Go to page of
Similar user manuals
-
Welding System
Hitachi NR-7000
14 pages 0.56 mb -
Welding System
Hitachi L300IP
34 pages 0.57 mb -
Welding System
Hitachi SJ300-037HFE
289 pages 7.1 mb -
Welding System
Hitachi L300P Series
76 pages 5.25 mb -
Welding System
Hitachi SJ700
28 pages 1.77 mb -
Welding System
Hitachi SJ2002
34 pages 0.35 mb -
Welding System
Hitachi CONVENTION 14
305 pages 8.8 mb -
Welding System
Hitachi hitachi series inverter
99 pages 1.48 mb
A good user manual
The rules should oblige the seller to give the purchaser an operating instrucion of Hitachi SJ300, along with an item. The lack of an instruction or false information given to customer shall constitute grounds to apply for a complaint because of nonconformity of goods with the contract. In accordance with the law, a customer can receive an instruction in non-paper form; lately graphic and electronic forms of the manuals, as well as instructional videos have been majorly used. A necessary precondition for this is the unmistakable, legible character of an instruction.
What is an instruction?
The term originates from the Latin word „instructio”, which means organizing. Therefore, in an instruction of Hitachi SJ300 one could find a process description. An instruction's purpose is to teach, to ease the start-up and an item's use or performance of certain activities. An instruction is a compilation of information about an item/a service, it is a clue.
Unfortunately, only a few customers devote their time to read an instruction of Hitachi SJ300. A good user manual introduces us to a number of additional functionalities of the purchased item, and also helps us to avoid the formation of most of the defects.
What should a perfect user manual contain?
First and foremost, an user manual of Hitachi SJ300 should contain:
- informations concerning technical data of Hitachi SJ300
- name of the manufacturer and a year of construction of the Hitachi SJ300 item
- rules of operation, control and maintenance of the Hitachi SJ300 item
- safety signs and mark certificates which confirm compatibility with appropriate standards
Why don't we read the manuals?
Usually it results from the lack of time and certainty about functionalities of purchased items. Unfortunately, networking and start-up of Hitachi SJ300 alone are not enough. An instruction contains a number of clues concerning respective functionalities, safety rules, maintenance methods (what means should be used), eventual defects of Hitachi SJ300, and methods of problem resolution. Eventually, when one still can't find the answer to his problems, he will be directed to the Hitachi service. Lately animated manuals and instructional videos are quite popular among customers. These kinds of user manuals are effective; they assure that a customer will familiarize himself with the whole material, and won't skip complicated, technical information of Hitachi SJ300.
Why one should read the manuals?
It is mostly in the manuals where we will find the details concerning construction and possibility of the Hitachi SJ300 item, and its use of respective accessory, as well as information concerning all the functions and facilities.
After a successful purchase of an item one should find a moment and get to know with every part of an instruction. Currently the manuals are carefully prearranged and translated, so they could be fully understood by its users. The manuals will serve as an informational aid.
Table of contents for the manual
-
Page 1
• SJ300 Series • L300P Series NOTE: REFER ALSO T O SJ300 or L300P SERIES INSTRUCTION MANUAL Hitachi America, Ltd. After reading this manual, keep it handy for future reference. Manual Number: HAL1051 December 2004 SJ-EN Ethernet Communications Option Board Instruction Manual[...]
-
Page 2
NOTES:[...]
-
Page 3
T able of Content s T able of Content s T able of Content s ................................................................................................................... 3 Chapter 1 – General Description .......................................................................................... 5 Chapter 2 – Inst allation and Wiring ......[...]
-
Page 4
T able of Content s NOTES: Page 4 of 36[...]
-
Page 5
Chapter 1 Chapter 1 – General Description The SJ-EN option board is an Ethernet communication interface for the Hitachi SJ300 and L 300P series of AC V ariable Frequency Inverters. The board can be installed in one of the two available option slo ts in the inverter . The SJ-EN uses the open MODBUS/TCP communication protocol. It utilizes a 10Base-[...]
-
Page 6
Chapter 1 SAFETY PRECAUTIONS HIGH VOL T A GE : This symbol indic ates high voltage. It calls your attention to items or operations that could be dangerous to you an d other persons operating this eq u ipment. Read the message and follow the instructions carefully . W ARNING: Indicates a potentially hazardous situation that, if not avoided, can resu[...]
-
Page 7
Chapter 1 CAUTION: Be sure not to touch the surface or termin als of the SJ-EN Ethernet option board while the inverter is energized; otherwise there is the danger of electric shock. CAUTION: The software lock modes described in the SJ300 inverter manual are NOT supported via the SJ-EN option board. This means that networ k commands can bypass any [...]
-
Page 8
Chapter 1 NOTES: Page 8 of 36[...]
-
Page 9
Chapter 2 Chapter 2 – Inst allation and Wiring Orient ation to Product Features Figure 2-1 below shows the physical layout of the SJ-EN Ethernet option board. In particular , note the location 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 ST A T US LEDs • S[...]
-
Page 10
Chapter 2 Inst alling the Option Board Power down the inverter and wait at least five minutes be fore moving to the next step. Open and rem ove the lower terminal cover . Confirm that the red CHARGE LED is extinguished and that the DC bus is fully discharged before proceeding further , otherwise there is the danger of electric shock. Then rem ove k[...]
-
Page 11
Chapter 2 User Interface The SJ-EN has six LEDs to convey module status and activity . Four LEDs next to the RJ45 connector: • ST A TUS (GREEN) – This LED will be ON whenever the SJ-EN is receiving proper power from the inverter and the self diagnostics have show n the board to be functi oning normally . • LINK (GREEN) – This LED is ON when[...]
-
Page 12
Chapter 2 NOTES: Page 12 of 36[...]
-
Page 13
Chapter 3 Page 13 of 36 Chapter 3 – Configuration Inst all NetEdit3 Sof tware NetEdit3 Software is provided on the CD-R enclosed with the SJ-EN option board. This software is required to configure the board. It can also be used to update the SJ-EN firm ware in the event of a future update. NetEdit3 is compatible with Microsoft ® W indows ® 98, [...]
-
Page 14
Chapter 3 Page 14 of 36 Figure 3-1 N etEdit3 Initial Scr een The NetEdit3 software should find and list any SJ-EN attached to the network. If not, just click on “Scan Network”. An entry will appear in the Device List (grid area), with the board details as shown in Figure 3-2. If more than one board is connected in a common network, you will see[...]
-
Page 15
Chapter 3 Page 15 of 36 Figure 3-2 N etEdit3 Scr een after Scan of Network Figure 3-3 N etEdit3 General Settings Dialog Box[...]
-
Page 16
Chapter 3 Page 16 of 36 NOTES:[...]
-
Page 17
Chapter 4 Page 17 of 36 Chapter 4 – Operation Setting Up the Inverter for Ethernet Network Operation Once the SJ-EN board has been properly configured and connected to a network as described in Chapter 3, it is capable of reading data from and writing data to the inve rter . However if it is desired to have either the RUN command and/or the speed[...]
-
Page 18
Chapter 4 Page 18 of 36 NOTES:[...]
-
Page 19
Chapter 5 Chapter 5 – T roubleshooting In general, the first step to troubleshooting should be to inspect the status LEDs on the SJ-EN board, in addition to the inverter operator/keypad display . These will give valuable clues to the nature of the problem . In addition, the inverter operator/keypad will provide di agnostic information for certain[...]
-
Page 20
Appendix Page 20 of 36 NOTES:[...]
-
Page 21
Appendix Page 21 of 36 Appendix – Parameter List Note: Parameters in BOLDF ACE can be edited while inverter is in the RUN mode. “RO” means the parameter is Read Only , and “R/W” means the value can be read or written. Inverter Parameter Modbus Start Address Modbus End Address Parameter Name Magnitude Read/ Write Data Range D – Monitorin[...]
-
Page 22
Appendix Page 22 of 36 D367 3733 3734 Frequency at Trip 3 X100 RO 0 – 40000 D368 3735 3736 Output current at Trip3 X10 RO 0 – 10000 D369 3737 3738 PN voltage (DC voltage) at Trip 3 X10 RO 0 – 10000 D370 3739 3740 Cumulative RUN time at Trip 3 X1 RO 0 – 4294836225 D371 3741 3742 Cumulative power–o n time at Trip 3 X1 RO 0 – 4294836225 D0[...]
-
Page 23
Appendix Page 23 of 36 F – Main Profile Functions F001 4001 4002 Output frequency setting(Hz) / PID Setpoint (%) X1000 RO 0 – 400000 F002 4003 4004 Acceleration time 1 X100 R/W 1 – 360000 F202 4403 4404 Acceleration time 1, 2 nd motor X100 R/W 1 – 360000 F302 4603 4604 Acceleration time 1, 3 rd motor X100 R/W 1 – 360000 F003 4005 4006 Dec[...]
-
Page 24
Appendix Page 24 of 36 A022 43 44 Multi–speed frequency 2 X100 R/W 0 – 40000 A023 45 46 Multi–speed frequency 3 X100 R/W 0 – 40000 A024 47 48 Multi–speed frequency 4 X100 R/W 0 – 40000 A025 49 50 Multi–speed frequency 5 X100 R/W 0 – 40000 A026 51 52 Multi–speed frequency 6 X100 R/W 0 – 40000 A027 53 54 Multi–speed frequency 7 [...]
-
Page 25
Appendix Page 25 of 36 A057 113 114 DC braking force for sta rtin g X1 R/W 0 – 100 * A058 115 116 DC braking time for starting X10 R/W 0 – 600 A059 117 118 DC braking carrier fre que ncy X10 R/W 5 – 150 * A061 121 122 Frequency upper limit setti ng X100 R/W 0 – 4000 0 A261 521 522 Frequency upper limit setting, 2 nd motor X100 R/W 0 – 400[...]
-
Page 26
Appendix Page 26 of 36 A094 187 188 Select method to switch to acc2/dec2 profile X1 R/W 0 – 1 A294 587 588 Select method to switch to acc2/dec2 profile, 2 nd motor X1 R/W 0 – 1 A095 189 190 Acc1 to Acc2 frequency transition point X100 R/W 0 – 40000 A295 589 590 Acc1 to Acc2 frequency transition point, 2 nd motor X100 R/W 0 – 40000 A096 191 [...]
-
Page 27
Appendix Page 27 of 36 B006 1011 1012 Phase loss detection enab le X1 R/W 0 – 1 B007 1013 1014 Restart frequency thre shold X100 R/W 0 – 40000 B012 1023 1024 Level of electronic thermal setting, 1 st motor X10 R/W 200 – 1200 B212 1423 1424 Level of electronic thermal setting, 2 nd motor X10 R/W 200 – 1200 B312 1623 1624 Level of electronic [...]
-
Page 28
Appendix Page 28 of 36 B045 1089 1090 Torque limit LADSTOP enable X1 R/W 0 – 1 B046 1091 1092 Reverse run protection en able X1 R/W 0 – 1 B050 1099 1100 Controlled deceleration and stop on power loss X1 R/W 0 – 1 B051 1101 1102 DC bus voltage trigger lev el during power loss X10 R/W 0 – 1000 0 B052 1103 1104 Over–voltage threshold during [...]
-
Page 29
Appendix Page 29 of 36 B113 1225 1226 Free V/F control voltage 7 X10 R/W 0 – 8000 B120 1239 1240 Brake control enable X1 R/W 0 – 1 B121 1241 1242 Brake wait time for release X100 R/W 0 – 500 B122 1243 1244 Brake wait time for acceleration X100 R/W 0 – 500 B123 1245 1246 Brake wait time for stopping X100 R/W 0 – 500 B124 1247 1248 Brake wa[...]
-
Page 30
Appendix Page 30 of 36 C034 2067 2068 Intelligent output 14 active state X1 R/W 0 – 1 C035 2069 2070 Intelligent output 15 active state X1 R/W 0 – 1 C036 2071 2072 Alarm relay output active state X1 R/W 0 – 1 C040 2079 2080 Overload signal output mode X1 R/W 0 – 1 C041 2081 2082 Overload level setting X10 R/W 0 – 2000 C042 2083 2084 Frequ[...]
-
Page 31
Appendix Page 31 of 36 C123 2245 2246 [O2] input zero calibratio n X1 R/W 0 – 65535 C195 2389 2390 Region code sele ction X1 RO 0 – 2 C196 2391 2392 Capacity code sele ction X1 RO 1 – 15 * C197 2393 2394 Voltage code selection X1 RO 0 – 1 C198 2395 2396 Inverter model series cod e X1 RO 0 – 1 H – Motor Constants and Functions H001 5001 [...]
-
Page 32
Appendix Page 32 of 36 H034 5067 5068 Inertia J, 1 st motor (Auto) X1000 R/W 1 – 9999000 H234 5467 5468 Inertia J, 1 st motor (Auto) X1000 R/W 1 – 9999000 H050 5099 5100 PI proportional gain, 1 st motor X10 R/W 0 – 10000 H250 5499 5500 PI proportional gain, 2 nd motor X10 R/W 0 – 10000 H051 5101 5102 PI integral gain, 1 st motor X10 R/W 0 ?[...]
-
Page 33
Appendix Page 33 of 36 P – Expansion Card Functions P001 6001 6002 Selection of action at option1 error X1 R/W 0 – 1 P002 6003 6004 Selection of action at option2 error X1 R/W 0 – 1 P010 6019 6020 Feedback option ena ble X1 R/W 0 – 1 P011 6021 6022 Encoder PPR setting X1 R/W 128 – 65000 P012 6023 6024 Control pulse setting X1 R/W 0 – 1 [...]
-
Page 34
Appendix Page 34 of 36 R – Reference Codes R001 7001 7002 Status of Inverter X1 RO 0 – 360000 R002 7003 7004 Set Frequency X1 RO 0 – 360000 R004 7007 7008 Output Frequency X1 RO 0 – 360000 R005 7009 7010 Commanded direction of rotation X1 R/W 0 – 2 R006 7011 7012 Direction of output rotation X1 RO 0 – 360000 R007 7013 7014 Output termin[...]
-
Page 35
Index Page 35 of 36 Index A A - Standard Functions · 23 Activity LED · 1 1 address, Ethernet · 14 B B - Fine-T uning Functions · 26 C C - Intelligent T erminal Functions · 29 cable, Ethernet · 13 Carton Contents · 5 Compatibility , Inverter · 7 Configuration · 13 D D - Monitoring Functions · 21 device ID · 13 DIP-switches · 9, 13 E erro[...]
-
Page 36
Index R R - Reference Codes · 34 Registers, reading and writing · 17 RJ45 connector · 9 RXD LED · 1 1 S Safety Precautions · 6 software · 13 Status LED · 1 1 T T roubleshooting · 19 TXD LED · 1 1 W W arranty · 5 W iring · 9 Page 36 of 36[...]