background image

63 

(

樣式二

)

 

SW3

V

I

SW1

NPN

PNP

19-0

0

R2B

R2A

S6

S4

S5

S2

S3

S1

R1B

R1C

R1A

10V

24V

AGND

AIN

FM+

24G

AI2

20-0 = 1 (

)

 

 
 

19-0 = 1(

)

SW3

V

I

SW1

NPN

PNP

19-0 = 2~4(

)

SW3

V

I

SW1

NPN

PNP

+

-

R2B R2A

S6

S4

S5

S2

S3

S1

R1B R1C R1A

10V

24V

AGND

AIN

FM+

24G

AI2

R2B R2A

S6

S4

S5

S2

S3

S1

R1B R1C R1A

10V

24V

AGND

AIN

FM+

24G

AI2

20-0 = 1
20-1 = 0

RS485 

RS485 

RED 

24V

RED 

24V

BLACK 

COM

BLACK 

COM

 

 

Summary of Contents for JNTHBCBA0001BEAU

Page 1: ......

Page 2: ...Series Inverter 11 3 6 Pump Wiring Diagram of Control Board 13 3 7 Description of Terminals Troubleshooting Inverter 15 3 8 Outline Dimension 16 Chapter 4 Software Index 18 4 1 Operation Instruction o...

Page 3: ...if the charging indicator is still lit after turned the power off z Do not wire when the inverter is electrified Do not check parts and signals on circuit boards during the inverter operation z Do not...

Page 4: ...Machinery Co Ltd Output specifications Keypad Panel BC LED BG LCD BL BLIND Horsepower R500 0 5 HP 0001 1 0 HP 0002 2 0 HP 0003 3 0 HP 0005 5 0 HP 7R50 7 5 HP 0010 10 HP 0015 15 HP 0020 20 HP 0025 25...

Page 5: ...t Install it on nonflammable object such as metal z If several inverters are placed in the same control panel add extra heat sink to keep the temperature below 40 degree C to avoid overheat or fire z...

Page 6: ...g electrifying z The motor will restart automatically after stop when auto restart function is on In this case do not get close to the machine z Note The stop switch is different from the usage of the...

Page 7: ...re from 10 degree C to 40 degree C and relative humidity of 95 non condense Caution When the inverter top cover has removed it can be used in a non condensed environment with temperature from 10 degre...

Page 8: ...use the magnetic contactor as the run stop switch of the inverter AC reactor for power improvement z When inverters below 200V 400V 15KW are supplied with high capacity above 600KVA power source or an...

Page 9: ...plicable national and international regulations Consult with your fuse suppliers if in doubt JNTHBCBA HP KW KVA 100 CONT Output AMPS A Max RK5 FUSE Rating A Max CC or T FUSE Rating A R500AC 0 5 0 4 1...

Page 10: ...ower plug is unplugged The other action should be performed after the charge indicator went off z Do not perform wiring on the inverter while it is still electrified Disregard of this notice could cau...

Page 11: ...tage of 230VAC type is 300V and 460VAC type is 600V 3 For safety reason the power wires should be fixed by type terminal C Control wires Control wires are wires connecting to TM2 control terminal Choo...

Page 12: ...Voltage 0 240V Input Current A 4 5 6 5 11 12 5 20 5 33 42 57 70 85 108 138 Net Weight KG 1 2 1 2 1 2 1 75 1 9 5 6 5 6 15 15 15 33 34 Allowable momentary power loss time second 1 0 1 0 2 0 2 0 2 0 2 0...

Page 13: ...PNP SW1 SW2 AIN 0 10V 0 20mA selective SW3 S6 AI2 0 10V 0 20mA selective or 2 10V 4 20mA after Ver 2 3 I POSITION 0 20mA signal V POSITION 0 10V signal SW1 NPN PNP selective Forward stop or run stop R...

Page 14: ...iagram II Note 1 Please refer to description of main circuit terminals P1 BR and specification of braking resistor for value selection Note 2 Above wiring diagram refers for 2 2 30KW at 220V and 2 2 5...

Page 15: ...0 1 External Control 2 Dual pump wiring diagram I Dual pump wiring diagram Up to 4 drives Dual pump parameter setting 19 0 1 Dual pump Master SW3 V I SW1 NPN PNP Dual pump parameter setting 19 0 2 4...

Page 16: ...I SW3 V I SW1 NPN PNP Single pump parameter setting 19 0 0 Single pump wiring diagram Switch Pressure Transmitter R2B R2A S6 S4 S5 S2 S3 S1 R1B R1C R1A 10V 24V AGND AIN FM 24G AI2 20 0 1 External Cont...

Page 17: ...capacity 250VAC 1A or 30VDC 1A 10V Frequency knob VR power source terminal pin 3 AIN Analog frequency signal input terminal or multifunction input terminals S7 H level 8V L level 2V PNP only 24V Comm...

Page 18: ...8 Outline Dimensions 1 Frame1 Single phase JNTHBCBA __ AC R500 0001 Three phase JNTHBCBA __ BC BE R500 0001 0002 2 Frame2 Single phase JNTHBCBA __ AC 0002 0003 Three phase JNTHBCBA __ BC BE 0003 0005...

Page 19: ...P00 4 Frame4 Three phase JNTHBCBB __ BC 0015 0020 0025 JNTHBCBB __ BE 0020 0025 0030 Unit mm inch LENGTH MODEL H H1 W W1 D D1 G Frame3 260 10 2 244 9 6 186 7 3 173 6 8 195 7 7 188 7 4 Frame4 360 14 2...

Page 20: ...pressure value Pressure Bar 1 Target Feedback stop flash HZ RPM Pressure Bar 1 Target Feedback Operating HZ RPM RUN STOP Target Pressure Value Setting HZ RPM Selecting the parameter group 15 0 Select...

Page 21: ...ions List Parameter Group No Description 15 Drive Status and Function Reset 16 Operation Parameters 17 PID Control Parameters 18 System Protect Parameters 19 Dual Pumps Parameters 20 Multifunction Inp...

Page 22: ...01 Only Setting 0002 Only Feedback 0 198 or 0xC6 4 16 Group Operation Parameters Function Code No Description Range unit Code Factory Setting Communication Address Remarks 16 0 Frequency Upper Limit H...

Page 23: ...r 0xB3 3 18 Group System Protect parameters Function Code No Description Range unit Code Factory Setting Communication Address Remarks 18 0 Target Pressure Value 0 10 25 50 Bar 2 00 Bar 168 or 0xA8 3...

Page 24: ...nsmitter 0 10 25 50 Bar 10 00 Bar 173 or 0xAD 3 19 2 Dual pump synchronal setting 0 Disable 1 Target Pressure Value Run Stop 2 Only Target Pressure Value 3 Only Run Stop 0 243 or 0xF3 5 19 3 Auto Shif...

Page 25: ...ng frequency 1 57 or 0x39 20 6 RELAY1 R1C R1B R1 A terminals in TM2 0 79 or 0x4F 20 7 RELAY2 R2B R2A terminals in TM2 0 Run 1 Fault terminal 2 Auto restart 3 Momentary power loss 4 E S 5 Free run stop...

Page 26: ...erse unavailable 1 11 or 0x0B 6 Notes 1 Modify parameter when inverter status is STOP can not change while inverter status is Run 2 Require to adjust position of SW3 of Control Board 3 The new paramet...

Page 27: ...of the three while the one 1 xxxx is the latest 2 In 15 2 the fault 1 xxxx will be displayed at first press you can read 2 xxx 3 xxx 1 xxx whereas the order is 3 xxx 2 xxx 1 xxx 3 xxx 3 In 15 2 the th...

Page 28: ...in accordance with above mentioned Establish the password procedure 15 7 123 remove the password command 1 15 7 999 remove the password command 2 The original password has already been removed Note 1...

Page 29: ...splay setting pressure value 3 15 9 0002 Only display feedback pressure value 9 16 0 Frequency Upper limit 0 01 400 00 Hz 16 1 Frequency Lower limit 0 00 400 00 Hz Operation example Confine output fre...

Page 30: ...n 16 5 Sleep Frequency and the time is longer than 18 7 Sleep delay time PID Sleep starts When inverter sleep mode starts deceleration time depends on setting value of 16 4 Acceleration and decelerati...

Page 31: ...it can reduce the time that pump get into sleep mode effectively When using water frequently we suggest that set 16 6 Cycle of water usage detection longer to reduce detection times this would be hel...

Page 32: ...tion When downward water usage detection is operating the frequency will decrease according to 16 B Deceleration time of water usage detection In the condition of using water the pressure will decreas...

Page 33: ...he operating drive quantity and output frequency in downward water usage detection 3 The operating order is master slave1 slave 2 slave 3 and the sleeping order is slave 3 slave 2 slave 3 the master a...

Page 34: ...n response Increase stabilize time Integration Time I G Smooth output frequency B Slow down response G Fast response B Change rapidly of output frequency For smooth feedback variations Differentiation...

Page 35: ...l were not the same as keypad display adjust this parameter to reduce the bias 17 5 Feedback Signal Type F select a signal type depends on the pressure sensor specification for the voltage type 0 10V...

Page 36: ...Time 0 01 2 50 Bar 17 9 Restart Level for Liquid Leakage Detection 0 01 2 50 Bar 17 7 0 0 sec Disable Liquid Leakage Detection When pump is sleeping the pressure value maybe decrease due to the liqui...

Page 37: ...ure value is lower than 17 8 during every 17 7 detection time the pump will keep in sleep mode until the pressure value is higher than the setting of 17 9 restart level Setting the value of 17 7 17 8...

Page 38: ...Bar 18 1 Max Pressure limit Time Bar AI2 S6 Feedback signal time time Hz Hip Hi p T1 T2 T3 AI2 S6 Feedback signal 18 1 Max Pressure limit 18 0 Target Pressure Value 18 2 Min Pressure limit 18 0 Targe...

Page 39: ...Hz Lop Lo p T1 T2 T3 18 1 Max Pressure limit 18 0 Target Pressure Value 18 2 Min Pressure limit T1 18 5 Low Pressure Alarm Time the Lop accumulate time will be reset after T1 T2 18 5 Low Pressure Ala...

Page 40: ...ency 0 00 200 0 Hz When S1 S5 any DI setting 6 PID disable pump will not operate according to PID function then set another DI 7 Forced operating frequency now the pump will operate depending on 18 C...

Page 41: ...g by then system is operating in the constant pressure B When water usage become larger then the output frequency of Master will increase If the feedback pressure does not reach setting range of 18 8...

Page 42: ...same 25 19 1 Max Pressure of Pressure Transmitter 0 10 25 50 Bar According to the specification of pressure transmitter to set pump system pressure base 26 19 5 AI2 S6 Gain adjustment 0 200 The dual...

Page 43: ...ut terminals which can be set to the above 7 functions 2 20 01 05 Function descriptions A 20 01 05 0 Forward run When forward command is on motor will operate when command is off motor will not operat...

Page 44: ...ad 7 Inverter overload protection 8 High Low pressure alarm 9 Power On 10 PID feedback signal offline 11 Over torque detection 31 20 8 Source of bias target pressure 0 Disable 1 AIN 2 VR 15 6 password...

Page 45: ...lection 0 Output Frequency 1 Frequency command 2 Output voltage 3 DC voltage 4 Output circuit 5 PID feedback signal 20 B Gain control of multifunction analog output 0 200 Multifunction analog output t...

Page 46: ...epairing Voltage too low during stop 1 Power voltage too low 2 Restraining resistor or fuse burnt out 3 Detection circuit malfunctions 1 Check if the power voltage was correct or not 2 Replace the res...

Page 47: ...a longer deceleration time 2 Add a brake resistor or brake module 3 Add a reactor at the power input side 4 Increase inverter capacity Illegal interrupt of CPU Outside noise interference Send back to...

Page 48: ...oo low 2 Power voltage varies widely 3 Main Circuit Relay error 1 Improve power quality 2 Set a longer acceleration time 3 Increase inverter capacitor Add a reactor at the power input side Send the in...

Page 49: ...output terminals T1 T2 and T3 correct Wiring must match U V and W terminals of the motor Motor runs inversely Are wiring for forward and reverse signals correct Check wiring are correct if necessary...

Page 50: ...S I are list as below formula 1 2 Cm Kg 14 22 P S I or 1P S I 0 07 2 Cm Kg 1 Bar 1 00 kPa 1 02 2 Cm Kg 14 5 P S I Conversion of the Pressure unit MPa KPa Bar Kg cm2 P S I atm mHg 1 1000 10 10 2 145 9...

Page 51: ...49...

Page 52: ...1 52 53 2 1 53 2 1 1 53 2 1 2 54 2 1 3 54 2 1 4 54 2 1 5 55 56 3 1 56 3 2 57 3 3 58 3 4 59 3 5 CVP 60 3 6 62 3 7 64 3 8 65 67 4 1 67 4 2 68 92 5 1 92 5 1 1 92 5 1 2 92 5 1 3 93 5 1 4 93 5 1 5 93 5 2 9...

Page 53: ...51 0 1 z z z z 200V 100 400V 10 z z T1 U T2 V T3 W AC z CMOS IC z z...

Page 54: ...15 Amps 4 2A OUTPUT AC 3 phases 0 400Hz VOLTAGE 0 480V Amps 2 3A TECO Electric Machinery Co Ltd BC LED BG LCD BL BLIND R500 0 5 0001 1 0 0002 2 0 0003 3 0 0005 5 0 7R50 7 5 0010 10 0015 15 0020 20 002...

Page 55: ...53 2 1 2 1 1 L1 L L2 L3 N T1 T2 T3 z z z 40 z IEC 61800 3 P57...

Page 56: ...54 2 1 2 CONNECTOR 2 1 3 5 2 1 4 z z z z z z z 5...

Page 57: ...55 2 1 5 10 40 95 RH 10 50 95 RH...

Page 58: ...56 3 1 z z z ON OFF z z z 200mA 0 1 z z AC z 200V 400V 15KW 600KVA AC z P57 z z T1 T2 T3 U V W T1 T2 T3 z T1 T2 T3 z 200V 100 400V 10 AC CVP...

Page 59: ...4 64 100 125 0025BC 25 18 5 34 0 80 125 150 0030BC 30 22 0 41 0 96 160 200 220V 0040BC 40 30 0 54 0 130 200 250 0001BE 1 0 75 1 7 2 3 6 10 0002BE 2 1 5 2 9 3 8 10 15 0003BE 3 2 2 4 0 5 2 10 20 0005BE...

Page 60: ...KG M 22 1 30 LBS IN KG CM 30 40 200 240V 40 50 60 75 380 480V 4 42 0 66 LBS FT KG M 53 1 66 LBS IN KG CM B L1 L2 L3 T1 T2 T3 P BR P1 1 105 2 240VAC 300V 480 VAC 600V 3 O C TM2 1 105 2 240VAC 300V 480...

Page 61: ...0 240V A 4 5 6 5 11 12 5 20 5 33 42 57 70 85 108 138 KG 1 2 1 2 1 2 1 75 1 9 5 6 5 6 15 15 15 33 34 1 0 1 0 2 0 2 0 2 0 2 0 2 0 2 0 2 0 2 0 2 0 2 0 380 480V JNTHBCBA BEAU F 0001 0002 0003 0005 7R50 0...

Page 62: ...R2A 24G S4 S5 1 L2 S L3 T ON OFF S6 AI2 10V AIN COM COM MC TM2 CON 2 RS485 RS232 CON1 V I SW2 SW3 NPN PNP SW1 SW2 AIN 0 10V 0 20mA SW3 S6 AI2 0 10V 0 20mA 2 10V 4 20mA Ver2 3 I POSITION 0 20mA V POSIT...

Page 63: ...24G S4 S5 1 L2 S L3 T ON OFF A12 10V AIN AGND AGND MC TM2 CON 2 RS485 RS232 CON1 V I SW2 SW3 NPN PNP SW1 SW2 AIN 0 10V 0 20mA SW3 AI2 0 10V 0 20mA 2 10V 4 20mA Ver2 3 I POSITION 0 20mA V POSITION 0 1...

Page 64: ...62 3 6 R2B R2A S6 S4 S5 S2 S3 S1 R1B R1C R1A 10V 24V COM AIN FM SW3 V I SW1 NPN PNP 19 0 0 20 0 1...

Page 65: ...AGND AIN FM 24G AI2 20 0 1 19 0 1 SW3 V I SW1 NPN PNP 19 0 2 4 SW3 V I SW1 NPN PNP R2B R2A S6 S4 S5 S2 S3 S1 R1B R1C R1A 10V 24V AGND AIN FM 24G AI2 R2B R2A S6 S4 S5 S2 S3 S1 R1B R1C R1A 10V 24V AGND...

Page 66: ...25 40HP and 440V 25 75HP U T1 V T2 W T3 R2A R2B R1C R1B R1A 250VAC 1A 30VDC 1A 10V VR AIN S7 High 8V Low 2V PNP 24V PNP SOURCE S1 S5 S6 S7 SW1 PNP CVP COM 24G AGND 1 NPN SINK S1 S5 COM SW1 NPN 2 NPN S...

Page 67: ...BE R500 0001 0002 2 Frame2 JNTHBCBA __ AC 0002 0003 JNTHBCBA __ BC BE 0003 0005 V I V I mm inch LENGTH MODEL H H1 W W1 Frame 1 163 6 4 150 5 9 90 3 5 78 3 1 Frame 2 187 1 7 4 170 5 6 7 128 5 0 114 6 4...

Page 68: ...CBB __ BC 0015 0020 0025 JNTHBCBB __ BE 0020 0025 0030 mm inch LENGTH MODEL H H1 W W1 D D1 G Frame3 260 10 2 244 9 6 186 7 3 173 6 8 195 7 7 188 7 4 Frame4 360 14 2 340 13 4 265 10 4 245 9 6 248 9 8 1...

Page 69: ...67 4 1 1 b1 18 5 DSP Power On Bar 1 HZ RPM Bar 1 HZ RPM RUN STOP HZ RPM 15 0 19 0 FUN FUN READ ENTER FUN END DSP AMP LED LED DSP Frequency READ ENTER READ ENTER v v DSP DSP DSP...

Page 70: ...68 4 2 15 16 17 PID 18 19 20...

Page 71: ...42 or 0x2A 3 15 9 0 1 2 0 198 or 0xC6 4 16 Group 16 0 0 01 400 00 Hz 60 00 Hz 24 or 0x18 1 16 1 0 00 400 00 Hz 00 00 Hz 25 or 0x19 1 16 2 0 1 3600 0 sec 5 00 sec 26 or 0x1A 16 3 0 1 3600 0 sec 5 00 se...

Page 72: ...0ms of 5 4ms 75 or 0x4B 17 7 0 0 10 0 sec 0 0 sec 177 or 0xB1 3 17 8 0 01 2 50 Bar 0 10 Bar 178 or 0xB2 3 17 9 0 01 2 50 Bar 0 50 Bar 179 or 0xB3 3 18 Group 18 0 0 10 25 50 Bar 2 00 Bar 168 or 0xA8 3...

Page 73: ...5 19 Group 19 0 0 1 2 1 3 2 4 3 0 172 or 0xAC 3 19 1 0 10 25 50 Bar 10 00 Bar 173 or 0xAD 3 19 2 0 1 Run Stop 2 3 Run Stop 0 243 or 0xF3 5 19 3 0 240 Hour 1 Hour 175 or 0xAF 19 4 0 30 0 Sec 10 0 Sec...

Page 74: ...0 1 A 2 3 RESET 4 5 6 PID 7 1 57 or 0x39 20 6 RELAY1 TM2 R1C R1B R1A 0 79 or 0x4F 20 7 RELAY2 TM2 R2B R2A 0 1 2 3 4 5 6 7 8 9 10 PID 11 12 8 80 or 0x50 20 8 Bias 0 1 AIN 2 VR 15 6 0 241 or 0xF1 20 9 B...

Page 75: ...SYS Profection SleepMode S6 AI2 PID 18 0 0 10 10 00 Bar 17 4 17 5 0 0 10v 1 4 20mA 17 0 17 1 17 2 17 3 PID 18 1 18 3 18 4 18 2 18 5 18 6 18 7 18 8 Gain Signal Filter 17 6 Motor Acc Dec Time 16 2 16 3...

Page 76: ...5 0015BC 420 0020BE 220 0020BC 425 0025BE 225 0025BC 430 0030BE 230 0030BC 440 0040BE 240 JNTHBCBA 0040BC 450 0050BE 460 0060BE 475 JNTHBCBA 0075BE 2 15 1 3 15 2 3 1 2 xxx 3 xxx 1 xxx 2 xxx 1 xxx 3 xx...

Page 77: ...ET 60Hz 6 15 7 0000 0999 15 7 888 15 7 15 7 15 7 15 7 123 1 15 7 999 2 1 2 3 15 7 123 888 999 000 1 15 8 0000 2 15 8 0001 3 15 8 0002 RUN 4 15 8 0003 1 15 9 0000 2 15 9 0001 3 15 9 0002 7 15 8 0000 00...

Page 78: ...0 Hz 10 16 2 0 1 3600 0 sec 16 3 0 1 3600 0 sec 16 4 0 1 3600 0 sec 16 2 16 3 16 4 PID Output Motor Output 400 00Hz 16 0 16 1 0 01 Hz 10 0 Bar 18 0 INV 16 3 16 2 16 2 16 4 0 1 Bar S6 AI2 17 4 17 5 17...

Page 79: ...77 11 16 5 0 00 400 00 Hz 16 6 0 0 200 0 sec 16 7 0 1 3600 0 sec 16 8 0 00 2 50 Bar 16 A 0 1 16 B 0 1 3600 0 sec 16 6 0 0 sec 16 6 16 8...

Page 80: ...78 Bar Hz time 18 7 16 5 16 8 16 6 time 18 0 16 B 16 A 1 16 6 0 0 sec 16 6 16 B 18 0 16 8 16 8 18 0 16 8 1 1 2 1 2 3 1 2 3 3 2 1 1 16 8 16 B...

Page 81: ...79 12 16 9 0 200 min 16 9 0 min Hi p Lo p 16 9 1BrE 19 3 16 9 1BrE 1BrE...

Page 82: ...80 13 17 0 P 0 0 10 0 rate 17 1 I 0 0 100 0 sec 17 2 D 0 00 10 00 sec P I D PID 18 0...

Page 83: ...81 14 17 3 O 0 0 2 5 sec 15 17 4 F 0 00 10 00 rate 17 5 0000 0 10V 0001 4 20mA 17 6 1 100 base on 4ms PID PID...

Page 84: ...82 16 17 7 0 0 10 0 sec 17 8 0 01 2 50 Bar 17 9 0 01 2 50 Bar 17 7 0 0 sec 17 7 17 8...

Page 85: ...83 Bar Hz time time INV 17 7 P1 Case2 17 8 P1 17 8 P2 17 8 P3 17 8 P2 17 7 17 7 P3 17 9 18 0 17 7 0 0 sec 17 7 17 8 17 8 17 9 17 7 17 8 17 9...

Page 86: ...1 0 10 25 50 Bar 18 2 0 10 25 50 Bar PID 18 1 18 2 18 18 0 0 10 25 50 Bar 18 3 0 0 600 0 sec 18 4 0 0 600 0 sec 18 1 18 0 18 2 Bar 18 1 time Bar 18 0 18 2 16 3 time time Hz Hip Hi p T1 18 3 T1 T2 18...

Page 87: ...85 19 18 0 0 10 25 50Bar 18 5 0 0 600 0 sec 18 6 0 0 600 0 sec 18 1 18 0 18 2 16 3 time time Bar Hz Lop Lo p T1 18 5 T1 T2 18 6 Lop T3 18 7 Lo p T1 T2 T3...

Page 88: ...Bar Bar Hz time 18 7 18 0 18 8 16 4 INV 18 0 18 8 time 21 18 9 0 999 min 1 18 9 0 16 9 2 18 9 1 999 18 9 Reset 22 18 A 0 100 rate 18 B 0 0 25 0 sec 1 18 A 0 2 18 A 0 18 0 x 18 A 18 B PbL 23 18 C 0 00...

Page 89: ...87 24 19 0 0 1 2 1 3 2 4 3 19 2 0 1 Run Stop 2 3 Run Stop 19 3 0 240 hour 19 4 0 30 0 sec Bar Hz time time Hz time 18 0 18 8 INV INV A B C D 19 4...

Page 90: ...1 2 19 5 200 17 4 25 19 1 0 10 25 50 Bar Pressure Transmitter 26 19 5 AI2 S6 0 200 AI2 _S6 200 17 4 27 19 6 0 100 100 16 0 19 7 0 100 100 16 0 19 6 0 19 7 0 18 8 1 19 6 0 19 4 2 19 6 1 100 19 6 16 0...

Page 91: ...D 7 1 TM2 S1 S5 7 2 20 01 05 A 20 01 05 0 ON OFF B 20 01 05 1 A E S OFF ON 20 00 1 20 00 0 C 20 01 05 2 Base Block b b Base Bolck Speed search D 20 01 05 3 RESET Reset ON Reset OFF E 20 01 05 4 OFF 20...

Page 92: ...R2B R2A 0 1 2 3 4 5 6 7 8 9 10 PID 11 31 20 8 Bias 0 1 AIN 2 VR 15 6 20 9 Bias 0 0 10 00 1 20 8 0 Disable 2 20 8 1 TM2 AIN 20 9 AIN 5V 5V AIN 5V EX 18 0 5 0 Bar 20 9 Bias 3 0 Bar AIN 8V 5 8V 5V 5 x 3...

Page 93: ...91 32 20 A 0 1 2 3 4 5 PID FEEDBACK 20 B 0 200 TM2 0 10Vdc 20 A 20 B...

Page 94: ...EEPROM EEPROM EEPROM 1 2 R1 3 1 2 3 1 2 1 2 5 1 2 1 2 3 1 2 3 1 2 3 4 5 1 2 3 4 5 1 2 1 2 1 2 3 4 CPU 20 1 2 1 16 2 16 3 2 1 2 1 2 1 2 1 2 OC S OC A OC C OV C Err4 OC D OVSP LV CTER CPF EPR OV OH LoP...

Page 95: ...93 PbL 1 2 5 1 3 1 2 CT 1 2 1 2 3 Relay 1 2 3 4 5 1 2 1 2 3 5 1 4 0 1Hz PID PID 1BrE 5 1 5 OC OL1 OL2 OL3 OH C LV C STP0 PDER Err1 1BrE...

Page 96: ...94 5 2 L1 L L2 L3 N T1 T2 T3 T1 T2 T3 U V W AC...

Page 97: ...m Kg 14 5 P S I MPa KPa Bar Kg cm2 P S I atm mHg 1 1000 10 10 2 145 9 87 7 5 0 001 1 0 01 0 011 0 145 9 87x10 3 7 5x10 1 0 1 100 1 1 02 14 5 0 987 0 75 0 09807 98 07 0 981 1 14 22 0 968 0 736 0 00689...

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