5-15
MHT260a (Engl.)
(4) Origin LS detection (40)
Because the [LS] signal requires quick response, this should be directly input to the amplifier in general. When the host controller needs the
origin signal, the origin LS detection signal can be output.
While the [LS] signal is on, the origin LS detection signal (40) is on.
(5) LS-Z pulse
The encoder pulse count can be monitored, from the time when the [LS] signal goes to OFF level, until Z-phase signal is detected.
If this count is small, Z-phase signal of one rotation later may have been detected, depending on the origin LS response. In this case, move
the mechanical position of the origin LS.
5.4.2 Position preset
When this signal turns on, the current station number can be rewritten.
Position preset (Control input signal)
■ Function
At the ON edge(*) of this signal input, the current position can be rewritten to the value of the station mumber [PD14 to PD0].
Position preset is executable while speed zero [NZERO] signal is on.
When the position preset is executed, the origin return end is on.
This signal can reset the following alarm detection:
1) ABS (absolute) data lost
■ Parameter setting
To allocate the position preset signal to the control input terminal, set (16) to the system para.. If this signal is not allocated to the control
input terminal, this signal is deemed "always off".
Note : (*) ON edge means the control input signal's transfer point from off to on.
Origin LS [LS] detection
Origin LS (origin limit switch)
APS30
APS30APS30
APS30
PWR
PWRPWR
PWR
ALM
ALMALM
ALM
SX
SXSX
SX
SCPU32
SCPU32SCPU32
SCPU32
LOADER
LOADERLOADER
LOADER
RUN
RUNRUN
RUN
TERM
TERMTERM
TERM
SLV
SLVSLV
SLV
STOP
STOPSTOP
STOP
CPU
CPUCPU
CPU
No.
No.No.
No.
ONL
ONLONL
ONL
ERR
ERRERR
ERR
RUN
RUNRUN
RUN
ALM
ALMALM
ALM
BAT
BATBAT
BAT
ONL01234567
ONL01234567ONL01234567
ONL01234567
ERR89101112131415
ERR89101112131415ERR89101112131415
ERR89101112131415
ONLCH1
ONLCH1ONLCH1
ONLCH1
ERRCH2
ERRCH2ERRCH2
ERRCH2
EMG+OT‑OT
EMG+OT‑OTEMG+OT‑OT
EMG+OT‑OT
20
2020
20
1
11
1
B/A
B/AB/A
B/A
HP2
HP2HP2
HP2
ONL
ONLONL
ONL
ERR
ERRERR
ERR
PE1
PE1PE1
PE1
PH
PHPH
PH
PL
PLPL
PL
DA
DADA
DA
CH
CHCH
CH
No.
No.No.
No.
SCPU32
SCPU32SCPU32
SCPU32
LOADER
LOADERLOADER
LOADER
RUN
RUNRUN
RUN
TERM
TERMTERM
TERM
SLV
SLVSLV
SLV
STOP
STOPSTOP
STOP
CPU
CPUCPU
CPU
No.
No.No.
No.
ONL
ONLONL
ONL
ERR
ERRERR
ERR
RUN
RUNRUN
RUN
ALM
ALMALM
ALM
BAT
BATBAT
BAT
ONL01234567
ONL01234567ONL01234567
ONL01234567
ERR89101112131415
ERR89101112131415ERR89101112131415
ERR89101112131415
K80791234
K80791234K80791234
K80791234
L1
L1L1
L1
L2
L2L2
L2
L3
L3L3
L3
DB
DBDB
DB
P1
P1P1
P1
N
NN
N
P+
P+P+
P+
U
UU
U
V
VV
V
W
WW
W
CHARGE
CHARGECHARGE
CHARGE
FALDIC
FALDICFALDIC
FALDIC
SHIFT
SHIFTSHIFT
SHIFT
ENT
ENTENT
ENT
RYS201S3-VVS
RYS201S3-VVSRYS201S3-VVS
RYS201S3-VVS
MODE
MODEMODE
MODE
ESC
ESCESC
ESC
K80791234
K80791234K80791234
K80791234
L1
L1L1
L1
L2
L2L2
L2
L3
L3L3
L3
DB
DBDB
DB
P1
P1P1
P1
N
NN
N
P+
P+P+
P+
U
UU
U
V
VV
V
W
WW
W
CHARGE
CHARGECHARGE
CHARGE
FALDIC
FALDICFALDIC
FALDIC
SHIFT
SHIFTSHIFT
SHIFT
ENT
ENTENT
ENT
RYS201S3-VVS
RYS201S3-VVSRYS201S3-VVS
RYS201S3-VVS
MODE
MODEMODE
MODE
ESC
ESCESC
ESC
To Next Page
Loading...
