UL - efes otomasyon · 2020-01-03 · UL approval is being prepared for the entire MOVIDRIVE®...
Transcript of UL - efes otomasyon · 2020-01-03 · UL approval is being prepared for the entire MOVIDRIVE®...
10/262/97
T
MOVIDRIVE®
Drive Inverters
Manual
MDR60A Regenerative Power Supply Unit
Edition 04/200009
19 6
315
/ 120
0
UL®C UL®
2 MOVIDRIVE® MDR Regenerative Power Supply Unit
General Information
Always follow the safety and warning instructions contained in this publication!
Electrical hazard, e.g. during live working.
Mechanical hazard, e.g. when working on hoists.
Important instructions for safe and fault-free operation.
A requirement of fault-free operation and fulfillment of any rights to claim under guarantee is thatthe information in the operating instructions is adhered to. Consequently, read the operatinginstructions before you start working with the unit!
The operating instructions contain important information about servicing; as a result, theyshould be kept in the vicinity of the unit.
Designated use:
MOVIDRIVE® drive inverters are for use in industrial and commercial systems for operating ACasynchronous motors or permanent-field AC servo motors. No other loads may be connected tothe drive inverters.The place where the unit is installed must be free from dust, dry (no risk of condensation) andlockable (e.g. switch cabinet). All information in the technical data and the permitted conditionswhere the unit is operated must be complied with.Do not start up the unit (take it into operation in the designated fashion) until you have establishedthat the machine complies with the EMC Directive 89/336/EEC and that the conformity of the endproduct has been determined in accordance with the Machinery Directive 89/392/EEC (with refe-rence to EN 60204).
The following uses are forbidden unless measures are expressly taken to make them possible:
• Use in explosion hazard areas• Use in areas exposed to oils, acids, gases, vapors, dust, radiation, etc.
Disposal (please follow the current directives):
Dispose of in accordance with the material structure and the regulations in force, e.g. as:electronic scrap (printed-circuit boards), plastic (housing), sheet metal, copper, etc.
Contents
Contents Page
1 System Description.....................................................................................51.1 Overview of the system.................................................................................................... 51.2 General information ......................................................................................................... 61.3 Operating characteristics .................................................................................................7
2 Technical Data ..........................................................................................82.1 CE marking ...................................................................................................................... 82.2 UL approval .....................................................................................................................82.3 General technical data...................................................................................................... 82.4 Line choke dimensions .................................................................................................... 92.5 MDR dimensions ..........................................................................................................102.6 Block circuit diagram .....................................................................................................11
3 Project Planning ...................................................................................... 123.1 Supply system requirements ......................................................................................... 123.2 Inverter connected load / inverter combinations............................................................133.3 Supply fuses and supply system lead ............................................................................143.4 DC link fuse and DC link connection ..............................................................................143.5 Selection of an optional braking resistor........................................................................15
4 Installation............................................................................................. 184.1 Unit designation, rating plate and scope of delivery.......................................................184.2 Installation notes ........................................................................................................... 184.3 EMC-compliant installation ............................................................................................194.4 UL-compliant installation ...............................................................................................194.5 Wiring diagram and functional description of the terminals...........................................20
5 Startup.................................................................................................. 215.1 Evaluation of the ready signal ........................................................................................215.2 Parameter setting of P52_ “supply OFF monitoring” ..................................................... 22
6 Operation and Servicing ............................................................................. 236.1 Reset ............................................................................................................................. 236.2 SEW electronics service.................................................................................................23
MOVIDRIVE® MDR Regenerative Power Supply Unit 3
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Contents Page
MOVIDRIVE® MDR Regenerative Power Supply Unit
System Description 1
1 System Description
1.1 Overview of the system
01642AXX/02523AXXFig. 1 MOVIDRIVE® MDR60A750/0370 regenerative power unit
1 X1 PE connection ( y)
2 X1 Supply connection L1 (1) / L2 (2) / L3 (3)
3 X3 Ready signal
4 X2:7a -UZ Negative DC link
5 X2:8a +UZ Positive DC link
6 X2:7b -UZ Negative DC link
7 X2:8b +UZ Positive DC link
8 X2:7c -UZ Negative DC link
9 X2:8c +UZ Positive DC link
10 X2:7d -UZ Negative DC link
11 X2:8d +UZ Positive DC link
12 X2:PE PE connection ( y)
13 TRIP Ready signal indicator
13
1 12 3
4 512 6 7 8 9 10 11 1212
13
1 2 3
987654
MOVIDRIVE® MDR Regenerative Power Supply Unit 5
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1 System Description
1.2 General information
The MOVIDRIVE® MDR60A regenerative power supply unit can be used with MOVIDRIVE® driveinverters operating in regenerative mode as an alternative to braking resistors. It is essential tohave a stable supply system for this purpose (→ Sec. 3.1 “Supply system requirements”).The MOVIDRIVE® MDR60A regenerative power unit supplies the DC link of the MOVIDRIVE® driveinverter with motor power from the supply and returns regenerative power to the supply from theDC link. This is performed using a supply system rectifier for the motor power and an inverter forthe regenerative power. The inverter is in an inverse-parallel connection with the input rectifier.The MOVIDRIVE® MDR60A regenerative power supply unit does not require an auxiliary powersupply or control signals. Operational readiness of MOVIDRIVE® MDR60A is signaled via a readysignal (X3:4) and a ready signal indicator.
Properties of the regenerative power supply unit in comparison to the inverter with braking resistor
• Energy balance: Regenerative power is fed back into the supply instead of being converted into waste heat.
• Reduced complexity of installation when there are several inverters (supply and braking resistor connections). However, a braking resistor is required for bringing the drive to a controlled stop even when there is a disruption in the power supply.
• Reduction in use of switching cabinet capacity and fan power where the braking resistor had previously been installed in the switching cabinet.
Protection and monitoring
• Monitoring and protection against thermal overload• Detection of power failure under load within one power supply system half-wave• Overvoltage protection
MOVIDRIVE® MDR Regenerative Power Supply Unit
System Description 1
1.3 Operating characteristics
Provided the supply requirements are maintained (Sec. 3.1), the regenerative power supply unitallows safe operation with a brief overload capability of Imax = 150 %. Supply failures (affecting one or more phases) are detected under load within one power supplysystem half-wave. The regeneration is inhibited and the ready signal (X3:4) revoked. The return ofthe supply voltage is also detected within one power system half-wave and power feedback into thesupply resumes after a switch-on delay1) of 200 ms. The ready signal is then set again. However,the supply system rectifier of the regenerative power supply unit remains permanently switchedon. The ready signal is revoked whenever supply failures and thermal overload of the regenerativepower supply unit are detected. This ready signal must be evaluated in order to provide thermalprotection for the regenerative power supply unit (see Sec. 5.1).A braking resistor must also be connected to the inverter in order to allow connected drives to bebrought to a stop in a controlled fashion if there is a supply interruption or failure. The brakingresistor is only energized during braking when there is a supply interruption (see Sec. 3.5).
Unit characteristics / ready signal
Table 1: Ready signal
1) Guarantees safe operation in the event of contactor chatter
Unit status / supply status Response Ready signal Ready signal
indicator
Supply failureorunit malfunction
→ MDR60A not ready
A supply failure is detected under load within one power system half-wave. Supply energy feedback immedi-ately inhibited. Input rectifier always remains switched on.
Not ready Red
Supply OK againandno unit malfunction
→ MDR60A ready
Supply OK is detected within one power system half-wave. The regenerative power unit is automatically started after a 200 ms switch-on delay1).
1) Guarantees safe operation in the event of contactor chatter
Ready after 200 ms Yellow
MOVIDRIVE® MDR Regenerative Power Supply Unit 7
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2 Technical Data
UL®C UL®
2 Technical Data
2.1 CE marking
Low voltage directiveMOVIDRIVE® regenerative power supply units comply with the regulations in the Low VoltageDirective 73/23/EEC.
Electromagnetic compatibility (EMC)The designated use of MOVIDRIVE® regenerative power supply units is as components for installa-tion in machinery and systems. As far as EMC is concerned, they comply with the generic stan-dards EN 50081 (emitted interference) and EN 50082 (interference immunity). Provided theinformation relating to EMC-compliant installation is complied with, they satisfy the appropriaterequirements for CE marking of the entire machine/system in which they are fitted, on the basis ofthe EMC Directive 89/336/EEC.
The CE mark on the rating plate indicates conformity with the Low Voltage Directive 73/23/EEC andthe EMC Directive 89/336/EEC. A declaration of conformity to this effect can be issued on request.
2.2 UL approval
UL approval is being prepared for the entire MOVIDRIVE® regenerative power supply range andsome approvals have already been issued. UL approval is of equal standing to cUL and CSAapproval.
2.3 General technical data
MOVIDRIVE® MDR60A
Interference immunity Complies with EN 50082, parts 1 and 2
Emitted interference with LF 180 – 503and EMC-compliant installation Complies with EN 50081, parts 1 and 2
Ambient temperature ϑambDerating ambient temperature
0 °C – +40 °CPrated reduction: 3.0 % Irated per K to max. 60 °C
EN 60721-3-3, class 3K3
Storage temperature1) ϑS
1) Connect to supply voltage for min. 5 minutes every 2 years if stored for long periods, otherwise the unit's service life may be reduced.
-25 °C – +70 °C (EN 60721-3-3, class 3K3)
Enclosure MDR60A0750: IP00 (IP10 with plexiglas cover fitted)MDR60A0370: IP20
Operating mode DB (EN 60149-1-1 and 1-3)
Installation altitude h ≤ 1000 m (3300 ft)Irated reduction: 1% per 100 m (330 ft)
from 1000 m (3300 ft) to max. 2000 m (6600 ft)
MOVIDRIVE® MDR Regenerative Power Supply Unit
Technical Data 2
2.4 Line choke dimensions
00526AENFig. 2: ND200-0033 line choke, dimensions in mm (in)
Dimensions in mm (in)
MOVIDRIVE® MDR60A0370-503-00 MDR60A0750-503-00
Part number 826 658 1 826 556 9INPUTSupply voltage VsupplyPermitted range
3 × 380 VAC / 400 VAC / 415 VAC / 460 VAC / 480 VAC / 500 VACVsupply= 380 VAC – 10 % ... 500 VAC + 10 %
Rated supply power Prated 37 kW 75 kWSupply frequency 50 Hz ... 60 Hz ± 5 %Rated supply current Isupply(at Vsupply = 3 × 400 VAC)
66 AAC 117 AAC
DC LINKRated output power Pout 51 kVA 91 kVADC link voltage VDC 560 VDC ... 780 VDCRated DC link current IDC 70 ADC 141 ADCMax. DC link current IDCmax 105 ADC 212 ADCGENERALPower loss at Prated PVmax 950 W 1700 WType of cooling (DIN 41751)
Forced cooling / cooling air con-sumption
180 m3/h (108 ft3/min) 360 m3/h (216 ft3/min)
Weight 16 kg (35 lb) 24 kg (53 lb)Main dimensions W × H × D 200 × 465 × 221 mm
(7.87 × 18.31 × 8.70 in)280 × 522 × 205 mm
(11.02 × 20.55 × 8.07 in)Line choke (always necessary)
Inductance LchokePart number
ND085-0130.1 mH
826 014 1
ND200-00330.03 mH
826 579 8Supply filter (optional)
Part numberNF080-443/-503
825 830 9 / 826 077 XNF180-503826 455 4
Line chokeType
Main dimensions Mounting dimensions Hole dimen. Weight
W H D a b c [kg (lb)]
ND085-013 185 (7.28) 235 (9.25) 115 (4.53) 136 (5.35) 55 (2.17) 7 (0.28) 6.5 (14.3)
ND200-0033 250 (9.84) 160 (6.30) 160 (6.30) 180 (7.09) 98 (3.86) 8 (0.31) 15 (33.1)
H
ac
bc
D
W
Space for terminals (safe to touch)
MOVIDRIVE® MDR Regenerative Power Supply Unit 9
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2 Technical Data
2.5 MDR dimensions
01725AXXFig. 3: MDR60A0750-503-00 dimensions in mm (in)
Provide at least 100 mm (4 in) clearance above and below the unit to ensure adequate cooling!Do not install any components which are sensitive to high temperatures within 300 mm (11.81 in)of the top of the unit (e.g. contactors, fuses).
Regenerative energy supply unit type
Main dimensions Mounting dimensions
A B C D E F
MDR060A0370 200 (7.87) 465 (18.31) 221 (8.70) 105 (4.13) 445 (17.52) 173 (6.81)
MDR060A0750 280 (11.02) 522 (20.55) 205 (8.07) 140 (5.51) 502 (19.76) 160 (6.30)
B E11
(0.4
3)
7(0.28)
D
A C
F
MOVIDRIVE® MDR Regenerative Power Supply Unit
Technical Data 2
2.6 Block circuit diagram
01686BENFig. 4: Block circuit diagram
1 2 3X3X1
X2
3
24V
0V
4 5
TRIP
TEMP
7 8 7 8 7 8
1 2
a b c7 8
d
overvoltageprotection
attenuation
SMP
rectifier
control
measuring
measuring
invertercontrol
SMP
MOVIDRIVE® MDR Regenerative Power Supply Unit 11
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3 Project Planning
3 Project Planning
3.1 Supply system requirements
MOVIDRIVE® MDR60A must not be operated without a line choke connected on the supply side(→ Sec. 4.5)!
To ensure trouble-free operation of MOVIDRIVE® MDR60A, the relative short-circuit voltage UK atthe unit supply connection must not exceed the following values:
MOVIDRIVE® MDR60A must not be operated unless the Vshort values specified in the table aremaintained.
Determining the UK (short-circuit voltage) values:
The exact values must be determined by measurement if you do not have precise data for deter-mining the UK value.
The inductance of the existing supply connection (Lsupply, phase – phase) must be added to theinductance of the specified line choke Lchoke in order to calculate the effective total inductance LG.The effective UK value is then calculated on the basis of the following formula:
The following factor k is used for the various types of power systems:
Lsupply can be either measured or else calculated on the basis of the data of the high-voltage trans-former and the cable between the trafo and the power supply connection of the MDR.
Lsupply = Ltrafo + Lcable
The inductivity of the cable, Lcable, is approximately 0.7 µH/m.
MOVIDRIVE® MDR60A0370-503-00 MDR60A0750-503-00
Line choke typeInductivity Lckoke
ND085-0130.1 mH
ND200-00330.03 mH
Rated supply voltage Vsupply Permitted relative short-circuit voltage UK
400 VAC < 6.0 %460 VAC < 5.2 %500 VAC < 4.8 %
Vsupply = 400 VAC, fsupply = 50 Hz Vsupply = 460 VAC, fsupply = 60 Hz Vsupply = 500 VAC, fsupply = 50 Hzk = 159.2 k = 166 k = 127.3
UK
LG 2π• f• Isupply• 3•Vsupply
------------------------------------------------------------------ Lsupply 1.6 Lchoke•+( ) k•==
MOVIDRIVE® MDR Regenerative Power Supply Unit
Project Planning 3
The effective inductivity of the high-voltage transformer is calculated on the basis of the high-voltage transformer data (nameplate):
Ltrafo= Effective inductance of the high-voltage transformerST = Apparent power of the high-voltage transformer (rating plate)uKT = Short-circuit voltage of the high-voltage transformer (rating plate)
The following k2 factor is used for the various types of power systems:
Example: Vsupply = 400 VAC, fsupply = 50 Hz, ST = 250 kVA, uKT = 4 %Lcable = 0.07 mH (100 m), Lchoke = 0.03 mH (ND200-0033)
The uK value of 3.1 % is admissible; MOVIDRIVE® MDR60A may be operated.
Recommendation: Make provision for the use of the MOVIDRIVE® MDR60A regenerative powersupply unit by allowing the following power proportion for the regenerative power supply unitwhen setting the level of the power supply:
3.2 Inverter connected load / inverter combinations
• The momentary output power of all connected inverters must not exceed 150 % of the rated power of the regenerative power unit.
• The rated power of all connected inverters must not exceed 200 % of the rated power Prated of the regenerative power unit.
• Up to 6 MOVIDRIVE® inverters in sizes 1...5 can be connected to one regenerative energy sup-ply unit.
• Each drive inverter is graded with a number of points according to size. The regenerative energy supply unit can only be loaded with a combination of inverters up to a certain total of grading points.
• Inverter grading points: MDx BG1 1 MDx BG2 2 MDx BG3 4 MDx BG4 8 MDx BG5 15
Maximum number of grading points for regenerative energy supply units:MDR60A0370 12 MDR60A0750 45
Vsupply = 400 VAC, fsupply = 50 Hz Vsupply = 460 VAC, fsupply = 60 Hz Vsupply = 500 VAC, fsupply = 50 Hzk2 = 509 k2 = 561 k2 = 795
MOVIDRIVE® Required power proportionMDR60A0370 100 kVAMDR60A0750 180 kVA
Ltrafo
uKT Vsupply2•
2 π• f• ST•----------------------------------
uKT
ST--------- k2•= =
Ltrafo0.04
250kVA-------------------- 509• 0.08mH= =
uK 0.08mH 0.07mH 0.048mH++( ) 159.2• 0.31 3.1 %= = =
MOVIDRIVE® MDR Regenerative Power Supply Unit 13
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3 Project Planning
Example: the following units connected to MDR60A0370: Unit Size Grading points– MDx 60A0300-503-4 3 4– MDx 60A0055-503-4 2 2– MDx 60A0150-503-4 3 4– MDx 60A0022-503-4 1 1Total: 11Maximum number of points: 12
This combination permissible is therefore permissible.
3.3 Supply fuses and supply system lead
For the fusing and the selection of cable cross sections, the directions for different countries and for specific applications must be followed.
Supply fuses type F11/F12/F13:
The following types are suitable for protecting the supply system lead:a) fuses with electrical classification gL, gGb) circuit breakers with characteristics B,CTo make use of the overhung load capacity of the MOVIDRIVE® inverters connected to the regener-ative power supply unit, the rated current of the circuit breaker must exceed the total of the supplyrated currents of the MOVIDRIVE® inverters by 10 %. The cable cross section must be protectedby the selected circuit breaker. It must therefore be determined accordingly.
The following fuses are suitable for further protection of the unit:
a) Siemens, SITOR series, Type 3NE3 227b) EFEN, HLS fuses, Type NH-SI 2 250A aR 690Vc) Gould, A-66C series, Type A1-66C315D1
3.4 DC link fuse and DC link connection
DC link connection:A cable length up to a maximum of 5 m / 16.5 ft (with fuse) can be used. Where there is no fuse inthe DC link, VDE 0100 Part 30 authorizes a maximum of 3 m / 10 ft in the switching cabinet, inas-far as there is no heightened risk of fire. If the units are wired with the maximum connection crosssection possible, then a fuse in the DC link is not required. In any case, the cables should be keptas short as possible.The inverters must be connected in star formation around the regenerative energy supply unit.
DC link fuses F21 – F26:
For line protection of the DC link connection:
Connection of MOVIDRIVE® MD_60A, size 3 4 5
Fuse: Gould, type A00-66C160D8 A00-66C250D8 A00-66C350D8
MOVIDRIVE® MDR Regenerative Power Supply Unit
Project Planning 3
Prefabricated cable sets:
SEW strongly recommends that the cable sets named below are used, because they possess therelevant dielectric strength and are also color-coded. This is necessary because a faulty DC linkconnection (false polarity, ground fault) could cause irreparable damage to the connected equip-ment. The length of the cables restricts the DC link connection to the permitted 5 m (16 ft 5 in),whilst they can also be cut to length by the customer for connecting several units. The cable setcomes with the lugs for connecting the regenerative power supply unit and an inverter of therespective sizes.
The cable sets consist of the following parts:
3.5 Selection of an optional braking resistor
In the event of a power failure or a malfunction of MDR60A during regenerative mode, a connectedinverter causes the “VDC Link overvoltage” fault if there is no braking resistor connected. Theinverter switches off immediately and the brake is applied. A drive without a brake coasts to a stop!In order to permit the drive to be brought to a stop in a controlled fashion in the event of a powerfailure, it is necessary to connect a braking resistor to the inverter. The braking resistor must pos-sess the maximum rated power of the inverter combination connected to the regenerative powersupply unit. It can be configured with a lower continuous power level since it is only subject to loadwhen a stop ramp is triggered in case of a power failure. However, it must be designed to copewith the maximum peak regenerative power which will arise.One braking resistor may be sufficient, even if several inverters are connected to MDR60A. Theoperating status of this inverter is not relevant for the brake chopper in this context, because itoperates independently and is only subject to the VDC Link voltage. Further inverters in the combina-tion must be fitted with a braking resistor if one inverter with a braking resistor cannot cope withthe maximum peak regenerative power which will arise.
Note:
Rule of thumb (worst case): Stopping (stop ramp) of the drives at the current limit of the inverters:
→ PStop = ΣPInverter x 150 %
Cable set type DCP12A DCP13A DCP15A
Part number 814 567 9 814 250 5 814 251 3
For connecting MOVIDRIVE® MD_60A 0015...0110 0150...0300 0370...0750
Cable set type
DCP13A DCP13A DCP15A
1 pce. H07V-K PVC single-core cablecolor black, 25 mm2 (AWG4),
l = 5 m (16 ft 5 in)
1 pce. H07V-K PVC single-core cable color black, 25 mm2 (AWG4),
l = 5 m (16 ft 5 in)
1 pce. H07V-K PVC single-core cablecolor black, 50 mm2 (AWG0),
l = 5 m (16 ft 5 in)
1 pce. H07V-K PVC single-core cablecolor red, 25 mm2 (AWG4),
l = 5 m (16 ft 5 in)
1 pce. H07V-K PVC single-core cablecolor red 25 mm2 (AWG4),
l = 5 m (16 ft 5 in)
1 pce. H07V-K PVC single-core cablecolor red, 50 mm2 (AWG0),
l = 5 m (16 ft 5 in)
2 pcs. ring cable lug DIN 46234 4-6
2 pcs. ring cable lug DIN 46234 6-6
4 pcs. ring cable lugDIN46234 6-25 4 pcs. crimping cable lug
DIN 46235 10-502 pcs. crimping cable lug
DIN 46235 E4-122 pcs. crimping cable lug
DIN46235 10-25
MOVIDRIVE® MDR Regenerative Power Supply Unit 15
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3 Project Planning
Assignment of BW braking resistor to MOVIDRIVE® drive inverter
:
*) Physical power limit due to the DC link voltage and the braking resistor.
Further technical data on braking resistors: see the MOVIDRIVE® System Manual.
Example:
High-bay warehouse transporting equipment with 3 drives, only the drive unit for vertical motionand the travel drive can operate simultaneously;Emergency stop ramp = 1 second;Travel drive: MOVIDRIVE® MD_60A0300-503-4-00, Pmot = 30 kWDrive unit for vertical motion: MOVIDRIVE® MD_60A0450-503-4-00, Pmot = 45 kWTelescopic drive: MOVIDRIVE® MD_60A0022-503-4-00, Pmot = 2.2 kW
The simultaneity factor may differ for accleration and deceleration. Depending on the application,all the drives do not necessarily accelerate simultaneously (motive operation). Simultaneous bra-king (regenerative operation) for all drives in simultaneous travel must be provided for.
Checking permissibility of unit combinations for MDR60A0750
In this example the maximum permissible number of six inverters is not required. The permissiblecombination must be checked by determining the sum of the grading points (see "Inverter con-nected load / inverter combinations" on Page 13):• 1 MD_60A0300-503-4-00 = 4 points• 1 MD_60A0450-503-4-00 = 8 points• 1 MD_60A0022-503-3-00 = 1 pointsThis gives a total of 13 points, 45 points can be connected to the MDR60A0750, the connection ofthese three inverters to the regenerative power supply unit is therefore permissible.
Braking resistor type: BW100-005
BW100-006 BW168 BW268 BW147 BW247 BW347
Load capacity 100 % cdfat 3 % cdf
1 % cdf
0.45 kW4.5 kW9 kW
0.6 kW6 kW
12 kW
0.8 kW8 kW
16 kW
1.2 kW12 kW24 kW
1.2 kW12 kW24 kW
2.0 kW20 kW40 kW
4.0 kW40 kW80 kW
For MOVIDRIVE® MD_60A 0015/0022 0015...0040 0055/0075
Braking resistor type: BW039-012 BW039-026 BW039-050 BW018-015 BW018-035 BW018-075
Load capacity 100 % cdfat 3 % cdf
1 % cdf
1.2 kW12 kW24 kW
2.6 kW26 kW52 kW
5.0 kW50 kW100 kW
1.5 kW15 kW30 kW
3.5 kW35 kW
40 kW*)
7.5 kW40 kW*) 40 kW*)
For MOVIDRIVE® MD_60A 0110 0150/0220 and 2 x parallel for 0450
Braking resistor type: BW012-025 BW012-050 BW012-100 BW106 BW206
Load capacity 100 % cdfat 3 % cdf
1 % cdf
2.5 kW25 kW50 kW
5.0 kW50 kW
60 kW*)
10 kW60 kW*) 60 kW*)
13 kW120 kW*) 120 kW*)
18 kW120 kW*) 120 kW*)
For MOVIDRIVE® MD_60A 0300/0370 0450...0750
MOVIDRIVE® MDR Regenerative Power Supply Unit
Project Planning 3
Checking the motor load limit
Checking the regenerative load limit
Regenerative peak braking power which may occur at the same time:ΣPmax. reg. = (Ptravel + Pvert.) x 150 % x η
= (30 kW + 45 kW) x 150% x 0.85 = ≤ PMDR ? 200 % ⇒ permissible
• A 1 second stop ramp corresponds to 0.833 % cdf1) of a braking resistor(cdf = stop ramp / cycle duration = 1 s / 120 s = 0.0083)
• The assignment table allows the following possible combination:BW106, load capacity at 1 % cdf: 120 kW– alternatively: 2 × BW012-025 parallel, load with 1 % cdf: 100 kW together.
1) cdf = Cyclic duration factor of the braking resistor in relation to a cycle duration TD < 120 s
ΣPmax. mot Ptravel Pvert.+( ) 150 %⋅ PMDR 150 %⋅≤=
ΣPmax. mot 112.5 kW 112.5 kW permissible⇒≤=
MOVIDRIVE® MDR Regenerative Power Supply Unit 17
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4 Installation
4 Installation
4.1 Unit designation, rating plate and scope of delivery
Unit designation:
01898AEN
Rating plate: The rating plate is fitted on the front of the unit.
01899AXXFig. 5: Rating plate
Scope of delivery:• MOVIDRIVE® MDR60A regenerative power supply unit• Protection against contact for the power terminals• Connector housing for signal terminals (X3:), connected
4.2 Installation notes
Always follow the safety instructions in the MOVIDRIVE® operating instructions during installation!
For the protection of the unit, the ready signal must be evaluated (see Section 5.1).The supply connections of the individual MOVIDRIVE® inverters must not be connected to thesupply when MDR60A is in operation!• Only use original connection elements!
Note the tightening torques of the MOVIDRIVE® power terminals:Size 1 → 0.6 Nm (5.3 in lbs) / Size 2 → 1.5 Nm (13.3 in lbs) /Size 3 → 3.5 Nm (31 in lbs) / Sizes 4 and 5 → 14 Nm (124 in lbs)
• Note the minimum clearance of the units (adequate cooling!) 100 mm (4 in) above and below,no lateral clearance is required. With sizes 4 and 5, do not install any components which aresensitive to high temperatures within 300 mm (11.81 in) of the top of the unit.
• Install the units vertically. You must not install them horizontally, tilted or upside down!
• Route power cables and electronic leads in separate cable ducts.• Install input fuses at the start of the supply system lead after the supply bus junction
(→ Sec. 4.5: F11/F12/F13).
MOVIDRIVE MDR 60 A 0750-503-00®
0750 = 75 kW
5 = 380...500 VAC
= Regenerative power supply unit
Design
Type of supply
Recommended inverter power
Type series
Type: MDR
Rated supply voltage
Version A
00 = Standard
3 = 3-phase
MOVIDRIVE® MDR Regenerative Power Supply Unit
Installation 4
• Check that the polarity of the DC link connections is correct, false polarity of the DC link con-nections could cause irreparable damage to the connected equipment! The DC link circuit con-nection carries a high DC voltage (approx. 900 V). Twist the DC link circuit cables together andonly route them within the switch cabinet.
• In the MOVIDRIVE® sizes 1 and 2 (MD_0015 ... MD_0110), the assignment of the terminals tothe connection of the DC link has been swapped over so that it is the same in all the drive inver-ters. This change is in effect as of Week 12/99.
• The inverter must connected in star to the regenerative power supply unit.
4.3 EMC-compliant installation
MOVIDRIVE® MDR60A regenerative power supply units meet the requirements for compliancewith the EMC Directive 89/336/EEC provided the instructions regarding EMC-compliant installationare followed. Immunity to interference:With regard to immunity to interference, MOVIDRIVE® meets all the requirements stipulated inEN 50082-2 and EN 61800-3.Emitted interference:
Higher levels of interference are permitted in industries. In such an environment, it may be possibleto dispense with the measures described below depending on the situation of the power supplysystem and the machine configuration.Please refer to “Drive Engineering – Practical Implementation, Vol. 9” for more information aboutelectromagnetic compatibility. This publication can be obtained from SEW under order number0923 1013.• The control cables must be shielded.
• Connect the shield by the shortest possible route and make sure it is grounded over a wide area. To avoid ground loops, it is possible to ground one end of the shield via a suppression capacitor (220 nF / 50 V). If using double-shielded cables, earth the outer shield on the MOVIDRIVE® end and the inner shield on the other end.
• Another basic requirement for shielding is that all cables must be laid separately in individual, grounded sheet metal ducts or pipes.
• Provide high frequency-compatible grounding for MOVIDRIVE® and all additional units (wide area metal-on-metal contact between the unit housing and ground, e.g. unpainted switch cabinet mounting panel).
• A supply filter must be installed. Fit the supply filter close to MDR60A beyond the minimum clearance.
4.4 UL-compliant installation
For UL-compliant installation, please observe the following instructions:• For the connecting cables use only copper leads with a temperature range of at least 75° C.• The permissible tightening torques of the MOVIDRIVE® power terminals are:
– for size 3 (MDR60A0370) → 3.5 Nm (31 lb.in)– for size 4 (MDR60A0750) → 14 Nm (124 lb.in)
• MOVIDRIVE® drive inverters are suitable for operation in voltage systems with a maximum voltage of 500 VAC. The maximum permissible power supply current and the dimensioning of the power supply fuses can be found in the MOVIDRIVE® system manual or the operating instructions.
MOVIDRIVE® MDR Regenerative Power Supply Unit 19
20
4 Installation
4.5 Wiring diagram and functional description of the terminals
Wiring diagram:
01761DENFig. 6: Wiring diagram
Functional description of the terminals:Terminal FunctionX1: 1
23
L1L2L3
Supply connection
X2:7a/b/c/d 8a/b/c/d
-Uz+Uz DC link connection for up to 6 inverters
X3: 12345
DGNDDo not connectDo not connectReadyDGND
+24 V output
Binary output X3:4 (“Ready”) is short-circuit proof.“0” = 0 V, “1” = +24 V, Imax = 50 mA, PLC compatible, response time 5 ms.
L1L2L3PE
L1 L2 L3
L1' L2' L3'
F11 F12 F13
K11
NF...-...
yy
≤ 400 mm(15.75 in)
≤ 400 mm (15.75 in)
DGND
DGND
L1 L2 L3L1' L2' L3'
ND...-...
yy
8b 7c 8c
1 2 3y
y
MOVIDRIVE®
MDR
7b7a 8aF25
F26
X1:
X2:
1 2 3 4 5X3:
PE
PE L1 L2 L3
+ 24 V
bkrd bk
rd
bk
bk
rd
rd
y
PE
7d 8dy
PE
MOVIDRIVE®
MDF... / MDV... / MDS...
4 5 6
y
y
1 2 3 y871 2 3
+R
PE
PE
X1: X4:
X2:
y98
X3:
PE L1 L2 L3
PE U V W -R PE
An incorrect DC-link (polarityreversal, earth connection)will destroy the units connected!
+VZ-VZ +VZ-VZ +VZ-VZ
TRIP red: MDR not readyyellow: MDR ready
+24
V-Ou
tput
-VZ +VZ
Ready foroperation
The mains connectionsof the inverter
must not be connected!
+VZ-VZ
MOVIDRIVE® MDR Regenerative Power Supply Unit
Startup 5
5 Startup
5.1 Evaluation of the ready signal
The ready signal from the regenerative power supply unit is switched in the event of a thermaloverload of MDR60A and a power failure. One of the following responses must accompany thissignal:[a] Disconnect the regenerative power supply unit from the supply immediately.[b] Switch off the inverters connected to the regenerative power supply unit immediately.[c] Switch off the inverters connected to the regenerative power supply unit with a time delay.[d] Bring the drives to a controlled stop.The focus in points [a] – [c] is directed towards thermal protection of the unit whilst [d] is princi-pally concerned with stopping the drives.
The following picture shows how the ready signal (ready) from the regenerative power supply unitmust be connected to the “supply on” binary input of the inverter in order to perform evaluation inaccordance with [b] – [d].
01884AENFig. 7: Ready signal as supply on signal
[a] Disconnect the regenerative power supply unit from the supply immediately:
The ready signal must be used for switching off the supply system contactor K11 from the regen-erative power supply unit in order to protect the regenerative power supply unit against thermaloverload.
[b] Switch off the inverters connected to the regenerative power supply unit immediately:
The ready signal is sent to a digital input of all connected inverters. The parameters of this inputshould be set to “supply ON” (P60_) which permits the inverter to switch off (P521 “supply OFFresponse” = CONTROL.INHIBIT). The “supply OFF response time” (P520) must be set to 0 sec-onds.Inverter parameter setting:
P520 (supply OFF response time) = 0 sec.P521 (supply OFF response) = CONTROL.INHIBITP60_ (Binary input) = supply ON
X13: X13:DIØØDIØ1DIØ2DIØ3DIØ4DIØ5
DCOMVO24DGNDST11ST12
DIØØDIØ1DIØ2DIØ3DIØ4DIØ5
DCOMVO24DGNDST11ST12
123456789
1011
123456789
1011
X3:
+ 24 V
12345
Ref. potential binarysignals
Enable/rapidstop
/Controller inhibitCW/stop
CCW/stop
Ref. X13:DIØØ...DIØ5+24Voutput
Mains onReset
RS-485-RS-485+
MDR60A regenerativepower supply unit
MOVIDRIVEinverter
® MOVIDRIVEinverter
®
DGND+24 V
-readyDGND
Ref.potential binarysignals
Enable/rapidstop
/Controller inhibitCW/stop
CCW/stop
Ref. X13:DIØØ...DIØ5+24Voutput
Mains onReset
RS-485-RS-485+
MOVIDRIVE® MDR Regenerative Power Supply Unit 21
22
5 Startup
[c] Switch off the inverters connected to the regenerative power supply unit with a time delay:
The following possibility is available if supply failures during motor operation should not immedi-ately give rise to an inverter switch-off, e.g. if the supply quality is poor:Proceed in accordance with [b]. Set the “supply OFF response time” (P520 → Sec. 5.2) to ≥ 300ms so the switch-on delay (200 ms) of the regenerative power supply unit after the return of supplyvoltage is bridged. Supply failures of no longer than the supply off response time minus 200 ms donot lead to the inverters switching off.The inverters will have to be equipped with braking resistors if supply failures in regenerative modeas well should not lead to the inverters being switched off immediately.Inverter parameter setting:
P520 (supply OFF response time) = 0.3 – 0.5 sec.P521 (supply OFF response) = CONTROL.INHIBITP60_ (Binary input) = supply ON
[d] Bring the drives to a controlled stop:
The inverters must be fitted with braking resistors in order to allow the drives to be brought to a con-trolled stop (emergency stop ramp) in the event of a power failure or a fault in the unit (see Sec. 3.5). Proceed in accordance with [b]. The emergency stop ramp must be initiated immediately and setshort enough so the drive remains in regenerative mode until coming to a stop. The “supply OFFresponse time” (P520) must be set to 0 ms. Inverter parameter setting:
P137 (Emergency ramp) = xxx msP520 (supply OFF response time) = 0 sec.P521 (supply OFF response) = EMERGENCY STOPP60_ (Binary input) = supply ON
5.2 Parameter setting of P52_ “supply OFF monitoring”
Program a MOVIDRIVE® binary input (P60_/P61_) to “supply ON” in order to permit an externalsupply on signal to be evaluated. The ready signal from the MOVIDRIVE® MDR60A regenerativepower supply unit is used as the supply on signal.
P520 “supply OFF response time” (setting range: 0– 5 s; steps: 0.1 s)This parameter sets the delay during which no response takes place to a supply failure. Thesupply off response time must be set ≥ 300 ms, because the ready signal of the regenerativepower supply unit is set to a “0” signal for 200 ms in the event of brief supply failures. Nodelay is in effect when P520 is set < 300 ms.
P521 “supply OFF response” (setting range: CONTROL.INHIBIT/EMERGENCY STOP)The supply off response takes effect if the supply on signal = 0 and the supply off responsetime has elapsed. The supply off response does not produce a fault message in the inverter.The following settings can be made:1. CONTROL.INHIBIT: The output stage is inhibited (= high-resistance) and the brake is
applied or a motor without a brake coasts to a stop. The driverestarts when the supply on signal = 1.
2. EMERGENCY STOP: A stop is initiated using the emergency ramp (t14/t24). The brake isapplied when the start/stop speed (P300/P310) is reached. Theemergency stop is interrupted and the drive restarted if the supply onsignal changes to “1” during the stopping procedure.
MOVIDRIVE® MDR Regenerative Power Supply Unit
Operation and Servicing 6
6 Operation and Servicing
6.1 Reset
a) Regenerative power supply unitThe regenerative power supply unit is automatically reset after it has been switched off (see Sec.1.3).b) Inverter:The supply off response does not produce a fault message in the inverter (no reset required). Otherfaults, e.g. “VDC link overvoltage” must be reset. To do this, program a binary input on the inverterto “RESET”. The reset is activated by a positive edge (“0” signal → “1” signal). A reset can also beachieved by switching the supply voltage off and on again.
01779AENFig. 8: Connecting the regenerative power supply unit and control to the inverter
6.2 SEW electronics service
Please contact the SEW electronics service if a fault cannot be rectified.(→ hotline: (49) (171) 721 0791).When contacting the SEW electronics service, please always quote the digits of your service code(→ service label) to enable our service personnel to assist you more effectively.
MOVIDRIVE® MDR60A regenerative power supply units have a service label attached to them. Thelabel is located at the side of the unit.
01900AXXFig. 9: Service label
Please provide the following information if you are sending the unit in for repair:– Nature of the fault
– Peripheral circumstances– Your own presumption of what has happened– Any unusual events, etc. preceding the fault
DGND
X13:DIØØDIØ1DIØ2DIØ3DIØ4DIØ5
DCOMVO24DGNDST11ST12
123456789
1011
X3:
+ 24 V
12345
X10:10(DGND)
machinecontrol
Binaryoutputs
Ref. potential binarysignals
Enable/rapidstop
/Controller inhibitCW/stop
CCW/stop
Ref. X13:DIØØ...DIØ5 Referencebinary outputs+24Voutput
Mains onReset
RS-485-RS-485+
DGND+24 V
-readyDGND
MDR60A regenerativepower supply unit
MOVIDRIVEinverter
®
MOVIDRIVE® MDR Regenerative Power Supply Unit 23
SEW-EURODRIVE right around the globe isyour competent partner in matters of power
transmission with manufacturing and assem-bly plants in most major industrial countries.
We are available, wherever you need us.Worldwide.
SEW-EURODRIVE GmbH & Co · P.O.Box 30 23 · D-76642 Bruchsal/GermanyTel. +49-7251-75-0 · Fax +49-7251-75-19 70 · Telex 7 822 391http://www.SEW-EURODRIVE.com · [email protected]