Yokogawa 3 AXF Manual.

4. Wiring Cables
<4<.4W. Wirinrign>g> 4299 (4) DC Power Connection
When using DC power as the power supply for the converter, give attention to the following points.
4.1.1 Wiring Precautions 1) Connecting Power Supply
Be sure to observe the following precautions when wiring:
IMPORTANT CAUTION
•
•
(3) Precautions for Wiring of Power Supply
When connecting to the power supply, observe the points
below. Failure to comply with these warnings may result
4.1 Wiring the Integral
in an electric shock or damage to the instrument.
Flowmeter
This section describes the wiring of the integral owmeter.
WARNING
• • •
• •
Ensure that the power supply is OFF in order to
Do not connect power supply with reversed polarities.
WARNING
L/+ terminal: connect +
In cases where the ambient temperature exceeds
prevent electric shocks.
N/– terminal: connect –
50°C (122°F), use external heatresistant wiring
Ensure the protective grounding terminal is
The wiring of the magnetic owmeter must be grounded before turning the power on.
with a maximum allowable temperature of 70°C (158°F) or above.
DIoMnoPt cOonnRecTt AcabNleTs outdoors in wet weather in order to prevent damage from condensation and to
performed by expert engineer or skilled personnel. Use insulating sleeve crimp terminals (for 4-mm
Noscorpeewrsa)tofor rsthaellpboewpeerrsmuipttpeldy twoirpinegrfoarnmd proctecdtuivres r e g l a r t o i n u g n d t o i n w g i wr i n i r g i n . g .
To prevent electric shocks, ensure the electrical wiring cover (transparent) is attached.
Install an external switch or circuit breaker as a means to turn the power off (capacitance; 15A, conforCminAgUtoTIEICO60N947-1 and IEC60947-3). Locate this switch either near the instrument or
Onincoetahlel rwpirlaincgeisfcaocmilitpalteinteg, ecahseyckoptheeractoionn.eAcft ioxnas be“fPoorewaepr pOlyffinEgqupiopwmeerntot” tlhaebeinl stotrtuhmiseenxt.teImrnparlospweirtch
or circuit breaker.
arrangements or wiring may cause a unit malfunction
or damage.
Do not connect power supply with 100 to 240 V protect the insulation, e.g. inside the terminal box
2)
• The signal cables must be routed in separate steel
ACor100to120VDCinthecaseofa24Vpower of the owmeter.
supply version (power supply code 2).
• All the cable ends must be provided with round
It will give a damage to the converter.
crimp-on terminals and be securely wired.
Required Power Supply Voltages
conduit tubes 16 (JIS C 8305) or exible conduit
tubes 15 (JIS C 8309).
IMPORTANT
• Always route the power and output signal cables
in separate steel conduit tubes, except when the When using a 24 V power supply, the speci cation
Wiring Procedure for AXFA11
1. Turn the instrument’s power off, and remove the wiring cover (transparent).
2. Wire the power supply cable and the functional grounding cable to the power supply terminals.
power supply voltage is 24 V and four-core cables for the supply voltage is 24 V (–15% to +20%),
are used for wiring. Keep conduits or exible tubes but the input voltage of the converter drops due to
watertight using sealing tape.
cable resistance therefore it must be used within the
• When waterproof glands or union equipped following ranges.
waterproof glands are used, avoid tightening the glands v u
wi th
thane powe
xcessi r suppl
e torq voltag
e. eis24
V,itco
bla
nking
lug. U
e this
plug to
co
er
d
iring p
ort whe
n wirin
gthein
str
um
ne, et
four-c oturnt
re cab he pow
le. eroffb
efore o
pe
nin
al
ox cov
er.
7•96W(26h1e0n) e y
mes withaps vthe
I+ I– CUR OUT
SO1+ SO2+ COM STATUS OUT
AL+ AL– ALARM OUT
C
SA A B SB SIGNAL
STATUS IN
600 (1970) unuse w
ent with
gthe
N/–
L/+
EX1
EX2
P+
P–
SI1+
SI2+
COM
POWER SUPPLY
EXCITATION
PULSE OUT
446 (1460)
onlyo o
• Besur 200 ( 660)
termin b
Functional grounding cable
Figure 4.4.9
Power supply cable
F0456.ai
0
• Before turning the power on, tighten the terminal
20.4 22 24 26 28.8 box cover secureUlys.able range E (V)
Cable cross section area: 1.25 mm2
• The terminal box cover is locked by the special
Electric Cable Wiring for AXFA11 Remote Converter
use the hexagonal wrench attached. For handling
3. Reattach the electrical wiring cover (transparent).
3)
the locking screw, refer to Figure 4.1.5.
S• etBtiengsuProewtoelroSckupthpelycoFvrerqbuyetnhceyspecial screw
Cable cross section area: 2 mm2 F0457.ai screw. In case of opening the terminal box cover,
Figure 4.4.10 Supply Voltage and Cable Length for AXFA11
Remote Converter
using the hexagonal wrench attached after
IMPORTANT
installing the cover. For handling the locking screw,
refer to Figure 4.1.16.
Set the local commercial power frequency in order • Explosion protected types must be wired in
to eliminate the effect of induction noise from the accordance with speci c requirement (and, in
commercial power supply.
certain countries, legal regulations) in order to
Refer to “Parameter Description” in the user’s manual preserve the effectiveness of their explosion
of the AXFA11G Magnetic Flowmeter Remote protected features.
Converter [Hardware Edition/ Software Edition] (IM 01E20C01-01E).
Parameter No.: J30 and J31
I M I 0M1 E0 12 E0 A2 0 0 A1 - 0 0 1 1 - E0 1N E N
44
Wiring Wiring
Allowable cable length m(ft)


(5) Grounding
CAUTION
Be sure to connect the protective grounding of the AXFA11 with a cable of 2mm2 or larger cross section in order to avoid electrical shock to the operators and maintenance engineers and to prevent the in uence of external noise. Connect the grounding wire to the mark (100 Ω or less).
IMPORTANT
When optional code A (lightning protector) is selected, the ground should satisfy Class C requirements (grounding resistance, 10 Ω or less).
<4. Wiring> 50 (6) Connecting to External Instruments
WARNING
Before wiring with external instrument, be sure to turn off the power supply for AXFA11 converter and any external instruments.
Connect the AXFA11 terminal to external instruments, giving attention to the following points.
 4 to 20 mA DC Current Output
• The protective grounding terminals
the inside and outside of the terminal area. Either terminal may be used.
• Use 600 V vinyl insulation wires as the grounding wires.
l-
Resistive load max. 1 kΩ
Figure 4.4.11
Protective Grounding Terminal Location for AXFA11 Remote Converter
Protective grounding terminals
F0458.ai
are located on
Communication Resistive load BRAIN 250 to 450 Ω HART 250 to 600 Ω
F0459.ai
• As this is a transistor contact (insulated type), give attention to proper voltage and polarity when wiring.
• Do not apply a voltage larger than 30V DC or a current larger than 0.2A in order to prevent damage to the instrument.
• When input lter constant of the electronic counter is large in relation to the pulse width, the signal will decrease and the count will not be accurate.
• If the input impedance of the electronic counter is large, an induction noise from the power supply may result in inaccurate counts. Use a shield cable or suf ciently reduce the input impedance of the electronic counter within the electromagnetic owmeter pulse output speci cation range.
• The active pulse output (Optional code EM) cannot be used in conjunction with the standard pulse output.
• When the active pulse output (Optional code EM) is selected, do not be short-circuit between the P+ and P– terminals to avoid damaging the instrument.
• When the active pulse output (Optional code EM) is selected, the range of pulse rate must be set to 2 pps maximum.
• To avoid communication (BRAIN/ HART) failure, it is recommended to use the shield cable.
AXFA11
l+
Figure 4.4.12
 Pulse Output
4 to 20 mA DC Output Connection
IMPORTANT
Receiver Instrument
IM 01E20A01-01EN


Figure 4.4.14
 Status Input
IMPORTANT
Active Pulse Output Connection (Optional code EM)
(dry)contacts.BecarefulnottoconnectthestatustoCOMalve
<4<.4W. Wirinrign>g> 5219  Status Output / Alarm Output
IMPORTANT
4. 4.1 Thi
Wiring Protective diode P+
Mechanical Counter
ng the Integral wmeter
cribes theLwoiarding of theElienctreognircaClo uontwermet P-
AXFA11
PULSE OUT
Wiri
AXFA1F1 lo ssPeUcLtSioEnOdUeTs
P-
P+
30V DC, 0.2A. max
F0460.ai
4.1.1 Wiring Precautions
WARNING
Figure 4.4.13 Pulse Output Connection
er.
Be sure to observe the following precautions when wiring: voltage and polarity when wiring.
Do not apply a voltage larger than 30V DC or a current larger than 0.2A in order to prevent damage to the instrumenCt.AUTION
This output cannot switch an AC load. To switch an AC
• In cases where the ambient temperature exceeds load, an intermediate relay must be inserted as shown
50°C (122°F), use external heatresistant wiring in Figure 4.4.16 or Figure 4.4.17.
with a maximum allowable temperature of 70°C
Since this is an isolated transistor output, be careful of
The wiring of the magnetic owmeter must be
AXFA11 Protective diode performed by exPp+ert engineer or skilled personnel.
N re
AXFA11
hall be permitted to pe ngP.-
P+
UTION Load P-
procedures
Electronic Counter
o operator s
PULSE OUT lating to wiri
CA
PULSE OUT
OOutnpcuet vaoltlawgeir:i2n4gVisDcCo±m20p%lete, check the connections
Current: 150 mA or less
before applying power to the instrument. Improper
Pulse rate: 0.0001 to 2 pps
aPrurlasengweidmth:e2n0t,s3o3,r5w0,ir1in00gmsay cause a unit malfunction F0461.ai
rform
Mechanical Counter
(158°F) or above.
*The alarm output operates from closed (normal) to open
• Do not connect cables outdoors in wet weather in (alarm occurrence) by factory default setting. Changes
order to prevent damage from condensation and to can be made via the parameter settings.
protect the insulation, e.g. inside the terminal box
AXFA11
• All the cable
crimp-on ter
• The signal c conduit tube
tubes 15 (JI
• Always rout in separate
power suppl
pped Electro
teningv
Electro
trume v
or damage.
steel conduit tubes, except when the COM
of the owmeter.
Protective diode ends must be provided with round
+ SO1
minals and be securely wired. Load
ables must be routed in separate steel
s 16 (JIS C 8305) or exible conduit SOC2+8309). This connection is not possible.
e the power and output signal cables
y voltage is 24 V and four-core cables External power supply
30V DC, 0.2A. max
are used for wiring. Keep conduits or exible tubes
AXFA1w1atertight using sealing tape. SO1+
diode
glands with an excessive torque.
• When waterproof glands or union equi Protective
Load
magnetic waterproofglandsareused,avoidtighatlvhee
Relay
This connection is not possible. • When the power supply voltage is 24V, it comes
Status inputs are designed for use with no-voltage
SO2+
with a blanking plug. Use this plug to cover the
magnetic unused wiring port when wiring the ins nt with
any signal source carrying voltage.
Applying voltage may damage the input circuit.
only one, four-core cable.
F0463.ai
Figu•re 4B.4e.f1o6re tSutrantiunsgOthuetppuot wCeonr noenc, tiognhten the terminal box cover securely.
• The terminal box cover is locked by the special
External power supply AC power supply • Be sure to turn the power off before opening the
30V DC, 0.2A. max terminal box cover.
Closed: Less than 200 Ω
Open:
More than 100 kΩ SI1+
SI2+
COM
No-voltage status input
AXFA11
F0462.ai
AXFA1s1crew. In ca use the hex
the locking • Besuretol
Load efer to
Electro ed in v
Protective diode
se of opening the terminal box cover,
AL+
agonal wrench attached. For handling
screw, r Figure 4.1.5. AL-
ock the cover by the special screw
This connection is not possible. using the hexagonal wrench attached after
magnetic alve
External power supply AC power supply certain countries, legal regulations) in order to
Figure 4p.r4o.1te7cteAdlafrematOuruetps.ut Connection
installing the cover. For handling the locking screw,
AXFA11
refer to Figure 4.1.16. Relay
• Explosion protected types must be wir
AL+
AL-
accordance with speci c requirement (and, in
Figure 4.4.15
Status Input Connection
30V DC, 0.2A. max
preserve the effectiveness of their explosion F0464.ai
I M I 0M1 E0 12 E0 A2 0 0 A1 - 0 0 1 1 - E0 1N E N
44
Wiring Wiring


<5. Basic Operating Procedures> 52 5. Basic Operating Procedures
5.1 Operating Procedures Using the Display Unit
The modi cation of data settings from the display unit can be carried out using the three setting switches (infra-
redswitches)-namely,the“ ”“ ”and“ ” switches. The infra-red switches enable the user to set parameters without opening the cover.
This chapter will provide a description of basic data con guration and the methods to be used with the three setting switches. This instrument can also be operated using a handheld BRAIN Terminal (BT200) or a HART Con guration tool. (Refer to Section 5.5 for operation via BRAIN Terminal or HART Con gration tool.)
WARNING
Be sure to set parameters as “Protect” on the write protect function after nish of parameter setting work. Under extremely rare case, the infra-red switches may respond unexpectedly in such conditions as sticking ball of water or extraneous substances on the surface of display panel glass according to the principle of infra-red switch operation. Its probability rises in
such cases as sticking rain water by storm or other similar situation and washing up work near owmeter installation place.
Either to illuminate or stop illuminating the infra-red switches by the ashlight may cause the mis-reaction. Refer to Section 6.3 how to use the write protect function in detail.
IMPORTANT
Operate the display unit under the condition where direct sunlight, etc... do not shine to the setting switches directly when the parameter setting operation is carried out.
NOTE
• Always use the setting switches with the cover closed.
• Use these switches with them covered by the glass window.
• If dirt, dust or other substances surfaces on the display panel glass, wipe them clean with a soft dry cloth.
• The operation with dirty gloves may cause a switch response error.
5.2 Operating Panel Con guration and Functions
(4) Reversed character display (1) Data display area
100.000 m3/h 0 : : : 100
3274m3 FTL
FR
(3) Display items
(2) Setting switches (Infra-red switches)
F0501.ai
(1) Data display area
1st line (Display Select1), 2nd line (Display Select2),
and 3rd line (Display Select3) can be displayed using parameter settings. The content corresponding to selected item is shown with the reversed-character on the right of the line.
(2) Setting switch operations
: Move the layer down, select, and con rm + : Move the layer up (Press the
while holding down the switch)
switch
: Move the cursor down (for selection-type parameters) or increase values (for numeric-type parameters)
: Move the cursor to the right (for numeric-type parameters)
+ :Move the cursor up (for selection-type parameters)
IM 01E20A01-01EN


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I M I 0M1 E0 12 E0 A2 0 0 A1 - 0 0 1 1 - E0 1N E N
55
Basic Operating Procedures Basic Operating Procedures


5.3.1 Display Mode → Setting Mode
Display Mode will be adopted when the power is turned on, and the Setting Mode can be activated using the following procedure.
<5. Basic Operating Procedures> 54
NOTE
When the operations except
are carried out, the system will automatically return to the Display Mode.
When no operations in this display are carried out for 20 seconds, the system will automatically return to the Display Mode.
In order to request con rmation, the entire display ashes on and off.
Touch the switch once again at this time to x your selection.
F0507.ai
NOTE
When no operations in the ashed display are carried out for 20 seconds, the system will automatically return to the Display Mode.
When the operations except switch are carried out, the system will automatically return to the Display Mode.
The system enters Setting Mode. Parameters to be set can be selected.
F0508.ai
This completes the procedure for changing from
theDisplay Mode to the Parameter Search Mode.
5.3.2 Setting Mode
When the Setting Mode has been activated using the procedure from Section 5.3.1, parameters can be selected for setting.
NOTE
If no operations are carried out for a period of 10 minutes in Setting Mode, the system will automatically return to the Display Mode.
and switches
1st line: Actual instantaneous ow rate [FR]
2nd line: Bar graph indicating instantaneous ow rate
3rd line: Totalized forward ow rate [FTL]
Hold the switch for 2 seconds. Then, this display is changed to “Entry Mode”.
According to the screen, touch and switches
simultaneously.
F0504.ai
NOTE
• When other operations are carried out, the system will automatically return to the Display Mode. When no operations in this display are carried
out for 20 seconds, the system will automatically return to the Display Mode.
• The Major Item Parameter which is set just before will be shown when entering the Setting Mode again within 1 minute after returning from Setting Mode to Display Mode.
A screen is displayed to con rm whether or not the system is to enter Setting Mode.
The reversed-character (i.e. the cursor position) indicates the item that is currently selected.

100.000 0
F0503.ai

Setting Mode Yes



Setting Mode
No
Yes

Setting Mode
No
Yes
F0506.ai
Press the select [Yes].
switch and
F0505.ai
When [Yes] has been selected,
touch the
switch.
IM 01E20A01-01EN


Fo(r3m) atDfoisr Ppalaraymitetemr sData
Depending on the type of parameter, data is formatted in
one of the following three ways.
Displayed items and reversed-character indication
Major item
Sub-item parameter
Content
Sub-item Parameter
Search Mode has been
○: Display, ×: Not display
<5<.5B. aBsaiscicOpOepreartaintigngPrPorcoecdeudruerse>s> 553
accessed
Disp Select2 Disp Select3 switch
Disp Select1
in this screen.
Format
Instantaneous
Typical display
ow rate: %
Content
FR Displays the inst
Actual instanta (i) Selection-
Itnypsteantaneous Bar graph indi
neous ow rate ow rate: mA
FR Displays the act The desired data item is
selected from a predefined list. FR Displays the inst
e None Displaystheinst
F0509.ai cating instantaneous ow rat
Totalized forw (ii) Numeric-
type
Totalized rever
ard-direction ow rate se-direction ow rate
graph.
Data is set using the values FTL Displays the tota
in each digit and using the decimRalTpLoinDt.isplays the tota
Displays the di
F0510.ai
Totalized differ
Tag number (iii) Alphanumeric-
type Diagnosis of el
ential ow rate
DTL
Data is composed using
totalization and r alphanumeric characters
TAG Display the tag n (in the case of tag numbers,
special unitsD,iasnpdlatyhsetlhike)a.
With this format, setting can ADH description for
be carried out using up to Description for
16 characters shown below.
C10:Tag No FI-1101 FI-1201
ectrode adhesion
F0511.ai
antaneous ow rate for the span as a current output value. ○ ○
Major item antaneous ow rate for the
Sub-item
selection (A) lized value for ow rate in t
lized value for ow rate in the reverse direction.
The cursor has been ng bar
×2
Touch the
antaneous ow rate for the span as a percentage. F0513.ai
ual reading for instantaneous ow rate.
○○ to move the cursor to
○○
B21: Base Flow Unit.
moved to ×B21: Base ○
Flow
Unit in this screen. (Sub-
○ ○ item selection screen (A))
○ ○
fferential totalized value for flow rate betweF0e5n14f.aoirward everse totalization.
○○
Sub-item umber (using up to 16 characte
In this screen, Parameter × ○
Replacement Mode has ee the
Current unit setting
dhesion condition in the form Available selections
been called up using the parameters K10 through K15 from Chapter 8: Parameter × ○
more details.)
switch. ×○
Touch the switch to move the cursor to the unit item for selection. In this example, the
switch is touched twice to select l (Liter)
When l (Liter) has been selected, touch the
switch.
In order to request con rmation, the entire display ashes on and off. Touch the
switch once again at this time to x your selection.
COM Displays the communication type. Available selections
Display Unit Setting Methods
Communication type
Regarding the alphanumeric-type format (iii), the Sub-item following alphanumerics are displayed in(4th) Reefvoelrlsoewdicnhgaracter display Current unit setting sequence:
F0515.ai
×2
F0516.ai
Parameter F0517.ai
NOTE +
5.3 5.4
NOTE
Parameter Setting Procedure
UsuTahlliys tmheanpuaaral smheotwerstnhecceosns arrmy afotirobnaosficthoepseerat tvioanluies. set Ianctchoerdciansgetofthcehasnpgeicnig esdetvtianlgu,ersewfehreton “oPrdaerarimnge.ter HowDevsecr,ipiftipoanr”aomf eutseersr’sremlaatinugatloa soliwstsepdain Thabvle n1o.1t . been set, see the following procedure.
When changing other parameter values, refer to
“Parameter Description” of relevant user’s manual frPoamrameter Search Mode
Table 1.1. Select “Yes”
(2 seconds or more)
For overviewing the parameters, refer to Chapter 8.
Sub-item Parameter Search Mode
Display Mode Entry Mode
Major Item Parameter Search Mode
5.4.1 Setting Example for Selection-Type Data: Flow rate units
Select “No”
This example describes the setting of the ow rate units
Replacement Mode
for the selection-type parameter B21: Base Flow Unit
from m3 to l (Liter). the ashing state, the system will automatically return
Now, the system is in the Se+tting Mode. Parameters to be to the Sub-item Parameter Search Mode.
set can be selected.
Setting Mode
Major item parameter
NOTE
Press the SET switch while holding down the SHIFT switch. F0502.ai
The ▲ and ▼ symbols to the left of the parameters indicate that additional setting items to those being currently displayed may also be selected. Use the
switch to cycle through these items.
+
B:Easy Setup
▲ 50:Auto Zero Exe
10:Language
▼ 20:Flow Damping
B:Easy Setup
span as a percentage usi ▲ 20:Flow Damping
21:Base Flow Unit
▼ 22:Base Time Unit he forward direction.
B21:Base Flow Unit l(Liter)
B21:Base Flow Unit rs).
3
▲omf a bar graph. (S
▼ kl(Kiloliter)
m3
B21:Base Flow Unit m3
▲ l(Liter)
▼ cm3
#%&*+-./ 0123456789:<> ABCDEFGHIJKLMNOPQRST UVWXYZ abcdefghij klmnopqrstuvwxyz[space]
Setting modes
When no operations are carried out for 20 seconds in
* The term "mode" is used to refer to a situation where display and setting are possible.
Setting Mode ▲ P:Protect
B:Easy Setup
▼ C:Basic Setup
F0512.ai
Major Item Parameter Search Mode has been accessed in this screen. Touch the switch to access B: Easy Setup.
Major item
Sub-item selection (A)
switch are carried
The system automatically returns to sub-item selection screen (A).
F0518.ai
When the operations except
out, the parameter cannot be set.
B:Easy Setup
▲ 20:Flow Damping
21:Base Flow Unit
▼ 22:Base Time Unit
I M I 0M1 E0 12 E0 A2 0 0 A1 - 0 0 1 1 - E0 1N E N
55
Basic Operating Procedures Basic Operating Procedures


<5. Basic Operating Procedures> 56
5.4.2 Setting Example for Numeric-Type Data: Flow rate span
This example describes the setting of the ow rate span for the numeric-type parameter B23: Flow Span from 100 l/min to 120 l/min.
Now, the system is in the Setting Mode. Parameters to be set can be selected.
Modify the value to “120 l/ min” as follows:
Touch the switch to move the cursor to
the position for multiples of 10. Then, touch the
switch to change the value at this position
from “0” to “2”.
When the value of “120” has been setup, touch the switch.
When the switch is touched, the entire display ashes on and off. Con rm that the setting has been correctly changed to “120”, and then x this value by touching the
switch once again.
Setting Mode ▲ P:Protect
B:Easy Setup
▼ C:Basic Setup
Setting mode
Major item parameter
NOTE
The ▲ and ▼ symbols to the left of the parameters indicate that additional setting items to those being currently displayed may also be selected. Use the
switch to cycle through these items.
F0519.ai
Touch the switch to access B: Easy Setup.
F0524.ai
F0525.ai
B23:Flow Span 120 l/min
Sub-Item Parameter Search Mode has been accessed in this screen. Touch the switch to move the cursor to B23: Flow Span.
The cursor has been moved to B23: Flow Span in
this screen. (Sub-item selection screen (B)) Touch the switch to access Parameter Replacement Mode.
Once Parameter Replacement Mode has been selected, the digit that can be replaced will be ashed on and off. When in this condition, con rm the relevant setting range as displayed at the bottom of
the screen and then
set the parameter as required.
switch to move
from digit to digit, and use the
through values for each individual digit. In addition to digit, it is also possible to select a decimal point, and this allows the position of the decimal point to be changed.
Major item
Sub-item parameter
Major item
Sub-item selection (B)
×4 F0520.ai
NOTE
B:Easy Setup
▲ 50:Auto Zero Exe
10:Language
▼ 20:Flow Damping
B:Easy Setup
▲ 22:Base Time Unit
23:Flow Span
▼ 24:Flow Decimal Pnt
Selection of the appropriate parameter
When no operations are carried out for 20 seconds in the ashing state, the system will automatically return to the Sub-item Parameter Search Mode.
When the operations switch except are carried out, the parameter cannot be set.
F0521.ai
F0522.ai
NOTE
F0523.ai
When setting a new value, use the
Major item
Sub-item selection (B)
NOTE
Incorrect setting:
The system automatically returns to sub-item selection screen (B).
F0526.ai
F0527.ai
B:Easy Setup
▲ 22:Base Time Unit
23:Flow Span
▼ 24:Flow Decimal Pnt
B23:Flow Span 100 l/min 0001.0. l/min
Rng:0.00001 → 32000
Invalid value. Touch any key.
If the input value is outside the valid selection range, the message “Out of range. Touch any key.” will be displayed. In such a case, touch any switch to return to Parameter Replacement Mode and redo the setting.
switch to cycle
IM 01E20A01-01EN


(3)
Display items
<5<.5B. aBsaiscicOpOepreartaintigngPrPorcoecdeudruerse>s> 5573
IMPORTANT
NOTE
○: Display, ×: Not display Communication signal is superimposed on analoDgisp Select2
Displayed items and reversed-character
Content Disp Select1
Incorrect setting: 1200000 l/min Instantaneous ow rate: %
B23:Flow Span
indication
output signal. It is recommended to set a low-pass
FR Displays the instantaneous oltwera(tae pfopr rthoexsimpaantaeslya 0pe.1rcse)ntaogeth. e receiver in ○order ○
to reduce the output effect from communication
FR Displays the actual reading for instantaneous ow rate. ○ ○
100 l/min
Disp Select3
Rng:0.00001 → 32000
Actual instantaneous ow rate Out of range.
Instantaneous oTwourachtea: nmyAkey.
Bar graph indicating instantaneous ow rate F0528.ai
signal. Before online-communication, con rm that
FR Displays the instantaneous ow rate for the span as a current output value. ○ ○
message “Invalid value. Touch any key.” will be
IMPORTANT
Tag number
Diagnosis of electrode adhesion
Communicationtype COM Displaysthecommunicationtype.
5.5.1 Connecting the BT200 (4) Reversed character display
The connection for a BRAIN Terminal (BT200) is shown
as below.
5.5 BRAIN / HART Connection
Refer to its manual (IM 01C00A11-01E) for the operation
If the power of owmeter is turned off within 30 seconds after parameters have been set, these settings will be canceled. Accordingly, keep the power on for at least 30 seconds after setting parameters.
IMPORTANT 55 After approximately 5 minutes of inactivity, the Auto
5.3 Display Unit Setting Methods
of the BT200.
NOTE
The communication signal of the AXF is superimposed
onto the 4 to 20mA DC analog signals to be transmitted.
This manual shows the con rmation of the set value. The communication can be done through the BT200 set
In the case of changing setting, refer to “Parameter at any point between the 4 to 20 mA DC signal terminals
Description” of user’s manual as listed in Table 1.1.
of magnetic owmeter and the input terminals of receiving
instruments.
Working as a master, the BT200 Permits: Parameter Search Mode
1. 2. 3.
Setting and changing parameters for the magnetic
Select “Yes”
Monitoring PV and MV values and self-cMhajeorcIktem Parameter
owmeter
(2 seconds or more)
NOTE
Display Mode Entry Mode
information on the magnetic owmeter, and
Parameter Replacement Mode
English only. +
Even if the language with the exception of English is Setting modes
Directing the magnetic owmeter to enter the constant current output mode.
+
Magnetic flowmeter terminal box
BT200 BT200
Press the SET switch while holding down the SHIFT switch. Receiving
F0502.ai
Select “No” Relaying terminals
4 to 20mA DC shignal transmission line
Control room
Terminal board
selected at B10/H30: Language, the parameters are
Figure 5.5.1 Connecting the BT200
+
BT200
BT200
resistance 250 to 450Ω
F0529.ai
graph.
FTL Displays the totalized value for ow rate in the forward direction. Totalized reverse-direction ow rate RTL Displays the totalized value for ow rate in the reverse direction.
Totalized forward-direction ow rate
If more than one decimal point has been input, the
Totalized differential ow rate DTL Displays the differential totalized value for flow rate between forward displayed. In such a case, touch any switch to return to
Parameter Replacement Mode and redo the setting.
totalization and reverse totalization.
Search Mode
In case of BT200, the parameters are displayed in
Receiving
communication signal does not give effect on the
Displays the instantaneous ow rate for the span as a percentage using bar None upper system.
× ○
○ ○ ○ ○
○ ○
Restrictions exist with regard to the distance over
TAG Display the tag number (using up to 16 characters). × ○
which communication is possible. Displays the adhesion condition in the form of a bar graph. (See the
Refer to “OUTLINE” of the appropriate manual which
ADH description for parameters K10 through K15 from Chapter 8: Parameter
× ○ × ○
can be downloaded from our website. Description for more details.)
IMPORTANT
Basic Operating Procedures Basic Operating Procedures
Power-Off function will operate to turn your BT200 off.
Sub-item Parameter Search Mode
instrume*nTthe term "mode" is used to refer to a situation displayed in English upon BT200.
where display and setting are possible.
I M I 0M1 E0 12 E0 A2 0 0 A1 - 0 0 1 1 - E0 1N E N


5.5.2 Connecting the HART Con guration Tool
The HART Con guration Tool can interface with the magnetic owmeter from the control room, the magnetic owmeter site, or any other wiring termination point in the loop, provided there is a minimum load resistance of 250 Ω between the connection and the receiving instrument. To communicate, it must be connected in parallel with the magnetic owmeter, and the connections must be non- polarized. Figure 5.5.2 illustrates the wiring connections for a direct interface at the magnetic owmeter site. The HART Con guration Tool can be used for remote access from any terminal strip as well.
<5. Basic Operating Procedures> 58
NOTE
Before updating any setting, remember to always check the data content you want to change as described in Chapter 8.
For details, refer to “Parameter Description” of the appropriate manual which can be downloaded from our website.
NOTE
In case of HART Con guration, the parameters are displayed in English only.
Even if the language with the exception of English is selected at “Language” setting display, the parameters are displayed in English upon HART Con guration Tool.
Relaying terminals
Magnetic flowmeter USB
instrument
4 to 20mA DC shignal transmission line
Control room Terminal Receiving
board
terminal box
Figure 5.5.2
FieldMate modem
USB PC/FieldMate
Receiving
resistance 250 to 450Ω
F0530.ai
Connecting the HART Con guration Tool
WARNING
Be sure to set parameters as "Protect" on the write protect function after nish of parameter setting work. Under extremely rare case, the infra-red switches may respond unexpectedly in such conditions as sticking ball of water or extraneous substances on the surface of display panel glass according to the principle of infra-red switch operation.
Its probability rises in such cases as sticking rain water by storm or other similar situation and washing up work near owmeter installation place.
Either to illuminate or stop illuminating the infra-red switches by the ashlight may cause the mis-reaction. For details, refer to “Parameter Description” of the appropriate manual which can be downloaded from our website.
IMPORTANT
• Restrictions exist with regard to the distance over which communication is possible.
Refer to “OUTLINE” of the appropriate manual which can be downloaded from our website.
• If the power of magnetic owmeter is turned off within 30 seconds after parameters have been set, these settings will be canceled. Accordingly, keep the power on for at least 30 seconds after setting parameters.
IM 01E20A01-01EN


66.. Oppeerraatitoionn
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66
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IM 0IM1E0210EA201A-01-E0N1EN


6.3 Write Protect Switch
By setting the write protect function to “Protect” it is possible to prevent the overwriting of parameters. Write protection can be carried out using either the hardware switch on the CPU board (i.e., Switch 2) (See Figure 6.3.2) or software parameter settings. If either
of these items is set to “Protect,” the overwriting of parameters will be prohibited.
NOTE
• If the hardware switch is set to “Protect,” it will not be possible to overwrite parameters; furthermore, this condition will be maintained until the switch is set to “Enable.”
• In the case of eldbus communication type, setting of the hardware switch (Enable or Protect) is ineffective and write protection can be carried out only by software parameter settings.
For more details regarding usage of the write protect function and the software’s parameter switches, refer to “Parameter Description ” of the appropriate manual which can be downloaded from our website.
6.3.1 Setting Hardware Switch of Integral Magnetic Flowmeter or AXFA14 Re- mote Converter
IMPORTANT
To preserve the safety, do not touch the electrical circuit and the cables except the setting switches.
(1) Turn off the power.
(2) Loosen cover locking screw 1 clockwise using a
hexagonal wrench (nominal size 3) to unlock the cover. (Upon shipment from the manufacturing plant, the cover is locked.) Hold the owmeter with your hand and remove the cover by turning it in the direction of the arrow as shown below.
<6. Operation> 60
(3) Set the switches. There are two switches (See Figure 6.3.2). One is for burnout setting and the other for write protect setting, located adjacent to each other.
(4) Taking care not to entangle the cables, install the cover to the owmeter by turning it in the backward direction of the arrow as shown Figure 6.3.1.
(5) Tighten cover locking screw 1 counterclockwise using a hexagonal wrench (nominal size 3) to lock the cover.
Low High
2 Burnout setting switch
1 Write protect setting switch Enable Protect
F0609.ai
Switch Con guration for Integral Flowmeter
and AXFA14 Remote Converter
Switch 1 Switch 2
Figure 6.3.2
12
NOTE
On the ampli er’s CPU board, the burnout setting switch (i.e., Switch 1) and the write protect switch (i.e., Switch 2) are located adjacent to each other. Accordingly, special care should be taken when making switch settings.
6.3.2 Setting Hardware Switch of AXFA11 Remote Converter
IMPORTANT
To preserve the safety, do not touch the electrical circuit and the cables except the setting switches.
(1) Turn off the power.
(2) While supporting the front of the cover with your hand,
ip the connecting screw protective cover over, and
remove the four connecting screws.
(3) Loosen the ampli er assembly’s two screws while
supporting it with your hand (See Figure 6.3.3).
Cover locking screws
Figure 6.3.1
F0608.ai
Removing the Display Cover for Integral Flowmeter and AXFA14 Remote Converter
IM 01E20A01-01EN


6. Operation
After you have installed the owtube into the process piping, wired the input/output terminals, set up the required parameters, and performed a pre-operation zero adjustment, the magnetic owmeter should output an accurate ow signal from its terminals as soon as ow of the uid to be measured begins. This section describes zero adjustment and the corresponding procedures.
F0610.ai
Display unit mounting screws (x2)
Major item
Sub-item selection (D)
M:Adjustment
10:Auto Zero Exe
11:Magflow Zero
Upon selection of M: Adjustment, the cursor will be positioned at M10: Auto Zero Exe. (Sub-item selection (D))
Touch the switch to access Parameter Replacement Mode.
Touch the switch to move the cursor to “Execution”.
Fig6u.r1e 6.3.3PRrem-ovpingetrheaFtriontnCoZver ranod Mounting Screws of Display Unit for AXFA11 Remote
F0602.ai
F0603.ai
F0604.ai
F0605.ai
ACdojnuvesrttemr ent
Zero adjustment is carried out to ensure that the output (4) Lift the display unit (See Figure 6.3.4).
Touch the
to select the “Execution”.
In order to request con rmation, the entire display ashes on and off. Touch the
switch once again at this time to x selection of the automatic zero adjustment function.
66
for zero ow is 0% (i.e., 4 mA). Although adjustment to At this time, do not remove the connector.
zero is performed at the manufacturing plant prior to shipment, this procedure must be carried out once again following the installation of piping in order to match the magnetic owmeter to its operating conditions.
This section describes the zero adjustment procedure using display unit switches from the converter. Also, it can be operated using the BT200 Handheld Terminal. Accordingly, one of these methods should be selected and implemented.
IMPORTANT
Low High
Switc•h 1Zero adjustm2ent Bshuornuoldutbsetctianrgrisewditocuht before
NOTE
Switch 2 1
actual operation. Note that setting and update
Write protect setting switch functions cannot be carried out during thF0is611.ai
Enable Protect
Figure 6p.3ro.4cedSuwrietc(hi.eC.o, fno rgauprpatrioxnimfoartAeXlyF3A011seRceomnodtse).
When no operations are carried out for 20 seconds in the ashing state, the system will automatically return to the Sub-item Parameter Search Mode.
Converter
<6<.6O. pOepreartiaotnio>n> 6159
switch
Operation Operation
• Zero adjustment should only be carried out when
the owtube has been lled with measurement
When the operations except
out, the parameter cannot be set.
switch are carried
Auto zero adjustment function is being executed
(about 30 seconds).
When zero adjustment function has been completed, the system automatically returns to the sub-item selection screen (D).
(5) Set the switches. There are two switches (See Figure uid and the uid velocity is completely zero by
6.3.4). One is for burnout setting and the other for closing the valve.
write protect setting, located adjacent to each other. • Each time that the uid being measured is
(6) Taking care not to entangle the cables, install the changed, it will be necessary for zero adjustment
display unit with two mounting screws. to be carried out for the new uid.
Now Auto Zero Executing...
M:Adjustment
(7) Install the cover.
NOTE
Major item
Sub-item selection (D)
6.2 Zero Adjustment Using On the amDpli sepr’slaCPyUUbonaridt, tShewbuitrncohutesestting
10:Auto Zero Exe
11:Magflow Zero
switch (i.e., Switch 1) and the write protect switch
The parameters for zero adjustment are B50/M10: Auto
F0607.ai
(i.e., Switch 2) are located adjacent to each other. Zero Exe (and either of these can be used to carry out
Accordingly, special care should be taken when
this procedure). The parameter M10: Auto Zero Exe will
making switch settings.
be used in the following description.
NOTE
Setting mode
Major item parameter
Once in Setting Mode, use the switch to
move the cursor to M: Adjustment.
Touch the switch
to access Sub-item Parameter Search Mode.
The results of “M10: Auto Zero Exe” can be displayed using “M11: Mag ow Zero”. Alternatively, if the results of the automatic zero adjustment exceed the rated value, the warning “82: Auto Zero” Wng will be displayed.
F0601.ai
F0606.ai
IM 0IM1E0210EA201A-01-E0N1EN


<7. Errors and Countermeasures for Display unit and BRAIN protocol> 62
7. Errors and Countermeasures for Display unit and BRAIN protocol
NOTE
For FOUNDATION eldbus protocol, refer to IM 01E20F02-01E. For PROFIBUS PA protocol, refer to IM 01E20F12-01E. For HART protocol, refer to the applicable user’s manuals which can be downloaded from our website.
The table below shows a summary of error messages for Display unit and BRAIN protocols.
Note: □:Alphabet
System Alarms (Device breakdown or inability to obtain correct measurements.)
Display unit/BRAIN (60) content
Alarm countermeasure message on display unit
Alarm description
Countermeasure
10:uP Fault
Contact nearest of ce or service center
Microprocessor (CPU) failure
Contact your nearest Yokogawa of ce or service center.
11:EEPROM Fault
Contact nearest of ce or service center
EEPROM failure
12:A/D(H) Fault
Contact nearest of ce or service center
A/D converter failure
13:A/D(L) Fault
Contact nearest of ce or service center
14:A/D(Z) Fault
Contact nearest of ce or service center
15:Coil Open
Cut the power and check coil & EX cable
Flowtube coil is open-circuit
Turn off the AXFA11 or the AXFA14 power supply and examine the excitation cable for breakage. If there is no breakage, contact your nearest Yokogawa of ce or service center.
16:EEPROM D t
Contact nearest of ce or service center
EEPROM default values
Contact your nearest Yokogawa of ce or service center.
Process Alarms (Device is normal but process-related errors make correct measurement impossible.)
Display unit/BRAIN (60) content
Alarm countermeasure message on display unit
Alarm description
Countermeasure
30:Sig Over ow
Check signal cable and grounding
Input signal error
Carry out an investigation as follows: • Check the signal cable for
breakage.
• Checkforcontactbetweensignal
cable, power cable, and excitation
cable.
• Check for stray currents in the
uid.
Check the grounding.
31:Empty Pipe
Fill ow tube with uid
Flowtube is not lled with uid
Fill the owtube with uid.
32:HH/LL Alm
Check ow rate and setting value
Flow rate alarm for greater than High- High limit value or less than Low-Low limit value.
Check the flow rate and setting value of High High limit and Low Low limit.
33:Adhesion Alm
Clean electrodes
Electrode adhesion alarm
Clean the electrodes.
IM 01E20A01-01EN


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2SpSanpaflnowflovwelvoecliotycistyetstientgtinisg 0is.005.0m5/sm or loerslsess
52:5T2T:TL>T1L0>0100p0/0sp/s
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D 1 D1 1 a 1 r e a c r e o r c r o e r c r t e . c t . ss
53:5T3T:TL<T0L.<00.010p0/1sp/s
ChCechkecpkarpaamraemteertDer1D01a0ndanDd1D1 11
TotTaolitzaalitzioantioranteraitse0is.00.00500p5pspposr loerslse
54:544-2:40-2L0mLtmEtrrErr
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55:5M5u:MltiuRltinRgnEgrrErr
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C 2 h C e h c e k c w k h w e h t h e e t h r e p r a p r a a mr a e m t e e r t s e r F s 3 F 0 tishrothurgohugFh34F3{F43{6F}3a6r}eacreorcroercrte. ct.
56:5H6/:LHH/LHH/LHL/LSLeSt et
C h Ce c h k e c p k a r p a a mr a e mt e e r t Ge r 1 G0 1 t o 0 Gt o 1 G4 1 4
TheThceoncdointidointio[Hni[gHhigAhlaArmlar(mG1(G1)1–1)L–owLo AlaArlmar(mG1(G0)10>)H>/LHA/LlaArlmarHmyHsy(Gs 1(G4)1] or othr ethceocnodnitdioitnio[nHi[gHhigHhigHhigAhlaArlmar (G1(G3)1–3)L–owLoLwowLoAwlaArmlar(mG1(G2)12)
> H > / L H A / L l a A r ml a r Hm y Hs y ( Gs 1 ( G4 ) 1 ] 4 i s ) ] n i s o t n s o a t t s i s a t i e s d . e
Cw h C e h c e k c w k h w e h t h e e t h r e p r a p r a a mr a e m t e e r t s e r G s 1 G 0 t ) h ] r o t h u r g o h u g G h 1 G4 1 a 4 r e a c r e o r c r o e r c r t e . c t .
m
d.
57:5D7e:DnsenSseSt EetrrErr
ChCechkecpkarpaamraemteertCer4C0,4C0,4C5,4a5n, danCd4C64
6 M a Ms sa s u s n ui t ns i t h s a hv ea v b e e be en e s n e l s e e c l t e e c d t e f do r f BaBseasFeloFwloUwnUitn(iCt 4(C04) 0b)ubt udtednesintysiitsy setsteot0to. 0.
oCrhCechkecwkhwethetrhpear rpamraemteersteCrs4C0,4C0,4C5,4 i a s n d a n C d 4 C6 4 a 6 r e a c r e o r c r o e r c r t e . c t .
60:6P0L:PSL>S1>00100p0/0sp/s
ChCechkecpkarpaamraemteertEer1E0,1E0,11E,1a1n, danEd1E21
PuPlsuelsreatreaitse1is1010100p0pspposr omromreorweitwhi 50%50d%utdyustyelseeclteiocnti.on. PuPlsuelsraeteraitse1is001000p0pspposr moromreowreitwhith 0.005.0m5smsselseeclteiocnti.on.
tChhCechkecwkhwethetrhpear rpamraemteertseErs1E0,1E0,11E,1 a n d a n E d 1 E2 1 a 2 r e a c r e o r c r o e r c r t e . c t .
.1 .5 1 20 33 50 00
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62:6P2L:PSL>S1>0010p0/0sp/s
ChCechkecpkarpaamraemteertEer1E0,1E0,11E,1a1n, danEd1E21
PuPlsuelsraeteraitse1is00100p0pspposr moromreowreitwh i0th.50 msmsselseeclteiocnti.on.
63:6P3L:PSL>S5>005p0/0sp/s
ChCechkecpkarpaamraemteertEer1E0,1E0,11E,1a1n, danEd1E21
PuPlsuelsreatreaitse 5is0500p0ppsposr omromreorweitwhi1th msmsselseeclteiocnti.on.
64:6P4L:PSL>S2>5p2/5sp/s
ChCechkecpkarpaamraemteertEer1E0,1E0,11E,1a1n, danEd1E21
PuPlsuelsreatreaitse 2is52p5ppsposr omromreorweitwhi2th0 msmsselseeclteiocnti.on.
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ChCechkecpkarpaamraemteertEer1E0,1E0,11E,1a1n, danEd1E21
PuPlsuelsreatreaitse 1is51p5ppsposr omromreorweitwhi3th3 msmsselseeclteiocnti.on.
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67:6P7L:PSL>S5>p/5sp/s
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PuPlsuelsreatreaitse 5isp5ppsposr omromreorweitwhi1th010 msmsselseeclteiocnti.on.
70:7P0L:PSL<S0.<00.010p0/1sp/s
ChCechkecpkarpaamraemteertEer1E0,1E0,11E,1a1n, danEd1E21
PuPlsuelsraeteraitse0is.00.00500p5pspposr loerslse.ss.
71:7M1e:MaseaMsoMdoSdeSt et
ChCechkecpkarpaamraemteertCer2C020
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tCohCehcekcwkhwehtheethr eprapramraemterteCr2C02i0s acnorcroercrte. ct.
72:7S2:izSeizSeeSt EetrrErr
ChCechkecpkarpaamraemteertCer3C232
A vAalvuaeluoef 3o0f 3000.10m.1momr omromreorise sisets f o r f No r o Nm o i n m a i l n S a i l z S e i z ( Ce 3 ( C2 ) 3 . 2 ) .
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7 3 : 7 A3 d: Ah d S h e St Ee t r r E r r
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ChCechkecwkhwethetrhpear rpamraemteertseKrs11K,1K1,1K2,1 : K 4 1 K3 1 a 3 n d a n K d 1 K4 1 a 4 r e a c r e o r c r o e r c r t e . c t .
80:8A0d:AhedshieosnioWnnWgng
––
SligShlitgahdt haedshieosnioton etoleeclterocdtreosd.es.
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82:8A2u:AtouZtoerZoeWronWgng
––
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ntCaCrrayroryutoaudt jaudsjtumsetmnteanst afosllfowllosw: s:
• C•hCechkecifkthifethfleowflotuwbteubisefiisllefidllewditwhi
u i d u. i d .
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comcopmleptelelytezlyerzoe.ro.
• C•hCechkecthkethceoncdointidointionfgorfogurnoduindgi.n
8 3 : 8 F 3 i x : F C i x u C r Wu r n W g n g
––
TheThceurcruernrtevnat lvuaeluise isxe dx.ed.
C o C n o f i n r m f i r mw h w e h t h e e t h r e t h r e t h f e l o f w l o r w a t r e a t i e s i i n s exceexscsesosf othfethuepuppepr elirmlitm(i1t0(180%8)%o)r belboewlotwhethloewloewr leimr liitm(-it8(%-8)%, o)r, worhwethetrh u p ou np oe n n t er yn t t r oy t t ho e t hT e e sT t e Ms t o Md eo do er no or t n. o t .
84:8D4i:sDpisOpvOervWernWgng
––
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nCghCehcekcwkhwehtheethr eprapramraemterteCr4C34i3s corcroercrte. ct.
90:9D0i:sDpisSpWSWnWgn(ogn(loynfloyrfdoirsdpilsapylauyniut)n
it)
––
D i Ds p i s l a p y l a u y n u i t n i s t w s i wt c i h t c e h s e a s r a e r n e o n t opeorpaetirnagti.ng.
oInt vIensvteigsatigteatwehwehtheethr ethrethdeisdpilsapylauynuit covceorveisr fiisttefitdteodr owrhwethheetrhethrethceovceorv’esr glagslsassursfaucrfeacisedisirtdyi.rty.
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e
2
2 2 2 2 2 2 2 2
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nd
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IM 0IM1E0210EA201A-01-E0N1EN
Errors and Countermeasures for Display unit and BRAIN protocol Errors and Countermeasures for Display unit and BRAIN protocol


8. Parameter Summary
NOTE
For FOUNDATION eldbus protocol, refer to IM 01E20F02-01E. For PROFIBUS PA protocol, refer to IM 01E20F12-01E. For HART protocol, refer to the applicable user’s manuals which can be downloaded from our website.
8.1 Menu tree for DD (HART 5)
IMPORTANT
Make sure to keep the instrument’s power on at least for 30 seconds after you set the parameters.
If you turn the power off immediately after the parameters are set, the settings will be canceled.
Of ine menu
New Con guration Saved Con guration
Online menu
Device setup PV
PV AO
PV Span
Process Variables
Diag/Service
R/W (*3)
R R R R R R
R R R R R R
W
W R/W
Parameter No. (BRAIN protocol)
A10 A20 A21 A30 A31 A32
See Chapter 7
-
M10/B50 M11
Data (*4)
P P P P P P
- - - - - -
-
- - - -
*1 : Applicable for AXFA11 Remote Converter. *2 : Applicable for AXF Integral Flowmeter and
P : Periodic Data Renewing u/d : Discretionary Renewing – : Others (Method etc...)
AXFA14 Remote Converter.
*3:R/W:R =Readonly,W=ReadandWrite *4 : Data Renewing
Easy Setup
Detailed Setup
W-- W-- W-- W--
W N10 - W N20 - W N21 - W N22 - R N23 P R N24 P W N30 - W N31 - R N32 P
W K10 - W K11 - W K12 - W K13 - W K14 - R K15 -
W B10/H30 u/d W B20/C11 u/d W B21/C40 u/d W B22/C41 u/d W B23/C42 u/d W B24/C43 u/d W B30/D10 u/d W B31/D11 u/d W B32/E10 u/d W B33/E11 u/d W B40/H10 u/d W B41/H11 u/d W B42/H12 u/d W B50/M10 -
W C10 u/d W C11/B20 u/d
W C20 - W C21 - W C22 -
W C20 - W C23 - W C24 -
W C30 - W C31 u/d W C32 u/d W C40/B21 u/d W C41/B22 u/d W C42/B23 u/d W C43/B24 u/d R C44 P W C45 u/d W C46 u/d W C47 u/d W C48 u/d W C49 u/d
W D10/B30 u/d W D11/B31 u/d W D12 u/d W D13 u/d W D20 u/d W D21 u/d W D22 u/d W D23 u/d W D24 u/d W D30 u/d W D31 u/d
W E10/B32 u/d W E11/B33 u/d W E12 u/d W E13 u/d W E20 u/d
PV % rnge PV
PV AO
Totl Reverse Totl Dif Totl
Test/Status
Adjustment Output Test
Diagnosis
Language
PV Damping Base Flow Unit Base Time Unit PV Span
Flow Decimal Pnt Total Unit
Total Scale
Pulse Unit
Pulse Scale Display Select1 Display Select2 Display Select3 Auto Zero Exe
Basic Setup
Total
Pulse
(continued on next page)
Status
Self test
Auto Zero Exe Mag ow Zero D/A trim Scaled D/A trim
Loop test
Test Mode
Test SO1 (*1)
Test SO2 (*1)
Test Alarm Out (*1) Test SI1 (*1)
Test SI2 (*1)
Test DO (*2)
Test DIO (O) (*2) Test DIO (I) (*2)
Adhesion Check Adhesion Level1 Adhesion Level2 Adhesion Level3 Adhesion Level4 Adh Measure Value
Tag
PV Damping
MF Set
Select Flow Tube (*1) Nominal Size unit Nominal Size
Base Flow Unit
Base Time Unit PV Span
Flow Decimal Pnt Velocity Check Density Unit
Mass Flow Density User Span Select Flow User Unit Flow User Span
Total Unit
Total Scale
Total Decimal Pnt Total Low Cut Total Execution Ttl Set Val Lower Ttl Set Val Upper Ttl Switch Lower Ttl Switch Upper Ttl User Select Ttl User Unit
Pulse Unit
Pulse Scale
Pulse Width
Pulse Low Cut
Pulse Active Mode (*1)
Status group Status group Status group Status group Status group Status group
4mA 20mA Other End
1(System alarms) 3(Process alarms) 5(Setting alarms) 6(Setting alarms) 7(Setting alarms) 8(Warnings)
Standard DF Low MF High MF
Enhanced DF Low MF (EDF) High MF (EDF)
<8. Parameter Summary> 64
W- W-
IM 01E20A01-01EN


DevDicevsiceetuspetup PV PV
P V AP OV A O
P V SP pV a Sn p a n
DetaDiletdaiSleedtuSpetup
FunFctuionnctSioent Set
StatSutsaFtusnFctuionnction
AlarAmlarm
AlmARlmecRoredcord
DispDlaisypSlaeyt Set
AuxAux
PollPaodldl ar ddr NumNruemq rperqeapmresams BursBtumrsotdmeode BursBtuorpstionption
FieldFideeldvidceviincfeoinfo
ModMeol sdpeel csip ecci c
W r i t We p r i r t e o t p e r c o t t e c t
E n a E b n l e a Wb l e r t W1 0 r mt 1 i n 0 m i n NewNPeawsPswasosrdword SoftSwoafrtewaSreaSl eal
SO1SFOu1nFctuionnct(io*1n)(*1) SO2SFOu2nFctuionnct(io*1n)(*1)
S I 1 SF I u 1 n Fc t u i on nc t ( i o* 1n ) ( * 1 )
S I 2 SF I u 2 n Fc t u i on nc t ( i o* 1n ) ( * 1 ) SO1S/2OA1/c2tiAvectMivoedMeo(d*1e)(*1) SI1/S2IA1/c2tiAvectMivoedMeo(d*1e)(*1) D O DF uO n Fc t u i on nc t ( i o* 2n ) ( * 2 ) DIODFIuOnFctuionnct(io*2n)(*2)
D O DA cOt i Av ec t Mi v oe dMe o( d* 2e ) ( * 2 ) DIODAIcOtiAvectMivoedMeo(d*2e)(*2) ForwFaordwaSrpdaSnp2an2 ForwFaordwaSrpdaSnp3an3 ForwFaordwaSrpdaSnp4an4 RevReresveSrspeaSnp1an1 RevReresveSrspeaSnp2an2 RevReresveSrspeaSnp3a(n*13)(*1) RevReresveSrspeaSnp4a(n*14)(*1) AutoARutaonRgaenHgyesHys
Bi DBirieDctirioenctHioynsHys
LowLAolwarAmlarm HighHAiglahrAmlarm LowLLoowwLAolwarAmlarm HighHHigihghHAiglahrAmlarm
H / L HA / l aL r Am l a Hr my s H y s AlmAOlmutOAuct AMcotdMeo(d*1e)(*1) 4-204A-2la0rAmlaOrmutOut 4-204-B2u0rnBuOruntOut AlmA-Slmet-tSinegtting AlmA-Slmig-SOivgeOr ver AlmA-Elm-pEPmipePipe AlmA-HlmH-/HLLH/LL AlmA-Almdh-Aedsihoension
OpeOrapteiornatTioimn eTime AlmARlmecRoredc1ord1 AlmARlmecRoredcoTrimd eT1ime1 AlmARlmecRoredc2ord2 AlmARlmecRoredcoTrimd eT2ime2 AlmARlmecRoredc3ord3 AlmARlmecRoredcoTrimd eT3ime3 AlmARlmecRoredc4ord4 AlmARlmecRoredcoTrimd eT4ime4
DispDlaisypSlaeyleScet1lect1 DispDlaisypSlaeyleScet2lect2 DispDlaisypSlaeyleScet3lect3 DispDlaisypClaycCleycle LanLgaunagueage
4 - 2 0 4 m- 2 A 0 mL o A w L Co wu t C u t 4-204m-2A0mLoAwLLomwtLmt 4-204m-2A0mHiAghHLigmhtLmt FlowFlDowireDctirioenction
R a t e R L a i t me i L t i m i t
D e a D d e T a i md e T i m e PulsPinuglsFinlogwFlow
T / P T D / a P m D p a Sm e p l e S c e t l e c t PowPeorwSeyrnSchynch
P o wPe or wF er er qF ur e e qn uc ye n c y MemMoe1mo1
M e mM o e 2m o 2
M e mM o e 3m o 3 SoftSwoafrtewaRrevRNeov No
PV PV
% ra%ngraen/cguer/rceunrtrent ProcPersoscevsasrsv/acrns/tcrnt
ManMuafancutufarcetrurer TagTag DesDcreipstcorriptor MesMsaegsesage DateDate
DevDidev id
W r i t We p r i r t e o t p e r c o t t e c t RevRiseiovnis#io’sn #’s
UseUse
LininLgining ElecEtrleocdteroMdaetMeraiatel rial ElecEtrleocdteroSdteruSctruct GroGunroduinngdRinigngRing ProcPersosceCsosnCnoenctnect LayLaeynLgethngth ElecEtrleiccatlriCcaolnCnonn SenSsoernSsoeriSael Nriaol No
W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W W
W W W W W W W W W W W W W W R R W W W W W W W W W W
R R R R R R R R R R R R R R R R R R
F10F10 F11F11 F12F12 F13F13 F14F14 F15F15 F20F20 F21F21 F22F22 F23F23 F30F30 F31F31 F32F32 F33F33 F34F34 F35F35 F36F36 F40F40 F41F41
G10G10 G11G11 G12G12 G13G13 G14G14 G20G20 G21G21 G22G22 G30G30 G31G31 G32G32 G33G33 G34G34
G40G40 G41G41 G42G42 G43G43 G44G44 G45G45 G46G46 G47G47 G48G48
u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d
u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d -- u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d
P P P P P P P P P P P P P P P P P P
u/d u/d u/d u/d u/d u/d u/d u/d u/d u/d
u/d u/d u/d u/d u/d u/d u/d u/d -- -- -- -- -- PP -- -- -- --
- - - - - - - - - - - -
-- u/d u/d u/d u/d u/d u/d u/d u/d -- PP -- - - - -
- - - - - - - - - - - - - - - - - -
- - - - - - - -
u/d u/d
P P - - - - - -
RevRieewview
H o t Hk eo yt k e y
RevRieewv1iew1 RevRieewv2iew2 RevRieewv3iew3 RevRieewv4iew4
P V SP pV a Sn p a n
W r t WP r r o t t P e r c o t t Me c e t n M u e n u
W W B23B/C2432/C42
*1 : A*1p:pAlicpapblilceafbolreAfoXrFAX1F1AR1e1mRoetme CotoenCveorntveer.rter.
*2 : A*2p:pAlicpapblilceafbolreAfoXrFAIXnFteIgnrtaelgFrlaolwFmloewtmereatenrdaAnXdFAX1F4AR1e4mRoetme CotoenCveorntveer.rter. *3 : *R3/W: R:/WR :=RRe=aRdeoandlyo, nWly,=WRe=aRdeaandaWndritWe rite
*4 : *D4a:taDRateanReewninegwing
P : Pe:riPoedricioDdiactaDRateanReewninegwing u/d :uD/dis:cDreistciorneatiorynRareynReewninegwing – : O–th: eOrtsh(eMrse(tMhoedtheotcd..e.)tc...)
HARHTAoRuTtpouttput
DevDiceviincfeoinfo
W W W W W W W W WW WW WW WW W W R / WR / W WW WW WW RR
W W R R W W W W W W W W
R R W W W W WW WW RR R R R R R R R R
W W W W W W W W W W W W W W W W W W
R R R R R R R R
J10J10 J11 J11 J12J12 J20J20 J21J21 J22J22 J23J23 J24J24 J30J30 J31J31 J40J40 J41J41 J42J42 J50J50
- - - - - - - - - - - -
- - - - - - - - -- -- - - - - - - - -
- - - - - - - - - - - - - - - - - -
- - - - - - - -
88
<8<.8P. aPrarmaemterteSruSmumamrayr>y> 6565
UnivUenrsivaelrrseavl rev Fld dFeldvdrev rev SoftSwoafrtewarerev rev
R / W R ( / * W3 ) ( * 3 ) P a r a P ma r e a t me r e N t e o r . N o . D a t a D ( a * t 4 a ) ( * 4 ) (BR(ABIRNApIrNotporcotlo)col)
W W H10H/B1400/B40 W W H11H/B1411/B41 W W H12H/B1422/B42 W W H20H20 W W H30H/B3100/B10
Parameter Summary Parameter Summary
R R W W W W R R
P20P20 P21P21 P22P22 P23P23
IM 0IM1E0210EA201A-01-E0N1EN


<8. Parameter Summary> 66
Review 1
Tag
PV Damping Measure Mode
Low MF
High MF
Low MF(EDF)
High MF(EDF) Select Flow Tube (*1) NominalSizeunit Nominal Size
Base Flow Unit
Base Time Unit
PV Span
Flow Decimal Pnt Velocity Check Density Unit
Mass Flow Density User Span Select Flow User Unit
Flow User Span
Total Unit
Total Scale
Total Decimal Pnt Total Low Cut Total Execution Ttl Set Val Lower Ttl Set Val Upper Ttl Switch Lower Ttl Switch Upper Ttl User Select Ttl User Unit
Pulse Unit
Pulse Scale
Pulse Width
Pulse Low Cut
Pulse Active Mode (*1)
uP Fault EEPROM Fault A/D(H) Fault A/D(L) Fault A/D(Z) Fault Coil Open EEPROM D t
PLS>10000p/s PLS > 5000p/s PLS > 1000p/s PLS > 500p/s PLS > 25p/s PLS > 15p/s PLS > 10p/s PLS > 5p/s
SO1 Function (*1)
SO2 Function (*1)
SI1 Function (*1)
SI2 Function (*1) SO1/2 Active Mode (*1) SI1/2 Active Mode (*1) DO Function (*2)
Display Select1 Display Select2 Display Select3 Display Cycle Language
4-20mA Low Cut 4-20mA Low Lmt 4-20mAHigh Lmt Flow Direction Rate Limit
Dead Time Pulsing Flow
T/P Damp Select Power Synch Power Frequency Memo1
Memo2
Memo3
Software Rev No
Use
Lining
Electrode Material Electrode Struct Grounding Ring Process Connect Lay Length Electrical Conn Sensor Serial No
Adhesion Check Adhesion Level1 Adhesion Level2 Adhesion Level3 Adhesion Level4 Adh Measure Value
Span > 10m/s Span < 0.1m/s TTL>10000p/s TTL<0.0001p/s 4-20 Lmt Err Multi Rng Err H/L HH/LL Set Dens Set Err
Adhesion Wng Auto Zero Wng Fix Cur Wng
Poll addr
Num req preams Burst mode Burst option
Manufacturer Tag Descriptor Message Date
Dev id
Write protect
Universal rev Fld dev rev Software rev
DIO Function (*2) DOActiveMode(*2) DIO Active Mode (*2) Forward Span2 Forward Span3 Forward Span4 Reverse Span1 Reverse Span2 Reverse Span3 Reverse Span4
(*1)
(*1) Auto Range Hys
Bi Direction Hys
Low Alarm
High Alarm
Low Low Alarm
High High Alarm
H/L Alarm Hys
Alm Out Active Mode (*1) 4-20 Alarm Out
4-20 Burn Out Alm-Setting Alm-Sig Over Alm-Emp Pipe Alm-HH/LL Alm-Adhesion Operation Time Alm Record1
Alm Record Time1 Alm Record2
Alm Record Time2 Alm Record3
Alm Record Time3 Alm Record4
Alm Record Time4
Sig Over ow Empty Pipe HH/LL Alm Adhesion Alm
PLS<0.0001p/s Meas Mod Set Size Set Err Adh Set Err
Status 1
Review 2
Review 3
Review 4
Status 3
Status 5
Status 6
Status 7
Status 8
*1 : Applicable for AXFA11 Remote Converter.
*2 : Applicable for AXF Integral Flowmeter and AXFA14 Remote Converter.
IM 01E20A01-01EN


Device setup O
Detailed Setup
Function Set
Data (*4) F10 u/d
*3: R/uW/d :DRiscr=etiRonaeryaRdenoenwilnyg, W = Read and Write – : Others (Method etc...)
<8<.8P. aPrarmaemterteSruSmumamrayr>y>
6765
8.2 Parameter List (BRAIN)
R/W (*3) Status Function SO1 Function (*1) W
Parameter No. (BRAIN protocol)
PV
I t e P mV A
PV Sp
Name
R/W (*3)
Data range
Units
PosSiOti2oFnunoctfion (
SI1 Function (*
decimal point
SI2 Function (*
*D1)efault value (*):
1) Indicated item 1)
W F11 u/d DesWcription F12 u/d
W F13 u/d
an Display unit (BRAIN)
Display unit/BRAIN
A00
Display (DISPLAY)
SO1/2 Active M SI1/2 Active Mo DO Function (*
ode (*1) de (*1)
2)
W F14 u/d W F15 u/d W F20 u/d
A10
FR
(FLOW RATE (%))
R
-110.0 to 110.0
%
DIO1Function (* DO Active Mod
2)
e (*2)
For Display ModeWonly F21 u/d W F22 u/d
A20
FR
(FLOW RATE)
R
-999999 to 999999
B21/B22 (C40/C41)
DIO Active Mod 0Fotrowa3rd Span2 Forward Span3
e (*2)
W F23 u/d For Display ModeWonly F30 u/d
W F31 u/d
A21
FR
(FLW RATE (mA))
R
2.400 to 21.600
mA
Forward Span4
3
Reverse Span1
Reverse Span2
W F32 u/d
For Display Mode only
W F33 u/d
W F34 u/d
A30
FTL (TOTAL)
R
0 to 99999999
B30 (D10)
Reverse Span3 0to7 Reverse Span4
Auto Range Hy
(*1) (*1)
s
W F35 u/d For Display Mode only
W F36 u/d W F40 u/d
A31
RTL
(REV TOTAL)
R
0 to 99999999
Al
B30 arm (D10)
Bi Direction Hy 0to7
Low Alarm
s
W F41 u/d For Display Mode only
W G10 u/d
A32
DTL
(DIF TOTAL)
R
-99999999 to 99999999
B30 (D10)
High Alarm
0to7
Low Low Alarm
High High Alar
W G11 u/d
For Display Mode only
W G12 u/d
W G13 u/d
A60
—
(SELF CHECK)
R
Good Error
H/L Alarm Hys Alm Out Act Mo 4-20 Alarm Out
de (*1)
See Chapter 7. W G14 u/d W G20 u/d
W G21 u/d
B00
Easy Setup (EASY SETUP)
4-20 Burn Out Alm-Setting Alm-Sig Over
R G22 - W G30 u/d W G31 u/d
B10
Language (LANGUAGE)
W
English Japanese French German Italian Spanish
Al
m Record
Alm-Emp Pipe Alm-HH/LL Alm-Adhesion
Operation Time Alm Record1 Alm Record Ti Alm Record2 Alm Record Ti
English
e1 e2
W G32 u/d Selects the language used for the
W G33 u/d display unit. Linked with H30.
W G34 u/d
R G40 P R G41 P R G42 P R G43 P R G44 P
B20
Flow Damping (FLOW DAMPING)
W
0.1 to 200.0
s
Alm1Record3 Alm Record Ti
3.0 s e3
Sets damping timeR. Linked wGi4t5h C11. P R G46 P
B21
Base Flow Unit (FLOW UNIT)
W
Ml(Megaliter) m3
kl (Kiloliter) l (Liter) cm3
m
t
kg
g
kcf
cf
mcf
Mgal (US) kgal (US) gal (US) mgal (US)
Di
Au
kbbl (US Oil)
HART output P
bbl (US Oil)
mbbl (US Oil) B
ubbl (US Oil)
B kbbl (US Beer)
bbl (US Beer)
Device info Fi
mbbl (US Beer) ubbl (US Beer) ft
klb (US)
lb (US)
N
splay Set
x
oll addr
um req preams urst mode
urst option
eld device info
Alm Record4 Alm Record Ti
Display Select1 Display Select2 Display Select3 Display Cycle Language
4-20mA Low C 4-20mA Low L 4-20mA High L Flow Direction Rate Limit Dead Time Pulsing Flow T/P Damp Sele Power Synch Power Frequen Memo 1
Memo 2
Memo 3 Software Rev N
PV
% range/curren Process vars/cr
Manufacturer Tag Descriptor Message Date
Dev id
Write protect
m (*) e4
ut t mt
ct cy
o
t nt
R G47 P
Selects ow units for the ow rate span. R G48 P
Linked with C40. W H10/B40 u/d
W H11/B41 u/d W H12/B42 u/d W H20 u/d W H30/B10 u/d
W J10 u/d W J11 u/d W J12 u/d W J20 u/d W J21 - W J22 - W J23 - W J24 - W J30 -
R/W J31 P W J40 - W J41 - W J42 - R J50 -
W-- R-- W-- W-- W-- W--
R-- W - u/d W - u/d W - u/d W - u/d R-- R-P
B22
Base Time Unit (TIME UNIT)
W
/d /h /min /s
M
odel speci c
Revision #’s
Use Lining
/s (*)
Universal rev R - - Selects time units for the ow rate span. Flddevrev R - -
SLoiftnwkaeredrewv ith C41. R - -
W-- W--
B23
Flow Span (FLOW SPAN)
W
0.0001 to 32000
B21/B22 (C40/C41)
Electrode Mate 0to4 Electrode Struc
Grounding Ring
rial
t1 m/s (*)
W-- Sets ow rate span (with units from B21 W--
and B22). Linked Wwith C42. - -
B24
Flow Decimal Pnt (FLOW DECIMAL)
Review
W
Auto 0
1
2 Review1 3 Review2
Process Conne Lay Length Electrical Conn Sensor Serial N
ct
Auto (*)
o
W-- Selects decimal point position for the W-- display unit's instantaneous flow rate.
W-- Linked with C43. W - -
R-- R--
B30
*1:Ap
Total Unit
(TOTAL UNIT) Hot key
plicable for AXFA11 Remote Converte
W
r.
Review3
n Unit/P Review4
u Unit/P PV Span
m Unit/P
Wrt Protect Menu W
Unit/P
E k Unit/P N
M Unit/P Pulse/s
S
rite protect nable Wrt 10min ew Password oftware Seal
Pulse/s (*)
R--
Selects the flow rate unit per one pulse R--
as used for totalization display. Linked
with D10.
W B23/C42 u/d
R P20 P W P21 - W P22 - R P23 -
*2:Ap B31
*3:R/ *4:D
plicable for AXF Integral Flowmeter a Total Scale
W:R =Readonly,W=ReadandWri
(TOTAL SCALE) ata Renewing
te
W
nd AXFA14
Remote Converter. 0 to 32000
B30 (D10)
0to4
0 (*)
Sets the flow rate per one pulse for the totalization display.Linked with D11.
m
m m m m
m
P : Periodic Data Renewing
IM 0IM1E0210EA201A-01-E0N1EN
88
Parameter Summary Parameter Summary


<8. Parameter Summary> 68
Item
Name
R/W (*3)
Data range
Units
Position of decimal point
Default value (*): Indicated item
Description
Display unit (BRAIN)
Display unit/BRAIN
B32
Pulse Unit (PULSE UNIT)
W
n Unit/P u Unit/P m Unit/P
Unit/P k Unit/P M Unit/P
Pulse/s
Pulse/s (*)
Selects the flow rate unit per one pulse as used for pulse output. Linked with E10.
B33
Pulse Scale (PULSE SCALE)
W
0 to 32000
B32 (E10)
0to4
0 (*)
Sets the ow rate per one pulse as used for pulse output. Linked with E11.
B40
Display Select1 (DISP SELECT1)
W
Flow Rate(%) Flow Rate Flow Rate(mA) Forward Total Reverse Total Dif Total
Flow Rate
Selects content of the first line for Display Mode. Linked with H10.
B41
Display Select2 (DISP SELECT2)
W
Off
Flow Rate(%) Flow Rate
Flow Rate(mA) Flow Rate(Bar) Forward Total Reverse Total Dif Total
Tag No Adhesion Check Communication
Off
Selects content of the second line for Display Mode. Linked with H11.
B42
Display Select3 (DISP SELECT3)
W
Same as B41 (Display Select2)
Off
Selects content of the third line for Display Mode. Linked with H12.
B50
Auto Zero Exe (AUTOZERO EXE)
W
No Execution Execution
No Execution
Selects whether or not automatic zero adjustment is carried out. Linked with M10.
B60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
C00
Basic Setup (BASIC SETUP)
C10
Tag No (TAG NO)
W
ASCII 16 characters
Sets Tag number up to 16 characters.
C11
Flow Damping (FLOW DAMPING)
W
0.1 to 200.0
s
1
3.0 s
Sets damping time. Linked with B20.
C20
Measure Mode (MEASURE MODE)
W
Standard DF Enhanced DF
Standard DF
Selects measurement mode for dual frequency excitation
C21
Low MF (LOW MF)
W
0.0100 to 3.0000
4
1.0000 (*)
Sets low-frequency meter factor for standard dual frequency excitation
C22
High MF (HIGH MF)
W
0.0100 to 3.0000
4
1.0000 (*)
Sets high-frequency meter factor for standard dual frequency excitation
C23
Low MF(EDF) (LOW MF(EDF))
W
0.0000 to 3.0000
4
1.0000 (*)
Sets low-frequency meter factor for enhanced dual frequency excitation
C24
High MF(EDF) (HIGH MF(EDF))
W
0.0000 to 3.0000
4
1.0000 (*)
Sets high-frequency meter factor for enhanced dual frequency excitation
C30 (*1)
Select Flow Tube (FLOW TUBE)
W
ADMAG AXF ADMAG ADMAG AE ADMAG SE YEWMAG Calibrator Other
ADMAG AXF
Selects the owtube's model name. Note: Select “ADMAG AXF” for ADMAG
AXW owtube.
C31
Nominal Size Unit (SIZE UNIT)
W
mm inch
mm inch
Selects the nominal size units for the owtube.
C32
Nominal Size (NOMINAL SIZE)
W
0.99 to 3000.1 0.01 to 120.1
mm inch
0to2
100 (*)
Sets flowtube nominal size in selected unit at C31.
*1: Applicable for AXFA11 Remote Converter. *3: R/W: R = Read only, W = Read and Write
IM 01E20A01-01EN


O
<8<.8P. aPrarmaemterteSruSmumamrayr>y> 6965
Item
Devic
Name
R/W p (*3)
Data range
Units
atus Function
Position of
decimal point
SO1 Function (
Default value (*):
Indicated item
*1)
R/W (*3) Parameter No. Data (BRAIN protocol)
Description
W F10 u/d
Display unit (BRAIN)
e setup Detailed Setu
Display unit/BRAIN
Function Set St
C4P0V PVA
PV Sp
Base Flow Unit
(FLOW UNIT) an
W
Ml(Megaliter) m3
kl(Kiloliter) l(Liter) cm3
m
t
kg
g
kcf
cf
mcf
Mgal (US)
kgal (US)
gal (US) Al mgal (US)
kbbl (US Oil)
bbl (US Oil)
mbbl (US Oil)
ubbl (US Oil)
kbbl (US Beer)
bbl (US Beer)
mbbl (US Beer)
ubbl (US Beer)
ft
klb (US)
lb (US)
Al
arm
m Record
SO2 Function ( SI1 Function (* SI2 Function (* SO1/2 Active M SI1/2 Active Mo DO Function (* DIO Function (* DO Active Mod DIO Active Mod Forward Span2 Forward Span3 Forward Span4 Reverse Span1 Reverse Span2 Reverse Span3 Reverse Span4 Auto Range Hy Bi Direction Hy
Low Alarm High Alarm Low Low Alarm High High Alar H/L Alarm Hys Alm Out Act Mo 4-20 Alarm Out 4-20 Burn Out Alm-Setting Alm-Sig Over Alm-Emp Pipe Alm-HH/LL Alm-Adhesion
Operation Time Alm Record1 Alm Record Ti
*m1) (*) 1)
1)
ode (*1) de (*1)
2) 2)
e (*2) e (*2)
(*1) (*1)
s s
de (*1)
e1
Selects ow unitsWfor the owF11rate spanu./d
Linked with B21. W W
W
W
W
W
W
W
W
W
W
W
W
W
W
W
W
W W W W W W W R W W W W W
R R R
F12 u/d F13 u/d F14 u/d F15 u/d F20 u/d F21 u/d F22 u/d F23 u/d F30 u/d F31 u/d F32 u/d F33 u/d F34 u/d F35 u/d F36 u/d F40 u/d F41 u/d
G10 u/d G11 u/d G12 u/d G13 u/d G14 u/d G20 u/d G21 u/d G22 - G30 u/d G31 u/d G32 u/d G33 u/d G34 u/d
G40 P G41 P G42 P
C41
Base Time Unit (TIME UNIT)
W
/d /h /min /s
Alm Record2 Alm Record Ti Alm Record3 Alm Record Ti Alm Record4 Alm Record Ti
/s (*) e2
e3 e4
R G43 P
Selects time units for the ow rate span. R G44 P
Linked with B22. R R R R
G45 P G46 P G47 P G48 P
C42
Flow Span (FLOW SPAN)
W
0.0001 to 32000
Di
C40/C41 splay Set
(B21/B22)
0to4 Display Select1
Display Select2
1 m/s (*)
Sets ow rate span (with units from C40 W H10/B40 u/d
and C41). Linked Wwith B23H. 11/B41 u/d
C43
Flow Decimal Pnt (FLOW DECIMAL)
W
Auto 0
1
2
3
Au
x
Display Select3 Display Cycle Language
4-20mA Low C 4-20mA Low L 4-20mA High L Flow Direction
Auto (*)
ut t mt
W H12/B42 u/d Selects decimal point position for the
W H20 u/d display unit's insWtantaneoH3u0s/Bf1l0ow rateu./d
Linked with B24. W J10 u/d W J11 u/d W J12 u/d W J20 u/d
C44
Velocity Check (VELOCITY CHK)
R
0.000 to 99.999
m/s
Ra3te Limit Dead Time
Display of the spWan settingJ2u1sing flow-
velocity (m/s).
W J22 -
C45
Density Unit (DENSITY UNIT)
W
kg/m3 lb/gal lb/cf
Pulsing Flow T/P Damp Sele Power Synch Power Frequen Memo 1
kg/m3 ct
cy
W J23 -
Sets units for density when mass flow W J24 -
rate is selected. W J30 - R/W J31 P W J40 -
C46
Mass Flow Density (MASS DENSITY)
W
0 to 32000
C45
0Metmoo42 Memo 3
0
S e t s d e n s i t y w h We n m a s s J f 4 l o 1 w r a t e i s -
W J42 - selected (with units from C45).
C47
User Span Select (USER SPN SEL)
W
No
HART output P
N
Yes
oll addr
um req preams
Software Rev N
o No
R J50 - Selects whether or not special units are W--
used for ow rate units. R--
C48
Flow User Unit (FL USER UNIT)
W
8 alphanumeric B
characters
B
urst mode urst option
PV
% range/curren
ALL SPACE t
Sets the special Wow rate unit-s. - W-- W--
C49
Flow User Span (FL USER SPAN)
W
0.0001 to 32000
Device info Fi
C48 eld device info
0Protoce4ss vars/cr Manufacturer
n1t 0 0
Sets span when uWsing speci-al flow rate- units. R - -
C60
—
(SELF CHECK)
R
Good Error
Tag Descriptor Message
See Chapter 7. W - u/d W - u/d
W - u/d
D00
Total Set (TOTAL SET)
Date
Dev id
Write protect
W - u/d R-- R-P
D10
Total Unit (TOTAL UNIT)
W
n Unit/P u Unit/P m Unit/P
Unit/P k Unit/P M Unit/P
Pulse/s
M
odel speci c
Revision #’s
Use
Lining Electrode Mate Electrode Struc Grounding Ring Process Conne
Pulse/s (*)
rial t
ct
USnievelerscaltrsevthe flow rRate unit per- one pulse-
Flddevrev R - - as used for totalization display. Linked
Software rev with B30.
R - -
W-- W-- W-- W-- W-- W--
D11
Total Scale (TOTAL SCALE)
W
0 to 32000
D10 (B30)
0LatyoLe4ngth Electrical Conn
0 (*)
Sets the flow rateWper one pu- lse for the-
W-- totalization display.Linked with B31.
D12
Total Decimal Pnt
(TL DECIMAL) Review
Hot key
W
01 Review1 Review2
2 Review3
3 Review4
4 PV Span
5 Wrt Protect Menu W
6 7
E N S
rite protect nable Wrt 10min ew Password oftware Seal
Sensor Serial N
o 0
W-- Selects position of decimal point for R--
totalization display R--
R-- R--
W
R W W R
B23/C42 u/d
P20 P P21 - P22 - P23 -
D13 *1:Ap
*2:Ap *3:R/
Total Low Cut
plicable for AXFA11 Remote Converte (TOTAL LOWCUT)
plicable for AXF Integral Flowmeter a
W:R =Readonly,W=ReadandWri
r. W
nd AXFA14
te
0to100 Remote Converter.
%
0
3%
Sets the range in vicinity of 0% within which the totalization display will be halted.
m
m m m m
m
(*4)
*4 : Data Renewing
P : Periodic Data Renewing
*3: R/W: R = Read only, W = Read and Write
u/d : Discretionary Renewing – : Others (Method etc...)
IM 0IM1E0210EA201A-01-E0N1EN
88
Parameter Summary Parameter Summary


<8. Parameter Summary> 70
Item
Name
R/W (*3)
Data range
Units
Position of decimal point
Default value (*): Indicated item
Description
Display unit (BRAIN)
Display unit/BRAIN
D20
Total Execution (TOTAL EXEC)
W
Start
Stop
Preset Total Preset Rev Total
Start
Executes “Start” or “Stop” of the totalization function, or executes “Preset Total” or “Preset Rev Total”.
D21
Ttl Set Val Lower (TL SET VAL L)
W
0 to 999999
0
0
Sets the totalization preset value in the lower 6 digits of the 8-digit totalized value.
D22
Ttl Set Val Upper (TL SET VAL U)
W
0to99
0
0
Sets the totalization preset value in the upper 2 digits of the 8-digit totalized value.
D23
Ttl Switch Lower (TL SWITCH LO)
W
0 to 999999
0
0
Sets the totalization switch value in the lower 6 digits of the 8-digit totalized value.
D24
Ttl Switch Upper (TL SWITCH UP)
W
0to99
0
0
Sets the totalization switch value in the upper 2 digits of the 8- digits totalized value.
D30
Ttl User Select (TL USER SEL)
W
No Yes
No
Selects whether or not special units are used as totalized units.
D31
Ttl User Unit
(TL USER UNIT)
W
8 alphanumeric characters
ALL SPACE
Sets the special totalized units.
D60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
E00
Pulse Set (PULSE SET)
E10
Pulse Unit (PULSE UNIT)
W
n Unit/P u Unit/P m Unit/P
Unit/P k Unit/P M Unit/P
Pulse/s
Pulse/s (*)
Selects the flow rate unit per one pulse as used for pulse output. Linked with B32.
E11
Pulse Scale (PULSE SCALE)
W
0 to 32000
E10 (B32)
0to4
0 (*)
Sets the ow rate per one pulse as used for pulse output. Linked with B33.
E12
Pulse Width (PULSE WIDTH)
W
50% Duty 0.05 ms 0.1 ms 0.5 ms
1 ms 20 ms 33 ms 50 ms 100 ms
50% Duty
Selects the pulse width for pulse output.
E13
Pulse Low Cut (PULSE LOWCUT)
W
0to100
%
0
3%
Sets the range in vicinity of 0% within which pulse output will be halted.
E20 (*1)
Pulse Active Mode (PLS ACT MODE)
W
Closed(On) Act Open(Off) Act
Closed(On) Act
Selects whether pulse output will be set to “On Active” or “Off Active.”
E60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
F00
Status Function (STATUS FUNC)
F10 (*1)
SO1 Function (SO1 FUNCTION)
W
No Function Warning Output Total Switch
H/L Alarm
HH/LL Alarm Fwd/Rev Ranges Auto 2 Ranges Auto 3 Ranges Auto 4 Ranges Ext 2 Answer
Ext 3 Answer Ext 4 Answer
No Function
Selects function for the SO1 terminal
F11 (*1)
SO2 Function (SO2 FUNCTION)
W
No Function Warning Output Total Switch
H/L Alarm
HH/LL Alarm Fwd/Rev Ranges Auto 2 Ranges Auto 3 Ranges Auto 4 Ranges Ext 2 Answer
Ext 3 Answer Ext 4 Answer
No Function
Selects function for the SO2 terminal
*1: Applicable for AXFA11 Remote Converter. *3: R/W: R = Read only, W = Read and Write
IM 01E20A01-01EN


O
<8<.8P. aPrarmaemterteSruSmumamrayr>y> 7165
Item
Devic
Name
R/W p (*3)
Data range
Units
atus Function
Position of
decimal point
SO1 Function (
Default value (*):
Indicated item
*1)
R/W (*3) Parameter No. Data (BRAIN protocol)
Description
W F10 u/d
Display unit (BRAIN)
e setup Detailed Setu
Display unit/BRAIN
Function Set St
F12PV
PVA (*1)
PV Sp
SI1 Function
(SI1 FUNCTION) an
W
No Function 0% Singal Lock Ext Auto Zero Ext Ttl Preset Ext Rev Ttl Set Ext 2 Ranges Ext 3 Ranges Ext 4 Ranges
SO2 Function ( SI1 Function (* SI2 Function (* SO1/2 Active M SI1/2 Active Mo DO Function (* DIO Function (* DO Active Mod DIO Active Mod Forward Span2
*N1)o Function 1)
1)
ode (*1) de (*1)
2) 2)
e (*2) e (*2)
Selects function foWr the SI1 tFe1r1minal u/d W F12 u/d W F13 u/d W F14 u/d W F15 u/d W F20 u/d W F21 u/d W F22 u/d W F23 u/d W F30 u/d
F13 (*1)
SI2 Function (SI2 FUNCTION)
W
No Function 0% Singal Lock Ext Auto Zero Ext Ttl Preset Ext Rev Ttl Set Ext 2 Ranges Ext 3 Ranges Ext 4 Ranges
Al
arm
Forward Span3 Forward Span4 Reverse Span1 Reverse Span2 Reverse Span3 Reverse Span4 Auto Range Hy Bi Direction Hy
Low Alarm High Alarm Low Low Alarm
No Function
(*1) (*1)
s s
W F31 u/d
Selects function for the SI2 terminal
W F32 u/d
W F33 u/d W F34 u/d W F35 u/d W F36 u/d W F40 u/d W F41 u/d
W G10 u/d W G11 u/d W G12 u/d
F14 (*1)
SO1/2 Active Mode (SO ACT MODE)
W
Closed(On) Act Open(Off) Act
High High Alar H/L Alarm Hys
Closed(On) Act
Selects whether SWO1/SO2 oGu1t3put will beu/d
W G14 u/d set to “On Active” or “Off Active.”
F15 (*1)
SI1/2 Active Mode (SI ACT MODE)
W
Short Active Open Active
4-20 Alarm Out 4-20 Burn Out
Short Active
Selects whether SWI1/SI2 inpGu2t1will be seut/d
R G22 - to “Short Active” or “Open Active.”
F20 (*2)
DO Function (DO FUNCTION)
W
No Function
Pulse Output Alarm Output Warning Output Total Switch (O) H/L Alarm (O) HH/LL Alarm (O) Fwd/Rev Rngs (O) Auto 2 Rngs (O) Auto 3 Rngs (O) Auto 4 Rngs (O) Ext 2 Answer (O)
Al
Di
m Record
splay Set
Alm-Setting Alm-Sig Over Alm-Emp Pipe Alm-HH/LL Alm-Adhesion
Operation Time Alm Record1 Alm Record Ti Alm Record2 Alm Record Ti Alm Record3 Alm Record Ti Alm Record4 Alm Record Ti
Display Select1
Pulse Output
e1 e2 e3 e4
W G30 u/d
Selects function for the DO terminal
W G31 u/d
W G32 u/d W G33 u/d W G34 u/d
R G40 P R G41 P R G42 P R G43 P R G44 P R G45 P R G46 P R G47 P R G48 P
W H10/B40 u/d
F21 (*2)
DIO Function (DIO FUNCTION)
W
No Function Alarm Output Warning Output Total Switch (O) H/L Alarm (O) HH/LL Alarm (O) Fwd/Rev Rngs (O) Auto 2 Rngs (O) Auto 3 Rngs (O) Auto 4 Rngs (O) Ext 2 Answer (O) 0% Singal Lock (I) Ext Auto Zero (I) Ext Ttl Set (I)
Au
N B
Ext R Ttl Set (I) Ext 2 Ttl Set (I)
HART output P
x
oll addr
um req preams urst mode
Display Select2 Display Select3 Display Cycle Language
4-20mA Low C 4-20mA Low L 4-20mA High L Flow Direction Rate Limit Dead Time Pulsing Flow T/P Damp Sele Power Synch Power Frequen Memo 1
Memo 2
Memo 3 Software Rev N
No Function
ut t mt
ct cy
o
W H11/B41 u/d
Selects function for the DIO terminal
W H12/B42 u/d
W H20 u/d W H30/B10 u/d
W J10 u/d W J11 u/d W J12 u/d W J20 u/d W J21 - W J22 - W J23 - W J24 - W J30 -
R/W J31 P W J40 - W J41 - W J42 - R J50 -
W-- R-- W--
F22 (*2)
DO Active Mode (DO ACT MODE)
W
Closed(On) Act B Open(Off) Act
urst option
PV
% range/curren
Closed(On) Act t
Selects whether DWO termina-l will be set-
W-- to “On Active” or “Off Active”.
F23 (*2)
DIO Active Mode (DIO ACT MODE)
W
Closed/Short Act
Device info Fi
Open/Open Act
eld device info
Manufacturer Tag Descriptor
Closed/Short Act
Selects whether DIO terminal will be set R-- to “Closed/Short Active” or“Open/Open
W - u/d Active”. W - u/d
F30
Forward Span2 (FWD SPAN2)
W
0.0001 to 32000
C40/C41
Message 0to4 Date
Dev id
1
W - u/d Sets flow rate span for forward No. 2
W - u/d range R - -
F31
Forward Span3 (FWD SPAN3)
W
0.0001 to 32000
C40/C41
Write protect 0to4 Revision #’s
1
R-P Sets flow rate span for forward No. 3 Universal rev R - -
range
Flddevrev R - -
F32
Forward Span4 (FWD SPAN4)
W
0.0001 to 32000
M
C40/C41 odel speci c
0to4 Use
1
Software rev R - - Sets flow rate span for forward No. 4
range W - -
F33
Reverse Span1 (REV SPAN1)
W
0.0001 to 32000
C40/C41
Lining
0to4 Electrode Mate
Electrode Struc
1 rial
t
W-- Sets flow rate span for reverse No. 1 W--
range W - -
F34
Reverse Span2 (REV SPAN2)
W
0.0001 to 32000
C40/C41
Grounding Ring 0to4 Process Conne
Lay Length
1 ct
W-- Sets flow rate span for reverse No. 2
range
W-- W--
F35 (*1)
Reverse Span3 (REV SPAN3)
W
0.0001 to 32000
C40/C41
Electrical Conn 0to4
Sensor Serial N
1 o
W-- Sets flow rate span for reverse No. 3
range
W--
F36 (*1)
ReverseSpan4 Review (REV SPAN4)
W
Review1
0.0001 to 32000 Review2
Review3
C40/C41
0to4
1
R--
Sets flow rate span for reverse No. 4 R--
range R - -
F40
Auto Range Hys (AUTO RNG HYS)
Hot key
W
Review4 0to15
PV Span
%
0
10%
R-- Sets hysteresis width for automatic
range switching W B23/C42 u/d
F41
Bi Direction Hys (BI DIREC HYS)
W
Wrt Protect Menu W
0to8
E N
rite protect %
nable Wrt 10min ew Password
0
2%
R P20 P Sets hysteresis width for forward/
reverse switchingW P21 - W P22 -
F60 *1:Ap
—
(SELF CHECK)
plicable for AXFA11 Remote Converte
R r.
Good Error
S
oftware Seal
See Chapter 7. R P23 -
m
Alm Out Act Mode (*1) W
m m m m
m
Process vars/crnt W
G20 u/d
(*4)
*2 : Applicable for AXF Integral Flowmeter and AXFA14 Remote Converter. * 1 : * A3 : p R p/ Wl i c: Ra b= l Re e a f do o r n Al y , XW F= AR e1 a 1d a Rn d e Wmr i t eo t e C o n v e r t e r .
*4 : Data Renewing
*2: Applicable for AXF Integral Flowmeter and AXFA14 Remote Converter.
P : Periodic Data Renewing
*3: R/uW/d :DRiscr=etiRonaeryaRdenoenwilnyg, W = Read and Write – : Others (Method etc...)
- -
IM 0IM1E0210EA201A-01-E0N1EN
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Parameter Summary Parameter Summary


<8. Parameter Summary> 72
Item
Name
R/W (*3)
Data range
Units
Position of decimal point
Default value (*): Indicated item
Description
Display unit (BRAIN)
Display unit/BRAIN
G00
Alarm (ALARM)
G10
Low Alarm (LOW ALARM)
W
-110 to 110
%
0
-110 %
Sets level setting value for low ow rate limit (L)
G11
High Alarm (HIGH ALARM)
W
-110 to 110
%
0
110%
Sets level setting value for high ow rate limit (H)
G12
Low Low Alarm (LO LO ALARM)
W
-110 to 110
%
0
-110 %
Sets level setting value for low- low ow rate limit (LL)
G13
High High Alarm (HI HI ALARM)
W
-110 to 110
%
0
110%
Sets level setting value for high- high ow rate limit (HH)
G14
H/L Alarm Hys (H/L ALM HYS)
W
0to10
%
0
5%
Sets hysteresis width for high-low flow rate limit alarm
G20 (*1)
Alm Out Act Mode (ALM OUT ACT)
W
Closed(On) Act Open(Off) Act
Open(Off) Act
Selects whether alarm output will be set to “On Active” or “Off Active.”
G21
4-20mA Alarm Out (4-20 ALM OUT)
W
2.4mA or Less 4.0mA
Hold
21.6mA or More
21.6mA or More
Selects the current output during alarm occurrence.
G22
4-20mA Burn Out (4-20 BURNOUT)
R
High Low
—
Displays the current output during a CPU failure.
G30
Alm-Setting (ALM-SETTING)
W
No Yes
Yes
Selects whether a setting alarm is to be speci ed as an alarm.
G31
Alm-Sig Over (ALM-SIG OVER)
W
No Yes
Yes
Selects whether a signal over ow alarm is to be speci ed as an alarm.
G32
Alm-Emp Pipe (ALM-EMP PIPE)
W
No Yes
Yes
Selects whether an empty pipe alarm is to be speci ed as an alarm.
G33
Alm-HH/LL (ALM-HH/LL)
W
No Yes
No
Selects whether a ow rate high-high or low-low alarm is to be specified as an alarm.
G34
Alm-Adhesion (ALM-ADHESION)
W
No Yes
No
Selects whether an electrode adhesion alarm is to be speci ed as an alarm.
G40
Operation Time (OPERATE TIME)
R
0D 00:00 to 99999D 23:59
Operation time
G41
Alm Record1 (ALM RECORD1)
R
10:uP Fault 11:EEPROM Fault 12:A/D(H) Fault 13:A/D(L) Fault 14:A/D(Z) Fault 15:Coil Open 16:EEPROM D t 18:Power Off 19:Inst Pwr Fail 28:WDT
30:Sig Over ow 31:Empty Pipe 33:Adhesion Alm
Displays the content of the most recent alarm.
G42
Alm Record Time1 (ALM TIME 1)
R
0D 00:00 to 99999D 23:59
Displays the operation time at the occurrence of the most recent alarm.
G43
Alm Record2 (ALM RECORD2)
R
Same as G41 (Alm Record 1)
Displays the content of the second most recent alarm.
G44
Alm Record Time2 (ALM TIME 2)
R
0D 00:00 to 99999D 23:59
Displays the operation time at occurrence of the second most recent alarm.
G45
Alm Record3 (ALM RECORD3)
R
Same as G41 (Alm Record 1)
Displays the content of the third most recent alarm.
G46
Alm Record Time3 (ALM TIME 3)
R
0D 00:00 to 99999D 23:59
Displays the operation time at the occurrence of the third most recent alarm.
G47
Alm Record4 (ALM RECORD4)
R
Same as G41 (Alm Record 1)
Displays the content of the fourth most recent alarm.
G48
Alm Record Time4 (ALM TIME 4)
R
0D 00:00 to 99999D 23:59
Displays the operation time at the occurrence of the fourth most recent alarm.
G60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
H00
Display Set (DISP SET)
H10
Display Select1 (DISP SELECT1)
W
Flow Rate(%) Flow Rate Flow Rate(mA) Forward Total Reverse Total Dif Total
Flow Rate
Selects content of the first line for Display Mode. Linked with B40.
*1: Applicable for AXFA11 Remote Converter. *3: R/W: R = Read only, W = Read and Write
IM 01E20A01-01EN


<8<.8P. aPrarmaemterteSruSmumamrayr>y>
7365
(*4)
Item
Devic
Name
R/W p (*3)
Data range
Units
atus Function
Position of
decimal point
SO1 Function (
Default value (*):
Indicated item
*1)
R/W (*3) Parameter No. Data (BRAIN protocol)
Description
W F10 u/d
Display unit (BRAIN)
e setup Detailed Setu
Display unit/BRAIN
Function Set St
H1P1V PVA
PV Sp
Display Select2
(DISP SELECT2) an
W
Off
Flow Rate(%) Flow Rate
Flow Rate(mA) Flow Rate(Bar) Forward Total Reverse Total Dif Total
Tag No Adhesion Check Communication
SO2 Function ( SI1 Function (* SI2 Function (* SO1/2 Active M SI1/2 Active Mo DO Function (* DIO Function (* DO Active Mod DIO Active Mod Forward Span2 Forward Span3 Forward Span4 Reverse Span1 Reverse Span2
* O1 ) f f 1)
1)
ode (*1) de (*1)
2) 2)
e (*2) e (*2)
Selects content Wof the secFo1n1 d line four/d
W F13 u/d W F14 u/d W F15 u/d W F20 u/d W F21 u/d W F22 u/d W F23 u/d W F30 u/d W F31 u/d W F32 u/d W F33 u/d W F34 u/d
W F12 u/d Display Mode. Linked with B41.
H12
Display Select3 (DISP SELECT3)
W
Same as H11 (Display Select2)
Reverse Span3 Reverse Span4 Auto Range Hy
s
(*1)
Off (*1)
W F35 u/d
Selects content of the third line for W F36 u/d
Display Mode. LinWked with BF420 . u/d
H20
Display Cycle (DISP CYCLE)
W
200ms 400ms 1s
2s
4s 8s
Al
arm
Bi Direction Hy
Low Alarm High Alarm Low Low Alarm High High Alar H/L Alarm Hys Alm Out Act Mo 4-20 Alarm Out
s400ms de (*1)
W F41 u/d Selects the display cycle.
W G10 u/d W G11 u/d W G12 u/d W G13 u/d W G14 u/d W G20 u/d W G21 u/d
H30
Language (LANGUAGE)
W
English Japanese French German Italian Spanish
Al
m Record
4-20 Burn Out Alm-Setting Alm-Sig Over Alm-Emp Pipe Alm-HH/LL Alm-Adhesion
Operation Time
English
R G22 - Selects the language used by the
W G30 u/d display unit. Linked with B10.
W G31 u/d W G32 u/d W G33 u/d W G34 u/d
R G40 P
H60
—
(SELF CHECK)
R
Good Error
Alm Record1 Alm Record Ti Alm Record2
e1
See Chapter 7. R G41 P R G42 P
R G43 P
J00
Aux (AUX)
Alm Record Ti Alm Record3 Alm Record Ti
e2 e3
R G44 P R G45 P R G46 P
J10
4-20mA Low Cut (4-20 LOW CUT)
W
0to10
%
Alm Record4 0
Alm Record Ti
0% e4
R G47 P Sets the range in vicinity of 0% within R G48 P
which the current output will be 4 mA
J11
4-20mA Low Lmt (4-20 LOW LMT)
W
-20.0 to 100.0
%
Dis1play Select2 Display Select3
-20.0 %
S e t s t h e l o w l i m i t f Wo r c u r r e nH t 1 1o / Bu 4t p1 u t u / d W H12/B42 u/d
J12
4-20mA High Lmt (4-20 HI LMT)
W
0.0 to 120.0
Au
% x
Display Cycle
1 Language
4-20mA Low C
120.0 % ut
W H20 u/d
Sets the high limit for current output
W H30/B10 u/d
W J10 u/d
J20
Flow Direction (FLOW DIRECT)
W
Forward Reverse
4-20mA Low L 4-20mA High L Flow Direction
Ft orward mt
Selects the ow dWirection. J11 u/d W J12 u/d W J20 u/d
J21
Rate Limit (RATE LIMIT)
W
0to10
%
Ra0te Limit Dead Time
5%
Sets the levelWto reduJc21e output-
uctuation.
W J22 -
J22
Dead Time (DEAD TIME)
W
0to15
s
Pulsing Flow
0
T/P Damp Sele
Power Synch Power Frequen Memo 1
0s ct
cy
W J23 -
Sets the dead time to reduce output W J24 -
fluctuation. WheWn “0” is seJ3t,0 rate limit-
R/W J31 P function is not available.
W J40 -
J23
Pulsing Flow (PULSING FLOW)
W
No Yes
Memo 2 Memo 3
No
Selects whetherWpulsing fJlo41w is to be-
supported.
W J42 -
J24
T/P Damp Select (T/P DAMP SEL)
W
Damping
HART output P
No Damping
N B B
oll addr
um req preams urst mode
urst option
Software Rev N
PV
% range/curren Process vars/cr
o Damping
t nt
R J50 - Selects whether the flow rate value W-- obtained through damping calculation
R-- for total/pulse or tWhe instanta-neous flow-
W-- rate value (no damping) for total/pulse is
to be used.
W-- W--
J30
Power Synch (POWER SYNCH)
W
No
Device info Fi
Yes
eld device info
Manufacturer Tag Descriptor
Yes
Selects whether or not the internal R--
frequency is to beWsynchroniz-ed with theu/d
W - u/d power supply frequency.
J31
Power Frequency (POWER FREQ)
R/W
47.00 to 63.00
Hz
Message
2 Date
Dev id
Write protect Revision #’s
50.00
W - u/d
Displays the power-supply frequency W - u/d
(for Power SynchR = “Yes”), -or sets the-
R-P power-supply frequency (for Power Universal rev R - -
Synch=“No”).
Flddevrev R - -
J40
Memo 1 (MEMO 1)
W
ASCII 16 characters
M
odel speci c
Use
ALL SPACE
Software rev R - - Memo eld
W--
J41
Memo 2 (MEMO 2)
W
ASCII 16 characters
Lining Electrode Mate Electrode Struc
ALL SPACE rial
t
Memo eld
W-- W-- W--
J42
Memo 3 (MEMO 3)
W
ASCII 16 characters
Grounding Ring Process Conne Lay Length
ALL SPACE ct
Memo eld
W-- W-- W--
J50
Software Rev No (SOFTWARE REV)
R
—
Electrical Conn Sensor Serial N
o
W-- Software revision number
W--
J60
Review (SELF CHECK)
—
R
Review1
Good Review2
ErrRoerview3
See Chapter 7. R - - R--
R--
K00
Diagnosis (DIAGNOSIS) Hot key
Review4 PV Span
R-- W B23/C42 u/d
K10
Adhesion Check (ADHESION CHK)
W
No Yes
E N
Wrt Protect Menu W
rite protect nable Wrt 10min ew Password
No
R P20 P Selects whether or not to perform W P21 -
diagnosis of adhesion to the electrode. W P22 -
K11 *1:Ap
Adhesion Level1
(ADH LEVEL1)
plicable for AXFA11 Remote Converte
W r.
0.00 to 100.00
S
oftware Seal MΩ
2
0.10
R P23 - Sets the resistance value for adhesion
Level 1 to the electorode.
O
Display Set
m
m m m m
Display Select1 W
m
H10/B40 u/d
*2 : Applicable for AXF Integral Flowmeter and AXFA14 Remote Converter. *3:*R3:/RW/W::R =RReadeoandly,Won=lRye,aWdan=dWRrieteadandWrite
*4 : Data Renewing
P : Periodic Data Renewing u/d : Discretionary Renewing – : Others (Method etc...)
IM 0IM1E0210EA201A-01-E0N1EN
88
Parameter Summary Parameter Summary


<8. Parameter Summary> 74
Item
Name
R/W (*3)
Data range
Units
Position of decimal point
Default value (*): Indicated item
Description
Display unit (BRAIN)
Display unit/BRAIN
K12
Adhesion Level2 (ADH LEVEL2)
W
0.00 to 100.00
MΩ
2
0.50
Sets the resistance value for adhesion Level 2 to the electorode.
K13
Adhesion Level3 (ADH LEVEL3)
W
0.00 to 100.00
MΩ
2
1.00
Sets the resistance value for adhesion Level 3 to the electorode.
K14
Adhesion Level4 (ADH LEVEL4)
W
0.00 to 100.00
MΩ
2
3.00
Sets the resistance value for adhesion Level 4 to the electorode.
K15
Adh Measure Value (ADH MEAS VAL)
R
—
MΩ
2
Displays the resistance value for adhesion to the electrode.
K60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
M00
Adjustment (ADJUSTMENT)
M10
Auto Zero Exe (AUTOZERO EXE)
W
No Execution Execution
No Execution
Selects whether or not automatic zero adjustment is carried out. Linked with B50.
M11
Mag ow Zero (MAGFLOW ZERO)
R/W
-99.999 to 99.999
3
0.000
Displays the result of the automatic zero adjustment, or sets the zero point.
M60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
N00
Test (TEST)
N10
Test Mode (TEST MODE)
W
Normal Test
Normal
Selects whether mode will be set to “Normal” or “Test”.
N11
Test Output Value (TEST OUT VAL)
W
-10 to 110
%
0
0%
Sets the test output value.
N20 (*1)
Test SO1 (TEST SO1)
W
Open(Off) Closed(On)
Open(Off)
Selects the test condition for SO1 terminal.
N21 (*1)
Test SO2 (TEST SO2)
W
Open(Off) Closed(On)
Open(Off)
Selects the test condition for SO2 terminal.
N22 (*1)
Test Alarm Out (TEST ALM OUT)
W
Open(Off) Closed(On)
Closed(On)
Selects the test condition for alarm output terminal.
N23 (*1)
Test SI1 (TEST SI1)
R
Open Short
Displays the test condition for SI1 terminal.
N24 (*1)
Test SI2 (TEST SI2)
R
Open Short
Displays the test condition for SI2 terminal.
N30 (*2)
Test DO (TEST DO)
W
Open(Off) Closed(On) Pulse
Open(Off)
Selects the test condition for DO terminal.
N31 (*2)
Test DIO (O) (TEST DIO (O))
W
Input Mode Open(Off) Closed(On)
Input Mode
Selects the test condition for DIO terminal used for output.
N32 (*2)
Test DIO (I) (TEST DIO (I))
R
Open Short
Displays the test condition for DIO terminal used for input.
N60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
P00
Protect (PROTECT)
P10
Key Code (KEY CODE)
W
0 to 9999
0
Parameter of the display restriction
P20
Write Protect (W PROTECT)
R
No Yes
No
Displays whether or not overwriting of parameter data is prohibited.
P21
Enable Wrt Passwd (ENABLE WRITE)
W
ASCII 8 characters
Sets the correct password so that write protection function will be released.
P22
New Password (NEW PASSWORD)
W
ASCII 8 characters
Sets the password for write protection funcion
P23
Software Seal (SOFT SEAL)
R
Break Keep
Keep
Displays whether or not a Joker password was used (Break).
P60
—
(SELF CHECK)
R
Good Error
See Chapter 7.
*1: Applicable for AXFA11 Remote Converter.
*2: Applicable for AXF Integral Flowmeter and AXFA14 Remote Converter. *3: R/W: R = Read only, W = Read and Write
IM 01E20A01-01EN


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PSPDSNDN
) ( M ( PMa P • a m• m m ) m
CACTAETGEOGROYRY ) (*2()*2(*)4()*4)
AXAFX0F1051H5H
1515
11
1515
SouSnodunEdngEingeienreinegri PraPcrtaiccetic(SeE(SPE) (P*3) )(*
AXAFX0F2052H5H
2525
11
2525
SouSnodunEdngEingeienreinegri PraPcrtaiccetic(SeE(SPE) (P*3) )(*
AXAFX0F3023H2H
3232
11
3232
II
AXAFX0F404H0H
4040
11
4040
II
AXAFX0F505H0H
5050
11
5050
II
AXAFX0F6056H5H
6565
11
6565
II
AXAFX0F808H0H
8080
11
8080
II
AXAFX1F0100H0H
101000
11
101000
II
AXAFX1F2152H5H
121525
11
121525
II II
1
ng 3) ng 3)
MOMDOEDLEL
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PSPDSNDN
CACTAETGEOGROYRY (*2()*2(*)4()*4) SouSnodunEdngEingeienreinegring PraPcrtaiccetic(SeE(SPE) (P*3) )(*3) SouSnodunEdngEingeienreinegring PraPcrtaiccetic(SeE(SPE) (P*3) )(*3) SouSnodunEdngEingeienreinegring PraPcrtaiccetic(SeE(SPE) (P*3) )(*3)
SouSnodunEdngEingeienreinegring PraPcrtaiccetic(SeE(SPE) (P*3) )(*3)
SouSnodunEdngEingeienreinegring PraPcrtaiccetic(SeE(SPE) (P*3) )(*3)
II II II II II II II II II II II II II II II II III III III III III III II II III III
2.52.5 44 55 44 1010 44
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I M I 0M1 E0 12 E0 A2 0 0 A1 - 0 0 1 1 - E0 1N E N
99
Approvals Approvals


Safety Requirement Standards
EN61010-1
EN61010-2-030
Altitude at installation site: Max. 2000 m above sea level Installation category (Overvoltage category): II Pollution degree: 2
Indoor/Outdoor use
EMC Conformity Standards
EN61326-1 Class A, Table 2 (For use in industrial locations)
EN61326-2-3
EN61326-2-5 (for FOUNDATION eldbus/PROFIBUS only)
EN61000-3-2 ClassA
EN61000-3-3
• Performance Speci cation during immunity test
Flowrate output: Output uctuation within ±5% of default (1m/s) span
CAUTION
This instrument is a class A product, and it is designed for use in the industrial environment.
Please use this instrument in the industrial environment only.
(2)
• • • •
(3)
<9. Approvals> 76
IM 01E20A01-01EN


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T6T6
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–40–°4C0°(C–4(0–°4F0)°F)
T5T5
+85+°8C5°(C+1(8+51F8)5F)
–40–°4C0°(C–4(0–°4F0)°F)
T4T4
+12+01°2C0°(C+2(4+82F4)8F)
–40–°4C0°(C–4(0–°4F0)°F)
T3T3
+13+01°3C0°(C+2(6+62F6)6F)
–40–°4C0°(C–4(0–°4F0)°F)
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IM 0IM1E0210EA201A-01-E0N1EN
1010
Explosion Protected Type Instrument Explosion Protected Type Instrument


(AXF Remote Flowtube)
<10. Explosion Protected Type Instrument> 78 (2) Electrical Connection
Explosion proof for Class I, Division 1, Groups A, B, C & D.
Dust-ignition proof for Class II/III, Division1, Groups E, F &G.
Intrinsically safe (electrodes) for Class I, Division 1, GroupsA,B,C&D.
“SEAL ALL CONDUITS WITHIN 18 INCHES”
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED” Electrode Circuit Um: 250 Vac/dc
Excitation Circuit: 170V max
Enclosure: NEMA 4X
Temperature Code: T6
Note: TemperatureCodeT5toT3includedinthescopeof
The type of electrical connection is stamped near the electrical connection port according to the following codes.
application and its approval Refer to following table;
(AXF Remote Flowtube) Screw Size Marking
ISO M20x1.5 female M ANSI 1/2NPT female N
F1009.ai
(AXFA14 Remote Converter) Screw Size Marking
ISO M20x1.5 female M ANSI 1/2NPT female N
Temperature Code
T6
T5
T4
T3
Maximum Process Temperature +70°C (+158°F) +85°C (+185°F) +120°C (+248°F) +150°C (+302°F)
Minimum Process Temperature –40°C (–40°F) –40°C (–40°F) –40°C (–40°F) –40°C (–40°F)
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
(AXFA14 Remote Converter)
Applicable Standard:
FM3600, FM3615, FM3810, ANSI/NEMA 250
Explosion proof for Class I, Division 1, Groups A, B, C & D.
Dust-ignition proof for Class II/III, Division 1, Groups E, F &G.
“SEAL ALL CONDUITS WITHIN 18 INCHES”
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED” Maximum power supply voltage: 250 Vac/130 Vdc Excitation Circuit: 140V max
Enclosure: NEMA 4X
Temperature Code: T6
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
F1010.ai
(AXF Integral Flowmeter)
Screw Size
ISO M20x1.5 female ANSI 1/2NPT female
Marking M
N
IM 01E20A01-01EN


<1<01.0E. xEpxlopsloiosnioPnrPortoectetecdteTdyTpyepIensIntrsutrmuemnetn>t> 7977
(3) Installation (5) Maintenance and Repair
10. Explosion Protected Type Instrument
WARNING
In this chapter, further requirements and differences for e• xpAlollswioirninpgrosohfatlyl pceominpsltyruwmitehnNt atrieondaelsEcrleibcetrdic. al
WARNING
10.1 ATEX
• • •
NOTE
Code ANSI/NFPA 70 and Local Electrical Code. In hazardous locations, wiring to be in conduit as
•
•
The instrument modi cation or parts replacement by other than authorized representative of
NOTE
Yokogawa Electric Corporation is prohibited and
shown in Figure 10.2
When installed in Division 2, “SEALS NOT
will void the approval of Factory Mutual Research For ATEX explosion proof type speci cation, refer to
When describing the model name like AXFC in REQUIRED”
Corporation.
IM 01E20A01-11EN.
this manual, “” means any of the following.
In case the electrodes and/or grounding rings are
In case the electrodes and/or grounding rings are made of titanium, the owtube should be kept away from impacts and frictions in hazardous locations.
002, 005, 010, 015, 025, 032, 040, 050, 065, 080, 100, made of titanium, the owtube should be kept
10.2 FM
125, 150, 200, 250, 300, 350, 400
away from impacts and frictions in hazardous
locations.
WARNING
(1) Technical Data
(AXF Integral Flowmeter), (AXF Remote Flowtube)
Applicable Standard:
FM3600, FM3610, FM3615, FM3810, ANSI/NEMA 250
(AXF Integral Flowmeter)
Explosion proof for Class I, Division 1, Groups A, B, C & D.
Dust-ignition proof for Class II/III, Division1, Groups E, F &G.
Intrinsically safe (electrodes) for Class I, Division 1, GroupsA,B,C&D.
“SEAL ALL CONDUITS WITHIN 18 INCHES”
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED” Electrode Circuit Um: 250 Vac/dc
Maximum power supply voltage: 250 Vac/130 Vdc Excitation Circuit: 140V max
Enclosure: NEMA 4X
Temperature Code: T6
Note: TemperatureCodeT5toT3includedinthescopeof
HAZARDOUS LOCATIONS
Conduit Magnetic owmeters with the model name
AXFC magnetic owmeter and AXFA14C remote conv e products which have been certi ed as explosion proof type instruments. Strict limitations ar ed to the structures, installation locations, external wiring work, maintenance and
Sealing Fitting
Magnetic Flowmeter
e
rt
er ar
e
a
ppli
18" (457 mm) Max.
repairs, etc. of these instruments. Suf cient care must
F1011.ai be taken, as any violation of the limitations may cause
Figure 10.2 Conduit Wiring
dangerous situations.
Be sure to read this chapter before handling the
(4) Operation
instruments.
For explosion proof type instrument, the description in
this chapter is prior to other description in this user’s
manual.
WARNING
• • • •
•
For ATEX or IECEx explosion proof type, be sure to “OPEN CIRCUIT BEFORE REMOVING
read IM 01E20A01-11EN. COVERS.”
For TIIS explosion proof type, be sure to read “SEALS ALL CONDUITS WITHIN 18 INCHES” in
“INSTALLATION AND OPERATING PRECAUTIONS hazardous locations.
application and its approval Refer to following table;
FOR TIIS FLAMEPROOF EQUIPMENT” at the end of When installed in Division 2, “SEALS NOT
this manual. REQUIRED”
Temperature Code
T6
T5
T4
T3
Maximum Process Temperature +70°C (+158F) +85°C (+185F) +120°C (+248F) +130°C (+266F)
Minimum Process Temperature –40°C (–40°F) –40°C (–40°F) –40°C (–40°F) –40°C (–40°F)
Take care not to generate mechanical spark when
access to the instrument and peripheral devices in
hazardous locations.
WARNING
In case the electrodes and/or grounding rings are
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
made of titanium, the owtube should be kept
The terminal box cover and display cover is locked by
away from impacts and frictions in hazardous special screw. In case of opening the cover, use the
locations.
hexagonal wrench attached.
The covers of explosion proof type products are locked. Use the attached hexagonal wrench to open and close the cover. Before opening the cover, be sure to check that the power of owmeter has been turned off. Once the cover is closed, be sure to re-lock the product.
Be sure to lock the cover with the special screw using the hexagonal wrench attached after tightening the cover.
IM 0IM1E0210EA201A-01-E0N1EN
1010
Explosion Protected Type Instrument Explosion Protected Type Instrument


10.3 CSA
(1) Technical Data
(AXF Integral Flowmeter), (AXF Remote Flowtube)
Applicable Standard:
For CSA C22.2 Series;
C22.2 No 0, C22.2 No 0.4, C22.2 No 0.5, C22.2 No 25, C22.2 No 30, C22.2 No 94, C22.2 No 157, C22.2 No.61010-1-12, C22.2 No.61010-2-030-12
For CSA E79 Series;
CAN/CSA-E79-0, CAN/CSA-E79-1, CAN/CSA-E79-7, CAN/CSA-E79-11, CAN/CSA-E79-18
Certi cate: 1481213
Process Sealing Certi cation:
Dual Seal certi ed by CSA to the requirements of ANSI/ISA 12.27.01.
No additional sealing required.
Primary seal failure annunciation;
Deterioration of the owrate output at nonzero ow point.
Unstable owrate output at zero ow point.
(AXF Integral Flowmeter)
For CSA C22. 2 Series
Explosion proof for Class I, Division 1, Groups A, B, C & D.
Dust-ignition proof for Class II/III, Division 1, Groups E, F &G.
Intrinsically safe (electrodes) for Class I, Division 1, GroupsA,B,C&D.
“SEAL ALL CONDUITS WITHIN 50 cm OF THE ENCLOSURE”
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED” Electrode Circuit Um: 250 Vac/dc
Maximum power supply voltage: 250 Vac/130 Vdc Excitation Circuit: 140V max
Enclosure: Type 4X
Temperature Code:
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
For CSA E79 Series
Flameproof for Zone 1, Ex dme [ia] IIC T6...T3 Intrinsically safe (electrodes), Ex ia IIC T6...T3 Electrode Circuit Um: 250 Vac/dc
Maximum power supply voltage: 250 Vac/130 Vdc Excitation Circuit: 140V max
Enclosure: IP66, IP67
<10. Explosion Protected Type Instrument> 80
Temperature Code:
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
(AXF Remote Flowtube)
For CSA C22.2 Series
Explosion proof for Class I, Division 1, Groups A, B, C & D.
Dust-ignition proof for Class II/III, Division 1, Groups E, F &G.
Intrinsically safe (electrodes) for Class I, Division 1, GroupsA,B,C&D.
“SEAL ALL CONDUITS WITHIN 50 cm OF THE ENCLOSURE”
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED” Electrode Circuit Um: 250 Vac/dc
Excitation Circuit: 170V max
Enclosure: Type 4X
Temperature Code:
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
For CSA E79 Series
Flameproof for Zone 1, Ex dme [ia] IIC T6...T3 Intrinsically safe (electrodes), Ex ia IIC T6...T3 Electrode Circuit Um: 250 Vac/dc
Excitation Circuit: 170V max
Enclosure: IP66, IP67 Temperature Code:
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
(AXFA14 Remote Converter)
Applicable Standard:
For CSA C22.2 Series;
C22.2 No 0, C22.2 No 0.4, C22.2 No 0.5,
C22.2 No 25, C22.2 No 30, C22.2 No 94,
C22.2 No 61010-1-12, C22.2 No 61010-2-030-12
For CSA E79 Series; CAN/CSA-E79-0, CAN/CSA-E79-1
Certi cate: 1481213
Temperature Code
Maximum Process Temperature
Minimum Process Temperature
T6
+70°C (+158°F)
–40°C (–40°F)
T5
+85°C (+185°F)
–40°C (–40°F)
T4
+120°C (+248°F)
–40°C (–40°F)
T3
+130°C (+266°F)
–40°C (–40°F)
Temperature Code
Maximum Process Temperature
Minimum Process Temperature
T6
+70°C (+158°F)
–40°C (–40°F)
T5
+85°C (+185°F)
–40°C (–40°F)
T4
+120°C (+248°F)
–40°C (–40°F)
T3
+150°C (+302°F)
–40°C (–40°F)
Temperature Code
Maximum Process Temperature
Minimum Process Temperature
T6
+70°C (+158°F)
–40°C (–40°F)
T5
+85°C (+185°F)
–40°C (–40°F)
T4
+120°C (+248°F)
–40°C (–40°F)
T3
+150°C (+302°F)
–40°C (–40°F)
Temperature Code
Maximum Process Temperature
Minimum Process Temperature
T6
+70°C (+158°F)
–40°C (–40°F)
T5
+85°C (+185°F)
–40°C (–40°F)
T4
+120°C (+248°F)
–40°C (–40°F)
T3
+130°C (+266°F)
–40°C (–40°F)
IM 01E20A01-01EN


<1<01.0E. xEpxlopsloiosnioPnrPortoectetecdteTdyTpyepIensIntrsutrmuemnetn>t> 8177
SA
10.C22.2 Series (3) Operation
Ex
Dust-ignition proof for Class II/III, Division 1, Groups E, F
Fo
Explosion Protected Type Instrument
rC
plo
sion
proof fo
rCl
ass
I,D
iv
&G.
In this chapter, further requirements and differences for
WARNING
“SEAL ALL CONDUITS WITHIN 50 cm OF THE explosion proof type instrument are described.
10.1 ATEX
WARNING : OPEN CIRCUIT BEFORE REMOVING
•
(A(X1F) InTtegcrhanl iFclaolwDmaettaer), (AXFA14 Remote Converter)
(AXF Integral Flowmeter), (AXF Remote Flowtube)
ision
1,
G
rou
ps A,
B,C
&
D.
For CSA C22.2 Series
ENCLOSURE”
NOTE
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED”
COVER.
NOTE
Maximum power supply voltage: 250 Vac/130 Vdc
OUVRIR LE CIRCUIT AVANT
For ATEX explosion proof type speci cation, refer to
Excitation Circuit: 140V max Enclosure: Type 4X
D’ENLEVER LE COUVERCLE. IM 01E20A01-11EN.
When describing the model name like AXFC in Temperature Code: T6
Take care not to generate mechanical spark when access to the instrument and peripheral devices in hazardous locations.
this manual, “” means any of the following. Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
002, 005, 010, 015, 025, 032, 040, 050, 065, 080, 100, 125, 150, 200, 250, 300, 350, 400
10.2 FM
For CSA E79 Series
For CSA E79 Series
Flameproof for Zone 1, Ex d IIC T6
Maximum power supply voltage: 250 Vac/130 Vdc
Excitation Circuit: 140V max
Enclosure: IP66, IP67
WARNING
Temperature Code: T6
Magnetic owmeters with the model name
WARNING
Ambient Temp.: –40°C to +60°C (–40°F to +140°F) AXFC magnetic owmeter and AXFA14C
Applicable Standard:
remote converter are products which have been
WARNING : AFTER DE-ENERGIZING, DELAY 20 MINUTES BEFORE OPENING.
(2) Installation
certi ed as explosion proof type instruments. Strict
•
•
(AXF Integral Flowmeter)
For CSA C22.2 Series
APRÉS POWER-OFF, ATTENDRE 20 Explosion proof for Class I, Division 1, Groups A, B, C &
limitations are applied to the structures, installation locations, external wiring work, maintenance and
D. MINUTES AVANT D’OUVRIR.
FM3600, FM3610, FM3615, FM3810, ANSI/NEMA 250
WARNING
• Take care not to generate mechanical spark when Dust-ignition proof for Class II/III, Division1, Groups E, F
repairs, etc. of these instruments. Suf cient care must
access to the instrument and peripheral devices in &G.
be taken, as any violation of the limitations may cause
All wiring shall comply with Canadian Electrical dangerous situations.
hazardous locations.
Intrinsically safe (electrodes) for Class I, Division 1,
Code Part I and Local Electrical Codes.
Be sure to read this chapter before handling the
GroupsA,B,C&D.
WARNING : DE-ENERGIZE BEFORE OPENING. Excitation Circuit: 140V max
OUVRIR LE CIRCUIT AVANT Enclosure: NEMA 4X
D’ENLEVER LE COUVERCLE. Temperature Code: T6
Note: TemperatureCodeT5toT3includedinthescopeof • Take care not to generate mechanical spark when
In hazardous location, wiring shall be in conduit as instruments.
(AXF Remote Flowtube)
shown in Figure 10.3
For explosion proof type instrument, the description in
“SEAL ALL CONDUITS WITHIN 18 INCHES”
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED” ElectrodWe CAircRuiNt UImN: 2G50 Vac/dc
Maximum power supply voltage: 250 Vac/130 Vdc
WARNING : SEAL ALL CONDUITS WITHIN 50cm
this chapter is prior to other description in this user’s
manual.
OF THE ENCLOSURE’.
UN SCELLEMENT DOIT ÉTRE
For ATEX or IECEx explosion proof type, be sure to
INSTALLÉ À MOINS DE 50cm DU read IM 01E20A01-11EN.
BOÎTIER.
For TIIS explosion proof type, be sure to read
•
Magnetic Flowmeter Conduit
When installed in Division 2, “SEALS NOT “INSTALLATIONANDOPERATINGPRECAUTIONS
REQUIRED”
FOR TIIS FLAMEPROOF EQUIPMENT” at the end of
application and its approval
access to the instrument and peripheral devices in
this manual.
HAZARDOUS LOCATIONS
Refer to following table; hazardous locations.
Sealing Fitting
Temperature Maximum Process Code Temperature
T6 +70°C (+158F) MaTin5 tenance a+n85d°CR(+e1p85aFi)r T4 +120°C (+248F) T3 +130°C (+266F)
Minimum Process Temperature –40°C (–40°F) –40°C (–40°F) –40°C (–40°F) –40°C (–40°F)
WARNING
(4)
WARNING
The instrument modi cation or parts replacement by other than authorized representative of YOKOGAWA Electric Corporation or YOKOGAWA Corporation
of AMERICA is prohibited and will void Canadian Standards Explosionproof Certi cation.
10.4 IECEx
NOTE
For IECEx explosion proof type speci cation, refer to IM 01E20A01-11EN.
The terminal box cover and display cover is locked by 50 cm Max.
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
special screw. In case of opening the cover, usFe10t1h2.eai Figuhrex1a0g.3onaClownrdeunict hWairtitnagched.
The covers of explosion proof type products are ForloCcSkAedE. 7U9seSethreieasttached hexagonal wrench to open
• •
•
and close the cover. Before opening the cover, be sure to cheWck tAhaRt thNe pINowGer of owmeter has been turned off. Once the cover is closed, be sure to re-lock the
All wiring shall comply with local installation product.
requirements and local electrical code.
Be sure to lock the cover with the special screw using
In hazardous locations, the cable entry devices the hexagonal wrench attached after tightening the
shall be of a certi ed ameproof type, suitable for cover.
the conditions of use and correctly installed. Unused apertures shall be closed with suitable ameproof certi ed blanking elements. (The plug attached is ameproof certi ed.)
IM 0IM1E0210EA201A-01-E0N1EN
1010
Explosion Protected Type Instrument Explosion Protected Type Instrument


10.5 TIIS
CAUTION
The model AXFC magnetic owmeter and AXFA14C remote converter with optional code
JF3, which have obtained certi cation according to technical criteria for explosion-protected construction of electric machinery and equipment (Standards Noti cation No. 556 from the Japanese Ministry of Labor) conforming to IEC standards, are designed for hazardous areas where in ammable gases or vapors may be present. (This allows installation in Division 1 and 2 areas)
To preserve the safety of ameproof equipment requires great care during mounting, wiring, and piping. Safety requirements also place restrictions on maintenance and repair activities. Users absolutely must read “INSTALLATION AND OPERATING PRECAUTIONS FOR TIIS FLAMEPROOF EQUIPMENT” at the end of this manual.
(1) Technical Data
(AXF Integral Flowmeter), (AXF Remote Flowtube)
• Certi cate: Wafer Type;
<10. Explosion Protected Type Instrument> 82
Flange Type (PFA lining only);
Lining / Process Connection code
Size: mm (inch)
Integral Flowmeter
Remote Flowtube
PFA Lining
PFA Lining
-B**, -D**
-B**, -D**
2.5 (0.1)
TC18966
TC18982
5 (0.2)
TC18966
TC18982
10 (0.4)
TC18966
TC18982
15 (0.5)
TC18966
TC18982
25 (1.0)
TC16631
TC16655
32 (1.25)
TC16632
TC16656
40 (1.5)
TC16633
TC16657
50 (2.0)
TC16634
TC16658
65 (2.5)
TC16635
TC16659
80 (3.0)
TC16636
TC16660
100 (4.0)
TC16637
TC16661
125 (5.0)
TC16638
TC16662
150 (6.0)
TC18969
TC18985
200 (8.0)
TC18971
TC18987
250 (10)
TC18973
TC18989
300 (12)
TC18975
TC18991
350 (14)
TC18976
TC18992
400 (16)
TC18977
TC18993
(AXF Integral Flowmeter)
• Construction: Ex de[ia] IIC T4
: Converter; Explosion proof
Flowtube; IncreasedSafetyand Intrinsically Safety(ia) Electrode; Intrinsically Safety(ia)
Um=250VAC 50/60Hz, 250VDC, Uo=250V*, Io=3.37mA*, Po=0.211W *Uo and Io are rms value.
• Gas Group and Temperature Class: IIC T4
• Ambient Temperature: –20 to 60°C (power supply
code 1)
: –20 to 50°C (power supply
code 2)
• Fluid Temperature: 120°C max
• Electrode Circuit: 250 V AC/DC
• Maximum power supply voltage: 250V AC/130V DC
• Grounding: JIS Class C (grounding resistance 10Ω or
less) or JIS Class A (grounding resistance 10Ω or less)
WARNING
In case that ambient temperature exceeds 50°C, use heat-resistant cables with maximum allowable temperature of 70°C or above.
(AXF Remote Flowtube)
• Construction: Ex de[ia] IIC T4
: Terminal box; Explosion proof
Flowtube; Increased Safety and Intrinsically Safety(ia) Electrode; Intrinsically Safety(ia)
Um=250VAC 50/60Hz, 250VDC, Uo=250V*, Io=3.37mA*, Po=0.211W *Uo and Io are rms value.
Lining / Process Connection code
Size: mm (inch)
Integral Flowmeter
Remote Flowtube
PFA Lining
Ceramics Lining
PFA Lining
Ceramics Lining
-A**
-A**
-A**
-A**
2.5 (0.1)
TC18966
TC16645
TC18982
TC16669
5 (0.2)
TC18966
TC16645
TC18982
TC16669
10 (0.4)
TC18966
TC16645
TC18982
TC16669
15 (0.5)
TC18966
TC16646
TC18982
TC16670
25 (1.0)
(Lay length code 1)
TC16631
TC16647
TC16655
TC16671
25 (1.0)
(Lay length code 2)
TC18967
—
TC18983
—
32 (1.25)
TC16632
—
TC16656
—
40 (1.5)
TC16633
TC16648
TC16657
TC16672
50 (2.0)
TC16634
TC16649
TC16658
TC16673
65 (2.5)
TC16635
—
TC16659
—
80 (3.0)
TC16636
TC18978
TC16660
TC18994
100 (4.0)
TC16637
TC18979
TC16661
TC18995
125 (5.0)
TC16638
—
TC16662
—
150 (6.0)
TC18968
TC18980
TC18984
TC18996
200 (8.0)
TC18970
TC18981
TC18986
TC18997
250 (10)
TC18972
—
TC18988
—
300 (12)
TC18974
—
TC18990
—
350 (14)
—
—
—
—
400 (16)
—
—
—
—
IM 01E20A01-01EN


• • • • •
Am
Explosion Protected Type Instrument
bi
ent Tem
pera
0 Fluid Temperature: 120°C max
ture
:–2
to6
0°C
Packing Adapter
<1<01.0E. xEpxlopsloiosnioPnrPortoectetecdteTdyTpyepIensIntrsutrmuemnetn>t> 8377
Gas G
10.roup and Temperature Class: IIC T4 (2-1) Wiring Cable through Flameproof
Electrode Circuit: 250 V AC/DC
In this chapter, further requirements and differences for
WARNING
Grounding: JIS Class C (grounding resistance 10Ω or explosion proof type instrument are described.
10.1 ATEX
(AXFA14 Remote Converter)
packing adapters approved by Yokogawa (optional For ATEX explosion proof type speci cation, refer to
• •
• •
• •
code G12, G11, G14 or G13). IM 01E20A01-11EN.
less) or JIS Class A (grounding resistance 10Ω or less)
For the TIIS ameproof type with wiring using a
NOTE
Certi cate: TC16678
When describing the model name like AXFC in Construction: Ex d IIC T6
this manual, “” means any of the following. : Explosion proof
002, 005, 010, 015, 025, 032, 040, 050, 065, 080, 100, Gas Group and Temperature Class: IIC T6
125, 150, 200, 250, 300, 350, 400
Ambient Temperature: –20 to 60°C (power supply
code 1)
: –20 to 50°C (power supply
ameproof packing adapter, wire cables through the
NOTE
In case that optional code G11 or G13 is selected, it comes with a blanking plug.
Then always apply it to the unused wiring port.
10.2 FM
(1) Technical Data
Unit : mm (Approx. inch)
Adapter body(M. Screw) O-Ring
Packing case
T1
WARNING
code 2)
Maximum power supply voltage: 250V AC/130V DC
16.5(0.65) (AXFIntegralFlowmeter),(AXFHRexaegomnsoctketsFetlsocrewtube)
Grounding: JIS Class C(grouding resistance 10V or Magnetic owmeters with the model name
Standard: Packing *
Hexagon socket set screw
G
FM3810, ANSI/NEMA 250
(Choose from the table below
B.coupling
D. Cable(user's scope)
Dust-ignition proof for Class II/III, Division1, Groups E, F &G.
less) or JIS Class A(grounding resistance AXFC magnetic owmeter and AXFA14C
Ap 18(0.71)
FM3600,LFM3610,FM3615, O-Ring
10V or less)
remote converter are products which have been
F
O-Ring
Washer C Union nut
Packing gland Clamp ring
Clamp nut
certi ed as explosion proof type instruments. Strict limitations are applied to the structures, installation
(AXF Integral Flowmeter)
WARNING
T2 O-Ring
depEendxopn claoblse oiuotsnidepdiarmoetoer)f for Class I, Division 1, Groups A, B, C &
*Packing
locations, external wiring work, maintenance and
repairs, etc. of these instruments. Suf cient care must
In case that ambient temperature exceeds 50°C,
be taken, as any violation of the limitations may cause
Nominal diameter
Dimension
Cable outer diameter
Packing diameter
Identification mark
Weight kg (lb)
Parts No.
T1
T2
C
D
L
F
G
Int G 1/2
rinsi G 1/2
call 35
(1.38)
ys 39
(1.54)
fe 94.5
(3.72)
(eø8l.e0tocøt1r0o.0(d0.3e1sto)0.3f9o)
rø10C.0(0l.a39)
øs20I.0, (0.79)
D16 iv8-i1s0 i
o0n.26 (0.57)
1, G9601AM
ø10.0 to ø12.0 (0.39 to 0.47)
ø12.0(0.47)
16 10-12
use heat-resistant cables with maximum allowable dangerous situations.
as GroupsA,B,C&D.
“SEAL ALL CONDUITS WITHIN 18 INCHES”
Figure 10.5.1 Flameproof Packing Adapter
temperature of 70°C or above.
Be sure to read this chapter before handling the
instruments.
For explosion proof type instrument, the description in
F1021.ai
this chapter is prior to other description in this user’s
“WHEN INSTALLED IN DIV. 2, SEALS NOT REQUIRED”
manual.
• Apply a non-hardening sealant to the terminal box Maximum power supply voltage: 250 Vac/130 Vdc
WARNING
Electrode Circuit Um: 250 Vac/dc
For ATEX or IECEx explosion proof type, be sure to In case of TIIS Flameproof type, a remote owtube is
connection port and to the threads on the ameproof Excitation Circuit: 140V max
read IM 01E20A01-11EN.
available for combined use with the AXFA14 converter
packing adapter for waterproo ng. Enclosure: NEMA 4X
For TIIS explosion proof type, be sure to read only.
• Either a ameproof packing adapter or a blanking Temperature Code: T6
“ I N S T A L L A T I O N A N D O P E R A T I N G P R E C A U T I O N S
N o p t l e u : g T me mu s p t e b r a e t u a r e p p C l o i e d d e t T o 5 e t o v e T r 3 y i n w c i l r u i n d g e d p i o n r t t h . e s c o p e o f
FOR TIIS FLAMEPROOF EQUIPMENT” at the end of
application and its approval
In case that optional code G11 or G13 is selected, it
Refer to following table; comes with a blanking plug.
this manual.
(2)
For the external wiring of ameproof types, use a ameproof packing adapter approved by Yokogawa (refer to Figure 10W.5.2A) oRr cNabIlNe wGiring using a ameproof metal conduit (refer to Figure 10.5.4 and “INSTALLATION AND OPETRheATteINrmGinPaRl bEoCxAcUovTeIOr aNnSdFdOisRplaTyIIcSoFvLeAr iMs EloPckReOdObFy EQUspIPeMciaElNsTcr”eawt.thIneceansdeofftohpisemniannguthael).cover, use the
Wiring Installation
Temperature Maximum Process Minimum Process
locked. Use the attached hexagonal wrench to open
plicable
Then always apply it to the unused wiring port.
Code Temperature Temperature
If the blanking plug is necessary, always purchase it T6 +70°C (+158F) –40°C (–40°F)
T5 +85°C (+185F) –40°C (–40°F) (parts number: G9330DP) from Yokogawa.
T4 +120°C (+248F) –40°C (–40°F)
D
Apply a Tn3on-hardening+130°C (+266F) –40°C (–40°F)
sealant to the threads of these
Ambient Temp.: –40°C to +60°C (–40°F to +140°F)
fittings for waterproofing.
hexagonal wrench attached.
NOTE
Wiring metal conduit
Tee
Drain plug
Figure 10.5.2
The covers of explosion proof type products are
Apply a blanking plug to the unused wiring port
This section describes the Integral owmeter as an
and close the cover. Before opening the cover, be sure
example. The same attention must be paid to the
to check that the power of owmeter has been turned
Flameproof packing adapter
Flexible metal conduit
remote owtube and remote converter.
off. Once the cover is closed, be sure to re-lock the
product.
Be sure to lock the cover with the special screw using the hexagonal wrench attached after tightening the cover.
F1022.ai
Typical Wiring Using Flexible Metal Conduit
IM 0IM1E0210EA201A-01-E0N1EN
1010
Explosion Protected Type Instrument Explosion Protected Type Instrument


Follow the procedure below when a ameproof packing adapter (optional code G12, G11, G14 or G13) is applied. Refer to Figure 10.5.3.
If a blanking plug is applied, follow the same procedure when the ameproof packing adapter is applied.
CAUTION
Before tighting, con rm cable length from terminal to ameproof packing adapter when setting. Once it is tightened, loosening and re-tightening may damage its sealing performance.
(a) Loosen the locking screw and remove the terminal box cover.
(b) Measure the cable outer diameter in two directions to within 0.1 mm.
(c) Calculate the average of the two diameters, and use packing with an internal diameter nearest to this value (see the table of Figure 10.5.1).
(d) Screw the ameproof packing adapter into the terminal box until the O-ring touches the wiring port (at least 6 full turns), and rmly tighten the lock nut.
(e) Insert the cable through the union cover, the union coupling, the clamp nut, the clamp ring, the gland, the washer, the rubber packing, and the packing box, in that order.
(f) Inserttheendofthecableintotheterminalbox.
(g) Tighten the union cover to grip the cable. When
tightening the union cover, tighten approximately
one turn past the point where the cable will no longer move up and down.
Proper tightening is important. If it is too tight, a circuit break in the cable may occur; if not tight enough, the ameproof effectiveness will be compromised.
(h) Fasten the cable by tightening the clamp nut.
(i) Tighten the lock nut on the union cover.
(j) Connect the cable wires to each terminal.
(2-2) Cable Wiring Using Flameproof Metal Conduit
• A seal tting must be installed near the terminal box connection port for a sealed construction.
• Apply a non-hardening sealant to the threads of the terminal box connection port, exible metal conduit and seal tting for waterproo ng.
• Every wiring port must apply the same wiring as Figure 10.5.4.
Apply a blanking plug to the unused wiring port of a 24V power supply version when a four-wire cable is used for both power input and signal output.
If the blanking plug is necessary, always purchase it (parts number: G9330DP) from Yokogawa.
Wrench
Cable
Union cover
Union coupling Clamp nut
Lock nut
Figure 10.5.3
Installing Flameproof Packing Adapter
Packing box
Adapter body
Apply a non-hardening sealant to the threads for waterproofing.
Clamp ring Gland
Wrench Lock nut
O-ring
Washer
Rubber packing
F1023.ai
<10. Explosion Protected Type Instrument> 84
Non-hazardous area
Hazardous area
Gas sealing device
Flameproof heavy-gauge steel conduit
Tee Drain plug
Figure 10.5.4
Apply a non-hardening sealant to the threads of these fittings for waterproofing
Seal fitting
After wiring, impregnate the
fitting with a compound to seal tubing.
F1024.ai
Typical Wiring Using Flameproof Metal Conduit
Apply a blanking plug to the unused wiring port
Flameproof flexible metal conduit
IM 01E20A01-01EN


<INSTALLATION AND OPERATING PRECAUTIONS FOR TIIS FLAMEPROOF EQUIPMENT> 85
INSTALLATION AND OPERATING PRECAUTIONS FOR TIIS FLAMEPROOF EQUIPMENT
Apparatus Certi ed Under Technical Criteria (IEC-compatible Standards)
1. General
The following describes precautions on electrical apparatus of ameproof construction (hereinafter referred to as ameproof apparatus) in explosion-protected apparatus.
Following the Labour Safety and Health Laws of Japan, ameproof apparatus is subjected to type tests to meet either the technical criteria for explosionproof electrical machinery and equipment (standards noti cation no.
556 from the Japanese Ministry of Labour) (hereinafter referred to as technical criteria), in conformity with the IEC Standards, or the “Recommended Practice for Explosion- Protected Electrical Installations in General Industries,” published in 1979. These certi ed apparatus can be used in hazardous locations where explosive or in ammable gases or vapours may be present.
Certi ed apparatus includes a certi cation label and an equipment nameplate with the speci cations necessary for explosion requirements as well as precautions on explosion protection. Please con rm these precautionary items and use them to meet speci cation requirements. For electrical wiring and maintenance servicing, please refer to “Internal Wiring Rules” in the Electrical Installation Technical Standards as well as “USER’S GUIDELINES for Electrical Installations for Explosive Gas Atmospheres in General Industry,” published in 1994.
To meet ameproof requirements, equipment that can be termed “ ameproof” must:
(1) Be certi ed by a Japanese public authority in
accordance with the Labour Safety and Health Laws of Japan and have a certi cation label in an appropriate location on its case, and
(2) Be used in compliance with the speci cations marked on its certi cation label, equipment nameplate and precautionary information furnished.
2. Electrical Apparatus of Flameproof Type of Explosion- Protected Construction
Electrical apparatus which is of ameproof construction is subjected to a type test and certi ed by the Japanese Ministry of Labour aiming at preventing explosion caused by electrical apparatus in a factory or any location where in ammable gases or vapours may be present. The ameproof construction is of completely enclosed type
and its enclosure shall endure explosive pressures in cases where explosive gases or vapours entering the enclosure cause explosion. In addition, the enclosure construction shall be such that ame caused by explosion does not ignite gases or vapours outside the enclosure. In this manual, the word " ameproof" is applied to
the ameproof equipment combined with the types of protection "e", "o", "i", and "d" as well as ameproof equipment.
3. Terminology (1) Enclosure
An outer shell of an electrical apparatus, which encloses live parts and thus is needed to con gure explosion- protected construction.
(2) Shroud
A component part which is so designed that the fastening of joint surfaces cannot be loosened unless a special tool is used.
(3) Enclosure internal volume
This is indicated by:— the total internal volume of the ameproof enclosure minus the volume of the internal components essential to equipment functions.
(4) Path length of joint surface
On a joint surface, the length of the shortest path through which ame ows from the inside to outside of the ameproof enclosure. This de nition cannot be applied to threaded joints.
(5) Gaps between joint surfaces
The physical distance between two mating surfaces, or differences in diameters if the mating surfaces are cylindrical.
Note: Thepermissiblesizesofgapsbetweenjointsurfaces,
the path length of a joint surface and the number of joint threads are determined by such factors as the enclosure’s internal volume, joint and mating surface construction, and the explosion classi cation of the speci ed gases and vapours.
EX-B03E


<INSTALLATION AND OPERATING PRECAUTIONS FOR TIIS FLAMEPROOF EQUIPMENT> 86
4. Installation of Flameproof Apparatus
•
•
•
•
(2)
•
• •
Speci c cables shall be used as recommended by the “USER’S GUIDELINES for Electrical Installations for Explosive Gas Atmospheres in General Industry,” published in 1994.
In necessary, appropriate protective pipes (conduit
or exible pipes), ducts or trays shall be used for preventing the cable run (outside the cable glands) from damage.
To prevent explosive atmosphere from being propagated form Zone 1 or 2 hazardous location
to any different location or non-hazardous location through the protective pipe or duct, apply sealing
of the protective pipes in the vicinity of individual boundaries, or ll the ducts with sand appropriately. When branch connections of cables, or cable connections with insulated cables inside the conduit pipes are made, a ameproof or increased-safety connection box shall be used. In this case, ameproof or increased-safety cable glands meeting the type of connection box must be used for cable connections to the box.
Flameproof Metal Conduit Wiring
For the ameproof metal conduit wiring or insulated wires shall be used as recommended by the USER’S GUIDELINES for Electrical Installations for Explosive Gas Atmospheres in General Industry, published in 1994.
For conduit pipes, heavy-gauge steel conduits conforming to JIS C 8305 Standard shall be used. Flameproof sealing ttings shall be used in the vicinity of the wiring connections, and those ttings shall be lled with sealing compounds to complete sealing
of the apparatus. In addition, to prevent explosive gases, moisture, or ame caused by explosion form being propagated through the conduit, always provide sealing ttings to complete sealing of the conduit in the following locations:
(a) In the boundaries between the hazardous and non-hazardous locations.
(b) In the boundaries where there is a different classi cation of hazardous location.
For the connections of the apparatus with a conduit pipe or its associated accessories, G-type parallel pipe threads (JIS B 0202) shall be used to provide a minimum of ve-thread engagement to complete tightness. In addition, since these parallel threads do not have sealing property, nonhardening sealant such as liquid gaskets shall thus be applied to those threads for ensuring waterproofness.
If metal conduits need exibility, use ameproof exible ttings.
(1)
Installation Area
Flameproof apparatus may be installed, in accordance with applicable gases, in a hazardous area in Zone 1 or 2, where the speci ed gases are present. Those apparatus shall not be installed in a hazardous area in Zone 0.
Note: Hazardousareasareclassi edinzonesbasedupon the frequency of the appearance and the duration of an explosive gas atmosphere as follows:
Zone 0: An area in which an explosive gas atmosphere
is present continuously or is present for long
periods.
Zone 1: An area in which an explosive gas atmosphere is
likely to occur in normal operation.
Zone 2: An area in which an explosive gas atmosphere is not likely to occur in normal operation and if it
does occur it will exist for a short period only.
(2) Environmental Conditions
The standard environmental condition for the installation of ameproof apparatus is limited to an ambient temperature range from –20°C to +40°C (for products certi ed under Technical Criteria). However, some eld- mounted instruments may be certi ed at an ambient temperature up to +60°C as indicated on the instrument nameplates. If the ameproof apparatus are exposed
to direct sunshine or radiant heat from plant facilities, appropriate thermal protection measures shall be taken.
5. External Wiring for Flameproof Apparatus
Flameproof apparatus require cable wiring or ameproof metal conduits for their electrical connections. For
cable wiring, cable glands (cable entry devices for ameproof type) to wiring connections shall be attached. For metal conduits, attach sealing ttings as close to wiring connections as possible and completely seal the apparatus. All non-live metal parts such as the enclosure shall be securely grounded. For details, see the “USER’S GUIDELINES for Electrical Installations for Explosive Gas Atmospheres in General Industry,” published in 1994.
•
•
(1)
•
•
Cable Wiring
For cable wiring, cable glands (cable entry devices
for ameproof type) speci ed or supplied with the apparatus shall be directly attached to the wiring connections to complete sealing of the apparatus. Screws that connect cable glands to the apparatus are those for G-type parallel pipe threads (JIS B 0202) with no sealing property. To protect the apparatus from corrosive gases or moisture, apply nonhardening sealant such as liquid gaskets to those threads for waterproo ng.
EX-B03E


<INSTALLATION AND OPERATING PRECAUTIONS FOR TIIS FLAMEPROOF EQUIPMENT> 87
6. Maintenance of Flameproof Apparatus
To maintain the ameproof apparatus, do the following. (For details, see Chapter 10 “MAINTENANCE
OF EXPLOSION-PROTECTED ELECTRICAL INSTALLATION” in the USER’S GUIDELINES for Electrical Installations for Explosive Gas Atmospheres in General Industry.)
(1) Maintenance servicing with the power on.
Flameproof apparatus shall not be maintenance-serviced with its power turned on. However, in cases where maintenance servicing is to be conducted with the power turned on, with the equipment cover removed, always use a gas detector to check that there is no explosive gas in that location. If it cannot be checked whether an explosive gas is present or not, maintenance servicing shall be limited to the following two items:
(a) Visual inspection
Visually inspect the ameproof apparatus, metal conduits, and cables for damage or corrosion, and other mechanical and structural defects.
(b) Zero and span adjustments
These adjustments should be made only to the extent that they can be conducted from the outside without opening the equipment cover. In doing this, great care must be taken not to cause mechanical sparks with tools.
(2) Repair
If the ameproof apparatus requires repair, turn off
the power and transport it to a safety (non-hazardous) location. Observe the following points before attempting to repair the apparatus.
(a) Make only such electrical and mechanical repairs
as will restore the apparatus to its original condition. For the ameproof apparatus, the gaps and path lengths of joints and mating surfaces, and mechanical strength of enclosures are critical factors in explosion protection. Exercise great care not to damage the joints or shock the enclosure.
(b) If any damage occurs in threads, joints or mating surfaces, inspection windows, connections between the transmitter and terminal box, shrouds or clamps, or external wiring connections which are essential in ameproofness, contact Yokogawa Electric Corporation.
CAUTION
Do not attempt to re-process threaded connections or re nish joints or mating surfaces.
(c) Unless otherwise speci ed, the electrical circuitry and internal mechanisms may be repaired by component replacement, as this will not directly affect the requirements for ameproof apparatus (however, bear in mind that the apparatus must always be restored to its original condition). If you attempt to repair the ameproof apparatus, company-speci ed components shall be used.
(d) Before starting to service the apparatus, be sure to check all parts necessary for retaining the requirements for ameproof apparatus. For this, check that all screws, bolts, nuts, and threaded connections have properly been tightened.
(3) Prohibition of speci cation changes and modi cations
Do not attempt to change speci cations or make modi cations involving addition of or changes in external wiring connections.
7. Selection of Cable Entry Devices for Flameproof Type
CAUTION
The cable glands (cable entry devices for ameproof type) conforming to IEC Standards are certi ed
in combination with the ameproof apparatus.
So, Yokogawa-speci ed cable entry devices for ameproof type shall be used to meet this demand.
References:
(1) Type Certi cate Guide for Explosion-Protected Construction Electrical Machinery and Equipment (relating to Technical Standards Conforming to International Standards), issued by the Technical Institution of Industrial Safety, Japan
(2) USER’S GUIDELINES for Electrical Installations for Explosive Gas Atmospheres in General Industry (1994), issued by the Japanese Ministry of Labour, the Research Institute of Industrial Safet
EX-B03E


88
Revision Information
Title : AXF Series Magnetic Flowmeter Installation Manual Manual No. : IM 01E20A01-01EN
Edition
Date
Page
Revised Item
1st
Dec. 2014
—
New publication
2nd
Aug. 2015
Cover 1
3 4
6
39 76 77
78 78to82
87to90
Cover 1.
1.1 (4)
1.1 (7) to (9) 1.3
2.
2.1
4.2.4 (4) 9. (1)
9. (3)
10. 10.1
10.4
Changed the Contents.
Added the model.
Changed the sentences for this manual.
Changed the sentences for this manual.
Changed the website address.
Changed the table in Table 1.1
Added the NOTE for this manual.
Added the NOTE for maintenance.
Added the WARNING and sentences.
Changed the IMPORTANT for combination remote converters. Changed the sentences for the attached parts.
Changed the sentences for checking model and speci cations. Changed the name plate and deleted the note in Figure 2.1.1 to Figure 2.1.4.
Changed the IMPORTANT for combination remote converters. Changed the table and note for PED.
Added applied “EN” standard and the performance specification in EMC Conformity Standards.
Added the NOTE for this manual.
Added and changed the sentences, notes and figure for ATEX certi cation.
Added and changed the sentences, notes and figure for IECEx certi cation.
3rd
May 2016
Cover 1
3
5 13to14 16to18 21to23
29 40 75 77
82
Cover 1.
1.1 (5) 2.
3.3.2 (4)
3.3.3 (4)
3.3.4 (2)
4.1.1 4.3.1 9. 10. 10.1
10.4
Added the sentences for this manual.
Corrected the sentences for this manual.
Corrected the WARNING for explosion proof type.
Aded the process connection code “-AP1”.
Added the JPI ange rating in Table 3.3.4 to Table 3.3.6.
Added the JPI ange rating in Table 3.3.7 to Table 3.3.10.
Added the JPI and AS flange ratings in Table 3.3.13 to Table 3.3.15.
Corrected the CAUTION for a blanking plug.
Corrected the CAUTION for a blanking plug.
Corrected the table and notes for PED.
Corrected the WARNING for explosion proof type.
Deleted the sentences for ATEX explosion proof type.
Added the NOTE for ATEX explosion proof type.
Deleted the sentences for IECEx explosion proof type.
Added the NOTE for IECEx explosion proof type.
IM 01E20A01-01EN




YOKOGAWA ELECTRIC CORPORATION
Headquarters
2-9-32, Nakacho, Musashino-shi, Tokyo, 180-8750 JAPAN Phone : 81-422-52-5555
Branch Sales Offices
Osaka, Nagoya, Hiroshima, Kurashiki, Fukuoka, Kitakyusyu
YOKOGAWA CORPORATION OF AMERICA
Head Office
12530 West Airport Blvd, Sugar Land, Texas 77478, USA Phone : 1-281-340-3800 Fax : 1-281-340-3838
Georgia Office
2 Dart Road, Newnan, Georgia 30265, USA
Phone : 1-800-888-6400/ 1-770-253-7000 Fax : 1-770-254-0928
YOKOGAWA AMERICA DO SUL LTDA.
Praca Acapulco, 31 - Santo Amaro, Sáo Paulo/SP, BRAZIL, CEP-04675-190 Phone : 55-11-5681-2400 Fax : 55-11-5681-4434
YOKOGAWA EUROPE B. V.
Euroweg 2, 3825 HD Amersfoort, THE NETHERLANDS Phone : 31-88-4641000 Fax : 31-88-4641111
YOKOGAWA ELECTRIC CIS LTD.
Grokholskiy per 13 Building 2, 4th Floor 129090, Moscow, RUSSIA Phone : 7-495-737-7868 Fax : 7-495-737-7869
YOKOGAWA CHINA CO., LTD.
3F Tower D Cartelo Crocodile Building, No.568 West Tianshan Road, Shanghai 200335, CHINA
Phone : 86-21-62396262 Fax : 86-21-62387866
YOKOGAWA ELECTRIC KOREA CO., LTD.
(Yokogawa B/D, Yangpyeong-dong 4-Ga), 21, Seonyu-ro 45-gil, Yeongdeungpo-gu, Seoul, 150-866, KOREA
Phone : 82-2-2628-6000 Fax : 82-2-2628-6400
YOKOGAWA ENGINEERING ASIA PTE. LTD.
5 Bedok South Road, Singapore 469270, SINGAPORE Phone : 65-6241-9933 Fax : 65-6241-2606
YOKOGAWA INDIA LTD.
Plot No.96, Electronic City Complex, Hosur Road, Bangalore - 560 100, INDIA Phone : 91-80-4158-6000 Fax : 91-80-2852-1442
YOKOGAWA AUSTRALIA PTY. LTD.
Tower A, 112-118 Talavera Road, Macquarie Park NSW 2113, AUSTRALIA Phone : 61-2-8870-1100 Fax : 61-2-8870-1111
YOKOGAWA MIDDLE EAST & AFRICA B.S.C.(C)
P.O. Box 10070, Manama, Building 577, Road 2516, Busaiteen 225, Muharraq, Kingdom of BAHRAIN
Phone : 973-17358100 Fax : 973-17336100
Apr. '15 Printed in Japan