Hitachi SJ-EN Ethernet Communications User Manual Download

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SJ300 Series

•

L300P Series

NOTE: REFER ALSO TO SJ300 or L300P SERIES INSTRUCTION MANUAL

Hitachi America, Ltd.

After reading this manual,

keep it handy for future reference.

Manual Number: HAL1051A

January 2005

SJ-EN Ethernet Communications
Option Board
Instruction Manual

Summary of Contents for SJ-EN Ethernet Communications

Page 1: ...REFER ALSO TO SJ300 or L300P SERIES INSTRUCTION MANUAL Hitachi America Ltd After reading this manual keep it handy for future reference Manual Number HAL1051A January 2005 SJ EN Ethernet Communications Option Board Instruction Manual ...

Page 2: ...NOTES ...

Page 3: ...f Contents Table of Contents 3 Chapter 1 General Description 5 Chapter 2 Installation and Wiring 9 Chapter 3 Configuration 13 Chapter 4 Operation 17 Chapter 5 Troubleshooting 19 Appendix Parameter List 20 Index 35 Page 3 of 38 ...

Page 4: ...Table of Contents NOTES Page 4 of 38 ...

Page 5: ...pect it for any defect or damage and be sure all parts are present Carton Contents 1 SJ EN Ethernet Communication Interface Board 2 Screws to secure board to inverter case M3 x 8mm 1 CD ROM containing this manual pdf and NetEdit3 software WARRANTY The warranty period under normal installation and handling conditions shall be eighteen 18 months from the date of purchase or twelve 12 months from the...

Page 6: ...lers or performing maintenance Be sure equipment is properly grounded Wear safety glasses whenever working on electronic controllers or rotating machinery WARNING This equipment should be installed adjusted and serviced by qualified electrical maintenance personnel familiar with the construction and operation of the equipment and the hazards involved Failure to observe this precaution could result...

Page 7: ...CAUTION Certain parameter data ranges vary depending on model and capacity The SJ EN does NOT check to make sure these data are within range It is incumbent on the user to make sure data for these parameters is within range for the specific model and rating These parameters are noted in the parameter tables in the Appendix Otherwise undesirable inverter behavior may occur INVERTER COMPATIBILITY Th...

Page 8: ...Chapter 1 NOTES Page 8 of 38 ...

Page 9: ...on of status LEDs and DIP switches RJ45 Jack DIP Switches Connector to connect to SJ300 or L300P rear of board SJ EN 7 6 5 4 3 2 1 0 STATUS LEDs STATUS LINK ACTIVITY ERROR OFF ON TXD LED RXD LED SJ EN Layout Figure 2 1 The pinout for the RJ45 connector is as follows 1 TX Data 8 7 6 5 4 3 2 1 Figure 2 2 SJ EN RJ45 Pinouts 2 TX Data 3 RX Data 4 NC 5 NC 6 RX Data 7 NC 8 NC Page 9 of 38 ...

Page 10: ...de Figure 2 3 below shows how to install the option board to option port 1 or 2 of the inverter There are four holes on the corners of the option board Align the board with the port connector in the proper orientation to the left when facing the inverter as show Then align the top two holes with the two screw holes and the bottom two holes with the two guide posts Insert the board fully into the c...

Page 11: ...TY GREEN This LED is ON whenever there is Ethernet traffic in the cable ERROR RED This LED will be ON if the SJ EN has failed due to a hardware watchdog timeout or the Ethernet communications has been absent for the software watchdog timeout period Two LEDs near the right edge of the board TXD This LED indicates communication from the SJ EN to the inverter through the option port RXD This LED indi...

Page 12: ...Chapter 2 NOTES Page 12 of 38 ...

Page 13: ...sh memory by means of the NetEdit3 software this ID can be any 32 bit binary value i e 0 to 4 294 967 295 decimal Make sure that all wiring is secure in the inverter and that the power connections are free and clear Be sure to separate power wiring from control wiring If they have to be crossed be sure that they cross at a right angle Connect the inverter to the PC Ethernet port and that the PC is...

Page 14: ...he board are all set to zero Otherwise the Module ID will reflect the DIP switch setting and will be grayed out indicating it cannot be modified with NetEdit3 You can also input a Name for the device and a Description The default Name will be Hitachi Drive and the default Description will be SJ300 L300P Hitachi Drive The device s IP Address will also be shown Change this to the desired IP address ...

Page 15: ...Chapter 3 Page 15 of 38 Figure 3 2 NetEdit3 Screen after Scan of Network Figure 3 3 NetEdit3 General Settings Dialog Box ...

Page 16: ...Chapter 3 Page 16 of 38 NOTES ...

Page 17: ... command source setting Five options select codes 01 Input terminal FW or RV assignable 02 Run key on keypad or digital operator 03 RS485 serial command 04 Start Stop expansion card 1 05 Start Stop expansion card 2 8 8 01 01 02 02 Supported MODBUS Functions The SJ EN is implemented with the MODBUS TCP communication protocol It supports the following MODBUS functions READ MULTIPLE REGISTERS 03 This...

Page 18: ...Chapter 4 Page 18 of 38 NOTES ...

Page 19: ...d restriction The digit immediately to the left of the decimal point has the following meaning Code Trip Name Cause Check Remedy Defective connection Connectors plugs jacks cable Replace or repair press STOP RESET on inverter keypad PC not powered up or not connected to inverter That PC is powered on and connected Press STOP RESET on inverter keypad EX0 X Ethernet Communication Error Network confi...

Page 20: ...Appendix Page 20 of 38 NOTES ...

Page 21: ...voltage monitor X10 RO 0 10000 D014 3027 3028 Input electric power monitor X10 RO 0 10000 D016 3031 3032 Cumulative RUN time monitor X1 RO 0 4294836225 D017 3033 3034 Cumulative power on time X1 RO 0 4294836225 D078 3155 3156 Last trip pointer X1 RO 0 5 D080 3159 3160 Trip counter X1 RO 0 65535 D081 3161 3162 Error Code of Trip 1 X1 RO 0 255 D355 3709 3710 Frequency at Trip 1 X100 RO 0 40000 D356 ...

Page 22: ...5 X1 RO 0 255 D379 3757 3758 Frequency at Trip 5 X100 RO 0 40000 D380 3759 3760 Output current at Trip 5 X10 RO 0 10000 D381 3761 3762 PN voltage DC voltage at Trip 5 X10 RO 0 10000 D382 3763 3764 Cumulative RUN time at Trip 5 X1 RO 0 4294836225 D383 3765 3766 Cumulative power on time at Trip 5 X1 RO 0 4294836225 D086 3171 3172 Error Code of Trip 6 X1 RO 0 255 D385 3769 3770 Frequency at Trip 6 X1...

Page 23: ...03 605 606 Base frequency setting 3rd motor X1 R W 30 400 A004 7 8 Maximum frequency setting X1 R W 30 400 A204 407 408 Maximum frequency setting 2nd motor X1 R W 30 400 A304 607 608 Maximum frequency setting 3rd motor X1 R W 30 400 A005 9 10 AT selection X1 R W 0 1 A006 11 12 O2 selection X1 R W 0 3 A011 21 22 O L input active range start frequency X100 R W 0 40000 A012 23 24 O L input active ran...

Page 24: ... method selection X1 R W 0 1 A241 481 482 Torque boost method 2nd motor X1 R W 0 1 A042 83 84 Manual torque boost value X10 R W 0 200 A242 483 484 Manual torque boost value 2nd motor X10 R W 0 200 A342 683 684 Manual torque boost value 3rd motor X10 R W 0 200 A043 85 86 Manual torque boost frequency adjustment X10 R W 0 500 A243 485 486 Manual torque boost frequency adjustment 2nd motor X10 R W 0 ...

Page 25: ...ting X100 R W 0 40000 A070 139 140 Acceleration pause time setting X10 R W 0 600 A071 141 142 PID Enable X1 R W 0 1 A072 143 144 PID Proportional P gain X10 R W 2 50 A073 145 146 PID Integral I time constant X10 R W 0 36000 A074 147 148 PID Derivative D time constant X100 R W 0 10000 A075 149 150 PID PV Scale conversion X100 R W 1 9999 A076 151 152 PID PV source setting X1 R W 0 1 A081 161 162 AVR...

Page 26: ...ut active range start current X1 R W 0 100 A104 207 208 OI L input active range end current X1 R W 0 100 A105 209 210 OI L input start frequency enable X1 R W 0 1 A111 221 222 O2 L input active range start frequency X100 R W 40000 40000 A112 223 224 O2 L input active range end frequency X100 R W 40000 40000 A113 225 226 O2 L input active range start voltage X1 R W 100 100 A114 227 228 O2 L input a...

Page 27: ... electronic thermal frequency 3 X1 R W 0 400 B020 1039 1040 Free setting electronic thermal current 3 X10 R W 0 10000 B021 1041 1042 Overload restriction operation mode X1 R W 0 3 B022 1043 1044 Overload restriction setting X10 R W 500 2000 B023 1045 1046 Deceleration rate at overload restriction X100 R W 10 3000 B024 1047 1048 Selection of method of overload restriction 2 X1 R W 0 3 B025 1049 105...

Page 28: ...88 1175 1176 Restart mode after FRS X1 R W 0 1 B090 1179 1180 Dynamic braking usage ratio X10 R W 0 1000 B091 1181 1182 Stop mode selection X1 R W 0 1 B092 1183 1184 Cooling fan control X1 R W 0 1 B095 1189 1190 Dynamic braking control X1 R W 0 2 B096 1191 1192 Dynamic braking activation level X1 R W 330 760 B098 1195 1196 Thermistor function X1 R W 0 2 B099 1197 1198 Thermistor protection level s...

Page 29: ... C011 2021 2022 Intelligent input 1 active state X1 R W 0 1 C012 2023 2024 Intelligent input 2 active state X1 R W 0 1 C013 2025 2026 Intelligent input 3 active state X1 R W 0 1 C014 2027 2028 Intelligent input 4 active state X1 R W 0 1 C015 2029 2030 Intelligent input 5 active state X1 R W 0 1 C016 2031 2032 Intelligent input 6 active state X1 R W 0 1 C017 2033 2034 Intelligent input 7 active sta...

Page 30: ... 2123 2124 Alarm code output X1 R W 0 2 C063 2125 2126 Zero speed detection level X100 R W 0 10000 C070 2139 2140 Data command method X1 R W 2 5 C071 2141 2142 Communication speed selection X1 R W 2 6 C072 2143 2144 Node allocation X1 R W 1 32 C073 2145 2146 Communication data length X1 R W 7 8 C074 2147 2148 Communication parity selection X1 R W 0 2 C075 2149 2150 Communication stop bit selection...

Page 31: ... X1 R W 0 255 H306 5611 5612 Motor stabilization constant 3rd motor X1 R W 0 255 H020 5039 5040 Motor constant R1 1st motor X1000 R W 0 65535 H220 5439 5440 Motor constant R1 2nd motor X1000 R W 0 65535 H021 5041 5042 Motor constant R2 1st motor X1000 R W 0 65535 H221 5441 5442 Motor constant R2 2nd motor X1000 R W 0 65535 H022 5043 5044 Inductance L 1st motor X100 R W 0 65535 H222 5443 5444 Induc...

Page 32: ...X100 R W 1 1000 O Other Functions O001 8001 8002 Run Mode 0 Stop 1 Forward 2 Reverse X1 R W 0 2 O002 8003 8004 TRIP Counter X1 RO 0 0 O003 8005 8006 TRIP History 1 Time X1 RO 0 0 O004 8007 8008 TRIP History 1 Cause X1 RO 0 0 O005 8009 8010 TRIP History 1 Freq X1 RO 0 0 O006 8011 8012 TRIP History 1 Current X1 RO 0 0 O007 8013 8014 TRIP History 1 Voltage X1 RO 0 0 O008 8015 8016 TRIP History 2 Time...

Page 33: ... 6034 Home search completion range setting X1 R W 0 10000 P018 6035 6036 Home search completion delay setting X100 R W 0 999 P019 6037 6038 Electronic gear set position selection X1 R W 0 1 P020 6039 6040 Electronic gear ratio numerator X1 R W 0 9999 P021 6041 6042 Electronic gear denominator X1 R W 0 9999 P022 6043 6044 Feed forward gain of position control X100 R W 0 65535 P023 6045 6046 Loop ga...

Page 34: ...1 RO 0 360000 R007 7013 7014 Output terminals data X1 RO 0 360000 R008 7015 7016 Upper data of input terminals X1 RO 0 360000 R010 7019 7020 Lower data of input terminal X1 RO 0 360000 R011 7021 7022 Rated output current X1 RO 0 360000 Data Range depends on Model and or Rating Verify that data you are writing is valid for the inverter model and rating you are writing to These special parameters ar...

Page 35: ...e ID 13 DIP switches 9 13 E error codes 19 Error LED 11 Ethernet address 14 F F Main Profile Functions 23 H H Motor Constants and Functions 31 I Installing 10 Interface User 11 IP address 14 K keypad inverter 19 L layout board 9 LEDs 9 11 13 Link LED 11 M MODBUS Functions supported 17 module ID 13 14 N NetEdit3 Software 13 network operation 17 O O Other Functions 32 Operation 17 P P Expansion Card...

Page 36: ...dex R R Reference Codes 34 Registers reading and writing 17 RJ45 connector 9 RXD LED 11 S Safety Precautions 6 software 13 Status LED 11 T Troubleshooting 19 TXD LED 11 W Warranty 5 Wiring 9 Page 36 of 38 ...

Page 37: ...Index NOTES Page 37 of 38 ...

Page 38: ...January 2005 HAL1051A Hitachi America Ltd Tarrytown NY 10591 2005 www hitachi us inverters ...

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