STEP AS380 Series User manual
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
AS380 Series Elevator Integrated Drive
Controller Instruction Manual
Publication Status: Standard
Version: V2.15
All Copyright© reserved by Shanghai STEP Electric
Corporation
All rights reserved
The information in this document is subject to change without prior
notice. No part of this document may in any form or by any means
(electronic, mechanical, micro-coping, photocopying, recording or
otherwise) be reproduced, stored in a retrial system or transmitted
without prior written permission from Shanghai STEP Electric
Corporation.
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
I
Forward
AS380 series elevator integrated drive controller is the new generation of state-of-the-art
elevator-specific control and drive device. With full consideration of the safety & reliability of
elevator;inherent characteristic of elevator operation and specific feature of potential energy load
for elevator, AS380 series elevator integrated drive controller adopted advanced technology of
frequency control of motor speed and intelligent elevator control as well as the integration of
control & drive of elevator to make the further improvement of the product performance,
easy-to-use property and cost efficiency.
Abstract
The manual give an overall instruction about the installation, operation, parameter setting, daily
maintenance and trouble-shooting of AS380 series elevator integrated drive controller. The manual
can be used as the reference material in design of elevator system with AS380 series elevator
integrated drive controller, or also as the user manual for system installation, setting and
maintenance.
Please read the manual thoroughly to ensure the correct installation and operation of the elevator
integrated drive controller,
Reader
Users of elevator
Design engineers of elevator control
Engineering maintenance staffs
Customer technical support staffs
The manual is subject to update and amendment; please visit our company website for the update.
Our company website www.stepelectric.com
Main features
a) Prefect integration of control and drive of elevator. The whole device features compact
structure and small size, fewer connections, which is characterized as high reliability and
easy-to-use property and cost-efficiency.
b) Double 32-bit embedded microprocessor jointly finish the elevator operation and motor drive
control
c) Redundant safety design , double safety protection for control processor and drive processor
to achieve the maximum safety guarantee for elevator travel
d) The design requirements of anti-interference capacity go beyond the highest standard in the
industrial design requirement.
e) All CAN bus communication make the whole system connected easily, data transmitted
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II
strongly, and more reliable.
f) The adoption of the advanced direct landing technology make elevator running more
efficiently
g) The advanced multifunctional elevator operation mode can fully meet various needs of
customers‘
h) Advanced group control feature. Not only compatible with the traditional group control mode
of up to 8 units, but also support the new group control of destination floor distribution.
i) The adoption of advanced vector control technology can make the motor speed adjusted well
for the realization of the best elevator comfort.
j) Adapt to both synchronous motor and asynchronous motor.
k) Newly-developed none-load sensor-activated compensation technology provides excellent
starting comfort to elevator even if no counterweight is installed.
l) To adopt incremental ABZ encoder to realize the synchronized control of motors. To adopt the
none-load sensor-activated compensation technology to achieve the excellent start-up comfort.
m) New PWM dead band compensation technology can effectively reduce the motor noise and
loss of machine.
n) Dynamic PWM carrier modulation technology can effectively reduce the motor noise.
o) Auto-tuning phase of synchronous motor without encoder
p) Asynchronous motor is not required for motor parameter acquisition process once the motor
parameter is set correctly. The convenient static motor parameter acquisition process is
available If is impossible to acquire the exact motor parameter on site. So there is no need to
hoist the car and etc in this way.
q) The hardware is the 6th generation of module with the junction temperature resistance up to
175℃. Low loss for switch and connection to ensure the long use life.
Safety-related sign
The following safety-related sign are used in the manual, be sure to observe the
instructions with these signs
Danger
!
: Operation wrongly will cause death or serious injury to
person
!Caution
: Operation wrongly will cause injury to person and
damage to equipment.
Important
:The important content that need users‘ attention
and observation
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
III
Chapter 7 Parameter Table of Integrated Drive Controller
Chapter 8 Elevator adjustment and setting instructions
Chapter 9 Faults and Solutions
Chapter 10 Maintenance
Appendix A EMC Installation Guide
Appendix C Inverter complies with the standards
Chapter 1 General knowledge of the integrated drive controller
Chapter 2 Model and Specification
Chapter 3 product function
Chapter 4 Wiring of Elevator Integrated Drive Controller
Chapter 5 Operator
Chapter 6 Introduction to the supporting products
Appendix B Function Parameter, Fault List Summary
Shanghai STEPElectric Corporation
IV
Menu
Forward......................................................................................................................... I
Menu............................................................................................................................IV
Chapter 1 General knowledge of the integrated drive controller................................1
1.1 Scope of application....................................................................................................... 1
1.2 Items in the cases ........................................................................................................... 1
1.3 Model description.......................................................................................................... 1
1.4 Integrated drive controller nameplate......................................................................... 2
1.5 Notice Items for safety................................................................................................... 2
1.6 Operation notice ............................................................................................................ 4
1.6.1 Brake resistor selection _____________________________________________________4
1.6.2 Absorber at the output side prohibited __________________________________________5
1.6.3 The application voltage of integrated device._____________________________________5
1.6.4 Two-phase input not allowed _________________________________________________5
1.6.5 Altitude and derated application_______________________________________________6
1.6.6 Synchronous sealing star delay _______________________________________________6
1.6.7 Low Voltage directive complies _______________________________________________6
1.7 Waste disposal................................................................................................................ 7
1.7.1 Disposal of capacitors ______________________________________________________7
1.7.2 Disposal of plastic components _______________________________________________7
Chapter 2 Model and Specification..............................................................................9
2.1 Model of integrated drive controller............................................................................ 9
2.2 The technical specification of integrated drive controller.......................................... 9
2.3 The installation dimensions and mass of the integrated drive controller................11
2.4 Installation instructions .............................................................................................. 13
2.4.1 Product installation location_________________________________________________13
2.4.2 Product installation positioning and clearance requirements ________________________14
Chapter 3 product function.........................................................................................15
3.1 Function list.................................................................................................................. 15
3.2 elevator operation function description and setting method ................................... 17
3.2.1 Standard function description________________________________________________17
3.2.2 Optional function description________________________________________________22
Chapter 4 Wiring of Elevator Integrated Drive Controller .......................................25
4.1 The connection between integrated drive controller and peripheral equipments. 26
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
V
4.1.1 For typical terminal wiring diagram of elevator integrated drive controller. ____________26
4.2 Notice items for peripheral equipments connection................................................. 27
4.2.1 Power supply ____________________________________________________________27
4.2.2 Breaker_________________________________________________________________27
4.2.3 AC reactor at the input side _________________________________________________27
4.2.4 Interference filter at the input side ____________________________________________27
4.2.5 Main circuit output contactor ________________________________________________27
4.2.6 Interference filters at the output side.__________________________________________27
4.2.7 AC reactor at output side ___________________________________________________27
4.2.8 DC reactor ______________________________________________________________28
4.3 The technical requirements for wire arrangement of peripheral equipments of the
elevator integrated drive controller.................................................................................. 28
4.3.1 The cable requirement of hoist way and accompanying cable arrangement ____________28
4.3.2 Method of Wiring Between Call board and TXV+、TXV-、TXA+、TXA- ___________29
4.3.3 Hoist way switch position __________________________________________________30
4.3.4 Upper and Lower Leveling Inductor __________________________________________31
4.4 main circuit terminal wiring....................................................................................... 33
4.4.1 The arrangement of main circuit terminal ______________________________________33
4.4.2 The main circuit terminal labeling and function description ________________________33
4.4.3 Main circuit wire specification_______________________________________________33
4.4.4 The main circuit composition________________________________________________36
4.4.5 The detailed description of main circuit terminal wiring ___________________________36
4.5 anti-interference measures.......................................................................................... 40
4.5.1 The specialized noise filter connected at the output side.___________________________40
4.5.2 Main circuit wiring arrangement _____________________________________________40
4.5.3 the better anti-interference measure ___________________________________________41
4.5.4 Relation between wiring length and carrier frequency. ____________________________41
4.6 Wiring of Control Circuit Terminals ......................................................................... 42
4.6.1 Layout of Control Circuit Terminals __________________________________________42
4.6.2 Functional Description of Control Circuit Terminals______________________________42
4.6.3 Dip switch setting method __________________________________________________45
4.6.4 Wire specification of control circuit___________________________________________45
4.6.3 main extension board SM.09I0/C introduction __________________________________46
4.6.5 Notice items for control circuit terminal wiring__________________________________48
4.7 The wiring of PG card terminals................................................................................ 48
4.7.1 PG card –Incremental ABZ 12V _____________________________________________48
4.7.2 PG card –SIN/COS _______________________________________________________51
4.7.3 PG card –Incremental ABZ 5V ______________________________________________54
4.7.4 PG card –Endat with absolute value __________________________________________56
4.7.5 Precaution for PG card terminal wiring ________________________________________58
Chapter 5 Operator .....................................................................................................59
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5.1 The 7-segment display operator ................................................................................. 59
5.1.1 LED indicator light________________________________________________________59
5.1.2 Function key_____________________________________________________________60
5.1.3 Operator handling_________________________________________________________61
5.1.4 graphic symbol of number and letter on LED screen______________________________75
5.2 LCD handheld operator.............................................................................................. 75
5.2.1 LCD handheld operator introduction __________________________________________75
5.2.2 Handheld operator connection method_________________________________________77
5.2.3 Handheld operator function _________________________________________________78
5.2.4 Introduction to display interface of LCD hand-held operator _______________________79
Chapter 6 introduction to the supporting products..................................................105
6.1 Car top control board SM.02/H introduction ......................................................... 106
6.1.1 Car top control panel SM.02/H outside view and installation dimension _____________106
6.1.2 Car top control panel SM 02/H _____________________________________________107
6.2 car top extension board SM09I0/B introduction......................................................110
6.2.1 Car top extension board SM09IO/B outside view and installation dimension__________110
6.2.2 car top extension board SM09IO/B plug-in and port definition introduction __________ 111
6.3 Car controller panel SM.02/G introduction .............................................................112
6.3.1 Car controller panel SM02/G outside view and installation dimension _______________112
6.3.2 Car control board SM.02/G plug-in and port definition introduction_________________113
6.4 instruction control board SM-03...............................................................................116
6.4.1 Instruction control board SM-03 outside view and installation dimension ____________116
6.4.2 Instruction controller board SM-03 plug-in and port definition introduction___________116
6.5 call & display control board ......................................................................................118
6.5.1 call &display control board SM.04VR/K______________________________________118
6.5.2 Call& display control board SM-04-HSC _____________________________________119
6.5.3 Call & Display Control Board SM-04-VHL ___________________________________120
6.5.4 Call & LCD Control Board SM-04-UL _______________________________________122
6.5.5 Car Call & LCD Control Board SM-04-VL____________________________________124
6.5.6 In-car SM-04-VL/B3 outside view and installation dimension _____________________126
6.5.7 Call& LED display control panel SM-04-VSD _________________________________128
6.5.8 Call & LED display SM-04-VRJ ____________________________________________130
6.5.9 Miscellaneous (A List of Display Codes)______________________________________131
6.6 SM.GC/C board introduction................................................................................... 133
6.6.1 System Structure ________________________________________________________133
6.6.2 Basic Feature ___________________________________________________________134
6.6.3 Main Functions__________________________________________________________135
6.6.4 Input of Call Button Signal and Control of Call Button Light ______________________138
6.6.5 General Principle of Overall Deploy _________________________________________138
6.6.6 Treatment in Special Situation ______________________________________________139
6.6.7 Instruction of Group Control Board (SM.GC/C) ________________________________140
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
VII
6.6.8 Connection Method of Group Control System__________________________________147
6.6.9 Setting of Group Control Operation__________________________________________147
6.6.10 Instruction of group control program to setup parameters ________________________148
Chapter 7 Parameter Table of Integrated Drive Controller.....................................163
7.1 F Parameter List........................................................................................................ 163
7.2 Definition of function parameter.............................................................................. 172
Chapter 8 Elevator Elevator Commissioning Guide................................................195
8.2 Check before Power on.............................................................................................. 198
8.3 Power on and Check.................................................................................................. 198
8.3.1 Confirmation before Power on______________________________________________198
8.3.2 Checks after Power on ____________________________________________________199
Configuration of System Basic Parameters and Self Study of Motor Parameters .... 199
8.4.1 Configuration of System Basic Parameters ____________________________________199
8.4.2 Motor Parameter Self Study________________________________________________201
8.5 Test Run of Slow Car................................................................................................. 202
8.5.1 Inspection Operation of Engine Room and Preparations for Express Car _____________202
8.5.2 Car Top Inspection Operation ______________________________________________203
8.5.3 Check of CAN Communication Lines and Setting of 04 Board Address______________204
8.5.4 Door Opening/Closing Adjustment __________________________________________205
8.6 hoist way Self Study................................................................................................... 205
8.6.1 Hoistway Self Study Method _______________________________________________205
8.7 Express Car Operation.............................................................................................. 206
8.8 Adjust Elevator Comfort........................................................................................... 210
8.8.1 Factors Relating to Elevator Comfort in Operation ______________________________210
8.8.2 Adjust Elevator Comfort __________________________________________________210
8.9 LevelingAdjustment.................................................................................................. 218
8.10 Method forAdjusting Pre-Load Weighing Compensation at Elevator Start..... 224
8.10.1 Use of DTZZ-III-DC-SC _________________________________________________226
8.10.2 Use of non-DTZZ-III-DC-SC weighing device (F164 set to 1, 2, 5 or 6) to compensate or
adjust the start _______________________________________________________________227
8.10.3 Simple compensation by using light-load and heavy-load switch (F164 set to 4) ______228
8.11 The adjustment of other function........................................................................... 229
Chapter 9 Faults and Solutions................................................................................231
9.1 The fault analysis of the integrated device control system..................................... 231
9.2 fault analysis of Integrated drive system................................................................. 237
Chapter 10 Maintenance...........................................................................................243
10.1 Warranty .................................................................................................................. 243
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10.2 Product Checkup..................................................................................................... 244
10.3 Routine Inspection................................................................................................... 244
10.4 Periodic Inspection.................................................................................................. 244
Appendix AEMC Installation Guide........................................................................247
A1 Noise Control........................................................................................................ 247
A1.1 Noise Type................................................................................................................ 247
A1.2 Transmission Path................................................................................................... 247
A1.3 Basic Measures for Noise Suppression.................................................................. 248
A2 Requirements on Cable Laying................................................................................ 249
A2.1 Requirement on Cable Laying ______________________________________________249
A2.2 Requirements on Cable Size________________________________________________250
A2.3 Requirements on Shielded Cable ____________________________________________250
A2.4 Requirements on Installation of shielded cable _________________________________250
A3 Grounding Requirements.......................................................................................... 250
A3.1 Grounding Method _______________________________________________________250
A3.2 Precautions for Grounding Connection _______________________________________251
A4 Install Surge Absorption Device.......................................................................... 251
A5 Leakage Current and Countermeasures.................................................................. 252
A5.1 Ground Leakage Current __________________________________________________252
A5.2 Line-to-Line Leakage Current ______________________________________________252
A6 Suppression of Radiated Emission........................................................................... 253
A7 Guide for Use of Power line filter............................................................................. 254
A7.1 Functions of Power line filter_______________________________________________254
A7.2 Precautions for Installation of Power Line Filter ________________________________254
A8 EMC Installation Zoning.......................................................................................... 254
A9 Precautions for Electric Installation ........................................................................ 255
A10 EMC Conformity..................................................................................................... 257
Appendix B Function Parameter, Fault List Summary ..........................................259
B.1 Function Parameter List .......................................................................................... 259
B.2 Fault Code And Analysis .......................................................................................... 273
Appendix C Inverter complies with the standards...................................................287
Notice to customers...................................................................................................289
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
Chapter 1 General knowledge of the integrated drive controller
1
Chapter 1 General knowledge of the integrated drive
controller
This chapter introduces the general information of AS380 series integrated drive controller,
including the voltage grade and adaptive motor capacity of the integrated device, and items
checkup in the cases. Besides, the chapter describes in detail the notice items during the process of
integrated device installation, wiring, operation, maintenance and disposal. Please read carefully
this chapter for the safe operation of the integrated device and prolonging of the service life.
1.1 Scope of application
The voltage grade of AS380 series elevator integrated drive controller is 200V, 400V. AS380
series elevator integrated drive controller is both asynchronous motor and synchronous motor
compatible. The mating motor capacity is 1.1kW~75kW right now. the max floor single elevator
support is 64 floor. The max quantity of elevator group control is up to 8 units. For the
configuration beyond the above scope, please contact the engineer center of our company.
1.2 Items in the cases
!Caution
◉Do not install frequency converter damaged or components
incomplete。
Otherwise high risk of fire, personal injury。
Please confirm the following item after opening the cases
Any damage caused by transportation, the conformity of items and parameter on the machine
nameplate to those in the purchase requirements,
Please contact the manufacturer or supplier for the solution once any inconformity or items
omission.
1.3 Model description
AS380 series elevator integrated drive controller model number illustration fig 1.1
Shanghai STEPElectric Corporation
Chapter 1 General knowledge of the integrated drive controller
2
Fig 1.1 Model illustration of elevator integrated drive controller
1.4 Integrated drive controller nameplate
Please see fig 1.2 of integrated drive controller
The model, specification, and lot no are all listed on the nameplate of integrated drive
controller.
Fig 1.2 Nameplate description of elevator integrated drive controller
1.5 Notice Items for safety
NO
Mating motor
07P5
7.5kW
Series name
2
200V
4
400V
0011
0015
18P5
0022
11kW
15kW
18.5kW
22kW
T
3-phase
S
1-phase
01P5
03P7
05P5
1.1kW
3.7kW
5.5kW
2.2kW
02P2
AS380 4 T 0022
0030
30kW
0037
0045
0055
0075
37kW
45kW
55kW
LCD
手持
操作
器接
口
75kW
上海新时达电气股份有限公司
Shanghai STEP Electric Corporation
型号(MODEL):AS380 4T0022
功率(POWER):22kW
输入(INPUT):AC380V 50/60Hz
输出(OUTPUT): AC380V 0-120Hz 48A 34kVA
机器编号(No.):
序列号(SER.No.):
Matching motor
Input
output
Machine
Series number
Model name
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
Chapter 1 General knowledge of the integrated drive controller
3
Danger
!
◉Always install on metal structures or other noninflammable objects;
Or it may cause fire risk.
◉Never install in explosive environments
Or it may cause explosion risk
◉Never place combustibles near the product
Or it may cause fire risk.
!Caution
◉Always support the body bottom during handling
Or the possible falling of the main body of elevator integrated drive
controller may cause risk of injury and/or property damage.
◉The platform on which the product will be installed shall have
sufficient load bearing capacity
Or the contingent falling of the main body of elevator integrated drive
controller may case risk of injury and/or property damage.
◉Don’t install it in the vicinity of sewage pipe or the points with
splatters
Or it may cause the risk of property damage.
◉Prevent screws, washers and metal rods falling into the inside of
elevator integrated drive controller
Or it may cause the risk of fire or property damage.
◉Make sure it is disconnected from the mains prior to wiring
Or it may cause risk of electric shock.
◉The wiring can only be performed by trained and qualified
electricians
Or it may cause risk of electric shock.
◉Always keep the AS380 elevated integrated drive controller properly
grounded at its grounding terminal E
Or it may cause risk of electric shock.
◉Avoid confusing main circuit input terminals and output terminals of
elevator integrated drive controller
Or it may cause risk of property damage and/or explosion.
◉Never make terminal ○
+1/○
+2 and ○
-be shorted.
or it may case risk of fire and explosion
◉Make sure the cover is placed in position prior to switching on
Or it may cause risk of electric shock and/or explosion.
◉Don’t use soggy hands operating elevator integrated drive controller
Or it may cause risk of electric shock
◉At completion of wiring the emergency stop safety circuit, carefully
check and make sure all the wirings are correct
Or it may case risk of hazard.
Danger
!
Shanghai STEPElectric Corporation
Chapter 1 General knowledge of the integrated drive controller
4
Danger
!
◉When switching on a elevator integrated drive controller which has
been stored for more than 2 years, a voltage regulator is needed to
supply it by increasing the voltage gradually
Or it may cause risk of electric shock and explosion
Danger
!
◉Avoid faulty operation when elevator integrated drive controller is
running
Or it may cause risk of high-voltage electric shock.
◉After it is switched off, the inside of elevator integrated drive
controller may remain dangerous high voltage for a certain period,
don’t open the cover or touch connection terminals
Or it may cause risk of high-voltage electric shock.
◉Only trained, qualified and authorized person may be allowed to
work on elevator integrated drive controller
Or it may cause risk of electric shock or property damage.
◉Always remove watches, rings or other metal articles prior to working
and always wear suitable clothes and use appropriate tools when
working on elevator integrated drive controller
Or it may cause risk of electric shock and explosion.
1.6 Operation notice
Please notice the following points when usingAS380 series integrated drive controller.
1.6.1 Brake resistor selection
Elevator feature potential energy load, four quadrants movements‘ characteristic,
and the occurrence of power-generation by braking. Therefore, users should consider adding brake
component to the integrated drive controller. Otherwise, tripping may be caused with overvoltage
fault. AS380 series integrated drive controller is equipped with brake unit, so only external brake
resistor is required. The specification table 1.1 for external brake resistor of integrated drive
controller
Table 1.1 AS380 series elevator integrated drive controller brake resistor configuration table
Integrated
inverter model
AS380-
Adaptive
motor (Ω)
Min. Value
(Ω)
Max. value
(Ω)
Recommend
ed value (Ω)
Total power of recommended
resistor (W)
Synchronous
Asynchronous
200V integrated inverter
2S01P1
1.1
26
72
64
1000
1000
2S02P2
2.2
26
58
50
1000
1000
2S03P7
3.7
26
39
30
1600
1200
2T05P5
5.5
14
24
20
2400
2000
2T07P5
7.5
10
16
12
3200
2700
2T0011
11
8
12
8
4700
3900
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
Chapter 1 General knowledge of the integrated drive controller
5
Integrated
inverter model
AS380-
Adaptive
motor (Ω)
Min. Value
(Ω)
Max. value
(Ω)
Recommend
ed value (Ω)
Total power of recommended
resistor (W)
Synchronous
Asynchronous
2T0015
15
4
8
6
6300
5300
2T18P5
18.5
4
6
4
7800
6500
2T0022
22
4
6
4
9300
7700
400V integrated inverter
4T02P2
2.2
56
210
100
1000
1000
4T03P7
3.7
56
144
80
1600
1200
4T05P5
5.5
56
100
70
2000
1600
4T07P5
7.5
56
72
64
3200
2000
4T0011
11
34
48
40
4000
3200
4T0015
15
34
41
36
5000
4000
4T18P5
18.5
17
31
24
6400
5000
4T0022
22
17
27
20
8000
6400
1.6.2 Absorber at the output side prohibited
Since the output of integrated drive controller is impulse wave, installation of power
factor-improving capacitor or piezoresistor for lightning protection at output side will cause the
fault tripping or component damage of integrated drive controller.
The above issue must be taken full consideration in designing. If conducting used elevator
renovation, the capacitor or piezoresistor previously connected to the circuit output side must be
removed.
The Fig 1.3 is the illustration of no capacitor connecting to the output side of integrated drive
controller
V
U
WM
Fig 1.3 the illustration of no capacitor connecting to the output side of integrated drive controller
1.6.3 The application voltage of integrated device.
AS380 series integrated drive controller is only applicable to working within the scope of
its rated voltage. If the power voltage and its rated voltage are not in conformity, voltage regulator
is required for voltage transformation.
1.6.4 Two-phase input not allowed
It is no appropriate to change the three-phase input into two-phase input. Otherwise, faults
will occur.
Shanghai STEPElectric Corporation
Chapter 1 General knowledge of the integrated drive controller
6
1.6.5 Altitude and derated application
The thin air at the areas of altitude above 1000 meter will cause the poor heat-dissipation of
integrated drive controller. This time it is necessary to do the derated application of integrated
drive controller. the relation curve between the rated current output and altitude when the
integrated drive controller is in derated application is as below:
m
1000 2000 3000
70%
80%
90%
100%
Rated current
Fig 1.4 the diagram about the relation between the rated output current and altitude
1.6.6 Synchronous sealing star delay
Fig 1.5 sealing star delay circuit tag
1.6.7 Low Voltage directive complies
That our products comply with EN61800-5-1:2007standards, which comply with the Low Voltage
Directive (Low Voltage Directive 2006/95/EC).
If the inverter as a component integration in the entire electrical system, make sure theentire
system meets the requirements of EC Directives.
Note:
①Machine make sure the ground, and make sure the ground terminal is a separateground.
②Inverter prohibited for use in of △ground and IT power systems.
③If you are loading the cabinet, make sure that the cabinet ground.
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
Chapter 1 General knowledge of the integrated drive controller
7
④Use CE certified circuit breaker, electromagnetic contactor, and other accessories.Leakage
circuit breakers, please use the B-type leakage circuit breakers.
⑤Inverter in the overvoltage catalog III, Pollution Degree II, under the conditions ofuse. The level
of protection of the inverter protection class Ⅰ
1.7 Waste disposal
Discarded integrated drive controller should be treated as the industrial waste
1.7.1 Disposal of capacitors
Burning electrolytic capacitor of main circuit and PCB may cause explosion, therefore,
electrolytic capacitor not allowed.
1.7.2 Disposal of plastic components
Several plastic components are in the integrated drive controller. Burning plastic components
may cause toxic gas, therefore, plastic components burning not allowed.\
Shanghai STEPElectric Corporation
Chapter 1 General knowledge of the integrated drive controller
8
Instruction Manual forAS380 Series Elevator Integrated Drive Controller
9
Chapter 2 Model And Specification
Chapter 2 Model and Specification
This chapter introduces the model, specification, and installation dimension of AS380 series
integrated drive controller.
2.1 Model of integrated drive controller
Table 2.1 is the model list ofAS380 series integrated drive controller.
Table 2.1 AS380 series integrated drive controller model list
Model AS380-
Nominal Capacity (kVA)
Nominal Output Current (A)
Applicable Motor (kW)
2S01P1
2.3
6.0
1.1
2S02P2
4.6
12
2.2
2S03P7
6.9
18
3.7
2T05P5
9.5
25
5.5
2T07P5
12.6
33
7.5
2T0011
17.9
47
11
2T0015
23
60
15
2T18P5
29
75
18.5
2T0022
32
80
22
4T02P2
4.7
6.2
2.2
4T03P7
6.9
9
3.7
4T05P5
8.5
13
5.5
4T07P5
14
18
7.5
4T0011
18
27
11
4T0015
24
34
15
4T18P5
29
41
18.5
4T0022
34
48
22
4T0030
50
65
30
4T0037
61
80
37
4T0045
74
97
45
4T0055
98
128
55
4T0075
130
165
75
2.2 The technical specification of integrated drive controller
Table 2.2 is the technical specification ofAS380 series integrated drive controller.
Table 2.2AS380 series elevator integrated drive controller technical specification
2S01P5
2S02P2
2S03P7
2T05P5
2T07P5
2T0011
2T0015
2T18P5
2T0022
4T02P2
4T03P7
4T05P5
4T07P5
4T0011
4T0015
4T0018
4T0022
4T0030
4T0037
4T0045
4T0055
4T0075
Max. applicable motor capacity (kW)
1.1
2.2
3.7
5.5
7.5
11
15
18.5
22
2.2
3.7
5.5
7.5
11
15
18.5
22
30
37
45
55
75
Nominal
output
Nominal capacity (kVA)
2.3
4.6
6.9
9.5
12.6
17.9
23
29
32
4.7
6.9
8.5
14
18
24
29
34
50
61
74
98
130
Shanghai STEPElectric Corporation
10
Chapter 2 Model And Specification
2S01P5
2S02P2
2S03P7
2T05P5
2T07P5
2T0011
2T0015
2T18P5
2T0022
4T02P2
4T03P7
4T05P5
4T07P5
4T0011
4T0015
4T0018
4T0022
4T0030
4T0037
4T0045
4T0055
4T0075
Nominal current (A)
6.0
12
18
25
33
47
60
75
80
6.2
9
13
18
27
34
41
48
65
80
97
128
165
Max. output voltage (V)
200V: single-phase / three-phase 220~240 (matching input voltage)
400V: three-phase 380/400/415/440/460V (matching input voltage)
Input Power
Number of phase, voltage
and frequency
200V: ≤3.7kW, single or three phase; >3.7kW, three phase, the range of input
voltage: 200~240V, 50/60Hz;
400V: three-phase 380/400/415/440/460V、50/60Hz
Admissible voltage
fluctuation range
-15%~+10%
Admissible frequency
fluctuation range
-5%~+5%
Basic Feature
Max. floors
2~64 for single elevator
Elevator speed
≤4.00m/s
Group control number
≤8
Communication mode
CAN bus serial communication
Functions
See 3.1 for product functions
Drive Features
Control mode
With PG card vector control
Startup moment
150% 0Hz (with PG card vector control)
Speed control range
1:1000 (with PG card vector control)
Speed control precision
±0.02% (with PG card vector control 25±10℃)
Moment limit
Yes (setup by parameters)
Moment precision
±5%
Frequency control range
0~120Hz
Frequency precision
(Temp. fluctuation)
±0.1%
Frequency setup resolution
±0.06Hz/120Hz
Output frequency resolution
(Calculate resolution)
0.01Hz
Non-load startup
compensation
When lift load is unknown, impose suitable torque to the motor according to its
operation direction to start it up smoothly and minimize the slipping and
increase comfortable sensation during start-up.
Overload capacity
Zero =150% , < 3Hz =160%, > 3Hz =200%
Brake moment
150% (external braking resistor), internal braking units
Acceleration / deceleration
time
0.01~600s
Carrier frequency
2~11kHz
Battery operation
Elevator powered by battery runs in low speed to the closest floor when power
cuts.
PG
Interface
signal
PG card output power
5V、12V, 300mA
Type of PG cards
Integrated/decoupled, push-pull, difference, SIN/COS, Endat absolute value
model
PG card signal frequency
division output
OA, OB in quadrature, frequency division factor 1~128
Control
input/output
signals
OC input control power
Insulation 24V DC
Relay output control power
Insulation 24V DC
Low voltage OC insulation
input
20 ways. Switching value. OC control signal: insulation 24VDC power input
signal.
High voltage OC insulation
input
3 ways. Switching value.
Relay output 1
4 ways. normally open contact, SPST, contact capacity: resistive, 3A 250VAC
or 3A 30VDC
Relay output 2
3 ways. normally open contact, SPST, contact capacity: resistive, 6A 250VAC
CAN communication
interface
3 ways (parallel connection or group control, lift car and outcall
communication, community monitor)
Analog signal input
1 way single end or difference input, input voltage range: -10V~+10V,
precision 0.1%
Protection
Functions
Motor overload protection
Use parameters to set up motor protection curve
Transducer overload
< 3Hz = 160%, 5 sec, > 3Hz=185%, 10 sec.
Other manuals for AS380 Series
1
This manual suits for next models
21
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