remove the modular interconnect in the inverter s modular as shown 9 5 sure to grasp the latching prong such that it releases the connector for easy a 5 removal 59 IN Caution DO NOT use excessive force to remove the modular interconnect Other wise damage to inverter circuitry may occur Connector latch Modular RJ45 interconnect EX Installation and Configuration en 55 oD 55 i
106. factory network interface function Using a factory network allows a host com puter or controller to command multiple inverters on a single network Each inverter will have its own address or station number on the network except for Allen Bradley DF1 The protocol you will need to use is determined by the requirements of the master controller or host on the factory network The SC OPE is config urable to use one of the following networks Protocol Inverter Address Range Default Address DirectNet 1 to 90 1 Allen Bradley DF1 ModBus RTU 110255 1 ModBus ASCII 1 to 255 1 Metasys N2 1 to 255 2 Network Port Mode Electrical Selection The electrical characteristics of your factory network will be selected independently of the protocol selection Factors which determine the proper electrical mode include the network length number of inverters on the network and the serial port electrical characteristics of the network master computer In simplex operation the same wires are used alternately for transmitting and receiving Half duplex operation uses separate transmit and receive wiring but only one half TX or RX will be in operation at a time Note that while 7 5 G 9 some protocols support up to 255 node addresses address of each device RS 485 E S networks are limited to a maximum of 32 devices Za BO The following table lists the SC OPE serial port modes
107. fective replace it with the original inverter keypad or another known working SC OPE SC OPE display output has changed from its normal output for normal operation SC OPE was operating under network control Net Ctrl but somehow the SC OPE has changed to keypad control Key Ctrl Error code is displayed Perhaps another person or event changed the mode or state of the SC OPE As a starting point you can reset the SC OPE to its powerup state by pressing and holding the MODE key for 6 seconds If the SC OPE is configured to change from network control to keypad control via the Stop key a Stop key press event may have caused the exit from network control Manual intervention will be necessary to return the SC OPE to network control See Selecting Keypad or Network Control on page 3 4 The inverter has probably tripped due to over current over voltage etc Refer to the inverter manual for inter preting error codes Press the STOP key to clear the error from the display Motor does not move upon a Run command Speed input may be zero This may be confirmed by viewing the contents of parameter 2001 via Monitor Mode If sourced externally also check input termi nals or network command operation etc The Run command may not be reaching the inverter This may be confirmed by checking the Run LED on the SC OPE keypad o 2 a 5 n m 9 n c 172
108. gent inputs is programmed for the appropriate FWD or REV function Note The SJ300 L300P inverters have a built in FWD terminal Use a digital voltmeter DVM to measure the voltage at the FWD or REV terminal when the Run command is active and inactive If you are using the SC OPE keypad as the Run command source Run OPE Youcan test the keypad keys individually See Keypad and LED Diagnostics on page 5 7 The REV key may be independently disabled via the SC OPE configuration See Limiting the Direc tion of Rotation on page 4 15 If you are using the SC OPE keypad Frq OPE to edit the output frequency F001 directly Use Monitor Mode to verify the value of F001 on second line of display If it is zero use the Change Data key and Arrow keys to change the value Check the value of the maximum output frequency If the output frequency setting comes from the analog input terminals Frq TRM Use a digital voltmeter DVM to verify the input voltage and polarity or current and direction at the terminals e Check the value of the maximum output frequency If the output frequency source is set to come from the keypad potentiometer Frq VM Note that the Frq VM setting requires the use of the original Hitachi keypad with potentiometer to set the output frequency for this configuration For SC OPE use do not set the frequency source to FRQ VM o 5
109. has an edit permission allowed or prevented associated with it The inverter enforces edit permissions when you use the standard Hitachi keypad that comes with the inverter When the SC OPE is connected to the inverter then the SC OPE monitors the same conditions and signals as the inverter would do in order apply the same edit permissions Conditions and signals which determine the edit permission for each parameter are Software Lock Mode setting B031 Inverter Run Mode Stop Mode status SFT Software Lock intelligent input state only when an intelligent input is defined as SFT Run Mode Edit classification of standard parameters as listed with check ex X mark in the parameter tables in the inverter instruction manuals Parameters in special categories which include B031 F001 and the Multi speed parameters Ax20 and A021 to A035 The particular Software Lock Mode setting in use establishes the general permission levels for all parameters However some parameters that directly affect inverter output operation cannot be edited when the inverter is in Run Mode regardless of which Software Lock Mode is in use In addition the optional SFT intelligent input state works in combination with the Software Lock Mode in real time to modify the edit permission level To determine when parameters can cannot be edited for various conditions please refer to the inverter instruction manual sec tions on Softwar
110. he Keypad for Inverter Operation To download the new Quick Menu to the SC OPE 1 From the Configuration Editor s main menu click Transfer gt Download Configuration 2 Confirm the communications cable is connected 3 Confirm the SC OPE is in Config Transfer Mode or restore that mode by pressing the Mode key for 4 seconds 4 In the Setup Download dialog box click OK 5 In the Information dialog box click OK Inverter Operation gt x D E 79 2 Copying Parameters Between Inverters Copying Parameters Between Inverters The SC OPE provides a copy unit function you can copy one inverter s param eters into another inverter This capability is often needed in OEM situations A copy operation consists of two parts 1 Read one inverter s parameters into the SC OPE s EEPROM 2 Write the parameters stored in the SC OPE to the second inverter s EEPROM A Caution Be sure to power OFF each inverter before connecting disconnecting the SC OPE Otherwise damage to the inverter or SC OPE may occur Note The steps in the following example use a cable to connect the SC OPE to the inverter You could install the SC OPE in each inverter 8 keypad bay instead To perform a copy operation 1 Connect the SC OPE to the inverter Source Destination which contains the parameter settings WA A you want to use as the source
111. he SC OPE or you may use the Configuration Editor on a PC and download the configuration To configure a SC OPE 3H for connecting to a DF1 factory network Press the keys shown in the sequence below 1 Press the MODE E T Had Contis Transfer Mode JOD seconds Haitinas for PC Press MODE key for DConfisuration menu Hold 4 seconds 2 2 Press m kerasan Wiet Confisuration Meru Inverter Fort s 3 Press the Down Arrow key once Confisuration Menu Hetuork Fort Cfa gt 4 Press the Right Confisuration Meru Atrow key HModBus 5 Press Change F Data key and the IX Confisuration Menu Up Arrow key to DATA n select the desired pro tocol from the list n e 2 gt 2 9 2 2 for Inverter Operation 2lirectHetz 6 Press the Store Enter key to store the Confisuration Meru STORE change or Esc Cancel ENTER Hetwork Frotoca to exit without lirectHet changing Setting Up Network Interface 7 Press the Down Arrow key to access the other network configuration parameters to edit a parameter use the Change Data key the Arrow keys and the Store Enter key as in Step 5 and Step 6 above The complete Network Configuration submenu is shown below Configuration Menu Inverter Port Cfg
112. he menu organization of these menu items is shown below Initial sub menu Program Mode Parameters p Initial Initialize Mode e Country Code PROGRAM e Reinitialize Drive e e To initialize inverter parameters 1 Press the Program Mode key and navigate to the Initial submenu see Program Mode menu map above 2 Verify the options for Initialize Mode are as you require If necessary press the Change Data key scroll to the desired setting listed below and press the Store Enter key Initialization Options Trip history only Both trip history and inverter parameter data 3 Press the Down Arrow key to scroll down to Inverter parameter only the Reintialize Drive menu item 4 Press the Right Arrow key to get the display as shown FROGEAM MODE 22 5 Press Store Enter to initialize or ESCeno Esc Cancel to abort Using Networks for Inverter Operation In This Chapter page Setting Up a Network Interface 2 Connecting to a ModBus RTU Network 18 Connecting to a DirectNet Network 23 Connecting to an Allen Bradley DF1 Network 28 Using Networks for Inverter Operation Setting Up a Network Interface Introduction In addition to providing a full featured operator interface the SC OPE 3H provides a
113. ing daisy chain network topologies which are typical in factory networks with multiple inverters In a factory network with multiple inverters and or end to end lengths of more than 15 meters 45 ft we recommend using the RS 422 485 network port Networks with three or more devices will require using the RS 485 mode Each SC OPE must be configured with a unique network address described later in this section Host computer Inverters RS 422 485 Network Port SC OPEs Addr 00 Factory network or building network Addr 01 Addr 02 Addr 255 RS 422 485 Serial Port Wiring Diagrams End view of SC OPE bottom edge peg Setting Up a Network Interface Some factory networks originate in programmable logic controllers PLCs The CPU or network interface module in the base as shown below will provide the interface PLC with I O base Inverters C SC OPEs Network interface module Factory network or building network Addr 00 Addr 01 Addr 02 The SC OPE s RS 422 485 port can connect to 2 wire or 4 wire networks as listed to the right The figure below shows the port s connections The power co
114. inverter is in a larger enclosure note that mounting the SC OPE to the inverter will require panel interior access to use the keypad To mount the SC OPE to an inverter 1 Remove the standard Hitachi keypad and panel filler plate The keypad latch is located at its top edge Press the keypad latch to release Be sure to put the keypad and filler plate in a safe place in case they may be needed later uonejejsu o 2 e ES E 5 Standard Keypad Latch Keypad Bay Filler HITACHI Plate 1 MI NM 20000 2 Clear the keypad bay of any dust and debris 3 Remove the SC OPE from its packing material Take care not to touch any com ponents on the circuit board to avoid potential static damage NETS Installation and Configuration 4 Slide the SC OPE partially into the keypad bay as shown As you do this step keep the SC OPE front keypad par allel to the inverter front panel The goal of this step is to ensure the RJ45 inter connect in the inverter s keypad bay aligns with and is partially engaged with the top connector on the back of the SC OPE If this is not achieved the intercon nect will bind and make the next two steps impossible to perform 5 Press along the SC OPE bottom edge to engage the retention latches in the keypad bay Do not allow the SC OPE s top edge to slip out of the keypad bay during this step would cause the RJ45 interc
115. ion 1 Double click Setup Screen at the bottom of the MSG instruction block 56 N7 50 14 Elements BEE This Controller r Control Bits Communication Command PLC5 Read Ignore if timed out TO 0 Data Table Address 17 70 To be retried NR 0 Size in Elements 2 Awaiting Execution Ew D Channel 0 Continuous Run 0 Error 0 Target Device Message done DN 0 Message Timeout 5 Message Transmitting ST 0 Data Table Address 7 5 Message Enabled EN D Local Node Addr dec 1 Waiting for Queue Space 0 Local Remote Local FEro Error Code Hex 0 Error Description No errors 2 In the General tab of the MSG dialog box refer to the This Controller group In the Data Table Address field select the area of PLC memory to use in the read write transaction with the inverter for Inverter Operation 7 lt e 9 E 3 In the Size in Elements field enter the number of data words 16 bit items to read or write 4 In the Channel field select 0 Connecting to an Allen Bradley DF1 Network 5 The Target Device Group contains settings for the SC OPE In the Data Table Address field enter the starting register address for the inverter data to be read or written In this example the foll
116. ise gt 2 J300 Inverter Program Menu List Monitor Vars gt Parameters Command v Initial v Control VIF Settings Motor Data gt VAR 1 1 W VAR 1 2 W VAR 1 3 WVAR2 gt Freq Set Method Run Set Method Param Set Method Trip History Mode Enable Debug Mode Run Key Routing Base Freq p Base Freq s Max Freq p Max Freq s OPE Set Freq p OPE Set Freq s Jogging Freq Start Freq Ctrl Method Ctrl Method V F Pattern p V F Pattern s Input Voltage AVR Dec gt Auto Tuning p Auto Tuning s Motor Const Data p Motor Const Data s Motor Pole Count p Motor Pole Count s Motor Capacity p p S gt NH Y Motor Capacity s J300 Inverter Program Menu List Y Motor eu p Y Motor eu s Resistor R1 p Resistor R1 s Resistor R2 p Resistor R2 s Inductor L1 L2 p Inductor L1 L2 s Mut Inductor p Mut Inductor M s Inertia J p Inertia J s ASR Y ASR s Y ASR Ti p ASR s Y ASR Kp Y ASR Kp p 5 CD Carrier Freq gt U x Q e 3 lt 5 e gt Accel 1 Accel 1 s Accel 2 Accel Curve Curve Co
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118. ity of network communications Differential trans ceivers provide general noise immunity However factors which degrade noise immunity include longer total network lengths noisy environments and a large number of devices on the network The Network Termination Board included in the Bezel Kit contains network termination resistors These resistors connect across TX TX and RX RX at the physical end of the wiring pairs as shown in the figure below Host Computer SC OPE Other slave network master devices Termination resistor Transceiver 1200 1200 TX 7 7 TX X yf TX 1 RX as 1 1 1200 GND 1200 SND 6 e Bias Resistors A transceiver s differential Network signals are in a tri state condition floating with respect to GND between transmissions Voc This can make a network more susceptible to noise particularly with higher baud rates The maximum speed of SC OPE communications is 19 2 k Baud still low enough for reliable communications in many applications The Network Termination Board contains bias resistors These include 1k pull up and pull down resistors at each node n e 2 gt 2 9 E 2 2 for Inverter Operation e Setting Up Network Interface Connecting a The Network Termination board contains termina
119. key for 6 seconds as r3 HITACHI AMERICA Ltd SC PE LiBBP em shown 6 seconds Naming Saving Configurations Editor Options 2 33 SC OPE Configuration Editing The editor has the capability to save SC OPE configurations to disk in your SC OPE Configuration Each configuration will have a unique file Configuration Description name Before saving a configuration you 51300 Pumping Station can enter a text Configuration Description in the field provided as shown To save a configuration to disk 1 From the Configuration Editor menu click File gt Save 2 In the Save As dialog box navigate to the desired directory enter the filename and click Save Each configuration uses the prj filename format The Configuration Editor has options you can set based on your PC hardware and 5 o a D D e E your preferences uoneunByuo pue To select the COM port From the Configuration Editor menu click Editor gt Set COM Port Option gt COMI use available COM port on your PC To set the directory options 1 From the Configuration Editor menu click Editor gt Set Directory Options The SC OPE Configuration Directory Current Directories dialog box will appear CAPROGRA 1 Hitachi SCOPE Projects Browse as shown Inverter Firmware Directory ENPROGRA 1 HitachASCOPE Download Browse 2 The SC OPE Configuration Directory is the default di
120. le inverter in every application This serial port is dedicated to communicating with the inverter The network port is logically one port but it is available on two different connec tors The front modular RJ11 connector is an RS 232 network port The bottom ter minal strip connector is an RS 422 485 port Since these two network ports are logically one port only one of them may be in use at any time or you may use neither of them Front view Rear view Inverter port Network port Network port RS 232 RS 422 485 The SC OPE automatically detects a connection to a PC running the Configura tion Editor on the RS 232 network port and communicates with it via a proprietary protocol This does not rely on the current factory network configuration in the SC OPE Of course do not attempt to communicate with the SC OPE via the Con figuration Editor and a factory network protocol at the same time Note The SC OPE 5 RS 422 485 port cannot be used for communications to the PC Configuration Editor software You can only use the RS 232 port Mounting the SC OPE to Inverter Mounting the SC OPE to an Inverter The SC OPE 3H can be mounted directly to the inverter housings in the case of SJ300 L300P fami lies This is ideal for stand alone inverter applications not on a factory network or laboratory areas in which the inverter is not mounted in a panel enclosure If the
121. le key Quick Menu provides fast access to a circular list of up to 32 items The factory default Quick Menu can be edited with the Configuration Editor to provide a custom menu for specific applications or market segments For example a Quick Menu which is optimized for HVAC applications will be different from a menu optimized for a pumping station To configure the Quick Menu 1 In the Quick Menu Configuration group click the Setup button The Configure Quick Add Insert Delete Edit Menu dialog box will appear as shown The list of parameters is the current Quick Menu Num Quick Menu 5 a D 5 pue 1 4001 Freq Set Method in the SC OPE 2 4002 Run Set Method 3 4003 Base Frequency 4 4004 Max Frequency 2 Use the buttons at the top of the Configure 5 A041 Boost Sel 5 4042 Man Torq Boost Quick Menu dialog box to change the list 7 044 1st Ctrl Method 8 4082 Motor Voltage 3 H004 1st Mtr Pol Sel Add Click Add to add a new item to 10 F002 1st Accel Time the bottom of the menu list Select the new n F003 1st Decel Time 12 8006 Open Phase Sel parameter from the pop up menu and click 13 8012 E Therm Level OK 14 091 Stop Mode Sel 15 D005 Inp Terminals 16 0006 0 Terminals Insert Click Insert to insert a new item 1 Trip History just above the currently selected item in the menu list Select the parameter from the
122. load is successful you ll see the con firming messages below Press when ready d Upload Complete Complete Press MODE key for Confisuration menu 5 o a D e E uoneinByuoD pue If the upload is not successful correct the problem such as serial cable connection incorrect etc and repeat the above steps 6 Click OK in the Information dialog box and the Configuration Editor will display the uploaded configuration in its own window displaying primary information in the fields as shown Each settings group can be edited with the corresponding Setup button The next several sections discuss editing individual configuration setups amp SC OPE 3 Configuration Editor 1515 Eie Configue Transfer Editor Window Help amp Untitled BE SC OPE Configuration Configuration Description 54300 Inverter Type Selection Network Port Confiouraton Setup Inverter Type Pott Protocol 57300 Series Inverter Metasys N2 Firmware Version Port Address 204 We Quick Meru Configuration getup StatupScreenandHap Setup Screen Configuration Installation Configuration Inverter Type The SC OPE firmware contains the software that enables it to communicate with an Configuration inverter Three unique firmware sets provide SC OPE communication capability 1 51100 L100 firmware 2 87300 L300P firmware 3 J300 firmware When you use the Config
123. ls 39 5 ao os FE 55 2 D 9 29 Q Program Menu Summary The Program Menu structure has up to four levels A summary of the Program Menu top level for all inverters is shown in the list below Within the Parameters submenu the SC OPE presents only the inverter parameters which correspond to the inverter which is connected A Program Menu map corre sponding to each inverter family can be found in the appendices in this manual Use Left and Right Arrow keys to navigate to menu levels Level 1 Level 2 Level n PROGRAM Program Menu Monitor Vars gt Parameters Status gt etc each Useup and Down Trips 4 its Arrow keys to navigate through item lists at each menu level own list of parame gt ters to edit Software Lock gt ___ Configuration Mode Network Control 3 12 Using Keypad for Inverter Operation Program Mode Example Within Program Mode you can navigate to various parameters see previous page and edit values or settings The following general procedure shows how to navigate to a parameter Change Data edit the value and either Enter accept the new value or Cancel abort the edit The example edits A004 Max Frequency To edit a parameter or setting in Program Mode 1 Press the Program key to enter Program Mode 2 Press the Dow
124. mmand Baud Rate Address Code Data Bits Parity Stop Bits Y Waiting Time gt Current Freq Output Cur A Rotation Dir Y PID Feedback Inp Terminals Out Terminals Freq Multiplier Scaled Freq Torque Output Voltage Y kW Power W Accum Run Time Power On Time Input Voltage P N Voltage gt Status Byte 1 Status Byte 2 Status Byte Status Byte 4 gt Freq Set TRM Freq Set OPE Freq Set OPT1 Freq Set 2 Freq Set RS485 Freq Set C070 C071 C072 C073 C074 C075 C078 D001 D002 D003 D004 D005 D006 086 D007 D012 D013 D014 D016 D017 J300 L300P Inverter Program Menu List Trips gt gt it of Trips 0080 V Trip 1 Err Code 0081 v Trip 1 Status 0081 8 Y Freq at Trip 1 0081 59 V lat Trip 1 D081 r PN V at Trip 1 D081 E V Run Time Trip 1 D081 E V Pwr Time Trip 1 D081 Trip 2 Err Code D082 Trip 2 Status D082 Freq at Trip 2 D082 at Trip 2 D082 PN V at Trip 2 D082 Run Time Trip 2 0082 V Pwr Time Trip 2 D082 Trip 3 Err Code D083 Trip 3 Status D083 Freq at Trip D083 1 Trip 3 D083 W PN V at Trip 3 D083 Run Time Trip 3 D083 V Pwr Time Trip D083 V Trip 4 Err Code D084 Trip 4 Status D084 Freq at Trip 4 D084 at Trip 4 D084 PN V at Trip 4 D084 Run Time Trip 4 D084 V Pwr Time Trip 4 D084 Trip 5 Err Code D085 Trip 5 Status D085
125. n Arrow key to move down the list by one item to Parameters 3 Press the Right Arrow key to view the first item under 5 Press the Right Arrow key to view the first item under Base Setting 6 Press the Down Arrow key several times until parameter PROGRAM lt i Sos ux oi PROGRAM Monitor gt gt PROGRAM GHz Parameterz c PROGRAM 5 Parameters Initial In i tial S Bic gt oo 4 Press Down Arrow xd 2 2 to view the second item under PROGRA MERU Do cs Cr Mr Parameters Setting Ba ze 2 FROGRAM MEHL HEL Frea Set Method FEF BI PROGRAM B A004 Max Frequency ABB Mar Freauencu appears Press x times GHz 7 Press the Change Data key to permit changing the data from the keypad The symbols gt and lt indicate Change Data is active CHANGE DATA FROGRAM MEHL B BHE Hd Mar Frequerrs 3 13 Program Mode 8 With the Change Data PROGRAM MENU operation pending use the a Baz T Left and Right Arrow keys to gt Mar Freauencu move the cursor to specific 2BpagouHzs digits Increment or decre ment a digit by using the Up Arrow or Down Arrow key
126. n parallel Remember to make the ground connection between all ports on the network Add network termination resistors see page 4 8 Limit the total number of devices to 32 for RS 485 Host Computer SC OPE Otherslave network master devices c UEM RS 485 4 wire network e EE O TX gt e T e 7 e TX 20 EET 4 RX o RX RX rs I GND GND Es 2 5 Guidelines to configure a 2 wire network Configure the host computer or controller as the network master The SC OPE s on the network are the slave s Remember to configure the SC OPE network port for 2 wire operation refer to page 2 26 continued next page 4 7 Setting Up a Network Interface The network master device or other devices on the network may also need firm ware configuration to 2 wire operation In this way each device on the network will not attempt to transmit and receive at the same time would cause a comm error Connect only the TX and lines of the SC OPE to the network That is connect its TX to TX RX connect its TX to TX RX This works only because the SC OPE automatically connects transmit and receive circuits to the two lines For wiring instructions of other network devices refer to the respective product documentation from the manufacturer But in general we can say Ifthe device h
127. nd when the counter is done turn control relay C34 ON SP116 C10 4 LD l A K101 Port Error LD K2 LDA 02010 RX V2010 Port Error Run Status C10 V2010 K20 TMR H mnm oom 50 Port Error TO C10 RST Attempt to read the Run Status register when a port error or communications error occurs Keep reading the run status reg ister until the comm error clears between the SC OPE and the Drive K20 is the value of the run status register when there is an error for SC OPE to inverter communications The following rung monitors communications for port errors after attempting to read the run status register CNT C5 Comm error counter CTO K5 Comm Error SC OPE to Counter PLC error CTO C34 OUT If errors persist then increment the counter 5 times When the counter is done turn control relay C34 ON to record the error for SC OPE to PLC communications Control relay C5 turns ON once normal communication is resumed to reset the counter 5 9 T a2 9 48 55 o lt 92 55 5 72 Using Networks for Inverter Operation 100 C100 LD K1 OUT Run Cmd write V3004 Start the inverter from input XO by loading the constant K1into V3004 run command register of the SC OPE K1 FWD K2 REV NOTE This example program uses separate Start
128. ng Codes Intelligent Input Terminal Setting Codes Code Description Code Description 00 FW Forward Run Stop 15 SFT Software Lock 01 RV Reverse Run Stop 16 AT Analog Input Voltage Current Select 02 CF1 Multi speed select Bit 0 17 Not used 03 CF2 Multi speed select Bit 1 18 RS Reset Inverter 04 CF3 Multi speed select Bit 2 19 PTC Themistor thermal Protection 05 CF4 Multi speed select Bit 3 20 Not Used 06 JG Jogging 21 Not Used 07 DB External DC Braking 22 Not Used 08 SET Set 2nd Motor 23 Not Used 09 2CH 2 Stage Accel and Decel 24 Not Used 10 Not Used 25 Not Used 11 FRS Free run Stop 26 Not Used 12 EXT External Trip 27 UP Remote Control UP Function 13 USP Unattended Start Protection 28 DWN Remote Control DOWN Function 14 CS Commercial Change 29 Not Used Intelligent Output Setting Codes Intelligent Output Terminal Setting Codes Code Description Code Description 00 RUN Run Signal 03 OL Overload Advance Notice Signal 01 FA1 Frequency Arrival Type 1 Signal 04 OD Output Deviation for PID Control 02 FA2 Frequency Arrival Type 2 Signal 05 AL Alarm Signal 0011 00LFS 2 2 gt 2 0 lt e Index A Allen Bradley DF1 2 19 4 2 host program example 4 28 B Bezel Kit 1 7 4 9 Bezel housing 2 13 Bias resistors 4 8 Change Data 3 12 Comm
129. ng transfer to the inverter s EEPROM QUICK Quick Menu 9 001 Freq Set Method MENU Programmable menu items Store to EEPROM 39 5 oa ao o gt FE 55 2 D o 29 Note The Store to EEPROM operation the Quick Menu simply causes the inverter to copy its working parameters in RAM to its retentive memory EEPROM In contrast the SC OPE s Read Write Menu provides the transfer of all inverter parameter settings to from the SC OPE 5 memory for transfer from one inverter to another copy unit function See Copying Parameters Between Inverters on 3 25 Using the Keypad for Inverter Operation Inverter Operation gt 5 D 2 Storing to EEPROM After any change to a parameter s value in the inverter s RAM an additional Store to EEPROM operation is required to permanently update the inverter s parameters so they are in effect upon the next inverter powerup Since the inverter uses the RAM data in real time only one Store to EEPROM operation is required before powerdown Note that each of the following operations edit parameter values RAM Program Mode editing any parameter value Monitor Mode incrementing decrementing the Output Frequency Setting F001 Monitor Mode changing the Hand Auto setting which updates the Run Command S
130. nnec tions with Direct Logic PLCs See Using Networks for Inverter Operation on page 4 1 Building or Factory Network Host computer PLC Note The SC OPE 3H network interface limits the J300 inverter to connecting to the Metasys N2 network only Introduction Conventions in with special meanings are accompanied with a symbol in the margin this Manual These include Note A Note calls attention to a detail that you may need to know to use the product a feature being discussed 5 CD amp zi Tip A suggests way to apply the product that you may find helpful in your application 1 Caution A Caution message informs you of the potential of a minor hazard or inconvenience in applying the product Warning A Warning message informs you of the potential of bodily injury or equipment damage gt gt Getting Started Getting Started Keypad Orientation MONITOR QUICK MENU PROGRAM RENE CHANGE DATA MODE READ WRITE STORE ENTER 5 CANCEL Monitor Mode displays important inverter data such as motor current in amperes or percent torque in percent and output frequency You can program which monitor values are displayed The Run command source and frequency setting sour
131. nnections are typically unused as the SC OPE is powered by the inverter For instructions on config uring the SC OPE network ports refer to page 2 26 RS 422 485 port configurations RS 485 2 wire RS 485 4 wire RS 422 4 wire Network Port RS 422 485 Connector Power Connections 255 Serial Port Connections GND 10 2 1 TX Vcc 9 2 TX 8 3 GND reserved 7 4 RX 6 T 5 RX 10987654321 S 9 mm 22 9 28 92 E 9 3x n Using Networks for Inverter Operation You will need to decide whether your network will be a 4 wire or 2 wire type If any device on the network is a two wire device or otherwise has combined TX RX lines then the network must be a 2 wire type Guidelines to configure a 4 wire network Configure the host computer or controller as the network master The SC OPE s on the network are the slave s Remember to configure the SC OPE network port refer to page 2 26 The master s TX and RX lines connect to the RX and TX lines on the slave s respectively In other words they cross TX master connects to RX slaves and TX master connects to RX slaves Each device on the network must have a unique address f you have more than one slave device wire all of them as a group i
132. nstant v Decel gt Decel 1 p Decel 1 s Decel 2 Decel Curve Curve Constant C 4 v Operation Frequency Stop Operation Pattern Y Multi stage Speed Process Advance 1 Process Advance 2 Process Advance 3 Process Advance 4 Process Advance 5 Process Advance 6 Process Advance 7 Process Advance 8 v Braking gt DC Braking gt DCB Enable Y DCB Type DCB Freq DCB Force start DCB Force stop DCB Time start DCB Time stop DCB Shutoff Time ise gt Regen Brake Ratio v Protection gt E Thermal E Thermal Char p V E Thermal Char s V E Thermal Level p E Thermal Level s E Thermal Current 1 E Thermal Freq 1 E Thermal Current 2 E Thermal Freq E Thermal Current E Thermal Freq 3 Y Overload gt Oload Limit level OLoad Limit Const OLoad Limit Acc J300 Inverter Program Menu List Freq Protect gt Min Freq Limit Max Freq Limit Jump Freq 1 Jump Freq 2 Jump Freq Jump Freq Width VIPS gt IPS Failure Time Y IPS Wait Time IPS Restart Op W IPS Tripping Other Max Freq Select W SW Lock Mode Y STOP Key Enable Operation Direction Rev Run Prevention Terminal gt Analog Input gt Analog Input Voltage Analog Meter Corr Ext Freq start Ext Freq end Ext Freq start Ext Freq stop U
133. nt of the attached inverter s modes These include Monitor Mode Program Mode Quick Menu Read Write Menu and Help The five corresponding keys provide immediate access to the respective mode you can jump from any of the modes to another with a single key press Powerup of the SC OPE always enters Monitor Mode The Mode key performs a fundamental role in mode selection by switching the SC OPE from its five normal modes to Configuration Mode and back to normal operation to Monitor Mode Inverter Operation gt 5 D 2 Manual Automatic Selection The Hand Auto key allows the operator to select the source device for the Start Run Command and the inverter frequency setting Suc cessive Hand Auto key presses sequence through a fixed set of selections Source devices include the SC OPE keypad and the inverter input terminals Parameter Editing The Change Data key Store Enter Key and Esc Cancel key work together to change inverter settings When using these keys in Program Mode you can change inverter parameter values When used in Monitor Mode you can change the output frequency controls motor speed of the inverter Motor Control The Start Run and Stop Reset keys provide direct control over the inverter s output These work independently of the SC OPE s five normal modes However you cannot run the motor when in Configuration Mode Orientation to Using the SC OPE EE SC OPE Th
134. omplete dis C120 cu cussion on the remainder of the settings and 25 related wiring diagrams network termination on E considerations etc C None 9600 Even 222222 3 19200 j Note The configuration edits do not affect the fe U SC OPE until you download the new configura K A tion to the SC OPE To configure the network port by using the SC OPE keypad 1 Press the Mode key for 4 seconds to place the SC OPE Contis Transfer Mode Maitins for FC in Configuration Transfer Press MODE kes far Mode DConfisuration menu 4 seconds 2 27 SC OPE Configuration Editing 2 Press the Mode key again briefly to get the Configu Confisuration Menu ration Menu Inverter Fort Cfa 3 Press the Down Arrow Confisuration Menu key once to view the second list item Network Port Cfg a Het Har k Far SS 4 Press the Right Arrow key to view the Network Port gt DConfisuration Menu Cfg sub menu list Hetuork Frofocol Modbus 5 Access the desired network port attribute item by using the Up and Down 5 o m D e E uoneunByuo pue arrow keys The list includes Network Protocol factory network Network Address node address 1 to 255 Network Port Type RS 232 RS 485 2 wire RS 485 4 wire RS 422 4 wire Network Config baud rate Network Config data bits Net
135. on dialog boxes You will have the choice of the install directory destination and program folder 8 Click Finish when the installation is com plete and remove the CD ROM from the drive Lookin 8 010323 1000 FJ amp ei program files instmsia insmsiw setup Filename setup Open Files of ype Programs a Cancel SC OPE 3 Configuration Editor InstallShield Wizard Welcome to the InstallShield Wizard for DY SC OPE 3 Configuration Editor The InstallShield R Wizard will install SC OPE 3 Configuration Editor To continue click Next WARNING This program is protected by copyright law and international treaties CEER ca SC OPE Configuration Editing 2 21 Optional To create a desktop shortcut to the Configuration Editor 1 On the desktop right click and select New gt Shortcut from the menu 2 In the Create Shortcut dialog box click Browse 3 In the Browse dialog box navigate to the installation directory Example Hg aie z gi ci C Program Files Hitachi Scope mos 4 Click select the Editor file and click Open Filename Editor Open Files oftype n 5 In the Create Shortcut dialog box click Next uonejejsu 6 In the Select a Title for the Program dialog Box enter a name such as Scope 3 Editor and click Finish The new shortcut will be on the desktop SC OPE 3 Editor o 5 e E
136. one direction of rotation However using the SC OPE you can program the inverter for either forward or reverse rotation in response to the Run FWD command Start Run key action Inverter parameter 2004 keypad Run Key Routing can be set to FWD or REV in the inverter This setting does not affect the inverter s response to run commands from other sources such as intelligent inputs or network commands Caution In HVAC and pump applications the motor is generally restricted to operate in one direction only If your SC OPE is already integrated into a control system by an OEM changing the sense of direction for the Start Run key may damage equipment run by the control system To configure the inverter direction via the Run key routing setting 1 Press the Program Mode NEN key to enter Program Mode PROGRAM MENU PROGRAM B Hz Monitor gt gt 2 Press the Down Arrow key PROGRAM MENU MEHL to reach the Parameters menu a aHa item Parameters 3 Press the Right Arrow key PROGRAM MEHL to enter the Parameters sub gt a aHa menu list Initial E gt 4 Press the Down Arrow key several times until you reach the Operation menu item FROGREAM MEHL A BHE ration Th gt gt several times 5 Press the Right Arrow key 2 to enter Operation Sub PROGRAM gt B BHz menu list AGES
137. onnect to mis align 2 SS 5 5 D 55 5 20 To 6 along top edge to complete the SC OPE installation in the inverter A proper installation will leave no gaps between the SC OPE and the inverter front panel as shown below Press Press Press Press 2 7 Mounting the SC OPE to an Inverter 7 To remove the SC OPE from the inverter press the retention latch at the top on the SC OPE housing One tech nique is to grasp the SC OPE at the bottom edge and use the thumb to press the retention latch as shown uoneinByuoD pue uonejejsu 8 Disengage the bottom retention latches and remove the SC OPE uniformly in order to avoid mechanical binding Installation 5 2 je 9 o c Installation Configuration Panel Mounting the SC OPE The SC OPE will be panel mounted in most applications Panel mounting provides convenient operator access to inverter control while protecting the inverter inside an enclosure control panel Also mounting the SC OPE remotely from the inverter is required in network application to facilitate network wiring and termina tion You will need a Bezel Kit to panel mount each SC OPE device 0 We recommend initial mounting of the bezel housing without the SC OPE keypad This protects the electrical components from dust debris and unnecessary handling
138. ons as shown READSMRITE 9 Press the Down Arrow key to select E Fens SEREEN Take Write EEPROM Data 10 Press the Store Enter key The Writing Inverter State message will display for a few seconds The copy operation is complete You have copied one inverter s entire parameter set to another inverter Those parameters are still in the SC OPE s EEPROM so you can connect the SC OPE to other destination inverters to update their parameters in the same way 3 27 Monitor Monitor Orientation Inverter Variable Monitoring The SC OPE s Monitor Mode is designed for operators to monitor important inverter data and control status during normal day to day operations Equipment operators and technicians will typically leave the SC OPE in monitor mode at all times until the need to change a parameter value arises The screen layout in Monitor Mode consists of dedicated text field locations as shown below The upper two lines display inverter variables The field locations have reference numbers so you can configure which inverter variable is displayed in each field The third line displays the current source of the Run Command and the main Frequency Setting The fourth line displays the inverter status and the current control source for the SC OPE keypad or network connection The Monitor Mode screen below shows the inverter in a normal stop condition Inverter monitor parameters
139. op J Kes Ciril Frequency source is Operator Keypad OPE forcing the display of desired and actual output frequencies Program Mode provides access to change the four variables you can display on the 5 5 8 upper two display lines The figure below shows the location of the Monitor Vars submenu within the menu list in Program Mode 25 o5 Program Mode gt Monitor Var 1 1 e Var 1 2 3 Var 1 3 PROGRAM Var2 Monitor 3 29 1 Press the Program Mode key Monitor Vars is at the top of the Program Mode menu list normally displayed first unless a prior Program Mode session is active To configure the Monitor Vars 2 Press the Up and Down Arrow Keys if necessary to access the Monitor Vars item 3 Press the Right Arrow key to enter the a PROGRAM MODE Monitor Vars sub menu The example display to the right shows that Wok 1 1 setting for Var 1 1 is Output Current BillutEut Current CA3 4 Use the Down Arrow key to scroll to the other Monitor Vars items if necessary 5 Press the Change Data key to change a T particular Monitor Var The gt and lt PROG characters indicate Change Data is active Wok 1 1 2Dutgut Voltase KIs 6 Use the Up Arrow and Down Arrow keys to scroll through the list of available 22
140. ory register V2000 Port Error SP116 co C10 LD K101 LD K12 LDA 2005 RX V2005 CO SET C5 OUT Port Error SP116 co C10 LD K101 LD K8 LDA 03004 WX V2004 CO L RST The LD box designates the bottom port of the DirectLogic CPU as master and specifies address 1 as the slave address The last digit 1 cor responds to the number of SC OPEs devices on the network LD box specifies the amount of data to be read in bytes K12 specifies 12 bytes or 6 words LDA box specifies the destina tion of the values being read Read from V2005 in the RX operation the preset frequency according to the register map This rung writes values to the SC OPE We are loading the values from V3004 in the DL250 CPU and moving them into V2004 in the inverter Connecting to DirectNet Network The following rung helps to ensure the PLC is reading valid data It utilizes the fact that if either the comm port of the inverter the SC OPE s inverter port or the cable between the SC OPE and the drive has a fault error the only register that will not fail communications to the PLC is the Run Status register When a port error occurs we will attempt to read this register A read failure indicates the problem is between the PLC and SC OPE In this event increment a counter five times a
141. ource Setting A002 and or the Frequency Source Setting A001 Caution Any keypad operation in Program Mode or Monitor Mode can only change parameter value s in the inverter s RAM In order for the inverter to resume operation after a power cycle by using your latest parameters it is essential to perform a Store to EEPROM operation before leaving the SC OPE and inverter To perform a Store to EEPROM operation 1 Complete any desired parameter edits will be in inverter s RAM 2 Press the Quick Menu key QUICK QUICK 22 H BHz MENU Beni Frea Set Frea BIEHTER 3 Press the Down Arrow key as needed to reach the bottom Bul 4 of the Quick Menu list for the Z Store a EEPRDH Storeto EEPROM menu item BIEHTER press as or press the Up Arrow key list navigation 15 also rotary in design 4 Press the Store Enter key to move store parameters Bul Ee as from the inverter s RAM to ENTER Store ta EEPROM its EEPROM The status B ztorima data Storing data displays for a few seconds When completed the parameter values will then be in the EEPROM used in the next powerup of the inverter Quick Operation EZ Quick Menu Edit Some Quick Menu selections write data to the inverter s EEPROM usually Permissions requiring the inverter to be in Stop Mode These Quick Menu selections are Read Write Menu Write EEPROM Data operation edit permi
142. ower Failure Signal 22 DSE Speed Deviation Maximum 09 UV Under voltage Signal 23 POK Positioning Completion 10 TRQ In Torque Limit 24 FA4 Frequency Arrival type 4 over frequency 2 11 RNT Operation Time Over 25 5 Frequency Arrival Type 5 at frequency 2 12 ONT Plug in Time Over 26 OL2 Overload Advance Notice Signal 2 13 THM Thermal Alarm Signal d00 00 5 Z 2 gt 2 o 0 e n 2 Oo S 5 OD 9 e Se os 2 57300 L300P Building Network Register Maps Metasys N2 Point Map This section is for interfacing the SC OPE 3H to a Johnson Metasys N2 building network commonly used in HVAC applications The following table contains the Network Point Type NPT Network Point Address NPA Engineering Units Units Point Description Range Value and Notes for each point supported in version 1 06 of the SC OPE 3 for the Hitachi SJ300 L300P series inverters pare Adjust NPT NPA Units Point Description Range Value Override Al 1 Hz Current Frequency D001 0 400 x Al 2 Hz Preset Frequency F001 0 400 x Al 3 A Output Current Monitor 0002 0 6553 5 x Al 4 PID Feedback Monitor D004 0 99999 99 x Al 5 Frequency Conversion Monitor 0007 0 99999 99 x Al 6 Torque Monitor 0012 SJ
143. owing registers will be read Address Data Contents N7 5 Preset Frequency N7 6 Acceleration Time N7 7 Deceleration Time N7 8 Run Status 6 In the Local Node Addr dec field enter the node address in decimal of the targeted SC OPE on the network for this MSG instruction When using network control of the inverter the SC OPE maps translates network commands to specific inverter parameters When writing your host computer control program you will need a map of network registers and inverter parameters Please refer to Appendix D and Appendix E for network register maps Note For help in creating the ladder program for your application please refer to your Allen Bradley PLC documentation or distributor support e 9 a 22 9 28 92 55 5 n Using Networks for Inverter Operation Connecting to a Metasys N2 Network The SC OPE 3H can provide an interface for Hitachi SJ300 L300P inverters to Johnson Controls Metasys N2 network Metasys N2 is a building automation network used for HVAC power management security etc Physical Bus The connections for the N2 Network are located on the network port connector at Connections the bottom of the SC OPE 3H The diagram below shows the connections from the SC OPE to a MetasysN2 network which is the 2 wire type Host Computer SC OPE Metasys N2 network master devices 1 RS 422 485 ran
144. place the SC_OPE 3 in Config Transfer Mode dialog box appears which reminds you of hold down the MODE key until Config Transfer Mode message appears transfer setup details Click OK Press Ok when ready Cancel 3 The Download SC OPE Configuration windows shows the transfer progress When Starting Download complete click OK Starting Configuration Mode continued next page A Download Complete Installation Configuration When you have changed the inverter type in Download SC OPE Configuration a configuration such as from L100 to Starting Download SJ100 a configuration download Starting Flash Download Mode Downloading Buffer 1 of 8 includes inverter specific firmware for the Downloading Buffer 2 of 8 SC OPE The status message Starting Flash Download Mode followed by Buffer 1 of 8 etc indicates the new inverter specific firmware is downloading The SC OPE shows the buffer block number which is currently loading ITI Note Configuration uploads do not include LES inverter specific firmware The Editor installation already contains all inverter Installation specific firmware files in its subdirectory c 5 5 e je named Download 4 After downloading the configuration you may want to return the SC OPE to normal operation from Configuration Mode Press the Mode
145. r menu item 7 Press the Right Arrow key to enter the Other sub menu The first item is the Direction Restriction parameter 8 Press the Change Data key to enable the Change Data function 9 Use the Up Arrow and Down Arrow keys to scroll through the available set tings Free REV FWD Most applications will be set to REV to disable the Run REV command FROGREAM MEHL A BHE Initial B 5 MEHL A BHE Protection i gt gt FROGREAM MEHL E Th ermal FROGREAM MEHL Other gt gt PROGRAM B BOSS Dir Restrict BFFEE FROGREAM MEHL BHE Dir Restrict gt lt FROGREAM MEHL BHE Dir Restrict SREM 4 e Setting Up Network Interface FROGREAM MEHL STORE A ENTER BOSS Dir Restrict HRE 10 Press the Store Enter key to accept the entry 11Press the Monitor Mode key The display will prompt you to save the change made MONITOR Store to EEPROM in Program Mode to the STORE CANCEL inverter s EEPROM 7 Inverter Faramererz hove been chanased 12 Press the Store Enter key NUN VENERE NOR te aramererz to save the parameter change A ibid STORE hove been charsed to the inverter s retentive ENTER Store to EEPROM memory EEPROM
146. ram Menu List o 5 5 ee 52 5 fe Monitor Vars Parameters Note Parameters with an asterisk are available only on the SJ100 not L100 gt gt Initial v Base Settings v Speed Jogging gt VAR 1 1 W VAR 1 2 W VAR 1 3 WVAR2 gt Debug Mode Sel Run Key Routing Init Mode Country Code Voltage Class Code gt Freq Set Method Run Set Method Base Frequency 2nd Base Freq Max Frequency 2nd Max Freq AVR Function AVR Voltage Carrier Freq gt Multi Speed 0 2nd Multi Spd Multi Speed 1 Multi Speed 2 Y Multi Speed 3 Y Multi Speed 4 Multi Speed 5 Multi Speed 6 Multi Speed 7 Y Multi Speed 8 C091 F004 B084 B085 A001 A002 A003 A203 A004 A204 A081 A082 B083 A020 A220 A021 A022 A023 A024 A025 A026 A027 A028 v VIF Character v DC Braking v PID Control v BRD Multi Speed 9 Y Multi Speed 10 Multi Speed 11 Multi Speed 12 Multi Speed 13 Y Multi Speed 14 Y Multi Speed 15 Y Jogging Freq Jogging Mode gt Torq Boost Sel 2nd Boost Man Boost 2nd Man Boost Man Boost Freq 2nd Man Freq V F Curve 2nd V F Curve V F Gain DCB Selection DCB Frequency Y DCB Wait Time Y DCB Force DCB Time PID Function W PID P Gain PID Gain PID D Gain PV Scale PV Source PID Deviation B
147. rectory the Editor uses when EN you click File gt Save Click Browse to nav igate to the directory of your choice 3 The Inverter Firmware Directory is the directory within the Editor installation on your PC which contains SC OPE firmware versions specific to inverter families Change this directory ONLY if you have obtained SC OPE firmware files and located them in a directory different from the default installation directory 4 Click Default if you want to restore the directory paths to the original ones in the Editor installation 5 Click OK to save the options for the Editor c e 19 E and Configuration Installation and Configuration Printing a Configuration Viewing Multiple Configurations You can print the settings which comprise a configuration This feature is handy for creating project documentation To print a configuration 1 From the Configuration Editor menu click File gt Print 2 In the Print dialog box change any settings as needed and click OK In applications using multiple SC OPE devices and configurations you may have multiple configurations open in the Configuration Editor Each open configuration file will have its own window To manage multiple configuration file windows in the Configuration Editor 1 From the Configuration Editor menu click Window gt Tile or Window gt Cascade or Window gt Arrange icons to display the configuration windows in
148. refully stretch the O ring around the SC OPE and situate it in the perimeter stepped channel as shown below right 2 13 DIN Rail Mounting the SC OPE 4 Insert the SC OPE into the bezel housing You can use the square modular con nector and corresponding opening to verify the orientation of the two parts Begin with the SC OPE bottom edge as shown below left engaging the two internal latches at the bottom of the bezel housing 5 Tilt the top of the SC OPE into the bezel housing and latch below right Tilt in and press to latch Insert and latch bottom edge first 6 Attach the two DIN rail clips using the two 1 1 4 x 4 40 screws included in the Bezel kit Be sure to orient the clips with the hooked ends pointing upwards as shown below left This will allow you to hang the SC OPE from the top edge ofa DIN rail and press against the rail to latch in the bottom edge as shown below right Top edge Bottom edge uoneinByuoD pue 5 A D e 5 EZ Installation and Configuration 7 Mount the SC OPE to the DIN rail First hang the tops of the DIN rail clips over the top edge of the rail Then push inward on the lower part of the bezel housing to latch the SC OPE to the DIN rail Press in to unlatch from rail SC OPE 3H e Installation 550 nj 5 2 je o c Press in to atch to rail 8 Removal o
149. ressing the Store Enter key will be the same as pressing the Esc Cancel key the gt lt edit cursors disappear and the value dis played returns to the original actual parameter value in the inverter after editing the value Edit allowed es STORE FROGEAM MODE Abbe Freauencaug STORE ENTER MODE A Abie Freauencua 45Hz ______ 2 Edit prevented A Abie Frequencies uonejedo JeyeAu o 5 p t h Using the Keypad for Inverter Inverter Operation gt D ic 2 Stopping the Motor Before Storing Edits SJ100 L100 When you edit one or more parameter values and exit Program Mode the SC OPE will first prompt you to store the changes to the inverter s EEPROM If the motor is running at that time the inverter SJ100 L100 series only will need to stop the motor before performing the memory update Rather than simply apply a free run stop the SC OPE will prompt you to stop the motor applies controlled deceler ation You can also choose to cancel the storing of parameters which leaves the motor running upon exiting Program Mode Inverter Parameters hove been chanased Store to EEPROM STORE 4 C
150. rotocol Group set the Control Line field to No Handshaking Set the Error Detection field to 8 Set the Embedded Responses field to Enabled 9 Click enable the Duplicate Packet Detect check box The ladder program in your project will need an MSG instruction for each commu nications transaction with each inverter on the DF1 network To configure an MSG instruction for inverter communications 1 In RSLogix use the Input Output instruction list to find the MSG instruction 2 Insert the MSG instruction in your ladder MSG program Remember to include logic to Read Write Message F ensure the MSG instruction executes only Type Peer To Peer Read Write Read when needed and not on each scan Device PLCS m T Local Remote Local 3 In the Type field choose Peer to Peer Control Block N7 50 Control Block Length 14 Setup Screen S 9 mm 22 3 28 92 E 9 33x n Using Networks for Inverter Operation 4 In the Read Write field select Read to read data from the inverter or Write to write data to the inverter via the SC OPE 5 In the Target Device field select PLCS The SC OPE s DF 1 protocol uses the PLCS type 6 In the Local remote field choose Local The MSG instruction includes an embedded setup screen for data not shown directly in the ladder program To configure the Setup Screen for each MSG instruct
151. rovides a way to exit a menu item or cancel a pending data change operation LED Indicators HELP START RUN 2 A V Keypad Orientation The Help screen displays user configurable text such as contact infor mation for technical help or application assistance The Start Run key sends the Run Fwd command to the inverter to run the motor The inverter must be configured to use the keypad as the Run command source quickly done by using the Hand Auto key peueis Bue The Stop Reset key will cause the inverter to stop the motor if it is run ning When a trip condition exists the Reset function will clear the trip condition for normal inverter operation if the cause of the trip has been eliminated The Hand Auto key provides a way to quickly change the Run command source terminal strip or SC OPE keypad and to change the Frequency Setting source terminal potentiometer input or keypad The Arrow keys provide a way to select menu functions or move the gt display cursor while editing parameters Warning The Stop Reset key on the SC OPE is not a substitute for an Emergency Stop push button Always include a mechanical Emergency Stop switch within easy reach of an operator in your application The Power LED is ON whenever the SC OPE has power The inverter directly powers the SC OPE in most applications so the LED also indicates the presence of inverter input power The R
152. rter Operation gt D ic 2 Parameter edits Changes the value of usually one inverter parameter in RAM The inverter will operate with this changed value but it will not be retained during inverter power loss Store to EEPROM Copies the inverter s RAM image of all parameters to its EEPROM This step is necessary for any parameters edits to be retained upon the next powerup of the inverter Powerup Automatically copies the inverter s EEPROM parameter image to its RAM where it is used in motor control and to receive operator parameter edits nitialization This operation restores factory default parameter values in the inverter by copying them from its firmware permanent memory to its EEPROM retentive memory and RAM working memory This operation is available in the Program Menu Quick Operation Quick Menu Operation The Quick Menu in the SC OPE is a time saving feature designed to group the most often used parameters for monitoring or programming for the operator Accessible with a single key press Quick Menu key the menu item list can contain up to 32 programmable items The last item on the Quick Menu list is fixed and special in that it enables you to apply any data changes to the inverter You may accumulate data changes edits in either Program Mode or when using the Quick Menu These accumulated changes will be in the inverter s RAM and are pendi
153. sceiver 2 2 wire network E TX N2 e E Ne aa Ref e e GND Remember to add a termination resistor at each physical end of the network or verify that the device at the end has internal termination Bias resistors are also important See Network Termination on page 4 8 SC OPE 3H The following list describes the SC OPE 3H communications behavior on Metasys Implementation N2 networks Notes for N2 The overriding of AI and BI points is not supported Overrides of AI and BI points will be acknowledged However the Override Value will be ignored and the Override Flag will not be set n e 2 gt 2 9 E 2 2 for Inverter Operation Out of range values on overrides of AO ADI and ADF points will receive a neg ative acknowledge NAK response 4 33 Connecting to Metasys 2 Network Certain ADI and ADF points contain read only values and cannot be overridden These particular points are noted in the following Point Table Overrides of these ADI and ADF points will be acknowledged but the Override Value will be ignored and the Override Flag will not be set When an override is released the point value will remain at the current Override Value and will not revert back to its value prior to the override This rule applies to all point types The appendices contain a network point list for Johnson Controls Metasys N2 See SJ30
154. ssion required for all inverters Store to EEPROM only SJ100 L100 inverters must be in Stop Mode Note that these operations do not rely on the Software Lock Mode SFT intelligent input or related conditions This is because the inverter s RAM which contains working parameters while running is not affected in an EEPROM write operation J300 L300P and SJ100 L100 inverters WRITING Inverter in INVERTER STATE READS WEI kia gt Read EEPROM Data 6 gt Write EEPROM Data display for 5 seconds 5 Inverter in STOF MOTOR BEFORE Q A RUN MOJE WRITING EEPROM DATA E 5 J100 L100 inverters only BUICK Inverter in z4 B EE op Mode Shore to B torins data BUICK Store to EEPROM ENTER Enter GUICK B GHz SUPR Store to EEPROM BStor motor first 3 22 Using the Keypad for Inverter Operation Inverter Operation gt 5 D 2 Quick Menu Standard Items Configuring the Quick Menu ay The remaining Quick Menu items represent a subset of the inverter s parameters For example the second default item in the Quick Menu is shown in the display Changing a parameter value in the Quick Menu is easy the procedure is the same as the one in Program Mode described previously in this chapter Just use the Change Data key Store Enter key and Esc C
155. st Watchdog Timeout Action Software gt gt Operator Access Lock Y SW Lock Mode Configura gt ENTER tion Mode Reset KW gt Hours 5 300 L300P Network Register Maps In This Appendix page 5 300 and Factory Network Register Maps 2 Bit level Definitions for Factory I O Registers 13 5 300 and L300P Building Network Register Maps 18 puz 45 peloeleS JololN Jo sy 0009 uoneJejeoeq NH NH LN 2002 80007 5 5 IOON Jo sse p1eBes Sy 0009 uoneJe eoov 9 43 9002 20007 pag PUZ 15 5 JoloN Jo sselple6ey ZH 10 00007 0 4 600 90007 pug UNY Z 246 peloeleS JoloN pemo Jo ssejpieBes plleA oueunwN dolS 0 puewwod uny SIUM VN 002 50007 sieAup 19 6uleq WOMd33 1 eAup Aue 5810 5 Joyuoui IIM 0 9 2105 VN SM 00ZA Buluuny enuluoD 2 JOJUOD YOMJON Buiuunu si Jolow pue x1owjeu ol JON puy JoloN slqeolldde Aluo 0 06 q
156. status of the Software Lock Mode or other ae conditions prevent the editing of these parameters pressing the Hand Auto key will cause the SC OPE to display the message shown to the right Use the checklist to verify that conditions allow parameter editing displayed for 5 seconds Hand uto HOT ALLOWET CHECK Pat us BHzi un or mi SFT OFF Inverter Operation gt D 2 Using the Keypad for Inverter Operation Restoring Factory Default Inverter Settings The parameters in new inverter will already match the default values applicable for your country However you may eventually need to initialize an inverter s parameters just to establish a starting point for troubleshooting etc The initializa tion procedure will restore inverter parameters to their factory default values clear trip history information or both Parameter initialization makes use of a country code setting Japan the U S or Europe for slightly different parameter values Note This initialization procedure applies only to SJ300 and L300P inverters Initializing SJ100 L100 inverters requires disconnecting the SC OPE and using the inverter 8 keypad The J300 inverters require an input signal on terminal STN Follow the initialization procedure in each inverter 8 instruction manual The initialization functions are accessible in the Program Mode menu T
157. t Y Overload Frequency E Therm Level 2nd E Thm Level 3rd E Thm Level 1st E Thm Char 2nd E Thm Char 3rd E Thm Char E Thm Freq 1 E Thm Current 1 E Thm Freq 2 E Thm Current 2 E Thm Freq E Thm Current Thermal Warning gt OLoad Method OLoad Level OLoad Const OLoad Method 2 OLoad Level 2 OLoad Const 2 Adv Notice Mode Adv Level OL Adv Level OL2 gt 151 Frq Upr Lmt 2nd Lmt 1st Lwr Lmt 2nd Lwr Lmt Jump Freq 1 Jump Width 1 Jump Freq 2 Jump Width 2 Jump Freq Jump Width 3 Accel Stop Freq Accel Stop Time 012 212 312 B013 B213 B313 015 016 017 018 019 020 061 021 022 023 024 025 026 C040 C041 C111 A061 A261 A062 A262 A063 A064 A065 A066 A067 A068 A069 A070 J300 L300P Inverter Program Menu List V IPF Restart gt Retry Selection B001 Failure Time B002 v Retry Wait Time 003 gy Trip During Stp B004 59 Retry Time Sel 005 Open Phase Sel B006 2 Y Freq Set Match 007 E N Stop IPF Sel 8050 N Stop Strt Vit B051 OV LAD Stop Lvl B052 Y IPF Decel Time B053 WV IPF Decel Width B054 W Resume FRS Mode 088 Stop Mode Sel B091 Torque Limit gt Limit Sel B040 Limit1 F D B041 Limit2 B042
158. t do not have a front panel keypad bay for mounting operator interface devices A Yes but you will have to mount it remotely and use a communications cable to connect the SC OPE to the inverter Order the bezel kit SC OPE3BK which includes a bezel housing and the necessary communications cable Q Can I install or remove a SC OPE 3H in an inverter while it is powered A No we recommend that you power off the inverter while installing or removing a SC OPE from an inverter This precaution applies to any connection on the rear connector of the SC OPE So this includes connecting discon necting the SC OPE to the inverter via an interface cable Q Can I connect or disconnect the SC OPE 3H to a PC while the inverter is powered A Yes the RS 232 connection to the PC is designed to connect or disconnect while powered Q When using the SC OPE with a connection to a PC must I always have the SC OPE connected to an inverter to get its power A No the SC OPE s bottom connector 10 pin will accept external 5V power from a supply you provide Make sure it is regulated 5 power 5 But in most situations the SC OPE will get its power from an inverter Note that you must never connect the SC OPE simultaneously to an inverter and another power source Frequently Asked Questions Q Can I use the same SC OPE hardware for SJ100 L100 5 7300 L300P and J300 inverter series A The same SC OPE hardware is appli
159. t7 14 CS Commercial Power Source 39 OLR Overload Restriction 15 SFT Software Lock 40 TL Torque Limit Enable 16 Analog Input Voltage Current 41 TRQ1 Torque Limit Selection Bit 1 Selection a 17 SET3 Set 3rd Motor Data 42 TRQ2 Torque Limit Selection Bit 2 E gt 18 RS Reset Inverter 43 PPI Proportional Proportional Integral E Mode Selection gt 19 Not Used 44 BOK Brake Confirmation 9 x 20 STA Start 3 Wire Interface 45 ORT Orientation Home Search 0 E 21 STP Stop 3 Wire Interface 46 LAC LAD Cancel 2 22 F R FWD REV 3 Wire Interface 47 PCLR Position Deviation Reset 23 PID PID Disable 48 STAT Pulse Train Position Command Input Enable 24 PIDC PID Reset 25 Not Used 255 NO No Assignment to Terminal Intelligent Output Setting Codes D 17 Bit level Definitions for Factory I O Registers Intelligent Output Terminal Setting Codes Code Description Code Description 00 RUN Run Signal 14 Not Used 01 FA1 Frequency Arrival Type 1 15 Not Used constant speed 02 FA2 Frequency Arrival Type 2 over 16 Not Used frequency 03 OL Overload Advance Notice Signal 1 17 Not Used 04 OD Output Deviation for PID Control 18 Not Used 05 AL Alarm Signal 19 BRK Brake Release Signal 06 FA3 Frequency Arrival type 3 20 BER Brake Error Signal at frequency 07 OTQ Over torque Signal 21 ZS Zero Speed Detect Signal 08 IP Instantaneous P
160. ter These can also run and program the inverter During network control the SC OPE s keypad will be prevented from editing parameters or running the motor in order to avoid a conflict with network host commands The diagram below illustrates control via keypad or network Factory Network Ed or Building Network Network Port Network Host The SC OPE s control method setting is fundamental g A and very important to know MONITOR 0 Its default setting is Keypad Horm Control displayed in Monitor Mode in the corner of the display It is not necessary to change this setting unless you have a factory network connection and want the network host to control the inverter ti A Ll 18 Control method setting To change the Control Method setting 1 Press the Program key to enter Program Mode PROGRAM PROGRAM El BHz ors 2 Press the Down Arrow key NEM four times to arrive at the PROGRAM BH Network Control menu item 572 Hehwork Control Er 4 times 222222 m Inverter Operation from the SC OPE Keypad EN 3 Press the Right Arrow key to access the first item on the Network Control menu Control Method 4 Press the Change Data key The gt and lt characters indicate Change Data is active 5 Press the Down Arrow key to select Ne
161. tion and bias resistors This board Network Termi is a component in the Bezel Kit Your network will need termination at the device nation Board on each physical end of the cabling A wiring procedure is on the following page 10987654321 p Network Port RS 422 485 Connector SC OPE Bezel Housing Assembly keypad facing down Connector Plug terminal screws facing down Network Termination Board component side facing up To install a Network Termination Board 1 Mount the SC OPE 3H in the bezel housing and secure the SC OPE assembly as outlined in Chapter 2 Installation S 9 mm 22 9 28 55 5 n 2 Ensure the SC OPE location will be at one physical end of the network cabling 3 Locate the Connector Plug and Network Termination Board in the Bezel kit Refer to the wiring diagram on the previous page Use wires approximately 2 long to connect the Network Termination Board TB 2 connector to the Connector Plug Take care to orient the two components as shown board is component side up con nector block is screw terminal side down continued next page Using Networks for Inverter Operation 4 Plug the assembly into the network connector at the bottom of the SC OPE 5 Attach the network wiring
162. to the Network Termination Board Note A host computer or another device besides the SC OPE may be at one end of EI some networks In this case please refer to the device manufacturer 8 instructions regarding network termination Some devices have internal termination resistors that may be connected disconnected with jumpers 2 2 Tip If needed you can use a Network Termination Board as termination for a T device other than a SC OPE First be sure that device does not already have built in termination resistors 7 e 9 for Inverter Operation Configuring Network Control of Inverter Setting Up a Network Interface Network Control Setting The SC OPE configuration contains the Control Method Setting which determines whether the Ens ORE Fra SC OPE keypad the factory network Horm Stor fC Het Ctrl commands received are in control of the inverter Use Monitor Mode to view the current setting as shown After you have connected a network host to the SC OPE and you are ready to try network control it will be necessary to change the Control Method Setting to Network Net Ctrl See Selecting Keypad or Network Control on page 3 4 Inverter Network Host Computer Hm Factory Network or building network Network Port Control Method Setting Hand Auto Setting When receiving and
163. two screws on the back of the bezel housing below left 5 7 o D 5 2 While ensuring the SC OPE does not fall freely of the bezel housing press gently on the modular connector from the rear of the unit as shown below right This will unfasten the upper latch in the bezel housing 2 e ES E 2 Installation Configuration DIN Rail Mounting the SC OPE The SC OPE can be mounted to a DIN rail as shown This option is ideal for mounting in a panel when use of the keypad is primarily for service technicians rather than machine operators The required bezel housing and DIN rail clips are included in the Bezel Kit To mount the SC OPE to a DIN rail 1 Secure the DIN rail to a solid surface 5 Attach the DIN rail fasteners not included M at the points shown to keep the DIN rail from twisting when installing removing the SC Installation nj 5 2 je o c Ensure the space available has adequate clearance for the SC OPE bezel housing Ensure keypad access will be suitable for a Recommended technician or operator attachment points 2 Locate the O ring seal in the Bezel Kit components and orient it as shown below left The seal ensures a tight fit between the SC OPE and the bezel housing 3 Ca
164. twork or the Up Arrow key to select Keypad see note below CHANGE DATA MEHL BHE Control Method V FROGREAM MEHL A BHE Control Method n PROGRAM SHS Control Method 2Hetuorkz Note For the purpose of following the discussion in this chapter leave the Control Method setting at Keypad If you want a network host to control the inverter set Control Method to Network and refer to Chapter 4 for network control material 6 Press Store Enter to accept the new selection or Esc Cancel to abort the edit 7 Press the Monitor Key to return to the default powerup mode of the SC OPE The Control Method setting will be displayed in the corner of the display MONITOR Control method setting FROGREAM MEHL Control Method 39 5 ao os FEE 55 go 9 58 Q Inverter Operation gt 5 D 2 Using the Keypad for Inverter Operation Choosing the Direction of Rotation The SC OPE 3 has Start key for operator initiated rotation of the motor Pressing the Start Run key causes the SC OPE to send a Run FWD command to the inverter Initiating a Run Rev command is not available from the SC OPE 3H keypad HVAC and pump applications generally require
165. until the bezel housing installation is complete To mount the SC OPE into a control panel or operator panel 1 Use the dimensions in the diagram below to mark the cutting and drilling loca tions on the panel Dimensions are in mm inches format 8 137 5 39 Panel opening Mounting hole dimensions 123 4 84 y dia 4 0 16 a 4 places for Aa OF amp He 6 32 x 1 1 4 screw 143 5 63 l 133 Bezel housing 5 24 thru panel 141 5 55 dimensions iq 121476 __ l 40 04 NO RE 1 0 04 M Clearance SC OPE to panel opening perimeter 28999 Note sure proper clearance behind the SC OPE mounting location exists and U that the cable from the inverter will be long enough to reach the mounting location Panel Mounting the SC OPE An example panel cutout is shown to the right sure cutout lines are level and square with the control panel edges Clean any debris from the edges and holes before proceeding 2 Place the gasket included in the Bezel Kit around the inside perimeter of the bezel housing as shown Align the holes in the gasket with the ones in the corners of the bezel housing This gasket provides a seal between the bezel housing and the panel s front surface 5 o o5 5 a 5 e 5 Tip We recommend installing only the bezel housing into the panel at this point The SC OPE will be installed into the bezel housing l
166. uration Editor to configure the inverter type a Download Configuration operation will automatically load the appropriate firmware to the SC OPE In the cases of 1 and 2 above you can change between the two corre sponding inverter types that share the same firmware by using only the SC OPE keypad for example 5 00 and L100 This provides some flexibility without having to use the Configuration Editor in every inverter type change A change of firmware always requires the use of the Configuration Editor however When staying within the same firmware type you can use the SC OPE keypad for conve nience Installation c 5 5 e je This section shows both methods for configuring inverter type To change the inverter type selection by using the Configuration Editor 1 In the Inverter type Selection group click the Setup button Inverter Type 2 In the Inverter Type Selection dialog box use the pull down menu to select the inverter type you want the SC OPE to target for communications J300 Series Inverter L100 Series Inverter 50100 Series Inverter Series Inverter eries Inverter Note You can configure the SC OPE for an inverter type belonging to a different EJ firmware set than the type of inverter currently connected to the SC OPE However remember that SC OPE operation will be restricted to Configuration Mode until its firmware matches the type of inverter
167. ust OI Zero Adjust O2 Zero Adjust gt Output Term 11 Output Term 12 Output Term 13 Output Term 14 Output Term 15 Alarm Output FM Selection W AM Selection Y AMI Selection gt Output 11 NO NC Output 12 NO NC Output 13 NO NC Output 14 Output 15 Alarm Out NO NC gt RNT ONT Level Accel Freq Decel Arv Freq 2nd Accel Arv 2nd Decel Arv F D Over Torq Over R D Over 080 081 081 082 083 086 087 088 121 122 123 021 C022 C023 C024 C025 C026 C027 C028 C029 C031 C032 C033 C034 C035 C036 034 C042 C043 C045 C046 C055 C056 C057 9 ss 35 m EET cuc 0 o as fom _ SE of Motor Settings F R Over Torq Alarm Code Sel W 0 Speed Detect gt Autotuning Sel 1st Const Sel 2nd Const Sel 1st Allow Sel 2nd Allow Sel 1st Mtr Pol Sel 2nd Mtr Pol Sel 151 Speed Resp 2nd Speed Resp 1st Stab Factor 2nd Stab Factor 3rd Stab Factor W 1st Const R1 Const R1 1st Const R2 2nd Const R2 1st Const L 2nd Const L 1st Const lo 2nd Const lo 1st Const J 2nd Const J 1st Const R1 2nd Const R1 1st Const R2 AT 2nd Const R2 AT 1st Const L AT 2nd Const W
168. variables Stop at the desired variable such Do as Output Voltage V 2 5 7 Press Store Enter to accept the new 25 Monitor Var To abort the Change Data o 8 operation press the Esc Cancel key g 8 When you press the Monitor key the Output voltage V new Monitor Variable will display in the i corresponding field Note The Monitor Vars configuration is part of a SC OPE configuration The SC OPE Configuration Editor on the PC does not show Monitor Vars status you must use the Program Mode on the SC OPE to configure Monitor Vars Inverter Operation gt 5 D ic 2 Using the Keypad for Inverter Operation Hand Auto Key Operation 328434 Monitor Mode is the central mode for operator based control of the inverter and it shows the current status of the user selectable inverter control sources Run Command Source set by parameter A002 Frequency Setting Source set by parameter A001 The Hand Auto key serves the purpose of letting the operator scroll through and set applicable combinations of the above source selections Each press of the Hand V fea Cirl Auto key increments to the next combina tion of Run Command Source Freq Setting Source The current settings are displayed on the third line of the display as shown The table below shows the available combinations inverter settings Hand Auto setting
169. verter is stopped bit 7 and bit 2 are ON when the 7 9 inverter is in deceleration Consult the register map for a detailed explanation on the S status register gt 20 V2003 K1 C20 Inverter stopped 82 is the hex 8 OUT equivalent of 130 in decimal E V2003 K82 C21 Inverter in deceleration 83 is OUT the hex equivalent of 131 BL 2003 C22 Inverter at preset frequency OUT 84 is the hex equivalent of 132 V2003 K84 C23 Inverter in acceleration 84 is OUT the hex equivalent of 132 V2003 K42 C24 Inverter in trip 42 is the hex OUT equivalent of 66 END End of program 4 23 Connecting to DirectNet Network Connecting to a DirectNet Network Overview Some PLCs are available with built in DirectNet communication protocol The relay ladder logic RLL example in this section uses an arbitrary set of input points internal relays registers etc for a DirectLogic PLC as a typical example Therefore it is not intended for use as is in an actual application When using network control of the inverter the SC OPE maps translates network commands to specific inverter parameters When writing your host computer control program you will need a map of network registers and inverter parameters Please refer to Appendix D and Appendix E for network register maps Warning Be sure to set up the basic drive p
170. work Config parity Network Config Stop bits Network Config Flow control Z etwork Config RTS delay Network Port Mode master slave Network Gap Time Stop Key Action enables or disables keypad Stop key during network control EZ Installation and Configuration c e E and Configuration 6 Press the Change Data key to begin editing a setting 7 Use the Up and Down Arrow keys to change the setting selection 8 Press the Store Enter key to accept the new setting 9 Press the Left Arrow key to exit the Network Port Cfg sub menu 10 Press the Down Arrow key once to access the Store Configuration menu item 11 Press the Store Enter key to store the configuration change CHANGE DATA STORE ENTER amp x 5 STORE ENTER EY DConfisuration Menu Hetuork PFratocal Modbus DConfisuration Menu 2lirectHetz ee Confisuration Menu Hetuork Tirecthet Confisuration Menu Hetuork Fort Cfa Confisuration Menu Store Confisuration Enter Confisuration Menu Store Confisuration Confisuration Stored P Quick Menu Configuration SC OPE Configuration Editing The SC OPE s Quick Menu presents a subset of the inverter parameters for moni toring or editing via the keypad in normal operation The sing
171. you are having difficulty getting network control to work try using keypad control to verify that you can get the motor turning It is easier to troubleshoot more basic problems by using the SC OPE keypad Getting the inverter and motor to respond p depends on several factors but primarily als oo B inverter input power a working Run command source and a non zero speed Shc pc Ctrl output frequency reference The inverter can be configured to accept a Run command from one of several sources the same is true for the speed setting This flexibility can make trouble shooting difficult but the SC OPE s Monitor Mode can help you determine these respective settings In Monitor Mode use the Hand Auto key to change these set tings to match the actual sources your system provides for the inverter See Auto Key Operation on page 3 30 Hand Auto setting Troubleshooting SC OPE Inverter Control Inputs After verifying the Run command source and Speed Setting source are correct use the following table if the inverter motor still does not respond Symptom Related Configurations and Solutions No Run Command Run command does not cause motor to turn or engage Run LED is OFF No Frequency Setting Run command causes Run LED to turn ON but motor does not turn If the inverter is configured to expect the Run command from the input terminals Run TRM Ensure one of the intelli
172. ztyoV ZSLZA 200 Auo 00175 0 uonoejes 15004 pyzy MWe OLEZN 9S 12A enueN 0 uonoejes jsooq enbJol MWY GOL ZN SSIZA OLLO ZH 10 0001 0 Aouenbey 8907 MWe 80L ZN vSLCA 600 ZH L0 00005 0 Aouenbey 2907 MWe SLZA 80L0r ZH 10 0001 0 plIw 9907 MWe QOL ZN ZSLZA 010 ZH L0 00007 0 Aouenbey dune 990V MWe S0LZN LSLZA 900 ZH 10 0001 0 ujpiM Aousnbey dunr MWe OSLZA 500 ZH L0 00005 0 pAouanbey dunr 2907 MWe 0LZN tolor ZH O 00005 0 Jewo 2907 MWe ZOL ZN 9vLCA OLOV ZH 0 00007 0 Kouenbej Jj L90V LOL ZN 20 09 AlleuJoN 0 yndyno Aeleal 2200 MWe OOL ZN LOLOY uedo AlIeuuoN 0 qe zy lue6lllelul 2600 66 LN 000 Deus adh Boy g Bou seloN spun anle sa6uey 0047 00 sseosy jg snqpoyy 100 75 sde 0011 OOLFS Intelligent Terminal Codes Intelligent Terminal Codes Intelligent Input Setti
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