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Компания Shihlin Electric была основана в 1955 году и занималась исследованиями, разработками, производством и маркетинговой интеграцией. Наше присутствие расширилось от Тайваня до мирового рынка
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Preface
Thank you for your continuous use and support of our company’s products. Our
company’s R&D group’s long-term technical collaboration with domestic
research institutes and the world’s major companies enables us to steadily work
on the research and development of various products. Indeed, Shihlin Electric’s
FA related products have reached international standard.
With years of effort in promoting inverters and accommodating customer
requirements, as well as detailed planning and design, now we are launching the
SS2-021/SS2-023/SS2-043 series inverter. Whether it is product R&D stage,
final product verification, or product manufacturing, all the processes are
conducted under tight and systemic control. The quality of Shihlin Electric
products wins customer trust, and thus Shihlin Electric products are your best
choice.
Please contact us if you have any special need.For tasks entrusted by our
customers, we will design inverters specifically meeting the customers’ needs in
a short period of time with excellent professional background and rigorous
attitude.
To fully deliver the superior performance of the products as well as for the safety
considerations for people and equipments, please read this manual carefully and
keep it for later calibration or maintenance.
Summary of Contents for Shihlin electric SS2-021 Series
Shihlin Преобразователи частоты Серии SS2 Manual RU
Инвертор Shihlin Серия SS2 — Интеллектуальный дом
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shihlin-inverter-ss2-series-manual-RU
www.seec.com.tw
Compact Design Vector Control SS2 Series Inverter
(0.4KW-5.5KW)
Superior performance just for you
ISO 14001 ISO 9001
BSMI
BSMI
REGISTERED
CERT. NO. 4A4E003
REGISTERED
CERT. NO. 4A4Y003
1.
SS2 . , : · ; · , .
1.1
( )
,
, .
1.2
2.3
:
: 0.4: 0.4 0.75: 0.75 ...
. : 021: 220/1.
023: 220/3. 043: 400/3.
SS2-021-0.4K (SS2 , 1./220, 0.4) SS2-043-3.7K(SS2 , 1./380, 3.7)
SNKSS20210R4K SNKSS20433R7K
3
2.
SS2
2.1. 1/220
SS2-021-
0.4K
0.75K
1.5K
2.2K
HP (..)
0.5
1
2
3
0.4
0.75
1.5
2.2
. (*)
0.95
1.5
2.5
4.2
A (*)
2.7
4.5
8
11
150% 60 ; 200% 1 .
. 3 200~240 AC
,
1 200~240 (170~264) 50/ 60 ±5%
1.5
2.5
3.5
6.4
()
1.1
1.2
1.6
1.7
2.2. 3/400
SS2-043-
0.4 0.75 1.5 2.2 3.7
5.5
HP (..)
0.5
1
2
3
5
7
0.4 0.75 1.5 2.2 3.7
5.5
. (*) 1
2
3
4.6 6.9
9.2
A (*)
1.5
2.6
4.2
6
9
12
150% 60 ; 200% 1
. 3 380~480
3 380~480 50 / 60 3 323~528 50 / 60 ±5%
1.5 2.5
4.5 6.9 10.4 13.8
()
1.1 1.1 1.2 1.6 1.7
1.7
*: : (P.72) ; - 220/440; - 60, 50 0.
4
2.3.
SVPWM (- ), V/F-, .
. 0. 1~650
.
100, 0.01. 100, 0.1.
.
0~5V, 1/500; 0~10V 4~20mA, 1/1000.
. ±0.01% . . . ±0.5% . .
/
(P.19), (P.3). V/f (P.14).
150% 3, 200% 5: .
0 30% (P.0), , .
/
/ (P.7, P.8) (0.01/0.1), P.21. : 0~360 0~3600. «/» P.29.
0 120
(P.10); 0~60 (P.11);
0~30% (P.12).
(P.71).
- 0 250% (P.22).
, 0~5 . , 0~10 . , 4~20 . .
, .
- . . P.170~P.183.
(STF, STR), (RT), ' 16- ' (RL, RM, RH, REX), (OH), (RES), .. ( P.80~P.84, P.86)
SOSE P.40 (RUN), (FU),
.
(SU), (OL),
ABC
P.85
(OMD), (PO1),
(ALARM),
(PO2),
(PO3), (BP),
(GP).
(0~10VDC)
AM5
, (P.54).
5
SS2
, , .
.
, , , , (6) ,
(PU).
RS485
RS485, RJ-45.
,
,
/
(+/P)-(-/N), ,
(P.9), IGBT
, ,
RS485, ..
-10 ~ +50 0 ( ), -10~ +40 0. .
90%Rh ( )
-20 ~ +65 0
, , ,
1000 , 5.9/2 (0.6G).
IP20
2
Class I
,
6
2.4. - 2.4.1. A
SS2-021-0.4K SS2-021-0.75K SS2-023-0.4K SS2-023-0.75K SS2-023-1.5K SS2-043-0.4K SS2-043-0.75K SS2-043-1.5K
H (mm)
174
H1 (mm) 165
7
W
W1
D
(mm)
(mm)
80
58
134
2.4.2. B
SS2
SS2-021-1.5K SS2-021-2.2K SS2-023-2.2K SS2-023-3.7K SS2-043-2.2K SS2-043-3.7K SS2-043-5.5K
H (mm)
174
H1
W
W1
(mm)
(mm)
165
110.5
58
8
D (mm)
134
2.5.
LED-
.
: 1. :
2. :
9
3.
SS2
3.1.
, .
3. 2.
. : 1. , . 2. -20 ... +65 0. 3. 0%...95%, . 4. , . 5. .
1. , , , .
2. , .
3. , 30 . , .
4. , , , , ( ).
5. . . .
3.3.
, , . . , . (), , :
1. .
. , .
10
() . ; ( 20 ), , , . 90 . , . , . , , , , , . . , , 20 .
2. , .
, , , . , . .
3. .
. .
4. .
. , , , . . «».
5. .
. , , . ; ( 50 ), . , . 5 .
11
3.4.
1. .
SS2
2. - .
3. 4.
.
5. , , ..
6. , , .
7. , .
8. , , .
9. .
10. . .
12
: 1. DIN-
2. DIN-
3.
:
1. M4. 2. , , . 3. , , . , , .
13
SS2
3.5.
Power
EMI filter
R/L1
S/ L2
T/ L3
U/T1 V/T2
W/ T3
Motor
FUSE/NFB
Magneticcontactor InputACLineReactor
Ze-rophaseReactor
- Brakingresistor
+/P
B R
PR -/N
Zero-phaseReactor
OutputAC LineReactor
/
-
, . . , . , . , , , (. ) 500 6 , 10 . , , . , , . 10 . . . (>50) .
14
3.6.
/ . .
1/3-.
220/380VAC
( )
1 2 3
.
1-10 2
RS-485 (RJ45)
.
===== ======================================================== 1. , . P.80~P.84, P.86. 2. , PC SD . 3. ( . ) . 3.7 4. SO FM 10X P.64, P.74. =======================================================================
15
SS2
: 1. . P.80~P.84, P.86, . P.40 . 2. : « (NPN)», SD; « (PNP)», PC. . Sink- « », Sours- « »:
Sink- (NPN)
Source- (PNP)
« (NPN)».
, - .
Inverter
STF
PLC
Inverter STF
STR
I
PC
DC SD 24V
STR
PC
DC
I
SD 24V
SiSnikn-kInput.:themulti-function control ter«minal isshorted»directlywithSD SD
PLC
Sink-Input: .themulti-functioncontrol terminal isconnected directlywithopen-collector PLC SD
Inverter
STF
STR
PC
DC
DC
24V
SD 24V
I
SSininkkI-nput:themulti-function controlterminalisconnected with open-collector PLC and external power supply
16
« (PNP)».
, SD - .
Inverter PLC
STF
Inverter STF
STR
SD
I
DC
PC 24V
STR
SD
DC
I
PC 24V
SouSroceu-rceInp.ut:themulti-functioncontrol t«erminalisshorte»ddirectlywithPC PC
PLC
SSoouurrccee-Input: t.hemulti-functioncontrolterminal isconnecteddirectlywithopen-emitterPLC PC
Inverter
STF
STR
DC 24 V
I
SD
DC PC 24V
SourcSeo-urceInput:themulti-functioncontrolterminalis connected with open-emitter PLC and external power supply
R/L1- S/L2- T/L3 .
U/T1-V/T2-W/T3 .
+/P- PR .
(. 1, 2)
(+/P)-(-N) .
(. 3)
. 220
. 400
.
(. 4)
17
SS2
: 1. SS2 . .
2. . P.30. 3. +/P -/N -
. , +/P -/N.
. -/N , .. !
4. . , , . , , . . , .
Best
Average
Poor
18
STF
STR
. : SINK
M0
(NPN) SOURCE (PNP).
M1
.
M2
.
P.80~P.84, P.86.
RES
SD
(0V) SINK
(DC24V),
PC
SOURCE. .
50.
10
: DC 10V. . 5.
2
: 0~5V 0~10V.
P.38
4
0~5V 0~10V / 4~20 (.
P.39
P.17) ( 1)
5
/: 2, 4, 10 AM.
.
A B C SO SE
AM
RJ45
/ VDC30V / VAC230V-0.3A A-C , B-C .
. :DC24V-0.1A. . P.40. .
. : 0~10VDC/2A. . P.54, P.55, P.56, P.191, P.192. RS-485 DU06 , PC PLC.
19
SS2
3.7.
: 1. U/T1-V/T2-W/T3
, , . 2. , .
3. . STF STR.
4. , .
5. , . , 2. ( 500 ).
6. .
7. ( ) . .
8. (+/P)-(-N) , , 10 .
: 1. ,
. 2. 0.3~0.75 2.
.
10mm 3. .
. 4. SD, SE 5 .
20
5.
( .), . 6.
( .), .
: 1. ( : 0.4 / : 2.5). 2. . 3. . 4. , . 5. , - , .
21
SS2
3.8.
3.8.1.
SS2-021-0.4K SS2-021-0.75K SS2-021-1.5K SS2-021-2.2K
,
NFB
/MCCB (Shihlin)
MC (Shihlin)
220V, 0.4
1.5kVA
BM30SN3P5A
S-P11
220V, 0.75
2.5kVA
BM30SN3P10A S-P11
220V, 1.5
3.5kVA
BM30SN3P15A S-P11
220V, 2.2
6.4kVA
BM30SN3P20A S-P11/ S-P12
SS2-043-0.4K SS2-043-0.75K SS2-043-1.5K SS2-043-2.2K SS2-043-3.7K SS2-043-5.5K
400V, 0.4 400V, 0.75 400V, 1.5 400V, 2.2 400V, 3.7 400V, 5.5
1.5kVA 2.5kVA 4.5kVA 6.9kVA 10.4kVA 13.8kVA
BM30SN3P3A BM30SN3P5A BM30SN3P10A BM30SN3P15A BM30SN3P20A BM30SN3P30A
S-P11 S-P11 S-P11 S-P21 S-P21 S-P21
3.8.2 /
(2)
(R/L1- S/L2- T/L3) . . (2) (-)
(U/T1-V/T2-W/T3)
Crimping Tightening terminal torque (2) (-)
SS2-021-0.4K 2.5
12.2
2.5
12.2
2-3.5
2-3.5
SS2-021-0.75K 2.5
12.2
2.5
12.2
2-3.5
2-3.5
SS2-021-1.5K 2.5
18
2.5
18
2-4
2-4
SS2-021-2.2K
4
18
4
18
5.5-4
2-4
SS2-043-0.4K 2.5
12.2
2.5
12.2
SS2-043-0.75K 2.5
12.2
2.5
12.2
SS2-043-1.5K 2.5
12.2
2.5
12.2
SS2-043-2.2K 2.5
18
2.5
18
SS2-043-3.7K 2.5
18
2.5
18
SS2-043-5.5K
4
18
2.5
18
2-3.5 2-3.5 2-3.5 2-4 2-4 5.5-4
2-3.5 2-3.5 2-3.5 2-4 2-4 2-4
22
3.8.3.
SS2-021-0.4K 100 220
SS2-021-0.75K 150 120
SS2-021-1.5K 300 60
SS2-021-2.2K 300 60
SS2-023-0.4K 100 220
SS2-023-0.75K 150 120
SS2-023-1.5K 300 60
SS2-023-2.2K 300 60
SS2-023-3.7K 400 40
SS2-043-0.4K 80 1000
SS2-043-0.75K 100 800
SS2-043-1.5K 200 320
SS2-043-2.2K 300 160
SS2-043-3.7K 500 120
SS2-043-5.5K 1000 75
: 1. , , , 10% ( , 5 , 45 ). ( ) . , , ( ).
2. , , . , , .
3.8.4. (-)
SS2-021-0.4K SS2-021-0.75K SS2-021-1.5K SS2-021-2.2K SS2-023-0.4K SS2-023-0.75K SS2-023-1.5K SS2-023-2.2K SS2-023-3.7K
DUOJI
NF211B10/01 NF241B20/05 NF241B30/25
NF311A10/01
SS2-043-0.4K SS2-043-0.75K SS2-043-1.5K SS2-043-2.2K SS2-043-3.7K SS2-043-5.5K
NF311A20/05
DUOJI
NF311A10/01 NF311A20/05
23
SS2
3.8.5. - ( )
P41T63*38*25C
UNIT:mm
38
63
25
1/220V
3/400V
kW 0.4 0.75 1.5 2.2 0.4 0.75 1.5 2.2 3.7 5.5
- 1 2 1
2
(2)
0.5-5.5 3.5-5.5
A
0.5-5.5 3.5-5.5
A
A: 4 .
24
3.8.6.
40050/603-
.
2%
0.4
1.5
5 3.8
0.75
2.6
5 3.8
1.5
4.2
5 3.8
2.2
6
7 2.5
3.7
9
10 1.5
5.5
12
15 1.0
4% 5 5.6 5 5.6 5 5.6 7 3.5 10 2.8 15 1.9
40050/603-
kW
0.4
1.5
0.75
2.6
1.5
4.2
2.2
6
3.7
9
5.5
12
.
5 5 5 7 10 15
1.4 1.4 1.4 1.0 0.7 0.47
1% 5 2.8 5 2.8 5 2.8 7 1.9 10 1.4 15 0.93
: SS2 SHANGHAI EAGTOP ELECTRONIC TECHNOLOGY CO., LTD .
25
SS2
4.
4.1.
/ . SS2 9 , , , JOG-, , , 1, 2, 3, 4 5.
, , , , . 5 : , , , , HELP-.
.
.
FWD
REV
STOP RESET
JOG- P.15
FWD REV
0
2 4,
.
JOG-
(P.82 = 41)
( STF, STR)
*
P.79
STF
(P.131~P.138)
.
PU-, P.79=0 1
JOG-
JOG-,
P.79=0
*
2 , P.79=0
.
3
RS-485
RS-485
*
26
P.79
.
4
.
1
( STF, STR)
. 2 4,
FWD
REV
STOP RESET
5 2 .
(P.82)
. RS-485, .
6
3
JOG- (P.15)
( STF, STR)
. 2 4, 7 4 . RS-485
(P.82)
8
.
5
, . JOG-
( STF, STR)
(P.15)
*
*: P.79=0,
(
). ,
3 MODE , P.79.
4.1.1. -
P.79=0
PU
Hz
PU
Hz
MON
A
MON
A
RUN
V
RUN
V
P.79=1
PU MON RUN
PU
Hz
MON
A
RUN
V
Hz
PU
Hz
A
MON
A
V
RUN
V
27
SS2
: 1.
.
2.
3. 1, 2, 3, 4 5,
.
4. JOG-
,
.
5. , P.79 = 2, 3, 4, 5, 6, 7 8.
4.1.2 -
,
Readprevioustarget frequency
Hz PU
MON
A
RUN
V
Readnewtarget frequency
PU
Hz
MON
A
RUN
V
: 1. .
2.
,
.
3. PU .
4.1.3 -
PU
Hz
MON
A
RUN
V
SET
The first bit flashes
1-
PU
Hz SET PU
MON
A
MON
RUN
V
RUN
SET
The second bit flashes 2-
Hz SET PU
A
MON
V
RUN
SET
The third bit flashes 3-
Hz
V
A
SET
PU
Hz
PU
Hz
PU
Hz
MON
A
MON
A
MON
V
RUN
V
RUN
V
RUN
A
SET
PU MON RUN
Enter the next setting mode
MOPNU RUN
SET
Hz
PU
Hz
A V
MON Over RUN
A V
0.5 s
SET
Read new set value
Set value written
and it flashes
Hz
A
V
:
PU
Hz
MON
A
RUN
V
Read previous set value
.
SET
0.5 .
28
4.2.
4.2.1. PU- (P.79=0 1 )
· ,
.
: 1. P.79=0, ,
1
.
2. . 4.1.
· . 2
e: . 4.1.4 .
·
FWD
REV
.
·
, , .
3
. (. P.110 5)
: 1. . 4.1.3.
2. , ,
.
STOP
· RESET
4 .
·
, .
4.2.2. ( , P.79=0, 2)
· .
: 1. P.79=0,
1
(
). ,
MODE , P.79.
2. P.79=2, .
3. . 4.1.
· 4-5, . P.39.
· , . P.4
2 5.
· 2-5, . P.38.
· . P.80~P.84, P.86.
29
SS2
· ( ) STF STR
.
·
, , .
: 1. STF STR P.78 ,
3
. P.80~P.84, P.86
2. . 4.1.3.
3. , STF , STR ; « », « ».
· STF STR
4 .
·
, .
4.2.3 JOG ( , P.79=0 1)
· JOG,
.
1
. .
: . 4.1.
· FWD REV .
,
.
· FWD REV
2
.
,
.
: 1. . 4.1.3. 2. JOG P.15, / P.16.
4.2.4 ( , P.79=3)
RS-485 , . P.33.
30
4.2.5 1 ( , P.79=4 )
1 · 1
.
: . 4.1.
2 · .
e: . 4.1.4 .
· ( ) STF STR
3
.
·
, , .
: . 4.1.3.
· STF STR
4 .
·
, .
4.2.6 2 ( , P.79=5)
· 2
.
1 : . 4.1.
· .
· 4-5, . P.39.
2
· , . 5.
· 2-5, . P.38.
· . P.80~P.84, P.86.
P.4
·
FWD
REV
. 3 ·
, , .
: 1. . 4.1.3.
2. , ,
.
STOP
· RESET
4 .
·
, .
31
SS2
4.2.7 3 ( , P.79=6)
RS-485. M0, M1, M2 REX `', (. P.4~P.6, P.80~P.84, P.86). P.15. / P.16. / . P.996, P.998 P.999 RS-485.
4.2.8 4 ( , P.79=7)
: , (P.82) . / RS-485 ( `').
4.2.9 5 ( , P.79=8)
. M0, M1, M2 REX `', (. P.4~P.6, P.80~P.84, P.86). P.15. / P.16. / .
32
4.3.
4.3.1.
:
1. .
,
(U/T1-V/T2-W/T3) ; ,
.
2. .
3. . ,
.
4. ,
.
5. ,
.
6. .
7. :
.
,
.
4.3.2
, , 4 5. :
FWD REV
M0 Parameter seting:
M1 P.4=40 P.5=30
M2 P.6=10
SD
: STF-SD STR-SD
: 2-5,4-5
33
SS2
4.3.3
,
.
1. ,
,
.
3. C MODE .
,
.
4. 2 MODE , .
5.00 .
5. FWD REV ,
STOP
; RESET .
5. : 1) . 2) ( ). 3) .
, , . , .
P.2 , ( .2 = 120) , .9 .
: , , « ». , (R/L1-S/L2-T/L3) , (U/T1-V/T2-W/T3) , . , / .
34
4.3.4 . -
(4...20 ). 1. .3. PC 4. ( . . )
(220 380V AC)
R/L1 S/L2 T/L3
U/T1 V/T2 W/T3
Motor
DMP330H
0-10bar 1 2
4-20
PC (24VDC) 4
2. (4.3.3). 3. :
P.1 = 50 ( ). .9 = () .79 = 1 ( / ) .161= 4 (V) .170 = 2 -, 4; (.170 = 1, 2) .172 = (1 ... 100) - . -. . , , . .172 = (1 ... 100) - . -. . , , . .173 = (0 ... 100) -. , . . .174 = (0 ... 1000) -. . . .184 = 2 «AErr» .225 = % . , 0...10, 100% = 10 , 40% = 4 , ..
35
SS2
4. FWD REV ,
. V: , ? (.172 .174). .
1. : .175 = (0...100%) - .176 = (0...600) .177 = 0 . , .175 = 60%, .176 = 30, .177 = 0, 60% 30 , P10E, .
2. : .178 = (0...100%) . .179 = (0...255) .180 = (0...100%) .181 = (0...120) . . .183 = (0...10) , .178 = 5%, .179 = 30, .180 = 90%, .181 = 40. 95% 105% 30 , , 40 . 90% , «» .
the target feel-backvalue Revival level
below P.179
.Output frequency
Outage level
0HZ
P.179 pOrouctcaegses
feedback actually .. Minishingthe output frequency gradually Revival process
36
6.
- , , , , , .., - , .
: , , .
6.1
1. ( , , ..) .
2. ( R/L1, S/L2 T/L3). 3. ( , ..). 4. ( ,
..). 5. . 6. , ,
. 7. .
6.2 ( )
1. , .. .
2. . 3. . 4. . 5. . 6. , . 7. .
37
1.
SS2
P.0
P.1 P.2
P.3
P.4 1 () P.5 2 () P.6 3 ()
0~30% 0~120 0~120 0~650 0~650 0~650 0~650
.
0.1% 0.01 0.01 0.01
()
V/F
120
0
50/60 () V/F
0.01 0.01 0.01
60 30 10
. . .24-27 .142-149
P.7
0~360.00/ 0~3600.0
0.01/0.1
5 ( 3.7) 10 (5.5) 0 P.20
P.8
P.9
.
P.10
. ()
P.11
. ()
P.12
. ()
P.13
P.14 P.15 JOG-
0~360.00/ 0~3600.0
0~500A
0~120 0~60 0~30% 0~60
0~13 0~650
0.01/0.1
5 ( 3.7) 10 (5.5) P.20 0
0.01A
0A . . .9=0, .
0.01 0.1 0.1%
3 0.5 4%
0.01 1
0.01
0.5 0
5
. ,
14 V/F . . .
P.16
/ JOG
0~360.00/ 0.1/0.01
0~3600.0
0.5
P.17
0~2
. ( 4)
0: 4...20
1
0
1: 0...10
2: 0...5
P.18
. .
120~650 0.01
120
P.19 . 0~1000V, 9999 0.1V
9999
.19=9999, .
P.20
/.
1~650
0.01
50/60 () ,
P.21
/.
0,1
1
0
0: 0.01 1: 0.1
38
.
P.22 0~250%
0.1%
.
P.23
0~200%, 9999 0.1%
200% 9999
P.24 4
0~650, 9999
P.25 5
0~650, 9999
P.26 6
0~650, 9999
P.27 7
0~650, 9999
P.28
0~31
P.29
/
0, 1, 2
P.30
0, 1
0.01 0.01 0.01 0.01
1
1
1
P.31
0~2
1
P.32
RS-485
0~3
1
9999 9999 9999 9999
0 0
0
0
1
. . .4-6 .142-149
, 0: 1: S- - 2: 2S- -
: 0: 3% 1: 0...30% .70
0: 1: (.72<5) 2. . , .72< 5
0: 4800 /; 1: 9600 / 2: 19200 /; 0: .
P.33
0, 1
RS-485
1
1
0: Modbus 1: Shihlin protocol
P.34
P.35
P.36
0~254
1
0
P.37
0~5000/ 0.1/ 0 /
P.38
( 2)
P.39
( 4)
1~650 1~650
0.01 0.01
50/60
()
50/60
()
39
SS2
.
P.40
0~10
1
SO
P.41
0~100%
0.1%
.
P.42
0~650
0.01
P.43
0~650, 9999
0.01
0
10% 6 9999
. .
(SU) . , F.=F.+/-41
(FU) . , F. > P42 P43
0~360.00/
P.44
0.01/0.1 9999
0~3600.0,9999
P.45
P.46 2
0~360.00/ 0.01/0.1
0~3600.0,9999 0~30%,9999 0.1%
9999 9999
RT , 9999
P.47 2 0~650, 9999 0.01
9999
P.48
0, 1
1
0
0: 8 1: 7
P.49 -
0, 1
1
0
0: 1 1: 2
P.50
0, 1, 2
1
0
0: ; 1: Odd; 2: Even
P.51 CR LF
- P.52
1, 2
1
0~10
1
1
0: CR 1: CR LF
1
OP
P.53
0~999.8, 9999 0.1s
9999 9999
P.54
AM
0~4
P.55
AM
0~650
P.56
AM
0~500A
P.57
0~30, 9999
.
P.58
0~60
P.59
0,10,100,110
1 0.01 0.01A
0
50/60 ()
. .
0.1
9999
9999
0.1
10
0:
10:
1
0
"SET"
100:
110: "SET"
40
P.60
P.61
P.62
P.63
P.64
P.65
P.66
P.67
-
P.68
P.69
P.70
P.71
P.72
P.73
2
P.74 . FM
SO
P.75
Stop / Reset
P.76
.
0~31
0~3
0~200%, 9999
0.05~60, 9999 0,1 0~4
0~650 0~10 0~360 0
1
31
0:
1: RH/RM
1
0
2: RH/RM
3: RH/RM
. STF/STR
0.1% 0.01s
5% OMD
0.5
1 1 0.01
0
0: SO 0: FM ()
0
0: 1-4: .
50/60 ,
() (22)
1
0
0.1
6s
0
0
0~30% 0, 1 1~15 0, 1
0~10
0.1% 1 1 1
1
0~1
1
0
. P30
1
0: 1:
5
72> 8,
0
0: 0...5 1: 0...10
0
. . FM
0: Stop
1
PU
1:
P.77 0, 1, 2
1
0
.
P.78
0, 1, 2
1
0: -
0
1:
2:
41
SS2
.
P.79
0~8
1
0
. . 4.1
P.80 M0
0~40, 43
1
2
P.81 M1
0~40, 43
1
3
P.82 M2
0~41, 43
1
4
. .
P.83 STF
0~40, 43
1
0
P.84 STR
0~40, 43
1
1
P.85
0~10
1
5
. .
P.86 RES
0~40, 43
1
30 . .
P.87
P.88
P.89
0~10
1
0
P.90
P.91 1A 0~650, 9999 0.01 9999
P.92 1B 0~650, 9999 0.01 9999
P.93 2A P.94 2B
0~650, 9999 0.01 0~650, 9999 0.01
9999 9999
, .
P.95 3A 0~650, 9999 0.01 9999
P.96 3B 0~650, 9999 0.01 9999
P.97
P.98
1 - V/F P.99 1 - V/F
0~650 0~100%
0.01 0.1
3 V/F
10
.
P.100
0, 1
1
1
P.101
0~6000
0.1
1
,
0
42
2 P.102
3 P.103
4 P.104
5 P.105
6 P.106
7 P.107
8 P.108
P.110
/ P.111
1 .
/ P.112
2 .
/ P.113
3 .
/ P.114
4 .
/ P.115
5 .
/ P.116
6 .
/ P.117
7 .
/ P.118
8 .
.
0~6000
0.1
0
0~6000
0.1
0
0~6000
0.1
0~6000
0.1
0~6000
0.1
0
, 0
0
0~6000
0.1
0
0~6000
0.1
0
0~4
1
0
.
0~600 / 0~6000 0~600 / 0~6000 0~600 / 0~6000 0~600 / 0~6000 0~600 / 0~6000 0~600 / 0~6000 0~600 / 0~6000 0~600 / 0~6000
0.01 / 0.1 0.01 / 0.1 0.01 / 0.1 0.01 / 0.1 0.01 / 0.1 0.01 / 0.1 0.01 / 0.1 0.01 / 0.1
0
0
0
0
,
0
0
0
0
43
SS2
.
P.119 P.120 P.121 P.122
P.123 P.131
. . /
1 . .
P.132 2 . .
P.133 3 . .
P.134 4 . .
03600 0~255 0~8
0, 1
0~650 0~650 0~650 0~650
0.1 1 1
1
0.01 0.01 0.01 0.01
0
SM
0
0
0
0 ,
0 0
0
P.135 5 . . 0~650 0.01 0
P.136 6 . . 0~650 0.01 0
P.137 7 . . 0~650 0.01 0
P.138 P.139 P.140 P.141 P.142
8 . .
8
0~650 0%~100% 0.1%~200%
0~11 0~650
0.01 0.1% 0.1%
1 0.01
0
0% 100%
0
2. . 38 73
0
P.143 9
0~650, 9999 0.01 9999
P.144 10 P.145 11 P.146 12 P.147 13
0~650, 9999 0.01 0~650, 9999 0.01 0~650, 9999 0.01 0~650, 9999 0.01
9999 9999 9999 9999
. . .4-6 .24-27
P.148 14
0~650, 9999 0.01 9999
P.149 15
0~650, 9999 0.01 9999
P.150 P.151 P.152
0~22 0, 1 0~30%
1 1 0.1%
0 . .57-58
0 0: 1: DC
5% = .152
44
.
P.153
0:
0, 1
1
0
1:
P.154 Modbus
0~5
1
4 ASCII RTU. .
P.155 P.156 P.157 P.158
P.159
0~200% 0~60 0~200 0, 1 0, 1
0.1% 0.1 1
1 1
0% OL2
1 OL2
4
0
0: 1:
0
0: 1:
P.160
P.161 P.162 P.163 P.164 P.165 P.166 P.167 P.168 P.169
(V)
2 - V/F
2 - V/F
3 - V/F
3 - V/F
4 - V/F
4 - V/F
5 - V/F
5 - V/F
0~13
1
0~650, 9999 0.01
0~100%
0.1%
0~650, 9999 0.01
0~100%
0.1%
0~650, 9999 0.01
0~100%
0.1%
0~650, 9999 0.01Hz
0~100%
0.1%
P.170 - 0, 1, 2
1
/
P.171
0, 1
1
P.172
. -
1~100
1
P.173
. -
0~100
0.1s
P.174
. -
0~1000
1
. P.175
0~100%
0.1%
0 9999
0 9999
0 9999
0 9999
0
0
0
0: 1: DC 2: . . . 3: 4: . 5: 6: . . 7: 2 () 8: . 4 (/) 9: 10: 11: : Frd, rEv, Stop 12: IGBT 13: . .
0: 1: .. 2 2: .. 4 . .225 0: 1:
20
-.
. . 4.3.4 1
0
. . 4.3.4 0
45
SS2
.
P.176 .
P.177
.
P.178 P.179 P.180 P.181
.
.
0~600 0, 1,2
0~100% 0~255 0~100% 0~120
0.1 1
0.1% 0.1 0.1% 0.01
0 . . 4.3.4
0:
0
1:
2:
0
.
. . 4.3.4 0
90%
40
P.182
()
P.183
P.184
. 4
P.185 . 4
0~120 0~10Hz
0~3 0~100%
50/60 0.01
(.)
0.01Hz 0 1
0.5Hz
1: "AErr" .
2: "AErr",
0
3: "AErr"
0
P.187 FM
0~9998
1
220
P.188
---
---
---
P.189
60 0
0, 1
1
50 1
P.190 AM
0~8192
1
0
P.191 AM
0~8192
1
600
P.192
. . 2
0~10
0.01
0
P.193
. . 2
0~10
0.01
0
P.194
. . 2
0~60
0.01
0
P.195
. . 2
0~650
50/60 0.01
(.)
P.196
. / . 4
0~60
0.01
0
46
.
. . / P.197
. 4
0~650
50/60 0.01
(.)
. / P.198
. 4
0~20
0.01
0
. / P.199
. 4
0~20
0.01
0
P.223
0~100%
0.1
0%
P.224
0~100%
0.1
100%
P.225
() -
0~100%,9999 0.1
P.229 0~1
1
P.230
0~650 0.01
20%
9999,
0
0: 1:
1
P.231
0~360
0.1
0.5
P.232 0~650 0.01 1
P.233 0~360 0.1
0.5
P.234
0~2
1
0
P.235
.
0~25%
0.1%
10%
P.236
0~50%
0.1%
10%
P.237
0~50%
0.1%
10%
0~360
P.238
0.01/0.1 10
/0~3600
P.239
0~360 0.01/0.1 10
/0~3600
/
P.240 0~6
1
0
47
SS2
.
P.242
0~1
1
0:
0
1:
P.243
0~60s
0.1s
P.244
0~30%
0.1%
P.245
0~3
0
P.247 P.248 P.249
P.250
0.1~100c 0.1c 0.1~100c 0.1c 0~60,9999 0.01
0~10,9999 0.01
P.287
0~1
1
P.288
0~12
1
0.5s
4%
0: .
, . 30
0
. 1:
2: . +40 0
3: t> +40 0
1c
0.5c
9999
9999 1 0
0: 1: .. .
P.289
---
---
0
P.290 P.291 P.292 P.293 P.294
()
()
0~5 --0~1439 0~9998 0~9998
1 --1 1 1
0 0 0 0 0
P.295 () P.300
P.301
2~9998
1
0~2
1
0~3
1
0
0: V/F
0
1: ---
2:
1:
0
2:
3: -
P.302 . P.303
0~160
0.01
0
0~8
1
4
48
.
P.304 .
0~440 1
220/440
P.305 .
0~650 0.01
50/60 ()
P.306 .
0~500A
0.01 A
P.307 .
0~9998
1410/1710 /
1 /
/
()
P.308
0~500A
0.01 A
P.309
0~99.98 1
P.320 0~200% 1%
80%
P.321
0~32
1
16
P.994
P.995
. . 5 --. . 5
---
---
PU
---
PU
P.996
. . 5
---
---
() P.997
. . 5
---
---
. . 5
P.998
---
---
PU
. . 5
P.999
---
---
PU
: P.189. P.189=0, 60. P.189=1, 50.
49
SS2
0 RUN:
1 SU: .41
2 FU:
3 OL: ( ).
4 OMD: . . P.62 , P.63
P.40/P.85 5 ALARM:
6 PO1: .
7 PO2: .
8 PO3: .
9 BP ( ): .
10 GP (): .
-
. -
80 M0
0~40, 2
43
0 1 2
3
4
STF STR RL RM
RH
.
.
.
.
1
2.
.
P.4~P.6, 61
3.
50
/
-
. - -
`
', `. 2',
81 M1
5 0~40, 3
43
AU
`. ', AU ,
2-5.
6
OH
7
MRS
2-
8
RT
. P.44
82 M2
9 0~41, 4
43 10
EXJ STF+EXJ
JOG.
. P.15 , P.16
11
STR+EXJ
12
STF+RT
13
STR+RT
14
STF+RL
15
STR+RL
16
STF+RM
17
STR+RM
18
STF+RH
19
STR+RH
83 STF
0~40, 20
STF+RL+RM
0
43 21 STR+RL+RM
22
STF+RT+RL
23
STR+RT+RL
24
STF+RT+RM
25
STR+RT+RM
26 STF+RT+RL+RM
27 STR+RT+RL+RM
51
SS2
-
.
84 STR
1
86 RES 30
0~40, 43
0~40 ,43
28
29
30 31 32
RUN
STF/STR RES STOP REX
RUN / . Run forward /reverse control signal .
33
PO
34
RES_E
()
35
MPO
MPO .
36
TRI
.
37
GP_BP
()
38
CS
()
` '
RUN.
39
STF/STR +STOP
STF/STR STF/STR.
,
RUN.
40 P_MRS
41
P_FRE
M2
43 RUN_EN
52
2.
ERR
OC1
OC1
OC2
OC3
OV0
OV1
OV2
1.
1.
2. «RES» 2. RES
3.
3.
4.
4. 5.
5.
. .
, .
2 .
1. .
2. .
3. U/T1, V/T2 W/T3.
.
1. /
,
.
P N 2. ,
.
3.
P.30 P.70.
53
SS2
OV3
THT
IGBT
THN
OHT
OPT
EEP
CPU
OLS
SCP
. OV1, OV2.
P N
IGBT
1.
P.9 .
.
2. .
1. .
2. .
1. .
. -
.
2. .
.
.
(
).
.
1.
. 2.
P.22.
2
.
U/T1, V/T2 W/T3.
54
PIDE
-
NTC
IGBT
CPR
OL2
AErr
4-5
1.
1.
.
2.
(
-,
..).
.
2.
3.
-
( , ,
3.
.)
.
1.
IGBT ,
,
.
2.
.
.
1. .
2.
.
3.
/ .
1. . 1.
2.
.
2.
P.155 P.156.
P.155 P.156
. 4-5 . P.184.
4.
: 1. . .
2. . P.288~P.291.
55
SS2
LV
LT
1.
P.22,
,
PU MON RUN
Hz
A V
,
P.23, P.66.
2. ,
P.7 P.8
.
.
.
1.
+/P -/N
,
,
PU MON
Hz A
,
RUN
V
+/P PR.
. 2. ,
P.7 P.8
.
.
.
1.
/
,
,
PU MON
Hz A
,
RUN
V
flicker
,
.
,
2.
LT.
.
.
: , . , . , , .
56
3.
· R/L1, S/L2 T/L3.
· , Power .
· .
· .
, .
· , .
· (P.13)?
· (P.79)?
· , (P.1) . · /
P.78.
· / (P.192~P.199). · (P.91~P.96).
· , "MRS" . (
P.80~P.84, P.86).
· , "RES" . (.
P.80~P.84, P.86).
· , . · , . · , .
· STF STR (.
P.80~P.84, P.86).
·
.
· U/T1, V/T2 W/T3
(STF
STR) .
· .
· (P.22).
· P.0?
· . P.1?.
/
· / (P.7, P.8). · / (P.29). · , .
· . · ? · P.0?
· , . · , . · .
57
SS2 : 1. DU06
:
.
1
SNKDU06
2. DU06:
DU06
3. DU06:
58
4. DU06:
5. CBL: DU06
:
1
CBL1R5GT
2
CBL03GT
3
CBL05GT
(1.5) (3) (5)
SNKCBL1R5GT SNKCBL03GT SNKCBL05GT
59
iLovePDF
Safety Instructions
When using Shihlin inverters, please follow the installation to ensure the safety of user and others.
The following instructions will be classified and described by icons:
It means dangerous instructions, and incorrect handling may result in death or
DANGER
severe injury.
It means caution instructions. Incorrect handling may result in injury or property
CAUTION
damage.
It means caution and execution need to be done. Please operate according to the
instructions.
DANGER
CAUTION
Inverters must be used on the location except corrosive gas, water, flammable gas.
Please operate far from flammable substance or explosives.
Please do not lay the inverter on an intense trembling or shaking occasion.
Do not operate wires soaked under oil or water.
Prohibit touching any part in the inverter when power is ON to avoid electric shock.
Three-phase power cannot be connected to terminal U/T1, V/T2, W/T3.
The terminal
of the inverter must be correctly grounded.
Do not conduct wiring when the power is ON.
Do not conduct hi-pot test on internal components of the inverter, for semiconductor
is easily damaged by high voltage.
There are CMOS IC components on PCBAs which are especially sensitive to static
electricity. Please do not touch PCBAs before taking anti-static measures.
Even if the motor stops, a charge may still remain in the main circuit terminals of
the inverter with hazardous voltages.
Only qualified persons are allowed to install, wire and maintain the inverter.
After some functions are set, the motor may start immediately once power is ON.
Please choose the safe area to install the inverter, avoiding heat, direct sunlight,
moisture humidity and splashing of droplets.
When wiring between the inverter and motor is too long, it may damage the layer
insulation of the motor. A reactor can be mounted between inverter and motor,
avoiding insulation is damaged.
For the installation power system of rated voltage, it cannot be over 240V for 220
series; it cannot be over 480V for 440 series.
Only qualified personnel familiar with wiring is allowed to perform wiring.
For the installation direction and method, please refer to the regulations.
Make sure to use the temperature in a safe range.
Please follow the installation to use the voltage.
When there are problems in operation, please first unload the motor, after zero-load
operation is OK, and then connect to the machine.
Please confirm whether the inverter power is in line with the motor power.
Before running, please confirm whether the emergency switch can operate normally.
Power wire, U, V, W wires and signal wire should not be stranded, but separately.
Please turn off the power if it is not used for a long time.
Safety Instructions
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