Mitsubishi Electric MR-JE-_A Instruction Manual page 110

4. STARTUP
(2) How to find the cause of position shift
Controller
(a) Output pulse
counter
Q
Cause A
SON (Servo-on) input
LSP/LSN (Stroke end) input
Cause C
When a position shift occurs, check (a) output pulse counter Q, (b) cumulative command pulse P, (c)
cumulative feedback pulse C, and (d) machine stop position M in the above diagram.
Also, Causes A, B, and C indicate the causes of position mismatch. For example, Cause A indicates that
noise entered the wiring between the controller and servo amplifier, causing command input pulses to be
miscounted.
In a normal status without position shift, there are the following relationships.
1) Q = P (Output counter = Cumulative command pulses)
2) When [Pr. PA21] is "0 _ _ _"
CMX [Pr. PA06]
P •
CDV [Pr. PA07]
pulses)
3) When [Pr. PA21] is "1 _ _ _"
131072
P •
FBP [Pr. PA05]
4) C • ∆ℓ = M (Cumulative feedback pulses × Travel distance per pulse = Machine position)
Check for a position mismatch in the following sequence.
1) When Q ≠ P
Noise entered the pulse train signal wiring between the controller and servo amplifier, causing
command input pulses to be miscounted. (Cause A)
Make the following check or take the following measures.
Check how the shielding is done.
Change the open collector type to the differential line driver type.
Run wiring away from the power circuit.
Install a data line filter. (Refer to section 11.9 (2) (a).)
Change the [Pr. PA13 Command pulse input form] setting.
Servo amplifier
Electronic gear
[Pr. PA05], [Pr. PA06],
P
[Pr. PA07], [Pr. PA21]
(b) Cumulative command pulses
(c) Cumulative feedback pulses
= C (Cumulative command pulses × Electronic gear = Cumulative feedback
= C
4 - 9
Servo motor
M
Cause B
C
Encoder
Machine
L
(d) Machine stop position M