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EDSX11-133 Datasheet, PDF (6/10 Pages) Fuji Electric – Z SERIES FUZZY CONTROLLER X (48)48mm)
PYX4
Parameter sheet for PYX
Lock
level
All
Only End Set
locked SV
User Maker
0
1
2
3
Dis-
play
Mean of parameters
####
Measured value (PV)
####
####
LOCK
Setting value (SV)
Manual manipulated variable
(MV)
Lock for other parameters
CAS Remote SV input value
MOD
OUT 1
OUT 2
MV for output 1
MV for output 2
Mode of control
AT
Auto tuning command
D-SV
STAT
Second SV
Ramp / Soak location
TIME
PROG
Ramp / Soak rest time
Ramp / Soak command
SV1
TM1R
TM1S
SV2
TM2R
TM2S
SV3
TM3R
TM3S
SV4
TM4R
TM4S
P-ON
P
HYS
I
D
COOL
DB
AR
1st. target point (SV)
Time of 1st. Ramp segment
Time of 1st. Soak segment
2nd. target point (SV)
Time of 2nd. Ramp segment
Time of 2nd. Soak segment
3rd. target point (SV)
Time of 3rd. Ramp segment
Time of 3rd. Soak segment
4th. target point (SV)
Time of 4th. Ramp segment
Time of 4th. Soak segment
Auto start demand when turn on
for Ramp/Soak
Proportional Band
Hysteresis for two step control
Reset time
Rate time
Rate of Proportional Band
for cooling
Dead Band/ Overlap
Anti-Reset Wind-up
MAN Manual Reset value
AL1T
Alarm actions for Alarm 1
AL11
Set value for Alarm 11
Range
0~100%
0~100%
Unit
Engineering
unit
Engineering
unit
–3~103% %
0~3
0~100%
–3~103%
–3~103%
AUTO
MAN
REM
OFF
ON
LOW
0~100%
OFF
1-RP
1-SK
2-RP
2-SK
3-RP
3-SK
4-RP
4-SK
END
0.0~99.59/
100h
OFF
RUN
HOLD
(END)
0~100%
0.0~99.59
0.0~99.59
0~100%
0.0~99.59
0.0~99.59
0~100%
0.0~99.59
0.0~99.59
0~100%
0.0~99.59
0.0~99.59
NO
YES
0.0~999.9
0~100%
0~3200
0~999.9
Engineering
unit
%
%
Engineering
unit
HH. mm
Engineering
unit
HH. mm
HH. mm
Engineering
unit
HH. mm
HH. mm
Engineering
unit
HH. mm
HH. mm
Engineering
unit
HH. mm
HH. mm
%
Engineering
unit
Second
Second
0.0~10.0
–50~50%
0~100%
–100.0~
100.0
0000~(*1)
3FFFh
0~100%
%
Engineering
unit
%
Engineering
unit
Lock
level
All
Only End Set
locked SV
User Maker
0
1
2
3
Dis-
play
Mean of parameters
A11H Hysteressis for Alarm 11
AL12
Set value for Alarm 12
A12H Hysteressis for Alarm 12
AL13
Set value for Alarm 13
A13H Hysteressis for Alarm 13
AL2T
Alarm actions for Alarm 2
AL21
Set value for Alarm 21
A21H Hysteressis for Alarm 21
AL22
Set value for Alarm 22
A22H Hysteressis for Alarm 22
AL23
Set value for Alarm 23
A23H Hysteressis for Alarm 23
LOOP
HB-A
CT
PVT
Time for Loop break detection
Curent setting for Heater break
detection
Heater Curent indicated value
Input type/Decimal point/Temp.
Unit
PVF Upper scale for PV
PVB Lower scale for PV
PVD Decimal point position
TF
Rate of Digital Filter
SFT PV offset
SV-H High limit setting of SV
SV-L Low limit setting of SV
REMF Upper scale of Remote SV
REMB Lower scale of Remote SV
CTRL
Kind of control
DT
Cycle of computing
REV-1 Control action for output 1
REV-2 Control action for output 2
TC-1
TC-2
MV-H
MV-L
BURN
AOT
Proportional Cycle for output 1
Proportional Cycle for output 2
High limit of MV
Low limit of MV
Action when input is abnormal
Kind of Analog ourput source
STNO
AO-H
AO-L
Upper scale of AO
Lower scale of AO
Station No. for communication
Not es : *(1) : Hexa decimal code : refer to "Kinds of alarm" (page 4).
(2) : Hexa decimal code : refer to "Input range" (page 2).
Range
Unit
0~100%
0~100%
0~100%
0~100%
0~100%
0000~(*1)
3FFFh
0~100%
0~100%
0~100%
0~100%
0~100%
0~100%
0.0~99.59
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
MM. ss
1~50
Amp.
0~50
0000~
4111h (*2)
–1999~
9999
–1999~
9999
0~2
0.0~900.0
–50~50%
0~100%
0~100%
0~100%
0~100%
FUZY
PID
0.5
NORM
REV
NORM
REV
1~120
1~120
–3~103%
–3~103%
0~4
PV
SV
MV
0~100%
0~100%
1~15
Amp.
Code No.
1 word
DEC
1 word
DEC
1 byte DEC
Second
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Engineering
unit
Second
Second
Second
%
%
%
%
6