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(4) Electrical Specifications for Pulse Train Reference
Forms of pulse train references are as shown below.
Pulse Train Reference Form
Sign + pulse train input
(SIGN + PULS signal)
Maximum reference fre-
quency: 4 Mpps
(Maximum reference fre-
quency in case of open-
collector output: 200 kpps)
CW + CCW pulse train
Maximum reference fre-
quency: 4 Mpps
(Maximum reference fre-
quency in case of open-
collector output: 200 kpps)
Two-phase pulse train with
90° phase differential
(phase A + phase B)
Maximum reference fre-
quency: 1 Mpps*
(Maximum reference fre-
quency in case of open-
collector output: 200 kpps)
∗
Each multiplier's maximum reference frequency before multiplication is 1 Mpps.
×1 input pulse multiplier: 1 Mpps
×2 input pulse multiplier: 1 Mpps
×4 input pulse multiplier: 1 Mpps
(5) I/O Signal Timing Example
I/O signal timing example is as shown below.
Servo ON
Baseblock
CN1-11
Sign + pulse train
CN1-7
Note: The interval from the time the servo ON signal is turned ON until a reference pulse is input (t3) must be at least 174
ms. Otherwise the reference pulse may not be received by the multi-winding drive unit.
Electrical Specifications
t1 t2
SIGN
t7
t3
PULS
t4
t5
t6
T
Forward reference
Reverse reference
t1
T
CCW
t2
CW
t3
Forward reference
Reverse reference
t1
t2
Phase A
Phase B
T
Forward reference
Reverse reference
Phase B leads
Phase B lags
phase A by 90°.
phase A by 90°.
ON
Release
t1
H
H
t3
L
5.4 Position Control
≤
0.025 μs
Sign (SIGN)
t1, t2, t3, t7
≥
H = Forward
0.5 μs
t4, t5, t6
τ ≥
0.125 μs
L = Reverse
τ ≥
0.125 μs
T-
≤
0.025 μs
t1, t2
≥
0.5 μs
t3
τ ≥
0.125 μs
−
τ ≥
0.125 μs
T-
≤
Reference pulse
t1
0.1 μs
form is set with
≤
0.1 μs
t2
Pn200.0.
τ ≥
0.5 μs
τ ≥
0.5 μs
T-
t1 ≤ 170 ms
t2 ≤ 6 ms
t2
(When Pn506 is set to 0.)
t3 ≥ 174 ms
Remarks
reference
reference
5
5-33
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