sh030106u.pdf - 第548页
16. FULLY CLOSE D L OOP SYS TEM 16 - 23 (b) Posit ion deviati on err or detec tion Set [Pr. PE03] to " _ _ _ 2" t o enabl e the p osition dev iat ion er ror detec tion. Position deviation error detectio n 2 [Pr…
16. FULLY CLOSED LOOP SYSTEM
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16.3.4 Fully closed loop control error detection functions
If fully closed loop control becomes unstable for some reason, the speed at servo motor side may increase
abnormally. The fully closed loop control error detection function is a protective function designed to pre-
detect it and stop operation.
The fully closed loop control error detection function has two types of detection methods: speed deviation
and position deviation. Select a detection method with [Pr. PE03 Fully closed loop function selection 2].
The detection level setting can be changed using [Pr. PE06] and [Pr. PE07].
(1) Parameter
The fully closed loop control error detection function is selected.
Fully closed loop control error detection function
0: Disabled
1: Speed deviation error detection
2: Position deviation error detection
3: Speed deviation error, position deviation error detectio
n
(Initial value)
[Pr. PE03]
(2) Fully closed loop control error detection functions
Servo motor
Linear encoder
1) Servo motor-side feedback speed [r/min]
2) Servo motor-side feedback position [pulse]
(load side equivalent value)
3) Load-side feedback speed [r/min]
4) Load-side feedback position [pulse]
(a) Speed deviation error detection
Set [Pr. PE03] to "_ _ _ 1" to enable the speed deviation error detection.
Speed deviation error detectio
n
1
[Pr. PE03]
The function compares the servo motor-side feedback speed (1)) and load-side feedback speed (3)).
If the deviation is not less than the set value (1 r/min to the permissible speed) of [Pr. PE06 Fully
closed loop control speed deviation error detection level], the function generates [AL. 42.2 Servo
control error by speed deviation] and stops. The initial value of [Pr. PE06] is 400 r/min. Change the
set value as required.
16. FULLY CLOSED LOOP SYSTEM
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(b) Position deviation error detection
Set [Pr. PE03] to "_ _ _ 2" to enable the position deviation error detection.
Position deviation error detectio
n
2
[Pr. PE03]
Comparing the servo motor-side feedback position (2)) and load-side feedback position (4)), if the
deviation is not less than the set value (1 kpulses to 20000 kpulses) of [Pr. PE07 Fully closed loop
control position deviation error detection level], the function generates [AL. 42.1 Servo control error
by position deviation] and stops. The initial value of [Pr. PE07] is 100 kpulses. Change the set value
as required.
(c) Detecting multiple deviation errors
When setting [Pr. PE03] as shown below, multiple deviation errors can be detected. For the error
detection method, refer to (2) (a), (b) in this section.
[Pr. PE03]
Setting
value
Speed deviation
error detection
Position deviation
error detection
1
2
3
16.3.5 Auto tuning function
Refer to section 6.3 for the auto tuning function.
16.3.6 Machine analyzer function
Refer to Help of MR Configurator2 for the machine analyzer function of MR Configurator2.
16.3.7 Test operation mode
Test operation mode is enabled by MR Configurator2.
For details on the test operation mode, refer to section 4.5.
Function Item Usability Remark
Test
operation
mode
JOG operation
It drives in the load-side encoder resolution unit
Positioning operation
The fully closed loop system is operated in the load-side encoder resolution
unit.
For details, refer to section 4.5.1 (1) (c).
Program operation
Output signal (DO)
forced output
Refer to section 4.5.1 (1) (d).
Motor-less operation
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16.3.8 Absolute position detection system under fully closed loop system
An absolute type linear encoder is necessary to configure an absolute position detection system under fully
closed loop control using a linear encoder. In this case, the encoder battery need not be installed to the
servo amplifier. When an rotary encoder is used, an absolute position detection system can be configured by
installing the encoder battery to the servo amplifier. In this case, the battery life will be shorter because the
power consumption is increased as the power is supplied to the two encoders of motor side and load side.
If using an absolute position detection system with a linear encoder, enable the system with [Pr. PA03
Absolute position detection system], and use this servo with the following restrictions.
(1) Using conditions
(a) Use an absolute type linear encoder with the load-side encoder.
(b) Set [Pr. PA01] to "_ _ 1 _", and [Pr. PE01] to "_ _ _ 0".
(2) Absolute position detection range using encoder
Encoder type Absolute position detection enabled range
Linear encoder
(Serial Interface)
Movable distance range of linear encoder (within 32-bit absolute position data)
(3) Alarm detection
The absolute position-related alarm ([AL. 25]) and warnings (AL. 92] and [AL. 9F]) are not detected.