Parker Products Power Supply ViX250AE User Manual

ViX250AE  
ViX500AE  
Servo Drives  
User Guide  
Part No: 1600.313.02 August, 2003 (For software revision 2.0 onwards)  
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IMPORTANT INFORMATION FOR USERS  
Installation and Operation of Motion Control Equipment  
It is important that motion control equipment is installed and operated in such a way that all applicable safety  
requirements are met. It is your responsibility as an installer to ensure that you identify the relevant safety  
standards and comply with them; failure to do so may result in damage to equipment and personal injury. In  
particular, you should study the contents of this user guide carefully before installing or operating the  
equipment.  
The installation, set-up, test and maintenance procedures given in this User Guide should only be carried  
out by competent personnel trained in the installation of electronic equipment. Such personnel should be  
aware of the potential electrical and mechanical hazards associated with mains-powered motion control  
equipment - please see the safety warning below. The individual or group having overall responsibility for  
this equipment must ensure that operators are adequately trained.  
Under no circumstances will the suppliers of the equipment be liable for any incidental, consequential or  
special damages of any kind whatsoever, including but not limited to lost profits arising from or in any way  
connected with the use of the equipment or this user guide.  
SAFETY WARNING  
High-performance motion control equipment is capable of producing rapid movement and very high forces.  
Unexpected motion may occur especially during the development of controller programs. KEEP WELL  
CLEAR of any machinery driven by stepper or servo motors. Never touch any part of the equipment while it  
is in operation.  
This product is sold as a motion control component to be installed in a complete system using good  
engineering practice. Care must be taken to ensure that the product is installed and used in a safe manner  
according to local safety laws and regulations. In particular, the product must be enclosed such that no part  
is accessible while power may be applied.  
This and other information from Parker-Hannifin Corporation, its subsidiaries and authorised distributors  
provides product or system options for further investigation by users having technical expertise. Before you  
select or use any product or system, it is important that you analyse all aspects of your application and  
review the information concerning the product in the current product catalogue. The user, through its own  
analysis and testing, is solely responsible for making the final selection of the system and components and  
assuring that all performance, safety and warning requirements of the application are met.  
If the equipment is used in any manner that does not conform to the instructions given in this user guide,  
then the protection provided by the equipment may be impaired.  
The information in this user guide, including any apparatus, methods, techniques, and concepts described  
herein, are the proprietary property of Parker Electromechanical Division or its licensors, and may not be  
copied, disclosed, or used for any purpose not expressly authorised by the owner thereof.  
Since Parker Electromechanical constantly strives to improve all of its products, we reserve the right to  
modify equipment and user guides without prior notice. No part of this user guide may be reproduced in any  
form without the prior consent of Parker Electromechanical Division.  
© Electromechanical Division of Parker Hannifin plc, 2003  
– All Rights Reserved –  
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Product Type:  
ViX250AE, ViX500AE  
The above product is in compliance with the requirements of directives  
73/23/EEC  
93/68/EEC  
89/336/EEC  
Low Voltage Directive  
CE Marking Directive  
Electromagnetic Compatibility Directive  
Provided the installation requirements described in this user guide are met, and there are no special requirements of  
the installation and operating environment so that the application may be considered typical, the ViX servo drive series  
installation will conform to the protection requirements of Council Directive 89/336/EEC as amended by Directive  
92/31/EEC on the approximation of the laws of the Member States relating to Electromagnetic Compatibility when  
operated and maintained as intended.  
In assessing the overall compliance of an installation consideration must also be given to the effects of mains  
harmonics and flicker when interfacing the total supply system to the public low voltage supply system.  
In accordance with IEC 61800-3:1997 (Adjustable speed electrical power drive systems) this product is of the  
restricted sales distribution class which meets the needs of an industrial environment when installed as directed.  
However, further measures may need to be taken for use of the product in a domestic environment.  
Compliance is demonstrated by the application of the following standards:  
BS EN 61800-3  
(1997) including  
Amendment A11  
Adjustable speed electrical power drive systems  
Part 3. EMC product standard including specific test methods  
BS EN 61000-6-2  
(2001)  
Electromagnetic compatibility – Part 6-2: Generic standards  
Immunity for industrial environments  
BS EN 61000-6-4  
(2001)  
Electromagnetic compatibility – Part 6-4: Generic standards –  
Emission standard for industrial environments  
BS EN 61010-1  
(1993) including  
Amendment A2  
Safety requirements for electrical equipment for measurement,  
control, and laboratory use. Part 1. General requirements  
WARNING – Risk of damage and/or personal injury  
The ViX drives described in this user guide contain no user-serviceable parts.  
Attempting to open the case of any unit, or to replace any internal component, may  
result in damage to the unit and/or personal injury. This may also void the  
warranty.  
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Contact Addresses  
For engineering  
assistance in Europe:  
Parker Hannifin plc  
For engineering  
assistance in Germany  
Parker Hannifin GmbH  
Electromechanical  
Electromechanical  
Automation  
Automation  
21 Balena Close  
Poole, Dorset  
P. O. Box: 77607-1720  
Robert-Bosch-Str. 22  
England, BH17 7DX  
D-77656 Offenburg, Germany  
Tel: +49 (0)781 509-0  
Fax: +49 (0)781 509-176  
Website: www.parker-eme.com  
Tel: +44 (0)1202-699000  
Fax: +44 (0)1202-695750  
Website: www.parker-eme.com  
For engineering  
For engineering  
assistance in Italy  
Parker Hannifin SpA  
Electromechanical Automation  
20092 Cinisello Balsamo  
Milan,  
assistance in the U.S.:  
Parker Hannifin Corporation  
Electromechanical Automation  
5500 Business Park Drive, Suite D  
Rohnert Park  
Italy Via Gounod, 1  
CA 94928  
USA  
Tel: +39 02 6601 2478  
Fax: +39 02 6601 2808  
Tel: (800) 358-9070  
Fax: (707) 584-3793  
FaxBack System: (800) 936-6939  
e-mail: emn_support@parker.com  
Website: www.parkermotion.com  
Website: www.parker-eme.com  
Symbols used, have the following meanings:  
Caution -  
Refer to the  
accompanying documentation  
Protective conductor terminal  
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CONTENTS  
i
Contents  
1. Introduction.............................................................................................................1  
2. Mechanical Installation...........................................................................................5  
3. Electrical Installation...............................................................................................9  
4. Control of ViX Drives..............................................................................................51  
5. EASI-V Software ....................................................................................................71  
6. Command Reference .............................................................................................87  
7. ViX Maintenance and Troubleshooting ..................................................................107  
8. Hardware Reference ..............................................................................................113  
Appendix A..................................................................................................................117  
Appendix B..................................................................................................................119  
Index............................................................................................................................123  
The ViX250AE/500AE Intelligent Digital Servo Drive is UL-Recognised under file  
E194158. This means it may be incorporated into end-user products that may be eligible  
for UL Listing, Classification or Certification.  
User Guide Issue Change Summary  
This user guide, version 1600.313.02, is the second version of the ViX250AE/ViX500AE  
Digital Servo Drive.  
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ii  
VIX AE SERVO DRIVE USER GUIDE  
Latest Changes Sheet  
This page lists important changes occurring immediately before publication or between  
issue updates:  
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1. INTRODUCTION  
1
1. Introduction  
Product Description  
Available in two power ranges, these digital servos use field-oriented control technology to  
give enhanced dynamic performance with improved efficiency. Housed within an extremely  
compact case, the drives are suitable for either direct panel or DIN rail mounting.  
Using full PWM control with sinusoidal commutation, the two versions of power stage can  
have continuous current ratings of 2.5A and 5A at motor bus voltages up to 80V. Having a  
choice of resolver or encoder feedback, the drives may be used with a wide range of  
3-phase servo motors of different pole counts.  
Figure 1-1. ViX250/ViX500 Digital Servo Drive  
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2
VIX AE SERVO DRIVE USER GUIDE  
Product Variants  
Digital servo drives are available in two power versions, with resolver or encoder feedback.  
Table 1-1 lists the possible combinations:  
Product Code  
ViX250AE  
Description  
250VA Servo with encoder/resolver feedback  
500VA Servo with encoder/resolver feedback  
ViX500AE  
Table 1-1. ViX250/ViX500 Digital Servo Drive Options  
Product Features  
Protection Circuits  
Motor short circuits  
Over-voltage  
Function Indicators  
Drive Status/Feedback Fault (HV/FB)  
Drive Fault (DF)  
Under-voltage  
Drive/motor Over-temperature  
24V reverse supply protection  
Commutation encoder fault  
Resolver fault  
2
I t protection  
Outputs and Inputs  
1 Brake input  
1 Brake output  
1 Analogue monitor output  
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1. INTRODUCTION  
3
Fit Kits  
Two fit kits are available for ViX drives:  
1. VIX-KIT required if you do not purchase motor cables  
2. VIX-KIT-NFB required if you do purchase motor cables  
VIX-KIT  
VIX-KIT-NFB  
Part Number Quantity Description  
Part Number Quantity Description  
1650.937.01  
1
Information  
sheet  
1650.937.01  
1
Information  
sheet  
5004.023  
5006.211  
0405.811  
1
1
1
plastic bag  
Product label  
10-way Flange  
plug strip  
5004.023  
5006.211  
0405.811  
1
1
1
plastic bag  
Product label  
10-way  
Flange plug  
strip  
0405.961  
0405.962  
0405.963  
0409.530  
0313.020  
4005.218  
4216.101  
4216.102  
4216.103  
1
2
1
4
1
1
1
1
1
9-way D-type  
plug  
0405.961  
0405.962  
0405.963  
0409.530  
1
1
1
3
9-way D-type  
plug  
15-way HD  
D-type plug  
15-way HD  
D-type socket  
9-way D-type  
cover  
H8FE1115NC  
ferrite sleeve  
3:1 heatshrink  
19mm diam.  
Closed P-clip  
9mm ID  
15-way HD  
D-type plug  
15-way HD  
D-type socket  
9-way D-type  
cover  
Closed P-clip  
10.7mm ID  
Closed P-clip  
12.3mm ID  
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4
VIX AE SERVO DRIVE USER GUIDE  
Further Information  
This user guide contains all the necessary information for the effective use of this drive.  
However, to gain a more in-depth understanding of drive applications and motion control,  
consider attending one of our world-wide Customer Specific Training Workshops.  
Examples of previous courses that have proved to be of benefit include:  
Use and programming of the DIN rail H & L series drives  
PDFX training  
Using the 6K controller  
EASI Tools programming  
Mechanical product training for ET/ER, XR and HPLA  
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2. MECHANICAL INSTALLATION  
5
2. Mechanical Installation  
Installation Requirements  
Environment  
ViX drives operate in a temperature range of 0° to 40°C with natural convection, or 50°C  
Max with forced-air cooling (see Hardware Reference), at normal levels of humidity (5-95%  
non-condensing). The drives can tolerate atmospheric pollution degree 2, which means only  
dry, non-conductive pollution is acceptable.  
Drive Cooling  
Cooling of all drive types is by natural convection up to 40°C. To assist cooling, drives  
should be installed vertically in an area where there is at least a 50mm (minimum) air gap  
above and below the package and a 10mm (minimum) gap either side. Avoid mounting  
heat-producing equipment directly below a drive.  
Installers must ensure that the air temperature entering the drive or rising up to the drive is  
within the ambient temperature restrictions. Under normal use the air temperature leaving  
the drive and heatsink may be 25°C above ambient.  
In the final installation, check that the ambient temperature specification of 40°C Max  
(without forced air cooling) is not exceeded directly below the top-most drives and that any  
circulating air flow is not being blocked from reaching the drives. For cabinet cooling  
calculations, allow 20W per drive.  
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6
VIX AE SERVO DRIVE USER GUIDE  
Drive Dimensions  
ViX250 and ViX500 drives share the same dimensions, shown in Figure 2-1.  
98.5 (with connector)  
3
21  
HVSTFB  
X1  
X3  
X4  
X2  
X5  
88,1  
4,5  
42  
Figure 2-1. ViX250 & ViX500 Dimensions  
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2. MECHANICAL INSTALLATION  
7
Drive Mounting Options  
If you require a DIN-Rail mounting ViX drive use the DIN-Rail clip adapter bracket shown in  
Figure 2-2.  
16mm  
Viewed from the back  
of the DIN rail  
Allow 10mm  
for release  
Figure 2-2. DIN-Rail Adapter Bracket  
Remove the panel mounting plate from the back of the drive and attach the bracket to the  
back of the drive using the screws provided. The drive and bracket can now be fixed to a  
DIN rail by hooking the top of the bracket over the top of the DIN rail and gently pushing the  
drive forward to engage the lower section of the bracket. Remove the bracket by inserting a  
flat bladed screwdriver into the release slot to pull down the bottom of the bracket, releasing  
it from the DIN rail.  
Thermal Limitations  
If you are using DIN rail mounting with natural convection airflow cooling and the drive is  
working under continuous load, the maximum continuous output torque should be de-rated  
by 10%. For example, using the drive for reel tensioning rather than point-to-point  
applications may require torque de-rating when using DIN rail mounting.  
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8
VIX AE SERVO DRIVE USER GUIDE  
Motor Mounting Mechanical Considerations  
Keep motors securely fixed in position at all times. Do not test a motor/drive combination  
without first securing the motor see the Safety Warning at the front of this user guide.  
CAUTION – risk of equipment damage  
Do not back drive the motor, that is use the motor in an application that causes  
mechanical rotation of the motor shaft in a manner uncontrolled by the drive.  
Back driving the motor at high speed may damage the drive.  
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3. ELECTRICAL INSTALLATION  
9
3. Electrical Installation  
Installation Safety Requirements  
ViX drives meet the requirements of both the European LVD & EMC directives when  
installed according to the instructions given within this section. It is recommended the drive  
be installed in an enclosure to protect it from atmospheric contaminants and to prevent  
operator access while it has power applied. Metal equipment cabinets are ideally suited for  
housing the equipment since they can provide operator protection, EMC screening, and can  
be fitted with interlocks arranged to remove all hazardous motor and drive power when the  
cabinet door is opened. Do not arrange interlocks to open circuit the motor phase  
connections while the system is still powered, as this could cause damage to the drive.  
Precautions  
During installation, take the normal precautions against damage caused by electrostatic  
discharges. Wear earth wrist straps. A switch or circuit breaker must be included in the  
installation, which must be clearly marked as the disconnecting device and should be within  
easy reach of the machine operator.  
Cabinet Installation  
To produce an EMC and LVD compliant installation we recommend that drives are mounted  
within a steel equipment cabinet. This form of enclosure is not essential to achieving EMC  
compliance, but does offer the benefits of operator protection and reduces the contamination  
of the equipment from industrial processes.  
A steel equipment cabinet will screen radiated emissions provided all panels are bonded to a  
central earth point. Separate earth circuits are commonly used within equipment cabinets to  
minimise the interaction between independent circuits. A circuit switching large currents and  
sharing a common earth return with another low level signal circuit could conduct electrical  
noise into the low level circuit, thereby possibly interfering with its operation. For this reason  
so called dirty earthand clean earthcircuits may be formed within the same cabinet, but all  
such circuits will eventually need to be returned to the cabinets main star earth point.  
Mount the individual drives and EMC filter on a metal earth plane. The earth plane will have  
its own individual star point earth which should be hard wired (using an insulated copper  
conductor) back to the cabinets clean earthconnection point.  
LVD - Low voltage directive  
EMC Electro Magnetic Compatibility directive  
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10 VIX AE SERVO DRIVE USER GUIDE  
Power Supply Connections  
Power drives from a DC supply derived from an isolating transformer or a DC power supply  
(See Power Supply Options later in this section).  
Note: Pin 10 is at the top of the connector X1 and pin 1 at the bottom.  
Power & motor X1  
10-way  
connector  
+HV  
10  
9
-HV  
8
PE  
+24V  
7
0V (GND 24v DC)  
6
5
4
3
2
1
MOTOR  
CONNECTIONS  
Figure 3-1. X1 Power Connections  
WARNING – Possible drive damage  
If you use Parker XL Series stepper drives do not attempt to use any power wiring  
harness taken from an XL drive. Although the same mating connector is used for  
both an XL and a ViX, the ViX wiring is the reverse of the XL and the wrong wiring  
connection will damage the drive.  
Mating connector type is: Wieland type number 8213B/ . This connector is available in two  
forms:  
1. Part number 25.323.4053.0 (Parker part number 0405.811)  
2. UL marked version with part number 25.323.1053.0  
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3. ELECTRICAL INSTALLATION 11  
Supply Requirements  
Power the ViX drives from DC supplies as specified below:  
Volts  
Drive Type  
DC Supply Voltage  
between DC+ and DC-  
48V to 80V (recommended)  
24V to 80V  
ViX500  
ViX250  
Table 3-1. Drive Supply Voltages  
WARNING  
The drive HV supply input is not reverse polarity protected.  
Reverse polarity connections will damage the drive.  
Current and Capacitance  
A supply must have a minimum amount of capacitance to support a drive at peak power  
draw.  
Drive Type  
ViX500  
DC Supply Current  
6.3A RMS  
2.5A RMS  
Supply Capacitance  
6600µF  
3300µF  
ViX250  
Table 3-2. Drive Supply Currents  
+24V Requirements  
Both drive types require a +24V controller and logic supply. The supply to each drive should  
be fitted with a time-delay fuse, rated at 3A. Note: The +24V supply used must meet the  
voltage requirement specification of +24V DC +10% -15%, ripple <1V p-p.  
The supply may also be required for an encoder and motor brake.  
Absolute voltage range  
Nominal drive current  
Extra encoder current  
Extra brake current  
20 to 27V  
250mA (excluding encoder & brake)  
150mA  
500mA  
Safety Earth Requirements  
Earth the drive using the earth pin on X1 (pin 8). Also earth the power 0V connector on  
pin 9.  
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12 VIX AE SERVO DRIVE USER GUIDE  
Power Supply Options  
Using the previous section, estimate the power required for a single drive or for a group of  
drives. A set of torque curves (Figure 3-2) for various motor/drive combinations can be used  
for calculating an applications likely power requirements.  
A single axis using a ViX250, or possibly a lightly loaded dual-axis application may be  
powered using an XL-PSU. This switching supply has a power rating of 250W and can  
supply 3.1A continuous (7.5A peak, depending on supply volts and 24V loading) which could  
be used for BE230D medium speed applications.  
Higher torque/current requirements will need to use the ViX500 drive and a high current  
linear power supply, such as the PL1100. Further power supply information is given in  
Appendix A.  
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3. ELECTRICAL INSTALLATION 13  
Nm  
1.5  
Nm  
1.5  
ViX250 with BE230D motor  
ViX500 with BE163F motor  
1.0  
1.0  
PEAK  
PEAK  
0.5  
0
0.5  
CONT.  
CONT.  
0
0
1000 1500 2000 2500 3000 3500 4000 4500  
0
1000 2000 3000 4000 5000 6000 7000  
rpm  
rpm  
Nm  
Nm  
ViX500 with BE231G motor  
ViX500 with BE341G motor  
2.5  
5.0  
4.0  
3.0  
2.0  
2.0  
1.5  
1.0  
PEAK  
PEAK  
0.5  
0
1.0  
0
CONT.  
CONT.  
1000  
0
1000 2000 3000 4000 5000 6000  
0
1500  
2000  
2500  
rpm  
rpm  
Nm  
6
Nm  
4
ViX500 with SMB82-25 motor*  
ViX500 with SMB60-30 motor*  
5
4
3
2
PEAK  
3
2
PEAK  
1
0
CONT.  
CONT.  
1
0
0
500 1000 1500 2000 2500 3000 3500  
0
1000  
2000  
3000  
rpm  
4000  
5000  
rpm  
Figure 3-2. Motor Torque/Speed Characteristics  
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14 VIX AE SERVO DRIVE USER GUIDE  
XL-PSU Power Supply  
The XL-PSU is a 250W, power factor corrected, switched mode power supply. Designed for  
direct operation from world wide single phase AC input voltages, the supply is capable of  
powering up to two ViX250 drives (see note 1) without the need for an EMC mains input filter  
(see note 2). The use of the XL-PSU offers the following benefits:  
Auto-adapts to supplies between 95 and 264V AC  
No external EMC filter required  
Compact size  
Built-in power dump switch  
Built-in +24V DC supply  
Note 1: Check the applications power requirements from the torque/speed curve of the  
motor used.  
Note 2: For drives with up to 30 metre motor leads.  
For full installation instructions see the XL Power Supply leaflet 1600.300.XX.  
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3. ELECTRICAL INSTALLATION 15  
XL-PSU Supply/Drive Connections  
When used to supply up to two drives the power supply can be wired as shown in Figure 3-3.  
Mininum spacing  
between drives & PSU  
10 mm  
HV STFB  
X1  
1
10  
+DC (80V)  
X3  
-DC  
EXT. BRAKING RES.  
If the supply is positioned  
this side of the drive  
avoid blocking access to  
D-type X3  
+24V  
X4  
X5  
GND  
10  
1
P1  
P2 mating socket  
MAINS  
INPUT  
N
X2  
L
The XL_PSU must  
be securely earthed  
110V-230V~  
50/60 Hz  
250VA  
P2  
L N  
EARTH (GND.)  
XL  
Power  
Supply  
Unit  
HV STATUS  
BRAKING RES.  
24V STATUS  
Figure 3-3. XL Power Supply and Drive Connections  
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16 VIX AE SERVO DRIVE USER GUIDE  
XL-PSU Mounting Information  
Mount the supply vertically, near the drives it will supply. Both the top 4.5mm diameter fixing  
hole and the bottom two 4.5mm width fixing slots should be used.  
Allow a minimum free space of 50mm both below and above its case and 10mm free space  
on both sides.  
Do not mount the supply above or close to other products that generate a significant amount  
of heat by radiation or convection.  
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3. ELECTRICAL INSTALLATION 17  
PL1100 Power Supply  
General Description  
The PL1100 is a linear power supply with a rated output of 1120W (80V/14A) for use with  
ViX and XL series drives. The supply requires a suitably rated transformer supplying 50V  
AC RMS for the HV and 20V AC RMS for the +24V DC. The use of the PL1100 offers the  
following benefits:  
Provides 80V HV and +24V DC output  
Single or three phase operation  
Built-in power dump switch  
Integral fusing  
Figure 3-4 shows the PL1100 output wiring for two ViX drives. This illustrates how to route  
the main HV supply separately to each drive. The lower current requirements of the +24V  
logic/brake supply can allow the wiring to be linked between drives.  
For full installation instructions see the PL1100 Power Supply leaflet 1600.323.XX.  
In Figure 3-4 the drives are wired individually to the PL1100, alternative daisy chain wiring  
can be used.  
HV STFB  
X3  
HV STFB  
X3  
+24V  
HV  
X1  
10  
X1  
10  
CAUTION  
Risk of electric shock.  
High voltage remains on terminals  
after power is removed.  
Allow 5 minutes for capacitors  
to discharge.  
REGEN  
X1  
MOTOR HV OUT  
MOTOR 0V.  
EXT. BRAKING RES.  
PE  
X4  
X5  
X4  
X5  
+24V DC OUT  
1
1
0V  
20V AC IN  
20V AC IN  
PL1100  
Power Supply  
L3  
LINK  
FOR  
X2  
X2  
SINGLE  
55V  
AC IN  
1/3 PH.  
PHASE  
L2  
L1  
X2  
10 mm MIN  
Figure 3-4. PL1100 Power Supply and Drive Connections  
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18 VIX AE SERVO DRIVE USER GUIDE  
PL1100 EMC Installation Guidelines  
These EMC installation recommendations are based on the expertise acquired during the  
development of compliant applications, which Parker believes are typical of the way, a  
PL1100 may be used. Provided you have no special installation requirements or untypical  
operating environment requirements, PL1100 power supplies will conform to current EMC  
Directives.  
If you are using the recommended transformers (TO255 & TO256) both primaries can be fed  
from a single EMC filter. Use a CORCOM 12FC10 or its equivalent. See Figure 3-5.  
Mount the supply on a conductive panel to which the EMC filter and the drive(s) are also  
attached. If the panel has a paint finish, it will be necessary to remove the paint in certain  
areas to ensure the filter and supply, make a good large-area metal to metal contact with the  
panel.  
Position the PL1100 as close as possible to the drives it is to supply (less than one metre).  
Ideally, the EMC filter needs to be close to the transformers, which in turn, should be as  
close to the PL1100 as can be arranged. Assuming the use of an equipment cabinet, locate  
the EMC filter and transformers in the base of the cabinet and route AC supply cables up to  
the PL1100. Attempt to layout the wiring in a way that minimises cross coupling between  
filtered and non-filtered conductors. This means avoiding running wires from the output of a  
filter close to those connected to its input. Where you wish to minimise the cross coupling  
between wires avoid running them side-by-side one another, if they must cross, cross them  
at 90° to each other. Keep wiring supported and close to cabinet metalwork.  
HV Transformer Specification (TO255)  
Power rating  
Input voltage  
Output voltage  
Output current  
Regulation  
1000VA  
230V +15% -10%  
2 X 50V RMS full load voltage  
2 X 10A RMS  
3.5%  
Size  
162mm diameter, 70mm height  
Weight  
6.5Kg  
Mounting  
resin filled centre, drilled to accept an 8mm mounting screw.  
See note 1, over the page.  
Suitable Transformer (TO256)  
A +24V DC logic supply can use the TO256 120VA toroidal transformer, which has the  
following specification:  
Power rating  
Input voltage  
Output voltage  
Output current  
Regulation  
120VA  
230V +15% -10%  
2 X 18V RMS full load voltage  
2 X 3.3A RMS  
5.5%  
Size  
93mm diameter, 46mm height  
Weight  
1.2Kg  
Mounting  
resin filled centre, drilled to accept an 8mm mounting screw.  
See note 1, over the page.  
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3. ELECTRICAL INSTALLATION 19  
HV STFB  
X1  
HV  
+24V  
CAUTION  
Risk of electric shock.  
10  
X3  
High voltage remains on terminals  
after power is removed.  
REGEN  
Allow  
to discharge.  
5
minutes for capacitors  
X1  
CABINET  
BACK  
MOTOR HV OUT  
MOTOR 0V.  
PLANE  
X1  
X2  
EXT. BRAKING RES.  
PE  
X4  
+24V DC OUT  
1
To star earth point  
0V  
20V AC IN  
20V AC IN  
PL1100  
Power Supply  
X2  
L3  
LINK  
FOR  
X5  
SINGLE  
55V  
AC IN  
1/3 PH.  
PHASE  
L2  
L1  
X2  
TO256  
TO255  
Transformers  
12FC10  
To star earth point  
on the metal  
backplane  
AC Mains input  
Figure 3-5. Using a single EMC Filter for PL1100 Supplies  
Note 1: A Neoprene insulating disc is included with the mounting kit to prevent the crushing  
of transformer windings. This disc provides a 5kV isolation barrier between the transformer  
and mounting panel.  
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20 VIX AE SERVO DRIVE USER GUIDE  
SMB Motor Cables  
The following motor power and feedback cables are available for ViX drives:  
Power cable  
Feedback cable  
VIX-PWR-XXXX  
VIX-FDB-XXXX  
Table 3-3. Motor Power and Feedback Cables  
Where XXXX is the length of the cable in cm, up to a maximum length of 20 metres in 2.5  
metre increments. In the case of SMB motor cables the feedback cable can be used for  
resolver or encoder feedback.  
BE & SM Motor Cables  
When using BE- or SM-Series motors choose the appropriate connector option to ensure the  
temperature sensor output is made available on the required connector:  
BE-  
SM-  
nMSn  
nGSn  
Motor power cables are identified using the number 71-021125-XX, where XX is the length  
of the cable in feet, up to a maximum of 50ft (15.24m) in 5ft (1.524m) increments.  
The form of feedback cable used with both the BE- and SM- range will depend upon the type  
of feedback transducer:  
Resolver feedback  
Encoder feedback  
71-021123-XX  
71-021124-XX  
Once again XX defines the length in ft.  
Should you require a BE or SM servo motor with a mechanical brake, please contact  
Parker. See the front of this user guide for contact details.  
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3. ELECTRICAL INSTALLATION 21  
SMB Motor Connections at the Drive  
Standard motor power cables are prepared for connection at the drive end as shown in  
Figure 3-6.  
Stainless steel 'P' clip clamped firmly over  
folded back braiding (do not over-tighten)  
100  
40  
Fold braiding back over the cable's outer  
insulation  
30  
Heatshrink Sleeving  
Use relevant sleeving to suit cable diameter  
10  
3
4
5
50  
30  
Green/yellow  
Non-insulated  
boot-lace ferrules  
Idents 1-5 (to UL94 C0)  
All dimensions  
in millimetres  
Figure 3-6. Motor Power Cable, Drive End Preparation  
Note: The cable braiding is folded back over the outer insulation of the motor cable to give a  
larger diameter contact area and a mechanically strong fixing.  
If you have a ready made ViX-PWR-XXXX cable, use the pre-fitted P-clip otherwise use one  
of the clips listed below:  
Size  
9mm ID  
10.7mm ID  
12.3mm ID  
Parker part number  
4216.101  
4216.102  
4216.103  
Comments  
-
-
Supplied with standard  
cables  
Table 3-4. P Clip sizes  
Three different size Pclips allow the use of a variety of motor power cables from different  
manufactures.  
All motor connections must be made using a high quality braided-screen cable. Cables  
using a metallised plastic bandage for an earth screen are unsuitable and in fact provide  
very little screening. Care must be taken when terminating the cable screen, the screen  
itself is comparatively fragile; bending it round a tight radius can seriously affect the  
screening performance. The selected cable must have a temperature rating which is  
adequate for the expected operating temperature of the motor case.  
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22 VIX AE SERVO DRIVE USER GUIDE  
SMB Motor Connections at the Motor  
The motor power connections are made using a 6-way connector. Figure 3-7 shows the  
connector pin lettering and Table 3-5 gives the connectivity.  
View looking  
into the cable  
socket  
1
5
6
2
4
3
Figure 3-7. Motor Power Connector Pin Identification  
Drive end identity  
X1  
Motor connector  
pin number  
Function  
Phase U  
4 black  
1
2
6
4
5
3
3 black  
Phase V  
Phase W  
Brake+  
Brake-  
Gnd  
2 black  
7 black (via fuse)  
1 black  
5 green/yellow  
Table 3-5. Motor Power Cable Wiring  
Motor feedback connections are made using a 17-way connector. Figure 3-8 shows the  
connector pin lettering and Table 3-6 gives the connectivity.  
12  
1
11  
View looking  
into the cable  
socket  
10  
2
13  
14  
16  
15  
9
3
8
4
5
7
6
17  
Figure 3-8. Motor Feedback Connector Pin Identification  
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3. ELECTRICAL INSTALLATION 23  
15-way D-  
type pin  
reference  
X2  
Motor  
feedback  
connector  
pin  
Resolver  
Encoder  
1
2
15  
16  
7
Reserved  
Reserved  
0V  
Inc Enc Z+  
Inc Enc Z-  
0V  
3 (twin)  
4
14  
8
7
REFres+  
+5V output  
0V  
Reserved  
+5V output  
0V  
5 (twin)  
6
6
7
8
9
13  
1
2
Motor overtemp-  
SIN-  
SIN+  
Motor overtemp-  
Inc Enc A-  
Inc Enc A+  
Comm f-b A0  
4
Reserved  
10  
11  
12  
13  
14  
15  
9
Motor overtemp+ Motor Overtemp+  
12  
11  
5
6
17  
COS-  
Inc Enc B-  
COS+  
Inc Enc B+  
Comm f-b A1  
Comm f-b A2  
Reserved  
Reserved  
Reserved  
REFres-  
*Note: two wires are used for the +5V supply (X2 pin 5) and two wires are used for 0V  
returns (X2 pin 3), two wires are also taken from X2 pin 6.  
Table 3-6. Motor Feedback Cable Wiring  
The 15-way D-type connector will require the feedback cable screen to be bonded to the  
metal connector shell, as shown in Figure 3-9.  
RMI earth bonding required for both connectors  
Example 2  
Example 1  
braid  
ferrule  
cover  
cable  
Earth bonding area  
in cover  
Braid to be folded back over  
complete cable ferrule to make  
a 360° connection.  
Braid to be made into 3 round  
forms and wrapped a round the  
recess of cable ferrule to make  
a 360° connection.  
Figure 3-9. Screen Bonding Methods for D-type Connectors  
A ferrite absorber, with a specification matching that of the Chomerics H8FE-1115-NC, is  
also required to be positioned on the feedback cable using heat shrink sleeving. The  
position of the absorber should be within 150mm of the feedback connector, as shown in  
Figure 3-10.  
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24 VIX AE SERVO DRIVE USER GUIDE  
X1  
5
4
3
GND  
U
V
2
1
W
MAX  
150mm  
Figure 3-10. Position of absorbers & motor wiring details  
There must be no break in the 360° coverage that the screen provides around the cable  
conductors.  
Use of a through connector must retain the 360° coverage, possibly by the use of an  
additional metallic casing where it passes through the bulkhead of the enclosure. We  
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3. ELECTRICAL INSTALLATION 25  
recommend not to bond the cable screen to the cabinet at the point of entry. Its function is  
to return high-frequency chopping current back to the drive. This may require mounting the  
connector on a sub-panel insulated from the main cabinet, or using a connector having an  
insulated internal screen from the connector housing. Within the cabinet itself, all the motor  
cables should lie in the same trunking as far as possible. Keep the cables separate from any  
low-level control signal cables. This applies particularly where the control cables are  
unscreened and run close to the drive.  
Note: keep the motor cable routing within the equipment cabinet at least 300mm away from  
I/O cables carrying control signals.  
Motor Phase Contactors  
We recommend that motor phase contactors are not used within the motor power cables. As  
an alternative, make use of the drives power stage enablecontrol signal.  
Ferrite absorber specifications  
The absorbers described in these installation instructions use a low-grade ferrite material  
that has high losses at radio frequencies. They therefore act like a high impedance in this  
waveband. Produced by Parker Chomerics, the recommended component is suitable for use  
with cable having an outside diameter up to 10mm. The specification is as follows:  
Chomerics part number H8FE-1115-NC (Parker part number 0313.020)  
Outside diameter 17.5mm  
Inside diameter 10.7mm  
Length 28.5mm  
Impedance at 25MHz 80 ohm  
Impedance at 100MHz 120ohm  
Curie temperature 130°C (the device should not be operated near this temperature)  
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26 VIX AE SERVO DRIVE USER GUIDE  
Motor Selection and Set Up  
Generally, a servo motor is selected together with a drive based on the required  
speed/torque performance suitable for the intended application. The ViX product catalogue  
carries details of the performance of the drive when used with a range of recommended  
servo motor types.  
Performance of the ViX is optimised for the following motor types, listed in  
Table 3-7.  
Motor Type  
Motor Rated  
Current in  
Amps  
Motor  
Inductance in  
mH per phase  
ViX500  
ViX250  
BE231GX-XXXX  
BE341GX-XXXX  
BE341JX-XXXX  
SMB60 XX  
5.3  
5.2  
7.4  
6.7  
10.5  
4.4  
16.5  
7.1  
3.6  
3.4  
SMB82 XX  
Table 3-7. Optimum Motor Types  
Configuration information is available for each of the above motor types in the Guided servo  
initialisation part of EASI-V. If you wish to use a motor other than the types listed above,  
you will need to perform a custom set up. EASI-V allows the use of 55 custom motor types.  
Custom Motor Set Up  
Within screen 2 of Guided servo initialisation, clicking upon the Setup custom button will  
open the window shown in Figure 3-11.  
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3. ELECTRICAL INSTALLATION 27  
Figure 3-11. EASI-V Custom Motor Configuration Window  
Motor  
the general name/number for the motor.  
continuous current rating of the motor in Amps RMS.  
(0.1 to 14.4)  
Nominal  
current  
Number of  
poles  
number of motor poles for a rotary servo (2 pole/pairs = 4 motor poles,  
so enter 4).  
Resolution  
post quadrature resolution of a rotary servo. For a resolver use 4096.  
post quadrature is the number of encoder lines seenby the drive  
Note:  
electronics after the encoder signal has been processed.  
Rated speed shaft speed in rpm for a rotary servo.  
Resistance  
Inductance  
Inertia  
resistance of a single phase winding measured line-to-line in Ohms.  
inductance of a single phase winding measured line-to-line in mH.  
2
inertia of a rotary servo stator measured in Kgm .  
Kt  
torque constant of the motor (Torque/Current) measured in Nm/A peak.  
Damping  
viscous damping of the motor caused by such things as iron losses,  
measured in Nm/Krpm.  
Thermal time a constant that determines how slowly or quickly the motor temperature  
constant  
rises to its final steady-state value measured in seconds.  
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28 VIX AE SERVO DRIVE USER GUIDE  
The Optional Parameters Tab  
Selecting the optional parameters tab gives you access to the screen shown in Figure 3-12.  
Figure 3-12. EASI-V Custom Motor Optional Parameters  
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3. ELECTRICAL INSTALLATION 29  
Motor Related System Variables  
Two-system variables control the current supplied to the motor from the drive. Current  
Clamp (CL) limits the current output of the drive to protect low current motors or to set a  
particular torque level, and Peak Current (PC) can allow a controlled boost of motor current  
when required.  
CL can be set as a percentage (1 to 100%) of the peak drive current and once set drive  
output current cannot be exceeded using any other command or system variable.  
PC sets the scale factor (100 to 400%) that controls the ratio of maximum output current to  
continuous output current of the drive. Servo motors can be overdriven for short periods to  
provide extra torque. PC is calculated as follows:  
desired maximum drive current x 100  
motor continuous stall current  
PC =  
A value of 300% is typically used for boosting servo motor performance.  
Enter CL and PC values using EASI-V guided servo initialisation or directly, using the W  
command.  
Drive/Motor Overload  
2
The ViX drive uses an I t protection scheme that prevents excessive heat dissipation in the  
drive and motor. Protection operates by monitoring the level of three separate dissipation  
2
parameters and comparing them to their individual I t thresholds. These dissipation  
parameters are:  
2
Motor I T protects the motor from drive output current above the rated motor current  
that is applied for too long a time.  
2
Moving I T protects the drive from output current while moving, that is above the rated  
drive current for too long a time.  
2
Stationary I T protects the drive from output current while stationary, that is above the  
rated drive current for too long a time.  
2
If any one of these monitored parameters exceeds the set I t threshold, the drive current  
folds back to 80% of the normal running continuous limit. The status LED will continuously  
flash red and green and status bit 16 of the system variable ST will be set to 1. The drive  
output will remain at the 80% level for 30 seconds, after which the parameter that caused the  
2
I t threshold to be exceeded is re-tested. If the re-tested parameter has dropped in value by  
50% or greater of its original fault level, the drive output is returned to its normal current  
level. If the failing parameter is found to be still high (>50%) the drive output remains  
restricted to its 80% value and continuous checking of the parameter is carried out until the  
50% value is reached. When this happens, the drive returns to normal operation, the status  
LED stops flashing and ST bit 16 is reset.  
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30 VIX AE SERVO DRIVE USER GUIDE  
Control of I2t Parameters  
2
The drive internal I t parameters are always enabled and cannot be adjusted by the user.  
2
However, the motor I t settings can be influenced by the choice of parameters used for the  
2
MOTOR command. To disable the motor I t settings, set the thermal time constant of the  
motor to zero.  
Note: If you select a motor from the list of standard motorsusing EASI-V, worst case  
configuration data will be used. This prevents reporting a too optimistic view of the motors  
thermal performance.  
2
Where a motor is fitted with a temperature sensor built into its windings the motor I t  
threshold protection will not be required. In this case, set the thermal time constant of the  
motor to zero (see MOTOR command).  
Motor Voltage Ratings  
Motors with a withstand voltage rating from phase to earth of 1000V AC should be used. An  
insulation withstand rating of 500V AC is acceptable if an isolating transformer with earthed  
screen is used to power the system, and X1 pin9 (0V/GND) input is earthed, as specified.  
Motor Safety Earth/Ground Connection  
It is recommended that the motor is independently bonded to a local safety earth point. The  
2
safety earth lead should be at least 2.5mm in area.  
Short Circuit Protection  
The motor outputs are protected against overload and short circuits. Overload is protected  
2
by the I t circuit, and 300% of continuous drive current rating is only permitted for 2 seconds.  
A current level just above rated current is only permitted for a maximum of 20 seconds.  
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3. ELECTRICAL INSTALLATION 31  
Plots of I2t Against Drive Current  
2
The following graphs plot drive current against I t time in seconds for a moving and  
stationary motor for both power versions of the drive.  
ViX250 I2t function - moving  
10  
9
8
7
6
5
4
3
2
1
0
0
3
6
9
2
4
5
7
8
10 11 12 13 14 15 16 17 18 19  
20  
1
Time to trip I2t circuit in seconds  
2
Figure 3-13.ViX250 I t function - moving  
2
ViX250 I t function - stationary  
10  
9
8
7
6
5
4
3
2
1
0
3
0
.6  
1.8 2 2.2 2.4 2.6 2.8  
3.2 3.4 3.6 3.8  
4
.4  
.8  
1
1.4 1.6  
1.2  
.2  
2
Time to trip I t circuit in seconds  
2
Figure 3-14.ViX250 I t function - stationary  
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32 VIX AE SERVO DRIVE USER GUIDE  
2
ViX500 I t function - moving  
20  
18  
16  
14  
12  
10  
8
6
4
2
0
0
3
6
9
2
4
5
7
8
10 11 12 13 14 15 16 17 18 19  
20  
1
2
Time to trip I t circuit in seconds  
2
Figure 3-15.ViX500 I t function - moving  
2
ViX500 I t function - stationary  
20  
18  
16  
14  
12  
10  
8
6
4
2
0
3
0
.6  
1.8 2 2.2 2.4 2.6 2.8  
3.2 3.4 3.6 3.8  
4
.4  
.8  
1
1.4 1.6  
1.2  
.2  
2
Time to trip I t circuit in seconds  
2
Figure 3-16.ViX500 I t function - stationary  
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3. ELECTRICAL INSTALLATION 33  
A range of  
mating connectors  
are supplied, depending  
upon the type of fit-kit  
ordered.  
Power & Motor  
Communications  
X1  
Function  
X3  
24-80V DC  
0V / GND  
Earth  
10  
9
8
7
6
5
4
3
2
Reserved  
1
2
3
4
5
6
7
8
9
Drive reset  
RS232 GND  
RS232 Rx  
RS232 Tx  
Reserved  
RS232 Tx (D loop)  
do not connect  
+5V output  
24V DC  
0V (GND 24v DC)  
Motor Earth  
Motor phase U  
Motor phase V  
Motor phase W  
HV STFB  
X1  
Power Earth  
PE  
1
Motor brake  
10  
X3  
1
RS232  
9-way  
socket  
6
9
AE  
Function  
ANA1+  
Power & motor  
10-way  
connector  
Feedback resolver  
X4  
1
5
Function  
X2  
Reserved  
Reserved  
GND  
REFres+  
+5V output  
GND  
SIN-  
SIN+  
reserved  
Motor overtemp  
1
2
3
4
5
6
7
8
9
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
ANA1-  
0V  
/Z index out  
Z index out  
Fault output  
Enc. A- IN  
Enc. B- IN  
Enc. A- OUT  
Enc. B- OUT  
Energise/Energise  
Enc.A+ IN  
Enc. B+ IN  
6
X4  
Motor Earth  
ME  
1
11  
15  
1
5
Control/Aux I/O  
15-way  
socket  
10  
11 COS-  
12  
13  
14  
15  
COS+  
reserved  
reserved  
10  
6
X2  
Enc. A+ OUT  
Enc. B+ OUT  
15  
Primary  
feedback  
15-way  
socket  
X5  
1
10  
15  
REFres-  
11  
5
15  
User I/O  
15-way  
plug  
5
Feedback encoder  
AE  
Function  
X2  
11  
1
Function  
0V  
0V  
0V  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Brake IN  
+24V  
Incremental enc. Z+  
Incremental enc. Z-  
GND  
reserved  
+5V output  
1
2
3
4
5
6
7
8
9
X5  
1
2
3
4
5
6
7
8
10  
6
Fixing position  
for motor lead  
earth clip, included  
in fit kit  
GND  
Incremental enc.A-  
Incremental enc.A+  
Commutation f-b A0  
Motor overtemp  
10  
9
11 Incremental enc.B-  
10  
11  
12  
13  
12  
13  
Incremental enc.B+  
Commutation f-b A1  
14 Commutation f-b A2  
reserved  
+24V  
+24V  
15  
14 Reserved  
15  
RJ45 connectors  
X7 OUT  
Analogue  
monitor  
X6 IN  
High speed  
comm.  
Interface  
Figure 3-17. ViX Connector Pin Layout  
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34 VIX AE SERVO DRIVE USER GUIDE  
Terminal Description  
X1 Connector  
X1 is the main power and motor connector. Both HV, +24V and the motor phase  
connections are made to X1. A brake connection is also provided via X1 pin1.  
Connector Type  
The mating connector for X1 is a Wieland type 213B/, part number 25.323.4053.0 (Parker  
part number 0405.811). An approval marked version of this connector has the part number  
25.323.1053.0.  
Connector Pin Out  
Connector Pin X1  
Signal Name  
24 to 80V DC  
10  
9
0V/GND  
8
Earth  
7
24V DC  
6
0V (GND for 24V DC)  
Motor Earth  
Motor phase U  
Motor phase V  
Motor phase W  
Motor brake  
5
4
3
2
1
Table 3-8. X1 Power and Motor Connections  
Motor Connections at the Drive  
Refer to the EMC installation information earlier in this section.  
Motor Brake Output  
The motor brake output on pin 1 is available as a direct control of a 24V motor brake and is  
capable of sinking a current (up to 4A RMS) to 0V to keep the brake disengaged. A 2A fuse  
is required to protect against a wiring fault, since no over current protection is provided by X1  
pin 1.  
Motor brakes are fail safe that is removal of the brake current will apply the brake. A  
continuous current supply is required to keep a brake disengaged.  
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3. ELECTRICAL INSTALLATION 35  
Motor Brake Control Wiring  
Certain motors used with the ViX drives can be fitted with a holding brake. This enables  
vertical (Z-direction) loads to be held whilst the motor is de-energised.  
All brakes are fail-safe, that is you need to apply power to the brake to keep it disengaged.  
Removing power from a brake will engage or activate the brake preventing further shaft  
motion.  
Figure 3-18 shows the connections necessary to control a motor holding brake. Power the  
brake from the 24V supply, a 2A fuse is recommended to protect the circuit from wiring  
faults. To release the brake, (allowing the motor shaft to turn) connect pin 1 of X1 to ground,  
using the manual BRAKE command.  
Power & motor X1  
10-way  
connector  
10  
24V DC  
SUPPLY  
9
8
7
6
2A FUSE recommended  
24V DC  
5
4
3
2
1
MOTOR BRAKE  
IN ITS RELEASED  
OR ENERGISED STATE  
BRAKE  
Figure 3-18. Motor Holding Brake Connections  
See Section 4. Control of ViX Drives - Brake Operation for details of how to control its  
operation.  
When a brake is used, the brake supply is dependent upon the value of HV.  
For the majority of applications where the HV is greater or equal to 30V, the fused brake  
supply is taken from the 24V supply at X1 pin 7 (as shown above).  
For applications where the HV is less than 30V, the brake supply can be taken from the  
motor HV supply at X1 pin 10.  
Note: Whenever you change the HV supply you will need to run the motor configuration  
command. If there is no motor HV present, issuing the motor command assumes a value of  
80V.  
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36 VIX AE SERVO DRIVE USER GUIDE  
X2 Connector  
X2 provides the primary input connections for the motor feedback device. Different types of  
feedback device will each require their own unique connections. The standard devices are  
resolver and digital encoder.  
Connector Type  
Connector type is a high-density 15-way D-type socket.  
Connector Pin Out  
Connector  
Pin X2  
Resolver  
reserved  
Encoder  
1
2
Incremental enc. Z+  
Incremental enc. Z-  
GND  
reserved  
GND  
3
4
REFres+  
+5V output  
GND  
reserved  
5
+5V output  
6
GND  
7
SIN-  
Incremental enc. A-  
Incremental enc. A+  
Commutation f-b A0  
Motor overtemp.  
Incremental enc. B-  
Incremental enc. B+  
Commutation f-b A1  
Commutation f-b A2  
reserved  
8
SIN+  
9
reserved  
Motor overtemp.  
COS-  
10  
11  
12  
13  
14  
15  
COS+  
reserved  
reserved  
REFres-  
Table 3-9. X2 Primary Feedback Connections  
Resolver Compatibility  
Supported resolvers have a transformation ratio of 0.5 and are compatible with an excitation  
frequency of 10KHz.  
Compatible Devices for SBC motors are:  
Tamagawa TS2640N181E100  
Tyco V23401-U7018-B709  
Tyco V23401-D1009-B901  
For Compumotor:  
API Harowe 15-BRCX-320-J12  
API Harowe 21BRCX-500-J40  
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3. ELECTRICAL INSTALLATION 37  
Resolver Interface Specification  
12 bit A to D input 4096 resolution  
incremental resolution 5.3arc mins /increment averaged over 1 rev  
absolute accuracy better than +/-30arc mins.  
Resolver set up  
For a resolver feedback motor the torque vector is set correctly as soon as power is applied  
to the drive. The resolver excitation remains active whilst the drive is powered to ensure that  
the resolver feedback system is calibrated ready for use.  
Encoder Compatibility  
Devices supported: RENCO, Tamagawa  
Signal format: quadrature 5V differential signals (A+, A-, B+, B-), Index mark Z+, Z-*  
Max input frequency: hardware limit 400KHz max. for A or B channel (1.6MHz post  
quadrature).  
Definition of positive motion: A leads B when producing clock-wise motion as viewed at the  
motor output shaft.  
Resolution: 500 to 5000 line devices supported (2000 to 20000 resolution).  
Commutation set up  
On energising the drive the commutation encoder input is captured and the torque vector set  
to be at the middle of the commutation segment..  
Whilst rotating as soon as a commutation encoder edge is observed, the torque vector is  
realigned more accurately . After the first commutation edge is observed the commutation  
input channels are ignored. Prior to passing a commutation input edge the torque may be  
restricted to 87% of the peak torque available.  
For a rotary motor more accurate alignment is made to the index mark. As soon as the  
index mark (Z input) is observed for the first time the torque vector is again more accurately  
set. If the Z mark is seen before the first commutation encoder edge the torque vector is set  
accurately and subsequent commutation transitions ignored  
The above sequence of torque vector alignment is restarted on cycling through de-  
energising and energising the drive.  
A Hall Effect commutation encoder signals are also used (refer to Appendix B for  
commutation details).  
Following Encoder  
Hardware limit 2.0MHz maximum A/B channel input frequency, (8MHz post quadrature).  
5V differential.  
Primary/Secondary Encoder 5V Supply  
X2 pin 5, X4 pin5.  
Maximum loading 350mA TOTAL, using the above connections.  
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38 VIX AE SERVO DRIVE USER GUIDE  
Motor Overtemperature Sensor  
The motor overtemperature switch input is compatible with thermal switches used in Parker  
SMB, SME, SM and BE servo motors. The input requires a normally closed switch to be  
connected to GND on X2 pin 3 or 6.  
If you use a motor with no overtemperature sensor fitted or one with an incompatible  
thermistor sensor, make sure you un-check the Thermal sensor fittedcheck box in Custom  
Motor Set Up, to prevent an overtemperature fault being reported.  
X3 Connector  
X3 is the RS232 communications connector. RJ45 connectors X6 and X7 may also be used  
for inter-drive communications where multi-axis systems are used.  
RS485 Operation  
RS485 operation is only possible on drives fitted with the appropriate FEM (Fieldbus  
Expansion Module). If you require this feature please order the ViX-CE drive type. RS485  
cannot be used simultaneously with RS232.  
Connector Type  
Connector type is a 9-way D-type socket.  
Connector Pin Out  
Connector Pin X3  
Function  
Reserved  
1
2
3
4
5
6
7
8
9
drive reset  
RS232 GND  
RS232 Rx  
RS232 Tx  
Reserved  
RS232 Tx (D loop)  
Do not connect  
+5V output  
Table 3-10. X3 RS232 Connections  
Baud Rate  
Use system variable BR to alter the baud rate of serial communications. Any change made  
to the baud rate will only take effect following a save (SV) and system reset (Z) or power  
cycle.  
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3. ELECTRICAL INSTALLATION 39  
Reset to RS232 Mode  
To reset the drive to RS232 mode and to return to factory settings, remove power from the  
drive, connect X3 pin2 to GND and restore power.  
CAUTION  
This will erase ALL of your user settings and programs in volatile memory. The non-  
volatile memory will not be overwritten until a save command is issued.  
Terminal/PC  
GND  
Drive  
GND  
Rx  
Tx  
Rx  
Tx  
CONN.  
SHELL  
CONN.  
SHELL  
SERIAL  
X3  
Terminal RS232 socket Interface  
1
5
6
9
4 Rx  
2 Tx  
5 Tx  
3 Rx  
3 GND  
7 GND  
Back of  
Back of  
mating plug  
mating plug X3 Socket  
1
13  
Serial connector  
socket  
25  
14  
SERIAL  
X3  
PC RS232 socket Interface  
1
6
9
4 Rx  
3 Tx  
5 Tx  
2 Rx  
3 GND  
5
5 GND  
Back of  
mating socket  
Back of  
mating plug  
X3 Socket  
1
5
Serial connector  
plug  
9
6
Figure 3-19. X3 D-type Connector RS232 Connections  
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40 VIX AE SERVO DRIVE USER GUIDE  
Inter-drive RS232 Connections  
Use the RJ45 connectors X6 and X7 to inter-connect drives, see RS232 Daisy Chain later in  
this section.  
RS232 Connecting Leads  
RS232 cables can be ordered from Parker. Various lengths are available as listed in  
Table 3-11.  
Part Number  
Length  
2. 5m  
5.0m  
RS232-EASI-0250  
RS232-EASI-0500  
RS232-EASI-0750  
RS232-EASI-1000  
RS232-EASI-1250  
RS232-EASI-1500  
7.5m  
10.0m  
12.5m  
15.0m  
Table 3-11. RS232 Connection Lead Types  
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3. ELECTRICAL INSTALLATION 41  
X4 Connector  
Connector X4 gives access to the following encoder input and output signals and the  
differential analogue inputs. Input and output connections are dependent upon the state of  
system variables EO and EI.  
Connector Type  
Connector type is a high-density 15-way D-type socket.  
Connector Pin Out  
Connector Pin X4  
Encoder I/O  
ANA1+ (input)  
1
2
ANA1- (input)  
0V  
3
4
/Z index out  
Z index out  
Fault (output)  
Energise/* (input)  
Energise  
5
6
11  
*See system variable ES  
Table 3-12. X4 Encoder I/O Connections  
Inputs Depending Upon the State of System Variable EI  
Connector Pin  
X4  
EI=0  
STEP+  
EI=1  
CW+  
EI=2  
12  
7
A+  
A-  
STEP-  
DIR+  
DIR-  
CW-  
13  
8
CCW+  
CCW-  
B+  
B-  
Outputs Depending Upon the State of System Variable EO  
Connector Pin  
X4  
EO=0  
STEP+  
EO=1  
CW+  
EO=2  
14  
9
A+  
A-  
STEP-  
DIR+  
DIR-  
CW-  
15  
10  
CCW+  
CCW-  
B+  
B-  
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42 VIX AE SERVO DRIVE USER GUIDE  
Encoder Input/Outputs  
Figure 3-20 shows the circuit details of the encoder inputs and outputs, note the /Z and Z  
outputs use the same circuit configuration. With resolver feedback on X2, the encoder  
outputs at X4 is simulated at a resolution of 4096 counts per rev.  
Encoder inputs  
Encoder outputs  
using 26LS32 quad differential  
line receiver  
using 26LS31 quad differential  
line driver  
drive  
drive  
inputs  
X4  
X4  
outputs  
Figure 3-20. Encoder I/O Circuit Details  
Differential Analogue Input  
Control of the ViX base drive is via a differential analogue input. The input circuit, shown in  
Figure 3-21, can interface to an external +/-10V differential signal. Analogue to digital  
conversion (12-bit resolution) converts the analogue input to a digital value for use within the  
drive. The value of the analogue input can be read as a count via system variable AI.  
Drive  
ANA1+  
Input  
impedance  
200K  
+
A to D  
AI, analogue  
input expressed  
as a count  
-
ANA1-  
0V  
Note: both inputs must  
be connected - cannot  
Software offset controlled  
by system variable AO  
be used as a single ended  
input  
GND  
Figure 3-21. Analogue Differential Input  
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3. ELECTRICAL INSTALLATION 43  
Figure 3-22 shows the input characteristic.  
Velocity  
(rps)  
Commanded  
velocity  
Dead band  
-10V  
Volts  
+10V  
Figure 3-22. Analogue Differential Input Characteristic  
Fault Output  
The fault output is an independent NPN open-collector output, which is normally lowactive  
high. The output ratings are +30V maximum in the OFF condition and 15mA maximum in  
the ON condition. Figure 3-23 shows the output circuit.  
Drive  
circuit  
Fault  
Output  
0V  
Figure 3-23. Fault Output Circuit  
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44 VIX AE SERVO DRIVE USER GUIDE  
_______  
Energise/Energise  
You can energise the drive by allowing this input pin to float high 1or by linking the pin to  
zero volts, depending upon the inputs polarity. System variable ES controls the polarity of  
this input. The default state of ES requires X4 input pin 11 to be connected to 0V to  
energise the drive.  
X5 Connector  
X5 is the user Input connector. On the base drive, one input is used to control the motor  
brake, if fitted.  
Connector Type  
Connector type is a high-density 15-way D-type plug.  
Connector Pin Out  
Connector Pin X5  
Input/Output  
1
2
0V  
0V  
0V  
3
4
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Brake IN  
+24V  
5
6
7
8
9
10  
11  
12  
13  
14  
15  
+24V  
+24V  
Reserved  
Analogue monitor  
Table 3-13. X5 User Input/Output Connections  
Brake Input Circuit  
Figure 3-24 shows the various input circuit arrangements of the brake control input,  
configured using system variable IC. You can drive this input from three output logic types:  
High logic level 24V source (IC = 256) (default)  
High logic level 24V sink (IC = 257)  
Low logic level 5V source (IC = 0)  
Do not attempt to drive this input with a low logic level (5V) sink output.  
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3. ELECTRICAL INSTALLATION 45  
When driven from a high logic level 24V source, a logic 1(+24V logic) will engage the brake  
and a logic 0(transistor off) will release the brake.  
When driven from a high logic level 24V sink, a logic 1or a high impedance state (transistor  
off) will engage the brake and an active pull-down to a logic 0(transistor on) will release the  
brake.  
Driving the input with a low level logic output, a logic 1(transistor on) will engage the brake  
and logic 0(transistor off) will release the brake.  
24V  
High logic  
Drive  
0V  
IC = 256  
level source  
4K7  
82K  
27K  
0V  
IC = 257  
Drive  
24V  
4K7  
82K  
High logic  
level sink  
27K  
0V  
0V  
Drive  
0V  
5V  
Low logic  
level source  
IC = 0  
4K7  
82K  
Figure 3-24. Brake Input Circuit  
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46 VIX AE SERVO DRIVE USER GUIDE  
Analogue Monitor  
The analogue monitor output on X5 pin 15 can be used to examine torque, velocity or a  
ramp test signal depending upon the setting of system variable AM. Figure 3-25 shows the  
circuit of the output.  
Analogue  
monitor  
Drive  
1K2  
output  
X5  
pin 15  
+
-
TL074CD  
0V  
Figure 3-25. Analogue Monitor Output  
RJ45 Interfaces  
Positioned beneath the drive are two RJ45 communication interfaces X6 and X7. The two  
interfaces provide support for daisy chain ports for multi-axis RS232 connections between  
drives.  
X7 RS232 daisy  
chain output  
X6 RS232 daisy  
chain input  
High speed  
comm.  
Interface  
Figure 3-26. Position of Connectors X6 and X7  
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3. ELECTRICAL INSTALLATION 47  
FEM1  
CANopen/RS485  
RX+/TX+ RS485  
RX-/TX- RS485  
Reserved  
RS232 Gnd  
RS232 Gnd  
Reserved  
CAT5 cable colours  
X6  
1
2
3
4
5
6
7
8
White/Orange  
Orange  
White/Green  
Blue  
White/Blue  
Green  
White/Brown  
Brown  
RS232 Tx  
Rs232 Rx  
X7  
1
2
3
4
5
6
7
8
RX+/TX+ RS485  
RX-/TX- RS485  
Reserved  
RS232 sense  
RS232 Gnd  
Reserved  
White/Orange  
Orange  
White/Green  
Blue  
White/Blue  
Green  
White/Brown  
Brown  
RS232 Rx  
RS232 Tx  
Table 3-14. X6/X7 Input/Output Connections  
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48 VIX AE SERVO DRIVE USER GUIDE  
Communication Daisy Chain  
Drives can be daisy-chainedfor RS232 operation as shown below. Using this arrangement  
the drive connected to the controlling PC, via its front panel D-type connector, becomes axis  
#1. To automatically assign addresses, connect all power, motor, feedback and  
communication cables then power-up all the drives, see #command for more details. At  
the controlling PC, type the following commands:  
#1  
;cause the 1st drive to establish the daisy chain  
in a 3-axis system the response will be #4  
0SV ;save the address configuration  
0Z  
;reset  
response should be a single check sum from axis 1  
more than one check sum indicates a problem, possibly no save command  
Final drive  
terminates  
the daisy chain  
X6 rear  
X7 front & X6 rear  
X7 Out  
X6 In  
RS232 Input from PC  
X7 front  
Figure 3-27. RJ45 RS232 Daisy Chain Connections  
Using the X6/X7 connections on the underside of the drive will allow the last drive in the  
chain to detect that there are no more connections made to X7 which will close the daisy  
chain loop back internally.  
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3. ELECTRICAL INSTALLATION 49  
RJ45 Connecting Leads  
RJ45 link cables can be ordered from Parker. Various lengths are available as listed in  
Table 3-15.  
Part Number  
Length  
0.25m  
0.5m  
VIX-RJ45-0025  
VIX-RJ45-0050  
VIX-RJ45-0075  
VIX-RJ45-0100  
VIX-RJ45-0200  
0.75m  
1.0m  
2.0m  
Table 3-15. RJ45 Connection Lead Types  
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50 VIX AE SERVO DRIVE USER GUIDE  
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4. CONTROL OF VIX DRIVES 51  
4. Control of ViX Base Drives  
Overview  
This section introduces you to the operation of the ViX base servo drive. The drive uses a  
sub-set of ViX commands and system variables to support the drive when connected to an  
external controller or an analogue input. No programs can be stored in a base drive.  
The drive uses RS232 serial communication to send commands to the drive and to receive  
status information back.  
Direct Mode  
Direct operation of the drive is possible over a serial link from a PC or PLC. When used  
directly the drive will accept commands prefixed with the axis address and will action the  
commands as they are received.  
System Variables  
System variables are named variables held within the drives controller that are used for  
storing a variety of system values and settings. Read system variables using the Report  
system parameter (R command), but note, you can only write to certain variables using the  
Write (W command).  
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52 VIX AE SERVO DRIVE USER GUIDE  
Table of System Variables  
Table 4-1 lists system variables in alphabetic order together with their read/write status and  
range of values stored.  
Var  
Name  
R W  
Range/default value  
AB Analogue  
Deadband  
Y Y 0 to +255, default = 0  
AI  
Analogue Input  
Y N -2047 to +2047  
AM Analogue Monitor  
Mode  
Y Y 0 = torque monitor (default)  
1 = velocity monitor  
2 = outputs a triangular waveform 10V to +10V  
amplitude, with a 1 second period  
AO Analogue Offset  
BR BAUD rate  
Y Y -2047 to +2047, default = 0  
Y Y 9600 (default) or 19200 bits per second  
Y Y 1 to 100% (default) of peak drive current  
Y N See reporting of drive faults DF1,2,3 & 4  
CL  
DF Drive Fault status  
EI Encoder Input  
Current Clamp  
Y Y 0=step/dir (default), 1=cw/ccw, 2=quad ABZ, de-  
energise drive to change  
EO Encoder signal  
Output  
Y Y 0=step/dir, 1=cw/ccw, 2=quad ABZ (default), de-  
energise drive to change  
ES Energise Sense  
Y Y Sets the sense of the external energise/energise_bar  
signal  
0=low signal to energise (default)  
1=high signal to energise  
EX Comms. Response Y Y 0= speak when spoken to, echo off, RS232  
Style & Echo  
Control & Physical  
Interface (RS232)  
1= speak whenever, echo off, RS232  
2= speak when spoken to, echo on, RS232  
3= speak whenever, echo on, RS232 (default)  
FT  
Filter Time  
constant  
Y Y 0 to 255 used to filter high gain systems, measured in  
arbitrary units, default = 0  
GF Feedforward Gain Y Y 0 to 1023 default = 5  
(tracking)  
Table 4-1. List of System Variables  
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4. CONTROL OF VIX DRIVES 53  
Var  
Name  
R
W
Range/default value  
GI  
Integrator Gain  
(steady state)  
Y Y  
Y Y  
Y Y  
Y Y  
0 to 1023 default depends on motor type  
GP Proportional Gain  
(stiffness)  
0 to 1023 default depends on motor type  
0 to 1023 default = 5  
GV Velocity feedback  
Gain (damping)  
IC  
Input/Output  
Configuration  
Input pull-up/down, output source/sink configuration  
0, 256 (default) or 257, for brake input only  
0=continuous (default)  
IM  
IW  
IX  
Integral Mode  
Integral Window  
Index Pulse  
Y Y  
Y Y  
Y Y  
default 50  
0 to 1023, default=250, motor definition dependent  
PA Position Actual  
PC Peak Current  
Y N* -2,147,483,648 to 0 to 2,147,483,647, default = 0  
Y Y  
Sets maximum drive output  
value=scaling factor 100-400% of MC, default=300%  
PE Position Error  
Y N  
+/- 32767  
PF  
Position Following Y Y  
-2,147,483,648 to 0 to 2,147,483,647, default = 0  
x.yy major.minor  
RV ReVision of  
software  
Y N  
SN Serial number  
Y N  
Drive serial number  
ST  
TL  
Status of indexing Y N  
See Reporting the Status of Variables ST1,2,3 & 4  
Tracking Limit  
Y Y  
0-65535, defaults to Motor Resolution or Motor  
Resolution/100 if >65535  
UF User program  
Fault status  
Y N  
See Reporting of user faults UF1,2,3 & 4  
*Can be set to 0 only.  
Table 4-1. List of System Variables (Continued)  
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54 VIX AE SERVO DRIVE USER GUIDE  
AB, AI and AO Description  
AB controls the dead band and AO the offset of the differential analogue speed/torque  
control input. See Differential Analogue Input in the Electrical Installation section.  
AM Description  
Use output 4 (X5 pin 15) to output an analogue DC voltage between +10V and 10V to  
represent the velocity or torque being generated by the drive, depending upon the setting of  
system variable AM. Setting AM to 2 generates a bipolar triangular waveform with a time  
period of 1 second.  
BR Description  
This sets the Baud rate of serial communications. Enter the required Baud rate directly, for  
example aW(BR,19200) to set the rate to 19200. You will need to save this setting and then  
reset the drive (Z command) or cycle the power before the change will take effect.  
CL and PC Description  
See Motor Related System Variables in the Electrical Installation section.  
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4. CONTROL OF VIX DRIVES 55  
DF Description  
See drive fault bit description in Reporting the Status of Variables.  
EO Description  
Use encoder outputs (connector X4) to supply a step-direction or step-up/step-down signal  
for use by another drive. System parameter EO determines the output as defined in  
Table 4-2.  
X4  
14  
9
EO=0  
STEP+  
EO=1  
CW+  
EO=2  
A+  
A-  
STEP-  
DIR+  
DIR-  
CW-  
15  
10  
CCW+  
CCW-  
B+  
B-  
Table 4-2. Encoder Output Configuration  
EI Description  
System parameter EI, controls encoder inputs (connector X4) as defined in Table 4-3.  
X4  
12  
7
EI=0  
STEP+  
EI=1  
CW+  
EI=2  
A+  
A-  
STEP-  
DIR+  
DIR-  
CW-  
13  
8
CCW+  
CCW-  
B+  
B-  
Table 4-3. Encoder Input Configuration  
CAUTION  
De-energise the drive before changing EI and EO.  
ES Description  
System variable ES controls the required polarity of signal on the energise/energise_bar  
input (X4 pin 11). The default value of ES is zero (ES=0), therefore to energise the drive  
connect X4 pin 11 to X4 pin 4 (0V). With ES=1, X4 pin11 may be left open circuit to  
energise the drive.  
EX Description  
System variable EX controls the style and protocol of the drives serial communications link.  
FT Description  
Fast positioning systems need high proportional and velocity gains. By limiting the  
bandwidth, the digital filter prevents a high gain system from becoming too lively. The filter  
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56 VIX AE SERVO DRIVE USER GUIDE  
also serves to average the effects of the digital control loop, reducing the jitter at standstill  
and the audible noise. The value of FT should be kept as low as possible. The arbitrary  
units used to set the value of FT cannot be directly related to any time value.  
GF Description  
The opposing action of proportional and velocity gains result in a position error which  
depends on speed. This is called following error. Feedforward gain can be used to offset  
the following error and improve tracking accuracy. This is important in contouring  
applications.  
GI Description  
Proportional action may be insufficient to overcome static position errors caused by  
gravitational load effects. Integral action accumulates a steady state error until sufficient  
torque is produced to move the load. It improves overall positioning accuracy but may  
produce low frequency oscillation around the commanded position.  
GP Description  
Proportional gain determines the amount of torque produced in response to a given position  
error. It sets the stiffness of the system and affects the following error. A high proportional  
gain gives a stiff, responsive system but results in overshoot and oscillation that require  
damping.  
GV Description  
Velocity feedback is a signal which increases with shaft speed. It acts in a negative sense  
opposing the proportional action and helping to stabilise the motion. The damping action of  
velocity feedback allows a higher proportional gain to be used.  
IC Description  
System variable IC sets the configuration of the drives brake input circuit see ‘Brake Input  
Circuit’ in the Electrical Installation section.  
IM and IW Description  
Integral mode determines when integral action (GI) is applied, either continuously or within a  
integral window defined by IW.  
IX Description  
System variable IX determines the position of the index pulse relative to phase U  
(or phase 1) of the drive. Altering the position of the index pulse allows compatibility with  
different motor types. Incorrect settings will result in uncontrollable motion.  
PA Description  
PA reports the actual position of the motor shaft. Although PA is marked as being read only  
it will accept the value 0 to be written to it for resetting purposes. If you perform a W(PA,0)  
system variables PF, PE and PT will also be set to 0. However, if you immediately perform a  
read of these system variables non-zero values will be reported due to normal servo action.  
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4. CONTROL OF VIX DRIVES 57  
PC Description  
See Motor Related System Variables in Electrical Installation.  
PE Description  
PE reports the position error, that is, the difference between PT and PA.  
PF Description  
PF reports the step and direction position count in mode position (MP).  
RV Description  
Reports the revision of software being used by the controller.  
SN Description  
Reports the serial number of a drive.  
ST Description  
See reporting of status bits in Reporting the Status of Variables.  
TL Description  
Tracking limit is the maximum amount of position error that can be tolerated, if PE exceeds  
TL a fault will be reported.  
UF Description  
See reporting of user fault bits in Reporting the Status of Variables.  
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58 VIX AE SERVO DRIVE USER GUIDE  
Reporting the Status of Variables  
By examining Table 4-5 you can see that most system variables take a numerical value or  
record a simple ON/OFF state (0 or 1 Flags). Certain variables perform a reporting function  
that provides you with information on the status of the controller and any drive faults present  
in the hardware or user program code.  
Status Variable Reporting  
Variable ST is a 32-bit double word that contains status information.  
When read, ST reports a 32-bit double word pattern of the form:  
*0000_0000_0000_---32 bit wide double word---_0000  
Bit No. 1 4 5 8  
32  
Where a bit is set (displayed as a 1) its bit number can be determined and compared with  
the bit number value given in Table 4-4 to determine the Status Information being reported.  
Use the Read command to display the ST word pattern, that is aR(ST).  
Bit Number  
Status Information  
9
Motor energised  
Motor undefined, use MOTOR command  
10  
16  
23  
24  
25  
26  
2
Duty cycle too high, excessive motor current (I t)  
Tracking limit is greater than max. allowed position error  
Last SETUPFB command failed  
In motion, 0 for positive motion, 1 for negative motion  
Brake applied, goes to a 1 if the brake is engaged  
Table 4-4. Status Bits Description  
Status Variable Byte Reporting  
A convenient and more compact way of interrogating the status variable is to test it a byte at  
a time using the STn within a read command, where n is used to select the byte to be tested.  
For example to read or test the first 8 bits (first byte) of the ST variable status word, use ST1.  
Since the status word consists of 4 bytes the relevant part of the word can be read using  
ST1 (bits 1 to 8), ST2 (bits 9 to 16), ST3 (bits 17 to 24) or ST4 (bits 25 to 32).  
Status Bit 23  
The maximum allowed position error will depend on the gains used. Normally there is no  
restriction, but for high gains the value of tracking limit (TL) will be restricted to a fixed value  
(capped). Status bit 23 is set if the tracking limit is capped.  
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4. CONTROL OF VIX DRIVES 59  
Fault Status Reporting  
Faults are classified into two groups:  
Drive Faults DF (hardware faults present in the drive)  
User Faults UF (user program faults)  
or  
Drive Faults  
Hardware drive faults cause the drive output stage to turn OFF (de-energised). This will  
cause the Drive LED to turn RED. Once the fault has been corrected the drive may be re-  
energised using the ON command.  
When read, DF reports a 32-bit double word pattern of the form:  
*0000_0000_0000_---32 bit wide double word---_0000  
Bit No. 1 4 5 8  
32  
Where a bit is set (displayed as a 1) its bit number can be determined and compared with  
the bit number value given in Table 4-5 to determine the Drive Fault being reported.  
Use the Read command to display the DF word pattern, that is aR(DF).  
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60 VIX AE SERVO DRIVE USER GUIDE  
Bit Number  
Stop  
Type  
DF Information  
Composite fault (anything that causes a drive  
fault)  
1
2
3
4
5
6
7
8
K
K
K
C
C
K
K
T
R
R
R
R
T
+/-15V supply rail  
Motor HV under-voltage trip point reached  
Motor HV over-voltage trip point reached  
V I/O under-voltage trip point reached  
V I/O over-voltage trip point reached  
Encoder/Auxiliary 5V under voltage trip  
Impending power loss  
T
(24V logic supply)  
9
K
K
C
C
C
K
K
K
K
C
C
T
T
R
R
R
T
T
T
R
R
R
Commutation Fault  
Resolver fault  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
Motor over temperature  
Ambient over temperature  
Drive over temperature  
Incompatible firmware version  
Unrecognised power stage  
Controller diagnostic failure  
Output stage over current  
Output driver over current  
Tracking limit exceeded while in motion is a  
latched fault  
20  
21  
K
C
R
R
Velocity exceeded (unstable gains/motor spin-  
off)  
Energise input not set check energise input  
and state of ES variable  
Reserved  
Watchdog 1  
Watchdog 2  
Watchdog 3  
22-24  
25  
26  
K
K
K
T
T
T
27  
Table 4-5. Drive Fault Bit Description  
Key:  
C: Performs controlled stop  
K: Performs motion kill quick stop. Possible instant de-energise depending on fault source  
R: Recoverable without power cycle  
T: Terminal (requires power cycle or repair before drive will energise/operate again)  
Drive Fault Byte Reporting  
In exactly the same way as the status variable, the drive fault status can be reported a byte  
at a time, using DFn within a read command.  
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4. CONTROL OF VIX DRIVES 61  
User Faults  
Programming errors, such as issuing a GO command when the drive is de-energised can  
cause user faults. The report uses a 32-bit word format the same as Drive Faults.  
Performing a read UF command will report the current state of any User Faults listed in  
Table 4-6.  
Bit Number  
UF Information  
Value is out of range  
1
2
Incorrect command syntax, command has  
wrong format  
8
Drive de-energised  
16  
19  
22  
23  
26  
Transmit buffer overflow*  
Drive not ready  
Save/restore error  
Command not supported by this product  
Cannot execute motion as the brake is  
engaged  
27 to 32  
Reserved  
Table 4-6. User Fault Bit Description  
*sends an ASCII bellcharacter to indicate a buffer overflow condition.  
User Fault Byte Reporting  
In exactly the same way as the status variable, the user fault status can be reported a byte  
at a time, using UFn within a read command. For example to read or test the first 8 bits (first  
byte) of the UF variable status word, use UF1. Since the status word consists of 4 bytes the  
relevant part of the word can be read using UF1 (bits 1 to 8), UF2 (bits 9 to 16), UF3 (bits 17  
to 24) or UF4 (bits 25 to 32).  
Resetting User Fault Bits  
The User Fault variable (UF) is cleared to all zeroes once it has been read by issuing a  
aR(UF) command. Reading individual bytes of the User Faults variable will not clear any  
particular byte, so issuing a R(UF2) command will keep byte 2 bits intact. Also testing a  
particular byte using the IF or TR command will keep bits intact.  
Note: sending the drive an ON command will immediately clear the User Fault variable,  
setting all four bytes to 00000000.  
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62 VIX AE SERVO DRIVE USER GUIDE  
Servo Control Loop  
d/dt  
GF  
GP  
GI  
+
+
+
+
-
FT  
1
-
Position  
Demand  
Torque  
Demand  
dt  
d/dt  
GV  
2
Position  
Feedback  
Figure 4-1. ViX Servo Control Loop  
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4. CONTROL OF VIX DRIVES 63  
Controlling the Drives Mode of Operation  
Mode  
Operation of the ViX base drive is possible in three different modes, controlled by the M  
(Mode) command. These are:  
Base servo position mode  
Base servo torque mode  
Base servo velocity mode  
Base servo position mode  
This mode uses the servo step and direction inputs to control the drive. Figure 4-2 shows a  
6K controller, used for step/direction purposes. A single multi-core cable links the 6K and  
ViX with the connections listed in Table 4-7.  
HV STFB  
X1  
10  
X3  
X4  
FAULT  
1
X2  
STEP/DIRECTION SIGNALS  
X5  
Figure 4-2. Base Servo Mode Using Step/Direction Control  
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64 VIX AE SERVO DRIVE USER GUIDE  
Connections  
6K Drive  
connector  
Description  
Step +  
Direction +  
Fault  
ViX X4  
connector  
Description  
1
2
5
7
12  
13  
6
11  
7
A +  
B +  
Fault  
Energise  
A -  
Shutdown (NO)  
Step -  
9
10  
*13/14  
Direction -  
Isolated Gnd/Shutdown  
(COM)  
8
3
B –  
Gnd  
*Pins 13 and 14 should be connected together at the 6K  
Table 4-7. Step/Direction Connections  
The CNTRL-P terminal on the 6K should be connected to +24V DC.  
Commands  
For the ViX drive issue the following commands:  
1MP  
;Mode Position (Step & Direction)  
1W(ES,0)  
1W(EI,0)  
1SV  
;Energise input active level  
;Set input for step/direction  
;Save settings  
A valid MOTOR command is required.  
GAINS all need to be used to tune the PIVF loop.  
For the 6K4 issue the following commands:  
AXSDEF0000  
All axes are steppers  
ERES8000,8000,8000,8000 Should match ViX motor resolution  
DRES8000,8000,8000,8000 Should match ViX motor resolution  
DRFLVL1111  
DRFEN1  
LH0,0,0,0  
Drive fault active level  
Enable drive fault detection  
Disable limits (optional)  
A…  
V…  
D…  
GO1  
Execute move  
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4. CONTROL OF VIX DRIVES 65  
Base servo torque/velocity mode  
This mode uses the servo analogue inputs to control the drive. Figure 4-3 shows a 6K  
controller, used for control purposes. A double multi-core cable links the 6K and ViX with the  
connections listed in Table 4-8.  
HV STFB  
X1  
10  
X3  
VELOCITY OR TORQUE MODE  
FAULT  
X4  
1
X2  
X5  
Figure 4-3. Base Servo Mode Using Analogue Input Control  
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66 VIX AE SERVO DRIVE USER GUIDE  
Connections  
ViX X4  
connector  
Description  
6K connectors  
3 - Drive  
6 - Drive  
9 - Drive  
Description  
1
2
3
6
Ana1+  
Ana1-  
0V  
Command +  
Command -  
Isolated Gnd  
Fault  
Fault  
5 - Drive  
9
A- out  
B- out  
Energise  
A+ out  
B+ out  
3 - Encoder  
5 - Encoder  
7 - Drive  
2 - Encoder  
4 - Encoder  
A -  
B -  
10  
11  
14  
15  
Shutdown (NO)  
A +  
B +  
Table 4-8. Velocity/Torque Mode Connections  
*Pins 13 and 14 on the 6K DRIVE connector should be connected together.  
The CNTRL-P terminal on the 6K should be connected to +24V DC.  
Velocity Mode Commands  
For the ViX drive issue the following commands:  
1MV  
1W(ES,0)  
1SV  
;Mode Velocity  
;Energise input active level  
;Save settings  
A valid MOTOR command is required.  
At least some feed-forward and velocity gain needs to be used to tune the PIVF loop, that is  
GF=GV=5.0.  
For the 6K4 issue the following commands:  
AXSDEF1111  
All axes are steppers  
ERES8000,8000,8000,8000 Should match ViX motor resolution  
DRFLVL1111  
DRFEN1  
LH0,0,0,0  
TGAIN  
SGP  
SVG  
Drive fault active level  
Enable drive fault detection  
Disable limits (optional)  
Read all gains  
Set proportional gain  
Set velocity gain  
A
V
D
GO1  
Execute move  
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4. CONTROL OF VIX DRIVES 67  
Torque Mode Commands  
For the ViX drive issue the following commands:  
1MT  
;Mode Torque  
;Energise input active level  
;Zero all gains  
1W(ES,0)  
1GAINS(0,0,0,0,0)  
1SV  
;Save settings  
A valid MOTOR command is required.  
All GAINS need to be 0.0  
For the 6K4 issue the following commands:  
AXSDEF1111  
All axes are steppers  
ERES8000,8000,8000,8000 Should match ViX motor resolution  
DRFLVL1111  
DRFEN1  
LH0,0,0,0  
TGAIN  
SGP  
SVG  
Drive fault active level  
Enable drive fault detection  
Disable limits (optional)  
Read all gains  
Set proportional gain  
Set velocity gain  
A
V
D
GO1  
Execute move  
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68 VIX AE SERVO DRIVE USER GUIDE  
Brake Operation  
ViX drives have the ability to control a motor holding brake via the X1 pin 1 motor brake  
output. Note, special conditions apply to the brake wiring depending upon the brake supply  
used, see Motor Brake Control Wiring in the Electrical Installation section.  
Before describing the various braking modes, note the following assumptions:  
The automatic brake functions only operate if a motor with a brake has been set up using  
the MOTOR command.  
The brake output is not controllable by software when the drive is initially powered-up,  
whilst in the process of resetting or when powered off. Under these conditions the brake  
output should be off and the brake, therefore applied.  
The automatic part of the brake command uses two timers ED and RD to make sure the  
drive holds position while the brake is released and the brake holds position before the drive  
is de-energised. Figure 4-4 shows the operation of the two timers.  
RD  
ED  
released  
Brake  
status  
engaged  
on  
Drive  
status  
off  
Drive 'ON'  
issued  
Drive 'OFF'  
issued  
Figure 4-4. Brake Command Operation of Timers RD & ED  
Automatic Braking (Holding Brake)  
Energising the drive starts, a timer that counts down to a pre-determined count RD (Delay to  
Release) at which point the brake disengages leaving the drive to hold position. When you  
instruct the drive to de-energise the controller will engage the brake and start a further  
counter ED (Delay from Engage). Once ED times out, the drive de-energises leaving the  
brake to hold position.  
Automatic Braking (Dynamic Brake)  
This option works in a similar way to the automatic holding brake. In this case, a drive fault  
that de-energises the drives power stage under hardware control will apply the brake as  
soon as the software detects the fault condition. The pre-programmed delay time is ignored.  
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4. CONTROL OF VIX DRIVES 69  
External Brake Control  
The base drive (AE version) has a dedicated input (X5 pin10) used for external control of the  
brake. This input can be driven from a high-level logic source or sink, or a low-level logic  
source, see Brake Input Circuit in Electrical Installation section. A logic high input is  
required to apply or engage the brake, the brake will react immediately with no delay or  
check for motor movement. Select mode E using the BRAKE command to make use of this  
external input.  
Use this form of brake control with caution, since careless or accidental application of the  
brake could lead to physical damage of the brake components.  
Default Brake Command  
For the base drive, the BRAKE default setting is all brake modes disabled.  
Other Factors that Influence Braking Operation  
In addition to the modes of brake operation, certain drive conditions influence brake  
behaviour, these are:  
State of enable input  
Resetting the drive  
24V power failure  
Drive fault  
Enable Input  
Even if the motor is moving, setting the enable input to disable would immediately disable  
the drives power stage. If the automatic dynamic brake mode is set, the brake is applied as  
soon as the controller detects the drive is de-energised (nominally within 500 microseconds).  
If the input is subsequently re-enabled, the brake remains applied until released by a valid  
control method.  
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70 VIX AE SERVO DRIVE USER GUIDE  
Reset (Z)  
Issuing a reset will engage the brake, at least momentarily, as the system fails safe.  
Subsequently, the following will happen:  
The brake will remain applied in automatic mode until the drive is re-energised.  
The brake will be released if the MOTOR command indicates no brake is fitted.  
24V Power Failure  
A dip in the +24V supply will turn off the drives controller, which in turn will apply the brake.  
Cycle the 24V supply to re-start the controller.  
If you expect this to happen during motion, use dynamic brake control, assuming that a  
dynamic brake is fitted.  
Drive Fault  
You may program application of the brake during a fault routine.  
For both automatic brake modes, if a fault generates a controlled stop, the brake is applied  
when commanded motion stops, and before the drive is de-energised.  
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5. EASI-V SOFTWARE 71  
5. Easi-V Software  
Computer Requirements  
To be able to run Easi-V software, necessary for the control and programming of the ViX,  
you will require an IBMcompatible PC running Windows 95/98/2000/XP, NT4 or ME.  
The PC needs to be specified to run Windowswith at least 16MB of RAM, a VGA monitor,  
Windowscompatible mouse, CDROM drive. The installed program size is approximately  
1.3MB. Easi-V is supplied on a CD or may be downloaded free of charge from our Website  
(www.parker-eme.com).  
Serial Link Lead  
You will need a 2-wire plus ground lead which has the Rx and Tx wires crossed over.  
Wiring details are given in the Electrical Installation section.  
Note: The information contained within this section applies to Easi-V software version 3.0 or  
greater. If you have an earlier version of Easi-V software please request the latest version  
from Parker using the contact numbers given at the beginning of this user guide or  
download a copy from our web-site  
(www.parker-eme.com).  
Compatibility of EASIV  
Always use the latest version of Easi-V, available from our web-site or supplied with the  
product.  
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72 VIX AE SERVO DRIVE USER GUIDE  
Establish Communications  
Before attempting communication with the drive the supplied software needs to be installed  
on to the PCs internal hard disk drive. Once software installation is complete, commands  
can be downloaded from the PC to the drive to confirm its operation. If Easi-V has already  
been loaded you may skip the following Installation and Operation sections up to  
Confirming Drive Operation.  
Software Installation  
Before attempting to install the EASI-V software supplied with your drive check that your PC  
meets the requirements previously defined under Computer Requirements.  
EASI-V software is supplied on a CDROM and installs in the usual manner common to  
Windowapplications.  
Installation Procedure  
This procedure takes you quickly through the steps necessary to install Easi-V on your PC.  
The entire installation process takes less than 10 minutes. Before starting the installation,  
terminate all applications currently running.  
A step by step installation of Easi-V software follows:  
1. Place the Easi-V CD in your PCs CDROM drive.  
2. Once loaded the CD should auto-start. If this does not happen, open the CDs  
folder and double-click the VIX.exe icon.  
3. Follow the on-screen instructions to load Easi-V.  
4. The screen will display the Easi-V program banner and will prepare an installation  
setup program.  
5. The banner screen is automatically replaced by a Welcome dialogue box advising  
you of the need to exit any programs currently running. To abandon setup in order to  
exit other programs, select CANCEL. This in turn displays an Exit Setup dialogue box  
giving you the options of Exit Setup, which returns you to Windowsor Resume  
which takes you back to the Welcome box.  
6. Selecting NEXT> displays a Choose Destination Locationdialogue/selection box  
that provides the option of installing Easi-TOOLS in the directory of your choice. The  
default directory is c:\program files\parker\EasiV in the UK, but the exact path name  
is country dependent, other buttons are described within the dialogue box, see Figure  
5-1.  
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5. EASI-V SOFTWARE 73  
Figure 5-1. Choosing Where to Install Easi-V  
6. Once you have selected a destination for Easi-V or have decided to use the  
default directory, select NEXT to begin file transfer.  
7. Once Easi-V has been loaded, the screen will display a message dialogue box,  
stating Setup is complete. You may run the installed program by double-clicking on  
the program icon.When you click the OK button, the window shown in Figure 5-2 will  
appear. Note: Easi-V may also be run from the Start menu.  
Figure 5-2. Easi-V Application Window  
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74 VIX AE SERVO DRIVE USER GUIDE  
Uninstalling Easi-V  
To uninstall Easi-V software, use Windowsuninstall software facilities available within the  
Control Panel. All components are removed.  
Software Operation  
Once installed, Easi-V can be started from the start menu or by double clicking its application  
icon. At startup Easi-V displays the product selection screen shown in Figure 5-3. When  
using rotary motors make the selection shown.  
Figure 5-3. Easi-V Product Selection  
Selecting Product from the Utilities menu will also display the product selection screen.  
Selecting OK will display the main application window, entitled  
Parker Hannifin EMD Easi-V, and seven pull-down menus become available:  
File, Edit, Search, Terminal, Utilities, Windows, Help  
The majority of options available within each menu are familiar to Windowusers and will  
not be fully described here, but options available within Terminal and Utilities are specific to  
drive control and will be fully described.  
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5. EASI-V SOFTWARE 75  
Menu Overview  
File  
Filing Operations  
Creates a new editor file, or .prg program file  
Opens an existing editor file or program  
Save an editor file  
Save an editor file specifing the file name  
Print the editor file or contents of terminal buffer  
Close current active window  
Exit Easi-V  
Editing Operations  
Edit  
Undo a previous edit (1 level of undo only)  
Remove highlighted text to clipboard  
Copy highlighted text to clipboard  
Paste contents of clipboard to current cursor location  
Delete highlighted text  
Highlight all text in active editor file window  
Go to a particular line within a file*  
Editor search & replace operations  
Search  
Find specified text (top down from cursor position)  
Repeat search again  
Find and replace text (top down from cursor position)  
* Selecting Go to linefrom the edit menu will generate  
the following dialogue box, which allows the required line  
number to be entered. This is useful for locating errors  
when loading a program.  
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76 VIX AE SERVO DRIVE USER GUIDE  
Terminal on-line operations  
Terminal  
Configure the serial communications  
Open/close the terminal (after testing the connection)  
Configure test buttons  
[Edit buffer] Create an editor file window or terminal buffer  
[Log to file] Open/close file logging terminal buffer actions  
Specific tools  
Utilities  
Displays Product Selection screen  
Help screens guide you through servo setup  
Similar to above, but uses tabbed text boxes  
Display status bits or messages  
[Download program to drive F4] Download program  
Upload program  
Displays LED diagnostics sheet, colour & flash rate  
Window controls  
Windows  
Share program desktop space between open windows  
Cascade all open windows on program desktop  
Select/activate the next window  
Arrange all minimised windows on program desktop  
Close all active windows on program desktop  
Program help facilities  
Help  
Open help file at the main contents (start)  
Prompt for topic string and search help file  
Open help for individual EASI-V commands  
Visit Parker web-site  
E-mail Parker technical support  
E-mail Parker sales support  
EASI-V version number and copyright  
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5. EASI-V SOFTWARE 77  
Terminal Menu Selections  
Terminal menu selections control the setup and configuration of communication between a  
PC and drive.  
Communicating with a Drive  
The default settings of a new drive from power-up are RS232 communications with an  
address setting of #1. Wire the RS232 communication lead as described in the Electrical  
Installation section.  
WARNING  
To avoid causing damage to a PC serial port the drive must be earthed before making  
any serial connections.  
Connect the RS232 lead between the drives X3 socket and the controlling PCs RS232  
connector.  
Configure the serial communications  
From the Terminal menu choose Settings  
to display the following Communications  
port configuration dialogue box.  
The default settings used are:  
Port  
COM1  
BAUD rate  
Options  
9600  
Auto wrap  
Figure 5-4. Comms Port Configuration  
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78 VIX AE SERVO DRIVE USER GUIDE  
Select the required configuration and, click OK. Then, again from the Terminal menu select  
Connect to start communications. Every time Connect is issued the communications link is  
tested to establish it is working correctly and the message box Testing communications  
integrityis flashed on the screen, followed by Now on-line to controllerif the Connect is  
successfully made. If the link fails, refer to the Troubleshooting Section. Note: The baud  
rate selected must agree with the drives hardware selected value.  
Configure Terminal Buttons  
The Terminal menu has a Configure terminal buttons F2command which generates a  
terminal buttons configuration window.  
This allows you to add buttons to the base of the Terminal window and assign a keyboard  
shortcut to each button added, depending upon where it appears in the list order. This  
facility enables a group of commonly used commands to be sent to a drive(s) by clicking a  
single button in the Terminal window or pressing a Shift/Function key combination from the  
keyboard.  
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5. EASI-V SOFTWARE 79  
Utilities Menu Selections  
Utilities menu selections control the way drives are setup and configured for use with a  
particular motor type. The menu offers two levels of setup, depending upon the skill and  
experience of the operator.  
Guided servo setup (guides you through setup for a particular motor type quick and  
simple)  
Servo setup (allows text entry of motor parameters for experienced users)  
From the Utilities menu select Guided servo setup.  
Select the axis  
address of the drive  
to be initialised. In  
this case the default  
value of #1 can be  
used for initial  
testing.  
Click Next>.  
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80 VIX AE SERVO DRIVE USER GUIDE  
From the drop-  
down menu select  
your motor type or  
perform a custom  
set-up.  
Click Next>.  
Select the operating  
mode of the drive  
and the direction of  
rotation required for  
a rotary motor.  
Click Next>.  
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5. EASI-V SOFTWARE 81  
Use this screen to  
adjust the value of  
the Peak Current  
ration (PC). For a  
pre-defined motor  
type use the default  
value displayed.  
Keep the Current  
Clamp (CL) value  
as 100%.  
Click Next>.  
This screen allows  
adjustment of the  
drives gain  
parameters.  
For drive testing  
purposes keep the  
default values  
suggested by the  
motor type.  
Click Next>.  
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82 VIX AE SERVO DRIVE USER GUIDE  
Use this screen to  
configure the brake  
input to match the  
output generating  
the brake signal.  
The screen also  
allows selection of  
the type of  
simulated encoder  
output or input  
required.  
Click Next>.  
High logic level 24V source (IC = 256) [upper box ticked lower blank] (default)  
High logic level 24V sink (IC = 257)  
Low logic level 5V source (IC = 0)  
[upper and lower boxes ticked]  
[no boxes ticked]  
Note: Upper box blank and lower box ticked is a non-valid configuration, see WARNING  
below.  
WARNING risk of equipment damage  
Do not attempt to drive the brake input with a low logic level (5V) sink output.  
Internally, the drive pull-up voltage is 24V.  
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5. EASI-V SOFTWARE 83  
The general  
configuration  
screen allows  
adjustment of motor  
brake settings,  
communication  
settings, analogue  
input control and  
defines what is  
monitored by the  
monitor output.  
The state of system  
variable ES can  
also be set via this  
screen.  
Click Next>.  
With ES ticked (ES=1) the drive is energised without any connection being made between  
X4 pin 11 and X4 pin 3 or 4.  
This screen  
indicates the  
completion of the  
guided servo setup.  
Clicking on the  
Create a setup  
programcreates a  
configuration file  
which may be  
saved to disk on the  
controlling PC.  
Clickin on  
Download  
immediately’  
downloads the  
configuration file to  
the drive.  
NOTE  
ANY CHANGES TO THE MOTOR COMMAND MUST BE FOLLOWED BY A SAVE (SV)  
AND RESET (Z) OR CYCLING POWER TO THE DRIVE.  
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84 VIX AE SERVO DRIVE USER GUIDE  
Servo Setup  
This facility gives easy access to setting system variables in a more direct manner than  
Guided Servo Setup. Figure 5-5 shows a sample screen.  
Figure 5-5. Other Tab of Servo Setup  
The buttons displayed along the base of this screen can be used as follows:  
Upload retrieves the current settings for the selected axis  
Download updates the current axis with your latest changes  
Open opens a stored .cfg file  
Save save the file to disk as a .cfg file  
Print prints the value of all the settings of all the tabs  
Done closes the set-up window  
Help accesses the help file  
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5. EASI-V SOFTWARE 85  
Status  
The Utilities menu axis Status provides a convenient method of examining the double word  
status bits. The tool gives access to the status of User Faults, Status bits and Drive Faults  
using a series of tabs, as shown in Figure 5-6.  
Figure 5-6. Status Reporting  
The Status Report can be permanently displayed during program development or testing to  
monitor the operation of the drive. The double word status bits are decoded and displayed  
as text messages within the Status Report window, as shown in Figure 5-7. This eliminates  
manual decoding errors and gives an immediate update of the drives status.  
Figure 5-7. Reporting Status of Drive  
Read  
The Read button is used to update all of the Status Reports and is a useful aid when  
debugging an application.  
Previous  
Selecting Previous allows the previous status to be re-displayed - useful for comparing the  
results of programming actions. The Previous reading is only stored to a depth of one, that  
is, you cannot trace the history of status bits by continually selecting the button.  
Close  
Selecting Close will exit the Status Report window.  
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86 VIX AE SERVO DRIVE USER GUIDE  
Help  
EASI-TOOLS has extensive on-line help facilities, which allows you to search for help on a  
particular topic either within the main contents or by entering a topic string. All the  
commands listed within this user guide are available on-line by selecting Controller  
Commands from the Help menu.  
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6. COMMAND REFERENCE  
87  
6. Command Reference  
Command Description  
Each command has a simple 1 to 7 character name usually an abbreviation of its full  
descriptive title. Listed commands are in alphabetic order with any non-alphabetic symbols  
appearing last.  
Each individual description will include a one-line header giving the abbreviated name  
followed by its full name. The following lines give the command syntax, units of  
measurement, range of values, any default value and a reference to other related  
commands. Where commands contain a list of parameters, a simple layout displays only the  
syntax of the command.  
Every command requires an address. Where several drives need to respond to a  
common set of global commands, prefix each command with the address 0. To prevent  
spurious feedback any report or read command using address 0 will be ignored. Note a  
drive will ignore a command missing an address prefix.  
Where commands (such as R, and W) include a system variable, it is treated as a command  
parameter. System variables store internal drive values and settings. Each variable is  
capable of being read and tested, and some may be written to, but they are all dedicated for  
a particular use by the system.  
Command Syntax  
Generally, a commands syntax consists of an address afollowed by the command name.  
Parenthesis containing the commandsparameters or simply the range parameter nfollows  
this. Within the parenthesis form of command, a comma separates each parameter and  
italics indicate any optional parameters.  
Commands not requiring any parameter string have the syntax shown in Figure 6-1.  
aHn  
Range parameter  
Command name  
Address prefix  
Figure 6-1. Simple Command Syntax  
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88 VIX AE SERVO DRIVE USER GUIDE  
A multi-parameter command can take the form shown in Figure 6-2.  
aGAINS(parameter1,2,3,4,5)  
Parameters 1,2,3,4 & 5  
Command name  
Address prefix  
Note: optional parameters are displayed in italics  
Figure 6-2. Parameter Commands  
Attention  
[1] Terminate all commands with a carriage return. A space is not valid.  
[2] A command must not contain any space characters.  
[3] All commands are device specific, that is, they always need an address.  
[4] For reasons of clarity, program examples appear as if being downloaded via  
Easi-V, that is they contain comments and line feeds etc.  
Command Properties  
Each command has a particular set of properties that govern the way the command can be  
used.  
Commands can have the following properties:  
Immediate only  
Immediate or buffered  
Saved by SV  
Not saved by SV  
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6. COMMAND REFERENCE  
89  
Immediate Only  
Immediate only commands are:  
K, R(UF), R(DF) and R(ST)  
The controller acts upon these commands as soon as they are received.  
Immediate or Buffered  
Immediate or buffered commands are immediate unless command execution is being  
delayed, in which case the command is buffered. When command execution is being  
delayed whilst waiting to finish a previous command, interrogation commands can be sent  
and get executed immediately. Consequently, the report of such commands as 1R(ST),  
1R(UF) etc. is correct. However, if a buffered type of command is sent the buffered  
command just sent and any other interrogation commands get buffered and will not report  
back until the current function is finished. In this situation Immediate onlycommands can  
be executed.  
Saved by SV  
A command that has the property of being saved by SVmeans data associated with that  
command is capable of being stored in non-volatile memory. The saved value will become  
the default value on power-up or following a Z command.  
Not Saved by SV  
If the command does not change data, such as K or Z, the commandsproperties are listed  
as not saved by SV.  
Automatic Checking of Valid Commands and Parameters  
All commands and parameters are checked for syntax and parameter limits at data entry.  
For example:  
1BRAKE(2)  
Upon entry, this will cause a *E, value is out of the valid range type error report.  
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90 VIX AE SERVO DRIVE USER GUIDE  
BRAKE  
Brake configuration  
Syntax  
aBRAKEn(mode,RD,ED)  
Description  
n
is used to release a brake and to cancel any previously  
selected automatic mode.  
mode selects the way the brake is used  
A
D
E
automatic holding brake mode  
automatic dynamic brake mode  
external input used for brake (AE variant only)  
brake modes disabled (default)  
M
RD is the time in milliseconds for the brake to release after the drive has  
energised. Range is 0 to 5000 milliseconds (default 50ms).  
ED is the time in milliseconds for the brake to engage before the drive de-  
energises. Range is 0 to 5000 milliseconds (default 50ms).  
Immediate, saved by SV  
Properties  
Note  
This command configures the brake. Before you can execute a brake  
command, you must send the drive a valid motor command where the  
motor type has a brake fitted.  
The brake input will only be active in mode E.  
WARNING  
In mode E, control of the motor brake is immediate with no  
delays. You must ensure this form of direct control is safe and  
appropriate for your application.  
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6. COMMAND REFERENCE  
91  
GAINS  
Gain configuration  
Syntax  
aGAINS(GF,GI,GP,GV,FT)  
Issuing a GAINS command with no parameters, produces a verbose list of all  
current gains. Parameters may be set up all together in one command.  
Alternatively, gains may be individually set/reported by using the read and  
write variable commands.  
Description  
GP : Gain Proportional  
GV : Gain Velocity feedback  
GF : Gain Feedforward  
GI : Gain Integral action  
FT : Filter time constant  
For ranges see the system variables list.  
Immediate, saved by SV  
Properties  
Notes  
The only gains used in calculating the positioning control are those  
appropriate to the particular mode of operation  
MODE  
Torque Velocity Position  
GAIN TYPES  
Feedforward  
Intergral action  
Proportional  
Velocity  
No  
No  
No  
No  
No  
Yes  
No  
No  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Filter time  
You can write to all gains types, any irrelevant parameters will be ignored.  
Individual gain variables may include decimal values, such as 1.2.  
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92 VIX AE SERVO DRIVE USER GUIDE  
H
Change direction  
Syntax  
aHn  
Units  
-
Range of n’  
Default  
+
See also  
STATUS  
+ or -  
Description The H command changes the direction of motion according to a positive  
demand signal. A blank value following the H command will be ignored.  
Immediate, saved by SV  
Properties  
Note  
The drive must be de-energised for the H command to be executed. If  
the command is issued whilst the drive is energised, an error message  
will be generated and the command will be ignored.  
Specifying H+ sets the direction to clockwise for a positive analogue input  
voltage and H- produces counter clockwise rotation for a positive input  
voltage.  
The direction assigned to H can be reported using the STATUS  
command.  
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6. COMMAND REFERENCE  
93  
K
Kill  
Syntax  
aK  
Units  
-
Range of n’  
Default  
-
See also  
OFF, SETUPFB  
-
Description  
The KILL command will perform the following functions:  
- Abort a SETUPFB command.  
- Execute an OFF command  
- Set the fault output  
This command is used as an immediate stop and does not attempt to control  
deceleration.  
Immediate, not saved by SV  
Properties  
Note  
Aborting SETUPFB will prevent an energise state from happening and will  
flag the motor as being undefined  
Motion may only be commanded once the energise input has been cycled  
following a KILL command.  
Care must be taken that the demand is removed before re-energising as the  
drive will respond immediately to the demand.  
A drive enable error will be indicated which, together with the fault output,  
will be reset on a successful energise state.  
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94 VIX AE SERVO DRIVE USER GUIDE  
M
Mode  
Syntax  
aMn  
Units  
-
Range of n’  
see below  
Default  
-
See also  
-
The mode command sets up the mode of operation of the drive.  
The values of n are:  
Description  
P base servo position mode (step and direction input)  
T base servo torque mode (analogue torque input)  
V base servo velocity mode (analogue velocity input)  
Immediate, saved by SV  
The code below sets up for torque demand.  
Properties  
Example 1  
3MT  
;mode torque  
To check the current mode, type......................................  
3M  
The response will be ........................................................ *MT  
The drive must be de-energised for the M command to be executed. If the  
command is issued whilst the drive is energised, an error message will be  
generated and the command will be ignored.  
Note  
When re-energising the drive will respond immediately to the new  
demand.  
See GAINS command for gain parameters relevant to the particular mode.  
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6. COMMAND REFERENCE  
95  
MOTOR  
Motor Settings  
Syntax  
aMOTOR(Type,Current,Resolution,Max_vel,Thermal_const,Resistance,  
Inductance,KT)  
This command describes the characteristics of the motor being used to the  
rest of the drive. The parameters used are:  
Description  
Type 0 to 65535 number code, which includes pole count, feedback type,  
brake and any other particular requirements (refer to EASI-V).  
Current RMS continuous stall current (0.1 to 14.4 A in 0.1 A increments).  
Default setting depends upon motor type. RFS default setting is 0.1 A.  
Resolution Rotary servo 2000, 4000, 4096, 8000, 20000 in steps/rev  
(post-quad)  
Max_vel  
Linear servo 2,000 to 4,200,000 in steps per pole pitch  
1 to 12,000 rpm  
Thermal_const Thermal time constant of the motor 0 to 65000 seconds  
Resistance Winding resistance in Ohms*  
Inductance Winding inductance in mH*  
KT Torque constant of the motor (Nm/A)  
Note: Thermal time constant is the time in seconds for the motor to reach  
two-thirds of its rated temperature while operating at its continuous current  
rating  
*Measured line-to-line across the motor terminals.  
The command sets all of the motor parameters and then calculates the  
optimum settings for the digital torque amplifier.  
If there is no HV present when the motor command is issued, the HV is  
assumed to be 80V, and this figure is used for the calculation of the digital  
torque amplifier optimum settings. When operating the drive at a voltage  
other than 80V DC, make sure the HV is present when issuing the motor  
command. Otherwise, the settings of the digital torque amplifier will not be  
optimised.  
IT IS IMPORTANT TO RE-ISSUE THE MOTOR COMMAND IF YOU  
CHANGE THE HV.  
ANY CHANGES TO THE MOTOR COMMAND MUST BE FOLLOWED  
BY A SAVE (SV) AND RESET (Z) OR CYCLING POWER TO THE  
DRIVE.  
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96 VIX AE SERVO DRIVE USER GUIDE  
Immediate, saved by SV  
Properties  
Note  
2
[1] If the thermal time constant is set to zero, the I t protection for the motor  
is disabled.  
[2] The motor command can take up to 10 seconds to finish execution.  
[3] The drive will not be allowed to energise without a valid motor command  
being executed.  
R
Report system parameter  
Syntax  
aR(system_variable)  
Units  
-
Range of n’  
Default  
-
See also  
W, R  
-
Description The R command allows the user to read the specified system variable.  
Immediate, not saved by SV  
Properties  
Example  
2W(TL,4000))  
2R(TL)  
;set variable TL (Tracking Limit) to be 4000  
;report the current value of variable TL  
The response will be ........................................................ *4000  
See table of system variables.  
Note  
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6. COMMAND REFERENCE  
97  
RFS  
Return to factory settings  
Syntax  
aRFS  
Units  
-
Range of n’  
Default  
-
See also  
SV  
-
Description Issuing an RFS command initialises the drive to factory default settings. The  
drive must be de-energised (OFF) for the RFS command to be executed.  
Immediate, saved by SV  
Properties  
Note  
The address is set to axis 1 after performing an RFS command.  
The command takes effect immediately but a SV command must be  
executed to make the reset values permanent for future power cycles.  
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98 VIX AE SERVO DRIVE USER GUIDE  
SETUPFB  
SETUP motor FeedBack  
Syntax  
aSETUPFB  
Units  
Range of n’  
Default  
See also  
K
-
-
-
Description For a correctly wired Parker motor, this command is not required.  
However, when commissioning problems occur with a motor/drive system,  
the SETUPFB command can be used to troubleshoot motor wiring problems  
in encoder and resolver units and to temporarily compensate for these  
errors.  
The command reports wiring errors to the user:  
Correct these errors in hardware before shipping any system.  
If the command cannot correct an error it will display a message indicating  
the nature of the problem, followed by a FAIL message.  
CAUTION  
DO NOT COUPLE ANY MACHINERY TO THE MOTOR SHAFT WHILE  
RUNNING THIS COMMAND AS SHAFT MOVEMENT WILL OCCUR.  
Correct your wiring, as this will prevent future problems if you replace your  
motor or drive, since the software correction cannot be uploaded from a  
drive. Note, if you do use SETUPFB to permanently correct errors in non-  
standard motor/drive systems, you will need to run the MOTOR command  
followed by SETUPFB on every system.  
Immediate, saved by SV  
Properties  
Example  
1SETUPFB  
;commission a new motor attached to the drive  
You can abort this command using the KILL command. Under these  
circumstances, energising cannot take place until SETUPFB is correctly  
executed .  
Note  
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6. COMMAND REFERENCE  
99  
STATUS  
STATUS of Drive  
Syntax  
aSTATUS  
Units  
-
Range of n’  
Default  
-
See also  
-
Use this command to check the state of a drive. It is intended for set-up  
purposes rather than for use when a program is running.  
Description  
Immediate or buffered, cant be used in a labelled block, not saved by SV  
Properties  
Example  
1STATUS  
;checking the configuration and state of a drive  
1STATUS  
*ViX500AE-Servo Copyright 2002 Parker-Hannifin  
*Firmware: REV 1.4 Dec 03 2002 17:11:23 Map No: 124  
*Serial number: ..541935.00.1.4. -ViX500xx  
*Control card revision 2  
*Power card revision 3  
*Motor type undefined  
*
Servo drive  
Servo power stage E500  
*FPGA_ID (read)......... 1070  
*
FPGA_ID (file)....... 1070  
*MOTOR TYPE ............ 0  
RESOLUTION .......... 4000  
POLES ............... 8  
TRACKING LIMIT (TL).. 4000  
*CONT. STALL CURRENT ...  
*PEAK CURRENT (PC)......  
*INDEX POSITION (IX)....  
*
0.1 Amps  
300 %  
250  
*MOTOR SUPPLY...........  
*I/O SUPPLY.............  
*INTERNAL TEMPERATURE...  
*
81 V  
23 V  
28 C  
AUX SUPPLY........... 5.1 V  
I/O CONFIGURATION.... 256  
HEATSINK TEMPERATURE. 25 C  
*INCREMENTAL INDEXING (MI)  
*VELOCITY (V)........... 1.00  
*ACCELERATION (AA)...... 10.0  
*CURRENT POSITION (PA).. -471  
*
DISTANCE (D)......... 4096  
DECELERATION (AD).... 10.0  
ERROR (PE)...........  
0
*AXIS: READY  
*DRIVE FAULTS (DF): 0000_0000_0000_0000_0000_0000_0000_0000  
*DRIVE STATUS (ST): 0000_0000_0000_0000_0001_0000_0000_0000  
*USER FAULTS (UF): 0000_0000_0000_0000_0000_0000_0000_0000  
Note: Motor type has not been defined.  
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100 VIX AE SERVO DRIVE USER GUIDE  
SV  
Save configuration  
Syntax  
aSV  
Units  
-
Range of n’  
Default  
-
See also  
Z
-
Description When the SV command is issued, the current drive system variables and  
configuration are stored in non volatile memory. Following a reset or power-  
cycle the settings held in the non-volatile memory will be restored into the  
drive.  
Wait 1-2 seconds before sending any other command following an SV.  
Immediate  
Properties  
Example  
1RFS  
1MP  
1SV  
1Z  
;return drive to factory settings  
;set drive to position mode (step/direction control)  
;save current settings  
;reset drive  
1M  
;report current drive mode  
*MP  
This command will not operate whilst the motor is being commanded to  
move.  
Note  
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6. COMMAND REFERENCE 101  
W
Write system variable  
Syntax  
aW(system_variable,value)  
Description The W command allows you to set a specified system variable to a  
particular value.  
Refer to the table of system variables for more information.  
Immediate not saved by SV  
Properties  
Example  
Set system variable TL (Tracking Limit) to 4000  
Report the current value of system variable TL  
2W(TL,4000)  
2R(TL)  
*4000  
The controller responds with......................................  
The drive will need to be de-energised before certain system variables can  
be written to.  
Note  
See also R command.  
See table of allowable variables for individual parameter details.  
Z
Reset  
Syntax  
aZ  
Units  
-
Range of n’  
Default  
-
See also  
SV  
-
Description The Z command resets the drive. This is similar to power cycling the drive.  
Wait 1-2 seconds before sending any other command following a Z.  
Following the issue of the Z command, any configuration which has been  
made but not saved, with the SV command, will be lost.  
Immediate, not saved by SV  
Properties  
Example  
To reset all drives, type....................................................  
0Z  
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102 VIX AE SERVO DRIVE USER GUIDE  
System Variables  
Var  
Name  
R W  
Range/default value  
AB Analogue  
Deadband  
Y Y 0 to +255, default = 0  
AI  
Analogue Input  
Y N -2047 to +2047  
AM Analogue Monitor  
Mode  
Y Y 0 = torque monitor (default)  
1 = velocity monitor  
2 = outputs a triangular waveform 10V to +10V  
amplitude, with a 1 second period  
AO Analogue Offset  
BR BAUD rate  
Y Y -2047 to +2047, default = 0  
Y Y 9600 (default) or 19200 bits per second  
Y Y 1 to 100% (default) of peak drive current  
Y N See reporting of drive faults DF1,2,3 & 4  
CL  
DF Drive Fault status  
EI Encoder Input  
Current Clamp  
Y Y 0=step/dir (default), 1=cw/ccw, 2=quad ABZ, de-  
energise drive to change  
EO Encoder signal  
Output  
Y Y 0=step/dir, 1=cw/ccw, 2=quad ABZ (default), de-  
energise drive to change  
ES Energise Sense  
Y Y Sets the sense of the external energise/energise_bar  
signal  
0=low signal to energise (default)  
1=high signal to energise  
EX Comms. Response Y Y 0= speak when spoken to, echo off, RS232  
Style & Echo  
Control & Physical  
Interface (RS232)  
1= speak whenever, echo off, RS232  
2= speak when spoken to, echo on, RS232  
3= speak whenever, echo on, RS232 (default)  
FT  
Filter Time  
constant  
Y Y 0 to 255 used to filter high gain systems, measured in  
arbitrary units, default = 0  
GF Feedforward Gain Y Y 0 to 1023 default = 5  
(tracking)  
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6. COMMAND REFERENCE 103  
Var  
Name  
R
W
Range/default value  
GI  
Integrator Gain  
(steady state)  
Y Y  
Y Y  
Y Y  
Y Y  
0 to 1023 default depends on motor type  
GP Proportional Gain  
(stiffness)  
0 to 1023 default depends on motor type  
0 to 1023 default = 5  
GV Velocity feedback  
Gain (damping)  
IC  
Input/Output  
Configuration  
Input pull-up/down, output source/sink configuration  
0, 256 (default) or 257, for brake input only  
0=continuous (default)  
IM  
IW  
IX  
Integral Mode  
Integral Window  
Index Pulse  
Y Y  
Y Y  
Y Y  
default 50  
0 to 1023, default=250, motor definition dependent  
PA Position Actual  
PC Peak Current  
Y N* -2,147,483,648 to 0 to 2,147,483,647, default = 0  
Y Y  
Sets maximum drive output  
value=scaling factor 100-400% of MC, default=300%  
PE Position Error  
Y N  
+/- 32767  
PF  
Position Following Y Y  
-2,147,483,648 to 0 to 2,147,483,647, default = 0  
x.yy major.minor  
RV ReVision of  
software  
Y N  
SN Serial number  
Y N  
Drive serial number  
ST  
TL  
Status of indexing Y N  
See Reporting the Status of Variables ST1,2,3 & 4  
Tracking Limit  
Y Y  
0-65535, defaults to Motor Resolution or Motor  
Resolution/100 if >65535  
UF User program  
Fault status  
Y N  
See Reporting of user faults UF1,2,3 & 4  
*Can be set to 0 only.  
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104 VIX AE SERVO DRIVE USER GUIDE  
Drive Faults  
Bit Number  
Stop  
Type  
DF Information  
Composite fault (anything that causes a drive  
fault)  
1
2
3
4
5
6
7
8
K
K
K
C
C
K
K
T
R
R
R
R
T
+/-15V supply rail  
Motor HV under-voltage trip point reached  
Motor HV over-voltage trip point reached  
V I/O under-voltage trip point reached  
V I/O over-voltage trip point reached  
Encoder/Auxiliary 5V under voltage trip  
Impending power loss  
T
(24V logic supply)  
9
K
K
C
C
C
K
K
K
K
C
C
T
T
R
R
R
T
T
T
R
R
R
Commutation Fault  
Resolver fault  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
Motor over temperature  
Ambient over temperature  
Drive over temperature  
Incompatible firmware version  
Unrecognised power stage  
Controller diagnostic failure  
Output stage over current  
Output driver over current  
Tracking limit exceeded while in motion is a  
latched fault  
20  
21  
K
C
R
R
Velocity exceeded (unstable gains/motor spin-  
off)  
Energise input not set check energise input  
and state of ES variable  
Reserved  
Watchdog 1  
Watchdog 2  
Watchdog 3  
22-24  
25  
26  
K
K
K
T
T
T
27  
Key:  
C: Performs controlled stop  
K: Performs motion kill quick stop. Possible instant de-energise depending on fault source  
R: Recoverable without power cycle  
T: Terminal (requires power cycle or repair before drive will energise/operate again)  
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6. COMMAND REFERENCE 105  
Status Bits  
Bit Number  
Status Information  
9
Motor energised  
Motor undefined, use MOTOR command  
10  
16  
23  
24  
25  
26  
2
Duty cycle too high, excessive motor current (I t)  
Tracking limit is greater than max. allowed position error  
Last SETUPFB command failed  
In motion, 0 for positive motion, 1 for negative motion  
Brake applied, goes to a 1 if the brake is engaged  
User Faults  
Bit Number  
UF Information  
1
2
Value is out of range  
Incorrect command syntax, command has  
wrong format  
8
Drive de-energised  
16  
19  
22  
23  
26  
Transmit buffer overflow*  
Drive not ready  
Save/restore error  
Command not supported by this product  
Cannot execute motion as the brake is  
engaged  
27 to 32  
Reserved  
*sends an ASCII bellcharacter to indicate a buffer overflow condition.  
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106 VIX AE SERVO DRIVE USER GUIDE  
Command List  
Command  
BRAKE  
Description  
Brake configuration  
Gains configuration  
Change direction  
Kill  
GAINS  
H
K
Mode  
M
Motor settings  
MOTOR  
Report system parameter  
Return to factory settings  
Setup motor feedback  
Report status of drive  
Save configuration  
Write system variable  
Reset  
R
RFS  
SETUPFB  
STATUS  
SV  
W
Z
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7. MAINTENANCE & TROUBLESHOOTING  
107  
7. ViX Maintenance andTroubleshooting  
Maintenance  
ViX drive systems do not require any routine maintenance, but occasional checking of the  
following points is recommended.  
Motor inspection  
Periodically check the motor to ensure that the mounting bolts and couplings are tight.  
Check that the motor cables are not being damaged by moving parts and are not being  
pulled or forced into tight bends during machine operation. Check all cable connectors and  
particularly the safety earth connection.  
Drive inspection  
Check that the drives are clear of loose material and that there is adequate clearance to  
allow a free flow of air through the ventilation slots. Check that drive fixings are tight and that  
the motor screen connection is secure.  
Troubleshooting  
IMPORTANT NOTE - ensure that power is turned off before any connections are  
removed or changed. Removing a drive with power applied can turn a recoverable fault  
situation into a major problem.  
WARNING Risk of damage and/or personal injury  
The ViX drives described in this user guide contain no user-serviceable parts.  
Attempting to open the case of any unit, or to replace any internal component, may  
result in damage to the unit and/or personal injury. This may also void the warranty.  
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108 VIX AE SERVO DRIVE USER GUIDE  
Communication Problems  
When attempting a Connect from the Terminal menu, if the connection fails with the following  
error message:  
Figure 7-1. Communications Failure Error Message  
Check the following:  
1. Ensure the serial port configuration is set correctly in EASI-V and you select the correct  
serial COM port.  
2. An RS232 communications link can be loop tested by removing the communications D-  
type plug where it connects to the drive and placing a short between pins 4 and 5. In this  
condition, any command sent from the terminal window should be echoed back, confirming  
the integrity of the overall RS232 link. If this does not happen, check the RS232 lead  
connections and the PC serial port.  
Note: wiring of the RS232 lead must conform to that recommended in the Hardware  
Installation section, a null modem cable cannot be used.  
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7. MAINTENANCE & TROUBLESHOOTING  
109  
Drive LED Indicators  
ST  
HV  
FB  
Colour  
Function  
X1  
Green HV OK  
Orange  
Red  
HV OK and feedback fault  
Feedback fault with no HV  
10  
X3  
1
Colour  
Function  
6
9
Green Ready (energised)  
Orange  
Red  
Drive OK but de-energised  
Drive fault  
5
Colour  
Function  
Green Comms OK  
Orange  
Red  
Comms status  
Comms fault  
6
X4  
1
11  
15  
1
5
10  
Figure 7-2. Drive LED Indicators  
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110 VIX AE SERVO DRIVE USER GUIDE  
Complete LED Diagnostics  
An EASI-V version of this table is available for quick on-line viewing.  
LED Colour(s)  
Flash rate  
none  
none  
none  
-
Functional description  
motor supply OK  
HV  
HV  
HV  
HV  
green  
orange  
red  
motor supply under voltage (<16V)  
motor supply over voltage (>96V)  
no motor supply  
off  
ST  
ST  
ST  
ST  
green  
none  
drive OK and motor is energised  
orange  
red  
none  
drive OK but motor is de-energised  
drive fault (see DF report for more information)  
none  
2
red/green  
1 second  
I t duty cycle too high. Bit 16 of ST system  
variable set to 1.  
ST  
ST  
ST  
red/green  
red/off  
0.25 second communications receive buffer over-flow. Only  
a power-cycle clears this condition.  
0.5 second  
only on power-up following a flash upgrade.  
Indicates bad truncated FPGA file.  
red/off  
1 second  
only on power-up following a flash upgrade.  
Indicates a CRC error.  
ST  
FB  
FB  
off  
-
no logic supply. All other LEDs will also be off.  
fieldbus communications OK. Operational state.  
green  
green  
none  
1 second  
fieldbus communications OK. Pre-operational  
state.  
FB  
FB  
red  
off  
none  
-
fieldbus communications fault  
no fieldbus option  
Table 7-1. Status Bits Description (continued)  
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7. MAINTENANCE & TROUBLESHOOTING  
111  
Forcing a Hardware RFS  
Pin 2 of serial communications D-type connector X3 is for use as a hardware method of  
forcing a return to factory settings. It may be used when it is not possible to perform an OFF  
or RFS command.  
To force a hardware RFS follow the procedure detailed below, note you will loose any  
program in memory and system variables will return to their default values:  
1. Connect X3 pin 2 (MODE input) to X3 pin 3 (0V).  
2. Cycle the power to the drive - on power-up, any program present in memory is  
cleared and ALL system variables are set to their initial factory default value.  
3. Establish RS232 communications using Easi-V and type in 1SV and press [Enter]  
to store the changes.  
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112 VIX AE SERVO DRIVE USER GUIDE  
Returning the System  
If a drive module is found to be faulty, you should contact your Parker Automation  
Technology Centre or the machinery manufacturer who supplied the product. Equipment for  
repair should NOT be returned directly to Parker without prior authorisation. Repairs will be  
carried out by Parker but will be processed via your supplier.  
Parker may at their discretion authorise direct shipment to and from Poole, Offenburg or  
Rohnert Park, but only by prior arrangement with your supplier. Existing UK, European and  
USA customers who purchase equipment directly from Parker should contact Poole,  
Offenburg or Rohnert Park for further information (contact numbers are at the front of this  
User Guide).  
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8. HARDWARE REFERENCE 113  
8. Hardware Reference  
Drive Functional Specification ViX250AE, ViX500AE  
Parameter  
Maximum output current  
Value  
ViX500: 5A RMS continuous  
15A RMS peak (2 seconds max.)*  
ViX250: 2.5A RMS continuous  
7.5A RMS peak (2 seconds max.)*  
Maximum continuous power drawn from the  
supply  
6.3A at 80V (500VA)  
Motor HV supply input  
ViX500: 48 80V DC +5% -15%  
ViX250: 24 80V DC +5% -15%  
(No reverse polarity protection, HV  
reversal WILL damage the drive)  
Minimum PSU capacitance  
ViX500: 6,600µF  
ViX250: 3,300µF  
Controller supply input  
Protection  
24V DC +10% to 15%  
Short circuit (phase-to-phase, phase-to-  
ground)  
Motor HV over and under voltage trip  
(HV over voltage 98V nominal)  
Drive over-temperature  
Motor over-temperature (motor dependent)  
24V reverse polarity  
Commutation encoder fault  
Resolver fault  
2
Temperature protection (motor protection  
depends upon the type used) see Note 1.  
I t circuit protects motor and drive from  
excessive dissipation  
Motor current limit  
Selectable by software  
Motor inductance range  
0.5 to 10 mH For lower inductance motors  
consult Digiplan  
Fault output  
NPN open-collector output, normally low,  
active high  
Enable input  
24V input with pull-up resistor (can be  
software set to be active high or active low)  
HV/feedback fault  
LED status indicators (tri-colour)  
Drive fault  
Comms. status  
2
* 2 sec rotating 0.4 sec stationary see Plots of I t Against Drive Current  
Table 8-1. Functional Specification  
Note 1 See Motor Overtemperature Sensor in Electrical Installation section.  
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114 VIX AE SERVO DRIVE USER GUIDE  
Controller Specification  
Parameter  
Value  
Communication  
Data format  
8 data bits, 1 start bit, 1 stop bit, no parity,  
optional echoback, Xon/Xoff supported  
Baud rate  
9600, or 19,200  
Address setting range  
RS232 connection  
1 -255 by software  
2 wire plus ground  
Brake Input  
Input levels  
Logic high 14 - 24V, logic low 0 - 4V  
4K7  
Input impedance  
Fault Output  
Fault Output  
open collector  
30V max.  
15mA sink  
Table 8-2. Controller Specification  
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8. HARDWARE REFERENCE 115  
Drive Environment Specification  
Parameters  
Environment  
All drive types  
Pollution degree 2  
Operating temperature range  
0 to 40°C ambient for natural convection  
cooling  
40°C to 50°C with forced air cooling of  
minimum 0.5m/s entering the base of the  
3
drive (approximately 3.5m /h or 2cfm airflow  
through the cabinet)  
Storage temperature range  
Humidity  
-20 to 70°C  
95% max. non-condensing  
Cooling  
Natural convection 0 to 40°C, forced air  
cooling 40 to 50°C  
Housing  
Plastic/Aluminium heatsink  
Protection class  
Weight  
IP20  
0.55kg  
Table 8-3. Drive Environment Specification  
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116 VIX AE SERVO DRIVE USER GUIDE  
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APPENDIX A 117  
Appendix A  
Discrete Power Supply Recommendations  
If the XL_PSU is not being used individual ViX drives can be powered from  
transformer/bridge rectifier power supplies of the type shown in Figure A-1. This design  
suggests suitable component values for powering particular drive types, but can be adapted  
to power more than one drive provided component power ratings are not exceeded.  
Bridge rectifier rated at  
4A min. for ViX250 drive  
8A min. for ViX500 drive  
AC Fuse  
TD/HBC  
Line Fuse  
TD/HBC  
Bridge rectifier  
must have adequate cooling  
6K8 2.5W HV bleed resistor  
WARNING this will run hot  
EMC  
filter  
X1.10  
+
X1.9  
X1.8  
Capacitor 3300µF for ViX250  
6600µF for ViX500  
Isolating  
transformer  
with screen  
1metre max. from  
capacitor to drive  
Figure A-1. Drive Power Supply  
Note: The saftey earth must be reliably earthed at X1.8. The DC input should also be  
connected to earth at a convenient point.  
Supply Wiring  
2
Use approved mains cable (at least 0.75mm ) for primary wiring and route it away from  
secondary and signal wiring. Power input wiring must have a voltage withstanding rating of  
at least 1000V AC RMS. Note this figure is a test voltage, not the rated working voltage of  
the cable. Power input and motor wiring must be kept separate from signal wiring and  
insulated from operator access.  
Note: secondary wiring must have a current rating in excess of the AC fuse rating.  
Transformer Sizing for the DC Supply  
A DC input is required by the drive, which can be generated by rectifying and smoothing the  
secondary voltage of a transformer. This is an unregulated supply so do not select a  
secondary voltage which generates a DC output greater than 80V.  
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118 VIX AE SERVO DRIVE USER GUIDE  
The size of transformer required for a servo drive installation depends very much on the  
application and on the maximum shaft power delivered by individual motors.  
It is worth noting that in a one-off or low volume application it is usually preferable to be  
slightly generous in sizing the transformer, rather than spend a great deal of engineering  
effort trying to calculate the minimum possible rating. In low-power systems the potential  
savings in transformer cost are not large, although size and weight may also be a  
consideration. In a higher volume application the same principles apply to the prototype  
installation, but measurements of the supply current drawn under working conditions will give  
a useful guide to the final specification required.  
Fuses  
Fuses should be time delay, high breaking capacity and should be rated for the number of  
drives and expected in-rush current.  
AC Fuse  
The secondary AC fuse is intended to protect power supply components and should have a  
value twice that of the bridge rectifier current rating.  
Line Fuse  
Fit line fuses to protect the transformer primary and associated wiring. If you cannot identify  
the live wire, fuse both phase conductors. Calculate the fuse value using:  
1.5 × VA  
supply volts  
in amps, but needs to be a minimum of 2A to cope with the  
in-rush current.  
Fuse types should be anti-surge HBC (High Breaking Capacity).  
Note: If the application requires a power dump, use a Digiplan power supply such as the  
PL1100.  
CAUTION  
Ensure that all power supply components are mounted away from operator access, as  
high voltages and hot surfaces are present in normal operation.  
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APPENDIX B 119  
Appendix B Encoder & Resolver Phasing  
Encoder and Resolver Phasing Diagrams  
Positive direction is clockwise (CW) when the motor is viewed from the shaft. The  
commutation diagrams show motion in the positive CW direction. However, the drives  
internal electrical position counts down for CW motion.  
Resolver phasing diagrams for the IE drive  
Phasing is shown for clockwise rotation when the motor is viewed from the motor mounting  
flange.  
Line voltage W-V is defined as X1 pin 2 with respect to X1 pin 3  
Line voltage V-U is defined as X1 pin 3 with respect to X1 pin 4  
Line voltage U-W is defined as X1 pin 4 with respect to X1 pin 2  
Cos is defined as X2 pin 12 with respect to X2 pin 11  
Sin is defined as X2 pin 8 with respect to X2 pin 7  
The drive Z index mark is generated internally at the point where Sin is zero and Cos is at its  
positive maximum. The alignment of the resolver to the motor winding for non standard  
motors can be set by adjusting IX  
For the SMB motor IX = 180  
For the BE resolver motor IX = 90  
For easier set up, non standard motors should be configured to comply with the SMB motor  
phasing diagram.  
SMB phasing diagram  
W-V  
U-W  
V-U  
Cos  
Sin  
Drive Z index  
270 180 90  
270 180 90  
270 180 90  
270 180 90  
0
0
0
0
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120 VIX AE SERVO DRIVE USER GUIDE  
BE resolver phasing diagram  
W-V  
U-W  
V-U  
Cos  
Sin  
Drive Z index  
270 180 90  
270 180 90  
270 180 90  
270 180 90  
0
0
0
0
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APPENDIX B 121  
Encoder phasing diagrams for the IE Drive  
Phasing is shown for clockwise rotation when the motor is viewed from the motor mounting  
flange.  
Line voltage W-V is defined as X1 pin 2 with respect to X1 pin 3  
Line voltage V-U is defined as X1 pin 3 with respect to X1 pin 4  
Line voltage U-W is defined as X1 pin 4 with respect to X1 pin 2  
IndexZ mark occurs (is true) when X2 pin1 is positive with respect to X2 pin 2  
The position of the index mark is a system variable IX.  
The default setting and expected requirement of a non standard motor is to comply with the  
SME setting to avoid having to adjust IX.  
For SME motors IX = 150  
For BE motors IX = 90  
For H series drives the commutation set up does not use the index mark  
Positive encoder rotation is defined as when incremental encoder channel A leads  
incremental encoder channel B by 90deg  
There is only one index mark per mechanical revolution  
Incremental channel A is truewhen X2 pin 8 is positive with respect to X2 pin 7  
Incremental channel B is truewhen X2 pin 12 is positive with respect to X2 pin 11  
Commutation channel A0 is at X2 pin 9  
Commutation channel A1 is at X2 pin 13  
Commutation channel A2 is at X2 pin 14  
With respect to encoder GND (X2 pin 3 or X2 pin 6)  
SME phasing diagram  
W-V  
V-U  
U-W  
CommA0  
CommA1  
CommA2  
IndexZ  
360  
330  
300  
270  
240  
210  
180  
150  
120  
90  
60  
30  
0
electrical postion  
d
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122 VIX AE SERVO DRIVE USER GUIDE  
BE phasing diagram  
W-V  
V-U  
U-W  
CommA0  
CommA1  
CommA2  
IndexZ  
360  
330  
300  
270  
240  
210  
180  
150  
120  
90  
60  
30  
0
electrical postion degrees  
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INDEX  
123  
Index  
Command  
2
address requirements, 87  
label & multi parameter syntax, 88  
presentation, 87  
reference, 87  
simple syntax, 87  
24V supply requirements, 11  
A
A to D converter, 42  
AB, AI & AO system variables, 54  
Absorber ferrite, 25  
AI system variable, 42  
AM system variable, 46, 54  
ANA1 inputs, 42  
Analogue input, 42  
Analogue monitor output, 46  
AO system variable, 42  
Command checking, 89  
Command list, 106  
Command properties, 88  
Communication daisy chain, 48  
Communication problems, 108  
Communications specification, 114  
Compumotor Resolver, 36  
2
Control of I t parameters, 30  
B
Controller specification, 114  
Cooling, 115  
Cooling requirements, 5  
Baud rate changing, 38  
Baud rate selection, 78  
BE motor  
D
cables, 20  
BR system variable, 54  
Brake  
DC supply amps, 11  
DC supply capacitance, 11  
DC supply volts, 11  
Default directory, 72  
DF bit order, 59  
DF word, 59  
24V failure, 70  
default setting, 69  
drive fault, 70  
enable, 69  
input, 45  
Differential input, 42  
Dimensions, 6  
operation, 68  
reset, 70  
DIN rail mount, 7  
Direct mode, 51  
Disconnecting device, 9  
Dissipation parameters, 29  
Drive  
cooling, 5  
dissipation, 5  
fault reporting, 60, 104  
Drive fault  
byte reporting, 60  
Drive faults, 59  
BRAKE command, 90  
Brake control external, 69  
Brake control wiring, 35  
Brake fail safe, 34  
Brake fuse, 35  
Brake input specification, 114  
Brake output, 34  
Brake supply options, 35  
Braking  
automatic, 68  
dynamic, 68  
Drive inspection, 107  
Drive types, 2  
C
E
Cabinet installation, 9  
Cable part numbers, 20  
Cable screening, 21  
Capacitance of supply, 11  
Clean earth, 9  
Earth arrangements, 9  
Earth connections, 11  
Easi-V  
communicating with drive, 77  
help, 86  
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124 INDEX  
installation directory, 73  
menu overview, 75  
running, 73  
GP system variable, 56  
Guided servo setup, 79  
GV system variable, 56  
software file size, 71  
startup, 74  
status reporting, 85  
uninstall, 74  
H
H change direction, 92  
Hardware reference, 113  
Help menu, 76  
ED operation, 68  
Housing material, 115  
Humidity, 115  
Edit menu, 75  
EI system variable, 55  
Electrostatic precautions, 9  
EMC  
I
2
I t operation, 29  
Installation, 18  
2
Encoder  
I t protection scheme, 29  
input configuration, 55  
output configuration, 55  
Encoder phasing diagrams, 121  
Encoder simulated I/O, 42  
Encoder specification, 37  
Energise input, 44  
IM system variable, 56  
Immediate commands, 89  
Immediate or buffered commands, 89  
Immediate properties, 89  
Inputs & outputs, 2  
Installation, 9  
Environment specification for drive, 115  
EO system variable, 55  
ES system variable, 55  
EX system variable, 55  
External brake control, 69  
Installation safety requirements, 9  
Installation setup program, 72  
Installation time for S/W, 72  
Integrator gain, 56  
IW system variable, 56  
IX system variable, 56  
F
L
Fault output, 43  
Fault output specification, 114  
Fault status reporting, 59  
Feedback connector screen bonding, 23  
Feedforward gain, 56  
Ferrite absorber  
LED flash codes, 110  
Line fuse type, 118  
Line fuse values, 118  
LVD requirements, 9  
M
Curie temperature, 25  
impedance, 25  
part number, 25  
Maintenance, 107  
Maintenance & troubleshooting, 107  
Mode  
size, 25  
Ferrite absorber specification, 25  
File menu, 75  
position, 94  
torque, 94  
Filter time constant, 56  
Following encoder specification, 37  
Forcing a hardware RFS, 111  
FT system variable, 56  
Function indicators, 2  
Functional specification, 113  
velocity, 94  
Motor  
brake control, 35  
cable lengths, 20  
cable wiring, 22  
cables, 20  
connections at drive, 21  
connections at the drive, 21  
connections at the motor, 22  
default settings, 30  
G
GF system variable, 56  
Goto line number box, 75  
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INDEX  
125  
feedback connections, 22  
feedback connector wiring, 23  
phase contactors, 25  
power cable drive-end preparation, 21  
power connections, 22  
safety earth connection, 30  
selection, 26  
PSU discrete design, 117  
R
R report system parameter, 96  
RD operation, 68  
Reset to RS232 mode, 39  
Resolver compatibility, 36  
Resolver interface specification, 37  
Resolver phasing diagrams, 119  
Returning the system, 112  
RFS return to factory settings, 97  
RJ45 connecting leads, 49  
RJ45 patch cables, 49  
system variables, 30  
wire size, 21  
Motor inspection, 107  
Motor mounting precautions, 8  
MOTOR settings, 95  
Motors  
RS232 cables, 40  
optimum types, 26  
RS232 connecting leads, 40  
RS232 daisy chain, 46  
RS232 mode forced reset, 39  
RV system variable, 57  
voltage rating, 30  
N
Not saved by SV, 89  
O
S
Overload of outputs, 30  
Overtemperature switch connection, 38  
Safety earth connections, 11  
Save properties, 89  
Saved by SV, 89  
P
SBC Resolver, 36  
P clip part numbers, 21  
P clip sizes, 21  
Search menu, 75  
Serial communications configuration, 77  
Serial link lead, 71  
Servo control loop, 62  
Servo setup, 84  
SETUPFB setup motor feedback, 98  
Short circuit protection, 30  
Simulated encoder I/O, 41  
Simulated encoder I/O circuits, 42  
SM motor  
PA system variable, 56  
Parameter checking, 89  
Parameter value checking, 89  
PC requirements, 71  
PC system variable, 57  
PE system variable, 57  
PF system variable, 57  
PL1100  
product description, 17  
Pollution degree, 115  
Port configuration, 77  
Power input cable size, 117  
Power wiring precautions, 117  
Product  
cables, 20  
SN system variable, 57  
Software installation, 72  
Software requirements, 71  
ST  
bit order, 58  
system variable, 58  
word, 58  
description, 1  
features, 2  
variants, 2  
Star point, 9  
STATUS, 99  
Status Bit description, 58, 105  
Status report example, 85  
Status variable  
Properties  
immediate, 89  
save, 89  
Properties of commands, 88  
Proportional gain, 56  
Protection circuits, 2  
Protection class, 115  
byte reporting, 58  
Status variable reporting, 58  
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126 INDEX  
Step direction inputs, 55  
Step direction outputs, 55  
Step up step down inputs, 55  
Step up step down outputs, 55  
Supply  
ViX  
supply current, 11  
supply volts, 11  
ViX250/500 drive  
dimensions, 6  
connections, 10  
current, 11  
W
W write system variable, 101  
Weight, 115  
Welcome box, 72  
Windows menu, 76  
Windows, 71  
volts, 11  
SV save configuration, 100  
Syntax checking, 89  
System variables, 51, 87  
reading, 51  
Wire size of motor earth, 30  
Withstanding voltage rating, 117  
reporting status, 58  
table of, 52  
writing, 51  
X
T
X1 connector, 34  
X1 connector pin-out, 34  
X1 mating connector type, 34  
X2 connector, 36  
Temperature  
ambient, 115  
storage, 115  
X2 connector pin-out, 36  
X2 connector type, 36  
X3 connector, 38  
X3 connector pin-out, 38  
X3 connector type, 38  
X4 connector, 41  
X4 connector pin-out, 41  
X4 connector type, 41  
X5 connector, 44  
Terminal menu, 76  
Thermal limitations of DIN rail mount, 7  
TL system variable, 57  
Torque de-rating, 7  
Transformer  
sizing for applications, 118  
Transformer selection guide, 118  
U
UF byte, 61  
User fault  
X5 connector pin-out, 44  
X5 connector type, 44  
X6 & X7 connections, 47  
X6 & X7 position, 46  
XL-PSU  
product description, 14  
XL-PSU drive wiring diagram, 15  
XL-PSU mounting information, 16  
byte reporting, 61  
clear conditions, 61  
descriptions, 61, 105  
reporting, 61  
User faults, 59  
Utilities menu, 76  
V
Z
Velocity gain, 56  
Z reset, 101  
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CUSTOMER FEEDBACK 127  
Customer Feedback  
If you have spotted any errors, omissions or inconsistent information within this user guide  
please let us know. Either use this page (or a photocopy) to describe the error and Fax. it to  
the number given below. Alternatively, you may phone or email the correction.  
Name of user guide:  
Part number: 1600. _ _ _ . _ _  
Your name:  
Found on the title page in the bottom left corner.  
Contact number or email address:  
Description of the error: (Please include page number)  
Errors can be reported  
by Fax:  
By phone, via a technical Or by email:  
support engineer:  
+44 (0)1202 695750  
+44 (0)1202 699000  
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VIX AE SERVO DRIVE USER GUIDE  
A range of  
mating connectors  
are supplied, depending  
upon the type of fit-kit  
ordered.  
Power & Motor  
Communications  
X1  
Function  
X3  
24-80V DC  
0V / GND  
Earth  
10  
9
8
7
6
5
4
3
2
Reserved  
1
2
3
4
5
6
7
8
9
Drive reset  
RS232 GND  
RS232 Rx  
RS232 Tx  
Reserved  
RS232 Tx (D loop)  
do not connect  
+5V output  
24V DC  
0V (GND 24v DC)  
Motor Earth  
Motor phase U  
Motor phase V  
Motor phase W  
HV STFB  
X1  
Power Earth  
PE  
1
Motor brake  
10  
X3  
1
RS232  
9-way  
socket  
6
9
AE  
Function  
ANA1+  
Power & motor  
10-way  
connector  
Feedback resolver  
X4  
1
5
Function  
X2  
Reserved  
Reserved  
GND  
REFres+  
+5V output  
GND  
SIN-  
SIN+  
reserved  
Motor overtemp  
1
2
3
4
5
6
7
8
9
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
ANA1-  
0V  
/Z index out  
Z index out  
Fault output  
Enc. A- IN  
Enc. B- IN  
Enc. A- OUT  
Enc. B- OUT  
Energise/Energise  
Enc.A+ IN  
Enc. B+ IN  
6
X4  
Motor Earth  
ME  
1
11  
15  
1
5
Control/Aux I/O  
15-way  
socket  
10  
11 COS-  
12  
13  
14  
15  
COS+  
reserved  
reserved  
10  
6
X2  
Enc. A+ OUT  
Enc. B+ OUT  
15  
Primary  
feedback  
15-way  
socket  
X5  
1
10  
15  
REFres-  
11  
5
15  
User I/O  
15-way  
plug  
5
Feedback encoder  
AE  
Function  
X2  
11  
1
Function  
0V  
0V  
0V  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Brake IN  
+24V  
Incremental enc. Z+  
Incremental enc. Z-  
GND  
reserved  
+5V output  
1
2
3
4
5
6
7
8
9
X5  
1
2
3
4
5
6
7
8
10  
6
Fixing position  
for motor lead  
earth clip, included  
in fit kit  
GND  
Incremental enc.A-  
Incremental enc.A+  
Commutation f-b A0  
Motor overtemp  
10  
9
11 Incremental enc.B-  
10  
11  
12  
13  
12  
13  
Incremental enc.B+  
Commutation f-b A1  
14 Commutation f-b A2  
reserved  
+24V  
+24V  
15  
14 Reserved  
15  
RJ45 connectors  
X7 OUT  
Analogue  
monitor  
X6 IN  
High speed  
comm.  
Interface  
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