5-11
MHT260a (Engl.)
5.3.5 Deviation excessive [OF]
This function sets the deviation amount of deviation excessive (alarm detection) of amplifier.
Sets the pulse count for alarm detection about [OF]. Initial value at factory setting is 10000, and detects the deviation amount with 1000000
[pulse]. At factory setting, [OF] is detected, when the difference (deviation) between the current command position and current feedback
position becomes approximately 15.2 [revolution] when converted to motor rotation.
■ Parameter setting
The deviation excessive width is setting for use with alarm detection, and cannot be assigned to control output terminal.
■ Related items
Basic parameter 54
Para. Name Setting range Initial value Change
54 Deviation excessive width 10 to 65535 (in 1 step)
[x 100 pulse]
10000 Always
Setting is made by encoder pulse count (65536 [pulse/rev]).
5.3.6 Speed zero [NZERO]
This signal is turned on when the motor speed is near zero.
Speed zero [NZERO] (Control output signal)
■ Function
This signal turns on when the motor speed is below the value set by basic para. 52.
■ Parameter setting
To allocate the [NZERO] signal to the control output terminal, set (24) to the system para..
5.3.7 Speed arrive [NARV]
Check can be done that the motor rotation reaches the command speed.
Speed arrive [NARV] (Control output signal)
■ Function
This signal turns on, when motor speed reaches within setting value of basic para. 51 from the command speed. The command speed
involves speed setting by para., speed data from positioning data and speed command voltage.
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
Speed zero [NZERO]
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