HITACHI - inverter.co.th · 3 Phase 400V 004HF 143.5 28 007-030HF 170.5 55 3 Phase 200V 037LF 3...
Transcript of HITACHI - inverter.co.th · 3 Phase 400V 004HF 143.5 28 007-030HF 170.5 55 3 Phase 200V 037LF 3...
ก87/511 ก ก ก 10150
! : (662)899-6800 ( ) ) * : (662)899-7272
E-mail : [email protected]
ก ()
HITACHI
1. ก 12. 23. 44. -ก ก"# ก$% 55. '%(
d : +ก(,-. ( Monitor Function ) 8F : +ก(,-;ก ( Main profile parameters ) 9A : +ก(,-'EF ( Standard functions ) 10b : +ก(,-กJ$ (Fine tuning functions) 14C : +ก(,-(% ' (' ( Intelligent terminal functions ) 20H : +ก(,-ก-ก$%O%( ( Motor constant related functions ) 23- C-1 ;-กQ(%' 24- C-1 ;-กQ(%(' 25
26U : +ก(,-.OT,กQ; ( User selected parameters ) 286. %.' กกJ+U;$E ( Error codes ) 297. ;กE%.' 318. ก$%.Jก W กQ Inverter 329. กEกY ( Factory Default Setting) 32
P : +ก(,-']" ( Pulse train input, torque, EzSQ, and communication related functions )
1. ก (Installation)
1.1 ก
1.2 ก "#"# $ %& ก ก !" #!"
#$% "
#ก!ก"& '(ก)ก)* !%
- #$""",-.กก- ก!ก/"""ก 0 #1กก !- 12- (%
- /3#422#1ก ' (26 710 ( 50 ;;")- "'=ก61 #1"61 2 (61 2# 20% - 90% RH)- "C/D #1%#ก
#"ก"" '"
1
2. ( Inverter Specifications )
001SF 002SF 004SF 007SF 015SF 022SF
VT 0.2 0.4 0.55 1.1 2.2 3.0
CT 0.1 0.2 0.4 0.8 1.5 2.2
VT 1/4 1/2 3/4 1.5 3.0 4.0
CT 1/8 1/4 1/2 1.0 2.0 3.0
VT 0.4 0.6 1.2 2.0 3.3 4.1
CT 0.2 0.5 1.0 1.7 2.7 3.8
VT 0.4 0.7 1.4 2.4 3.9 4.9
CT 0.3 0.6 1.2 2.0 3.3 4.5
VT 2.0 3.6 7.3 13.8 20.2 24.0
CT 1.3 3.0 6.3 11.5 16.8 22.0
VT 1.2 1.9 3.5 6.0 9.6 12.0
CT 1.0 1.6 3.0 5.0 8.0 11.0
100 100 100 50 50 35
001LF 002LF 004LF 007LF 015LF 022LF 037LF 055LF 075LF 110LF 150LF
VT 0.2 0.4 0.8 1.1 2.2 3.0 5.5 7.5 11.0 15.0 18.5
CT 0.1 0.2 0.4 0.8 1.5 2.2 3.7 5.5 7.5 11.0 15.0
VT 1/4 1/2 1.0 1.5 3.0 4.0 7.5 10.0 15.0 20.0 25.0
CT 1/8 1/4 1/2 1.0 2.0 3.0 5.0 7.5 10.0 15.0 20.0
VT 0.4 0.6 1.2 2.0 3.3 4.1 6.7 10.3 13.8 19.3 23.9
CT 0.2 0.5 1.0 1.7 2.7 3.8 6.0 8.6 11.4 16.2 20.7
VT 0.4 0.7 1.4 2.4 3.9 4.9 8.1 12.4 16.6 23.2 28.6
CT 0.3 0.6 1.2 2.0 3.3 4.5 7.2 10.3 13.7 19.5 24.9
VT 1.2 1.9 3.9 7.2 10.8 13.9 23.0 37.0 48.0 68.0 72.0
CT 1.0 1.6 3.3 6.0 9.0 12.7 20.5 30.8 39.6 57.1 62.6
VT 1.2 1.9 3.5 6.0 9.6 12.0 19.6 30.0 40.0 56.0 69.0
CT 1.0 1.6 3.0 5.0 8.0 11.0 17.5 25.0 33.0 47.0 60.0
100 100 100 50 50 35 35 20 17 17 10
OUTPUT แรงดน
กระแสขาออก
3-phase: 200 to 240V (proportional to input voltage)
ขนาดการใชงาน
(kVA)
Application Motor
kW
Hp
Model : WJ200 - xxx
Minimum value of resistor (Ω)
ขนาดการใชงาน
(kVA)
Application Motor
INPUT
240 V
200 V
Hp
Minimum value of resistor (Ω)
kW
3-phase: 200V-15% to 240V +10%, 50 / 60Hz ±5%
1-phase: 200V-15% to 240V +10%, 50 / 60Hz ±5%
3-phase: 200 to 240V (proportional to input voltage)
240 V
Starting Torque 200 % at 0.5 Hz.
200 V
OUTPUT
กระแสขาเขา
Starting Torque 200 % at 0.5 Hz.
INPUT แรงดน
กระแสขาเขา
แรงดน
กระแสขาออก
แรงดน
Model : WJ200 - xxx
2
004HF 007HF 015HF 022HF 030HF 040HF 055HF 075HF 110HF 150HF
VT 0.75 1.5 2.2 3.0 4.0 5.5 7.5 11.0 15.0 18.5
CT 0.4 0.75 1.5 2.2 3.0 4.0 5.5 7.5 11.0 15.0
VT 1.0 2.0 3.0 4.0 5.0 7.5 10.0 15.0 20.0 25.0
CT 1/2 1.0 2.0 3.0 4.0 5.0 5.5 7.5 11.0 15.0
VT 1.3 2.6 3.5 4.5 5.7 7.3 11.5 15.1 20.4 25.0
CT 1.1 2.2 3.1 3.6 4.7 6.0 9.7 11.8 15.7 20.4
VT 1.7 3.4 4.4 5.7 7.3 9.2 14.5 19.1 25.7 31.5
CT 1.4 2.8 3.9 4.5 5.9 7.6 12.3 14.9 19.9 25.7
VT 2.1 4.3 5.9 8.1 9.4 13.3 20.0 24.0 38.0 44.0
CT 1.8 3.6 5.2 6.5 7.7 11.0 16.9 18.8 29.4 35.9
VT 2.1 4.1 5.4 6.9 8.8 11.1 17.5 23.0 31.0 38.0
CT 1.8 3.4 4,8 5.5 7.2 9.2 14.8 18.0 24.0 31.0
180 180 180 100 100 100 70 70 70 35
3-phase: 400V-15% to 480V +10%, 50 / 60Hz ±5%
Starting Torque 200 % at 0.5 Hz.
Model : WJ200 - xxx
Application Motor
kW
Hp
ขนาดการใชงาน
(kVA)
380 V
480 V
INPUT แรงดน
Minimum value of resistor (Ω)
กระแสขาเขา
OUTPUT แรงดน
กระแสขาออก
3-phase: 400 to 480V (proportional to input voltage)
3
3. (Dimension)
Type W W1 H H1 D D1 D2 A S
WJ200 (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm)
001-002SF 109 13.5
004SF 122.5 27
001-002LF 109 13.5
004LF 122.5 27
007LF 145.5 50
1 Phase 200V 007-022SF 170.5 55
3 Phase 200V 015-022LF 170.5 55
3 Phase 400V 004HF 143.5 28
007-030HF 170.5 55
3 Phase 200V 037LF
3 Phase 400V 040HF
3 Phase 200V 055-075LF
3 Phase 400V 055-075HF
3 Phase 200V 110LF
3 Phase 400V 110-150HF
3 Phase 220V 150LF 220 192 350 336 175 84 5 7 7
140
180
Power
1 Phase 200V
68
140
56 128 118 2.6 5 4.5
3 Phase 200V
108 96 128 118 2.6 5 4.5
128 128 118 170.5 55 4.4 5 4.5
122 260 248 155 73.3 6 6 6
160 296 284 175 97 5 7 7
4
4. - ก (Power Terminal)
Inverter Inverter
ก!"#ก$%&$'%(') (Control Circuit )
007 022SF
055 075LF 055 075HF
110LF
150LF
110 150HF
R Break
Breakig Unit ก
"#
P/+, RB
P/+, N/-
G
004 040HF
,-./0
1.23
DC Reactor
R/L1, S/L2, T/L3
U/T1, V/T2, W/T3
PD/+1, P/+
001 007LF 001 004SF
015 037LF
Source Type
Sink Type
5
PTC ก L
100 mA: max
&'(( Analog H,O,OI
AL0 AL1 AL2
2&3 Analog 4 +10V
ก2 Analog 3 0-20mA2&3 Analog 3 0-10V
24 Vdc,100mA.
<3 ISO13849-1
OI O
&'((A3B2&3 Analog Pulse train &'(( Analog 3
27VDC max.
EA
H SP, SN
CM2 AM EO L (2OB)
L (2O3)
PLC
11/EDM
12
GS1(3) GS2(4) PTC(5) EB(7)
P24
1
2
3/GS1
4/GS2
5/PTC
6
7/EB
34V Relay : NO34V Relay : NC
((2 Transistor
&'((3A3B
&'ก
&'((3AA3B
A3B3 OYBZ[32YB
34AZ\&4
Safe stop input GS1Safe stop input GS2Motor thermistor input
50mA max. ON state current &'((3AA3B 1-7
&34V Relay
2B[2&3 +24Vdc
Pulse train 3A BPulse train 3A A
กZBก`'4 EDM : ISO13849-1
4VDC max. ON state voltage depression
27 VDC max. OFF state voltage `'4& CM2
ON : 2&32BA3Bก PLC :
18 VDC (c&) OFF : 2&32BA3Bก PLC
: 3 VDC (&)
2kHz & ,& [PLC] 32kHz & ,& [L]
0 to 10VDC 2mA max.10VDC 2mA max.
Maximum capacity of relays
AL1–AL0: 250VAC, 2A (R load)/ 0.2A (L load)
30VDC, 3A (R load)/ 0.6A (L load)
AL2–AL0: 250VAC, 1A (R load)/ 0.2A (L load)
30VDC, 1A (R load)/ (L load)
Minimum capacity of relays
AL1–AL0, AL2–A
4 to 19.6 mA range, input impedance 100 Ohm 0 to 9.8 VDC ,input impedance 10 kOhm 10VDC nominal, 10mA max. RS485 Modbus communication.
Source type (connecting [P24] to [1] i [7]Sink type (connecting [L] to [1] i [7]
6
ก d001 Output 0.00 to 99.99 / 100.0 to 400.0 Hz. - Hzd002 ก !"# 0.0 to 655.3 A. - A
F : *+,-#./กO : 012r : #+,-#./ก
d004 456#ก789,68::; 0 - 9999 - -
d008 </,; !"# -400 to 400.0 [Hz] - Hz.d009 ?89/ -200 to +200 % 0 %d010 C9689/ -200 to +200 % 0 %d012 C9689/ -200 to +200 % 0 %d013 8# Output 0.0 to 600.0 V 0 Vd014 E78# !" 0.0 to 999.9 kW 0 kWd015 E78# 0 - 9999000 0 kW
0 - 999910,000 - 99,999 ( 100 - 999)
0 - 999910,000 - 99,999 ( 100 - 999)
1.Capacitor2.E87
d023 EzSQ Program Counter 0-1024 - -d024 EzSQ Program Number 0000 - 9999 - -d025 User Monitor 1 -2147483647 to 2147483647 - -d026 User Monitor 2 -2147483647 to 2147483647 - -d027 User Monitor 3 -2147483647 to 2147483647 - -d029 *?0#*8^ -268435455 to 268435455 - -d030 *?0#456#ก789 -268435455 to 268435455 - -d050 _ 789`70 b160-b161 - -d060 a0ก?# I-C (Heavy) , I-V (Normal) ,P (PM) - -
0 !.
0 !.
+7ก?# (Power On)
+7ก?# (Run)
d017
d016
-
d007 - -`7ก489+ก7 Output
0 - 3999
d003 /hก02#,66+*6i
-
-
0 ºC62;0k_/ Heat Sink
d022 ก+*l6#612ก !"#
d018 -20 to 150 OC
#ก;i?#,6 Output Terminal
d006
(ก) *d+
-
-
d005#ก;i?#,6 Input Terminal
-
8
ก d080 กก Trip 0 to 65535 - -
d090 ก !" (Warning) )ก !" 0 Vd102 + DC Bus 0.0 to 999.9 / 1000. [V] 0 Vd103 789):;ก 0.0 to 100.0 [%] 0 %
$ก% &F(
ก F001 +=> Output 0.00- => @A (A004) 0.5 HzF002 :+=F 1 0.01-3,600 0.01 F202 :+=F 1(Motor2) 0.01-3,600 0.01 F003 ::=F 1 0.01-3,600 0.01 F203 ::=F 1(Motor2) 0.01-3,600 0.01
00 : =KF=Lก 01 : KF=Lก 00 : ก)M" Keypad 01 : ก9Rก= EzSQ
P031:!"กก :+=F / :=F
- -
-
F004ก)Vก)=AK"=" "W
- -
%
d081 to
d086
+8=K"ก ;=M"
0.0 to 100.0 [%]) 0d104
ก Trip ) Trip -
9
ก A ก !
00 : 01 : ก 02 : F001 03 : ก!"#!!$!% (Modbus) 04 : ก!/ก"012%"3 (Option) 06 : ก!"#!! pulse train 07 : "ก!/"?ก" Easy Sequence 10 : EFก1ก"G0 01 : !ก2 "133H 02 : !ก/I RUN-STOP 03 : ก!"#!!$!% (Modbus) 04 : ก!/ก"012%"3 (Option)
A003/203 RHSTU2"1 30Hz - R%X%$ 60 Y.A004/204 R%X%$ก" 2 ก!RHST - 400Hz 60 Y.
00 : 2Sก"# [O] ?#[OI] 02 : 2Sก"# [O] ?# 03 : 2Sก"# [OI] ?#
A011 R2"3 O-L 0.00 R_ 400 0.0 Hz.A012 R%$ O-L 0.00 R_ 400 0.0 Hz.A013 2/"12 a1$2"3 O-L 0 R_ 100 0.0 %A014 2/"12 a1$%$ O-L 0 R_ 100 100 %
00 : 2"3ก A011 01 : 2"3 0 Hz
A016 Gก"ก"R 1 R_ 30 (2 mSec), 31(500 mSec) 8 ... 00 :g 01 :2 "13 PRG 02 : $2 00 : ?!!g!"$ 01 : ?!!!3$
A020 R 0 0.00 - R%X%$ 0.00 Hz.
A038 Riก 0 R_ 9.99 6.00 Hz. 00 : gก"$?!!3%"# 01 : gก"$ F003 02 : gก"$?!! DC 2!" 03 : $?!!3%"# 04 : F003 05 : DC 2!"
$ก"/"?ก" Easy Sequence
A017 00
2Sกก" GUก"R
A019
R 1m15
...
Hz.A015
A005
A002/202
2Sกก"2"3RU3H O-L
01
2Sกก" GU [AT] 00 ....
Y.2Sกก"!RU32"12"1
A001/201
2Sกก"!ก" GU32"12"1
02
02 ....
A021-A035
A039ก"$$ก" G?!!iก
00
0.00 - R%X%$ 0.00
04
Hz.
....
.Y
10
ก
00 : : Manual 01 : : Automatic
A042/242 !"#$%!&'( (Manual) 0.00 ,- 20.0 1 %A043/243 !"#!0#,12$%!&'( (Manual) 0 ,- 50 5 %
00 : (VC) 01 : (VP1.7) 02 : ( !"# Free-V/F) 03 : (SLV)
A045/245 !"#ก?@%A V/F 20 ,- 100 100 %A046/246 !"#ก?@%CDCEDA 0 ,- 255 100 F.A047/247 !"#ก?@%CDCE!"#(GA 1 ,- 255 100 F.
00 : H"$I## 01 : $I## 02 : $I###!0#,12 A052
A052 !"#!0#,12 D1.J1.ก 0.00 ,- 60.0 0.5 Hz.A053 0G#ก#กDM0E D1.J1. 0.0 ,- 5.0 0.0 0#$1A054 !0#A D1.J1 ก 0 ,- 100/70 (CT/VT) 50 %A055 0G#Aก#กDM0E D1.J1. 0.0 ,- 60.0 0.0 0#$1
00 : A(OO#? (Edge) 01 : SDA(OO#? (Level)
A057 2M!0#Aก D1.J1. 0 ,- 100/70 (CT/VT) 0 %A058 0G#2MAก D1.J1. 0.0 ,- 60.0 0.0 0#$1A059 !0#,12W#XSA?SกDM0E D1.J1. 2.0 ,- 15.0/10.0 (CT/VT) 5.0 kHz.A061 ZI#กD!0#,12(&([D (Upper limit) 0.00 / A062 ,- A004 0.00 Hz.
A062/262 ZI#กD!0#,122I#([D (Lower limit) 0.00 / B082 ,- A061 0 Hz.
A069 XE[D0G#$12!0#,12$12Mก# 0.00 ,- 400.0 0.0 Hz.A070 0G#XE[D$12!0#,12$12Mก# 0.0 ,- 60.0 0.0 0#$1
00 : H"$I## 01 : $I## 02 : $I##AM#ก(OO#?#$%W[$
A072 !"# P Aก#$I## PID 0.0 ,- 25.00 1.0 F.A073 !"# I Aก#$I## PID 0.00 ,- 3600 1.0 0#$1A074 !"# D Aก#$I## PID 0.00 ,- 100.0 .0.00 0#$1A075 !"#(กGAก#bกG (PV) 0.01 ,- 99.99 1.0 F.
00 : กS( ( Z[D OI ) 01 : D ( Z[D O ) 02 : D( (Modbus) 03 : !0#,12 pulse train 10 : # A141/A142
Hz.
Hz.
F.
00
00 F.
00
A071
F.
F.00
!"#Z[Dก-2กG#A!0#,12กSDD !0#ก0M#A!0#,12กSDD
F.A051
01Gfกก#0ZZ(OO#? $12W[ [DB]
A056
A063,A065
A067
A064,A066
A068
0.00 ,- 400.0
0.00 ,- 10.00
00
0.00
1.0
Gfกก#$I##A D1.J1.ก
Gfกก#$I##A$%!&'(
Gfก& V/FA044/244
A041
A076Gfก !"#M#A(OO#? PID
Gfกก#$I## PID
F.
11
ก
00 : PID = SP-PV 01 : PID = -(SP-PV)
A078 ก !"!#$ PID 0.0 &'$ 100.0 0 % 00 :)*+$ 01 : ,-$ ( O ) 02 : ก-0, ( OI ) 00 : $!1 21 01 : )*+$ 02 : $!13ก 245+2$162* -72 200 : 200/215/220/230/240 400 : 380/400/415/440/460/480
A083 21#$ก-ก-$,-$ AVR 0.00 &'$ 100.0 0.3 2>A084 ก?"1 21#$,-$ AVR 50 &'$ 200 100 %A085 1@กAB*ก-$ 00 : AB*Cก! 01 : AB*C-0B31$$ 00 D.A086 C-E6+C-0B31$$ 0.0 &'$ 100 50 %
A092/292 !G$6+62* -+$>H 2 0.01 &'$ 3600 10 2>A093/293 !G$6+62*B+2$>H 2 0.01 &'$ 3600 10 2>
00 : C1>H3423!+ 2CH 01 : C1>H3423ก-!G$6+62*&>H 02 : C1>H3423 FW กE REV
A095 62*&>H>H0 C1>H362* -+$ 0.00 &'$ 400.0 0.00 Hz.A096 62*&>H>H0 C1>H362*B+2$ 0.00 &'$ 400.0 0.00 Hz.A097 1@ก-OC,EE#$62* -+$ 00 : 4!-$ 01 : 4A64$-S
02 : 4A64$-U 03 : 4A64$-U ก1E4 04 : ,EEA64$ S ,!++2ก1$ CQ 4!-$(EL-S)
A101 62*&>H -H*!4 OI-L 0.00 Hz.A102 62*&>H43 OI-L 0.00 Hz.A103 C-" S7!" -H*!4 OI-L 20 %A104 C-" S7!"43 O-L 100 %A105 OI 1@กก- -H*!462*&>H 00 : -H*ก6+ A101 01 : -H*>H 0 Hz 00 D.A131 6+62*A64$#$62* -+$ 02 D.A132 6+62*A64$#$62*B+2$ 02 D.
A142
A094 1@ก2T>ก- C1>H3,C1$62* -+$,10B+2$ ก6+>H 1 CQ6+>H 2
1@ก! B B-EVW$ก"5Hก-62
00
D.
A141 1@ก! A B-EVW$ก"5Hก-62
01
0.00 &'$ 400.0
0 - 100 %
D.
200/400 V 1@ก,-$#$ AVR
00 : CX* H*6+-16+ >HB4 01 : A21+*>HB4 02 : !>H [O] 03 : !>H [OI] 04 : -0EE 7 2-"6 05 : !+กECก-" -* (Option) 07 : !+กE-0EE pulse train
01 (#33!2 17ก43) f 10 (#33!2*ก)
A082
00 D.
00 D.
02 1@กก--กg,-$hB46$>H (AVR)
A077
A098 1@ก-OC,EE#$62*B+2$
1@ก-OC,EEก-ก1Eก-$#$ PID
1@ก-OC,EECiก1E#$ PID
A079
A081
00
02
D.
....
D.
12
ก
00 : ADD ( A input + B input ) 01 : SUB ( A input - B input ) 02 : MUL (A input x B input )
A145 ก !"#$%&%'$()# 0.00 (+ 400.0 0.00 ,.
A150 EL-S curve 2)#345 "#$ก & 0 - 50 % 10 %A151 EL-S curve 2)#34537ก & 0 - 50 % 10 %A152 EL-S curve 2)#345 "#$ก85 0 - 50 % 10 %A153 EL-S curve 2)#34537ก85 0 - 50 % 10 %A154 ก:;45%'$()#<=>85%'$ ?' 0.00 (+ 400.0 0.00 Hz.
A156 ก=CDก2EF<G PID 0.00 (+ 400.0 0 Hz.A157 '8Gก2EF<G PID 0.0 (+ 25.5 0 '"F2)A161 %'$()# "#$KF VR 0 Hz.A162 %'$()#N452K; VR 0 Hz.A163 OGD P?FD345 "#$KF VR 0 %A164 OGD P?FD345N452K; VR 100 %A165 8QGกก "#$KF%'$()# VR 00 : "#$3ก%& A161 01 : "#$2)# 0 Hz 1 ...
,.
0 - 100 %
'8RFก:;45%'$()#<=>85
%'$ ?''"F2)
A146 00 : %'$()#2)# + (A145)
01 : %'$()#2)# - (A145)00
A155 0.0 (+ 60.0 0.0
0.00 (+ 400.0
8QGก2"S2ก !"#$%&%'$()#
A143 8QGก'"T)ก%EF'= 00 ,.
13
ก b ก !
00 : Trip 01 : 0 Hz 02 : "#$ % #&ก()* ก 03 : Trip #&ก#,-.()* ก 04 : #&ก()* ก
00 : 01 : 02 : "ก#,-.0ก 00 : 16 (2 01 : -ก(2
00 : 0 01 : 0 Hz 02 : "#$ % #&ก()* ก 03 : 0#&ก#,-.()* ก 04 : #&ก()* ก
b011 2)ก "# 0.3 *5 100.0 1.0 )
00 : 6.. 01 : 6.( 02 : 27066
b013/213
Electronic Thermal (()*)66 1
Electronic Thermal (()*)66 2
7066 1 E Electronic Thermal (ก)
b015
b016
b017
b018
00
0.3 *5 25.0
0.0
0 *5 Electronic Thermal (()*) 7066 2 0
00
0
%
%ก7066E Electric thermal Overload
1 M
2.6E Electronics thermal Overload
Oก.ก
0.00 *5 400.0
2( )"P )Qก ),6.$
b012/212 0.2 *5 1.0
b002
%ก#.Eก"#
b001
&)(2Eก$"# #&กQก2( ()*-.&"#
00
1.0
M
M
)
M
Hz.
b003 )
%กกE %ก.Qก
2) ก &"#
0.3 *5 100.0
b007
b005
b004
1.0
M%กก"# #&กก. . #% กก
b008
(2&)(2Eก$"# #&ก./กก
0 *5 3b010 3
0.00 A.
0 *5 Oก.ก
A.
Hz.
7066 2 E Electronic Thermal (ก)
0 *5 Oก.ก)
0 *5 Oก.ก)
Hz.
Electronic Thermal 66 1 *5 Electronic Thermal 66 3 (()*)
0 Hz.
b0197066 3 E Electronic Thermal (()*)
Electronic Thermal (()*) 66 2 *5 400 Hz.
0
14
ก
00 : 01 : 02 :
b022 /022 ก"#$$%#& 20 '( 200/150 (CT/VT) 1.5 A.
00 : 01 : 02 :
b027 2ก3กก44 ก"ก3 00 : 01 : 01 5b028 ก"ก$ก3 & 20 '( 200/150 (CT/VT) xxx A.b029 &ก$ก3 & 0.1 '( 3000 0.5 3
00 : '":;2&2: 01 : '"<": 02 : '; 00 : =3$%:ก$>$ SFT
02 : $=3$%:ก 03 : $=3$%:ก=3$% 10 : "'ก;A;AB>$
b033 2"2$$% 5 '( 20 10 5b034 ก>$ Run /Power 0 '( 9999 / 1000 '( 6553 0 Hr.
00 : 4ก 01 : A 02 : A
b036 >$ก=>$$$ก$23 0 '( 255 ("-) 2 ...
b026
4ก3Oก&:A$$$%b035 00
& 2 $3$%$%#$$%#&
0.1 '( 3000 3
b025
03 : (ก"2;$ก )
>$กก#$$%#& 2
5
A.1.5 ก"#$$%#& 2
20 '( 200/150 (CT/VT)
1.0
5>$กก#$$%#&
1.0 3& $3$%$%#$$%#&
b023 /023 0.1 '( 3000
01b024
b020
03 : (ก"2;$ก )
01
0 '( =3กก"$3$%$%0 '( =3ก
ก"
b021
A.<P $3" 3 A$ Electronic Thermal (ก")
...
b031
0 5A$'ก3 &b030
01 : =3$%:กYZก% F001 $ >$ SFT
#&ก$#Pก 00 5
15
ก
00 : 01 : 02 : 03 : !"!#$"! 04 : &'ก)*$+$,$ 05 : &'ก)*$.! 000 : &'ก)*$/ก"0 SET 001 - 060 (d001-d060) 201 : F001 202 : /&'ก)*$#ก"0 STR
b039 / User Parameter E$F 00 : /G$ 01 : G$ 00 .... 00 : /I$ Quandant 1-4 01 : "!#$E# Teminal 02 : OOP O Input
b041-044 TGกUVF Q1-Q4 0-200 % , /I* 200 %b045 !+ กกUG$ LAD Stop 00 : /G$ 01 : G$ 00 ].b046 "^ ก$กU$ก!VF_ 00 : /"^ ก$ 01 : "^ ก$ 01 ].b049 !+ กEกUI*$ 00 : CT Mode 01 : VT Mode 00 ].
00 : Trip 01 : $/!!# 02 : $/!!##กUV DC Bus
b053 !$/ กUV 0.01 - 3600 1.0 F$b054 Uก กUV 0.0 - 10.0 Hz. 0.0 Hz.
].!+ กETGกUVFb040 00
...TGก/กU.!b037
!+ ก/กU.!UF$b038 001 ....
b050 VกU$/P&ก 00
04
].
/UVU$ DC Bus + VกU$/P&ก
0 - 1000 220/440 Vdc
03 : $/!!##กUV DC Bus !UF$I/
b051
/UVU$กF$+ V!$/
b052 0 - 1000 360/720 Vdc
UV*/ กU"U#V#VOOP OUV*/G กU"U#V#VOOP O
0 - 100 %
0 - 100 %
100
0
].
].
b060
b061
*/ Hysteresis กU"U#V#VOOP O
0 - 10 %b062
b063UV*/ กU"U#V#VOOP OI
0 - 100 %
0 - 100 % 0
0 ].
100 ].
].
b065*/ Hysteresis กU"U#V#VOOP OI
0 - 10 % 0 ].
b064UV*/G กU"U#V#VOOP OI
16
ก
b075 - 10 50 OC 40 OCb078 Watt-hour reset 00 : +,-. 01 : ,-. 00 /.b079 2ก456 Watt-Hour 1 - 1000 1 /.b082 9:.2;:ก 0.10 - 9.99 Hz 0.50 Hz.b083 2;:>? 2.0 - 15.0 kHz. 2.00 kHz.
00 : +,-. 01 : AB?2ก Trip 02 : 9:.F, ก>9G
b085 9AHกIJ.ก9:.F 00 : Area A 01 : Area B 00 /.b086 B22;: 0.01 - 99.99 1.0 /.
00 : ,-. 01 : +,-. 02 : +,-.?N 6 00 : 9:,-.,;: 0 Hz. 01: 9:,-. 29O2?.. 02 : 9:,-.,;:2;:,;:+2 00 : +,-. 01 : ,-.I6Nก2PPPกกก?45,;:FQ. 02 : ,-.I6Nก2PPPก
b090 ก9ก 0 - 10 (0-100%) 00 %b091 9AHกI6กN 6,-. 00 : F003 01 : Free Run 00 /.
00 : ,-.A692A 01 : ,-.?,;:;5XX5: Run 02 : ,-.
b093 Aก,-.>6A 00 : .92A,-. 01 : AA 00 : , ก>9G
02 : 9Y>?กA Uxxx 03 : Nก92.กA Uxxx 00 : +,-. 01 : A692ANก92.?N 6 02 : A692A
b096 ?646.2P9ก 330 to 380 / 660 to 760 [V] 360 / 720 Vdc
I6ก9:.Fb084
/.
/.
03 : AB?2ก Trip 4A?9:.F, ก>9G 04 : AB?2ก Trip ,9:.F, ก>9G 4A?AIB4ก EzSQ
00 ./
0 - 100% 0
00 - 100%
?646.5XX O 9H:กBA6ก?646.5XX OI 9H:กBA6ก
b070
b071
012 ก,-.>6A?N2.
b092
b088
b087ก5:N 6,-.Pก.P2
00
b089
01 : , ก>9GNก92. Input / Output Termial 4A?ก5H:5
00 /.9AHกB4กH.9:.b094
01กBA62;:>?I.
/.
00 /.9AHกก,-.2P9กb095
/.
00 /.9:,-.FAPก Free Run
/.
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
ESC SET
Hz
A
Hz
A
Hz
A
Hz
A
A
Hz
Hz
A
32