Valid on from Gateway Software Version D200S022U02 A.10 and Flowmeter Software Version D699B180U01 X.30 Field Electromagnetic Flowmeter FXE4000 (COPA-XE/MAG-XE) PROFIBUS PA 3.0 IT Datalink Description D184B093U26
Valid on from Gateway Software Version D200S022U02 A.10 andFlowmeter Software VersionD699B180U01 X.30
Field
Electromagnetic FlowmeterFXE4000 (COPA-XE/MAG-XE)
PROFIBUS PA 3.0
ITDatalink DescriptionD184B093U26
2 FXE4000 D184B093U26
Product DescriptionFXE4000
Datalink Description
Part No. D184B093U26
Issue date: 01.03Revision: 03
Manufacturer:
ABB Automation Products GmbHDransfelder Str. 2
37079 Göttingen
Telephone: +49 (0) 55 19 05- 0Telefax: +49 (0) 55 19 05- 777
© Copyright 2003 by ABB Automation Products GmbHWe reserve the right to technical amendments.
This document is protected by copyright. Information in this document is intended only to assist the userinthe safe and efficient operation of the equipment. Its contents are not to be reproduced in full or part without prior approval of the legal owner.
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
3
CONTENTS
1. HARDWARE.................................................................................................................................................. 4
2. CONFIGURATION......................................................................................................................................... 4 2.1 IDENT NUMBER...................................................................................................................................................................4 2.2 CONFIG STRING ..................................................................................................................................................................5
Module........................................................................................................................................................................................5 2.2.1 Slots ............................................................................................................................................................................6 2.2.2 Examples ....................................................................................................................................................................6
2.3 ADDRESS SETTINGS ............................................................................................................................................................7 2.3.1 Hardware switch for address setting ........................................................................................................................7
3. OVERVIEW BLOCKS.................................................................................................................................... 8 3.1 BLOCK-TABLE-LEGEND .....................................................................................................................................................9 3.2 SLOT 0 - PHYSICAL BLOCK ..............................................................................................................................................10
3.2.1 Physical Block Parameter, sorted in accordance with index .................................................................................10 3.2.2 Physical Block Parameter, sorted according to names..........................................................................................12
3.3 SLOT 1- ANALOG INPUT BLOCK.......................................................................................................................................13 3.3.1 Analog Input Block Diagram...................................................................................................................................13 3.3.2 Analog Input Block Parameter, sorted in accordance with index..........................................................................15 3.3.3 Analog Input Block Parameter, sorted according to names...................................................................................17
3.4 SLOT 2 AND 3 - TOTALIZER BLOCK .................................................................................................................................18 3.4.1 Totalizer Block Diagram .........................................................................................................................................18 3.4.2 Totalizer Block Parameter, sorted in accordance with index ................................................................................20 3.4.3 Totalizer Block Parameter, sorted according to names .........................................................................................23
3.5 TRANSDUCER BLOCK .......................................................................................................................................................24 3.5.1 Channels and Units..................................................................................................................................................24 3.5.2 Transducer Block Parameter, sorted in accordance with index ............................................................................25 3.5.3 Transducer Block Parameter, sorted according to names .....................................................................................37
3.6 DATA STRUCTURES ..........................................................................................................................................................38 3.6.1 DS-32 – Block Structure ..........................................................................................................................................38 3.6.2 DS-33 – Value & Status – Floating Point Structure...............................................................................................38 3.6.3 DS-36 – Scaling Structure .......................................................................................................................................38 3.6.4 DS-37 – Mode Structure ..........................................................................................................................................38 3.6.5 DS-39 – Alarm Float Structure ...............................................................................................................................38 3.6.6 DS-42 – Alarm Summary Structure.........................................................................................................................38 3.6.7 DS-50 – Simulate – Floating Point Structure .........................................................................................................38 3.6.8 DS-67 – Batch Structure..........................................................................................................................................39
4. DIAGNOSIS................................................................................................................................................. 40 4.1 DIAGNOSIS ....................................................................................................................................................................40 4.2 DIAGNOSIS_EXTENSION ...........................................................................................................................................41 4.3 MAPPING XE-ERROR/STATUS..........................................................................................................................................42 4.4 STATUS-BYTE...................................................................................................................................................................43
5. START-UP................................................................................................................................................... 44 5.1 AI-BLOCK .........................................................................................................................................................................44 5.2 TOTALIZER BLOCK............................................................................................................................................................44
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
4
1. Hardware Please note that the naming FXE4000 corresponds to the naming XE4000. The FXE4000 PA BUS interface is realized as gateway, which translates internal HART communication to PA-communication. Because of internal high speed HART baudrate and created special HART-commands for often used parameters the internal HART communication does not have anyeffects on the speed and quality of the external PA BUS speed and general behaviour. The gateway requires both power supplies being active, the flowmeter supply and the PA BUS supply. The local display of the FXE4000 presents some parameters of the gateway (PA-address, ..) and allows to change someot these by using the local keyboard. Pre condition for this again is that both power supplies are active.
2. Configuration
2.1 Ident Number Each Profibus instrument is assigned an manufacturer identification number (ID) by Profibus International (PI). The ID of the XE is: 0x0691. This ID is base for the naming of the manufacturer specific GSD file which is called ABB_0691.GSD,the english version ABB_0691.GSE. This file includes the access to all the manufacturer function blocks being implemented, one AI block and two TOT blocks. Coming with profile version 3.0 PROFIBUS defines standard profiles with individual IDs. The FXE4000 supports standard profiles 0x9740 (one AI and one totalizer block) and 0x9700 (one AI block only). The advantage of these profiles are the interchangeability of devices from different manufacturers if these are supporting the standard identification numbers. A disadvantage is the restricted functionality in opposite to the manufacturer ID. The Physical Block includes the so-called IDENT_NUMBER_SELECTOR (index 24). Setting the selector to the following values you can choose one of the following valid identification numbers: 0: 0x9740 Profile specific AI + TOT PA139740.GSD 1: 0x0691 manufacturer specific ABB AI + 2*TOT ABB_0691.GSD 128: 0x9700 Profile specific AI PA139700.GSD Profile GSD files can be obtained via the Internet: www.profibus.com → Libraries → PA Profiles. The device with PA 3.0 is the follower of the version with PA 2.0 profile which had the ID 0x6668. In order to offer a backward compatibility for cyclic communication, the table above has been extended with: 129: 0x6668 Manufacturer specific AI + 1*TOT ABB_06668.GSD This allows to drive a device with the GSD ABB_06668.gsd of the PA 2.0 device. Prerequisite is to set the IENT_NUMBER_SELECTOR to 129 (using the configuration via keypad and display at the device).
FXE4000 HART PA
Flowmeter with HART-Communication
Gateway galvanic isolated bus-interface
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
5
2.2 Config String Configuring a PA slave starts with transfering a configuration string from the master. This string defines the data used during cyclic data exchange. Please refer to the GSD file which includes the possible configuration strings. Excerpt of the GSD file ABB_0691:
Module 1 = "EMPTY_MODULE" 0x00 Module 2 = "AI" 0x94 Module 3 = "TOTAL" 0x41,0x84,0x85 Module 4 = "SETTOT_TOTAL" 0xC1,0x80,0x84,0x85 Module 5 = "SETTOT_MODETOT_TOTAL" 0xC1,0x81,0x84,0x85 Slot(1) = "AI1" 2 1,2 Slot(2) = "Totalizer 1" 3 1,3,4,5 Slot(3) = "Totalizer 2" 3 1,3,4,5
If the PA 3.0 device is used with the ident number 129 and the PA 2.0 GSD for the PA 2.0 device (0x06668), the config strings of this GSD ABB_6668.gsd are valid. This configuration does not allow to use the PA 2.0 DTM nor the PA 3.0 DTM for acyclic device access.
Module Each module consists of a configuration string. This string in an ecoded form defines how many bytes could cyclically be transferred from Master to Slave and vice versa. Example: 0x94 means 5 bytes transferred from Slave to Master, 0 bytes from Master to Slave. The data transferred depends on the profile fixed within the function block. The above mentioned modules include: 1. "EMPTY_MODULE" This module does not transfer any data. 2. "AI"
Cyclical transfer of AI block OUT parameter from Slave to Master. These are 5 bytes: 4 Bytes (Value, type:Float) + 1 Byte (Status)
3. "TOTAL"
Cyclical transfer of TOTAL parameter (totalizer block) from Slave to Master. These are 5 bytes: 4 Bytes (Value, type:Float) + 1 Byte (Status)
4. "SETTOT_TOTAL"
Cyclical transfer of the parameter TOTAL (totalizer block) from Slave to Master (5 bytes) and transfer of the parameter SET_TOT of the totalizer block (1 byte) from Master to Slave.
5. "SETTOT_MODETOT_TOTAL"
Cyclical transfer of the parameter TOTAL (totalizer block) from Slave to Master (5 bytes) and transfer of SET_TOT and MODE_TOT parameters (totalizer block, 2 bytes in sum) from Master to slave. .
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
6
2.2.1 Slots The FXE4000 with the ID 0691 includes 3 Slots: AI, Totalizer 1 and Totalizer 2. The Slot-Definition defines which modules are to be used with the respective slots. These are as follows: AI: module 1 or 2 Totalizer: module 1, 3, 4 or 5.
2.2.2 Examples The configuration string 0x94,0x41,0x84,0x85,0x41,0x84,0x85 cyclically transfers OUT value coming from the AI block and both TOTAL values coming from the Totalizer blocks from Slave to Master. Altogether this amounts to 15 data bytes :
Slot 1 = AI Slot 2 = Totalizer 1 Slot 3 = Totalizer 2 Config-String 0x94 0x41, 0x84, 0x85 0x41, 0x84, 0x85 Module chosen Module 2:
AI (Out) Module 3 TOTAL
Module 3 TOTAL
Data Slave→Master 5 5 5 Sum: 15 Bytes Data Master→Slave 0 0 0 Sum: 0 Bytes
The configuration string 0x94, 0xC1, 0x81, 0x84, 0x85, 0x00 cyclically transfers the value for OUT of the AI block and the value for TOTAL of Totalizer 1 from Slave to Master. Altogether this amounts to 10 data bytes. The TOTAL value of the second Totalizer block will not be transferred (empty module). SET_TOT and MODE-TOT will be cyclically transferred from Master to Slave. In sum this amounts to 2 bytes.
Slot 1 = AI Slot 2 = Totalizer 1 Slot 3 = Totalizer 2 Config-String 0x94 0xC1, 0x81, 0x84,0x85 0x00 Module chosen Module 2:
AI (Out) Module 3 SETTOT_MODETOT_TOTAL
Module 1 Empty
Data Slave→Master 5 5 0 Sum: 10 Bytes Data Master→Slave 0 2 0 Sum: 2 Bytes
NOTE: This examples are valid only for ID 0x0691. Both profiles, 0x9740 and 0x9700 contain different slot numbers and thus different configuration strings. The necessary entries can be taken from the respective GSD files.
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
7
2.3 Address settings There are three possibilities to set the PA-address: • Hardware switch • PA BUS • Menu “Slave address” in submenu “Data link” Highest priority is given to the hardware switch. An address set by switch is fixed and can not be changed, neither by bus nor by menu. If switch address setting is disabled (switch no. 8: off), then it is possible to set the address via bus or via the menu “Slave Address”.
2.3.1 Hardware switch for address setting The switch is placed on the gateway digital board: Switch 8 defines whether the address needs to be adjusted via bus or hardware: On: The address will be adjusted via hardware using the switches 1-7. It can by no means be adjusted by bus. Off: The address will be adjusted via bus, switches 1-7 are meaningless. Switches 1-7: Hardware address settings, binary coded. Valid addresses are 0-125. Example: Address 50 adjusted via switch: 50dez = 32hex = 110010 binary → switches 2, 5, 6 and 8 set to On. Switch Settings will only becoming active during powering up, not during system operation! The default factory setting is: 01111110, which means address 126. The deafult factory setting for the switch 8 is OFF, which means software addressing is active.
1 2 3 4 5 6 7 8 Off
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
8
3. Overview blocks Dependent from the ID the FXE4000 converter contains the following blocks:
0x0691 0x9740 0x9700
Physical Block Slot 0 Slot 0 Slot 0
Analog Input Block Slot 1 Slot 1 Slot 1
Totalizer Block 1 Slot 2 Slot 2 -
Totalizer Block 2 Slot 3 - -
Transducer Block Slot 4 Slot 4 Slot 4
The physical block, the AI block and the Totalizer blocks correspond to the PROFIBUS PA profile 3.0.
Up to index 53, the transducer block contains the part of the specified “Flow Transducer Block”. The parameters correspond to the electromagnetic profile. On from index the manufacturer-specific parameters are added to the transducer block.
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
9
3.1 Block-Table-Legend The following tables contain the following explained attributes: Rel.Index – Absolute Slot Index:
Relative Index of parameters within the Block and absolute Slot-Index. In accordance with the PA profile all blocks start on absolute slot index 16. The BLOCK_OBJECT e.g is located in each block on relative index 0 which means absolute slot index 16.
Data-Type: Data type of parameter. Some parameters consist of structures which are defined using the form
DS-xx. Please see Chapter 3.6 for details concerning these structures. Size: Size of parameter in bytes. Storage Type: Cst = Constant Parameter. Parameter is not subject to any changes.
S = Static Parameter will be stored permanently (non-volatile). When saving a static parameter the static revision counter ST_REV of each respective block (index 1 in each block) will be incremented by 1.
N = Non-volatile Parameters will be saved permanently (non-volatile). When writing non-volatile parameters ST_REV remains unchanged.
D = Dynamic Parameters will be lost during powering down. Access r = Parameter can be read. w = Parameter can be written. Parameter usage
C = Contained: Parameter for internal use only, cannot be accessed cyclically. I = Input: Input parameter for cyclic communication. O = Output: Output parameter for cyclic communication.
Data transport a = Parameter can only be accessed acyclically. cyc = Parameter can be accessed cyclically and acyclically.
Default Value: Basic settings of parameters.
The parameter FACTORY_RESET (index 19 in the physical block) The selection “restart with defaults” resets resource block, AI blocks, totalizer block and some transducer block parameters to default settings. Note: FACTORY_RESET will reset some manufacturer specific parameters of the tranducer block to a stored setting.
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
10
3.2
Slot
0 -
Phys
ical
Blo
ck
This
blo
ck c
onta
ins
gene
ral i
nfor
mat
ion
of th
e fie
ldbu
s in
stru
men
t, e.
g. m
anuf
actu
rer n
ame,
inst
rum
ent t
ype,
ver
sion
no.
etc
.
3.2.
1 Ph
ysic
al B
lock
Par
amet
er, s
orte
d in
acc
orda
nce
with
inde
x
Rel
.Idx
/Slo
t Idx
Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ssPa
ram
eter
us
age
/ Dat
a tra
nspo
rt
Def
ault
Valu
e D
escr
iptio
n
0 / 1
6 BL
OC
K_O
BJEC
T D
S-32
20
C
st
r C
/a
- Th
is o
bjec
t ap
plie
s to
eve
ry b
lock
and
are
pla
ced
befo
re t
he f
irst
para
met
er.
It co
ntai
ns th
e ch
arac
teris
tics
of th
e bl
ock
e.g.
blo
ck ty
pe a
nd p
rofil
e nu
mbe
r. 1
/ 17
ST_R
EV
Uns
igne
d16
2 N
r
C/a
0
Rev
isio
n co
unte
r for
sta
tic v
aria
bles
. If a
stai
c va
riabl
e ch
ange
s its
val
ue th
is c
ount
er is
in
crea
sed
by o
ne.
2 / 1
8 TA
G_D
ESC
O
ctet
Strin
g 32
S
r,w
C/a
‘ '
Ev
ery
bloc
k ca
n be
ass
igne
d a
text
ual
TAG
des
crip
tion.
The
TAG
_DES
C m
ust
be
unam
bigu
ous
and
uniq
ue in
the
field
bus
syst
em.
3 / 1
9 ST
RAT
EGY
Uns
igne
d16
2 S
r,w
C/a
0
Gro
upin
g of
Fun
ctio
n Bl
ocks
. The
STR
ATEG
Y fie
ld c
an b
e us
ed to
gro
up b
lock
s.
4 / 2
0 AL
ERT_
KEY
Uns
igne
d8
1 S
r,w
C/a
0
This
par
amet
er c
onta
ins
the
iden
tific
atio
n nu
mbe
r of t
he p
lant
uni
t. It
help
s to
iden
tify
the
loca
tion
(pla
nt u
nit)
of a
n ev
ent.
5 / 2
1 TA
RG
ET_M
OD
E U
nsig
ned8
1
S r,w
C
/a
Auto
Th
e TA
RG
ET_M
OD
E pa
ram
eter
con
tain
s th
e op
erat
ing
mod
e of
a b
lock
. 0x
08:
Auto
0x
10:
Man
0x
80:
Out
Of S
ervi
ce
6 / 2
2 M
OD
E_BL
K D
S-37
3
D
r C
/a
Actu
al
:
Perm
itted
: Aut
o N
orm
al
: Au
to
This
par
amet
er c
onta
ins
the
curre
nt m
ode
and
the
perm
itted
and
nor
mal
mod
e of
the
bloc
k.
7 / 2
3 AL
ARM
_SU
M
DS-
42
8 D
r
C/a
0,
0,0,
0 Th
is p
aram
eter
con
tain
s th
e cu
rrent
sta
tes
of th
e bl
ock
alar
ms.
8
/ 24
SOFT
WAR
E_R
EVIS
ION
Vi
sibl
eStri
ng
16
Cst
r
C/a
D
200S
022U
02
A.10
R
evis
ion-
num
ber o
f the
sof
twar
e of
the
field
dev
ice.
Thi
s is
the
Gat
eway
sof
twar
e.
9 / 2
5 H
ARD
WAR
E_R
EVIS
ION
Vi
sibl
eStri
ng
16
Cst
r
C/a
R
EVIS
ION
0
Rev
isio
n-nu
mbe
r of t
he h
ardw
are
of th
e fie
ld d
evic
e.
10 /
26
DEV
ICE_
MAN
_ID
U
nsig
ned1
6 2
Cst
r
C/a
26
(=AB
B)
Iden
tific
atio
n co
de fo
r the
man
ufac
ture
r com
pany
of t
he fi
eld
devi
ce.
11 /
17
DEV
ICE_
ID
Visi
bleS
tring
16
C
st
r C
/a
XE40
00 P
A3.0
M
anuf
actu
rer s
peci
fic id
entif
icat
ion
of th
e de
vice
. 12
/ 28
D
EVIC
E_SE
R_N
UM
Vi
sibl
eStri
ng
16
Cst
r
C/a
-
Seria
l num
ber o
f the
fiel
d de
vice
. N
ote:
the
num
ber i
s eq
ual t
o th
e in
stru
men
t num
ber
(see
tran
duce
r blo
ck re
l. in
dex
101)
13
/29
D
IAG
NO
SIS
Oct
etst
ring
4 D
r
C/a
-
Det
aile
d in
form
atio
n of
the
devi
ce, b
itwiz
e co
ded.
Det
ails
in c
hapt
er 4
.1
14 /
30
DIA
GN
OSI
S_EX
TEN
SIO
N
Oct
etst
ring
6 D
r
C/a
-
Addi
tiona
l man
ufac
ture
r-spe
cific
info
rmat
ion
of th
e de
vice
, bitw
ize
code
d. M
ore
than
on
e m
essa
ge p
ossi
ble
at o
nce,
see
cha
pter
4.2
15
/ 31
D
IAG
NO
SIS_
MAS
K O
ctet
strin
g 4
Cst
r
C/a
0x
30,0
x00,
0x00
, 0x
80
Mas
k fo
r the
sup
porte
d D
IAG
NO
SIS
info
rmat
ion-
bits
0
= no
t sup
porte
d 1
= su
ppor
ted
16 /
32
DIA
GN
OSI
S_M
ASK_
EXTE
NSI
ON
O
ctet
strin
g 6
Cst
r
C/a
0x
FF,0
xFF,
0xD
7,0x
00,0
x00,
0x00
M
ask
for t
he s
uppo
rted
DIA
GN
OSI
S_EX
TEN
SIO
N in
form
atio
n-bi
ts
0 =
not s
uppo
rted
1 =
supp
orte
d 17
/ 33
D
EVIC
E_C
ERTI
FIC
ATIO
N
Visi
bleS
tring
32
C
st
r C
/a
- C
ertif
icat
ions
of t
he fi
eld
devi
ce, e
.g. E
X ce
rtific
atio
n.
18 /
34
WR
ITE_
LOC
KIN
G
Uns
igne
d16
2 N
r,w
C
/a
2457
So
ftwar
e w
rite
prot
ectio
n
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
11
Rel
.Idx
/Slo
t Idx
Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ssPa
ram
eter
us
age
/ Dat
a tra
nspo
rt
Def
ault
Valu
e D
escr
iptio
n
=0:
no
acyc
lic w
rite
allo
wed
, exc
ept t
o W
RIT
E_LO
CKI
NG
=2
457:
all
writ
eabl
e pa
ram
eter
s of
a d
evic
e ar
e w
ritea
ble.
19
/ 35
FA
CTO
RY_
RES
ET
Uns
igne
d16
2 S
r,w
C/a
-
Res
et
= 1
rese
t par
amet
ers
to d
efau
lt =2
506:
war
m s
tart
=271
2: re
set b
us a
ddre
ss o
nly
20 /
36
DES
CR
IPTO
R
Oct
etSt
ring
32
S r,w
C
/a
- U
ser-d
efin
able
text
(a s
tring
) to
desc
ribe
the
devi
ce w
ithin
the
appl
icat
ion.
21
/ 37
DEV
ICE_
MES
SAG
E O
ctet
Strin
g 32
S
r,w
C/a
-
Use
r-def
inab
le M
ESSA
GE
(a s
tring
) to
desc
ribe
the
devi
ce w
ithin
the
appl
icat
ion
or in
th
e pl
ant.
22 /
38
DEV
ICE_
INST
AL_D
ATE
Oct
etSt
ring
16
S r,w
C
/a
- D
ate
of in
stal
latio
n of
the
devi
ce.
23 /
39
- U
nsig
ned8
1
N
r,w
C/a
1
LOC
AL_O
P_EN
A, o
ptio
nal p
aram
eter
, not
impl
emen
ted
24 /
40
IDEN
T_N
UM
BER
_SEL
ECTO
R
Uns
igne
d8
1 S
r,w
C/a
-
The
FXE4
000
supp
orts
the
follo
win
g Id
ent n
umbe
rs:
0
= p
rofil
e sp
ecifi
c: 0
x974
0 1
=
man
ufac
ture
r spe
cific
: 0x0
691
128
= m
anuf
actu
rer s
peci
fic: e
qual
to p
rofil
e 0x
9700
25
/ 41
-
Uns
igne
d8
1 D
r
C/a
-
HW
_WR
ITE_
PRO
TEC
TTIO
N, o
ptio
nal p
aram
eter
, not
impl
emen
ted
26 to
32
(42
to 4
8)
Res
erve
d by
PN
O
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
12
3.2.2 Physical Block Parameter, sorted according to names
Parameter Name Rel.Index / Slot IndexALARM_SUM 7 / 23 ALERT_KEY 4 / 20 BLOCK_OBJECT 0 / 16 DESCRIPTOR 20 / 36 DEVICE_CERTIFICATION 17 / 33 DEVICE_ID 11 / 17 DEVICE_INSTAL_DATE 22 / 38 DEVICE_MAN_ID 10 / 26 DEVICE_MESSAGE 21 / 37 DEVICE_SER_NUM 12 / 28 DIAGNOSIS 13 /29 DIAGNOSIS_EXTENSION 14 / 30 DIAGNOSIS_MASK 15 / 31 DIAGNOSIS_MASK_EXTENSION 16 / 32 FACTORY_RESET 19 / 35 HARDWARE_REVISION 9 / 25 IDENT_NUMBER_SELECTOR 24 / 40 LOCAL_OP_ENA 23 / 39 MODE_BLK 6 / 22 SOFTWARE_REVISION 8 / 24 ST_REV 1 / 17 STRATEGY 3 / 19 TAG_DESC 2 / 18 TARGET_MODE 5 / 21 WRITE_LOCKING 18 / 34
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
13
3.3 Slot 1- Analog Input Block Measurement calculation is a part of the transducer block. The transducer block internally provides the measured values. The cyclic output of the measurement values takes place using the analog input block (AI block). The FXE4000 disposes of one AI block.
Please make use of the Channel Parameter to choose the parameter to be presented by the AI block (index 14 in AI). The FXE4000 channels are (decimal, see chapter 3.5.1): Channel 256+17 = 273: VOLUME_FLOW
Channel 256+121 = 377: Transducer-block internal totalizer >F (forward flow) Channel 256+122 = 378: Transducer-block internal totalizer <R (reverse flow)
The AI block handles certain tasks such as change of scaling, alarm detection, simulation etc. The following section provides an overview of these tasks.
3.3.1 Analog Input Block Diagram
Channel: Please choose the value to be transferred from the transducer block using the channel parameter (index 14). See also 3.5.1
Simulate: The simulate parameter is a structure (see 3.6.7) enabling a simulation process (Sub parameter “Simulate enable”). The Sub parameter “Simulate value” defines those values which will then be processed instead of the channel value.
Simulate - Enable - Value+Status
Channel
OUT
FB-Algorithm- Field_Value - PV
Fail Safe - Fsafe_Type - Fsafe_Value
ALARMOUT
OUT
Man OoS Auto
MODE and STATUS-Handling Status
FXE4000
Transducerblock Measurement calculation
Idx … Idx 17
Idx … Idx 121 Idx 122 Idx …
Analog Input Block Channel
AI- processing OUT
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
14
FB-Algorithm: The PV_SCALE structure is used scaling the entry value (generally the channel value) to percent. This percent value is called FIELD_VALUE and is available only internal. It cannot be accessed via communication:
FIELD_VAL = 100 * (Channel-Value – PV_SCALE.EU0%) /
(PV_SCALE.EU100% - PV_SCALE.EU0%)
This percentage value is scaled to the PV value using the OUT_SCALE structure:
PV = (FIELD_VAL / 100) * (OUT_SCALE.EU100% - OUT_SCALE.EU0%)
+ OUT_SCALE.EU0%
The parameter PV_FTIME (Index 18) allows the entry of a damping time in seconds. The filtered measurement value is called OUT.
OUT = Filter ( PV )
Fail-Safe: FSAFE_TYPE (Index) defines the behaviour in case of a failure. If FSAFE_TYPE=0 in case of failure a FSAVE_VALUE will be transferred. If FSAVE_TYPE=1 the last usable value will be transferred. If FSAVE_TYPE = 2 then the incorrect values are tranfered.
Mode: With mode= Auto the so far determined value will be transferred
With mode= MAN the OUT parameter will be transferred. The OUT parameter can be written acyclically in Man mode.
With mode= OUT of Service the OUT parameter will be transferred.
Alarm: There are four different alarm thresholds (Indices 21,23,25,27) - High-High-Limit - High-Limit - Low-Limit - Low-Low-Limit Should OUT be less than Low-Limit or Low-Low-Limit or be higher than High-Limit or High-High-Limit, the alarm signal (indices 30-33) will be set to the corresponding status. - High-High-Alarm - High-Alarm - Low-Alarm - Low-Low-Alarm Using ALARM_HYS (Index 19) you can set a hysteresis value for the alarm thresholds.
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
15
3.3.
2 An
alog
Inpu
t Blo
ck P
aram
eter
, sor
ted
in a
ccor
danc
e w
ith in
dex
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Para
met
er
usag
e / D
ata
trans
port
Def
ault
Valu
e D
escr
iptio
n
0 /
16
BLO
CK_
OBJ
ECT
DS-
32
20
Cst
r
C/a
-
This
obj
ect a
pplie
s to
eve
ry b
lock
and
are
pla
ced
befo
re th
e fir
st p
aram
eter
. It c
onta
ins
the
char
acte
ristic
s of
the
bloc
k e.
g. b
lock
type
and
pro
file
num
ber.
1 / 1
7 ST
_REV
U
nsig
ned1
6 2
N
r C
/a
0 A
bloc
k ha
s st
atic
blo
ck p
aram
eter
s, t
hat
are
not
chan
ged
by t
he p
roce
ss.
Valu
es a
re
assi
gned
to th
is p
aram
eter
dur
ing
the
conf
igur
atio
n or
opt
imis
atio
n. T
he v
alue
of S
T_R
EV
mus
t inc
reas
e by
1 a
fter e
very
cha
nge
of a
sta
tic b
lock
par
amet
er. T
his
prov
ides
a c
heck
of
the
para
met
er re
visi
on.
2 / 1
8 TA
G_D
ESC
O
ctet
Strin
g 32
S
r,w
C/a
‘ '
Ev
ery
bloc
k ca
n be
ass
igne
d a
text
ual
TAG
des
crip
tion.
The
TAG
_DES
C m
ust
be
unam
bigu
ous
and
uniq
ue in
the
field
bus
syst
em.
3 / 1
9 ST
RAT
EGY
Uns
igne
d16
2 S
r,w
C/a
0
Gro
upin
g of
Fun
ctio
n Bl
ock.
The
STR
ATEG
Y fie
ld c
an b
e us
ed to
gro
up b
lock
s.
4 / 2
0 AL
ERT_
KEY
Uns
igne
d8
1 S
r,w
C/a
0
This
par
amet
er c
onta
ins
the
iden
tific
atio
n nu
mbe
r of t
he p
lant
uni
t. It
help
s to
iden
tify
the
loca
tion
(pla
nt u
nit)
of a
n ev
ent.
5 / 2
1 TA
RG
ET_M
OD
E U
nsig
ned8
1
S r,w
C
/a
Auto
Th
e de
sire
d op
erat
ing
mod
e of
the
bloc
k.
0x08
: Au
to
0x10
: M
an
0x80
: O
ut O
f Ser
vice
6
/ 22
MO
DE_
BLK
DS-
37
3 D
r
C/a
Bl
ocks
peci
fic
Actu
al
:
Perm
itted
: O
os,M
an,A
uto
Nor
mal
:
Aut
o
This
par
amet
er c
onta
ins
the
curre
nt m
ode
and
the
perm
itted
and
nor
mal
mod
e of
the
bl
ock.
O
os=o
ut o
f ser
vice
7 / 2
3 AL
ARM
_SU
M
DS-
42
8 D
r
C/a
0,
0,0,
0 Th
is p
aram
eter
con
tain
s th
e cu
rrent
sta
tes
of th
e bl
ock
alar
ms.
8
/ 24
BATC
H
DS-
67
10
S R
,w
C/a
0,
0,0,
0 Se
e de
taile
d de
scrip
tions
in th
e Pa
pro
file
9 / 2
5 -
10
/ 26
O
UT
DS-
33
5 D
r,
w (1
) O
/cyc
m
easu
red
of th
e va
riabl
e,
stat
e Th
e fu
nctio
n bl
ock
para
met
er O
UT
cont
ains
the
curre
nt m
easu
rem
ent v
alue
in a
ven
dor
spec
ific
or c
onfig
urat
ion
adju
sted
eng
inee
ring
unit
and
the
belo
ngin
g st
ate
in A
UTO
M
OD
E.
(1)T
he fu
nctio
n bl
ock
para
met
er O
UT
cont
ains
the
valu
e an
d st
atus
set
by
an o
pera
tor i
n M
AN M
OD
E.
11 /
27
PV_S
CAL
E Ar
ray
of F
loat
(E
U a
t 100
%,
EU
at 0
%)
8 S
r,w
C/a
10
0, 0
In
put s
calin
g of
thew
blo
ck
Con
vers
ion
of th
e Pr
oces
s Va
riabl
e in
to p
erce
nt u
sing
the
high
and
low
sca
le v
alue
s. T
he
engi
neer
ing
unit
of P
V_SC
ALE
high
and
low
sca
le v
alue
s ar
e di
rect
rel
ated
to
the
PV_U
NIT
of
the
conf
igur
ed T
rans
duce
r Bl
ock
(con
figur
ed v
ia C
hann
el p
aram
eter
). Th
e PV
_SC
ALE
high
and
low
sca
le v
alue
s fo
llow
the
chan
ges
of th
e PV
_UN
IT o
f the
rel
ated
Tr
ansd
ucer
Blo
ck a
utom
atic
ally
, i.e
. a c
hang
e of
the
Tran
sduc
er B
lock
PV_
Uni
t cau
ses
no
bum
p at
OU
T fro
m A
I.
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
16
12
/ 28
O
UT_
SCAL
E D
S-36
11
S
r,w
C/a
10
0, 0
, 134
9, 2
(1
349
= m
3/h)
Out
put s
calin
g of
the
bloc
k Sc
ale
of th
e Pr
oces
s Va
riabl
e Th
e fu
nctio
n bl
ock
para
met
er O
UT_
SCAL
E co
ntai
ns t
he v
alue
s of
the
low
er l
imit
and
uppe
r lim
it ef
fect
ive
rang
e, th
e co
de n
umbe
r of
the
engi
neer
ing
unit
of P
roce
ss V
aria
ble
and
the
num
ber o
f dig
its o
n th
e rig
ht h
and
side
of t
he d
ecim
al p
oint
. 13
/ 29
LI
N_T
YPE
Uns
igne
d8
1 S
r,w
C/a
0
Type
of l
inea
risat
ion:
0=
no li
near
izat
ion
14 /
30
CH
ANN
EL
Uns
igne
d16
2 S
r,w
C/a
27
3 (=
256+
17)
Ref
eren
ce to
the
activ
e Tr
ansd
ucer
Blo
ck a
nd th
e re
lativ
e in
dex
of th
e tra
nsdu
cer
bloc
k pa
ram
eter
whi
ch w
ill be
pro
cess
ed in
the
AI b
lock
(2
) N
ote:
the
chan
nel o
nly
can
be c
hang
ed in
mod
e M
an o
r O
ut o
f Ser
vice
. By
writ
ing
to
the
chan
nel p
aram
eter
aut
omat
ical
ly t
he s
calin
g an
d un
it of
the
cha
nnel
is w
ritte
n in
to
PV_S
CAL
E an
d O
UT_
SCAL
E.
16 /
32
PV_F
TIM
E Fl
oat
4 S
r,w
C/a
0
Filte
r tim
e of
the
Proc
ess
Varia
ble
The
func
tion
bloc
k pa
ram
eter
PV_
FTIM
E co
ntai
ns t
he t
ime
cons
tant
for
the
rise
time
of
the
FB o
utpu
t up
to a
val
ue o
f 63,
21 %
resu
lted
from
a ju
mp
on th
e in
put (
PT1
filte
r). T
he
engi
neer
ing
unit
of th
e pa
ram
eter
is s
econ
d.
17
/ 33
FS
AFE_
TYPE
U
nsig
ned8
1
S r,w
C
/a
1 D
eter
min
es th
e be
havi
our v
alue
s ar
e in
corre
ct:
=0:
FSAV
E_VA
LUE
is v
alid
inst
ead
of O
UT,
Sta
tus
is U
ncer
tain
_Sub
stitu
te V
alue
=1
: la
st v
alue
of O
UT
rem
ains
val
id, S
tatu
s is
Unc
erta
in_L
astU
sabl
eVal
ue
=2:
the
inco
rrect
val
ue is
tran
ferre
d as
OU
T, S
tatu
s is
t Bad
18
/ 34
FS
AFE_
VALU
E Fl
oat
4 S
r,w
C/a
-
(0
.0)
This
va
lue
is
tranf
erre
d as
O
UT
if th
e ch
anne
l pr
ovid
es
inco
rrect
va
lues
an
d FS
AVE_
TYPE
is 0
. 19
/ 35
AL
ARM
_HYS
Fl
oat
4 S
r,w
C/a
0.
5% o
f ran
ge
Hys
tere
sis
for a
ll th
e al
arm
lim
its a
nd w
arni
ng li
mits
21 /
37
HI_
HI_
LIM
Fl
oat
4 S
r,w
C/a
m
ax v
alue
Va
lue
for u
pper
lim
it of
ala
rms
in p
hysi
cal u
nits
like
OU
T 23
/ 39
H
I_LI
M
Floa
t 4
S r,w
C
/a
max
val
ue
Valu
e fo
r upp
er li
mit
of w
arni
ngs
in p
hysi
cal u
nits
like
OU
T 25
/ 41
LO
_LIM
Fl
oat
4 S
r,w
C/a
m
in v
alue
Va
lue
for l
ower
lim
it of
war
ning
s in
phy
sica
l uni
ts li
ke O
UT
27 /
43
LO_L
O_L
IM
Floa
t 4
S r,w
C
/a
min
val
ue
Valu
e fo
r the
low
er li
mit
of a
larm
s in
phy
sica
l uni
ts li
ke O
UT
30 /
46
HI_
HI_
ALM
D
S-39
16
D
r
C/a
0
Stat
e of
the
uppe
r lim
it of
ala
rms
31
/ 47
H
I_AL
M
DS-
39
16
D
r C
/a
0 St
ate
of th
e up
per l
imit
of w
arni
ngs
32 /
48
LO_A
LM
DS-
39
16
D
r C
/a
0 St
ate
of th
e lo
wer
lim
it of
war
ning
s
33 /
49
LO_L
O_A
LM
DS-
39
16
D
r C
/a
0 St
ate
of th
e lo
wer
lim
it of
ala
rms
34
/ 50
SI
MU
LATE
D
S-50
6
S r,w
C
/a
disa
ble
For
com
mis
sion
ing
and
test
pur
pose
s th
e in
put
valu
e fro
m t
he T
rans
duce
r Bl
ock
in t
he
Anal
og In
put F
unct
ion
Bloc
k AI
-FB
can
be s
imul
ated
. Tha
t mea
ns th
at th
e Tr
ansd
ucer
and
AI
-FB
will
be d
isco
nnec
ted.
35
/ 51
O
UT_
UN
IT_T
EXT
Oct
etSt
ring
16
S r,w
C
/a
- If
a sp
ecifi
c un
it of
OU
T pa
ram
eter
is n
ot in
the
code
list
(se
e G
ener
al R
equi
rem
ent)
the
user
has
the
poss
ibilit
y to
writ
e th
e sp
ecifi
c te
xt in
this
par
amet
er. T
he u
nit c
ode
is th
en
equa
l “te
xtua
l uni
t def
initi
on”.
36 to
44
(52
to 6
0)
rese
rved
by
PNO
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
17
3.3.3 Analog Input Block Parameter, sorted according to names Parameter Name Rel.Index / Slot Index ALARM_HYS 19 / 35 ALARM_SUM 7 / 23 ALERT_KEY 4 / 20 BATCH 8 / 24 BLOCK_OBJECT 0 / 16 CHANNEL 14 / 30 FSAFE_TYPE 17 / 33 FSAFE_VALUE 18 / 34 HI_ALM 31 / 47 HI_HI_ALM 30 / 46 HI_HI_LIM 21 / 37 HI_LIM 23 / 39 LIN_TYPE 13 / 29 LO_ALM 32 / 48 LO_LIM 25 / 41 LO_LO_ALM 33 / 49 LO_LO_LIM 27 / 43 MODE_BLK 6 / 22 OUT 10 / 26 OUT_SCALE 12 / 28 OUT_UNIT_TEXT 35 / 51 PV_FTIME 16 / 32 PV_SCALE 11 / 27 SIMULATE 34 / 50 ST_REV 1 / 17 STRATEGY 3 / 19 TAG_DESC 2 / 18 TARGET_MODE 5 / 21
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
18
3.4 Slot 2 and 3 - Totalizer Block Within the totalizer block, the flow measurement value will be totalized (integrated) to determine the volume flow (counter reading). The totalizer block receives the measurement data from the transducer block. Possible selections for the channel only are (decimal reading):
256+17 = 273: VOLUME_FLOW
The totalizer block parameters - TOTAL - SET_TOT - MODE_TOT can be changed via cyclic communication. This is done using the Config-String, see chapter 2.2.
3.4.1 Totalizer Block Diagram
Channel: Measured value from transducer block to be processed can be chosen via channel parameter (index 12). See also 3.5.1
FAIL_TOT (Index 15) determines behaviour of channel values with “BAD” status. In this case you can either keep the totalizer running (Run) and ignore the bad values, stop the totalizer or totalize the last usable value (Memory).
MODE_TOT (Index 14) determines whether both flow directions are totalized or merely the positive or negative flow values. Hold will stop the totalizer.
Integrator: The flow values are continually totalized to the TOTAL values (index 10) to calculate the totalizer reading.
FXE4000 Converter
Transducer block Measurement calculation
Idx 1 Idx … Idx … Idx 17 Idx … Idx … Idx …
TOTALIZER BLOCK 1 Channel
Totalizer- processing TOTAL
SET_TOT MODE_TOT
Idx …
FAIL_TOT - Run - Hold - Memory
Channel
TOTAL
MODE_TOT - Balanced - Pos only - Neg Only - Hold
Integrator UNIT_TOT SET_TOT PRESET_TOT
ALARM
TOTALIZER BLOCK 2 Channel
Totalizer- processing TOTAL
SET_TOT MODE_TOT
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
19
UNIT_TOT (Index 11) indicates the unit. The value should correspond to the channel unit. This is not verified and the UNIT_TOT is not included in the calculations.
SET_TOT (Index 13) allows resetting or presetting of TOTAL value: 0: Totalize means that the totalizer is working and totalizing normally 1: Reset resets totalizer to 0. 2: Preset resets totalizer to PRESET_TOT (Index 16). As long as SET_TOT is set to 1 or 2, the reset or preset state remains unchanged. Only when SET_TOT is reset to 0 , the totalizer restarts normal operating.
Alarm: There are four alarm thresholds (Index 18-21) - High-High-Limit - High-Limit - Low-Limit - Low-Low-Limit and four corresponding alarm states for each threshold (Index 22-25), which will be set if the limits are reached. - High-High-Alarm - High-Alarm - Low-Alarm - Low-Low-Alarm Using ALARM_HYS (Index 17) a hysteresis value can be set for the alarm thresholds mentioned.
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
20
3.4.
2 To
taliz
er B
lock
Par
amet
er, s
orte
d in
acc
orda
nce
with
inde
x
Rel
.Idx
/Slo
t Idx
Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Para
met
er
usag
e / D
ata
trans
port
Def
ault
Valu
e D
escr
iptio
n
0 / 1
6 BL
OC
K_O
BJEC
T D
S-32
20
C
r
C/a
-
This
obj
ect a
pplie
s to
eve
ry b
lock
and
are
pla
ced
befo
re th
e fir
st p
aram
eter
. It c
onta
ins
the
char
acte
ristic
s of
the
bloc
k e.
g. b
lock
type
and
pro
file
num
ber.
1 / 1
7 ST
_REV
U
nsig
ned1
6 2
N
r C
/a
0 A
bloc
k ha
s st
atic
blo
ck p
aram
eter
s, t
hat
are
not
chan
ged
by t
he p
roce
ss.
Valu
es a
re
assi
gned
to th
is p
aram
eter
dur
ing
the
conf
igur
atio
n or
opt
imis
atio
n. T
he v
alue
of S
T_R
EV
mus
t inc
reas
e by
1 a
fter e
very
cha
nge
of a
sta
tic b
lock
par
amet
er. T
his
prov
ides
a c
heck
of
the
para
met
er re
visi
on.
2 / 1
8 TA
G_D
ESC
O
ctet
Strin
g 32
S
r,w
C/a
‘ '
Ev
ery
bloc
k ca
n be
ass
igne
d a
text
ual
TAG
des
crip
tion.
The
TAG
_DES
C m
ust
be
unam
bigu
ous
and
uniq
ue in
the
field
bus
syst
em.
3 / 1
9 ST
RAT
EGY
Uns
igne
d16
2 S
r,w
C/a
0
Gro
upin
g of
Fun
ctio
n Bl
ock.
The
STR
ATEG
Y fie
ld c
an b
e us
ed to
gro
up b
lock
s.
4 / 2
0 AL
ERT_
KEY
Uns
igne
d8
1 S
r,w
C/a
0
This
par
amet
er c
onta
ins
the
iden
tific
atio
n nu
mbe
r of
the
plan
t uni
t. It
help
s to
iden
tify
the
loca
tion
(pla
nt u
nit)
of a
n ev
ent.
5 / 2
1 TA
RG
ET_M
OD
E U
nsig
ned8
1
S r,w
C
/a
Auto
Th
e de
sire
d op
erat
ion
mod
e of
the
bloc
k 0x
08:
Auto
0x
10:
Man
0x
80:
Out
Of S
ervi
ce
6 / 2
2 M
OD
E_BL
K D
S-37
3
D
r C
/a
Actu
al
:
Perm
itted
: O
os,M
an,A
uto
Nor
mal
:
Aut
o
This
par
amet
er c
onta
ins
the
curre
nt m
ode
and
the
perm
itted
and
nor
mal
mod
e of
the
bl
ock.
7 / 2
3 AL
ARM
_SU
M
DS-
42
8 D
r
C/a
0,
0,0,
0 Th
is p
aram
eter
con
tain
s th
e cu
rrent
sta
tes
of th
e bl
ock
alar
ms.
8
/ 24
BATC
H
DS-
67
10
S R
,w
C/a
0,
0,0,
0 Se
e de
taile
d de
scrip
tions
in th
e PA
pro
file
9 / 2
5 -
10
/ 26
TO
TAL
DS-
33
5 N
r
O/c
yc
0 Th
e fu
nctio
n bl
ock
para
met
er T
OTA
L co
ntai
ns t
he i
nteg
rate
d qu
antit
y of
the
val
ue
refe
rnce
d by
the
CH
ANN
EL a
nd th
e as
soci
ated
sta
tus.
11
/ 27
U
NIT
_TO
T U
nsig
ned1
6 2
S r,w
C
/a
1038
= L
iter
Uni
t of T
OTA
L 12
/ 28
C
HAN
NEL
U
nsig
ned1
6 2
S r,w
C
/a
273
(=25
6+17
) R
efer
ence
to
the
activ
e tra
nsdu
cer
bloc
k, w
hich
pro
vide
s th
e m
easu
rem
ent
valu
e to
the
fu
nctio
n bl
ock.
(1
) Not
e: T
he c
hann
el c
an o
nly
be c
hang
ed in
mod
e M
AN o
r OU
T of
Ser
vice
. W
hile
writ
ing
to t
he c
hann
el p
aram
eter
aut
omat
ical
ly t
he p
hysi
cal
unit
of t
he v
alue
the
ch
anne
l is
rela
ted
to is
ent
ered
into
UN
IT_T
OT.
Thi
s is
the
the
unit
for m
ass
flow
(kg
/h
kg) o
r vol
ume
flow
(m3 /h
m3 ) .
13
/ 29
SE
T_TO
T U
nsig
ned8
1
N
r,w
I/cyc
0
Res
et o
f the
inte
rnal
val
ue o
f the
FB
algo
rithm
to 0
or s
et th
is v
alue
to P
RES
ET_T
OT.
The
fu
nctio
n bl
ock
para
met
er
SET_
TOT
affe
cts
the
curre
nt
tota
lized
va
lue
(TO
TAL)
im
med
iate
ly. T
his
func
tion
is le
vel s
ensi
tive.
Th
e fo
llow
ing
sele
ctio
ns o
f thi
s fu
nctio
n bl
ock
para
met
er a
re p
ossi
ble:
0:
TO
TALI
ZE; „
norm
al“ o
pera
tion
of th
e to
taliz
er
1: R
ESET
; res
ets
the
TOTA
L va
lue
to 0
2:
PR
ESET
; res
ets
the
TOTA
L va
lue
to th
e va
lue
of P
RES
ET_T
OT
14
/ 30
M
OD
E_TO
T U
nsig
ned8
1
N
r,w
I/cyc
0
This
fun
ctio
n bl
ock
para
met
er g
over
ns t
he b
ehav
iour
of
the
tota
lizat
ion.
The
fol
low
ing
sele
ctio
ns a
re p
ossi
ble:
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
21
Rel
.Idx
/Slo
t Idx
Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Para
met
er
usag
e / D
ata
trans
port
Def
ault
Valu
e D
escr
iptio
n
0: B
ALAN
CED
; tru
e ar
ithm
etic
inte
grat
ion
of th
e in
com
ing
rate
val
ues.
1:
PO
S_O
NLY
; tot
aliz
atio
n of
pos
itive
inco
min
g ra
te v
alue
s on
ly.
2: N
EG_O
NLY
; tot
aliz
atio
n of
neg
ativ
e in
com
ing
rate
val
ues
only
. 3:
HO
LD; t
otal
izat
ion
stop
ped.
15
/ 31
FA
IL_T
OT
Uns
igne
d8
1 S
r,w
C/a
0
Fail-
safe
mod
e of
the
tota
lizer
func
tion
bloc
k. T
his
para
met
er g
over
ns th
e be
havi
our o
f the
fu
nctio
n bl
ock
durin
g th
e oc
curre
nce
of i
nput
val
ues
with
bad
sta
tus.
The
fol
low
ing
sele
ctio
ns a
re p
ossi
ble:
0:
RU
N ;
tota
lisat
ion
is c
ontin
ued
usin
g th
e in
put v
alue
s de
spite
the
bad
stat
us.
T
he s
tatu
s is
igno
red.
1:
HO
LD; t
otal
isat
ion
is s
topp
ed d
urin
g oc
curre
nce
of b
ad s
tatu
s of
inco
min
g va
lues
. 2:
MEM
OR
Y; to
talis
atio
n is
con
tinue
d ba
sed
on th
e la
st in
com
ing
valu
e w
ith g
ood
sta
tus
befo
re th
e fir
st o
ccur
renc
e of
bad
sta
tus.
16
/ 32
PR
ESET
_TO
T Fl
oat
4 S
r,w
C/a
0.
0
17 /
33
ALAR
M_H
YS
Floa
t 4
S r,w
C
/a
0.0
Hys
tere
sis
With
in th
e sc
ope
of th
e PR
OFI
BUS-
PA s
peci
ficat
ion
for t
rans
mitt
ers
ther
e ar
e fu
nctio
ns fo
r th
e m
onito
ring
of li
mit
viol
atio
n (o
ff-lim
it co
nditi
ons)
of a
djus
tabl
e lim
its. M
aybe
the
valu
e of
on
e pr
oces
s va
riabl
e is
just
the
sam
e as
the
val
ue o
f a
limit
and
the
varia
ble
fluct
uate
s ar
ound
the
limit
it w
ill oc
cur a
lot o
f lim
it vi
olat
ions
. Th
at t
rigge
rs a
lot
of m
essa
ges;
so
it m
ust
be p
ossi
ble
to t
rigge
r m
essa
ges
only
afte
r cr
ossi
ng a
n ad
just
able
hys
tere
sis.
The
sen
sitiv
ity o
f tri
gger
ing
of th
e al
arm
mes
sage
s is
ad
just
able
. The
val
ue o
f th
e hy
ster
esis
is f
ixed
in A
LAR
M_H
YS a
nd is
the
sam
e fo
r th
e pa
ram
eter
s H
I_H
I_LI
M, H
I_LI
M, L
O_L
IM a
nd L
O_L
O_L
IM. T
he h
yste
resi
s is
exp
ress
ed a
s va
lue
belo
w h
igh
limit
and
abov
e lo
w li
mit
in th
e en
gine
erin
g un
it of
xx_
LIM
. 18
/ 34
H
I_H
I_LI
M
Floa
t 4
S r,w
C
/a
Max
val
ue
Valu
e fo
r upp
er li
mit
of a
larm
s U
pper
lim
it va
lue
for
alar
ms
with
eng
inee
ring
unit
of th
e O
UT
para
met
er. I
f the
mea
sure
d va
riabl
e is
equ
al o
r hi
gher
tha
n th
e up
per
limit
valu
e th
e St
ate
Bits
in t
he S
tate
Byt
e of
O
UT
and
in t
he F
B pa
ram
eter
ALA
RM
_SU
M h
ave
to c
hang
e to
1.
The
unit
of t
his
para
met
er is
the
sam
e lik
e th
e O
UT
one.
19
/ 35
H
I_LI
M
Floa
t 4
S r,w
C
/a
Max
val
ue
Valu
e fo
r upp
er li
mit
of w
arni
ngs
Upp
er li
mit
valu
e fo
r war
ning
s w
ith e
ngin
eerin
g un
it of
the
OU
T pa
ram
eter
. If t
he m
easu
red
varia
ble
is e
qual
or
high
er th
an th
e up
per
limit
valu
e, th
e St
ate
Bits
in th
e St
ate
Byte
of
OU
T an
d in
the
FB
para
met
er A
LAR
M_S
UM
hav
e to
cha
nge
to 1
. Th
e un
it of
thi
s pa
ram
eter
is th
e sa
me
like
the
OU
T on
e .
20 /
36
LO_L
IM
Floa
t 4
S r,w
C
/a
Min
val
ue
Valu
e fo
r low
er li
mit
of w
arni
ngs
Low
er li
mit
valu
e fo
r war
ning
s w
ith e
ngin
eerin
g un
it of
the
OU
T pa
ram
eter
. If t
he m
easu
red
varia
ble
is e
qual
to o
r lo
wer
than
the
low
er li
mit
valu
e, th
e St
ate
Bits
in th
e St
ate
Byte
of
OU
T an
d in
the
FB
para
met
er A
LAR
M_S
UM
hav
e to
cha
nge
to 1
. Th
e un
it of
thi
s pa
ram
eter
is th
e sa
me
like
the
OU
T on
e.
21 /
37
LO_L
O_L
IM
Floa
t 4
S r,w
C
/a
Min
val
ue
Valu
e fo
r the
low
er li
mit
of a
larm
s Lo
wer
lim
it va
lue
for
alar
ms
with
eng
inee
ring
unit
of th
e O
UT
para
met
er. I
f the
mea
sure
d va
riabl
e is
equ
al to
or
low
er th
an th
e lo
wer
lim
it va
lue,
the
Stat
e Bi
ts in
the
Stat
e By
te o
f O
UT
and
in t
he F
B pa
ram
eter
ALA
RM
_SU
M h
ave
to c
hang
e to
1.
The
unit
of t
his
para
met
er is
the
sam
e lik
e th
e O
UT
one.
22
/ 38
H
I_H
I_AL
M
DS-
39
16
D
r C
/a
0 St
ate
of th
e up
per l
imit
of a
larm
s Th
is p
aram
eter
con
tain
s th
e st
ate
of t
he u
pper
lim
it of
an
alar
m a
nd t
he r
elat
ing
time
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
22
Rel
.Idx
/Slo
t Idx
Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Para
met
er
usag
e / D
ata
trans
port
Def
ault
Valu
e D
escr
iptio
n
stam
p. T
he t
ime
stam
p ex
pres
ses
the
time
the
mea
sure
d va
riabl
e ha
s be
en e
qual
or
high
er t
han
the
uppe
r lim
it of
the
ala
rm.
Dev
ices
with
out
cloc
k us
e th
e be
ginn
ing
of t
he
PRO
FIBU
S-PA
tim
e (1
st J
anua
ry 1
984)
as
time
stam
p.
23 /
39
HI_
ALM
D
S-39
16
D
r
C/a
0
Stat
e of
the
uppe
r lim
it of
war
ning
s Th
is p
aram
eter
con
tain
s th
e st
ate
of t
he u
pper
lim
it of
a w
arni
ng a
nd t
he r
elat
ing
time
stam
p. T
he t
ime
stam
p ex
pres
ses
the
time
the
mea
sure
d va
riabl
e ha
s be
en e
qual
or
high
er th
an th
e up
per l
imit
of th
e w
arni
ng. D
evic
es w
ithou
t clo
ck u
se th
e be
ginn
ing
of th
e PR
OFI
BUS-
PA ti
me
(1st
Jan
uary
198
4) a
s tim
e st
amp.
24
/ 40
LO
_ALM
D
S-39
16
D
r
C/a
0
Stat
e of
the
low
er li
mit
of w
arni
ngs
This
par
amet
er c
onta
ins
the
stat
e of
the
low
er l
imit
of a
war
ning
and
the
rel
atin
g tim
e st
amp.
The
tim
e st
amp
expr
esse
s th
e tim
e at
whi
ch th
e m
easu
red
varia
ble
has
been
equ
al
to o
r hig
her t
han
the
low
er li
mit
of th
e w
arni
ng. D
evic
es w
ithou
t clo
ck u
se th
e be
ginn
ing
of
the
PRO
FIBU
S-PA
tim
e (1
st J
anua
ry 1
984)
as
time
stam
p.
25 /
41
LO_L
O_A
LM
DS-
39
16
D
r C
/a
0 St
ate
of th
e lo
wer
lim
it of
ala
rms
This
par
amet
er c
onta
ins
the
stat
e of
the
low
er l
imit
of a
n al
arm
and
the
rel
atin
g tim
e st
amp.
The
tim
e st
amp
expr
esse
s th
e tim
e at
whi
ch th
e m
easu
red
varia
ble
has
been
equ
al
to o
r hi
gher
than
the
low
er li
mit
of th
e al
arm
. Dev
ices
with
out c
lock
use
the
begi
nnin
g of
th
e PR
OFI
BUS-
PA ti
me
(1st
Jan
uary
198
4) a
s tim
e st
amp.
26
to 3
5 (4
2 to
51)
re
serv
ed b
y PN
O
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
23
3.4.3 Totalizer Block Parameter, sorted according to names Parameter Name Rel.Index / Slot Index ALARM_HYS 17 / 33 ALARM_SUM 7 /23 ALERT_KEY 4 / 20 BATCH 8 / 24 BLOCK_OBJECT 0 / 16 CHANNEL 12 / 28 FAIL_TOT 15 / 31 HI_ALM 23 / 39 HI_HI_ALM 22 / 38 HI_HI_LIM 18 / 34 HI_LIM 19 / 35 LO_ALM 24 / 40 LO_LIM 20 / 36 LO_LO_ALM 25 / 41 LO_LO_LIM 21 / 37 MODE_BLK 6 / 22 MODE_TOT 14 / 30 PRESET_TOT 16 / 32 SET_TOT 13 / 29 ST_REV 1 / 17 STRATEGY 3 / 19 TAG_DESC 2 / 18 TARGET_MODE 5 / 21 TOTAL 10 / 26 UNIT_TOT 11 / 27
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
24
3.5 Transducer Block The transducer block contains all instrument specific parameters and functions necessary for flow measurement and calculation. The measured and calculated values are being provided as Channel-values. The cyclic reading of measured values is only possible for the OUT of the AI block and the TOTAL of the totalizer blocks, not for the Transducer block channel values. The channel parameter of the AI or totalizer block selects the channel desired. However the values can also be read acyclically from the transducer block using the respective indices.
3.5.1 Channels and Units The transducer block (TB) provides four measured values in so called channels. Each function block (FB) disposes of one channel parameter (Index 14 in AI block, index 12 in totalizer block). This channel parameter determines which channel will be transferred from TB to FB. The following values are decimal:
Channel 256+17 = 273: VOLUME_FLOW
Unit: see TB-Parameter VOLUME_FLOW_UNITS (Index 18)
Channel 256+121 = 377: Transducer-block Totalizer >F (forward flow) Channel 256+122= 378: Transducer-block Totalizer <R (reverse flow)
Unit: see TB-Parameter “Unit Totalizer” (Index 68)
This is NOT the Totalizer block value! The FXE4000 has separate totalizers (see submenu Totalizer on flowmeter-display), which are mapped to the Transducer block and which can be accessed via selecting channel-values.
The value type of the channel parameter is Unsigned16. The upper byte indicates the transducer block index (in general it is possible that an instrument disposes of several transducer blocks), the lower byte indicates the relative index of the parameter within the transducer block.
The FXE4000 merely disposes of one transducer block which is assigned to index 1. Consequently, the high byte always is set to 1 which corresponds to relative index +256.
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
25
3.5.
2 Tr
ansd
ucer
Blo
ck P
aram
eter
, sor
ted
in a
ccor
danc
e w
ith in
dex
Up
to in
dex
53 th
e tra
nsdu
cer b
lock
con
sist
s of
the
part
“flo
w tr
ansd
ucer
blo
ck”.
The
para
met
ers
corre
spon
d to
the
elec
rom
agne
tic p
rofil
e. O
n fro
m in
dex
54,
man
ufac
ture
r-spe
cific
par
amet
ers
are
atta
ched
to th
e tra
nsdu
cer b
lock
. R
el.Id
x /
Slot
Idx
Varia
ble
Nam
e D
ata
Type
Si
ze
Stor
e Ac
cess
D
efau
lt Va
lue
HAR
T-C
md
read
/writ
e D
escr
iptio
n
0 / 1
6 BL
OC
K_O
BJEC
T D
S-32
20
C
st
r -
Th
is s
truct
ure
cont
ains
gen
eral
info
rmat
ion
abou
t the
blo
ck li
ke b
lock
type
, pro
fil v
ersi
on,
etc.
1
/ 17
ST_R
EV
Uns
igne
d16
2 N
r
0
Rev
isio
n co
unte
r for
sta
tic v
aria
bles
. If a
var
iabl
e ch
ange
s, th
e re
viso
n co
unte
r is
incr
emen
ted
each
tim
e by
one
. 2
/ 18
TAG
_DES
C
Oct
etSt
ring
32
S r,w
‘ '
A te
xtua
l des
crip
tion
of th
e bl
ock.
Thi
s ha
s to
be
uniq
ue w
ithin
a fi
eldb
us
3 / 1
9 ST
RAT
EGY
Uns
igne
d16
2 S
r,w
0
This
par
amet
er c
an b
e us
ed to
bui
ld g
roup
s of
blo
cks
. Eac
h bl
ock
of a
gro
up g
ets
the
sam
e re
fere
nce
num
ber.
4 / 2
0
ALER
T_KE
Y U
nsig
ned8
1
S r,w
0
Th
is p
aram
eter
is u
sed
as id
entif
icat
ion
num
ber f
or a
par
t of a
pla
nt.
5 / 2
1 TA
RG
ET_M
OD
E U
nsig
ned8
1
S r,w
Au
to
Th
e de
sire
d op
erat
ing
mod
e of
the
bloc
k:
0x08
: Aut
o 0x
10: M
an
0x80
: Out
Of S
ervi
ce
6 / 2
2 M
OD
E_BL
K D
S-37
3
D
r Ac
tual
:
Pe
rmitt
ed: A
uto
Nor
mal
:
Auto
Th
is p
aram
eter
incl
udes
the
actu
al, p
erm
itted
and
nor
mal
ope
ratin
g m
odes
of t
he b
lock
.
7 / 2
3 AL
ARM
_SU
M
DS-
42
8 D
r
0,0,
0,0
Th
is p
aram
eter
incl
udes
a s
umm
ary
of th
e bl
ock
alar
ms
8 / 2
4 C
ALIB
R_F
ACTO
R
float
4
S r,w
N
ot u
sed.
No
flow
met
er-p
aram
eter
is m
appe
d to
this
blo
ck p
aram
eter
. 9
/ 25
LOW
_FLO
W_C
UTO
FF
float
4
S r,w
0
132/
133
Slot
5
This
par
amet
er is
the
fFXE
4000
low
flow
cut
off.
It’s
equa
l to
inde
x 62
.
10 /
26
MEA
SUR
EMEN
T_M
OD
E un
sign
ed8
1 S
r,w
0 12
8/12
9 Sl
ot 2
4 M
ode
of m
easu
rem
ent:
0: u
nidi
rekt
iona
l 1:
bid
irekt
iona
l Th
is p
aram
eter
is e
qual
to p
aram
eter
“Flo
wdi
rect
ion”
(Ind
ex 9
0).
11 /
27
FLO
W_D
IREC
TIO
N
unsi
gned
8 1
S r,w
0
128/
129
Slot
25
Assi
gns
an a
rbitr
ary
posi
tive
or n
egat
ive
sign
to th
e m
easu
red
PV v
alue
. 0
= po
sitiv
e 1
= ne
gativ
e Th
is p
aram
eter
is e
qual
to p
aram
eter
“Flo
w in
dica
tion”
(Ind
ex 9
1).
12 /
28
ZER
O_P
OIN
T
float
4
S r,w
Se
nsor
-spe
cific
13
2/13
3 Sl
ot 8
Th
is p
aram
eter
is e
qual
to in
dex
66, “
syst
em z
ero
adj.”
13 /2
9 ZE
RO
_PO
INT_
ADJU
ST
unsi
gned
8 1
N
r,w
0 14
7 St
arts
and
indi
cate
s ad
just
of
the
ZER
O_P
OIN
T:
0 =
chan
cel
1 =
exec
ute
This
par
amet
er is
equ
al to
inde
x 11
3.
14 /
30
ZER
O_P
OIN
T_U
NIT
un
sign
ed16
2
S r,w
10
77
U
nit o
f the
ZER
O_P
OIN
T is
alw
ays
Hz.
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
26
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
Met
er s
ize
of th
e pr
imar
y in
mm
or i
nch.
Th
is p
aram
eter
is n
early
equ
al to
inde
x 55
. Her
e th
e m
eter
siz
e is
a fl
oat n
umbe
r, in
dex
55 is
an
enum
erat
ed p
aram
eter
.
15 /
31
NO
MIN
AL_S
IZE
float
4
S r,w
-
128/
129
Slot
1
3 m
m
4 m
m
5 m
m
6 m
m
8 m
m
10 m
m
15 m
m
20 m
m
25 m
m
32 m
m
40 m
m
50 m
m
65 m
m
80 m
m
100
mm
12
5 m
m
150
mm
20
0 m
m
250
mm
30
0 m
m
350
mm
40
0 m
m
450
mm
50
0 m
m
600
mm
70
0 m
m
750
mm
80
0 m
m
900
mm
10
00 m
m
0.1
in
(
1/10
in)
0.15
625
in
(5
/32
in)
0.18
75 in
(3/
16 in
) 0.
25 in
(1/4
in)
0.31
25 in
(5/
16 in
) 0.
375
in
(3/8
in)
0.5
in
(
1/2
in)
0.
75 in
(/3/4
in)
1 in
1.
25 in
(1-1
/4 in
) 1.
5 in
(1
-1/2
in)
2 in
2.
5 in
(2
-1/2
in)
3 in
4
in
5 in
6
in
8 in
10
in
12 in
14
in
16 in
18
in
20 in
24
in
28 in
30
in
32 in
36
in
40 in
16
/ 32
N
OM
INAL
_SIZ
E_U
NIT
S un
sign
ed16
2
S r,w
10
13
U
nit f
or N
OM
INAL
_SIZ
E:
1013
: m
m
1019
: i
nch
17 /
33
VOLU
ME_
FLO
W
DS-
33
5 D
r
-
Mea
surin
g va
lue,
mea
sure
d vo
lum
e flo
w v
alue
. Prim
ary
Varia
ble
(PV)
of t
his
devi
ce.
18 /
34
VOLU
ME_
FLO
W_U
NIT
S un
sign
ed16
2
S r,w
13
49
U
nit f
or V
OLU
ME_
FLO
W, V
OLU
ME_
FLO
W_L
O_L
IMIT
und
VO
LUM
E_FL
OW
_HI_
LIM
IT.
This
par
amet
er is
equ
al to
Inde
x 67
, “R
ange
uni
t”. A
vaila
ble
units
see
ther
e.
19 /
35
VOLU
ME_
FLO
W_L
O_L
IMIT
flo
at
4 S
r,w
0.0
Lo
wer
Ran
ge v
alue
of t
he s
enso
r. Th
is p
aram
eter
is a
lway
s 0.
20
/ 36
VO
LUM
E_FL
OW
_HI_
LIM
IT
float
4
S r,w
-
U
pper
rang
e va
lue
of th
e se
nsor
. Th
is p
aram
eter
is e
qual
to in
dex
58, “
Cal
-fact
or”.
21 /
37
- D
S-33
5
D
r -
M
ASS_
FLO
W
i
s no
t par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
22 /
38
- un
sign
ed16
2
S r,w
13
22
M
ASS_
FLO
W_U
NIT
S
is
not
par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
23 /
39
- flo
at
4 S
r,w
-
MAS
S_FL
OW
_LO
_LIM
IT
i
s no
t par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
24 /
40
flo
at
4 S
r,w
-
MAS
S_FL
OW
_HI_
LIM
IT
is n
ot p
art o
f the
ele
ctro
mag
netic
flow
pro
file
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
27
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
25 /
41
- D
S-33
5
D
r -
D
ENSI
TY
is n
ot p
art o
f the
ele
ctro
mag
netic
flow
pro
file
26
/ 42
-
unsi
gned
16
2 S
r,w
1103
DEN
SITY
_UN
ITS
is n
ot p
art o
f the
ele
ctro
mag
netic
flow
pro
file
27
/ 43
-
float
4
S r,w
-
D
ENSI
TY_L
O_L
IMIT
is
not
par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
28 /
44
- flo
at
4 S
r,w
-
DEN
SITY
_HI_
LIM
IT
is n
ot p
art o
f the
ele
ctro
mag
netic
flow
pro
file
29
/ 45
-
DS-
33
5 D
r
-
TEM
PER
ATU
RE
is
not p
art o
f the
ele
ctro
mag
netic
flow
pro
file
30
/ 46
-
unsi
gned
16
2 S
r,w
-
TEM
PER
ATU
RE_
UN
ITS
is n
ot p
art o
f the
ele
ctro
mag
netic
flow
pro
file
31
/ 47
-
float
4
S r,w
-
TE
MPE
RAT
UR
E_LO
_LIM
IT
is n
ot p
art o
f the
ele
ctro
mag
netic
flow
pro
file
32
/ 48
-
Floa
t 4
S r,w
-
TE
MPE
RAT
UR
E_H
I_LI
MIT
i
s no
t par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
33 /
49
- D
S-33
5
D
r -
VO
RTE
X_FR
EQ
is n
ot p
art o
f the
ele
ctro
mag
netic
flow
pro
file
34
/50
-
Uns
igne
d16
2 S
r,w
-
VOR
TEX_
FREQ
_UN
ITS
is
not p
art o
f the
ele
ctro
mag
netic
flow
pro
file
35
/ 51
-
Floa
t 4
S r,w
VO
RTE
X_FR
EQ_L
O_L
IMIT
is
not
par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
36 /
52
- Fl
oat
4 S
r,w
-
VOR
TEX_
FREQ
_HI_
LIM
IT
is
not p
art o
f the
ele
ctro
mag
netic
flow
pro
file
37
/ 53
-
DS-
33
5 D
r
-
SOU
ND
_VEL
OC
ITY
is
not
par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
38 /
54
- U
nsig
ned1
6 2
S r,w
-
SO
UN
D_V
ELO
CIT
Y_U
NIT
S
i
s no
t par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
39 /
55
- flo
at
4 S
r,w
-
SOU
ND
_VEL
OC
ITY_
LO_L
IMIT
is
not
par
t of t
he e
lect
rom
agne
tic fl
ow p
rofil
e
40 /
56
- flo
at
4 S
r,w
-
SOU
ND
_VEL
OC
ITY_
HI_
LIM
IT
is
not p
art o
f the
ele
ctro
mag
netic
flow
pro
file
Ex
cita
tion
of th
e se
nsor
. Th
is p
aram
eter
is n
early
equ
al to
inde
x 97
. The
re th
e pa
ram
eter
is a
n en
umer
ated
, wic
h al
low
s to
diff
eren
ce b
etw
een
AC/D
C a
nd D
C e
xcita
tion.
Her
e th
e pa
ram
eter
is a
floa
t nu
mbe
r.
41 /
57
SAM
PLIN
G_F
REQ
D
S-33
5
D
r -
6.25
Hz
AC/D
C
7.5
Hz
AC/D
C
12.5
Hz
AC/D
C
15 H
z AC
/DC
25
Hz
AC/D
C
30 H
z AC
/DC
6.
25 H
z D
C
7.5
Hz
DC
12
.5 H
z D
C
15 H
z D
C
25 H
z D
C
30 H
z D
C
nega
tiv
posi
tiv
6.25
7.
5 12
.5
15
25
30
6.25
7.
5 12
.5
15
25
30
0 0 42
/ 58
SA
MPL
ING
_FR
EQ_U
NIT
S
U
nsig
ned1
6 2
S r,w
10
77
U
nit o
f exc
itatio
n is
alw
ays
Hz.
43
to 5
2 (5
9 to
68)
R
eser
ved
53 /
69
-
54 /
70
Lang
uage
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 0
0 1 2 4
Ger
man
En
glis
h Fr
ench
Sp
anis
h
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
28
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
55 /
71
Met
er s
ize
U
nsig
ned8
1
S r,w
128/
129
Slot
1
0 1 2 3 4,
5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
3 m
m
4
mm
5 m
m
6
mm
8 m
m
10
mm
15 m
m
20
mm
25 m
m
32
mm
40
mm
50
mm
65 m
m
80 m
m
10
0 m
m
125
mm
15
0 m
m
200
mm
25
0 m
m
300
mm
35
0 m
m
400
mm
45
0 m
m
500
mm
60
0 m
m
700
mm
75
0 m
m
800
mm
90
0 m
m
1000
mm
1/1
0 in
5
/32
in
3/1
6 in
1
/4 in
5
/16
in
3/8
in
1/2
in
3/4
in
1
in
1-1/
4 in
1-
1/2
in
2
in
2-1/
2 in
3 in
4 in
5 in
6 in
8 in
10 in
12 in
14 in
16 in
18 in
20 in
24 in
28 in
30 in
32 in
36 in
40 in
56
/ 72
Sh
ort m
odel
no.
Vi
sibl
e St
ring
16
S r,w
231/
230
Slot
1
57 /
73
Ord
er n
o.
Visi
ble
Strin
g 16
S
r,w
23
1/23
0 Sl
ot 4
58 /
74
Cal
-fact
Floa
t 4
S
r,w
13
2/13
3 Sl
ot 0
W
ritin
g:
If „R
ange
DN
“ (in
dex
95) i
s fix
ed, i
t is
only
allo
wed
to w
rite
the
sam
e va
lue,
whi
ch a
lread
y is
sto
red
in th
is p
aram
eter
.
If „R
ange
DN
“ (in
dex
95) i
s pr
ogra
mab
le, a
ny v
alue
from
0.0
01 to
999
9999
can
be
writ
ten.
59
/ 75
R
ange
Floa
t 4
S
r,w
13
2/13
3 Sl
ot 1
Lo
wer
Lim
it: 0
.02
or 0
.05
* Qm
axD
N
(lo
ok a
t ind
ex 9
4: R
ange
<.05
Ran
geD
N)
Upp
er L
imit:
Qm
axD
N
Uni
t
:l
ook
at in
dex
67, „
Ran
ge u
nit“
60 /
76
Puls
e fa
ctor
Floa
t 4
S
r,w
13
2/13
3 Sl
ot 3
Lo
wer
Lim
it: 0
.001
U
pper
Lim
it:
1000
U
nit
:
1 /
Tota
lizer
uni
t (l
ook
at in
dex
68)
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
29
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
61 /
77
Puls
e w
idth
Floa
t 4
S
r,w
13
2/13
3 Sl
ot 4
Lo
wer
Lim
it: 0
.1
Upp
er L
imit:
20
00
Uni
t
: m
sek
62 /
78
Low
flow
cut
-off
Fl
oat
4 S
r,w
132/
133
Slot
5
Low
er L
imit:
0.0
U
pper
Lim
it: 1
0.0
Uni
t
: %
63
/ 79
D
ampi
ng
Fl
oat
4 S
r,w
132/
133
Slot
6
Low
er L
imit:
0.2
U
pper
Lim
it: 1
00
Uni
t
: s
ek
64 /
80
Filte
r
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 2
0 1
off
on
65 /
81
Den
sity
Floa
t 4
S
r,w
13
2/13
3 Sl
ot 7
Lo
wer
Lim
it: 0
.01
Upp
er L
imit:
5.
0 U
nit
:
g/c
m3
66 /
82
Syst
em z
ero
adj.
Fl
oat
4 S
r,w
132/
133
Slot
8
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
30
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
67 /
83
Ran
ge u
nit
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 3
13
51
1352
13
53
1347
13
48
1349
13
50
1367
13
68
1369
13
70
1366
13
63
1364
13
71
1372
13
73
1374
13
22
1323
13
24
1325
13
27
1328
13
29
1318
13
19
1320
13
30
1331
13
32
1356
13
57
1358
13
59
l/s
l/min
l/h
m
3/s
m3/
min
m
3/h
m3/
d ig
ps
igpm
ig
ph
igpd
m
gd
gpm
gp
h bb
l/s
bbl/m
in
bbl/h
bb
l/d
kg/s
kg
/min
kg
/h
kg/d
t/m
in
t/h
t/d
g/s
g/m
in
g/h
lbs/
s lb
s/m
in
lbs/
h ft3
/s
ft3/m
ft3
/h
ft3/d
68
/ 84
To
taliz
er u
nit
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 4
10
38
1034
10
49
1048
10
51
1088
10
92
1089
10
94
1043
l m3
igal
ga
l bb
l kg
t g lb
s ft3
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
31
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
Erro
r Log
#0
, Bit
0 #0
, Bit
1
#0, B
it 2
#0
, Bit
3
#0, B
it 4
#0, B
it 5
#0
, Bit
6 #0
, Bit
7 #1
, Bit
0
#1, B
it 1
#1
, Bit
2
#1, B
it 3
#1
, Bit
4 #1
, Bit
5
#1, B
it 6
#1, B
it 7
#2
, Bit
0 #2
, Bit
1 #2
, Bit
2 #2
, Bit
3 #2
, Bit
4 #2
, Bit
5 #2
, Bit
6 #2
, Bit
7
Erro
r 8:
Erro
r 9:
Erro
r A:
Erro
r B:
Erro
r C:
Erro
r D:
Erro
r E:
Erro
r F:
Erro
r 0:
Erro
r 1:
Erro
r 2:
Erro
r 3:
Erro
r 4:
Erro
r 5:
Erro
r 6:
Erro
r 7:
Stat
us 0
: St
atus
1:
Stat
us 2
: St
atus
3:
Stat
us 4
: St
atus
5:
Stat
us 6
: St
atus
7:
Neg
ativ
e R
efer
ence
Ex
cita
tion
MAX
-Ala
rm
MIN
-Ala
rm
Prim
ary
- Tota
lizer
>F
Tota
lizer
<R
Em
pty
pipe
A/
D-C
onve
rter
Ure
f to
smal
l Fl
ow >
130
%
Zero
retu
rn
EEPR
OM
To
taliz
er
Posi
tive
Ref
eren
ce
Auto
mat
ic a
djus
t run
ning
Au
tom
atic
adj
ust
Aver
age
mea
sure
men
t - Pr
ot.c
ust.t
rans
. - Si
mul
atio
n on
Fu
nktio
ntes
t or t
estm
ode
on
69 /
85
Erro
r log
Oct
etSt
ring
3 N
r,w
48
To re
set E
rror l
og w
rite
0,0,
0.
70
/ 86
M
ax a
larm
Uns
igne
d16
2 S
r,w
13
0/13
1 Sl
ot 0
Lo
wer
Lim
it:
0 U
pper
Lim
it:
130
Uni
t
: %
71
/ 87
M
in a
larm
Uns
igne
d16
2 S
r,w
13
0/13
1 Sl
ot 1
Lo
wer
Lim
it:
0 U
pper
Lim
it:
130
Uni
t
: %
72
/ 88
-
73
/ 89
-
74
/ 90
D
etec
tor e
.pip
e
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 1
3 0 1
off
on
75 /
91
Alar
m e
mpt
y pi
pe
U
nsig
ned8
1
S r,w
128/
129
Slot
14
0 1 of
f on
76
/ 92
Th
resh
old
Floa
t 4
S
r,w
13
2/13
3 Sl
ot 1
0
77 /
93
Tota
lizer
>F
Fl
oat
4 S
r
13
2/13
3 Sl
ot 1
1 Lo
wer
Lim
it:
0 U
pper
Lim
it:
9999
999
Uni
t
: T
otal
izer
uni
t, in
dex
68
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
32
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
78 /
94
Ove
rflow
>F
U
nsig
ned1
6 2
S r
13
0/13
1 Sl
ot 3
Lo
wer
Lim
it:
0 U
pper
Lim
it:
6553
5 U
nit
:
kei
ne
79 /
95
Tota
lizer
>F
rese
t
Uns
igne
d8
1 D
w
140
142
Writ
ing:
1=
res
et to
taliz
er a
nd o
verfl
ow
2 =
rese
t onl
y ov
erflo
w
Writ
ing
trigg
ers
the
rese
t, it
is n
ot a
sta
tic re
set s
igna
l by
the
valu
e.
80 /
96
Tota
lizer
<R
Floa
t 4
S
r
132/
133
Slot
12
Low
er L
imit:
0
Upp
er L
imit:
99
9999
9 U
nit
:
Tot
aliz
er u
nit,
inde
x 68
81
/ 97
O
verfl
ow <
R
U
nsig
ned1
6 2
S r
13
0/13
1 Sl
ot 4
Lo
wer
Lim
it:
0 U
pper
Lim
it:
6553
5 U
nit
:
kei
ne
82 /
98
Tota
lizer
<R
rese
t
Uns
igne
d8
1 D
w
141
143
Writ
ing:
1=
res
et to
taliz
er a
nd o
verfl
ow
2 =
rese
t onl
y ov
erflo
w
Writ
ing
trigg
ers
the
rese
t, it
is n
ot a
sta
tic re
set s
igna
l by
the
valu
e.
83 /
99
tota
lizer
func
t.
Uns
igne
d8
1 S
r,w
128-
18
0 1
Stan
dard
di
ffer.
Tota
l 84
/ 10
0 M
ains
inte
rrupt
Uns
igne
d16
2 S
r,w
13
0/13
1 Sl
ot 5
R
ead:
Get
act
ual v
alue
. W
rite:
Writ
ing
valu
e di
ffere
nt 0
rese
ts th
e m
ains
inte
rrupt
s.
85 /
101
Dis
play
1st
line
U
nsig
ned8
1
S r,w
128/
129
Slot
19
86 /
102
Dis
play
2st
line
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 2
0
7 2 1 0 9 11
12
13
8 6 5 4 3 10
15
16
17
Q [B
argr
aph]
Q
[mA]
Q
[uni
t] Q
[%]
Det
ecto
r e.P
. Si
gnal
p/n
R
efer
ence
p/n
Si
gnal
, Ref
. Bl
anks
C
omm
unik
atio
nTag
To
taliz
er <
R
Tota
lizer
>F
Tota
lizer
M
ains
Fre
qenc
y C
hann
el, M
ode,
Sta
tus
Valu
e, U
nit
Addr
ess,
Sta
te
87
/ 10
3 D
ispl
ay 1
st li
ne m
ultip
l.
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 2
1 7 2
Q [B
argr
aph]
Q
[mA]
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
33
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
88 /
104
Dis
play
2st
line
mul
tipl.
U
nsig
ned8
1
S r,w
128/
129
Slot
22
1 0 9 11
12
13
8 6 5 4 3 10
14
15
16
17
Q [u
nit]
Q [%
] D
etec
tor e
.P.
Sign
al p
/n
Ref
eren
ce p
/n
Sign
al, R
ef.
Blan
ks
Com
mun
ikat
ionT
ag
Tota
lizer
<R
To
taliz
er >
F To
taliz
er
Mai
ns F
reqe
ncy
Off
Cha
nnel
, Mod
e, S
tatu
s Va
lue,
Uni
t Ad
dres
s, S
tate
89
/ 10
5 O
pera
ting
mod
e
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 2
3 0 2
Stan
dard
Fa
st
90 /
106
Flow
dire
ctio
n
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 2
4 0 1
Forw
ard
Forw
ard/
Rev
erse
91 /
107
Flow
indi
catio
n
Uns
igne
d8
1 S
r,w
12
8/12
9 Sl
ot 2
5 0 1
stan
dard
op
posi
te
92 /
108
Vers
ion
Visi
ble
Strin
g 16
N
r
D69
9B18
0U01
X.30
23
1/23
0 Sl
ot 7
So
ftwar
e-ve
rsio
n of
the
FXE4
000
devi
ce
93 /
109
Qm
axD
N v
eloc
ity
Uns
igne
d8
1 S
r,w (1
)
128/
129
Slot
27
0 1 10
m/s
33.33 ft/s
94
/ 11
0 R
ange
<.05
Ran
geD
N
Uns
igne
d8
1 S
r,w (1
)
128/
129
Slot
28
0 1 O
ff on
95
/ 11
1 R
ange
DN
U
nsig
ned8
1
S r,w
(1)
12
8/12
9 Sl
ot 2
9 0 1
fixed
pr
ogra
mab
le
96
/ 11
2 D
ebit
Exci
tatio
n U
nsig
ned8
1
S r,w
(1)
12
8/12
9 Sl
ot 3
0 0 1
6.25
Hz
AC/D
C
7.5
Hz
AC/D
C
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
34
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
97 /
113
Exci
tatio
n U
nsig
ned8
1
S r,w
(1)
12
8/12
9 Sl
ot 3
1 2 3 4 5 6 7 8 9 10
11
12
13
12.5
Hz
AC/D
C
15 H
z AC
/DC
25
Hz
AC/D
C
30 H
z AC
/DC
6.
25 H
z D
C
7.5
Hz
DC
12
.5 H
z D
C
15 H
z D
C
25 H
z D
C
30 H
z D
C
nega
tiv
posi
tiv
98 /
114
Anal
og ra
nge
Uns
igne
d8
1 S
r,w (1
)
128/
129
Slot
32
7 6 5 4 3 2 1 0
V =
8 a
uto.
V
= 4
aut
o.
V =
2 a
uto.
V
= 1
aut
o.
V =
8 m
an.
V =
4 m
an.
V =
2 m
an.
V =
1 m
an.
99 /
115
Prea
mpl
ifier
U
nsig
ned8
1
S r,w
(1)
12
8/12
9 Sl
ot 3
3 0 1
Yes
no
100
/ 116
Se
rvic
e-Ko
de
Uns
igne
d16
2 S
r,w
13
0/13
1 Sl
ot 6
Lo
wer
Lim
it: 0
U
pper
Lim
it: 9
999
Uni
t
: -
101
/ 117
In
stru
men
t no.
U
nsig
ned1
6 2
S r,w
130/
131
Slot
7
Low
er L
imit:
0
Upp
er L
imit:
655
35
Uni
t
: -
102
/ 118
C
alib
ratio
n m
ode
Uns
igne
d16
2 S
r,w (1
)
130/
131
Slot
8
Low
er L
imit:
0
Upp
er L
imit:
655
35
Uni
t
: k
eine
10
3 / 1
19
Span
adj
ust >
F Fl
oat
4 S
r,w
(1)
13
2/13
3 Sl
ot 1
3 Lo
wer
Lim
it: 2
50.0
U
pper
Lim
it:
300.
0 U
nit
:
%
104
/ 120
Sp
an a
djus
t <R
Fl
oat
4 S
r,w
(1)
13
2/13
3 Sl
ot 1
4 Lo
wer
Lim
it: -3
00.0
U
pper
Lim
it:
-250
.0
Uni
t
: %
10
5 / 1
21
Zero
adj
ust
Floa
t 4
S
r,w (1
)
132/
133
Slot
15
Low
er L
imit:
-5.0
U
pper
Lim
it:
5.0
Uni
t
: %
10
6 / 1
22
Cal
ibra
tion
Floa
t 4
S
r,w (1
)
132/
133
Slot
18
Low
er L
imit:
-10.
0
Upp
er L
imit:
10
.0
Uni
t
: %
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
35
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
107
/ 123
Sp
an C
s 6.
25 H
z Fl
oat
4 S
r,w
(1)
13
2/13
3 Sl
ot 1
9 Lo
wer
Lim
it: 1
5.0
U
pper
Lim
it: 2
00.0
O
r (d
epen
dfs
from
flow
dire
ctio
n)
Low
er L
imit:
-200
.0
Upp
er L
imit:
-15
.0
Uni
t
: %
10
8 / 1
24
Zero
Cz
6.25
Hz
Floa
t 4
S
r,w (1
)
132/
133
Slot
20
Low
er L
imit:
-5.0
U
pper
Lim
it:
5.0
Uni
t
: %
10
9 / 1
25
Span
Cs
12.5
Hz
Floa
t 4
S
r,w (1
)
132/
133
Slot
21
Low
er L
imit:
15.
0
Upp
er L
imit:
200
.0
Or
(dep
endf
s fro
m fl
ow d
irect
ion)
Lo
wer
Lim
it: -2
00.0
U
pper
Lim
it: -
15.0
U
nit
:
%
110
/ 126
Ze
ro C
z 12
.5 H
z Fl
oat
4 S
r,w
(1)
13
2/13
3 Sl
ot 2
2 Lo
wer
Lim
it: -5
.0
Upp
er L
imit:
5.
0 U
nit
:
%
111
/ 127
Sp
an C
s 25
Hz
Floa
t 4
S
r,w (1
)
132/
133
Slot
23
Low
er L
imit:
15.
0
Upp
er L
imit:
200
.0
Or
(dep
endf
s fro
m fl
ow d
irect
ion)
Lo
wer
Lim
it: -2
00.0
U
pper
Lim
it: -
15.0
U
nit
:
%
112
/ 128
Ze
ro C
z 25
Hz
Floa
t 4
S
r,w (1
)
132/
133
Slot
24
Low
er L
imit:
-5.0
U
pper
Lim
it:
5.0
Uni
t
: %
11
3/12
9 Ad
just
“Sys
tem
zer
o ad
j.”
U
nsig
ned8
1
S r,w
147
Rea
d:
0
= no
adj
ust r
unni
ng
1 =
adju
st is
runn
ing
Writ
e:
1
= st
art a
djus
t St
artin
g th
e aj
ust i
s tri
gger
ed b
y w
ritin
g „1
“, no
t fro
m th
e st
atic
val
ue „1
“. Th
e aj
ust n
eeds
10
to 4
0 se
cond
s, d
epen
ding
from
the
exci
tatio
n fre
quen
cy.
114/
130
Load
Prim
ary
Dat
a U
nsig
ned8
1
S w
148
Writ
e:
1 =
Load
prim
ary
data
11
5/13
1 St
ore
Prim
ary
Dat
a U
nsig
ned8
1
S w
149
Writ
e:
1 =
Stor
e pr
imar
y da
ta
116/
132
Initi
alis
e ex
tern
al E
EPR
OM
U
nsig
ned1
6 1
S w
152
Writ
e:
4000
= In
it ex
tern
al E
EPR
OM
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
36
Rel
.Idx
/ Sl
ot Id
x Va
riabl
e N
ame
Dat
a Ty
pe
Size
St
ore
Acce
ss
Def
ault
Valu
e H
ART-
Cm
d re
ad/w
rite
Des
crip
tion
117/
133
Adju
st p
rimar
y ze
ro p
oint
Uns
igne
d8
1 S
r,w
15
5 R
ead:
0 =
no a
djus
t run
ning
1
= ad
just
is ru
nnin
g W
rite:
1 =
star
t adj
ust
Star
ting
the
ajus
t is
trigg
ered
by
writ
ing
„1“,
not f
rom
the
stat
ic v
alue
„1“.
The
ajus
t nee
ds
10 to
40
seco
nds,
dep
endi
ng fr
om th
e ex
cita
tion
frequ
ency
. 11
8/13
4 Ad
just
prim
ary
span
U
nsig
ned8
1
S r,w
156
Rea
d:
0
= no
adj
ust r
unni
ng
1 =
adju
st is
runn
ing
Writ
e:
1
= st
art a
djus
t St
artin
g th
e aj
ust i
s tri
gger
ed b
y w
ritin
g „1
“, no
t fro
m th
e st
atic
val
ue „1
“. Th
e aj
ust n
eeds
10
to 4
0 se
cond
s, d
epen
ding
from
the
exci
tatio
n fre
quen
cy.
119/
135
Adju
st d
etec
tor e
mpt
y pi
pe
Uns
igne
d8
1 S
r,w
20
0 Sl
ot 4
19
0 Sl
ot 3
Lo
wer
Lim
it: 0
U
pper
Lim
it: 2
55
Uni
t
: -
120/
136
Vers
ion
Gat
eway
-Sof
twar
e Vi
sibl
e St
ring
16
N
r D
200S
022U
02
A.10
121/
137
Tota
lizer
>F
DS-
33
5 D
r
Tota
lizer
>F
and
stat
us a
s da
ta s
truct
ure
DS-
33, s
uita
ble
as c
hann
el fo
r AI-b
lock
12
2/13
8 To
taliz
er <
R
DS-
33
5 D
r
Tota
lizer
<R
and
sta
tus
as d
ata
stru
ctur
e D
S-33
, sui
tabl
e as
cha
nnel
for A
I-blo
ck
Info
: the
reve
rse
tota
liser
is s
how
n w
ith p
ositi
ve s
ign
(pos
itive
num
ber).
12
3/13
9 D
IP-S
witc
h U
nsig
ned8
1
N
r,w (1
)
Ac
tual
sw
itch
posi
tion
124/
140
Star
t „Ze
ro a
djus
t“ U
nsig
ned8
1
S r,w
180
Slot
5
125/
141
Star
t „Sp
an a
djus
t >F“
U
nsig
ned8
1
S r,w
180
Slot
3
126/
142
Star
t „Sp
an a
djus
t <R
“ U
nsig
ned8
1
S r,w
180
Slot
4
Rea
d:
0
= no
adj
ust r
unni
ng
1 =
adju
st is
runn
ing
Writ
e:
1
= st
art a
djus
t St
artin
g th
e aj
ust i
s tri
gger
ed b
y w
ritin
g „1
“, no
t fro
m th
e st
atic
val
ue „1
“. Th
e aj
ust n
eeds
10
to 4
0 se
cond
s, d
epen
ding
from
the
exci
tatio
n fre
quen
cy.
127/
143
Cal
ibra
tion
date
Vi
sibl
e St
ring
6 S
r,w
23
1/23
0 Sl
ot 0
128/
144
Mes
sage
Vi
sibl
e St
ring
32
S r,w
12/1
7
129/
145
Freq
uenc
y de
tect
or e
mpt
y
Floa
t 4
D
R
20
0 Sl
ot 2
1
130/
146
Load
dev
ice
data
from
ex
tern
al E
EPR
OM
U
nsig
ned8
1
S w
H
artC
md
150
W
rite:
1
= Lo
ad d
ata
131/
147
Stor
e de
vice
dat
a to
exte
rnal
EEP
RO
M
Uns
igne
d8
1 S
w
Har
tCm
d 15
1
Writ
e:
1 =
Stor
e da
ta
Durchflussmesser FXE4000
Schnittstellenbeschreibung PROFIBUS PA 3.0
37
3.5.3 Transducer Block Parameter, sorted according to names Parameter Name Rel.Index /
Slot IndexAdjust “System zero adj.” 113/129 Adjust detector empty pipe 119/135 Adjust primary span 118/134 Adjust primary zero point 117/133 Alarm empty pipe 75 / 91 ALARM_SUM 7 / 23 ALERT_KEY 4 / 20 Analog range 98 / 114 BLOCK_OBJECT 0 / 16 Cal-fact 58 / 74 CALIBR_FACTOR 8 / 24 Calibration 106 / 122 Calibration date 127/143 Calibration mode 102 / 118 Damping 63 / 79 Debit Excitation 96 / 112 Density 65 / 81 Detector e.pipe 74 / 90 DIP-Switch 123/139 Display 1st line 85 / 101 Display 1st line multipl. 87 / 103 Display 2st line 86 / 102 Display 2st line multipl. 88 / 104 Error log 69 / 85 Excitation 97 / 113 Filter 64 / 80 Flow indication 91 / 107 FLOW_DIRECTION 11 / 27 Flowdirection 90 / 106 Frequency detector empty 129/145 Initialise external EEPROM 116/132 Instrument no. 101 / 117 Language 54 / 70 Load device data from external EEPROM 130/146 Load Primary Data 114/130 Low flow cut-off 62 / 78 LOW_FLOW_CUTOFF 9 / 25 Mains interrupt 84 / 100 Max alarm 70 / 86 MEASUREMENT_MODE 10 / 26 Message 128/144 Meter size 55 / 71 Min alarm 71 / 87 MODE_BLK 6 / 22 NOMINAL_SIZE 15 / 31 NOMINAL_SIZE_UNITS 16 / 32 Operating mode 89 / 105 Order no. 57 / 73 Overflow <R 81 / 97 Overflow >F 78 / 94 Preamplifier 99 / 115 Pulse factor 60 / 76 Pulse width 61 / 77 QmaxDN velocity 93 / 109 Range 59 / 75 Range DN 95 / 111 Range unit 67 / 83 Range<.05RangeDN 94 / 110 Reserved (59 to 68) SAMPLING_FREQ 41 / 57 SAMPLING_FREQ_UNITS 42 / 58 Service-Kode 100 / 116 Short model no. 56 / 72 Span adjust <R 104 / 120
Span adjust >F 103 / 119 Span Cs 12.5 Hz 109 / 125 Span Cs 25 Hz 111 / 127 Span Cs 6.25 Hz 107 / 123 ST_REV 1 / 17 Start „Span adjust <R“ 126/142 Start „Span adjust >F“ 125/141 Start „Zero adjust“ 124/140 Store device data to external EEPROM 131/147 Store Primary Data 115/131 STRATEGY 3 / 19 System zero adj. 66 / 82 TAG_DESC 2 / 18 TARGET_MODE 5 / 21 Threshold 76 / 92 Totalizer <R 80 / 96 Totalizer <R 122/138 Totalizer <R reset 82 / 98 Totalizer >F 77 / 93 Totalizer >F 121/137 Totalizer >F reset 79 / 95 totalizer funct. 83 / 99 Totalizer unit 68 / 84 Version 92 / 108 Version Gateway-Software 120/136 VOLUME_FLOW 17 / 33 VOLUME_FLOW_HI_LIMIT 20 / 36 VOLUME_FLOW_LO_LIMIT 19 / 35 VOLUME_FLOW_UNITS 18 / 34 Zero adjust 105 / 121 Zero Cz 12.5 Hz 110 / 126 Zero Cz 25 Hz 112 / 128 Zero Cz 6.25 Hz 108 / 124 ZERO_POINT 12 / 28 ZERO_POINT_ADJUST 13 /29 ZERO_POINT_UNIT 14 / 30
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
38
3.6 Data Structures
3.6.1 DS-32 – Block Structure E Element Name Data Type Size 1 Reserved Unsigned8 1 2 Block Object Unsigned8 1 3 Parent Class Unsigned8 1 4 Class Unsigned8 1 5 DD Reference Unsigned32 4 6 DD Revision Unsigned16 2 7 Profile OctetString 2 8 Profile Revision Unsigned16 2 9 Execution Time Unsigned8 1 10 Number of Parameters Unsigned16 2 11 Address of VIEW_1 Unsigned16 2 12 Number of Views Unsigned8 1
3.6.2 DS-33 – Value & Status – Floating Point Structure E Element Name Data Type Size 1 Value Float 4 2 Status Unsigned8 1
3.6.3 DS-36 – Scaling Structure E Element Name Data Type Size 1 EU at 100% Float 4 2 EU at 0% Float 4 3 Units Index Unsigned16 2 4 Decimal Point Integer8 1
3.6.4 DS-37 – Mode Structure E Element Name Data Type Size 1 Actual Unsigned8 1 2 Permitted Unsigned8 1 3 Normal Unsigned8 1
3.6.5 DS-39 – Alarm Float Structure E Element Name Data Type Size 1 Unacknowledged Unsigned8 1 2 Alarm State Unsigned8 1 3 Time Stamp Time Value 8 4 Subcode Unsigned16 2 5 Value Float 4
3.6.6 DS-42 – Alarm Summary Structure E Element Name Data Type Size 1 Current Octet String 2 2 Unacknowledged Octet String 2 3 Unreported Octet String 2 4 Disabled Octet String 2
Durchflussmesser FXE4000
Schnittstellenbeschreibung PROFIBUS PA 3.0
39
3.6.7 DS-50 – Simulate – Floating Point Structure E Element Name Data Type Size 1 Simulate Status Unsigned8 1 2 Simulate Value Float 4 3 Simulate Enabled Unsigned8 1
3.6.8 DS-67 – Batch Structure E Element Name Data Type Size 1 BATCH_ID Unsigned32 4 2 RUP Unsigned16 2 3 OPERATION Unsigned16 2 4 PHASE Unsigned16 2
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
40
4. Diagnosis The cyclic data transfer service Data-Exchange(DP response Data Exchange) includes the Bit Diagnostic Flag, which is set, if the Bytes of DIAGNOSIS or DIAGNOSIS_EXTENSION are changed. The master then starts the service SLAVE_DIAG (DP request Slave Diag) and the converter answers with the following SLAVE_DIAG – Telegram (DP response Slave Diag). The Parameter DIAGNOSIS and DIAGNOSIS_EXTENSION include the status of the converter. These parameters are represented by the relative indices 13 and 14 in the Physical Block and can be read using the service SLAVE_DIAG. The service SLAVE_DIAG in minimum transfers according to the PA profile the parameters DIAGNOSIS in Byte 11 to 14 of the answer. For the FXE4000 the service has been extended and additionally transfers Byte 15 to 20 for the parameter DIAGNOSIS_EXTENSION. Content of SLAVE_DIAG – Telegram: 6 Byte 4 Byte 4 Byte 6 Byte Byte 1 - 6 Byte 7 - 10 Byte 11 - 14 Byte 15 - 20 DP part PA-Header DIAGNOSIS DIAGNOSIS-EXTENSION
If in the 4 bytes of DIAGNOSIS or the 6 bytes of DIAGNOSIS EXTENSION no bit is set, the converter answers with a short telegram, which only consists of the 6 bytes of the DP part only. If in the 4 bytes of DIAGNOSIS or the 6 bytes of DIAGNOSIS EXTENSION in minimum one bit is set the converter answers with a long telegram (20 Byte) as shown above.
4.1 DIAGNOSIS Bit 0 Hardware failure of the electronic Bit 1 - Bit 2 - Bit 3 - Bit 4 Memory error Bit 5 Failure in measurement Bit 6 -
Octet 1
Bit 7 - Bit 0 - Bit 1 - Bit 2 - Bit 3 - Bit 4 - Bit 5 - Bit 6 -
Octet 2
Bit 7 - Bit 0 - Bit 1 - Bit 2 - Bit 3 - Bit 4 - Bit 5 - Bit 6 -
Octet 3
Bit 7 - Bit 0 - Bit 1 - Bit 2 - Bit 3 - Bit 4 - Bit 5 - Bit 6 -
Octet 4
Bit 7 More diagnosis information is available (is set if in minimum one bit in Diagnosis_Extension is set) Mapping to FXE4000 error codes see 1.13
Durchflussmesser FXE4000
Schnittstellenbeschreibung PROFIBUS PA 3.0
41
4.2 DIAGNOSIS_EXTENSION
Bit 0 Fehlerregister 8: Negative Reference Bit 1 Fehlerregister 9: Excitation Bit 2 Fehlerregister A: MAX-Alarm Bit 3 Fehlerregister B: MIN-Alarm Bit 4 Fehlerregister C: Primary Bit 5 Fehlerregister D: - Bit 6 Fehlerregister E: Totalizer >F
Octet 1
Bit 7 Fehlerregister F: Totalizer <R Bit 0 Fehlerregister 0: Detektor leeres Rohr Bit 1 Fehlerregister 1: A/D-Converter Bit 2 Fehlerregister 2: Uref to small Bit 3 Fehlerregister 3: Fkow > 130% Bit 4 Fehlerregister 4: Zero return Bit 5 Fehlerregister 5: EEPROM Bit 6 Fehlerregister 6: Totalizer
Octet 2
Bit 7 Fehlerregister 7: Positive Reference Bit 0 Statusregister 0: Automatic adjust running Bit 1 Statusregister 1: Automatic adjust Bit 2 Statusregister 2: Average measurement Bit 3 Statusregister 3: - Bit 4 Statusregister 4: Prot.cust.trans. Bit 5 Statusregister 5: - Bit 6 Statusregister 6: Simulation on
Octet 3
Bit 7 Statusregister 7: Funktion test or Test mode on Bit 0 - Bit 1 - Bit 2 - Bit 3 - Bit 4 - Bit 5 - Bit 6 -
Octet 4
Bit 7 - Bit 0 - Bit 1 - Bit 2 - Bit 3 - Bit 4 - Bit 5 - Bit 6 -
Octet 5
Bit 7 - Bit 0 - Bit 1 - Bit 2 - Bit 3 - Bit 4 - Bit 5 - Bit 6 -
Octet 6
Bit 7 - Note: Error and status register of FXE4000 are situated within the transducer block relative index 69.
Flow
met
er F
XE40
00
Dat
alin
k D
escr
iptio
n PR
OFI
BU
S PA
3.0
42
4.3
Map
ping
XE-
Erro
r/Sta
tus
Er
ror/S
tatu
s M
appi
ng to
DIA
GN
OSI
S-Bi
ts
Map
ping
to S
tatu
s VO
LUM
E_FL
OW
M
appi
ng to
Sta
tus
Tota
lizer
Erro
r 0
Det
ecto
r em
pty
pipe
UN
CER
TAIN
, non
-spe
cific
U
NC
ERTA
IN, n
on-s
peci
fic
Erro
r 1
A/D
-Con
verte
r Fa
ilure
in m
easu
rem
ent
BAD
, sen
sor f
ailu
re
BAD
, sen
sor f
ailu
re
Erro
r 2
Ure
f to
smal
l Fa
ilure
in m
easu
rem
ent
BAD
, sen
sor f
ailu
re
BAD
, sen
sor f
ailu
re
Erro
r 3
Flow
> 1
30%
UN
CER
TAIN
, eng
inee
ring
unit
rang
e vi
olat
ion
U
NC
ERTA
IN, e
ngin
eerin
g un
it ra
nge
viol
atio
n
Erro
r 4
Zero
retu
rn
Er
ror 5
EE
PRO
M
Mem
ory
erro
r BA
D, d
evic
e fa
ilure
BA
D, d
evic
e fa
ilure
Er
ror 6
Zä
hler
M
emor
y er
ror
BA
D, d
evic
e fa
ilure
Er
ror 7
Po
sitiv
e R
efer
ence
Fa
ilure
in m
easu
rem
ent
BAD
, sen
sor f
ailu
re
BAD
, sen
sor f
ailu
re
Erro
r 8
Neg
ativ
e R
efer
ence
Fa
ilure
in m
easu
rem
ent
BAD
, sen
sor f
ailu
re
BAD
, sen
sor f
ailu
re
Erro
r 9
Exci
tatio
n Fa
ilure
in m
easu
rem
ent
BAD
, sen
sor f
ailu
re
BAD
, sen
sor f
ailu
re
Erro
r A
MAX
-Ala
rm
Er
ror B
M
IN-A
larm
Erro
r C
Prim
ary
Mem
ory
erro
r BA
D, d
evic
e fa
ilure
BA
D, d
evic
e fa
ilure
Er
ror D
-
Er
ror E
To
taliz
er >
F M
emor
y er
ror
BA
D, d
evic
e fa
ilure
(nur
bei
Zäh
ler V
orla
uf)
Erro
r F
Tota
lizer
<R
M
emor
y er
ror
BA
D, d
evic
e fa
ilure
(nur
bei
Zäh
ler R
ückl
auf)
Stat
us 0
Au
tom
atic
adj
ust r
unni
ng
U
NC
ERTA
IN, s
enso
r cal
ibra
tion
UN
CER
TAIN
, sen
sor c
alib
ratio
n St
atus
1
Auto
mat
ic a
djus
t
Stat
us 2
Av
erag
e m
easu
rem
ent
U
NC
ERTA
IN, s
enso
r cal
ibra
tion
UN
CER
TAIN
, sen
sor c
alib
ratio
n St
atus
3
-
Stat
us 4
Pr
otec
tion
cust
ody
trans
fer a
ctiv
e
Stat
us 5
-
St
atus
6
Sim
ulat
ion
on
U
NC
ERTA
IN, s
imul
ated
val
ue
UN
CER
TAIN
, sim
ulat
ed v
alue
St
atus
7
Funk
tions
test
or T
est m
ode
on
Durchflussmesser FXE4000
Schnittstellenbeschreibung PROFIBUS PA 3.0
43
4.4 Status-Byte The measurement value is usually transferred cyclically as data structure 33 (see chapter 3.6.2). This structure consists of a value as floating point and a status byte. The status byte includes three areas:
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Quality Quality Substatus Limits
Quality
0: bad 1: uncertain 2: good (Not Cascade) 3: good (Cascade)
Substatus for BAD
0: non-specific 1: configuration error 2: not connected 3: device failure 4: sensor failure 5: no communication (last usable value) 6: no communication (no usable value) 7: out of service
Substatus for UNCERTAIN 0: non-specific 1: last usable value 2: substitute-set 3: initial value 4: sensor conversion not accurate 5: engineering unit violation (unit not in the valid set) 6: sub-normal 7: configuration error 8: simulated value 9: sensor calibration
Substatus for GOOD (Non-Cascade)
0: ok 1: Update Event 2: active advisory alarm (priority < 8) 3: active critical alarm (priority > 8) 4: unacknowledged update event 5: unacknowledged advisory alarm 6: unacknowledged critical alarm 7: - 8: initiate fail safe 9: maintenance required
Substatus for GOOD (Cascade)
0: ok 1: initialisation acknowlegded 2: initialisation request 3: not invited 4: reserved 5: do not select 6: local override
Limits:
0: ok 1: low limited 2: high limited 3: constant
Flowmeter FXE4000 Datalink Description PROFIBUS PA 3.0
44
5. Start-up
5.1 AI-block If the channel of the AI-block is written, PV_SVALE and OUT_SCALE of the AI will be set to corresponding values: Channel 273 = VOLUME_FLOW Scale: -Range to +Range (index 59 TB)
Unit: VOLUME_FLOW_UNITS (index 18 TB) Channel 377 = Transducer block internal totalizer >F (forward flow) Channel 378 = Transducer block internal totalizer <R (reverse flow) Scale: 0 to 10.000.000 Unit: Totalizer unit, index 68 TB
If the channel is 273 and the range is written by PA-bus or if the range is changed indirectly (writing meter size, unit, …), then the AI-scaling will also be adjusted as described above.
5.2 Totalizer block The unit of the totalizer block is the volume (or mass)-unit of VOLUME_FLOW_UNITS (index 18, equal to index 67 „Range unit“). It is not the „Totalizer unit“ index 68 (unit of transducer block internal totalizer). Example: VOLUME_FLOW_UNITS = „Range units“ = m3/h → Totalizer block counts in m3 „Totalizer unit“ = L → Transducer block internal totalizer counts liter The Totalizer the channel value periodically: Total.Value = Total.Value + Channel.Value The time base of the channel unit (/s, /m, /h, /d) is considered. Therefore the totalizer block can be used with all possible channel units (see Transducer Block Index 67). Total.Value is a float value. Float values (4 Byte) have a resolution of 7½ decimal points. This limits the maximum counter range. E.g.: 20000000 + 1 will remain as 20000000, as the resolution of the floating point is not sufficient. This means that reaching up to high counter values the counter will not be incremented.
ABB Automation Products GmbHDransfelder Str.2D�37079 Göttingen, GermanyTel. +49 (0) 55 19 05� 0Fax +49 (0) 55 19 05�777http://www.abb.com
We reserve the right to technical amendments
This document is protected by copyright. Information in this document is intended only to assist the userin the safe and efficient operationof the equipment. Its contents are not to be reproduced in full or part without prior approval of the legal owner.
Rights reserved to make technical revisionsPrinted in the Fed. R. of Germany
D184B093U26 Rev. 03Issued 01.03