STEP AS380 Series User manual
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
1
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
2
AS 380 series elevator integrated drive controller
Publication Status: Standard
Product edition: V2.12
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
for
AS380 Series Elevator Integrated Drive Controller
3
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
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
4
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
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.
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
5
Safety-related sign
The following safety-related sign are used in the manual, be sure to observe the instructions with
these signs
: Operation wrongly will cause death or serious injury to person
: Operation wrongly will cause injury to person and damage to equipment.
Important: the important content that need users’ attention and observation
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
6
Table of contents
Chapterone:Generalknowledgeoftheintegrateddrivecontroller......................11
1.1scopeofapplication................................................................................................11
1.2itemsinthecases...................................................................................................11
1.3modeldescription...................................................................................................11
1.4integrateddrivecontrollernameplate....................................................................12
1.5NoticeItemsforsafety............................................................................................12
1.6operationnotice.....................................................................................................14
1.6.1Brakeresistorselection_____________________________________________________14
1.6.2Absorberattheoutputsideprohibited________________________________________15
1.6.3Theapplicationvoltageofintegrateddevice.____________________________________15
1.6.4Two‐phaseinputnotallowed________________________________________________15
1.6.5Altitudeandderatedapplication_____________________________________________15
1.6.6Synchronoussealingstardelay_______________________________________________16
1.7wastedisposal........................................................................................................16
1.7.1Disposalofcapacitors______________________________________________________16
1.7.2Disposalofplasticcomponents_______________________________________________17
Chaptertwo:ModelandSpecification..................................................................18
2.1Modelofintegrateddrivecontroller.......................................................................18
2.2Thetechnicalspecificationofintegrateddrivecontroller........................................18
2.3Theinstallationdimensionsandmassoftheintegrateddrivecontroller.................24
2.4Installationinstructions..........................................................................................25
2.4.1Productinstallationlocation_________________________________________________26
2.4.2Productinstallationpositioningandclearancerequirements_______________________26
ChapterThree:productfunction...........................................................................28
3.1Functionlist............................................................................................................28
3.2elevatoroperationfunctiondescriptionandsettingmethod...................................30
3.2.1Standardfunctiondescription________________________________________________30
3.2.2Optionalfunctiondescription________________________________________________35
Chapterfour:WiringofElevatorIntegratedDriveController................................38
4.1Theconnectionbetweenintegrateddrivecontrollerandperipheralequipments....39
4.1.1Fortypicalterminalwiringdiagramofelevatorintegrateddrivecontroller.____________39
4.2Noticeitemsforperipheralequipmentsconnection...............................................39
4.2.1Powersupply_____________________________________________________________39
4.2.2Breaker_________________________________________________________________40
4.2.3ACreactorattheinputside_________________________________________________40
4.2.4Interferencefilterattheinputside____________________________________________40
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
7
4.2.5Maincircuitoutputcontactor________________________________________________40
4.2.6Interferencefiltersattheoutputside._________________________________________40
4.2.7ACreactoratoutputside___________________________________________________40
4.2.8DCreactor_______________________________________________________________40
4.3Thetechnicalrequirementsforwirearrangementofperipheralequipmentsofthe
elevatorintegrateddrivecontroller..............................................................................41
4.3.1Thecablerequirementofhoistwayandaccompanyingcablearrangement___________41
4.3.2MethodofWiringBetweenCallboardandTXV+、TXV‐、TXA+、TXA‐ _______________42
4.3.3Hoistwayswitchposition___________________________________________________43
4.3.4UpperandLowerLevelingInductor___________________________________________44
4.4maincircuitterminalwiring....................................................................................45
4.4.1Thearrangementofmaincircuitterminal______________________________________45
4.4.2Themaincircuitterminallabelingandfunctiondescription________________________45
4.4.3Maincircuitwirespecification_______________________________________________46
4.4.4Themaincircuitcomposition________________________________________________48
4.4.5Thedetaileddescriptionofmaincircuitterminalwiring___________________________48
4.5anti‐interferencemeasures....................................................................................52
4.5.1Thespecializednoisefilterconnectedattheoutputside.__________________________52
4.5.2Maincircuitwiringarrangement_____________________________________________52
4.5.3thebetteranti‐interferencemeasure__________________________________________53
4.5.4Relationbetweenwiringlengthandcarrierfrequency.____________________________53
4.6WiringofControlCircuitTerminals.........................................................................54
4.6.1LayoutofControlCircuitTerminals___________________________________________54
4.6.2FunctionalDescriptionofControlCircuitTerminals_______________________________54
4.6.3Dipswitchsettingmethod__________________________________________________57
4.6.4Wirespecificationofcontrolcircuit___________________________________________58
4.6.5Noticeitemsforcontrolcircuitterminalwiring__________________________________60
4.7thewiresofPGcardterminal..................................................................................60
4.7.1ABZincremental12vPGcard________________________________________________60
4.7.3ABZincremental5VPGcard_________________________________________________65
4.7.4EndatabsolutevaluePGcard________________________________________________67
4.7.5NoticeitemforPGcardterminalwiring________________________________________69
ChapterFive
:
Operator......................................................................................70
5.1.1LEDindicatorlight_________________________________________________________70
5.1.2Functionkey_____________________________________________________________71
5.1.3Operatorhandling_________________________________________________________72
5.1.4graphicsymbolofnumberandletteronLEDscreen______________________________86
5.2LCDhandheldoperator...........................................................................................87
5.2.1LCDhandheldoperatorintroduction__________________________________________87
5.2.2Handheldoperatorconnectionmethod________________________________________88
5.2.3Handheldoperatorfunction_________________________________________________89
5.2.4IntroductiontodisplayinterfaceofLCDhand‐heldoperator________________________90
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
8
Chapter6introductiontothesupportingproducts............................................100
6.1CartopcontrolboardSM.02/Hintroduction..........................................................101
6.1.1CartopcontrolpanelSM.02/Houtsideviewandinstallationdimension_____________101
6.1.2CartopcontrolpanelSM02/H______________________________________________102
6.2cartopextensionboardSM09I0/Bintroduction....................................................104
6.2.1CartopextensionboardSM09IO/Boutsideviewandinstallationdimension__________104
6.2.2cartopextensionboardSM09IO/Bplug‐inandportdefinitionintroduction__________105
6.3CarcontrollerpanelSM.02/Gintroduction.............................................................106
6.3.1CarcontrollerpanelSM02/Goutsideviewandinstallationdimension_______________106
6.3.2CarcontrolboardSM.02/Gplug‐inandportdefinitionintroduction_________________107
6.4instructioncontrolboardSM‐03............................................................................109
6.4.1InstructioncontrolboardSM‐03outsideviewandinstallationdimension____________110
6.4.2InstructioncontrollerboardSM‐03plug‐inandportdefinitionintroduction__________110
6.5call&displaycontrolboard...................................................................................111
6.5.1call&displaycontrolboardSM‐04‐VRFS_______________________________________111
6.5.2Call&displaycontrolboardSM‐04‐HSC_______________________________________113
6.5.3Call&DisplayControlBoardSM‐04‐VHL______________________________________115
6.5.4Call&LCDControlBoardSM‐04‐UL__________________________________________116
6.5.5CarCall&LCDControlBoardSM‐04‐VL_______________________________________118
6.5.6In‐carSM‐04‐VL/B3outsideviewandinstallationdimension______________________121
6.5.7Call&LEDdisplaycontrolpanelSM‐04‐VSD____________________________________123
6.5.8Call&LEDdisplaySM‐04‐VRJ_______________________________________________124
6.5.9Miscellaneous(AListofDisplayCodes)_______________________________________125
6.6SM‐GCboardintroduction.....................................................................................128
6.6.1Systemstructure_________________________________________________________128
6.6.2BasicFeature____________________________________________________________128
6.6.3MainFunctions___________________________________________________________129
6.6.5Overalladjustmentprinciple________________________________________________131
6.6.6Treatmentinspecialsituation_______________________________________________132
6.6.7detaileddescriptionofgroupcontroller_______________________________________132
6.6.8ConnectionDiagramofGroupControlSystem__________________________________136
Chapter7ParameterTableofIntegratedDriveController....................................143
7.1FParameterList.....................................................................................................143
7.2Definitionoffunctionparameter...........................................................................157
Chapter8Elevatoradjustmentandsettinginstructions.......................................178
8.2CheckbeforePoweron..........................................................................................182
8.3PoweronandCheck..............................................................................................182
8.3.1ConfirmationbeforePoweron______________________________________________182
8.3.2ChecksafterPoweron____________________________________________________183
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
9
8.4ConfigurationofSystemBasicParametersandSelfStudyofMotorParameters
184
8.4.1ConfigurationofSystemBasicParameters_____________________________________184
8.4.2MotorParameterSelfStudy________________________________________________185
8.5TestRunofSlowCar..............................................................................................186
8.5.1InspectionOperationofEngineRoomandPreparationsforExpressCar_____________186
8.5.2CarTopInspectionOperation_______________________________________________187
8.5.3CheckofCANCommunicationLinesandSettingof04BoardAddress_______________188
8.5.4DoorOpening/ClosingAdjustment___________________________________________189
8.6hoistwaySelfStudy...............................................................................................189
8.6.1HoistwaySelfStudyMethod_______________________________________________189
8.7ExpressCarOperation............................................................................................190
8.8AdjustElevatorComfort.........................................................................................193
8.8.1FactorsRelatingtoElevatorComfortinOperation_______________________________193
8.8.2AdjustElevatorComfort___________________________________________________194
8.9LevelingAdjustment..............................................................................................202
8.10MethodforAdjustingPre‐LoadWeighingCompensationatElevatorStart...........208
8.10.1UseofDTZZ‐III‐DC‐SC____________________________________________________210
8.10.2Useofnon‐DTZZ‐III‐DC‐SCweighingdevice(F164setto1,2,5or6)tocompensateor
adjustthestart_______________________________________________________________211
8.10.3Simplecompensationbyusinglight‐loadandheavy‐loadswitch(F164setto4)______211
8.11Theadjustmentofotherfunction........................................................................212
Chapter9:FaultsandSolutions............................................................................213
9.1Thefaultanalysisoftheintegrateddevicecontrolsystem......................................213
9.2faultanalysisofIntegrateddrivesystem................................................................220
Chapter10:Maintenance.....................................................................................228
10.1Warranty..........................................................................................................228
10.2ProductCheckup..............................................................................................228
10.3RoutineInspection...........................................................................................229
10.4PeriodicInspection...........................................................................................229
AppendixAEMCInstallationGuide.....................................................................231
A1NoiseControl.........................................................................................................231
A1.1NoiseType______________________________________________________________231
A1.2TransmissionPath_______________________________________________________231
A1.3BasicMeasuresforNoiseSuppression_______________________________________231
A2RequirementsonCableLaying................................................................................232
A2.1RequirementonCableLaying_______________________________________________232
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
10
A2.2RequirementsonCableSize________________________________________________233
A2.3RequirementsonShieldedCable_____________________________________________233
A2.4RequirementsonInstallationofshieldedcable_________________________________233
A3GroundingRequirements.......................................................................................233
A3.1GroundingMethod_______________________________________________________233
A3.2PrecautionsforGroundingConnection________________________________________234
A4InstallSurgeAbsorptionDevice........................................................................234
A5LeakageCurrentandCountermeasures.............................................................235
A5.1GroundLeakageCurrent___________________________________________________235
A5.2Line‐to‐LineLeakageCurrent________________________________________________235
A6SuppressionofRadiatedEmission.....................................................................236
A7GuideforUseofPowerlinefilter......................................................................236
A7.1FunctionsofPowerlinefilter_______________________________________________236
A7.2PrecautionsforInstallationofPowerLineFilter_________________________________237
A8EMCInstallationZoning....................................................................................237
A9PrecautionsforElectricInstallation...................................................................238
A10EMCConformity...............................................................................................240
AppendixBFunctionParameter,FaultListSummary...........................................241
B.1FunctionParameterList.........................................................................................241
B.2FaultCodeAndAnalysis.....................................................................................255
Noticetocustomers.............................................................................................270
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
11
Chapter one: 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
◎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
NO Mating motor
07P5 7.5kW
Series name
2200V
4400V
0011
0015
18P5
0022
11kW
15kW
18.5kW
22kW
T3-phase
S1-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
75kW
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
12
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
◎ 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 ma
y
cause fire risk.
◎ 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
dama
g
e.
Caution
Danger
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
for
AS380 Series Elevator Integrated Drive Controller
13
◎ 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 iAStar-S8 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 ma
y
case risk of hazard.
◎ 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
ex
p
losion
v
◎ 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.
Danger
Danger
Danger
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
14
◎ 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
ex
p
losion.
1.6 operation notice
Please notice the following points when using AS380 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
Model
No
AS380-
Matching
Motor
(kW)
Min
value
(Ω)
Max
value
(Ω)
Recommended
value
(Ω)
Recommended total resistor
capacity (W)
synchronous asynchronous
200V integrated device
2S01P1 1.1 26 72 64 1000 1000
2S02P5 2.2 26 58 50 1000 1000
2S03P7 3.7 26 39 30 1600 1200
400V integrated device
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
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
15
4T0030 30 11 20 15 10000 8000
4T0037 37 8 16 12 12000 10000
4T0045 45 5 10 9 18000 15000
4T0055 55 5 8 8 22000 18000
4T0075 75 5 6 6 30000 25000
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.
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
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
16
integrated drive controller is in derated application is as below:
1000 2000 3000 4000(
米
)
100%
90%
80%
电流
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 ᇞground and IT power systems.
③If you are loading the cabinet, make sure that the cabinet ground.
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.
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
17
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.\
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
18
Chapter two: 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 of AS380 series integrated drive controller.
Table 2.1 AS380 series integrated drive controller model list
model
AS380-
Rated capacity
(kVA)
Rated output
current(A)
Matching Motor
(kW)
2S01P1 2.3 6.0 1.1
2S02P2 4.6 12 2.2
2S03P7 6.9 18 3.7
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 of AS380 series integrated drive controller.
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
19
Table 2.2 AS380 series elevator integrated drive controller technical specification
2S0
1P5
2S02
P2
2S03
P7
4T0
2P2
4T0
3P7
4T0
5P5
4T0
7P5
4T0
011
4T0
015
4T00
18
4T0
022
4T00
30
4T0
037
4T0
045
4T00
55
4T0
075
Max matching motor
capacity(kW)
1.1 2.2 3.7 2.2 3.7 5.5 7.5 11 15 18.5 22 30 37 45 55 75
Rated output
Rated capacity
(kVA)
2.3 4.6 6.9 4.7 6.9 8.5 14 18 24 29 34 50 61 74 98 130
Rated current
(A)
6.0 12 18 6.2 9 13 18 27 34 41 48 65 80 97 128 165
Max output
voltage (V)
200V:single-phase 220~240(matching input voltage)
400V:three-phase 380/400/415/440/460V(matching input voltage)
Input power
Phase number
voltage
frequency
200V:single-phase 220~240V、50/60Hz
400V:three-phase 380/400/415/440/460V、50/60Hz
Voltage range
allowed -15%~+10%
Frequency
range allowed -5%~+5%
Endurance
capacity of
instantaneous
voltage drop
200V:keep running at AC150V or above;Activate under-voltage protection
after 15ms from the moment when it drops from rated input condition to
somewhere lower than AC150V.
400V:keep running at AC300V or above;Activate under-voltage protection
after 15ms from the moment when it drops from rated input condition to
somewhere lower than AC300V.
basic characteristics
Max accessible
floor 2~64 floors for single elevator
Elevator
running speed ≤4.00m/s
Units under
Group control ≤8台
Communication
mode CAN bus serial communication
Operation
function see section 3.1 for product function list
chara
Control mode PG card vector control
Startup torque 150% 0Hz(PG card vector control)
Instruction Manual
for
AS380 Series Elevator Integrated Drive Controller
20
Speed control
scope 1:1000(PG card vector control)
Speed control
precision ±0.02%(PG card vector control 25±10℃)
Torque limit yes(set with parameter)
Torque
precision ±5%
Frequency
control scope 0~120Hz
Frequency
precision
(temperature
fluctuation)
±0.1%
Frequency
setting
resolution
±0.06Hz/120Hz
Output
frequency
resolution
(calculation of
resolution)
0.01Hz
No-load startup
compensation
When the elevator load is unknown, suitable torque will, as per the
ready-to-travel direction of elevator, be applied on motor so as to ensure smooth
start of elevator, minimize the slipping and improve comfort at starting moment
Overload
capacity Zero speed 150% , < 3Hz is 160%, > 3Hz is 200%
Card
interface
PG card
output 5V、12V,300mA
PG card type Open collector output, push-pull output, SIN/COS、Endat absolute value type
Brake torque 150% ( external braking resistor),integrated braking unit
Acceleration
Deceleration
time
0.01~600s
Carrier
frequency
2~11kHz
Battery
operation
In case of blackout, the battery instantaneously supplies power to elevator for
leveling at low speed
Other manuals for AS380 Series
1
This manual suits for next models
16
Table of contents
Other STEP Controllers manuals
