4 DFGF 654
4 DFGF 654
4 DFGF 654
MHT273
SAFETY INSTRUCTIONS
(1) Types and meanings of warnings
In all stages of the installation, operation, maintenance and check of this equipment,
reference must be made to this manual and other related documents.
The correct understanding of the equipment, information about safety and other related
instructions are essential for this system.
Cautionary indications DANGER and CAUTION are used in this manual to point out
particular hazards and to highlight some unusual information which must be specially
noted.
Warning
Meaning
DANGER
CAUTION
An item described under Caution may result in a serious accident, depending on the
situation. Both items indicate important procedures, and make sure to observe them.
After reading this manual, keep it in a place where an operator can access it at any time.
(2) Figures
Figures are used so that the meaning of the display may be understood at a glance.
Figure
Meaning
Figure
Meaning
Action of general
operator
No contact
No disassembly
Be careful of electric
shock.
Be careful of fire.
Be careful of high
temperatures.
Caution
1. Use the specified combination of the servomotor and the servo amplifier or
fire or failure may occur.
2. Do not use the system in a place where it is exposed to water, a corrosive
atmosphere or flammable gas atmosphere, or beside a flammable item as
fire or failure may result.
3. Be careful as the temperature of the servo amplifier, servomotor and
peripheral devices is high and may cause burns.
4. Do not touch the radiator of the servo amplifier, the regenerative resistor and
the servomotor during power supply or soon after shutoff because they will
be hot and may cause burns.
5. When the surface temperature of the servomotor exceeds 70C for the final
product during operation of the servomotor, affix a caution label indicating its
high temperature.
Compulsory
1. Store the system in a place where there is no direct sunlight and in the
specified range of temperature/humidity (-20 C to 60C, 10% to 90%RH
or less, no condensation) or failure may result.
2. When the system is stored in installed condition
Cover the servomotor with a sheet to protect it from humidity, oil or water.
Apply rust preventive solution to the machined surfaces (shaft and flange
surfaces) every 6 months.
To prevent bearings rusting, perform manual turning or 5 minute idling
once a month.
3. If storage is to be for a long time, contact us.
Compulsory
1. Overloading of products may result in the collapse of piles. Observe the
instructions.
2. Use the servomotor eyebolt only for transportation of the servomotor not
for transportation of the machine as failure or injuries may result.
4. Maintain the specified distance between the main unit and the control panel
or other devices or failure may result.
5. Do not subject to strong impact or failure may result.
Compulsory
1. The servomotor shaft thru-hole is not waterproofed or oil-proofed. Take
necessary precautions for the machine to prevent entry of cutting oil into
the servomotor or failure may result.
2. If the system is used in an environment where the servomotor is exposed
to many water drips or oil drips, take precautions including a drip cover
over the machine.
The servomotor itself can be subjected to a few splashes without serious
consequences.
In an environment where there is much humidity or oil mist, perform wiring
so that lead wires and connectors face downward or failure may result due
to poor insulation or short-circuit.
3. Never modify the servomotor as a fire or failure may result.
Prohibited
1. Never connect the commercial power supply (200V) to the U, V and W
terminals of the servomotor or a fire or failure may result.
2. Do not connect a grounding wire (E) to the U, V and W terminals of the
servomotor and do not connect U, V and W terminals in the wrong order
or a fire or failure may result.
3. Never perform the withstanding voltage, megger and buzzer tests at the
encoder terminal as the encoder may be damaged.
To perform the withstanding voltage, megger and buzzer tests at the U, V
and W terminals of the servomotor, separate the connections from the
servo amplifier before the test.
4. Do not connect the encoder terminals in the wrong order as the encoder
and the servo amplifier may be damaged.
Compulsory
Grounding is performed to prevent electric shock in an emergency.
Make sure to perform grounding for safety.
Prohibited
The brake incorporated in the servomotor is for retention. Do not use it for
normal braking or failure or injuries may result.
Compulsory
Provide external emergency stop circuits so that the operation may be
stopped immediately and that the power may be shut off or fire, failure, burns
or injuries may result.
Prohibited
Do not disassemble the system for repairs other than an expert engineer.
If it is necessary to disassemble the motor, contact the shop you purchased or
nearest sales office.
Descriptions given in this manual may be different from those of the product as a
result of improvements of the product. Descriptions in this manual are subject to
change without notice.
Values are indicated in SI units (third stage) in this manual. The units may be
different from those indicated on the product (nameplate).
Illustration given in this manual may show the servo amplifier or servomotor of a
specific capacity. Accordingly they may be different from the appearance of the
product you have purchased.
Products introduced in this manual have not been designed or manufactured for
such applications in a system or equipment that will affect human bodies or lives.
Customers, who want to use the products introduced in this manual for special
systems or devices such as for atomic-energy control, aerospace use, medical use,
and traffic control, are requested to consult Fuji.
Customers are requested to prepare safety measures when they apply the products
introduced in this manual to such systems or facilities that will affect human lives or
cause severe damage to property if the products become faulty.
Introduction
This manual is the User's Manual for Fuji's FALDIC-W Series AC Servo System. The
User's Manual comes in one volume and covers all handling procedures of the
product.
The following document is included in the package of each device.
Device
Name of document
Users Manual
Servo amplifier Fuji FALDIC-W Series AC
Servo Amplifier (RYCD (C, B) 3-UUU2)
Servomotor
Users Manual
Fuji GYS/GYG Series AC Servomotor
Document No.
INR-SI47-0853
ING-SI47-0863
The type designation of the product covered in this manual is shown below.
Device
Applicable type
RYCD3-VVT2
Servo amplifier RYCC3-VVT2
RYCB3-VVT2
Servomotor
GYSDC2-***
GYGCC2-***
GYGBC2-***
For any uncertainties in the description of this manual or in the product itself, contact your
dealer or Fujis sales outlet shown at the end of the manual.
Icons
In this manual, the following icons are used:
Note If the system is incorrectly operated by ignoring this mark, the optimum performance
of FALDIC-W may not be shown, or such an operation or setting may result in an
accident.
Hint Useful reference items are given for operation or setting of the servo amplifier or the
servomotor.
CONTENTS
1
OUTLINE
1.1
1.2
1.3
1.4
Items to be confirmed
Servomotor
Servo amplifier
Explanation of Model Codes
4
1- 2
1- 3
1- 4
1- 5
TEST OPERATION
4.1 Check items for power supply
4.2 Test operation in three stages
4.2.1 First stage
4.2.2 Second stage
4- 2
4- 3
4- 4
4- 6
4.2.2.1
INSTALLATION
2.1 Servomotor
2.1.1 Storage temperature
2.1.2 Operating environment
2.1.3 Mounting
2.1.4 Handling
2.1.5 Power supply to servomotor
2.1.6 Cable stress
2.1.7 Protection against water and oil
2.1.8 Dimensional tolerances
2.1.9 Load
2.2 Servo amplifier
2.2.1 Storage environment
2.2.2 Operating environment
2.2.3 Mounting
2.2.4 Handling
2.2.5 Power supply to servo amplifier
2.2.6 Depth of amplifier
2- 2
2- 2
2- 2
2- 2
2- 3
2- 3
2- 4
2- 4
2- 6
2- 7
2- 8
2- 8
2- 8
2- 8
2-10
2-10
2-11
6
3
WIRING
3.1 Configuration
3.2 Servo amplifier
3.2.1 Commercial power supply
3.2.2 Power supply capacity
3.2.3 Motor power input/control power input
3.2.4 Sequence input/output (CN1)
3.2.5 Encoder (CN2)
3.2.6 Loader (CN3)
3.2.7 Monitor pin (CN4)
3.3 Servomotor
3.3.1 Servomotor
3.3.2 Brake
3.4 Encoder
3.5 Connection diagrams
3.6 Connection examples
3- 2
3- 4
3-6
3-7
3-9
3-11
3-14
3-14
3-15
3-16
3-17
3-19
3-20
3-25
3-39
PARAMETERS
5-1 Parameter configuration
5.1.1 Parameter editing through
keypad panel operation
5.1.2 Parameter editing through PC loader
5.2 List of parameters
5.3 Explanation of parameter
5- 2
5- 2
5- 3
5- 4
5- 9
ADJUSTMENT OF SERVO
6.1 Adjustment procedures
6.2 Easy tuning
6.2.1 What is "Easy tuning"
6.2.2 Operation pattern of easy tuning
6.2.3 Cautions for easy tuning
6.2.4 Description of operation
6.2.5 Factor of NG display
6.3 Pattern operation
6.3.1 What is pattern operation?
6.3.2 Description of operation
6.4 Basic adjustment
6.5 Application adjustment
6.6 Adjustment requiring high speed response
Overshoot adjustment
(only for position control)
6.8 Adjustment for shortening stabilization time
(only for position control)
6.8.1 In the case of under-run:
6.8.2 In the case of over-run:
6.9 Standard values for adjustment parameters
6- 2
6- 2
6- 2
6- 3
6- 4
6- 5
6- 7
6- 8
6- 8
6- 8
6-10
6-13
6-16
6.7
6-17
6-18
6-18
6-18
6-19
SPECIAL ADJUSTMENT
7.1 Vibration suppressing control
7.1.1 What is vibration suppressing control?
7.1.2 Parameter setting method
7.2 Command following control
7.2.1 What is command following control?
7.2.2 Parameter setting method
KEYPAD
8.1 Display
8.1.1 Mode
8.1.2 Operation key
8.1.3 Mode select
8.2
8.3
8.4
8.5
8.6
11 PERIPHERAL DEVICE
7- 2
7- 2
7- 4
7- 9
7- 9
7-10
Function list
Sequence monitor mode
Monitor mode
Parameter editing mode
Test running mode
8- 2
8- 2
8- 3
8- 3
8- 4
8- 6
8-10
8-16
8-20
Inspection
Memory back-up
Alarm indication
Expected service life and discharge
Part replacement
9- 2
9- 3
9- 4
9-19
9-20
10 Characteristics
10.1 Timing chart 1010.1.1 Power ON 1010.1.2 Response time of sequence
input signal 1010.1.3 Switching to each control mode 1010.1.4 Alarm detection/alarm reset 1010.2 Overload characteristics 1010.2.1 GYS motor 1010.2.2 GYG motor 1010.3 Power supply capacity and generation loss 1010.4 Inrush current 10-
2
2
2
3
3
4
4
5
6
6
12 SPECIFICATIONS
12.1 List of servomotor specifications 12- 2
12.1.1 Low inertia series (GYS motor)
3000 r/min 12- 2
12.1.2 Middle inertia series (GYG motor)
2000 r/min 12- 3
12.1.3 Middle inertia series (GYG motor)
1500 r/min 12- 4
12.2
Servo amplifier basic specification 12- 5
12.2.1 GYS motor (3000 r/min)
compatible servo amplifier 12- 5
12.2.2 GYG motor (2000 r/min)
compatible servo amplifier 12- 6
12.2.3 GYG motor (1500 r/min)
compatible servo amplifier 12- 7
12.2.4 Servo amplifier interface specification 12- 8
12.3
Speed-torque characteristics 12- 9
12.3.1 Low inertia series (GYS motor)
3000 r/min 12- 9
12.3.2 Middle inertia series (GYG motor)
2000 r/min 12-10
12.3.3 Middle inertia series (GYG motor)
1500 r/min 12-11
12.4
External Dimension 12-12
12.4.1 Low inertia series (GYS motor)
3000 r/min 12-12
12.4.2 Middle inertia series (GYG motor)
2000 r/min 12-13
12.4.3 Middle inertia series (GYG motor)
1500 r/min 12-14
12.4.4 Servo amplifier 12-15
CONTENTS
13 RS485 communications
13.1 RS485 communication function 1313.1.1 Station number 1313.1.2 Sequence input terminal (CONT1 to
CONT5) /sequence output terminal
(OUT1 to OUT4) 1313.1.3 Response time 1313.1.4 Communication specifications 1313.1.5 Transmission protocol 1313.1.6 Description of transmission data 1313.1.7 Status information1313.1.8 List of commands 1313.2 Command transmission specification 1313.2.1 Communication start procedure 1313.2.2 Normal communication procedure 1313.3 Protocol level error13-
2
2
2
2
3
4
5
6
7
8
8
8
9
APPENDIXES