D-8
PV input range table
[Thermocouple] [RTD]
C0
1
set value
Sensor
type
Range
(°C)
Range
(°F)
C0
1
set value
Sensor
type
Range
(°C)
Range
(°F)
1 K -200 to +1200 -300 to +2200 41 Pt100 -200 to +500 -300 to +900
2 K 0 to 1200 0 to 2200 42 JPt100 -200 to +500 -300 to +900
3 K 0.0 to 800.0 0 to 1500 43 Pt100 -200 to +200 -300 to +400
4 K 0.0 to 600.0 0 to 1100 44 JPt100 -200 to +200 -300 to +400
5 K 0.0 to 400.0 0 to 700 45 Pt100 -100 to +300 -150 to +500
6 K -200.0 to +400.0 -300 to +700 46 JPt100 -100 to +300 -150 to +500
7 K -200.0 to +200.0 -300 to +400 47 Pt100 -100 to +200 -150 to +400
8 J 0 to 1200 0 to 2200 48 JPt100 -100 to +200 -150 to +400
9 J 0.0 to 800.0 0 to 1500 49 Pt100 -100 to +150 -150 to +300
10 J 0.0 to 600.0 0 to 1100 50 JPt100 -100 to +150 -150 to +300
11 J -200.0 to +400.0 -300 to +700 51 Pt100 -50.0 to +200.0 -50 to +400
12 E 0.0 to 800.0 0 to 1500 52 JPt100 -50.0 to +200.0 -50 to +400
13 E 0.0 to 600.0 0 to 1100 53 Pt100 -50.0 to +100.0 -50 to +200
14 T -200.0 to +400.0 -300 to +700 54 JPt100 -50.0 to +100.0 -50 to +200
15 R 0 to 1600 0 to 3000 55 Pt100 -50.0 to +100.0 -50 to +200
16 S 0 to 1600 0 to 3000 56 JPt100 -60.0 to +40.0 -60 to +100
17 B 0 to 1800 0 to 3300 57 Pt100 -60.0 to +40.0 -60 to +100
18 N 0 to 1300 0 to 2300 58 JPt100 -40.0 to +60.0 -40 to +140
19 PL II 0 to 1300 0 to 2300 59 Pt100 -40.0 to +60.0 -40 to +140
20
WRe5-26
0 to 1400 0 to 2400 60 JPt100 -10.00 to +60.00 -10 to +140
21
WRe5-26
0 to 2300 0 to 4200 61 Pt100 -10.00 to +60.00 -10 to +140
22
Ni-Ni·Mo
0 to 1300 0 to 2300 62 JPt100 0.0 to 100.0 0 to 200
23
PR40-20
0 to 1900 0 to 3400 63 Pt100 0.0 to 100.0 0 to 200
24 DIN U -200.0 to +400.0 -300 to +700 64 JPt100 0.0 to 200.0 0 to 400
25 DIN L -100.0 to +800.0 -150 to +1500 65 Pt100 0.0 to 300.0 0 to 500
26
Gold iron
chromel
0.0K to 360.0 K 0 to 360 K 66 JPt100 0.0 to 300.0 0 to 500
67 Pt100 0 to 500 0 to 900
68 JPt100 0 to 500 0 to 900
[DC voltage/DC current]
C0
1
set value
Input type Range
81 0 to 10 mV The scaling and deci-
mal point position can
be changed variably
in a range of –1999 to
+9999
82 -10 to +10 mV
83 0 to 100 mV
84 0 to 1 V
86 1 to 5 V
87 0 to 5 V
88 0 to 10 V
89 0 to 20 mA Initial value
90 4 to 20 mA
*1
• The accuracy of the B thermocouple is ±4.0 %FS for a range of 260 °C or less, ±0.4 %FS for 260
to 800 °C and ±0.2 %FS for 800 to 1800 °C. The PV values under 20 °C are not shown.
• The accuracy of the No.15 (sensor type R) or No.16 (sensor type S) is ±0.2 %FS for a range of 100
°C or less, and ±0.15 %FS for 100 to 1600 °C.
• The accuracy of the No.23 (sensor type PR40-20) is ±2.5 %FS for 0 to 300 °C, and ±1.5 %FS for
300 to 800 °C, ±0.5 %FS for 800 to 1900 °C.
• The accuracy of the No.26 (sensor type gold iron chromel) is ±1.5 K.
• The accuracy of the No. 55 to 62 and 81 are ±0.15 %FS ±1digit for each ranges.
*2 The indicated low limit for a B thermocouple is 20 °C. However, if ROM version 1 of the instrument
information bank (
I
d02
) is prior to 2.04, the value is -180 °C.
List of alarm codes
Alarm
code
Failure name Cause Corrective action
Input failure
AL0
1
PV input failure
(Over-range)
Sensor burnout, incorrect wiring,
incorrect PV input type setting
Check the wiring.
Set the PV input type
again.
AL02
PV input failure
(Under-range)
Sensor burnout, incorrect wiring,
incorrect PV input type setting
AL03
CJ failure Terminal temperature is
faulty (thermocouple).
Check the ambient
temperature.
PV input failure
(RTD)
Sensor burnout, incorrect
wiring
Check the wiring.
AL05
RSP input failure
*
1
(over range)
Sensor line break, incorrect
wiring, incorrect RSP range
setting
Checking wiring or reset
RSP range code.
AL06
RSP input failure
*
1
(under range)
AL07
MFB input failure Motor line break, incorrect
wiring
Checking wiring or confirm
the MFB input.
AL
10
Motor adjust-
ment failure
Motor line break, incorrect wir-
ing, motor power supply failure.
Checking wiring, confirm the
motor power supply, reset.
AL
1
1
CT input failure
(Over-range)
(CT input 1 or 2,
or both)
A current exceeding the
upper limit of the display
range was measured. The
number of CT turns or the
number of CT power wire
loops is incorrectly set, or
wiring is incorrect.
• Use a CT with the cor-
rect number of turns for
the display range.
• Reset the number of CT
turns.
• Reset the number of CT
power wire loops.
• Check the wiring.
Unit failure
AL70
A/D conversion
failure
A/D converter is faulty. Replace the unit.
AL95
Parameter failure Power is shut-down while
the data is being set, or
data is corrupted by noise.
• Restart the unit.
• Set the data again (set
data for
AL95
/
97
and
adjustment data for
AL96
/
98
.
• Replace the unit.
AL96
Adjustment data
failure
Power is shut-down while
the data is being set, or
data is corrupted by noise.
AL97
Parameter failure
(RAM area)
Data is corrupted by noise.
AL98
Adjustment data
failure (RAM area)
Data is corrupted by noise.
AL99
ROM failure ROM (memory) is faulty. • Reset the unit.
• Replace the unit.
*1 Displays in RSP mode
Handling Precautions
• If ROM version 1 (
i
d02
) of the instrument information bank
is 2.04 or earlier, CT input failure (
AL
1
1
) is not displayed.
Event type
Operation
type
Set
value
Direct action
:
shows that the ON/OFF is changed at this value.
:
shows that the ON/OFF is changed at a point
that "1U" is added to this value.
Reverse action
:
shows that the ON/OFF is changed at this value.
:
shows that the ON/OFF is changed at a point
that "1U" is added to this value.
No event 0 Always OFF Always OFF
PV high
limit
1
ONHYS
Main setting
ON
HYS
Main setting
PV low limit 2
Main setting
ON
HYS
ON
HYS
PV high/low
limit
3
*1
Sub-setting
*1
ON HYS ONHYS
Main setting
*1
Sub-setting
*1
ONHYS
HYS
Deviation
high limit
4
ONHYS
SP + Main setting
ON
HYS
SP + Main setting
Deviation
low limit
5
ON HYS
ONHYS
Deviation
high/low
limit
6
Main setting Sub-setting
SP
ON HYS
ONHYS
ONHYS HYS
Main setting
Sub-setting
SP
Deviation
high limit
(Final SP
reference)
7
ONHYS
SP + Main setting
ON
HYS
SP + Main setting
Deviation
low limit
(Final SP
reference)
8
ON HYS
ONHYS
Deviation
high/
low limit
(Final SP
reference)
9
Main setting Sub-setting
SP
ON HYS
ONHYS
ONHYS HYS
Main setting
Sub-setting
SP
Heater 1
burnout/
Over-current
16
CT1 at output ON
Main setting
*
Sub-setting
*
ON HYS
ONHYS
ONHYS HYS
Main setting
*
Sub-setting
*
OFF before measuring the CT1 current value
OFF before measuring CT1 current value
Heater 1
short-circuit
17
ON
HYS
Main setting
ON
HYS
Main setting
OFF before measuring CT1 current value OFF before measuring CT1 current value
Heater 2
burnout/
Over-current
18
Main setitng
*1
Sub-setting
*1
ON HYS
ONHYS
ONHYS HYS
Main setting
*1
Sub-setting
*1
OFF before measuring CT2 current value OFF before measuirng CT2 current value
Heater 2
short-circuit
19
ON
HYS
Main setting
ON
HYS
Main setting
OFF before measuring CT2 current value OFF before measuring CT2 current value
Alarm
(status)
23
ON if alarm occurs (alarm code AL01 to 99).
OFF in other cases.
OFF if alarm occurs (alarm code AL01 to 99).
ON in other cases.
High and
low limits of
MFB value*
2
33
Main setting*1 Sub-setting*1
ON HYS
ONHYS
ONHYS HYS
1
Sub-setting*
: initial value
*1 If the main setting is greater than the sub-setting, operations are performed with the
main setting and sub-setting automatically swapped.
*2 Motor feedback
Event types other than the above:
Operation type Set
value
Operation type Set
value
Operation type Set
value
SP high limit 10 Loop diagnosis 1 20 During AT (status) 27
SP low limit 11 Loop diagnosis 2 21 During SP ramp 28
SP high/low limit 12 Loop diagnosis 3 22 Control action (status) 29
MV high limit 13 READY (status) 24 ST setting standby (status) 30
MV low limit 14 MANUAL (status) 25
Estimated position contorol (status)
31
MV high/low limit 15 RSP (status) 26 Timer (status) 32
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