programmable multi-axis servo drive power supply · pdf fileid no.:fica97556-001...
Post on 06-Feb-2018
236 Views
Preview:
TRANSCRIPT
moog
Power Supply Unit with sinusoidal mains feedback
Programmable Multi-Axis
Servo Drive Power Supply Unit (PSU)
Sizes 5 and 6AOperation Manual
Size Size 5 Size 6A
DeviceG396-026 G396-050
G396-075 G396-110
Picture
Programmable Multi-Axis Servo Drive Power Supply Unit (PSU) Operation Manual
ID no.: CA97556-001, Rev. 2.0
Date: 04/2015
Applicable as from firmware version: V220.13-01
The German version is the original of this Operation Manual.
MSD Servo Drive high-performance drives
The modular design of Multi-Axis Servo Drive ensures optimal integration into the ma-chine process. Whether in high-speed fieldbus communication with the central multi-axis machine controller or with distributed programmable Motion Control intelligence in the servo drive, the Multi-Axis Servo Drive is a master of both.
We reserve the right to make technical changes.
The contents of our documentation have been compiled with greatest care and in compliance with our present status of information.
Nevertheless we would like to point out that this document cannot always be updated parallel to the technical further development of our products.
Information and specifications may be changed at any time. For information on the latest version please refer to drives-support@moog.com.
2
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 3
Guide through this document
Guide through this document
Dear user,
We are happy that you have made a decision in favour of a product from Moog. In order to be able to start using your new device quickly and without problems, we ask you kindly to read this Operation Manual thoroughly beforehand.
This Operation Manual will enable you to install and commission the Power Supply Unit very quickly and easily.
Simply follow the step-by-step tables in the various chapters. And away you go!
Documentation system for the Programmable Multi-Axis Servo Drive System (MSD)
Document Contents Description
Programmable Multi-AxisServo Drive Power Supply Unit (PSU)Operation Manuall
Mechanical installation, Electrical installation, Safety, Specification Hardware and software
Programmable Multi-Axis Servo Drive Operation Manual
Mechanical installation, Electrical installation, Safety, Specification Hardware and software
MSD Servo Drive Device Help Description of base software Software
CANopen/EtherCAT User Manual
Description and parameter set-ting of the MSD Servo Drive on the CANopen/EtherCAT fieldbus system
Hardware and software of the fieldbus option
SERCOS User ManualDescription and parameter set-ting of the MSD Servo Drive on the SERCOS II fieldbus system
Hardware and software of the fieldbus option
PROFIBUS / PROFINET User Manual
Description and parameter setting of the MSD Servo Drive on the PROFIBUS / PROFINET fieldbus system
Hardware and software of the fieldbus option
1.
2.
1 Safety
2 Overview
3 Mechanical installation
4 Electrical installation
5 Commissioning
6 Diagnostics
A Appendix
Index
Figure 0.1 Guide through this document
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 4
Guide through this document
Production data
On rating plates of the Power Supply Unit you will find the serial number, from which you can identify the date of manufacture based on the following key. You will find details of the rating plate’s location on the Power Supply Unit starting on page 13.
Model:: G396-040-000-002
In: 230 V AC 3ph, 50/60 Hz4,0 A
0-230 V AC 3ph, 0-400 Hz3,0 A
Out:
ID: YYCWxxxxx
Year of production
Week of production
MOOGD-71034 Böblingenwww .moog.com/industrialMade in Germany
S/N : D116605 Rev. A
Figure 0.3 Hardware rating plate – Power Supply Unit
Supply package
The supply package includes:
y Power Supply Unit (PSU)
y Ready made-up DC link cables for size 5 and size 6A
y Product DVD
Order code
The order designation indicates the design variant of the Power Supply Unit supplied to you. For details on the order code refer to the Programmable Multi-Axis Servo Drive System (MSD) Ordering Catalog.
G396 - - -
Rated power
Option 1 (Communication)
For future use
Variants
Housing/cooling method
Option 4 (Function package)
Figure 0.2 Order code – Power Supply Unit
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 5
Guide through this document
Required mains connection set
The mains connection set is required to ensure compliance with the intended use of the Power Supply Unit. The supply package includes:
y Mains filter
y Input choke with membrane capacitor
y Step-up choke
y Shields and clamps
Pictograms
To provide clear guidance, this Operation Manual uses pictograms. Their meanings are set out in the following table. The pictograms always have the same meanings, even where they are placed without text, such as next to a connection diagram.
Warning symbols (see also section 1.1, p. 9)
! ATTENTION! Misoperation may result in damage to the drive or malfunctions.
DANGER FROM ELECTRICAL TENSION! Improper behaviour may endanger human life.
Hints & Tips
NOTE: Useful information or reference to other documents.
1. STEP: Action in a sequence of multiple actions.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 6
Table of contents
3.2 Effective EMC installation..........................................................................................25
3.2.1 Cable type .................................................................................................25
3.2.2 Cable laying ...............................................................................................26
3.2.3 Earthing .....................................................................................................26
3.2.4 Shielding ....................................................................................................27
3.3 Overview of connections ...........................................................................................28
3.3.1 Layout, size 5 (G396-026 and G396-050) ..................................................28
3.3.2 Layout, size 6A (G396-075 and G396-110) ................................................28
3.3.3 Overview of connections, size 5 and size 6A ..............................................29
3.3.4 Connection diagram, size 5........................................................................30
3.3.5 Connection diagram, size 6A .....................................................................32
3.4 Connection of PE conductors ....................................................................................33
3.4.1 PE conductor (X11) Power Supply Unit size 5 ..............................................33
3.4.2 PE conductor (X11) Power Supply Unit size 6A ...........................................34
3.4.3 PE conductor components .........................................................................35
3.5 Electrical isolation method ........................................................................................35
3.6 Connection of supply voltages ..................................................................................36
3.6.1 Control supply 24 V DC (X9, X10) for size 5 and size 6A ............................36
3.6.2 Precharge and mains synchronisation (X21) for size 5 and size 6A .............37
3.6.3 Mains connection 400/480 V AC (X12) for size 5 and Size 6A ....................38
3.7 DC power supply connection ....................................................................................40
3.7.1 DC power supply connection(X11) size 5 ....................................................41
3.7.2 DC power supply connection (X11) size 6A ................................................42
3.8 Control connections (X4)...........................................................................................44
3.8.1 Specification of control connections ..........................................................44
3.8.2 Standard terminal assignment ....................................................................45
3.9 Functions of the digital inputs ...................................................................................46
3.10 Functions of the digital outputs ................................................................................46
Table of contents
1 Safety .............................................................................................91.1 Measures for your safety .............................................................................................9
1.1.1 Read the Operation Manual first!.................................................................9
1.1.2 Warning symbols used ...............................................................................10
1.2 Intended use .............................................................................................................10
1.3 Usage contrary to intended use .................................................................................10
1.4 Responsibility ............................................................................................................ 11
2 Mechanical installation..................................................................132.1 Notes for mechanical installation...............................................................................13
2.2 Effective EMC installation..........................................................................................14
2.2.1 General notes ............................................................................................14
2.2.2 Cabinet design ...........................................................................................14
2.3 Power Supply Unit installation Air-cooled housing ....................................................17
2.3.1 Dimensions, air-cooled housing .................................................................18
2.4 Power Supply Unit installation Liquid-cooled housing ...............................................19
2.4.1 Dimensions, liquid-cooled housing ............................................................20
2.5 Cooling circuit connection.........................................................................................21
2.6 Step-up choke installation .........................................................................................22
2.6.1 Dimensions ................................................................................................22
2.7 Installation of input choke with membrane capacitor ................................................23
2.7.1 Dimensions ................................................................................................23
2.8 Mains filter installation ..............................................................................................24
2.8.1 Dimensions ................................................................................................24
3 Electrical installation .....................................................................253.1 Before you start ........................................................................................................25
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 7
Table of contents
4.4.2 Display .......................................................................................................59
4.4.3 Parameters menu (PA) ................................................................................60
4.4.4 Ethernet IP address menu (IP) .....................................................................61
4.4.5 Fieldbus address menu (Fb) ........................................................................62
4.4.6 Firmware update with MMC card ..............................................................63
5 Diagnostics ...................................................................................645.1 Device states .............................................................................................................64
5.1.1 Error ..........................................................................................................64
5.2 Error list ....................................................................................................................65
5.3 Helpline/Service ........................................................................................................65
A Appendix ......................................................................................66A.1 Technical data of Power Supply Unit .........................................................................66
A.2 Current consumption of control supply .....................................................................69
A.3 Ready made-up cables ..............................................................................................69
A.4 Hydrological data of liquid cooling ............................................................................70
A.5 Dynamic temperature monitoring .............................................................................70
A.6 Ambient conditions ...................................................................................................70
A.7 Technical data of step-up choke ................................................................................72
A.8 Technical data of input choke ....................................................................................72
A.9 Technical data of mains filter .....................................................................................73
A.10 Technical data of mains fuse .....................................................................................73
A.11 Technical data of mains contactor .............................................................................73
A.12 Technical data of circuit-breaker ................................................................................73
A.13 Measures to attain UL approbation (UL 508C) size 5 .................................................74
A.14 Measures to attain UL approbation (UL 508C) size 6A ..............................................74
B Overview ......................................................................................75
Index ...................................................................................................78
3.11 Specification of USB port (X2) ...................................................................................47
3.12 Specification of Ethernet port (X3) ............................................................................47
3.13 Option 1 ...................................................................................................................47
3.14 Braking resistor (X12/RB) ...........................................................................................47
3.14.1 Connection of the external braking resistor ...............................................47
3.15 Overview of step-up choke connections....................................................................48
3.16 Overview of input choke connections .......................................................................49
3.17 Overview of mains filter connections .........................................................................50
4 Commissioning ............................................................................. 514.1 Notes for operation ...................................................................................................51
4.2 Initial commissioning (actuation via terminals) ...........................................................51
4.2.1 System requirements .................................................................................52
4.2.2 Wiring of components ...............................................................................52
4.2.3 Switching on control voltage (24 VDC) ......................................................53
4.2.4 Communication with the Moog DriveADministrAtor 5 .................................53
4.2.5 Setting the mains voltage and frequency of the supply system ..................54
4.2.6 Automatic identification of DC link capacity and equivalent time constant of current control ........................................................................55
4.2.7 Setting DC link capacity .............................................................................55
4.2.8 Setting DC link voltage ..............................................................................56
4.2.9 Programming monitoring of the braking resistor ........................................56
4.2.10 Connecting the mains supply voltage ........................................................57
4.2.11 Activating closed-loop control ...................................................................57
4.3 Diagnostics ...............................................................................................................57
4.3.1 Faults and warnings in Moog DriveADministrAtor 5 .....................................57
4.4 Integrated operator control unit and MMC card .......................................................58
4.4.1 Functions of buttons T1 and T2 .................................................................59
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 8
Table of contents
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 9
Safety
1 Safety
1.1 Measures for your safety
The instructions set out below should be read through prior to initial commissioning in order to prevent injury and/or damage to property. The safety instructions must be followed at all times.
1.1.1 Read the Operation Manual first!
Read the Operation Manual and the reference documents first!• Follow the safety instructions!
• Refer to the user information!
Electric drives are dangerous:• Electrical voltages 230 V AC / 320 V DC to 480 V AC / 770 V DC
Dangerously high voltages ≥ 50 V (capacitor charge) may still be present 10 minutes after the power is cut to the size 5 and size 6A. The discharge time depends on the number of drives connected to the multi-axis system. So check that no voltage is connected!
• Rotating parts
• Hot surfaces
Risk of burning by hot components!• The heat sink of the inverter, the choke, the transformer, the filters and the fuses become
very hot in operation.− Make sure the components have cooled down to ambient temperature before carrying
out any work. Or wear protective clothing and gloves when working close to hot components.
Risk of burning by hot coolant!• The coolant gets hot during operation. Make sure the coolant has cooled down to ambient
temperature before carrying out any work.
1.
Protection against magnetic and/or electromagnetic fields during installation and operation.• Persons fitted with heart pacemakers, metallic implants and hearing aids etc. must not be
allowed access to the following areas:− Areas where drive systems are installed, repaired and operated.− Areas where motors are installed, repaired and operated. Motors with permanent
magnets pose a particular hazard.
NOTE: If it is necessary to access such areas, suitability to do so must be determined beforehand by a doctor
Your qualification:• In order to prevent personal injury and damage to property, only personnel with electrical
engineering qualifications may work on the device.
• The said qualified personnel must be familiar with the contents of the Operation Manual (see IEC 364, DIN VDE 0100).
• Knowledge of the national accident prevention regulations (e.g. BGV A3 in Germany)
U
V
N
L+
RB
L-
L3
L2
L1
U
V
N
L+
RB
L-
L3
L2
L1
During installation observe the following instructions:• Always comply with the connection conditions and technical specifications.
• Comply with the standards for electrical installations, such as regarding wire cross-section, PE conductor and earth connections.
• Do not touch electronic components and contacts (electrostatic discharge may destroy components).
Table 1.1 Safety precautions
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 10
Safety
Commissioning (i.e. putting the device to its intended use) is only permitted in compliance with the EMC Directive (2004/108/EC).
The Power Supply Unit conforms to the Low Voltage Directive 2006/95/EC.
The Power Supply Unit conforms to the requirements of the harmonised product standard IEC/EN 61800-5-1.
If the Power Supply Unit is used for special applications (e.g. in areas subject to explosion hazard), the required standards and regulations (e.g. IEC/EN 60079-0: "Explosive atmospheres - Part 0: Equipment - General requirements" and IEC/EN 60079-1: "Explosive atmospheres - Part 1: Equipment protection by flameproof enclosures‚d’ “) must always be observed.
Repairs may only be carried out by authorised repair workshops. Unauthorised opening and incorrect intervention could lead to death, physical injury or material damage. The warranty provided by Moog would thereby be rendered void.
NOTE:
Deployment of the Power Supply Unit in non-stationary equipment is classed as non-standard ambient conditions, and is permissible only by special agreement.
1.3 Usage contrary to intended use
The Power Supply Unit must not be used:
y without the mains connection set (filters, chokes)
y outside a switch cabinet
y in a photovoltaic system
y with a directly connected DC motor
y in island mode
1.1.2 Warning symbols used
The safety instructions detail the following hazard classes. The hazard class defines the risk posed by failing to comply with the safety notice.
Warning symbols General explanation Hazard class to ANSI Z 535
!ATTENTION! Misoperation may result in damage to the drive or malfunctions.
Serious injury or damage to property may occur.
DANGER FROM ELECTRICAL TENSION! Improper behaviour may endanger human life.
Death or serious injury will occur.
Table 1.2 Explanations of warning symbols
1.2 Intended use
The Power Supply Unit is intended for use in a Multi-Axis Servo Drive System. The multi-axis system comprises a Power Supply Unit with the mains connection set and a number of Multi-Axis Servo Drives connected to it. In motorised mode, the Power Supply Unit draws power from the supply system and makes it available to the connected Multi-Axis Servo Drives via the DC link. In regenerative mode the power is stored in the DC link. Temporarily surplus energy is fed back into the supply network by the Power Supply Unit in sinusoidal form.
The Power Supply Unit additionally performs the function of a reactive power compensator as required. (For details please consult your project engineer.)
The Power Supply Unit is a component intended for installation in stationary electrical systems or machines.
When installed in machines the commissioning of the servo drive (i.e. start-up of intended operation) is prohibited, unless it has been ascertained that the machine fully complies with the provisions of the Machinery Directive 2006/42/EC; compliance with IEC/EN 60204 is mandatory.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 11
Safety
1.4 Responsibility
Electronic devices are fundamentally not fail-safe. The company setting up and/or operating the machine or system is itself responsible for ensuring that the drive is rendered safe if the device fails.
IEC/EN 60204-1: "Safety of machinery - Electrical equipment of machines - Part 1: General requirements" in the category "Electrical equipment of machines" sets out safety requirements for electrical controls. They are intended to protect personnel and machinery, and to maintain the function capability of the machine or system concerned, and must be observed.
The function of an emergency stop system does not necessarily have to cut the power supply to the drive. To protect against danger, it may be more beneficial to maintain individual drives in operation or to initiate specific safety sequences. Execution of the emergency off measure is assessed by means of a risk analysis of the machine or plant, including the electrical equipment to EN ISO 12100: "Safety of machinery - General principles for design - Risk assessment and risk reduction", and is determined with selection of the circuit category in accordance with EN ISO 13849-1: "Safety of machinery - Safety-related parts of control systems - Part 1: General principles for design" (formerly DIN EN 954-1).
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 12
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 13
Mechanical installation
2 Mechanical installation
2.1 Notes for mechanical installation
ATTENTION!
During installation, please avoid:
y drill chippings, screws or foreign bodies dropping into the device;
y penetration of damp into the device.
ATTENTION!
The device is solely intended for installation in a stationary cabinet. The cabinet must as a minimum provide IP4x protection. The servo drives must not be installed in areas where they would be permanently exposed to vibrations. For more information refer to the Table A.13, p. 71 appendix.
ATTENTION!
Risk of burning by hot components.
The device heats up in operation and at the heat sink may reach temperatures of up to +100 °C (+212 °F). The connected chokes get hot during operation, possibly reaching temperatures of up to +145 °C (+293 °F).
Keep a safe distance away from adjacent component assemblies. Make sure the components have cooled down to ambient temperature before carrying out any work. Or wear protective clothing and gloves when working close to hot components.
NOTE:
For installation of the Power Supply Unit within a Multi-Axis Servo Drive System, be sure also to observe the Operation Manual for the Multi-Axis Servo Drives.
!
!
!
The layout and installation of the Power Supply Unit and the Multi-Axis Servo Drives is subject to the following basic rules:
y The backing plate must be well earthed.
y To attain the best result for effective EMC installation use a chromated or galvanised backing plate. If backing plates are varnished, remove the coating from the contact area. The size 5 and size 6A models have a rear panel made of aluminised/galvanised sheet steel.
y Pollution severity 2 to IEC/EN 60664-1. For more information on environmental conditions refer to the Table A.11, p. 70 appendix.
y Cooling air must be able to flow through the device without restriction.
y For installation in cabinets with convection (= heat loss is discharged to the outside via the cabinet walls), always fit an internal air circulation fan.
y Devices with different housing variants (air-cooled and liquid-cooled) can be installed next to each other in any combination.
y Devices with liquid-cooled housings have a spacer on the rear in place of the heat sink. Consequently, it is possible to connect to devices with air-cooled housings using the ready made-up DC link cables without additional measures to compensate for differing unit depth.
y No minimum clearance between the devices is required. Exceptions to this rule are the following air-cooled devices:
− Multi-Axis Servo Drive size 6A (Figure 2.5, p. 17 and Table 2.1, p. 18)
− Power Supply Unit size 6A (Figure 2.9, p. 19 and Table 2.2, p. 20)
y The maximum distance between the devices is dictated by the supplied ready made-up cables, and is 2 mm (0.08 in) (for exceptions see above).
ATTENTION!
Use only the supplied DC link cable for the electrical connections between the devices. If other cables are used, Moog can provide no guarantee of stable and safe operation.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 14
Mechanical installation
2.2.2 Cabinet design
The placement of components in the switch cabinet is a key factor in operating plant and machinery without disturbance. Your planning should take account of the following points:
y Assess the assemblies used in terms of their electromagnetic compatibility.
y Split the cabinet into zones of different power and interference levels.
y Keep units susceptible to interference at a minimum clearance of 200 mm (7.87 in) from the following components:
− Servo drive
− Input and output chokes, transformers
− Mains, motor, DC power supply and braking resistor cables (even if shielded)
− Relays and contactors (even if interference-suppressed)
y When installing close, use isolating plates mounted directly and conductively on the backing plate as shielding.
y When using a motor contactor or a reactance coil, the respective component should be directly mounted to the servo drive.
y Do not use fluorescent lamps in cabinets, as they emit high-frequency interference.
y Provide contactors, relays, solenoid valves, switched inductors and capacitors with suppressors.
y The mains filter must be sealed tight as far as possible, and be mounted on the backing plate across a wide area at the feed-in point. The backing plate must have a low-resistance connection to the central earthing point. No unfiltered cables may be routed on the mains input side of the filter, to prevent interference.
y Servo Drives may only be installed on one side (to the left or right) of larger sized devices. On the other side a device of equal or smaller size must be installed.
y A vertical offset of 18.5 mm (0.73 in) must be allowed between the top fixing screws for devices of size 1 to size 5 and devices of size 6A (see Figure 2.5 and Figure 2.9).
If you need more details on installation please contact the Moog Helpline (see section 5.3, p. 65).
2.2 Effective EMC installation
2.2.1 General notes
Power Supply Units are components intended for installation in industrial and commercial plant and machinery. They must only be installed in switch cabinets providing minimum IP4x protection.
Commissioning (i.e. starting intended operation) is only permitted when strictly complying with EMC product standard IEC/EN 61800-3.
NOTE:
The new EMC product standard for variable-speed electric drives is IEC/EN 61800-3:2008. The transition period for the old IEC/EN 61800-3:1996 ended on October 1, 2007.
The installer/operator of a machine and/or item of plant must provide proof of compliance with the protection targets stipulated in the EMC standard.
The multi-axis system is a special case with regard to EMC installation. The high DC link voltage (up to 770 V DC) and its routing over long cables between the Power Supply Unit and Multi-Axis Servo Drives demands great care when implementing EMC installation.
Timely planning and diligent implementation of the EMC installation measures detailed here will help avoid complex and costly retooling of plant.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 15
Mechanical installation
1) Power cable
2) Main switch
3) Fuses
4) Mains filter Unfiltered cables must be routed at a distance of least 200 mm (7.87 in) from the mains input side of the filter, to prevent interference.
5) Circuit-breaker
6) Mains contactor
7) Input choke with connected capacitor
8) Step-up choke
9) Power Supply Unit
10) Multi-Axis Servo Drive
11) DC power supply via DC link cable
12) Braking resistor
13) Motor cables
14) Control
Figure 2.1 Example: Cabinet layout
NOTE:
Arrange the control section separately from the power section, so as to avoid electromagnetic interference mechanisms.
Control and signal cables and shields have been omitted for the sake of clarity.
y Use metallically bright backing plates.
y The rear panel of the servo drive must have good contact with the switch cabinet earth. The contact area must be metallically bright, in order to make a good earth connection to the cabinet earth. There must be no air gap between the rear panel of the servo drive and the switch cabinet wall.
y The choke bases must have good contact with the cabinet earth. The contact area must be metallically bright, in order to make a good earth connection to the cabinet earth.
1ON
0OFF
0
PWR
LOCKCF
Power
Reset
RJ-4
5/Li
ne
RS 2
32
COMDataStatus
< 200 mm< 20
17
8
6
5
4
3
2
12 9
10
10
10
10
11
14
13
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 16
Mechanical installation
= 0 mm
1
2
1) Backing plate metallically bright
2) Wide-area contact
Figure 2.2 Servo drive installation CORRECT
> 0 mm
1
2
1) Varnish
2) Air gap
Figure 2.3 Servo drive installation INCORRECT
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 17
Mechanical installation
18.5 mm (0.73 in)
Mul
ti-A
xis
Ser
vo D
rive
size
4
Multi-Axis Servo Drive size 6A
Mul
ti-A
xis
Ser
vo D
rive
size
3
Mul
ti-A
xis
Ser
vo D
rive
size
1
Power Supply Unitsize 6A
Mul
ti-A
xis
Ser
vo D
rive
size
5
Mul
ti-A
xis
Ser
vo D
rive
size
2
Figure 2.4 Butt-mounting, axis array, air-cooled, with Power Supply Unit size 5
18.5 mm (0.73 in)
Mul
ti-A
xis
Ser
vo D
rive
size
4
Multi-Axis Servo Drive size 6A
air-cooled
Mul
ti-A
xis
Ser
vo D
rive
size
3
Mul
ti-A
xis
Ser
vo D
rive
size
1
Power Supply Unitsize 6A
air-cooled
Mul
ti-A
xis
Ser
vo D
rive
size
5
Mul
ti-A
xis
Ser
vo D
rive
size
2
Figure 2.5 Butt-mounting, axis array, air-cooled, with Power Supply Unit size 6A
2.3 Power Supply Unit installation Air-cooled housing
Arrange the devices starting from the Power Supply Unit to the right or left sorted in descending order of power output, in order to exclude thermal influences. Before installing the devices and components in the cabinet refer to the instructions relating to EMC installation.Align Power Supply Unit size 5 and all Multi-Axis Servo Drives in a line along the top edge of the unit (see dotted line in Figure 2.4). This is necessary in order to execute the DC power supply using the ready made-up cables.Align all Multi-Axis Servo Drives in a line along the top edge of the unit. Align Power Supply Unit size 6A offset 18.5 mm (0.73 in) down (see Figure 2.5). This is necessary in order to execute the DC power supply using the ready made-up cables. Be sure to adhere to the mounting clearances set out in Table 2.1.
Mark out the position of the tapped holes on the backing plate.Cut a tap for each fixing screw in the backing plate.Pay attention to the installation clearances. Also take into account the bend radius of the connecting cables. Dimensional drawings/hole spacing see Figure 2.6 and Table 2.1..
Mount the Power Supply Unit vertically and abutting on the backing plate. The contact area must be metallically bright. For the DC power supply use the supplied ready made-up cables. The next stage is installation of the mains connection set.
1.
2.
3.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 18
Mechanical installation
AB
C1
H1
H3
H
H2
C
T
D D
Figure 2.6 Dimensional drawing, air-cooled housing, example for size 5
E GF
F
Figure 2.7 Mounting distance, air-cooled housing, example for size 5
2.3.1 Dimensions, air-cooled housing
Size Size 5 Size 6A
DeviceG396-026-xxx-xxx G396-050-xxx-xxx
G396-075-xxx-xxx G396-110-xxx-xxx
Weight 13 kg (28.7 lb) 32 kg (70.6 lb)
B (width) 190 (7.48) 280 (11.02)
H (height) 1) 345 (13.58) 540 (21.26)
T (depth) 1) 240 (9.45) 322 (12.68)
A 150 (5.91) 200 (7.87)
C 407 (16.02) 581 (22.87)
C1 6 (0.24) 10 (0.39)
H1 419 (16.50) 600 (23.62)
H2 15 (0.59) 20 (0.79)
H3 64 (2.52) 166 (6.54)
D Ø 6 (0.24) Ø 10 (0.39)
Fixing screws 4 x M5 4 x M8
EDirect butt-mounted, maximum
2 (0.08)Direct butt-mounted, maximum
2 (0.08) / 40 2)
F 3) ≥180 (7.09)
G 3) ≥300 (11.81) ≥500 (19.69)All Dimensions in mm (in),
1) Without terminals, connectors
2) Mounting distance size 6A to other size 6A
3) Also take into account the bend radius of the connecting cables
Table 2.1 Dimensions, air-cooled housing
NOTE:
Arrange devices with different drive power in descending order of power output (e.g. viewed from the left size 4-size 3-size 2-size 1). This minimises the mutual thermal influence. The Power Supply Unit must always be arranged on the side of the most powerful servo drive. When butt-mounting other devices with the multi-axis system, you must make sure that the devices do not affect one another thermally.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 19
Mechanical installation
Mul
ti-A
xis
Ser
vo D
rive
size
4
Power SupplyUnit size 5
Mul
ti-A
xis
Ser
vo D
rive
size
3
Mul
ti-A
xis
Ser
vo D
rive
size
2
Mul
ti-A
xis
Ser
vo D
rive
size
1
Figure 2.8 Butt-mounting, axis array, liquid-cooled, Power Supply Unit size 5
Mul
ti-A
xis
Ser
vo D
rive
size
4
Multi-Axis Servo Drivesize 6A
liquid-cooled Mul
ti-A
xis
Ser
vo D
rive
size
3
Mul
ti-A
xis
Ser
vo D
rive
size
1
Power Supply Unitsize 6A
liquid-cooled
Mul
ti-A
xis
Ser
vo D
rive
size
5
Mul
ti-A
xis
Ser
vo D
rive
size
2
18.5 mm (0.73 in)
Figure 2.9 Butt-mounting, axis array, liquid-cooled, Power Supply Unit size 6A
2.4 Power Supply Unit installation Liquid-cooled housing
Arrange the devices starting from the Power Supply Unit to the right or left sorted in descending order of power output, in order to exclude thermal influences. Before installing the devices and components in the cabinet refer to the instructions relating to EMC installation.Align Power Supply Unit size 5 and all Multi-Axis Servo Drives in a line along the top edge of the unit (see dotted line in Figure 2.8). This is necessary in order to execute the DC power supply using the ready made-up cables.Align all Multi-Axis Servo Drives in a line along the top edge of the unit. Align Power Supply Unit size 6A offset 18.5 mm (0.73 in) down (see Figure 2.9). This is necessary in order to execute the DC power supply using the ready made-up cables.
Mark out the positions of the tapped holes and the pipe socket on the backing plate.Drill holes and cut a thread for each fixing screw in the backing plate.Pay attention to the installation clearances. Also take into account the bend radius of the connecting cables. Dimensional drawings/hole spacing see Figure 2.8 to Figure 2.10 and Table 2.2.
Mount the Power Supply Unit vertically and abutting on the backing plate. The contact area must be metallically bright. For the DC power supply use the supplied ready made-up cables.
When fitting the hose connections (not supplied) in the pipe sockets, brace with a 22 mm (0.87 in) open-ended wrench in order to prevent damage to the device by torsion.Ensure a perfect liquid-tight connection (e.g. using a Teflon sealing strip). For more information on liquid cooling refer to section A.4, p. 70.The next stage is installation of the mains connection set.
1.
2.
3.
4.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 20
Mechanical installation
H3
AB
A1
C1
A2
S
D1
TT1
H1
H4
H
D D
H2
C
Figure 2.10 Dimensional drawing, liquid-cooled housing, example for size 5
2.4.1 Dimensions, liquid-cooled housing
Size Size 5 Size 6A
DeviceG396-026-xxx-xxx G396-050-xxx-xxx
G396-075-xxx-xxx G396-110-xxx-xxx
Weight 13 kg (28.7 lb) 32 kg (70.6 lb)
B (width) 190 (7.48) 280 (11.02)
H (height) 1) 345 (13.58) 540 (21.26)
T (depth) 1) 239 (9.41) 285 (11.22)
A 150 (5.91) 200 (7.87)
A1 40 (1.57) 65 (2.56)
A2 70 (2.76)
C 407 (16.02) 581 (22.87)
C1 6 (0.24) 10 (0.39)
H1 419 (16.50) 600 (23.62)
H2 15 (0.59) 20 (0.79)
H3 54 (2.13) 57 (2.24)
H4 64 (2.52) 166 (6.54)
D1 74 (2.91)
D Ø 7 (0.28) Ø 10 (0.39)
Fixing screws 4 x M6 4 x M8
S inside thread 3/8 inch
D1 Hole for pipe socket Ø 48 (1.89)
E 2) Direct butt-mounted, maximum 2 (0.08)
F 2) 3) ≥180 (7.09)
G 2) 3) ≥300 (11.81) ≥ 500 (19.69)All dimensions in mm (in)
1) Without terminals/connectors
2) See Figure 2.11,
3) Also take into account the bend radius of the connecting cables
Table 2.2 Dimensions, liquid-cooled housing
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 21
Mechanical installation
2.5 Cooling circuit connection
NOTE:
Connect the liquid cooling feed to the connection marked. The cooling circuit must be vented prior to commissioning. For more information on liquid cooling refer to section A.4, p. 70.
The device holds approximately 0.5 litres of cooling fluid. When the connections have been cut, there may still be residual fluid in the device which may spill out if it is tipped. We recommend using a non-drip fluid coupling (not supplied) to prevent leakage of cooling fluid and enable connecting and disconnecting the device while filled with fluid. The connection set cooling circuit can be ordered separately.
flow return
returnflow
2
3
4
5
1
2
1) Liquid connection with 3/8 inch inside thread
2) 90° angle connector with 3/8 inch inside and outside thread
3) Non-drip fluid coupling
4) Non-drip quick-coupler with hose connection
5) PUR (polyurethane) hose with clamp
Items 2 to 5 are not included in the supply package.
Figure 2.12 Cooling circuit connection
E GF
F
Figure 2.11 Mounting distance, liquid-cooled housing, example for size 5
NOTE:
Arrange devices with different drive power in descending order of power output (e.g. viewed from the left size 4-size 3-size 2-size 1). This minimises the mutual thermal influence. The Power Supply Unit must always be arranged on the side of the most powerful servo drive.
When butt-mounting other devices with the multi-axis system, you must make sure that the devices do not affect one another thermally.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 22
Mechanical installation
A1A
H
T
D1B
Figure 2.13 Dimensional drawing, step-up choke, example for size 5 and size 6A
NOTE:
The step-up choke is a primary heat source, and should be treated as a hotspot component. This component is cooled by natural air convection (gravity circulation). In order to make effective use of this physical effect, this component should be installed in the lower plinth area of the switch cabinet on stable mounting rails (permitting unhindered air flow from below). When selecting the position, air inlet at the filter mat or – better still – at the input fan zone is advisable.
2.6 Step-up choke installation
Arrange the components and cables at a distance of >100 mm (3.94 in) from the step-up choke, so as to minimise influencing of the adjacent components by magnetic leakage flux and ensure adequate air circulation for cooling. Position the step-up choke as close as possible to the Power Supply Unit.Mark out the position of the tapped holes on the mounting rail.Cut a tap for each fixing screw in the backing plate.Take into account the bend radius of the connecting cables. Dimensional drawings/hole spacing see Figure 2.13 and Table 2.3.
Mount the step-up choke on the mounting rail.The tapping area will provide you with good, full-area contact. The contact area must be metallically bright, in order to make a good earth connection to the cabinet earth.
2.6.1 Dimensions
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
B (width) 239 (9.41) 299 (11.77) 335 (13.19) 380 (14.96)
H (height) 273 (10.79) 300 (11.81) 344 (13.54) 399 (15.71)
T (depth) 124 (4.88) 135 (5.31) 158 (6.22) 200 (7.87)
A 185 (7.28) 210 (8.27) 248 (9.76) 280 (11.02)
A1 75 (2.95) 95 (3.74) 122 (4.80) 127 (5.0)
D1 10 x Ø 18 (0.71) 12 x Ø 20 (0.79) 12 x Ø 20 (0.79) 12 x Ø 20 (0.79)
Fixing screws 4 x M8 4 x M10 4 x M10 4 x M10
Weight 16 kg (35.27 lb) 27 kg (59.52 lb) 37.5 kg (82.67 lb) 56 kg (123.46 lb)All dimensions in mm (in) and excluding terminals/connectors
Table 2.3 Step-up choke dimensions
1.
2.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 23
Mechanical installation
A1
H
AB
D1
T
Figure 2.14 Dimensional drawing, input choke, example for size 5
2.7 Installation of input choke with membrane capacitor
Arrange the components so as to ensure sufficient air circulation for cooling. As the membrane capacitor has a viscose filling, the input choke must be installed upright with the membrane capacitor.Mark out the position of the tapped holes on the mounting rail.Cut a tap for each fixing screw in the backing plate.Take into account the bend radius of the connecting cables.Dimensional drawings/hole spacing see Figure 2.14 and Table 2.4.
Mount the input choke on the mounting rail.The tapping area will provide you with good, full-area contact. The contact area must be metallically bright, in order to make a good earth connection to the cabinet earth.
2.7.1 Dimensions
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
B (width) 289 (11.38) 289 (11.38) 342 (13.47) 348 (13.70)
H (height) 252 (9.92) 268 (10.55) 292 (11.50) 321 (12.64)
T (depth) 119 (4.86) 136 (5.35) 175 (6.89) 175 (6.89)
A 156 (6.14) 156 (6.14) 176 (6.93) 176 (6.93)
A1 63 (2.48) 80 (3.15) 95 (3.74) 95 (3.74)
D1 7 x Ø 13 (0.51) 7 x Ø 13 (0.51) 9 x Ø 13 (0.51) 9 x Ø 13 (0.51)
Fixing screws 4 x M6 4 x M6 4 x M8 4 x M8
Weight 10.5 kg (23.15 lb) 14 kg (30.86 lb) 20 kg (44.09 lb) 22 kg (48.50 lb)
All dimensions in mm (in) and excluding terminals/connectors
Table 2.4 Input choke dimensions
1.
2.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 24
Mechanical installation
H
B T
A
C
Ø G PE
Figure 2.15 Dimensional drawing, mains filter, example for size 5 and size 6A
2.8 Mains filter installation
Arrange the components so as to ensure sufficient air circulation and cooling. Mark out the position of the tapped holes on the backing plate.Cut a tap for each fixing screw in the backing plate.Take into account the bend radius of the connecting cables.Dimensional drawings/hole spacing see Figure 2.15 and Table 2.5.
Mount the mains filter on the backing plate.The tapping area will provide you with good, full-area contact. The contact area must be metallically bright.
2.8.1 Dimensions
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Type FFU 3 x 56 K FFU 3 x 80 K FFU 3 x 130 K FFU 3 x 180 K
B (width) 85 (3.35) 80 (3.15) 90 (3.54) 130 (5.12)
H (height) 250 (9.84) 270 (10.63) 270 (10.63) 380 (14.96)
T (depth) 90 (3.54) 135 (5.31) 150 (5.91) 180 (7.09)
A 60 (2.36) 60 (2.36) 65 (2.56) 102 (4.02)
C 235 (9.25) 225 (8.86) 255 (10.04) 365 (14.37)
G Ø 5.4 (0.21) 6.5 (0.26) 6.5 (0.26) 6.5 (0.26)
Mounting screws M5 M6 M6 M6
Weight 1.9 kg (4.19 lb) 2.6 kg (5.73 lb) 4.2 kg (9.26 lb) 6.0 kg (13.23 lb)
All dimensions in mm (in) and excluding terminals/connectors
Table 2.5 Mains filter dimensions
1.
2.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 25
Electrical installation
3 Electrical installation
3.1 Before you start
Please be sure to observe the following notices and warnings before and during electrical installation.
DANGER FROM ELECTRICAL TENSION!
Danger to life! Never wire or disconnect electrical connections while they are live. Always disconnect the power before working on the device. Dangerously high voltages ≥50 V (capacitor charge) may still be present 10 minutes after the power is cut to the size 5 and size 6A. The discharge time depends on the number of drives connected to the multi-axis system. So check that the power has been cut! Hazardous voltage may be applied to the device, even if the device does not show any visual signs or emit any audible signals. On the size 5 and size 6A for example: with mains voltage applied to terminal X12 or X21 and missing control voltage +24 V on X9, X10. So check that no voltage is connected!
ATTENTION!
Installation must only be carried out by qualified electricians who have undergone instruction in the necessary accident prevention measures.
ATTENTION!
The device heats up in operation and at the heat sink may reach temperatures of up to +100 °C (+212 °F). The connected chokes heat up in operation and may reach temperatures of up to +145 °C (+293 °F). Keep a safe distance from adjacent assemblies.
!
!
!
ATTENTION!
During installation, please avoid:
y screws or cable residues dropping into the device;
y penetration of damp into the device.
NOTE:
For installation of the Power Supply Unit within a Multi-Axis Servo Drive System, be sure also to observe the Operation Manual for the Multi-Axis Servo Drives.
3.2 Effective EMC installation
3.2.1 Cable type
y Use shielded mains power, motor and signal cables as set out in Figure 3.7, p. 30. Use a cable type with double copper braiding, with 60 - 70 % coverage, for all shielded connections.
y If very large cable cross-sections have to be installed, shielded single wires may also be used instead of shielded cables.
ATTENTION!
Use only the supplied DC link cable for the electrical connections between the devices. If other cables are used, Moog can provide no guarantee of stable and safe operation.
!
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 26
Electrical installation
3.2.3 Earthing
All earthed points and components must, as far as possible, be routed by low-resistance, highly conductive means directly to the central earthing point (e.g. PE rail, main earth). This creates an earthing system which connects all connection locations in a star configuration to the earthing point. This central earthing point must be unambiguously defined. This earthing point can be expanded across the entire backing plate with an EMC connection.
Pay attention to the following points in relation to earthing:
y Earthed surfaces act as shields and reduced electromagnetic fields in the surrounding area. Consequently, metallic surfaces should be connected to earth via low-resistance HF connections. In EMC terms, it is not the cross-section of the cable which is decisive, but the surface on which high-frequency currents (caused by the skin effect) can discharge.
y Connect the PE conductors of the components in a star configuration inside the cabinet.
y Avoid plug-in connections.
y Also connect the walls and doors of the cabinet to earth.
y Large openings in the cabinet (windows, fans, display) will impede the shielding effect of the cabinet and must be protected by additional shielding for the HF area.
y Earth residual wires on at least one side, so as to prevent static.
y Remove paint and corrosion from contact points and connect them across a wide area.
y Tin-plated, galvanised, aluminised or cadmium-plated elements should be preferred to painted components. This will also avoid having to scratch off varnish layers. Avoid plug-in connections, or use multiple contacts for the shield connection in the connector. The Power Supply Units have a rear panel made of aluminised and galvanised sheet steel.
y For more information on the PE conductor cross-section see Table 3.2, p. 33.
3.2.2 Cable laying
Pay attention to the following points when laying cables:
y Lay mains, motor and signal cables isolated from each other. Observe a minimum clearance of 200 mm (7.87 in).
y When installing close, use isolating plates mounted directly and conductively on the backing plate as shielding.
y Lay the conductors tight to the earth potential. When using plastic cable ducts, they must be mounted directly on the backing plates or the frame. Cables must not be spanned over free space, otherwise they might act as antennas.
y Avoid unnecessary cable lengths and “spare loops”.
y Lay long cables at locations not susceptible to interference. Otherwise additional coupling points may be created.
y Lay motor cables without interruptions (e.g. not via terminals) and by the shortest route out of the cabinet.
y Twist cables of the same circuit.
y Ideally, lay the signal cables isolated from the encoder cables.
y All signal cables should be grouped together and routed away upwards.
y Avoid extending cables by way of terminals.
y Earth residual wires on at least one side, so as to prevent static.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 27
Electrical installation
Figure 3.3 Power Supply Unit shield connection
y Do not strip the shield too early.
y Shields must not be used for current carrying, such as replacing the N or PE conductor.
y The shielding effect can be improved by laying in metal ducts/pipes.
y If very large cable cross-sections have to be installed, shielded single wires may also be laid instead of shielded cables.
y Shields must be applied on at least one side. Multi-layer application is recommended, otherwise equipotential bonding currents may flow through widespread systems. If long earth connections are subject to interference, they can be made by way of coupling capacitors. This enables a high-frequency connection to discharge interference, without transmitting the 50 Hz component.
y The choke bases must have good contact with the cabinet earth. The contact area must be metallically bright, in order to make a good earth connection to the cabinet earth.
3.2.4 Shielding
Shielding should take account of the following points:
y Use shielded mains power, motor and signal cables as set out in Figure 3.7, p. 30. Use a cable type with double copper braiding, with 60 - 70 % coverage, for all shielded connections.
y Apply the shield on both sides, across a wide area. Extending the shield to the earthing point by a wire (pigtail) will reduce the shielding effect by as much as 90 %.
Figure 3.1 Shield connection CORRECT
Figure 3.2 Shield connection INCORRECT - do not use an extension wire to the earthing point (pigtail)
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 28
Electrical installation
3.3.2 Layout, size 6A (G396-075 and G396-110)
PE
X21X11
X9/X10
Option 1
D1/D2T1/T2
X1X2X3
X4
X5
X12
SWHW
Figure 3.5 Layout, size 6A
3.3 Overview of connections
The following shows the layout with the corresponding positions of connectors and terminals. To aid orientation, the connectors and terminals are labelled by abbreviations.
3.3.1 Layout, size 5 (G396-026 and G396-050)
PE
X21
X11
X9/X10
Option 1
D1/D2T1/T2
X1X2X3
X4
X5SWHW
X12
Figure 3.4 Layout, size 5
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 29
Electrical installation
No. Designation Function Page
D1, D2 7-segment display Device status display p. 64
T1, T2 Pushbuttons Service functions p. 59
Option 1 Communications Optional module for fieldbusses, e.g. SERCOS, PROFIBUS-DP, EtherCAT or CANopen p. 47
X1Slot for MMC removable storage device Enables firmware download without PC for example p. 63
X2 USB 1.1 port Service interface, Plug & Play connection to PC p. 47
X3 Ethernet port Service interface, fast TCP/IP port (RJ45) p. 47
X4 Control connections 8 digital inputs, 3 digital outputs, 1 additional relay output p. 44
X5Temperature monitor connection KTY temperature sensor of step-up choke p. 48
X10, X9Connection of control supply UV
Supply voltage for control electronics of servo drive, 24 V DC p. 36
X11 DC power supply Connection of DC power supply (size 6A protected), PE connection
p. 40 p. 41
X12 Power connection
AC power connection (supply and mains feedback), PE connection with shield, braking resistor, (DC power supply connection, Power Supply Unit size 6A to Multi-Axis Servo Drive size 6A)
p. 38 p. 38 p. 47 p. 43
X21Connection of mains synchronisation/DC link precharge; auxiliary relay
Mains synchronisation, DC link precharge, mains connection after precharge p. 37
SW, HW Rating plates Software and Hardware rating plates p. 4
Shield connection to earth Possible via shield (optional) -
Table 3.1 Key to overview of connections, size 5 and size 6A
3.3.3 Overview of connections, size 5 and size 6A
USB 1. 1
MMC-Slo t
ISD00ISD01ISD02
OSD02
Relai s
ENPOENPO
Control
Ser viceinterface
Ser viceinterface
ISDSH
ISA00+ISA00-ISA01+
ISA01-
+24V( U H )
3 4 5
6
10
151617
9
23
24
22
RSH12
11
1
2
14
13
ZK �ZK+
L3L2L1
ISD03
ISD04ISD05
18
1920
ISD0621
OSD018OSD007
OSD04
DGND
DGND
X 12
X 4
X 10
X 9X 2
D 1, D 2
T 1, T 2
X 1
Ether net X 3
+�
X 21
L2L3N
L1
HREL
MMCMultiMediaCar d
INSE
RT
–+–+
1212
Mains contactor
X 11
DC link cables(Size 6A protected)
24 V DC supply forcontrol electronics (UV)
DC link
Top
Bottom
Fron
t
Option 1Communicationfieldbuses
KTY temp. sensor of step-up choke
X 5
RB �
RB+
Braking resistor
Power connection
Mains synchronisation and precharge
Figure 3.6 Overview of connections, size 5 and size 6A
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 30
Electrical installation
3.3.4 Connection diagram, size 5
5
U V W
Ethe
rCA
T
+ �
maximum 8 A
Ethe
rCA
T
+ � �+ �+�+ �+
U V W
24 V DC
ZK RB+ � � +
+ �L1 L2 L3 N
nc
�+ �+HREL
L1 L2
X12
X12X12
X21
X5
X9/10X9/10X9/10
X11
X11X11
L3
L1 L2 L3 PE
PE
L3
L2
L1
L3.1
L2.1
L1.1
L3.1
L2.1
L1.1
L3L2L1
L3.1
L2.1
L1.1
L3L2L1
Motor3~
Motor3~
L1.1
L2.1
L3.1
L1
L2
L3
1
2
4
6 14
3
7
8 9 10
12
11
13
15
20
18
17
16 19 19
�
Multi-Axis Servo Drive
Power Supply Unit Multi-Axis Servo Drive
Figure 3.7 Power Supply Unit connection diagram (schematic view)
Key1) Mains fuses
2) Mains supply/emergency stop
3) Shield plates (grey)
4) Step-up choke with KTY temperature sensor
5) Above a cable length of >500 mm (19.69 in) shielded cables should be used
6) Input choke with membrane capacitor
7) Mains contactor (after precharge by HREL)
8) Mains filter
9) Short-circuit-proof cables
10) Circuit-breaker
11) Multi-axis system On/Off
12) External 24 V DC control supply
13) Auxiliary contactor (precharge/synchronisation)
14) Connection of DC link precharge and mains synchronisation
15) Floating contact:250 V AC/5 A or 30 V DC/6 A (active when precharge complete)
16) Power Supply Unit size 5
17) AC power connection
18) Braking resistor with temperature sensor
19) Multi-Axis Servo Drive
20) Cabinet
21) Field
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 31
Electrical installation
NOTE:
Risk of Power Supply Unit destruction by incorrect wiring. Figure 3.7 shows only a schematic view of the connection layout. The positions of the terminals may vary according to device.
NOTE:
You will find a selection of potential mains contactors, circuit-breakers and fuses in section A, p. 66.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 32
Electrical installation
3.3.5 Connection diagram, size 6A
5
U V W
Ethe
rCA
T
+ �
maximum 8 A
Ethe
rCA
T
�+ �+�+ �+
U V W
24 V DC
ZK RB+ � � +
L1 L2 L3 N
nc
�+ �+HREL
L1 L2
X12
X12X12
X21
X5
X9/10X9/10X9/10
X11
+ �
X11
L3
L1 L2 L3 PE
PE
L3
L2
L1
L3.1
L2.1
L1.1
L3.1
L2.1
L1.1
L3L2L1
L3.1
L2.1
L1.1
L3L2L1
Motor3~
Motor3~
L1.1
L2.1
L3.1
L1
L2
L3
1
2
4
6 14
3
7
8 9 10
12
11
13
15
20
18
17
16 19 19
21�
+ �
X11
Power Supply UnitMulti-Axis Servo Drive
Multi-Axis Servo Drive
Figure 3.8 Power Supply Unit connection diagram (schematic view)
Key1) Mains fuses
2) Mains supply/emergency stop
3) Shield plates (grey)
4) Step-up choke with KTY temperature sensor
5) Above a cable length of >500 mm (19.69 in) shielded cables should be used
6) Input choke with membrane capacitor
7) Mains contactor (after precharge by HREL)
8) Mains filter
9) Short-circuit-proof cables
10) Circuit-breaker
11) Multi-axis system On/Off
12) External 24 V DC control supply
13) Auxiliary contactor (precharge/synchronisation)
14) Connection of DC link precharge and mains synchronisation
15) Floating contact:250 V AC/5 A or 30 V DC/6 A (active when precharge complete)
16) Power Supply Unit size 6A
17) AC power connection
18) Braking resistor with temperature sensor
19) Multi-Axis Servo Drive
20) Cabinet
21) Field
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 33
Electrical installation
NOTE:
Risk of Power Supply Unit destruction by incorrect wiring. Figure 3.8 shows only a schematic view of the connection layout. The positions of the terminals may vary according to device.
NOTE:
You will find a selection of potential mains contactors, circuit-breakers and fuses in section A, p. 66.
!3.4 Connection of PE conductors
The PE conductor cross-section depends on the cross-section of the outer conductor, and is defined as follows in IEC/EN 61800-5-1. The leakage current is > 3.5 mA. Use PE conductors with a cross-sectional area of ≥10 mm2 (0.02 in2) (Cu).
Cross-sectional area of outer conductors [mm2 (in2)]
Minimum cross-sectional area of corresponding PE conductor [mm2 (in2)]
Q ≤ 16 (0.03) Q
16 (0.03) < Q ≤ 35 (0.05) 16 (0.03)
35 (0.05) < Q Q/2
Table 3.2 PE conductor cross-section
3.4.1 PE conductor (X11) Power Supply Unit size 5
Earth each Power Supply Unit and Multi-Axis Servo Drive! Connect the PE terminal X11/PE of the Power Supply Unit directly to the PE rail (main earth) in the cabinet.Select the PE conductor cross-section as per Table 3.2.Use a suitable PE conductor for the purpose (screw M5). Also comply with local and national regulations and conditions.
Connect the PE terminal X11/PE of the Power Supply Unit to the PE terminals X11/PE of the butt-mounted Multi-Axis Servo Drives in series.Use the ready made-up PE conductors.
1.
2.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 34
Electrical installation
3.4.2 PE conductor (X11) Power Supply Unit size 6A
Earth each size 6A supply unit and each size 6A Multi-Axis Servo Drive separately. Connect the PE terminal X11/PE of the Power Supply Unit directly to the PE rail (main earth) in the cabinet.Use a suitable PE conductor for the purpose (screw M8). Also comply with local and national regulations and conditions.Select the PE conductor cross-section as per Table 3.2, p. 33.
Earth all other Multi-Axis Servo Drives size 5 to size 1 via a common PE conductor! Connect all other PE terminals X11/PE of the butt-mounted Multi-Axis Servo Drives in series.Connect the PE terminal X11/PE of the first butt-mounted Multi-Axis Servo Drive to the PE rail (main earth) in the cabinet.Use a suitable PE conductor for the purpose. Also comply with local and national regulations and conditions.Use the ready made-up PE conductors.
1.
2.
X12PE
PEX11
PEX11
PEX11
PEX11
PEX11
Mul
ti-A
xis
Ser
vo D
rive
size
4
Mul
ti-A
xis
Ser
vo D
rive
size
3
Mul
ti-A
xis
Ser
vo D
rive
size
2
Mul
ti-A
xis
Ser
vo D
rive
size
1
Power Supply Unitsize 5
Figure 3.9 Schematic: Connection of the PE conductor
Figure 3.10 Detail: Connection of the PE conductor
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 35
Electrical installation
3.4.3 PE conductor components
Connect the PE terminals of all other components, such as mains filters etc., in star configu-ration to the PE rail (main earth) in the cabinet. See Figure 3.7, p. 30.Also comply with local and national regulations and conditions.
WARNING!
The chokes have no PE connection. They are intended solely for installation in a cabinet, as with IP00 protection they offer no protection against direct or indirect touch contact.
3.5 Electrical isolation method
The control electronics, with its logic (µP), the inputs and outputs, are electrically isolated from the power section (mains supply/DC link). All control terminals are designed as safety extra-low voltage/protective extra-low voltage (SELV/PELV) circuits and must only be operated with voltages from 5 V to 50 V, as per the relevant specification. This provides reliable protection against electric shock on the control side. The control electronics therefore need a separate control supply, compliant with the requirements of a SELV/PELV.
The opposite overview shows the potential supplies for the individual terminals in detail. This concept also delivers higher operational safety and reliability of the Power Supply Unit.
SELV = Safety Extra Low Voltage
PELV = Protective Extra Low Voltage
1.
X12PE
PEX11
PEX11
PEX11
PEX11
PEX11
PEX11
Mul
ti-A
xis
Ser
vo D
rive
size
5
Mul
ti-A
xis
Ser
vo D
rive
size
4
Mul
ti-A
xis
Ser
vo D
rive
size
3
Mul
ti-A
xis
Ser
vo D
rive
size
2
Mul
ti-A
xis
Ser
vo D
rive
size
1
Power Supply Unitsize 6A
Figure 3.11 Schematic: Connection of the PE conductor
Figure 3.12 Detail: Connection of the PE conductor
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 36
Electrical installation
3.6 Connection of supply voltages
The power supply for the Power Supply Unit is separated into the supplies for control and power sections. The control supply must always be connected first, so that activation of the Power Supply Unit can first be checked and the device can be parameterised for the planned application.
3.6.1 Control supply 24 V DC (X9, X10) for size 5 and size 6A
+ −+ − − + − +− + − +
24 V DC
maxiumum 10 A
+ −L1 L2 L3 N − + − +HREL
X21 X9/10X9/10X9/10
X11
X11X11
Figure 3.14 Connection of control supply
WARNING!
Hazardous voltage may be applied to the device, even if the device does not show any visual signs or emit any audible signals (e.g. with mains voltage applied to terminal X12) and missing control voltage (+24 V on X9, X10)!
ATTENTION!
Take suitable measures to provide adequate cable protection (e.g. fusing 10 A gG). If the permissible current capacity is exceeded, an additional separate control supply must be connected.
NOTE:
The external control supply also supplies the digital inputs and outputs as well as the control section (ICONTROLSECTION + II/O). Also pay attention to the current demand on start-up and in operation. See section A.2, p. 6969.
!
PE GNDµP DGND RC element Polyswitch
GNDµP
GNDµP
GNDµP
X4/15ISD00ISD01
ILIM
X4/21ISD06 ILIM
X4/10ENPO ILIM
X4/22ISDSH ILIM
X4/7OSD00
X4/3ISA00+
X4/4ISA00-
ISD02ISD03ISD04ISD05
A/D
A/D
ISA01+X4/5
X4/6ISA01-
X4/14 GNDµP
GNDµP
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
X4/2ϑ
F1
ϑ
F2
X4/13
DGND X4/1ϑ
F3
ϑ
F3
ϑ
F4
VµP
µP
X4/8OSD01
X4/9OSD02
RSH
X4/12
X4/11
OSD04
X4/23
X4/24
USB1.1X2
EthernetX3
Mains synchronisationX21
GNDµP
VµP
PE
UV
UV
X9/+
X9/-
X10/+
X10/-
UH
Supply forcontrol electronics
24 V DC
Complex, inpart nonlinear,impedance
KTY temp. sensor of step-up choke
GNDµP
VµP
X5/ϑ +
X5/ϑ −
Figure 3.13 Electrical isolation method, size 5 and size 6A
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 37
Electrical installation
3.6.2 Precharge and mains synchronisation (X21) for size 5 and size 6A
The DC link is precharged via terminal X21/L1,L2,L3 (Figure 3.15, p. 38). At a defined DC link voltage the contact of the internal relay on terminal X21/HREL is closed. The mains contactor closes and switches the supply system to terminal X12/ L1,L2,L3. The Power Supply Unit is synchronised with the mains via terminal X21/L1,L2,L3. Technical data of mains contactor see section A.11, p. 73.
ATTENTION!
The cable must be protected by a circuit-breaker. Ensure the correct phase angle of the conductors during installation (Figure 3.15, p. 38). Technical data of circuit-breaker see A.12, p. 73.
Specification of precharge and mains synchronisation X21
Precharge and mains synchro-nisation(L1, L2, L3)
X21 HREL
L3N
L1L2
• U = 400/460/480 V AC
• IPrecharge = 20 A (falling over a period of < 1.5 s)
• ISynchronisation < 100 mA
• Cable cross-section = 1.0 ... 1.5 mm2 (0.002 ... 0.0023 in2)
• (N: Not used)
Auxiliary relay (HREL)
• Max values of connection
• UMax = 30 V DC / IMax = 6 A
Table 3.4 Specification of precharge and mains synchronisation X21
!
NOTE:
Do not use the plug as a "switch" for a reset.
Specification of control supply
Control supply
X91/+2/−
• UV = 24 V DC -20 % +10 %, stabilised and smoothed.
• Max. Start-up/continuous current see Table A.7, p. 69
• Back-up fuse rating for terminal maximum 10 A
• Internal polarity reversal protection
• The power supply unit used must have a safe and reliable isolation against the mains system according to EN 50178 or IEC/EN 61800-5-1.
• Internally wired with X10
X101/+2/− • Internally wired with X9
Table 3.3 Specification of control supply
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 38
Electrical installation
1) Mains fuses
2) Mains supply/emergency stop
3) Shield plates (grey)
4) Step-up choke with KTY temperature sensor
5) Above a cable length of >500 mm shielded cables should be used
6) Input choke with membrane capacitor
7) Mains contactor (after precharge by HREL)
8) Mains filter
9) Short-circuit-proof cables
10) Circuit-breaker
11) Multi-axis system On/Off
12) External 24 V DC control supply
13) Auxiliary contactor (precharge/synchronisation)
14) Connection of DC link precharge and mains synchro-nisation
15) Floating contact:250 V AC/5 A or 30 V DC/6 A (active when precharge complete)
16) Power Supply Unit size 6A
17) AC power connection
18) Braking resistor
Figure 3.15 Connection of mains supply (schematic view)
ATTENTION!
Danger to life! Never wire or disconnect electrical connections while they are live. Always disconnect the power before working on the device. Dangerously high voltages ≥50 V (capacitor charge) may still be present 10 minutes after the power is cut to the size 5 and size 6A. The discharge time depends on the number of drives connected to the multi-axis system. So check that no voltage is connected!
!
3.6.3 Mains connection 400/480 V AC (X12) for size 5 and Size 6A
5
24 V DC
ZK RB+ � � +
Power Supply Unit
+ �L1 L2 L3 N
nc
�+ �+HREL
L1 L2
X12
X21
X5
X9/10X11
L3
L1 L2 L3 PE
L3
L2
L1
L3.1
L2.1
L1.1
L3.1
L2.1
L1.1
L3L2L1
L3.1
L2.1
L1.1
L3L2L1
L1.1
L2.1
L3.1
L1
L2
L3
1
2
4
6 14
3
7
8 9 10
12
11
13
15
18
17
16
�
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 39
Electrical installation
Mains connection conditions
To ensure undisturbed operation on the supply system with a Power Supply Unit, a minimum requirement for the short-circuit power at the mains connection applies. The transition at the mains filter is defined as the mains connection.
The requirement must be met in order to avoid impairment at the Power Supply Unit and interference with other devices connected in parallel to this mains connection, and to enable a reliable operating state.
The term “short-circuit power” is a theoretical value of an apparent power occurring in a current network when a short-circuit is caused at a transfer point.
MSD Power SupplyShort-circuit ratio Rsc 1)
Minimum requirements for the short-circuit power at the mains connection for undisturbed
operation
G396-026(Sn = Pn = 26 kW)
30 ... 50
800 kVA ... 1300 kVA
G396-050(Sn = Pn = 50 kW)
1500 kVA ... 2500 kVA
G396-075(Sn = Pn = 75 kW)
2250 kVA ... 3750 kVA
G396-110(Sn = Pn = 110 kW)
3300 kVA ... 5500 kVA
1) Rsc is defined as the short-circuit ratio of the short-circuit power (Sk) at the mains connection to the rated power (Sn) of the Power Supply Unit (Rsc = Sk/Sn).
Table 3.5 Mains connection conditions
Procedure:
Define the cable cross-section depending on the maximum current and ambient temperature.Cable cross-section according to local regulations and conditions.Use shielded cables, as shown in Figure 3.15.
Wire the Power Supply Unit with the mains supply as shown in Figure 3.15. Do not switch on the power!For more information on connection of the terminal X21 precharge see section 3.6.2, p. 37.For more information on connection of the components see section 3.15, p. 48 ff.Technical data of components see section A.7, p. 72 ff.
ATTENTION!
If local regulations require the installation of a residual current operated protective device, the following applies: In case of a fault the Power Supply Unit is able to generate DC fault currents without zero crossing. The Power Supply Unit therefore must only be operated with RCDs1) of type B for AC fault currents, pulsating and smooth DC fault currents which are suitable for servo drive operation - see IEC 60755. RCMs2) can additionally be used for monitoring purposes.
1) Residual Current Protective Device 2) Residual Current Monitor
Terminal X12/L1,L2,L3
Size Size 5 Size 6ADevice G396-026 G396-050 G396-075 G396-110
Cable connection capacity0.5 ... 25 mm2 (0.0008 ... 0.04 in2)
(AWG 20...AWG 4) 1)
50 ... 150 mm2 (0.08 ... 0.23 in2)
(10 ... 95 mm2 (0.02 ... 0.15 in2))3)
(AWG 0...AWG 5/0) 2)
50 ... 150 mm2 (0.08 ... 0.23 in2)
(AWG 0...AWG 5/0) 2)
Tightening torque 2.5 ... 4.5 Nm 25 ... 30 Nm
1) Flexible cable with ferrule
2) Flexible cable with or without ferrule
3) With optional inserts for G396-075-xxx-xxx to reduce the diameter
1.
2.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 40
Electrical installation
3.7 DC power supply connection
ATTENTION!
Use only the supplied DC link cable for the electrical connections between the devices. If other cables are used, Moog can provide no guarantee of stable and safe operation.
ATTENTION!
The cover over terminal X11 (DC connection) on size 1 to size 5 must be closed after installing the ready made-up cables. Operation without the cover is not permitted.
NOTE:
Prior to commissioning, the value of the connected supply voltage must be set in the servo drive. For more details see section 4.2.10, p. 57.
Terminal X11
Size Size 5 Size 6ADevice G396-026 G396-050 G396-075 G396-110
Cable connection capacityUse only the preassembled connecting
cables supplied.(Hole diameter 5.5 mm (0.22 in))
Use the ready made-up cables sup-plied or 35 ... 95 mm2
(0.05 ... 0.15 in2) (AWG 2...AWG 3/0) 1)
Tightening torque 2.5 ... 4.5 Nm 25 ... 30 Nm
1) Flexible cable with or without ferrule
!
!
Note the following points: y Switching the mains power:
− In case of too frequent switching of the precharge, the unit protects itself by high-resistance isolation from the system. After a rest phase of a few minutes the device is ready to start once again.
y TN network and TT network: Permitted without restriction.
y IT network (isolated neutral point): Not permitted!
− In case of an earth fault the electrical stress is approximately twice as high. Clearances and creepages to IEC/EN 61800-5-1 are no longer maintained.
y For more information on permissible current loads, technical data and ambient conditions refer to the appendix.
NOTE:
Please be aware that the Power Supply Unit is not rated for electromagnetic environment class 3 (IEC/EN 61000-2-4). Further measures are essential in order for that environment class to be attained! For further information please consult your project engineer.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 41
Electrical installation
Figure 3.17 Detail: DC power supply connection, size 5
3.7.1 DC power supply connection(X11) size 5
Connect terminal X11/+ of the Power Supply Unit to terminal X11/+ of the next butt-mounted Multi-Axis Servo Drive.On the Multi-Axis Servo Drive connect the DC power supply conductor to the next butt-mounted Multi-Axis Servo Drive.Use the ready made-up DC power supply cables.
Connect terminal X11/- of the Power Supply Unit to terminal X11/- of the next butt-mounted Multi-Axis Servo Drive.On the Multi-Axis Servo Drive connect the DC power supply conductor to the next butt-mounted Multi-Axis Servo Drive.Use the ready made-up DC power supply cables.
Connect the touch protection to DC link terminals X11.For more information refer to the Multi-Axis Servo Drive Operation Manual.
+ ++– – – – +
–+
X11 X11 X11 X11 X11
Mul
ti-A
xis
Ser
vo D
rice
size
4
Mul
ti-A
xis
Ser
vo D
rice
size
3
Mul
ti-A
xis
Ser
vo D
rice
size
2
Mul
ti-A
xis
Ser
vo D
rice
size
1
Power Supply Unitsize 5
Figure 3.16 Schematic: DC power supply connection, size 5
1.
2.
3.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 42
Electrical installation
+ +–
+– – – +
–+
X11 X11+ –
X11 X11 X11 X11
Mul
ti-A
xis
Ser
vo D
rice
size
5
Mul
ti-A
xis
Ser
vo D
rice
size
4
Mul
ti-A
xis
Ser
vo D
rice
size
3
Mul
ti-A
xis
Ser
vo D
rice
size
2
Mul
ti-A
xis
Ser
vo D
rice
size
1
Power Supply Unitsize 6A
Figure 3.18 Schematic: Size 6A DC power supply connection to smaller Multi-Axis Servo Drives
3.7.2 DC power supply connection (X11) size 6A
Size 6A connection to smaller Multi-Axis Servo Drives
Connect terminal X11/+ of the Power Supply Unit to terminal X11/+ of the next butt-mounted Multi-Axis Servo Drive. Use the ready made-up DC power supply cables.Take off the shrink tubing on the round end.Use the longer conductor for servo drives butt-mounted on the right.Use the shorter conductor for servo drives butt-mounted on the left.On the Multi-Axis Servo Drive connect the DC power supply conductor to the next butt-mounted Multi-Axis Servo Drive.
Connect terminal X11/- of the Power Supply Unit to terminal X11/- of the next butt-mounted Multi-Axis Servo Drive.Use the ready made-up DC power supply cables. Take off the shrink tubing on the round end.Use the shorter conductor for servo drives butt-mounted on the right.Use the longer conductor for servo drives butt-mounted on the left.On the Multi-Axis Servo Drive connect the DC power supply conductor to the next butt-mounted Multi-Axis Servo Drive.
Connect the touch protection to DC link terminals X11. For more information refer to the Multi-Axis Servo Drive Operation Manual.
1.
2.
3.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 43
Electrical installation
X11+ – + –
X11X11+ –
X12
+L3L2L1PE – -RBZK
+
X11 X11 X11 X11
+ +–
+– – – +
–+
Power Supply Unitsize 6A
Mul
ti-A
xis
Ser
vo D
rive
size
5
Mul
ti-A
xis
Ser
vo D
rive
size
4
Mul
ti-A
xis
Ser
vo D
rive
size
3
Multi-Axis Servo Drive size 6A
Mul
ti-A
xis
Ser
vo D
rive
size
2
Mul
ti-A
xis
Ser
vo D
rive
size
1
Figure 3.20 Schematic: DC power supply connection size 6A to size 6A
Figure 3.19 Detail: Size 6A DC power supply connection to smaller Multi-Axis Servo Drives
Size 6A connection to size 6A Multi-Axis Servo Drives
Connect terminal X12/ZK+ of the Power Supply Unit to terminal X11/ZK+ of the next butt-mounted Multi-Axis Servo Drive size 6A. Use dedicated cables for the purpose.The connection of the DC link must be made with parallel cables. The conductor cross-section must be at least 50 mm2 (0.08 in2) (CU). The cables must be short-circuit and earth fault proof, and shielded. Twist the cables or use a shield tube. A length of 2 m (6.56 ft) must not be exceeded. If other cables are used, Moog can provide no guarantee of stable and safe operation.On the Multi-Axis Servo Drive connect the DC power supply conductor to the next butt-mounted Multi-Axis Servo Drive.
Connect terminal X12/ZK- of the Power Supply Unit to terminal X11/ZK- of the next butt-mounted Multi-Axis Servo Drive size 6A.On the Multi-Axis Servo Drive connect the DC power supply conductor to the next butt-mounted Multi-Axis Servo Drive.Use dedicated cables for the purpose.
Connect the touch protection to DC link terminals X11.For more information refer to the Multi-Axis Servo Drive Operation Manual.
1.
2.
3.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 44
Electrical installation
3.8.1 Specification of control connections
Des. Term. Specification Electrical isolation
Analog inputs
REL
REL
ISDSH
ISD06
ISD05
ISD04
ISD03
ISD02
ISD01
ISD00
+24V
DGND
RSH
RSH
ENPO
OSD02
OSD01
OSD00
ISA1-
ISA1+
ISA0-
ISA0+
+24V
DGND
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
X4
ISA0+ISA0-ISA1+ISA1-
X4/3X4/4X4/5X4/6
No function No
Digital inputs
ISD00ISD01ISD02ISD03ISD04ISD05ISDSH
X4/15X4/16X4/17X4/18X4/19X4/20X4/22
• Frequency range < 500 Hz
• Terminal scanning cycle = 1 ms
• Switching level Low/High: ≤ 4.8 V / ≥ 18 V
• at 24 V typ. 3 mA
Yes
ISD06 X4/21
• Frequency range ≤500 Hz
• Switching level Low/High: ≤ 4.8 V / ≥ 18 V
• Imax at 24 V = 10 mA, RIN approx. 3 kΩ
• Internal signal delay time < 2 μs suitable as trigger input for quick saving of actual position
Yes
ENPO X4/10
• Frequency range < 500 Hz
• Reaction time approx. 10 ms
• Switching level Low/High: ≤ 4.8 V / ≥ 18 V
• at 24 V typ. 3 mA
Yes
Digital outputs
OSD00OSD01OSD02
X4/7X4/8X4/9
• Short-circuit proof
• Imax = 50 mA, PLC-compatible
• Terminal scanning cycle = 1 ms
• High-side driver
Yes
Table 3.6 Specification of control connections
3.8 Control connections (X4)
Check whether a complete device setup is already available, i.e. whether the drive has already been configured.
If this is the case, a special control terminal assignment applies.Please contact your project engineer to obtain the terminal assignment!
Choose a terminal assignment.
4.Wire the control terminals with shielded cables.The following is strictly required: 24 VDC on X4/22 and ENPO X4/10 as start signal.Earth the cable shields over a wide area at both ends.Conductor sizes fixed: 0.2 to 1.5 mm2 (0.0003 to 0.0023 in2) Flexible conductor sizes with ferrule: 0.2 to 1.5 mm2 (0.0003 to 0.0023 in2)
5.Keep all contacts open(inputs inactive).
6.Check all connections again!Continue with commissioning in section 4.2.10, p. 57.
Note the following points:
y Always wire the control terminals with shielded cables.
y Lay mains, motor, signal, DC power supply and braking resistor cables isolated from each other. Observe a minimum clearance of 200 mm (7.87 in).
y A cable type with double copper braiding, with 60 - 70 % coverage, must be used for all shielded connections.
1.
2.
3.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 45
Electrical installation
3.8.2 Standard terminal assignment
Terminal assignment with factory setting
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
REL
REL
ISDSH
ISD06
ISD05
ISD04
ISD03
ISD02
ISD01
ISD00
+24 V
DGND
RSH
RSH
ENPO
OSD02
OSD01
OSD00
ISA1-
ISA1+
ISA0-
ISA0+
+24 V
DGND
DescriptionX4 X4
ENPO
Description
Figure 3.21 Control terminals default assignment (initial commissioning)
NOTE:
The STO (Safe Torque Off) safety function is not required for the Power Supply Unit, as no motors are connected. In order to start the Power Supply Unit, a jumper must be placed between X4/14 and X4/22. The STO safety function is used in conjunction with a Multi-Axis Servo Drive.
Des. Term. Specification Electrical isolation
Relay outputs
REL
REL
ISDSH
ISD06
ISD05
ISD04
ISD03
ISD02
ISD01
ISD00
+24V
DGND
RSH
RSH
ENPO
OSD02
OSD01
OSD00
ISA1-
ISA1+
ISA0-
ISA0+
+24V
DGND
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
X4REL X4/23X4/24
• Relay, 1 NO contact
• Functions selectable as in case of digital outputs
• 25 V / 1.0 A AC, cos ϕ = 1
• 30 V / 1.0 A DC, cos ϕ = 1
• Switching delay approx. 10 ms
• Cycle time 1 ms
X4:23
X4:24Yes
RSHRSH
X4/11X4/12 No function Yes
Auxiliary voltage
+ 24 V X4/2X4/14
• Auxiliary supply to feed the digital control inputs
• UH = UV-∆U (∆U typically approx. 1.2 V), no destruction in case of short-circuit
• (+24 V -> GND), but device may briefly shut down.
• Imax = 80 mA (per pin) with self-resetting circuit-breaker (polyswitch)
Yes
Digital ground (earth)
DGND X4/1X4/13
• Reference earth for 24 V, with automatically reset-ting circuit-breaker (polyswitch) Yes
Table 3.6 Specification of control connections
NOTE:
With high currents flowing through the earth terminals a high resistance isolation from the device earth is required. This may cause incorrect response of the drive (avoid ring currents in the wiring).
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 46
Electrical installation
Value Value name Description
12 OUTPUT_FS_I_LIM_ACTIV No function
13 OUTPUT_FS_ENMO No function
14 OUTPUT_FS_PLC No function
15 OUTPUT_FS_WARN General warning
16 OUTPUT_FS_WUV Warning: undervoltage in DC link (defined in P-0730[0,1])
17 OUTPUT_FS_WOV Warning: overvoltage in DC link (defined in P-0730[2,3])
18 OUTPUT_FS_WIIT Warning: I2t-power stage protection threshold reached (defined in P-0730[6,7])
19 OUTPUT_FS_WOT_PTC Warning: KTY sensor of step-up choke (defined in P-0730[12,13])
20 OUTPUT_FS_WOTI Warning: heat sink temperature of Power Supply Unit (defined in P-0730[08,9])
21 OUTPUT_FS_WOTD Warning: internal temperature in Power Supply Unit (defined in P-0730[10,11])
22 OUTPUT_FS_WLIS Warning: apparent current limit value exceeded (defined in P-0730[4,5])
23 OUTPUT_FS_WLVOLT Warning: DC link voltage limit value exceeded (defined in P-0730[14,15])
24 OUTPUT_FS_COM_1MS Setting outputs via COM Option in 1 ms cycle
25 OUTPUT_FS_COM_NC Setting outputs via COM Option in NC cycle
26 OUTPUT_FS_SH_S No function
27 OUTPUT_FS_BC_FAIL Brake chopper fail error (Error = LOW)
28 OUTPUT_FS_WLPOW Effective power limit exceeded (defined in P-0730[16,17])
29 OUTPUT_FS_GRID_OK Mains OK (frequency AND voltage within tolerance window = high)
Table 3.8 Selectable functions of digital outputs OSD00 to OSD02
3.9 Functions of the digital inputs
The following functions can be selected for digital inputs ISD00 to ISD06:
Value Value name Description
0 MPRO_INPUT_FS_OFF No function
1 MPRO_INPUT_FS_START Start loop control
2 MPRO_INPUT_FS_E_EXT External error on another device
3 MPRO_INPUT_FS_WARN External warning on another device
4 MPRO_INPUT_FS_RSERR Reset an error message
Table 3.7 Selectable functions of digital inputs ISD00 to OSD06
3.10 Functions of the digital outputs
The following functions can be selected for digital outputs OSD00 to OSD02:
Value Value name Description
0 OUTPUT_FS_OFF No function
1 OUTPUT_FS_ERR General error
2 OUTPUT_FS_ACTIV Control in function
3 OUTPUT_FS_S_RDY Device initialised
4 OUTPUT_FS_PRECHARGE_RDY Device precharged
5 OUTPUT_FS_C_RDY Device ready (DC link voltage present)
6 OUTPUT_FS_REF DC link voltage reference (setpoint) reached
7 OUTPUT_FS_E_FLW No function
8 OUTPUT_FS_LIMIT DC link voltage reference limitation active (the voltage is outside the defined range.)
9 OUTPUT_FS_UDC_GT_UDCX Actual DC link voltage higher than defined in parameter P-0740 Voltage threshold
10 OUTPUT_FS_P_LIM_ACTIV No function
11 OUTPUT_FS_UDC_LIM_ACTIV DC link voltage reference limitation active (the voltage is outside the defined range.)
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 47
Electrical installation
3.14 Braking resistor (X12/RB)
In regenerative operation, e.g. when braking the motor, power is routed into the DC link of the multi-axis system and fed back via the Power Supply Unit to the mains. If feedback to the mains is not possible (such as in the event of a power failure), the internal braking transistor is activated and the regenerated power is converted into heat by way of a braking resistor.
3.14.1 Connection of the external braking resistor
DANGER!
Terminal RB+ is permanently switched to DC link potential (>300 V DC). The connection is not protected inside the device. Never wire or disconnect electrical connections while they are live. Always disconnect the power before working on the device. Dangerously high voltages ≥50 V (capacitor charge) may still be present 10 minutes after the power is cut to the size 5 and size 6A. The discharge time depends on the number of drives connected to the multi-axis system. So check that no voltage is connected!
ATTENTION!
The external braking resistor must be monitored by the control. The temperature of the braking resistor is monitored by a temperature watchdog (Klixon). In the event of overheating the Power Supply Unit must be disconnected from the mains supply.
!
3.11 Specification of USB port (X2)
The service and diagnostic interface X2 is executed as a USB V1.1 port. It is suitable only for connection of a PC for commissioning, service and diagnosis purposes using the Moog DriveADministrAtor 5 software.
Technical specification:
y USB 1.1 standard - full speed device port
y Connection via standard commercially available USB interface cable type A to type B (see also Programmable Multi-Axis Servo Drive System (MSD) Ordering Catalog)
3.12 Specification of Ethernet port (X3)
The service and diagnostic interface X3 is executed as an Ethernet port. It is suitable only for connection of a PC for commissioning, service and diagnosis purposes using the Moog DriveADministrAtor 5 software.
Technical specification:
y Transfer rate 10/100 MBits/s BASE-T
y Transfer profile conforming to IEEE802.3
y Connection via standard commercially available crosslink cable (see also Programmable Multi-Axis Servo Drive System (MSD) Ordering Catalog)
3.13 Option 1
Depending on the Power Supply Unit variant, option 1 is factory-configured with various options. Field bus options such as EtherCAT or SERCOS are available.
You will find all available options in the Programmable Multi-Axis Servo Drive System (MSD) Ordering Catalog. The user manuals for the respective options provide detailed information on commissioning.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 48
Electrical installation
3.15 Overview of step-up choke connections
The following shows the layout with the respective positions and labelling of the terminals. The temperature is evaluated with a KTY sensor via terminal X5. At +145 °C (+293 °F) the Power Supply Unit is switched off. Technical data of step-up choke see section A.7, p. 72.
WARNING!
The choke has no PE connection. It is intended solely for installation in a cabinet, as with IP00 protection they offer no protection against direct or indirect touch contact.
DANGER!
The choke will reach temperatures of up to +145 °C (+293 °F) when in continuous operation! Touching may cause serious burns. Touch the choke only wearing protective gloves, or after allowing it to cool for a lengthy period of time.
!
ATTENTION! y The external braking resistor can only be installed in conjunction with a
Power Supply Unit without an internal braking resistor.
y Be sure to follow the installation instructions for the external braking resistor.
y The minimum permissible connection resistance of the Power Supply Unit must not be infringed. Technical specifications for braking resistors see Table A.2, p. 66, Table A.5, p. 68 and Table A.8, p. 69.
y The cable cross-section depends on the performance of the braking resistor.
y The braking resistor may radiate intensive heat. So be sure to keep the braking resistor an adequate distance from adjacent assemblies, or install it outside the cabinet.
Terminal X12/RB
Size Size 5 Size 6ADevice G396-026 G396-050 G396-075 G396-110
Cable connection capacity0.5 ... 25 mm2 (0.0008 ... 0.04 in2)
(AWG 20...AWG 4) 1)
25 ... 50 mm2 (0.04 ... 0.08 in2) (AWG 4...AWG 0) 2)
Tightening torque 2.5 ... 4.5 Nm 6 ... 8 Nm
1) Flexible cable with ferrule
2) Flexible cable with or without ferrule
RB− +
ϑ
L1
X12
L2 L3ZK
+ −
Figure 3.22 Connection of external braking resistor (example: size 6A)
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 49
Electrical installation
3.16 Overview of input choke connections
The following shows the layout with the respective positions and labelling of the terminals. Technical data of input choke see section A.8, p. 7272.
L1 L1.1 L2 L2.1 L3 L3.1
L1.1 L2.1 L3.1
L1 L2 L3
Figure 3.24 Input choke connections for size 5 and size 6A
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Power connections
Cable connection capacity (flexible without/ with ferrule)
1.5 .. 16 mm2 (0.0023 ... 0.025 in2)
1.5 .. 16 mm2 (0.0023 ... 0.025 in2)(AWG 18...AWG 6)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)(AWG 12...AWG 0)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)
2.5 ... 35 mm2 (0.004 ... 0.05 in2) (AWG 12...AWG 0)
16 ... 120 mm2 (0.025 ... 0.19 in2)
16 ... 90 mm2 (0.025 ... 0.15 in2)
(AWG 4...kcmil 250)
Tightening torque1.5 ... 2.4 Nm
(13.2...21.2 lb-in)4 ... 5 Nm
(35.4...44.2 lb-in)4 ... 5 Nm
(35.4...44.2 lb-in)12 ... 20 Nm
(106.2...177 lb-in)
Table 3.10 Input choke connections
WARNING!
The choke has no PE connection. It is intended solely for installation in a cabinet, as with IP00 protection they offer no protection against direct or indirect touch contact.
L1ϑ+
−
L1.1 L2 L2.1 L3 L3.1
L1 L1.1 L2 L2.1 L3 L3.1ϑ+ −
L1.1 L2.1 L3.1
L1
+ϑ
−ϑL2 L3
Figure 3.23 Step-up choke connections for size 5 and size 6A
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Power connections
Cable connection capaci-ty (flexible without/ with ferrule)
1.5 .. 16 mm2 (0.0023 ... 0.025 in2)
1.5 .. 16 mm2 (0.0023 ... 0.025 in2)(AWG 18...AWG 6)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)(AWG 12...AWG 0)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)
2.5 ... 35 mm2 (0.004 ... 0.05 in2) (AWG 12...AWG 0)
16 ... 120 mm2 (0.025 ... 0.19 in2)
16 ... 90 mm2 (0.025 ... 0.15 in2)
(AWG 4...kcmil 250)
Tightening torque1.5 ... 2.4 Nm
(13.2...21.2 lb-in)4 ... 5 Nm
(35.4...44.2 lb-in)4 ... 5 Nm
(35.4...44.2 lb-in)12 ... 20 Nm
(106.2...177 lb-in)
KTY sensor
Cable connection capaci-ty (flexible, with ferrule)
0.5 ... 2.5 mm2 (0.0008 ... 0.004 in2) (AWG 30...AWG 12)
Tightening torque 0.4 ... 0.8 Nm (3.5 ... 7.0 lb-in)
Table 3.9 Step-up choke connections
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 50
Electrical installation
3.17 Overview of mains filter connections
The following shows the layout with the respective positions and labelling of the terminals. Technical data of mains filter see section A.9, p. 7373.
L1.1 L2.1 L3.1
L1 L2 L3
PE
PE L1 L2 L3 PE
L1.1 L2.1 L3.1 PE
Figure 3.25 Mains filter connections for size 5 and size 6A
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Type FFU 3 x 56 K FFU 3 x 80 K FFU 3 x 130 K FFU 3 x 180 K
Power connections (L1,L2,L3)
Max. cable cross-section of terminals
16 mm2 (0.025 in2) 25 mm2 (0.04 in2) 50 mm2 (0.08 in2) 95 mm2 (0.15 in2)
Tightening torque 2 Nm 4 Nm 6 Nm 15 Nm
PE conductor connections
Thread M6 M10
Tightening torque 6 ... 8 Nm 15 ... 20 Nm
Table 3.11 Mains filter connections for size 5 and size 6A
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 51
Commissioning
4 Commissioning
4.1 Notes for operation
ATTENTION! y Cooling air must be able to flow through the device and the mains
connection components without restriction.
y Max. Pollution severity 2 to IEC/EN 60664-1.
Please be sure to avoid:
y penetration of damp into the device;
y aggressive or conductive substances in the immediate vicinity;
y screws or cable residues dropping into the device;
y ventilation openings being covered over, as otherwise the device may be damaged.
Further information on environmental conditions can be found in the appendix.
4.2 Initial commissioning (actuation via terminals)
The following details commissioning of the Power Supply Unit. The device is controlled via control terminal X4. The reference (setpoint) for the DC link voltage is set internally as a fixed value. Commissioning is divided into the following steps:
DANGER FROM ELECTRICAL TENSION!
Never wire or disconnect electrical connections while they are live. Disconnect the device from the mains supply (400/460/480 VAC) before working on it. Work on the device only once the DC link voltage has fallen below 50 V residual voltage (measured at terminals X12/ZK+ and X12/ZK–).
!
1. Wiring of componentsSee section 3.4, p. 33 ff.
2. Switching on control voltageExternal 24 V supply voltageSee section 3.6.1, p. 36 size 5 and size 6A.
3. Communication setup with Moog DriveADministrAtor 5For installation instructions refer to the Moog DriveADministrAtor 5 installation manual and the Online Help.
4. Adaptation to the parameters of the supply system
5. Automatic identification of DC link capacity and equivalent time constant of current control
6. Parameter setting of the drive for the DC link capacitySee section 4.2.7, p. 55.
7. Parameter setting of the drive for the DC link voltageSee section 4.2.8, p. 56.
8. Programming monitoring of the braking resistorSee section 4.2.9, p. 56.
9. Connecting mains supply voltage via main switch
10. Activating closed-loop controlStart with ENPO high.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 52
Commissioning
= selected setting/component
ConnectionsTermi-nals
Terminal designation Cable type
Control supply X9/10 +24 V DC / pin 1 = + , pin 2 = – Standard
Precharge/mains synchro-nisation, auxiliary relay X21
L1/L2/L3 (400/460/480 VAC)HREL
Default shielded
Mains supply X12 L1/L2/L3/PE (400/460/480 VAC)Default shielded
See section 3.3, p. 28
Table 4.1 Voltage supply
Connection Socket Designation Cable type
USB X2 USB A CC-USB 03
TCP / IP (Ethernet) X3 RJ45 CC_ECL 03
Table 4.2 Communication with PC using Moog DriveAdministrator 5 user software
ConnectionTermi-nals
Terminal designation Cable type
+24 V DC X4/22 ISDSH Default shielded
ENPO (Start) X4/10 ENPO Default shielded
See section 3.8, p. 44
Table 4.3 Communication via terminals
4.2.1 System requirements
y Installed Power Supply Unit (see section 3, p. 25) Details on initial commissioning can be found in the following section 4.2.2, p. 52
y Section 2, "Installation", and section 3, "Starting Moog DriveADministrAtor 5", of the Moog DriveADministrAtor 5 Installation Manual worked through
y Connection between PC and Power Supply Unit (Ethernet or USB)
ATTENTION!
During commissioning strictly comply with the safety regulations specified in section 1, p. 9.
4.2.2 Wiring of components
1.
For complete wiring all power supply, communication and service connections must be connec-ted to the appropriate terminals, using the cables and leads provided for this purpose. Ensure adequate shielding - see section 3.2, p. 25.
DANGER FROM ELECTRICAL TENSION!
Never wire or disconnect electrical connections while they are live. Disconnect the device from the mains supply (400/460/480 VAC) before working on it. Work on the device only once the DC link voltage has fallen below 50 V residual voltage (measured at terminals X12/ZK+ and X12/ZK–).
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 53
Commissioning
4.2.4 Communication with the Moog DriveADministrAtor 5
3.
The Moog DriveADministrAtor 5 user software must be installed on a PC. The PC can be connected to the servo drive via USB or Ethernet (TCP/IP).
For a detailed description of Moog DriveADministrAtor 5 refer to the Moog DriveADministrAtor 5 Online Help.
ATTENTION!
Communication between the PC and the servo drive may only be established once the servo drive has completed its initialisation. The display D1/D2 no longer indicates "88" or "0".
NOTE:
The Power Supply Unit is factory pre-configured and adapted to the mains connection set. The factory parameter setting may only be changed by trained specialist personnel. The parameter changes described in the following are used to adapt the Power Supply Unit to the parameters of the supply system and to the number and type of Multi-Axis Servo Drives connected to the DC terminals X11.
NOTE:
The firmware of the Power Supply Unit must be compatible with the Moog DriveADministrAtor 5 version. If communication fails, the compatibility must be checked.
!
4.2.3 Switching on control voltage (24 VDC)
2.
In order to initialise and parameterise the Power Supply Unit, only the 24 DC control voltage supply needs first to be connected to X2 or X10. Ensure correct polarity.
After successful switching on you will be able to read two conditions in the 7-segment display.
D1 D2 Action Reaction Explanation
Switch-on of ext. 24 V control voltage Initialisation OK Initialisation time < 5 s
Not ready for start No DC link voltage Device is initialised
Table 4.4 Switch-on status of the Power Supply Unit (after connection of the 24 V control supply)
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 54
Commissioning
y Set the mains frequency P-0452.
Figure 4.2 Parameter editor - parameter P-0452
NOTE:
For the parameters to take effect even after a restart, the changed settings must be permanently saved to the device and a 24 V reset performed.
Save setting1. To save the parameter setting on the device click the "Save setting permanently
to device" button.
2. It is also possible to save the parameter data set to the connected PC as a file. To do so, click the "Save current device setting to file" button, select the desired directory and click "Save" to confirm.
Figure 4.3 Save setting
12
4.2.5 Setting the mains voltage and frequency of the supply system
4.
The Power Supply Unit is factory-configured to a 3 x 400 V AC (50 Hz) system. If the Power Supply Unit is to be operated on such a system, continue with step 5. If the Power Supply Unit is to be operated on a different system, parameters P-0307 Mains voltage and P-0452 Mains frequency must be set to the corresponding values.
NOTE:
Only the fixed mains voltages 400 V, 460 V and 480 V and the mains frequencies 50 Hz and 60 Hz can be set.
The Power Supply Unit regulates the DC link voltage to an internally preset fixed value. At an input voltage of 400 VAC the DC link voltages 650 and 770 VDC are possible. At an input voltage of 460 and 480 VAC the DC link voltage 770 VDC is possible.
y Set the mains voltage P-0307.
Figure 4.1 Parameter editor - parameter P-0307
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 55
Commissioning
4.2.7 Setting DC link capacity
6.
The settings of the DC voltage controller depend on the DC link capacity of the complete multi-axis system. You will find the DC link capacities under "Technical data" in the appendix to the operation manuals of the Power Supply Unit and the Multi-Axis Servo Drives.
y Add together the DC link capacities of all the drives connected to the multi-axis system.
y Set the overall value of DC link capacity P-1500 (in µF).
ATTENTION!
The maximum overall capacity of the multi-axis system DC link for a Power Supply Unit size 5 (incl.) must not exceed 10,000 µF, for size 6A (incl.) 20,000 µF.
y Set the relative controller dynamics P-0405 of the voltage controller. Recommended value: 100 %.
NOTE:
Parameter P-0405 must in all cases be activated by double-clicking in the "Value" field and confirming by pressing "Enter", even if you do not make any changes. Otherwise the voltage controller will not be designed automatically.
Figure 4.4 Parameter editor - parameters P-0405 and P-1500
!
4.2.6 Automatic identification of DC link capacity and equivalent time constant of current control
5.
The DC voltage controller of the Power Supply Unit regulates DC link voltage to an internally preset fixed value. Control depends on the DC link capacity of the multi-axis system and the equivalent time constant of current control. Both values can and should be determined by automatic identification first.
ATTENTION!
The maximum overall capacity of the multi-axis system DC link for a Power Supply Unit size 5 (incl.) must not exceed 10,000 µF, for size 6A (incl.) 20,000 µF.
y Before starting automatic identification, set the specified value for DC link voltage to 700 VDC under parameter P-0410 "CON_VCON_VdcRef".
y Start automatic identification by setting parameter P-1501 "SCD_AT_VdcCAP_Con" to START(2).
As soon as the parameter switches to the value READY(0), the identification process is complete.
The values determined for total DC link capacity (P-1500) and the equivalent time constant for current control (P-0406) are now available for designing the DC voltage controller.
NOTE:
In the next step, the value determined for total DC link capacity (P-1500) section 4.2.7, p. 55 should be checked for plausibility and, if necessary, replaced with the known value. The specified value for DC link voltage (P-0410) section 4.2.8, p. 56 should likewise be set.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 56
Commissioning
4.2.9 Programming monitoring of the braking resistor
8.
Braking resistor setting.
y Set the braking resistor:
− P-0741 Resistance
− P-0742 Rated power
− P-0743 Maximum energy
− P-0745 Threshold value for warning
y Set parameter P-0740 to 1 in order to activate the braking resistor.
Figure 4.6 Parameter editor - parameter P-0740
NOTE:
For the parameters to take effect even after a restart, the changed settings must be permanently saved to the device and a 24 V reset performed.
This completes all necessary parameter settings.
4.2.8 Setting DC link voltage
7.
The Power Supply Unit regulates the DC link voltage to an internally preset fixed value. At an input voltage of 400 VAC the DC link voltages 650 and 770 VDC are possible. At an input voltage of 460 and 480 VAC the DC link voltage 770 VDC is possible.
y Set the DC link voltage to 650 or 770 VDC P-0410.
Figure 4.5 Parameter editor - parameter P-0410
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 57
Commissioning
4.2.11 Activating closed-loop control
10.
After DC link precharging, closed-loop control can be activated by enabling the ENPO input (X4/10). The Power Supply Unit then synchronises the control to the mains voltage. In this phase the display indicates the value 4. When up-synchronisation has completed successfully, closed-loop control is activated and the pre-specified reference setpoint for the DC link voltage is set. The display indicates the value 5.The current measured DC link voltage is indicated via parameter P-0332 in the “Parameter list > PSU status > Actual values > DC Voltage” subject area of the parameter tree. If the mean of this value corresponds to the pre-specified reference, the Power Supply Unit has been successfully commissioned into operation.
4.3 Diagnostics
4.3.1 Faults and warnings in Moog DriveADministrAtor 5
Parameters P-0031 ErrorStack and P-0033 ActualError contain additional information on an error or warning. This information is retrieved by way of the "Device State monitor" in Moog DriveADministrAtor 5.
NOTE:
For more information refer to the Multi-Axis Servo Drive Operation Manual.
If the brake chopper is actuated (DC link voltage ≥ 820V), the power converted in the braking resistor is up-integrated.
P= (820 V)2
MON_BrcRIf the brake chopper is not actuated, the power is down-integrated with the parameterised value for the brake chopper rated power (MON_BrcPnom).
When the shut-off threshold MON_BrcQmax is reached, a device error (ErrID=>24, Location=>01) is triggered and actuation of the brake chopper is disabled.
NOTE:
Any pre-heating of the braking resistor is not taken into account!
4.2.10 Connecting the mains supply voltage
ATTENTION!
Before connecting, check that the wiring phase is correct.
9.
The mains power can now be connected via the main switch. When the DC link precharge is complete, the Power Supply Unit display changes from value 1 to value 2.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 58
Commissioning
The following functions and displays are available:
y Display of device state (see section 5.1, p. 64) The device state is displayed when the control supply is switched on. If no input is made via the keypad for 60 seconds, the display switches back to the device state.
y Display of device error state (see section 5.1.1, p. 64) If a device error occurs the display immediately switches to show the error code.
y Parameter setting (display "PA") (see section 4.4.3, p. 60) Reset device parameters to factory defaults and data set handling by way of the MMC card
y Ethernet IP address setting (display "IP") (see section 4.4.4, p. 61) Set Ethernet IP address and subnet mask
y Field bus settings (display "Fb") (see section 4.4.5, p. 62) Set fieldbus address for example
y Firmware update with MMC card (see section 4.4.6, p. 63)
4.4 Integrated operator control unit and MMC card
The built-in operator control unit permits diagnosis of the servo drive. In addition, use of the MMC card aids serial commissioning without a PC. The operator control unit comprises the following elements, all located on the front of the device:
y 2-digit 7-segment display (D1, D2)
y Two pushbuttons (T1, T2)
y MMC slot (X1)MMCplus cards of type SC-MMC128 (128 MB memory capacity and 3.3 V supply voltage) can be inserted. For more details see Programmable Multi-Axis Servo Drive System (MSD) Ordering Catalog).
D1
D2
T2
T1
X1
Figure 4.7 Integrated operator control unit
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 59
Commissioning
4.4.2 Display
The following table defines various readouts and items of status information shown on the display.
Display Meaning
Menu entries("PA" is given as an example here; for other possible entries see section 4.4.4, p. 61 section 4.4.5, p. 62)
[flashing decimal points]Selected function in action (e.g. write to/read from MMC card)
[two lines]Entry/function not available
[OK]Action completed successfully, no errors
[Error]• Action via operator control unit not completed successfully, "Er" flashes alternately
with error number (see section 4.4.3, p. 60)
• Device error display, "Er" flashes alternately with error number and error location (see "MSD Servo Drive Application Manual")
Numerical values ("10" is by way of example in this case)• On the Parameters menu (PA) data set and error numbers are displayed in decimal
format.
• All other values are displayed in hexadecimal format. In those cases the displayed "10" would represent the decimal value 16.
Table 4.6 Meaning of display
NOTE:
If no input is made via the keypad for 60 seconds, the display switches back to the device state.
4.4.1 Functions of buttons T1 and T2
By way of the keypad the different menus are activated and the relevant functions controlled.
Button Function Comments
T1 (left)
• Activate menu (quit device state display)
• Scroll through menus/submenus
• Set values - left-hand segment display (D1)
Button T1 can be held down for any length of time, as the display merely scrolls through the available menu items at the respective level. No settings are changed.
T2 (right)• Select the highlighted menu
• Set values - right-hand segment display (D2)
Button T2 must not be held down for any length of time, as the display would then immediately move up in the menu structure from one level to the next and alter the parameter ultimately reached. So be sure to release button T2 every time the display changes.
T1 and T2 simultaneously
• Menu level up
• Apply selection
• Acknowledgement
After simultaneously pressing T1 and T2 the applied value flashes for five seconds. During this time the save operation can be aborted by pressing any button without the setting being applied. Otherwise the new value is saved after five seconds.
General
• The button press time until an action is executed is around 1 second.
• If no user action occurs for 60 seconds, the display switches back to the device status.
Table 4.5 Functions of buttons T1 and T2
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 60
Commissioning
Error number Meaning
00 File System No Error
01 File System Any file system error
02 File System command rejected
03 File System function parameter invalid
04 File System create file error
05 File System open file error
06 MMC create directory failed
07 MMC mounting error
08 MMC unmounting error
09 MMC using not allowed with current technology option card
10 MMC error uninstall X12 card
11 MMC not inserted
12 MMC mounting, create node
13 MMC not supported by hardware (not NSP 257)
14 MMC device in control enabled
15 MMC load parameter data set to device failed
16 MMC save parameter data set failed
17 Parameter reset to factory settings failed
18 Parameter write access failed
19 Save parameter data set non volatile failed
20 Not all parameters written
21 Error while reset to factory settings
Table 4.8 Error messages displayed during user input
4.4.3 Parameters menu (PA)
On the Parameters menu the following functions are available:
y Reset device settings to factory defaults
y Data set handling with MMC card
NOTE: y It is only possible to operate the MMC if the power stage is not active.
y Accessing the MMC may as long as 2 minutes. During this time both decimal points flash.
Menu level Para-meter
Value range
Meaning Explanation1 2
PA Pd - 00..99 Parameter download 1)
100 data sets (0..99) can be read from the Path: \PARA\TRANSFER\PDSxx.dmd (xx = 00.99) by the MMC.
Pu - 00..99 Parameter upload 1)
100 data sets (0..99) can be stored on the MMC in the directory \PARA\TRANSFER\PDSxx.dmd. The directory is generated automatically. Existing data sets may be overwritten.
Pr - - Parameter reset Reset device settings to factory defaults.
Pc - - Parameter clear Clear all data sets on the MMC card.
1) It is only possible to operate the MMC if the power stage is not active. Accessing the MMC may as long as 2 minutes.
Table 4.7 Parameters menu
Error messages displayed during user input
A failed user action is indicated by an error message. The message consists of an alternating display of "Er" and the error number.
NOTE:
The error messages displayed during user input should not be confused with drive error messages. For detailed information on the error codes and on error management refer to the Device Help.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 61
Commissioning
Example configuration of subnet mask
In this example the subnet mask is changed from 255.255.255.0 to 122.255.255.0.
T1
T2
Tx
TxBack
Back
Back
Press button Tx (X = 1, 2) repeatedly until desired menu appears on display
Press button Tx (X = 1, 2) once
Press button T1 and T2simultaneously
Press any button
Apply
>5 s>5 s
<5 s
T2
<5 s
T1 T2
T1 T2
T1 T2
Back
T1 T2
BackT1 T2
T1 T2
T1 T2
T1 T2
Value NOTsaved
Valuesaved
T1 T2
T1
T1
Back
T1 T2T2
Figure 4.8 Example configuration of subnet mask
4.4.4 Ethernet IP address menu (IP)
An Ethernet TCP/IP port is available as a service and diagnostics interface. The IP address is factory set to 192.168.39.5. It can be changed using the Moog DriveADministrAtor 5 PC software or by way of the display.
Menu level Para-meter
Value range
Meaning Explanation1 2
IP Iu b0 00..FFIP address
udate Byte 0Setting of byte 0 of the IP address in hexadecimal format (e.g. “05” for 192.168.39.5)
b1 00..FFIP address
udate Byte 1Setting of byte 1 of the IP address in hexadecimal format (e.g. “27” for 192.168.39.5)
b2 00..FFIP address
udate Byte 2Setting of byte 2 of the IP address in hexadecimal format (e.g. “A8” for 192.168.39.5)
b3 00..FFIP address
udate Byte 3Setting of byte 3 of the IP address in hexadecimal format (e.g. “C0” for 192.168.39.5)
Ir - - IP reset to factory setting Reset IP address to factory default (192.168.39.5)
Su b0 00..FF Subnet mask update byte 0
Setting of byte 0 of the subnet mask in hexadecimal format (e.g. "00" for 255.255.255.0)
b1 00..FF Subnet mask update byte 1
Setting of byte 1 of the subnet mask in hexadecimal format (e.g. "FF" for 255.255.255.0)
b2 00..FF Subnet mask update byte 2
Setting of byte 2 of the subnet mask in hexadecimal format (e.g. "FF" for 255.255.255.0)
b3 00..FF Subnet mask update byte 3
Setting of byte 3 of the subnet mask in hexadecimal format (e.g. "FF" for 255.255.255.0)
Sr - -Subnet mask
reset to factory setting
Reset subnet mask to factory default setting (255.255.255.0)
Table 4.9 IP address menu
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 62
Commissioning
Example configuration of fieldbus address
In this example the fieldbus address is changed from 1 to 23.
Back
Back
T2
T2
T1 T2
T1 T2
Back
Apply
>5 s>5 s
<5 s
<5 s
T1 T2
T1 T2 T1 T2
Value NOTsaved
Valuesaved
T1 T2
T1
Tx
Tx
Press button Tx (X = 1, 2) repeatedly until desired menu appears on display
Press button Tx (X = 1, 2) once
Press button T1 and T2simultaneously
Press any button
T1 T2
Figure 4.9 Example configuration of fieldbus address
NOTE: y During the flash phase after step 7 the save operation can be aborted by
pressing any button without the setting being applied. Otherwise the new value is saved after five seconds.
y The changed IP address is only applied once the control electronics have been restarted (24 V reset).
4.4.5 Fieldbus address menu (Fb)
The functions available under this menu item depend on the device's communication option. For detailed information refer to the relevant specification.
Menu level Para-meter
Value range
Meaning Explanation1 2
Fb Ad -00..xx
or- -
Fieldbus address
Setting of fieldbus address (only when fieldbus option used), otherwise display "- -“
(The maximum programmable value depends on the option)
Po -0..3or- -
Transmit power
Setting of fibre-optic power output(only with SERCOS II option), otherwise display "- -"
Table 4.10 Fieldbus address menu
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 63
Commissioning
4.4.6 Firmware update with MMC card
The MMC card can be used to perform a firmware update for the servo drive. For this, the HEX file of the update firmware must be copied under the name “main.hex” to the “\Firmware\” folder in the root directory of the MMC card.
Connect the preconfigured MMC card to the servo drive. Then perform a reset of the 24 V DC control supply by pressing both buttons (T1 and T2) simultaneously. When the display shows the code “c1” you can release the buttons.
The progress of the firmware update is indicated on the display by a flashing dot after D2 and consecutively by "c1" ... "c4". When the update has been completed successfully the new firmware starts up as normal. In the event of an error the code “cE” is displayed. In this case a reset of the 24 V DC control supply must be performed and the download repeated.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 64
Diagnostics
5 Diagnostics
5.1 Device states
The device states can be read from the 7-segment display (D1, D2).
Display Meaning Parameter
System states
Device in reset state
Self-initialisation on device start up (Start)
1)Not ready (no DC link voltage) (NotReady-
ToSwitchOn)
1) Starting lockout (ENPO not set)(DC link precharged to ideal voltage, power stage not ready) (SwitchOnDisabled)
READY (ENPO set)(power stage ready) (ReadyToSwitchOn)
On (DC link voltage is increased to reference setpoint / soft-start active) (SwitchedOn)
Power Supply Unit ready (DC link voltage setpoint reached) (OperationEnabled)
Error reaction active (FaultReactionActiv)
Error (for error list see section 5.2, p. 65) (Fault)
1) Not a “Safe” display under the terms of IEC/EN 61800-5-2.
Table 5.1 Device states
NOTE:
The STO (Safe Torque Off) safety function is not required for the Power Supply Unit, as no motors are connected. In order to start the Power Supply Unit, a jumper must be placed between X4/14 and X4/22. If this jumper is forgotten, the fact is indicated by a flashing dot on the device display. The STO safety function is used in conjunction with a Multi-Axis Servo Drive.
5.1.1 Error
In event of error alternating display: ER > 02 > 05 * ER > 02 > 05 ...
Display Meaning Explanation
Error ER = Error
Error name: 02 = Error in parameter list
Description of error: 05 = Function to check current parameter list
Table 5.2 Display in case of error
NOTE:
Errors can be reset in accordance with their programmed reaction (ER) or only via a 24 V reset (X9/10) (ER.).
ATTENTION!
Errors marked with a dot can only be reset when the cause of the fault has been eliminated.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 65
Diagnostics
Error number
Error location
Error text
06 Overtemperature PTC
00 Unknown error
01 PTC temp. too high
02 PTC DIN2 error detected (shortcut, resistance smaller 50 Ohm)
03 PTC DIN3 error detected (overtemperature, resistance higher than 3500 Ohm)
04 PTC DIN1 error detected (hysteresis after over temperature, resistance higher than 1650 Ohm)
07 Overtemperature powerstage cooler
00 Unknown error
01 Overtemperature inverter detected
08 Overtemperature PSU interior
00 Unknown error
01 Overtemperature PSU interior detected
09 Error grid
00 Unknown grid error
01 Grid frequency out of range
02 Grid voltage out of range
03 Timeout during synchronization
10 Error I2t power amplifier
00 Unknown error
01 I2t power amplifier detected
11 External error at digital input detected
00 Unknown external error
01 External error triggering at digital input
12 Error in CAN option
00 Unknown CAN option error
01 CAN option: BusOff error
02 CAN option: Guarding error
Table 5.3 Error list
5.2 Error list
The following table lists the error messages (error number, error location, error text) of the Power Supply Unit. In the event of an error the Power Supply Unit display alternates cyclically between “Er”, “>error number<“, “>error location<“. The error messages can be reset by switching the ENPO input (X4/10).
Error number
Error location
Error text
01 Runtime error
00 Unknown runtime error
02 Error in parameter list
00 Unknown runtime error
01 Parameter initialisation failed
02 Parameter virgin initialisation failed
03 Error in parameter saving routine
04 Error in paralist while adding a new parameter
05 Parameter check failed
06 Parameter ID is multiply defined
07 PowerStage data are corrupt
08 Device cannot be used in this voltage level
03 Under voltage
00 Unknown error
01 Undervoltage detected
04
00 Unknown error
01 Overvoltage detected
05 Over current
00 Unknown error
01 Overcurrent (hardware) detected
02 Overcurrent (software) detected
03 Overcurrent (software) detected
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 64
Diagnostics
Error number
Error location
Error text
04 Drive initialization: Unexpected error during drive initialization
16 DC voltage tracking error
00 Unknown VoltageDiff error
01 Max. voltage difference detected
02 reserved
17 Fatal error
00 Unknown fatal error error
01 Error while power stage initialisation
02 Error while power stage initialisation
03 Error while power stage initialisation
04 Error while power stage initialisation
05 Error while power stage initialisation
06 Error while power stage initialisation
07 Cannot switch off brake transistor. Disconnect power supply immediately!
08 Hardware identification failed
18 CPU error
00 Unknown TC error
01 reserved
02 reserved
03 FPU, Error in floating point unit
04 FPU, Error in floating point unit
19 Control initialisation error
00 Unknown error during Initialisation of Control
01 Invalid calibration Value (Division by Zero)
02 reserved
03 reserved
04 reserved
20 PLC error
Table 5.3 Error list
Error number
Error location
Error text
03 CAN option: Message transmit failed
04 CAN option: Heartbeat error
05 CAN option: Illegal address
06 CAN option: mapping error
07 CAN option: Sync / RxPDO timeout error
13 Error in SERCOS option
00 Unknown SERCOS error
01 SERCOS option: Error while hardware initialisation
02 SERCOS option: Illegal communication phase
03 SERCOS option: Optical fiber break
04 SERCOS option: Receive data disturbed
05 SERCOS option: MST failure
06 SERCOS option: MDT failure
07 SERCOS option: 2 devices with same address in the ring
08 SERCOS option: Phase upshift failure
09 SERCOS option: Phase downshift failure
10 SERCOS option: Phase switching without ready acknowledge
11 SERCOS option: Error while parameter initialisation
12 SERCOS option: Run time error
13 SERCOS option: Watchdog failure
14 SERCOS option: Error in parameter data
14 Error in EtherCAT option
00 Unknown EtherCat-option error
01 Sync manager 0 watchdog error
15 Parameter error
00 Unknown Parameter error
01 Error while init current monitoring
02 Error while initializing control
03 Drive commissioning: Watchdog failure via service tool access
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 65
Diagnostics
5.3 Helpline/Service
If you have any technical questions concerning project planning or commissioning of the servo drive, please feel free to contact our helpline.
y Helpline - Please contact us: Moog GmbH Hanns-Klemm-Straße 28 D-71034 Böblingen Phone: +49 7031 622 0 Telefax: +49 7031 622 100 E-Mail: drives-support@moog.com
If you need further assistance, our specialists at the Moog Service Center will be happy to help.
y Service - Please contact us: Phone: +49 7031 622 0 E-Mail: info.germany@moog.com
Error number
Error location
Error text
00 User defined error in the PLC program detected.
21 Error in PROFIBUS option
00 PROFIBUS option: Unknown error
01 PROFIBUS option: process data timeout
22 Task overload
00 Internal timing error
01 Internal timing error
02 Internal timing error
23 Power fail detected
00 Power fail detected
24 Error brake chopper
00 Unknown brake chopper error
01 P*t-integrator value exceeds maximum
Table 5.3 Error list
For detailed information on error management refer to the MSD Servo Drive Device Help.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 66
Appendix
A Appendix
A.1 Technical data of Power Supply Unit
Size Size 5Device G396-026-xxx-xxx G396-050-xxx-xxx
Mains supply voltage (±10 %) 400 VAC
460 / 480 VAC
400 VAC
460 / 480 VAC
Controlled DC link voltage 650 VDC 770 VDC 770 VDC 650 VDC 770 VDC 770 VDC
Input, mains side
Continuous current [AAC eff] 40 40 34 76 76 64
Peak current 1) [AAC] 80 80 68 144 144 120
Switching frequency [kHz] 12 4
Continuous power [kVA] 27.5 52.5
Power loss 2) [W] 1010
Asymmetry of mains voltage ±3 % maximum
Frequency 50/60 Hz
DC link output
Continuous current [ADC] 40 34 34 76 64 64
Peak current 1) [ADC] 80 68 68 144 122 122
Continuous power [kW] 26 50
Peak power 1) [kW] 52 94
DC link capacitance [µF] 900
Technical data applies to air-cooled and liquid-cooled housing variants
1) For 10 s
2) Approximation values
Table A.1 Size 5 technical data dependent on mains input voltage and controlled DC link voltage
Size Size 5Device G396-026-xxx-xxx G396-050-xxx-xxx
Brake chopper power electronics 1)
Software response threshold 2) [VDC] 820
Hardware response threshold [VDC] on/off 860/840
Peak braking power [kW] on software/hardware side 90/99
Minimum ohmic resistance of an exter-nally installed braking resistor 7.5 Ω
Continuous chopper power [kW] 2
1) Optionally with liquid cooling: Internal braking resistor (mounted on cooler floor) on request
2) Minimum on-time 250 µs
Table A.2 Brake chopper power electronics size 5
ATTENTION!
The maximum overall capacity of the multi-axis system DC link for a Power Supply Unit size 5 (incl.) must not exceed 10,000 μF.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 67
Appendix
Size Size 6ADevice G396-075-xxx-xxx G396-110-xxx-xxx
Mains supply voltage (±10 %) 400 VAC
460 / 480 VAC
400 VAC
460 / 480 VAC
Controlled DC link voltage 650 VDC 770 VDC 770 VDC 650 VDC 770 VDC 770 VDC
Input, mains side
Continuous current [AAC eff] 115 115 96 170 170 142
Peak current 1) [AAC] 195 195 163 245 245 204
Switching frequency [kHz] 8 4
Continuous power [kVA] 80 118
Power loss 2) [W] 2500
Asymmetry of mains voltage ±3 % maximum
Frequency 50/60 Hz
DC link output
Continuous current [ADC] 115 97 97 170 144 144
Peak current 1) [ADC] 195 165 165 246 207 207
Continuous power [kW] 75 110
Peak power 1) [kW] 127 160
DC link capacitance [µF] 4240
Internal fuse (X11) 125 A 200 A
Technical data applies to air-cooled and liquid-cooled housing variants
1) For 10 s
2) Approximation values
Table A.4 Size 6A technical data dependent on mains input voltage and controlled DC link voltage
Size Size 5Device G396-026 G396-050
X11/L+, L-
Screw size M5 Use only the ready made-up cables supplied.
Tightening torque 2.5 ... 4.5 Nm (22 ... 39.8 lb-in)
X11/PE
Screw size M5 Use only the ready made-up cables supplied.
Tightening torque 2.5 ... 4.5 Nm (22 ... 39.8 lb-in)
X12/L1,L2,L3
Cable connection capacity 0.5 ... 25 mm2 (0.0008 … 0.04 in2) (AWG 20...AWG 4) 1)
Tightening torque 2.5 ... 4.5 Nm (22 ... 39.8 lb-in)
X12/PE
Cable connection capacity 25 mm2 2) 3) (0.04 in2 2) 3))
Tightening torque 2.5 ... 4.5 Nm (22 ... 39.8 lb-in)
X12/RB+, RB-
Cable connection capacity 0.5 ... 25 mm2 (0.0008 … 0.04 inm2) (AWG 20...AWG 4) 1)
Tightening torque 2.5 Nm (22 lb-in)
X12/ZK+, ZK-
Cable connection capacity 25 mm2 (0.04 in2)
Tightening torque 2.5 ... 4.5 Nm (22 ... 39.8 lb-in)
1) Flexible cable with ferrule
2) Flexible cable with/without ferrule
3) The PE conductor cross-section depends on the cross-section of the outer conductor (see section 3.4, p. 33)
The minimum cross-section of the cables depends on the local regulations and conditions, as well as on the rated current of the Power Supply Unit.
Table A.3 Connections
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 68
Appendix
Size Size 6ADevice G396-075 G396-110
X11/L+, L-
Cable connection capacityUse the ready made-up connecting cables supplied or
35 ... 95 mm2 (0.05 … 0.15 in2) (AWG 2...AWG 3/0) 1)
Tightening torque 25 ... 30 Nm (221... 265 lb-in)
X11/PE
Screw size for ring terminal M8
Tightening torque 2.5 ... 4.5 Nm (22 ... 39.8 lb-in)
X12/L1,L2,L3
Cable connection capacity
50...150 mm2
(0.08 ... 0.23 in2) (10...95 mm2
(0.02 … 0.15 in2)) 2) (AWG 0...AWG 5/0) 2)
50 ... 150 mm2
(0.08 ... 0.23 in2) (AWG 0...AWG 5/0) 1)
Tightening torque 25 ... 30 Nm (221... 265 lb-in)
X12/PE
Cable connection capacity 35 ... 95 mm2 (0.05 … 0.15 in2) (AWG 2...AWG 3/0) 1) 3)
Tightening torque 25 ... 30 Nm (221... 265 lb-in)
X12/RB+, RB-
Cable connection capacity 25 ... 50 mm2 (0.04 … 0.08 in2) (AWG 4...AWG 0) 1)
Tightening torque 6 ... 8 Nm (53 ... 70 lb-in)
X12/ZK+, ZK-
Cable connection capacity 50 ... 150 mm2 (0.08 ... 0.23 in2) (AWG 0...AWG 5/0) 1)
Tightening torque 25 ... 30 Nm (221... 265 lb-in)
1) Flexible cable with/without ferrule
2) With optional inserts for G396-075 to reduce the diameter
3) The PE conductor cross-section depends on the cross-section of the outer conductor (see section 3.4, p. 33)
The minimum cross-section of the cables depends on the local regulations and conditions, as well as on the rated current of the Power Supply Unit.
Table A.6 Connections
Size Size 6ADevice G396-075-xxx-xxx G396-110-xxx-xxx
Brake chopper power electronics 1)
Software response threshold 2) [VDC] 820
Hardware response threshold [VDC] on/off 860/840
Peak braking power [kW] on software/hardware side 143/157
Minimum ohmic resistance of an exter-nally installed braking resistor 4.7 Ω
Continuous chopper power [kW] 10
1) Optionally with liquid cooling: Internal braking resistor (mounted on cooler floor) on request
2) Minimum on-time 250 µs
Table A.5 Brake chopper power electronics size 6A
ATTENTION!
The maximum overall capacity of the multi-axis system DC link for a Power Supply Unit size 6A (incl.) must not exceed 20,000 μF.
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 69
Appendix
A.3 Ready made-up cables
Ready made-up cables are available for DC linking of size 5 and size 6A models. Specify the cable cross-section in accordance with local regulations and conditions. This depends on the cable protection, the installation method and the ambient temperature.
Type LCross- section
Variant Connection
DC link size 5 193 mm (7.6 in)
42 mm² (0.07 in2)
Flat copper braiding with double shrink-fit tube
covering
Flat sheath on both sides with hole Ø 5.5 mm
(0.22 in)
Sketch
L
4
15
DC link size 6A
L1 = 35 mm (1.38 in)
L2 = 345 mm (13.58 in)
29.4 mm² (0.05 in2)
Round stranded copper with double shrink-fit tube
covering
One side flat sheath with hole Ø 5.5 mm (0.22 in),
second side stripped strand
SketchL1
5
16
L2
5
16
Table A.8 Technical data – ready made-up encoder cables
A.2 Current consumption of control supply
Size Size 5 Size 6A
DeviceG396-026 G396-050
G396-075 G396-110
Terminal X9, X10
Air cooling
Maximum start-up current 7 A 10 A
Continuous current 2.5 A 8 A
Liquid cooling
Maximum start-up current 7 A 8 A
Continuous current 2 A 2 A
Table A.7 Current consumption of control supply
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 70
Appendix
A.5 Dynamic temperature monitoring
If the coolant flow breaks down or is not generated, the power stage may overheat. For this reason size 5 and size 6A servo drives feature dynamic monitoring of the heat sink temperature which shuts down the servo drive in case of overheating. The servo drive shuts down at the following heat sink temperature regardless of the temperature gradient:
Size Size 5 Size 6A
DeviceG396-026 G396-050
G396-075 G396-110
Device shutdown at heat sink tempe-rature +65 °C (+149 °F)
Table A.10 Dynamic monitoring of heat sink temperature
A.6 Ambient conditions
Ambient conditions Power Supply Unit
Protection IP20 except terminals (IP00)
Accident prevention regulations According to local regulations(in Germany e.g. BGV A3)
Mounting heightUp to 1.000 m (3,280 ft) above MSL, over 1.000 m (3,280 ft) above MSL with power reduction (1 % per 100 m (328 ft), maximum 2.000 m (6,561 ft) above MSL)
Pollution severity 2
Type of installationBuilt-in unit, only for vertical installation in a cabinet with minimum IP4x protection, when using STO safety function minimum IP54.
Table A.11 Ambient conditions
A.4 Hydrological data of liquid cooling
ATTENTION!
The temperature of the cooling plate must not be more than +10 °C (+50 °F) below the ambient temperature. Condensation will result in destruction of the device.
NOTE:
Customers must provide adequate heat dissipation for the cooling medium. The coolant should be approved by Moog if it deviates from the details below.
Size Size 5 Size 6A
DeviceG396-026 G396-050
G396-075 G396-110
Coolant quality
Recommended: Drinking water + corrosion inhibitor (e.g. ethylene glycol) Not permitted: Chloride ions (Cl- >100 ppm), Calcium carbonate (CaCO3 >160 ppm)
PollutionThe coolant must be as pure as possible so as not to clog the ducts. At a suspension concentration above 15 mg/dm³ continuous cleaning is recommended.
Coolant temperature
The coolant temperature may be between +5 °C and +40 °C (+41 °F and +104 °F). However, the coolant temperature must not be more than +10 °C (+50 °F) below the ambient tempera-ture, so as to prevent condensation on the heat sink.
Cooler material Aluminised/galvanised steel sheet
Material of cooler connections Aluminium
Coolant mean pressure (nominal/maxi-mum value) 1 bar / 2 bar
Coolant flow rate 1) (nominal/maximum value approx. )
8 l per min / 11 l per min
11 l per min / 13 l per min
1) Rating for devices without internal braking resistor
Table A.9 Hydrological data of liquid cooling
!
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 71
Appendix
Mechanical conditions Power Supply Unit
Vibration limit in transit
as per IEC/EN 61800-2, IEC/EN 60721-3-2 class 2M1
Frequency [Hz] Amplitude [mm (in)] Acceleration [m/s²]
2 ≤ f < 9 3.5 (0.14) Not applicable
9 ≤ f < 200 Not applicable 10
200 ≤ f < 500 Not applicable 15
Shock limit in transitas per IEC/EN 61800-2, IEC/EN 60721-2-2 class 2M1
Drop height of packed device maximum 0.25 m (0.82 ft)
Vibration limits of the system 1)
as per IEC/EN 61800-2, IEC/EN 60721-3-3 class 3M1
Frequency [Hz] Amplitude [mm (in)] Acceleration [m/s²]
2 ≤ f < 9 0.3 (0.01) Not applicable
9 ≤ f < 200 Not applicable 1
1) Note: The devices are only designed for stationary use.
Table A.13 Mechanical conditions – Power Supply Unit
ATTENTION!
According to EN ISO 13849-2 the cabinet must have IP54 protection or higher when using the STO (Safe Torque OFF) safety function.
ATTENTION!
The Power Supply Unit and the Multi-Axis Servo Drives must not be installed in areas where they are exposed to continuous shaking.
!
!
Climatic conditions Power Supply Unit
in transit
as per IEC/EN 61800-2, IEC/EN 60721-3-2 class 2K31)
Temperature -25 °C to +70 °C (-13 °F to +158 °F)
Relative humidity 95 % at maximum +40 °C (+104 °F)
in storage
as per IEC/EN 61800-2, IEC/EN 60721-3-1 classes 1K3 and 1K42)
Temperature -25 °C to +55 °C (-13 °F to +131 °F)
Relative humidity 5 to 95 %
in operation
as per IEC/EN 61800-2, IEC/EN 60721-3-3 class 3K33)
Temperature -10 °C (+14 °F) to +40 °C (+104 °F), to +55 °C (+131 °F) with power reduction (2 % per °C/°F)
Relative humidity 5 to 85 % without condensation
1) The absolute humidity is limited to maximum 60 g/m³. This means, at +70 °C (+158 °F) for example, that the relative humidity may only be maximum 40 %.
2) The absolute humidity is limited to maximum 29 g/m³. So the maximum values for temperature and relative humidity stipulated in the table must not occur simultaneously.
3) The absolute humidity is limited to maximum 25 g/m³. That means that the maximum values for temperature and relative humidity stipulated in the table must not occur simultaneously.
Table A.12 Climatic conditions – Power Supply Unit
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 72
Appendix
A.8 Technical data of input choke
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Rated alternating current 3 x 40 A 3 x 76 A 3 x 115 A 3 x 170 A
System voltage 3 x 400 VAC ... 3 x 480 VAC
Power loss at 100 % ED 120 W 144 W 180 W 174 W
Frequency 50/60 Hz
Protection IP00, cabinet installation required
Fitting position Condensers with liquid or viscous fillings must be installed upright, with the terminals up.
Power connections
Cable connection capacity (flexible without/with ferrule)
1.5 ... 16 mm2 (0.0023 ... 0.025 in2)
1.5 ... 16 mm2
(0.0023 ... 0.025 in2)(AWG 18...AWG 6)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)(AWG 12...AWG 0)
16 ...120 mm2 (0.025 ... 0.19 in2)
16 ... 95 mm2 (0.025 ... 0.15 in2)
(AWG 4...kcmil 250)
Tightening torque 1.5 ... 2.4 Nm (13.2 ... 21.2 lb-in) 4 ... 5 Nm (35.4 ... 44.2 lb-in) 12 ... 20 Nm
(106.2 ... 177 lb-in)
Table A.15 Technical data of input choke
A.7 Technical data of step-up choke
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Rated alternating current 3 x 40 A 3 x 76 A 3 x 115 A 3 x 170 A
System voltage 3 x 400 VAC ... 3 x 480 VAC
Rated for effective power(step-up mode 650 VDC/770 VDC)
26 kW 50 kW 75 kW 110 kW
Power loss at 100 % ED 225 W 440 W 400 W 930 W
Frequency 50/60 Hz
Protection IP00, cabinet installation required
Temperature sensor KTY84-130
Power connections
Cable connection capacity (flexible without/with ferrule)
1.5 ... 16 mm2 (0.0023 ... 0.025 in2)
1.5 ... 16 mm2
(0.0023 ... 0.025 in2)(AWG 18...AWG 6)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)
2.5 ... 35 mm2 (0.004 ... 0.05 in2)(AWG 12...AWG 0)
16 ...120 mm2 (0.025 ... 0.19 in2)
16 ... 95 mm2 (0.025 ... 0.15 in2)
(AWG 4...kcmil 250)
Tightening torque 1.5 ... 2.4 Nm (13.2 ... 21.2 lb-in) 4 ... 5 Nm (35.4 ... 44.2 lb-in) 12 ... 20 Nm
(106.2 ... 177 lb-in)
KTY sensor
Cable connection capacity (flexible, with ferrule)
0.5 ... 2.5 mm2 (0.0008 ... 0.004 in2) (AWG 30...AWG 12)
Tightening torque 0.4 ... 0.8 Nm (3.5 ... 7.0 lb-in)
Table A.14 Technical data of step-up choke
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 73
Appendix
A.11 Technical data of mains contactor
We suggest the following mains contactors:
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Type Siemens 3RT1035-1BB40
Siemens 3RT1045-1BB40
Siemens 3RT1054-1NB36
Siemens 3RT1056-6NB36
Coil voltage 24 VDC 24 VDC 24 VDC 24 VDC
Rated current AC-3 to 500 V 40 A 80 A 115 A 185 A
Table A.18 Technical data of mains filter
A.12 Technical data of circuit-breaker
We suggest the following circuit-breakers in the mains synchronisation line:
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Type Siemens 3RV1721-1ED10 Siemens 3RV1721-1GD10
Rated current to AC 500 V +10% 4 A 6.3 A
No back-up fuse required, as short-circuit proof to 100 kA
Table A.19 Technical data of circuit-breaker
A.9 Technical data of mains filter
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Type FFU 3 x 56 K FFU 3 x 80 K FFU 3 x 130 K FFU 3 x 180 K
Rated alternating current 1) 3 x 56 Aeff 3 x 80 Aeff 3 x 130 Aeff 3 x 180 Aeff
System voltage 3 x 400 VAC ... 3 x 480 VAC
Max. cable cross-section of terminals
16 mm2
(0.025 in2)25 mm2
(0.04 in2)50 mm2
(0.08 in2)95 mm2
(0.15 in2)
Protection IP 20
1) Rated alternating current at +40 °C (+104 °F) ambient temperature
Table A.16 Technical data of mains filter
A.10 Technical data of mains fuse
For size Size 5 Size 6AFor model G396-026 G396-050 G396-075 G396-110
Specified mains fuse, duty class gG
3 x maximum 63 A
3 x maximum 100 A
3 x maximum 150 A
3 x maximum 200 A
Table A.17 Technical data of mains fuse
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 74
Appendix
A.14 Measures to attain UL approbation (UL 508C) size 6A
1. Maximum temperature of ambient air: +40 °C (+104 °F) complete.
2. The devices are usable in systems with a maximum current capacity of 10 kA, with phase-symmetrical current and maximum voltage of 480 V, with system-side protection with RK 1 class, 600 V and maximum 200 A.
3. Only UL-approved device connection cables (mains and DC cables) may be used:
− Use copper conductor with permissible temperature range +75 °C (+167 °F).
− For the tightening torques of the Power Supply Unit terminals see Table A.6, p. 68.
− For the tightening torques of the choke terminals see Table A.14, p. 72 and Table A.15, p. 72.
4. The supplied chokes must be used.
5. The devices are rated for installation in an environment of pollution severity 2 to IEC/EN 60664-1.
A.13 Measures to attain UL approbation (UL 508C) size 5
1. Maximum temperature of ambient air: +40 °C (+104 °F) complete.
2. The devices are usable in systems with a maximum current capacity of 5 kA (G396-026) and 10 kA (G396-050), with phase-symmetrical current and maximum voltage of 480 V, with system-side protection with RK 1 class, 600 V and maximum 100 A.
3. Only UL-approved device connection cables (mains and DC cables) may be used:
− Use copper conductor with permissible temperature range +60 - +75 °C (+140 - +167 °F).
− For the tightening torques of the Power Supply Unit terminals see Table A.3, p. 67.
− For the tightening torques of the choke terminals see Table A.14, p. 72 and Table A.15, p. 72.
4. The supplied chokes must be used.
5. The devices are rated for installation in an environment of pollution severity 2 to IEC/EN 60664-1.
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 75
Overview
B Overview
The Power Supply Unit is intended for use in a Multi-Axis Servo Drive System. The multi-axis system comprises a Power Supply Unit with the mains connection set and a number of Multi-Axis Servo Drive connected to it. In motorised mode, the Power Supply Unit draws power from the supply system and makes it available to the connected Multi-Axis Servo Drive via the DC link. In regenerative mode the power is stored in the DC link. Temporarily surplus energy is fed back into the supply network by the Power Supply Unit in sinusoidal form.
1ON
0OFF
0
PWR
LOCKCF
Power
Reset
RJ-4
5/Li
ne
RS 2
32
COMDataStatus
1
2
3 4
5
5
5
5
6
7
1) Power cable
2) Mains connection set comprising mains filter, input choke with membrane capacitor and step-up choke
3) Braking resistor
4) Power Supply Unit
5) Multi-Axis Servo Drive
6) DC power supply via ready made-up DC link cables
7) Motor cables
Figure B.1 Multi-Axis Servo Drive System
The Power Supply Unit series comprises the following models:
Size Size 5 Size 6A
DeviceG396-026 G396-050
G396-075 G396-110
Picture
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 76
Overview
+ +– – –
++ –
Power Supply Unitsize 6A
Mul
ti-A
xis
Ser
vo D
rive
size
5
Mul
ti-A
xis
Ser
vo D
rive
size
4
Mul
ti-A
xis
Ser
vo D
rive
size
3
Figure B.3 Multi-Axis Servo Drive System with Power Supply Unit size 6A and Multi-Axis Servo Drive size 5
The Power Supply Unit and the Multi-Axis Servo Drive feature special DC connections (terminal X11) for electrical coupling of the DC links. Each unit is supplied with ready made-up DC link cables to make the connection.
The DC connections of the Power Supply Unit size 6A and of the Multi-Axis Servo Drives are protected by internal fuses.
Mul
ti-A
xis
Ser
vo D
rive
size
4
Power SupplyUnit size 5
+ ++– – – – +
–+
Mul
ti-A
xis
Ser
vo D
rive
size
3
Mul
ti-A
xis
Ser
vo D
rive
size
2
Mul
ti-A
xis
Ser
vo D
rive
size
1
Figure B.2 Multi-Axis Servo Drive System with Power Supply Unit size 5
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 77
Overview
In the case of a Power Supply Unit size 6A and a Multi-Axis Servo Drive size 6, DC terminal X12/ZK must be used for the Power Supply Unit. This is not internally protected, and permits higher power outputs.
Lower-power Multi-Axis Servo Drive (size 5 or smaller) should be connected to DC terminal X11.
+ –ZK
+ –ZK
X12
+L3L2L1PE – -RBZK
+
+ –ZK
+–
+–+
–
Power Supply Unitsize 6A
Mul
ti-A
xis
Ser
vo D
rive
size
5
Mul
ti-A
xis
Ser
vo D
rive
size
4
Mul
ti-A
xis
Ser
vo D
rive
size
3
Multi-Axis Servo Drive size 6A
Figure B.4 Multi-Axis Servo Drive System with Power Supply Unit size 6A and Multi-Axis Servo Drive size 6
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog
Index
Symbole2004/108/EC .............................................................................................................. 102006/95/EC ................................................................................................................ 10
AAmbient conditions .................................................................................................... 70Ambient temperature ................................................................................................. 71ANSI Z 535 ................................................................................................................. 10
BBraking resistor ........................................................................................................... 47
CCabinet design ........................................................................................................... 14Cable laying ................................................................................................................ 26Circuit-breaker ............................................................................................................ 73Climatic conditions ..................................................................................................... 70Condensation ............................................................................................................. 71Connection diagram
Size 5 .................................................................................................................... 30Size 6A.................................................................................................................. 32
Control connections X4 ............................................................................................. 44Control supply
Size 5 and size 6A ................................................................................................. 36Cooling
Liquid cooling ....................................................................................................... 70
DDC power supply
Size 5 X11 ............................................................................................................. 41Size 6A X11 ........................................................................................................... 42Size 6A X12 ........................................................................................................... 41
Dimensional drawingsInput choke with membrane capacitor .................................................................. 23Mains filter ............................................................................................................ 24Power Supply Unit Air-cooled housing ................................................................................................ 17Power Supply Unit Liquid-cooled housing ........................................................................................... 19Step-up choke ....................................................................................................... 22
DIN EN 954-1 ............................................................................................................. 11DIN VDE 0100 .............................................................................................................. 9
EEarthing ...................................................................................................................... 26Effective EMC installation ..................................................................................... 14, 25Electrical isolation method .......................................................................................... 35EN 50178 .................................................................................................................... 37EN ISO 12100.............................................................................................................. 11EN ISO 13849-1 .......................................................................................................... 11EN ISO 13849-2 .......................................................................................................... 71EtherCAT .................................................................................................................... 47Ethernet port X3 ......................................................................................................... 47
FFirmware .................................................................................................................... 53
HHelpline/Service .......................................................................................................... 65How to use this Manual ................................................................................................ 3Hydrological data of liquid cooling .............................................................................. 70
78
Index
Mains fuse .................................................................................................................. 73Mains precharge
Size 5 and size 6A ................................................................................................. 37Mains synchronisation
Size 5 and size 6A ................................................................................................. 37Mechanical conditions ................................................................................................ 71Mounting pitch
Power Supply Unit Air-cooled housing ................................................................................................ 17Power Supply Unit Liquid-cooled housing ........................................................................................... 19
OOption 1 ..................................................................................................................... 47Order code ................................................................................................................... 4Overview of connections
Size 5 and size 6A ................................................................................................. 29
PParameter setting ....................................................................................................... 51PE conductor .............................................................................................................. 33Pictograms .................................................................................................................... 5Pollution severity......................................................................................................... 70Precharging
Size 5 and size 6A ................................................................................................. 37
QQuick start .................................................................................................................... 3
RReady made-up cables ................................................................................................ 69Residual current operated device (RCD) ....................................................................... 39Responsibility .............................................................................................................. 11
IIEC 364 ........................................................................................................................ 9IEC 60755 ................................................................................................................... 39IEC/EN 60079-0.......................................................................................................... 10IEC/EN 60079-1 .......................................................................................................... 10IEC/EN 60204 ............................................................................................................. 10IEC/EN 60204-1 .......................................................................................................... 11IEC/EN 60664-1 ............................................................................................... 13, 51, 74IEC/EN 60721-2-2 ....................................................................................................... 71IEC/EN 60721-3-1 ....................................................................................................... 71IEC/EN 60721-3-2 ....................................................................................................... 71IEC/EN 60721-3-3 ....................................................................................................... 71IEC/EN 61000-2-4 ....................................................................................................... 40IEC/EN 61800-2 .......................................................................................................... 71IEC/EN 61800-3 .......................................................................................................... 14IEC/EN 61800-5-1 ..................................................................................... 10, 33, 37, 40IEC/EN 61800-5-2 ....................................................................................................... 64Initial commissioning .................................................................................................. 51Input choke
Connections .......................................................................................................... 49Dimensions ........................................................................................................... 23Technical data ....................................................................................................... 72
Intended use ............................................................................................................... 10
LLiquid cooling ............................................................................................................. 70
MMains connection conditions
Size 5 and size 6A ................................................................................................. 39Mains contactor .......................................................................................................... 73Mains filter
Connections .......................................................................................................... 50Dimensions ........................................................................................................... 24Technical data ....................................................................................................... 73
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 79
Index
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog
SSafety ........................................................................................................................... 9Save setting ................................................................................................................ 54Service/Helpline .......................................................................................................... 65Shielding..................................................................................................................... 27Step-up choke
Connections .......................................................................................................... 48Dimensions ........................................................................................................... 22Technical data ....................................................................................................... 72
TTechnical data
Circuit-breaker ...................................................................................................... 73Input choke ........................................................................................................... 72Mains contactor .................................................................................................... 73Mains filter ............................................................................................................ 73Mains fuse ............................................................................................................ 73Size 5 .................................................................................................................... 66Size 6A.................................................................................................................. 67Step-up choke ....................................................................................................... 72
UUsage contrary to intended use .................................................................................. 10USB port X2 ............................................................................................................... 47
XX2 .............................................................................................................................. 47X3 .............................................................................................................................. 47X4 ............................................................................................................................. 44X9 .............................................................................................................................. 36X10 ............................................................................................................................. 36X11 ........................................................................................................... 33, 34, 41, 42X21 ............................................................................................................................ 37
80
Index
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 81
Programmable Multi-Axis Servo Drive Power Supply Unit Operation ManualID no.: CA97556-001 Date: 03/2015moog 82
Technical alterations reserved.
The contents of our documentation have been compiled with greatest care and in compliance with our present status of information.
Nevertheless we would like to point out that this document cannot always be updated parallel to the technical further development of our products.
Information and specifications may be changed at any time. For information on the latest version please refer to drives-support@moog.com.
ID no.: CA97556-001, Rev. 2.0
Date: 04/2015
Applicable as from firmware version: V220.13-01
The German version is the original of this Operation Manual.
TAKE A CLOSER LOOK.
Moog solutions are only a click away. Visit our worldwide Web site for more information and the Moog facility nearest you.
Australia +61 3 9561 6044 info.australia@moog.com Brazil +55 11 3572 0400 info.brazil@moog.com Canada +1 716 652 2000 info.canada@moog.com China +86 21 2893 1600 info.china@moog.com Finland +358 10 422 1840 info.finland@moog.com France +33 1 4560 7000 info.france@moog.com Germany +49 7031 622 0 info.germany@moog.com Hong Kong +852 2 635 3200 info.hongkong@moog.com India +91 80 4057 6666 info.india@moog.com Ireland +353 21 451 9000 info.ireland@moog.com Italy +39 0332 421 111 info.italy@moog.com Japan +81 46 355 3767 info.japan@moog.com Korea +82 31 764 6711 info.korea@moog.com Luxembourg +352 40 46 401 info.luxembourg@moog.com Netherlands +31 252 462 000 info.thenetherlands@moog.com Norway +47 6494 1948 info.norway@moog.com Russia +7 8 31 713 1811 info.russia@moog.com Singapore +65 677 36238 info.singapore@moog.com South Africa +27 12 653 6768 info.southafrica@moog.com Spain +34 902 133 240 info.spain@moog.com Turkey +90 216 663 6020 info.turkey@moog.com United Kingdom +44 (0) 1684 858000 info.uk@moog.com USA +1 716 652 2000 info.usa@moog.com
moog Moog GmbH Hanns-Klemm-Straße 28 D-71034 Böblingen Phone +49 7031 622 0 Telefax +49 7031 622 100
www.moog.com/industrial drives-support@moog.com
Moog is a registered trademark of Moog, Inc. and its subsidiaries. All quoted trademarks are property of Moog, Inc. and its subsidiaries. All rights reserved. © 2015 Moog GmbH
top related