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USER’S AND PROGRAMMING MANUAL
v.01._ _
Manufacturer:
NIVELCO Process Control Co.
1043 Budapest, Dugonics u. 11.
Phone: 889-0100
♦ Fax: 889-0200 e-mail: [email protected]
♦ www.nivelco.com
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T
ABLE
O
F
C
ONTENTS
1. INTRODUCTION.............................................................................................. 5
1.1. T
HE
HART S
YSTEM
.................................................................................. 6
1.1.1. The Communication ............................................................................................6
1.1.2. The structure of the system.................................................................................6
1.1.2.1 Point-to-point connection........................................................................7
1.1.2.2 Multipoint connection (Multidrop). Multiple slaves connected in parallel.8
1.1.3. Properties of HART-capable devices..................................................................9
1.1.4. HART Command set ..........................................................................................9
1.1.4.1 Universal commands ............................................................................10
1.1.4.2 General commands ..............................................................................11
1.1.4.3 Device –specific commands.................................................................11
2. TECHNICAL DATA........................................................................................ 12
2.1. A
CCESSORIES
......................................................................................... 13
3. ORDER CODE ............................................................................................... 13
3.1. D
IMENSIONS
........................................................................................... 14
3.2. C
ONDITIONS OF USE OF THE
E
X UNITS
....................................................... 15
4. ELECTRICAL CONNECTION ....................................................................... 16
4.1. A
RRANGEMENT OF THE
C
ABLE
T
ERMINALS
............................................... 16
4.2. W
IRING
................................................................................................... 17
4.2.1. Transmitter connection (wiring).........................................................................17
4.2.1.1 Wiring of 2-wire units (transmitters)......................................................17
4.2.1.2 Wiring of 4-wire units (transmitters with separate power supply) ........18
4.2.1.3 Wiring of Combined Systems
(containing both 2- and 4-wire transmitters) ........................................................19
4.2.2. Wiring of Universal Interface Modules (UIM-s; order code: PJK-100)..............20
5. PROGRAMMING OF MultiCONT.................................................................. 21
5.1. S
TEPS OF PROGRAMMING
......................................................................... 22
5.1.1. Scrolling and selecting menu items ..................................................................23
5.1.2. Activation (of devices, relays and current outputs) selection
(of language and operation mode)....................................................................24
5.1.3. Assignment of outputs (relay and current) to the device .................................25
5.1.4. Entering parameter values................................................................................26
5.1.5. Editing character variables................................................................................27
5.2.
Steps of Commissioning a MultiCONT Network...............................................27
5.2.1. Preparation of the Transmitters and the Universal Interface Modules. ............28
5.2.1.1 Preparation of the Transmitters............................................................28
5.2.1.2 Preparing of the Universal Interface Modules......................................28
5.2.2. Wiring ............................................................................................................28
5.2.3. Commissioning the MultiCONT.........................................................................29
5.3. M
AIN MENU
..............................................................................................30
5.4. M
ULTI
CONT
CONFIGURATION
...................................................................31
5.4.1. DEV detect: .......................................................................................................32
5.4.2. EXT detect:........................................................................................................37
5.4.3. Display ............................................................................................................37
5.4.3.1 Source...................................................................................................38
5.4.3.2 Rounding ..............................................................................................39
5.4.3.3 Stepping................................................................................................39
5.4.4. List display.........................................................................................................40
5.4.5. User Display: .....................................................................................................41
5.4.5.1 Editing the user display ........................................................................41
5.4.5.2 The various user displays.....................................................................42
5.4.6. HART ............................................................................................................43
5.4.6.1 Short TAG.............................................................................................43
5.4.6.2 Short Address .......................................................................................44
5.4.6.3 Message ...............................................................................................44
5.4.6.4 Description............................................................................................44
5.4.6.5 Date ......................................................................................................45
5.4.6.6 Command Set.......................................................................................45
5.4.6.7 Retrial count..........................................................................................48
5.4.6.8 Cycle count ...........................................................................................48
5.4.6.9 Cycle time: ............................................................................................49
5.4.6.10 Test .................................................................................................51
5.4.6.11 Statistics................................................................................................52
5.4.7. USER RS485 ....................................................................................................52
5.4.8. Secret code .......................................................................................................53
5.4.9. Language ..........................................................................................................54
5.4.10. Background lighting...........................................................................................54
5.4.11. Report: ............................................................................................................55
5.4.12. Prog CS ............................................................................................................55
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5.5. P
ROGRAMMING
D
EVICES
.......................................................................... 56
5.6. R
EMOTE
P
ROGRAMMING
.......................................................................... 57
5.6.1. Editing the linearisation table ............................................................................59
5.7. R
ELAY
C
ONFIGURATION
........................................................................... 60
5.7.1. Relay Selection .................................................................................................60
5.7.2. Properties of the selected relay ........................................................................61
5.7.3. Relay programming...........................................................................................62
5.7.3.1 Source selection ...................................................................................62
5.7.3.2 Function................................................................................................62
5.7.3.3 Configuring parameters........................................................................65
5.7.3.4 Inversion ...............................................................................................66
5.7.3.5 Deleting TOT ........................................................................................66
5.7.3.6 Refreshing TOT ....................................................................................67
5.7.3.7 Testing ..................................................................................................67
5.8. O
PERATION AND
P
ARAMETERS OF
C
URRENT
O
UTPUTS
.............................. 69
5.8.1. Selection of Current outputs .............................................................................69
5.8.2. Properties of the selected Current Output ........................................................70
5.8.3. Current Output programming ............................................................................70
5.8.3.1 Source selection ...................................................................................70
5.8.3.2 Function................................................................................................71
5.8.3.3 Parameter configuration .......................................................................72
5.8.3.4 Testing ..................................................................................................72
5.9. T
HE
B
OOT
P
ROCESS
............................................................................... 73
5.10. M
EASUREMENT
M
ODES
........................................................................... 75
6. ERROR CODES............................................................................................. 76
7. HARDWARE PROTECTION OF SETTINGS ................................................ 78
8. FUSE REPLACEMENT ................................................................................. 79
9. SERVICING.................................................................................................... 80
9.1. B
OX
M
ESSAGES
:..................................................................................... 80
9.2. O
THER
M
ESSAGES
:................................................................................. 81
9.3. T
ROUBLESHOOTING
................................................................................. 82
9.3.1. It is impossible to enter the
„Main menu”/”Relays” or „Main menu”/„Current outputs” menu: ......................82
9.3.2. It is impossible to enter the „Main menu”/”Devices” menu: ..............................82
9.3.3. A „Please wait” message appears upon selecting „DEV detect”.....................82
The result of „DEV detect” is the „No device” message .................................................82
9.3.5. The unit does not start up when switched on ...................................................82
9.3.6. The „Response” error entry is too frequent.......................................................82
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9.4. A
DDITIONAL
I
NFORMATION
........................................................................83
9.4.1. Problems that may occur during remote programming: ...................................83
9.4.2. MultiCONT transmits the parameters without examining them, and the testing is done by the device. ..............................................................83
9.4.3. Use of Second HART Master
( Hand-Held or HART modem + Eview program )............................................83
9.4.4. Upon exiting remote programming, the unit tests to see if the transmitter really exited the remote programming mode ....................................................83
9.4.5. When a transmitter does not respond, then „Response” error is entered into the table, but upon termination of the error (the device responds), this entry is automatically cleared from the table
(and does not need to be acknowledged).........................................................83
9.4.6. Upon exiting the menu, MultiCONT immediately saves the modifications.......83
9.4.7. The error list is cleared when the device is put off ...........................................83
Appendix 1. ManufacturerID codes of HART-capable devices................... 84
Appendix 2 The menu system of the MultiCONT PRW-100 ........................ 85
Appendix 3 Relay programming .................................................................... 87
Appendix 4 Current output programming..................................................... 88
Appendix 5 Measurement mode .................................................................... 89
Thank you for choosing a NIVELCO instrument.
We are sure that you will be satisfied throughout its use!
1. INTRODUCTION
The MULTICONT unit is a universal interface between Nivelco’s HART-capable intelligent level transmitters and the other elements of the process control system like the PC-s , PLC-s, displays and the actuators. Besides its role as an interface, the MultiCONT ensures the powering of the 2-wire transmitters while being capable of complex control tasks. The MultiCONT units support communication with a maximum of 15 ordinary or 2 Ex certified Nivelco’s HART-capable 2- and / or 4-wire transmitters. Should a system contain more transmitters than one MultiCONT can handle, further MultiCONT units can be wired in series via an RS485 line. Remote programming of the transmitters and downloading of the parameters and measured data is possible using the MultiCONT. The various outputs such as 4 … 20 mA, relays and digital outputs can be controlled using measured values and new values calculated from the measured values.
Large DOT matrix LCD panel facilitate a wide variety of display functions including tank content visualisation. The type and number of outputs of the basic unit can be expanded with external (relay and/or current output) PJK-100 type Universal Interface Modules. The total number of relays included in the Multicont and in the modules must not be more than 64, while that of the analog outputs (4…20 mA outputs) can be maximum 16. A further restriction is that there can be a maximum of
32 Universal Interface Modules.
Explosion proof certified versions of the MultiCONT should be installed outside the hazardous area.
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1.1. T
HE
HART S
YSTEM
The HART (Highway Addressable Remote Transducer – bus addressable field devices) is a digital communication protocol developed by ROSEMOUNT for industrial measurement applications. A digital signal of small amplitude is placed on the widely used standard 4…20mA output current, and due to its symmetric sinusoidal nature and its small amplitude, it does not affect the accuracy of the output current. Since no extra cable is needed for signal transfer, the already existing cable can be used to realize the transfer. The identification, programming and querying of the transmitters can be done using this communication.
I [mA]
20 mA
This diagram shows the output signal of a
4…20mA transmitter (device) and the superimposed HART signal, which is essentially a
±0.5 mA modulation of the output current..
4 mA
I o
+ 0,5 mA
I
I o o
– 0,5 mA t
The enlarged picture shows that we are dealing with frequency modulation, and logical „1” is assigned to 1200 Hz, while „0” is assigned to
2200 Hz. This is called FSK modulation. The communication is realized with systematic series of impulses above described.
1 0
1.1.1. The Communication
The HART communication is basically a master-slave type, which means that the transmitter – slave – only sends a response when the master (of which there can only be one in the system) sends a query. The master can be a Hand-held Communicator, a PC with a HART modem or a universal interface, in this case, a
MultiCONT (naturally, only one can be active). The communication uses standard commands (see chapter 1.1.3)
1.1.2.
The structure of the system
The system must contain a 230..1000 Ω resistor to guarantee that the HART signal of small amplitude will not load the power supply of unknown output impedance.
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1.1.2.1 Point-to-point connection
When a master (communicator or HART modem with PC or MultiCONT) and a slave are alone in a system, we talk of a point-to-point connection
255
Ω
MultiCONT
+Us
Tx
I+
I–
L+
L–
SH
Universal interface
RS485
In this case the flowing current is the output current of the transmitters, so if permitted by the loop voltage, even a local indicator can be included into the loop.
Essentially, the minimal voltage specified in the manual must remain on the terminals of the transmitters.
Since the speed of transfer is 1200bit/sec, communication is slow, because the master queries and the slave responds. This can be speeded up if the querying is left out, and the slave responds continuously every given period of time until the master stops the transfer in the break between 2 data transmissions. This is called “burst mode”.
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1.1.2.2 Multipoint connection (Multidrop). Multiple slaves connected in parallel.
HART’s addressing system can handle 15 devices whereby they are wired in parallel. In this case, the current is the sum of the currents of all the devices in the loop, which is not of informative value. So in this case, the output current of the transmitters should be set to multidrop mode, which means a constant current of 4mA. This automatically happens when the polling address is set between 1..15. (if the polling address is 0, then we should have only one transmitter with 4…20mA output, if the polling address is 1…15, then we will have a constant 4mA). There is a deviation possibility for transmitters whose output current can be programmed to an arbitrary value exceptions, however, in this case, the minimal voltage drop on the terminal of the transmitters must be the minimum specified voltage, otherwise the transmitter(s) will not be able to work (measure or respond)
Tx 1
Tx 2
Tx 3
....
Tx 15
I+
I–
L+
L–
SH
255 Ω
MultiCONT
+Us
Universal interface
RS485
In a Multidrop system, the „burst mode” does not work
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1.1.3. Properties of HART-capable devices
These are programmed into the unit during manufacture, some can be configured using a HART MASTER, other cannot (they can be reconfigured only by the manufacturer)
Short TAG
Short address
Message
Descriptor
Date
Factory ID
Device type ID
Device ID
SW version ( Software version ):
HW version ( Hardware version ):
8 character device ID. Can be reconfigured.
Used to differentiate the 0…15 devices. There can’t be 2 identical „short addresses” in one system. Can be reconfigured
A max 32-character arbitrary comment that can be assigned to the device and is generally operation-related.
Can be reconfigured
A max 16-character arbitrary comment that can be assigned to the device and is generally material-related.
Can be reconfigured
Date. Can be assigned to the device. Can be reconfigured
Factory ID. For Nivelco devices this: 151, cannot be reconfigured
Device type ID, cannot be reconfigured
The manufacturer’s electronic production number, cannot be reconfigured
The Factory ID, the Device Type ID and the Device ID together form the “Long Address”.
Software version of the device (see device manual)
Hardware version of the device (see device manual)
Apart from this, they provide the specification of the HART version according to which the device’s commands work
1.1.4. HART Command set
We have seen how to build up a HART system. Using the HART commands, we can decide what the devices should do. Naturally, an ultrasonic transmitter needs commands different from those of a temperature transmitter or maybe a valve, so quite a large number of commands are needed. Every command has a one-byte identifier. The 31 st command is enables expansion, and in this case the next 2 bytes form the code of a command (0…65535). HART commands can be divided in to
3 classes:
• universal commands 0..30
• general commands 32..121
• device-specific commands 128..253
In all cases, the commands contain an address (this can be short, long address, TAG), which determines the corresponding device.
Two devices with the same addresses cannot be connected together.
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1.1.4.1 Universal commands
These are commands understood by all devices, and to which all devices give the same reply.
0.
Read unique identifier the addressed device provides the following in it’s reply:
– Manufacturer’s code (provided by the HART foundation, see appendix)
– Product code (provided by manufacturer, see chapter 5.2.1.1)
– Universal command table code ( HART 5 )
– Device ID
– Software version
– Hardware version
– Device status
1.
Read primary variable
This reads the digital value (Primary Value) that the transmitter sends to the 4…20 mA output.
The dimension (unit) also belongs to the numeric value.
2.
Read output current in mA and in %
3.
Read output current and four dynamic variables
The primary, secondary, tertiary and quaternary variables are transmitted.
The secondary, tertiary and quaternary variables are specified in the manual of the given device.
6.
Modify (short) polling address (Write polling address)
If there is more than one device in the loop (multidrop), each device must have a different address.
In this case, the address should be configured before connecting the device to avoid errors caused by devices with the same addresses replying at the same time.
11. Read unique device identifier associated with tag
Devices are queried based on their short TAG and not based on their addresses.
As a result, there must not be more than one device with exactly the same short TAG.
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12. Read device message (Read message)
This reads the 32 character message stored int he non-volatile memory of the device (e.g. T18 35% HCL TANK)
13. Reads 8 character short TAG, 16 character descriptor and date (Read tag, descriptor, date)
14. Read PV sensor information
15. Read output information
16. Read final assembly (serial) number
17. Writes 32 character message (Write message)
18. Write 8 character short TAG, 16 character descriptor and date (Write tag, descriptor, date)
19. Write final assembly number
1.1.4.2 General commands
These commands do not need to be understood by all devices. If not understood, nothing happpens, however, if understood, then it must be interpreted according to the standard. Many such commands exist, with the most important ones being:
−
−
−
−
−
−
−
−
−
34: damping (writing settling time)
35: measurement range (writing of upper and lower limits, and/or dimension)
36: Upper limit now! (sets the upper limit – 20 mA)
37: Lower limit now! (sets the lower limit – 4 mA)
40: setting constant current output (can be very useful during testing)
41: Device self-test, sends back the result.
42: Master reset (setting factory default)
50: Reading assignment status of the primary variable (PV), the secondary variable (SV), the tertiary variable (TV) and the quaternary variable (QV). This can not always be read unambiguously, in most cases it can be found in the manual of the device.
109: Switching „Burst” mode on and off.
1.1.4.3 Device –specific commands
These commands are specified by the manufacturer. A description of the commands can be found in the device manual.
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2. TECHNICAL DATA
T
YPE
Transmitter Power Supply
Display
Analogue
Relay
RS 485 interface
HART
T
ÍPUS
Power Supply, Relays, analogue 4 …
20 mA
RS 485 interface
HART line
Number of powered transmitters
Power supply /
Power consumption / max. power supply
Fuse
Housing material
Mounting
Ambient
Temperature
Ingress protection
Ex marking
P C, P D, P W
P H
Intrinsically safe output limitation data
Electrical protection
Mass
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P - 1 -
30 V DC / 60 mA (For Ex Version: 25 V DC / 22 mA)
128 x 64 dot-matrix
Max. 2 galvanically isolated 4 … 20 mA outputs, max load of 500 ohm, with over-voltage protection
Max. 4 SPDT , 250 V AC, AC1, 5 A
Galvanically isolated, HART protocol
Output signal level: 0.5 ±0.1 V pp
trapezoid 1200 / 2200 Hz
Minimum level of Input signal: 50 mV pp
Inbuilt sensor resistance: 255 ohm.
P - 1 -
0.5 … 2.5 mm 2 wire cross-section
Shielded, twisted cable pair with a cross section of 0.5 … 2.5 mm
2
Below1500 m shielded, twisted cable pair with a min.cross section of ∅0.5mm
Above 1500 m shielded, twisted cable pair, with a min. cross section of
∅0.8mm
max. resistance : 75 ohm, max.capacitance : 200 nF
Max. 15 non-Ex (max. 4 Ex) transmitters
85 … 255 V AC 50 … 60 Hz / 12 VA / 255 V eff
11.4 … 28 V AC 50 … 60 Hz / 12 VA / 28 V eff
11.4 … 40 V DC / 11 W / 40 V DC
85 … 255 V AC 50 … 60 Hz T400 mA
11.4 … 28 V AC 50 … 60 Hz és 11,4 … 40 V DC T1A
Polycarbonate (PC)
Wall mounted
-20 °C … +50 °C
-30 °C … +50 °C
IP 65
II (1) G [EEx ia] IIB
U o
= 30 V I o
L o
= 140 mA P
= 4 mH C o o
= 1 W
= 200 nF
Class I / III
0,9 kg
2.1. A
CCESSORIES
•
Certificate of Warranty
•
User’s and Programming manual
3. ORDER CODE
•
Declaration of Conformity
•
2 universal cable gland sealings
MultiCONT P
E
XPANSION
C
ODE
E
NCLOSURE
Standard *
Non
Expandable
R
E
IP 65 wall enclosure
IP 65 wall enclosure + transparent cover
IP 65 wall enclosure + loackable transparent cover
IP 65 wall enclosure + loackable transparent cover + heating
C
ODE
I
NPUT
W
C
1 HART unit
2 HART units
4 HART units
8 HART units
D
15 HART units
H**
– 1 –
K
ÓD
O
UTPUT
4
8
1
2
M
Display only
1 relay
2 relay
3 relay
4 relay
1 relay + 1 4…20 mA
Analogue output
2 relays + 1 4…20 mA
Analogue output
3 relays + 1 4…20 mA
Analogue output
4 relays + 1 4…20 mA
Analogue output
4 relays + 2 4…20 mA
Analogue output
RS 485 interface
RS 485 + 1 4…20 mA
C
ODE
P
OWER
S
UPPLY
C
ODE
2
3
0
1
85 … 255 V AC
24 V AC / DC
85 … 255 V AC Ex
24 V AC / DC Ex
5
6
1
2
4
Ex: EEx ia
5
6
7
8
9
A
B
The order code of an Ex version should end in „Ex”.
* The system can be expanded using Relay, Analogue and Combined Modules.
** Under development
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3.1. D
IMENSIONS
A B
166
B C
A Pg9 or M16
B Pg11 or M20
C Pg11, Pg13.5 or M20
A B
193
B C
A Pg9 or M16
C Pg11, Pg13.5 or M20
P W
R
IrDA
T
ESC OK
P C, P D, P H
75.5
R 2.5
∅ 1
0
75.5
R
2.
7
A
RRANGEMENT OF
M
OUNTING
H
OLES
R
IrDA
T
P C, P D, P H
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P W
3.2. C
ONDITIONS OF USE OF THE
E
X UNITS
•
The units should be mounted outside the hazardous zone!
•
Device should be protected against direct sunshine!
•
The power supply and ambient temperature values must not exceed those specified in the Technical data!
•
Transmitters installed in hazardous areas must only be connected to the L+ and L- terminals
•
The housing of the transmitter must be grounded!
•
The transmitters must be connected using shielded, twisted cable pairs!
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4. ELECTRICAL CONNECTION
4.1. A
RRANGEMENT OF THE
C
ABLE
T
ERMINALS
MAINS
85 ... 255V
AC
11.4 ... 40V
11.4 ... 28V
DC
AC
1 2
( ) ( )
3
4
RELAY 1
7
5
8
RELAY 2
6
9
RELAY 3
10 11 12
13 14 15
RELAY 4
CURRENT
OUT 1
16 17
18 19
CURRENT
OUT 2
USER RS485
A B COM
20 21 22
23 24 25
A B COM
MODULE RS485
DEVICES
L + L SH
26 27 28
After loosening and removing screws fastening the cover the cables can be connected. The same cable should not be used for AC and DC as well for SELV and mains voltage.
For wiring of the transmitters shielded, twisted cable pair (STP) should be used with the length depending on the number of connected units and the electrical properties of cable.
RS485 interface: A:
B:
TRD+
TRD–
COM: shielding
Number of
Transmitters
1
5
10
15
65
2800
2500
2200
1850
Cabel Capacitance (pF / m)
95 160
2000 1300
225
1000
1800
1600
1400
1100
1000
900
900
800
700
Shielding of the connecting cable between the transmitter and the controller should be grounded at one end, connected either to the internal or external part of the earthing screw.
Intrinsically safe (Ex) transmitters should be connected through the terminals L+, L– to the controller. These points are galvanically isolated from the other parts of the electronics. The output current, voltage and power are constrained power supply for the Ex transmitter is current-, voltage- and power-limited.
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4.2. W
IRING
4.2.1. Transmitter connection (wiring)
Before wiring, please check: if the units (order codes) are HART-capable, the value of the loop current and also if there are two or more units with the same
“Short address”. (See 5.2. Steps of commissioning)
4.2.1.1 Wiring of 2-wire units (transmitters)
Tx 1
Tx 2
Tx 3
Tx N
Shielding grounded at the MultiCONT
Shielded twisted cable pair
I+
I–
In non-Ex versions only
L+
L–
SH
250 Ω
MultiCONT
+Us
Universal interface
RS485
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4.2.1.2 Wiring of 4-wire units (transmitters with separate power supply)
Tx 1
Tx 2
Tx 3
Shielded twisted cable pair
I+
I–
Tx 15
85...255 VAC
11,4...28 VAC
11,4...40 VDC
Shielding grounded at the MultiCONT
MultiCONT
L–
SH
250 Ω
Universal interface
RS485
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4.2.1.3 Wiring of Combined Systems (containing both 2- and 4-wire transmitters)
Tx 1
Tx 2
Tx 3
Shielded twisted cable pair
Shielding grounded at MultiCONT
Tx N
I+
I–
I+
I–
L+
L–
SH
250
Ω
MultiCONT
+Us
85...255 VAC
11,4...28 VAC
11,4...40 VDC
Universal interface
RS485
Shielded twisted cable pair
Tx 1
Tx M
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4.2.2. Wiring of Universal Interface Modules (UIM-s; order code: PJK-100)
Connection with shielded twisted pair cable, shielding is grounded at one point, at the MultiCONT.
The terminal resistor is connected to the two farthest points of the cable. (TB and B terminals are connected in PJK 100; and on the MultiCONT the K2 terminal resistor, located next to the terminals, is switched on.)
K2: terminal resistor
ON OFF
K2
R
IrDA
T
Module RS485
A B COM
24VDC
TB B A
PJK-102
relay module
24VDC
TB B A
PJK-120
4-20 mA module
24VDC
TB B A
PJK-111
relay + 4-20 mA module
The most important rule is that the data transfer line has to be closed at both ends with a resistor, at points farthest from each other. The value of the terminal resistor depends ont he wave impedance of the connecting cable. The interface contains a 120
Ω terminal resistor, so please use a cable with appropriate impedance.
A configuration, whereby there aren’t 2 terminal resistors, or where the 2 terminal resistors are not at the farthest points from each other is a bad configuration. In such cases, especially if the data transfer cable is too long, data transfer errors are likely occur.
The Universal Interface Modules should be connected one after another on a cable pair. Star-shaped topology is forbidden. The maximum length of the cable 1000m, but in this case a cable with shielded, twisted pair of wires (STP, Shilded Twisted Pair) must be used. The capacitance of the cable should be less than 100 pF/m.
The Universal Interface Modules connected to a system must each be given different addresses (0…31), see 5.2.1.2.
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5. PROGRAMMING OF MultiCONT
During programming the following can be performed:
−
Automatic detection of devices (transmitters) connected to the MultiCONT, and putting them into the list of devices. Devices not on the list are part of the system but are unable to communicate with the MultiCONT (see 5.2.3 Main menu / MultiCONT config / DEV detect).
−
Activation, inactivation of devices (transmitters) (See 5.2.3 Main menu / Devices).Theoretically all devices in the system should be working. (whether in the list or not). Devices in the list automatically become active. Inactivation can be used to temporarily disable devices from the system.
−
−
Activation, inactivation of relays and current outputs (see Attachment 3 and 4)
Relays and current generators of the MultiCONT should also be activated (see Attachment 3 and 4)
Assignment of the MultiCONT outputs (relays, current outputs) to devices (transmitters)
−
−
Formation of functional values (difference of 2 measured values, sum or average of 2 or more measured values)
Remote programming of devices, although it is practical to program the devices in the laboratory before installation and wiring.
(parameters of the transmitters e.g. P01, P02, etc. will be used in this Manual in the same way as described in the Installation and User’s Manual)
−
Programming of MultiCONT outputs (Relay and current output parameters of the MultiCONT will be identified as RP1, RP2, RP3 and CR1, CR2,
CR3 respectively).
The programming of systems involving the MultiCONT universal interface assumes a sound knowledge of both the HART standard and the
programming of the connected devices.
During programming full scale of operation such as polling of devices, functioning of the relays and current outputs will be maintained.
Modifications will be automatically saved upon returning back to measurement mode.
If the MultiCONT is left in Programming Mode, it will automatically return to measurement 5 minutes after the last key was pressed (modifications will be saved!).
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5.1. S
TEPS OF PROGRAMMING
Programming can be done using the 6 programming keys with the help of the 128x64 point graphic screen. There are three different kinds of images
− Measurement / operation images (marked with capital letters in the upper right corner
(Appendix 5):
M Measurement, see 5.10 Measurement mode
Bargraph image (output range)
U User image, see 5.4 MultiCONT configuration
R Relay assignment table
C Current output assignment table
E Error list, see 6. Error codes
− programming
and: configuration images
Selected menu point
Name of the menu
Main menu
05
Devices
Relays
Current generators
Number of menu table
No further menu points
Further menu points down the line
Further menu points up and down the line
Further menu points up the line
− Box messages / warnings indicate steps taken by the unit or those to be performed:
Scanning HART line
Device: 3
HART logical error
Click OK
See a summary of the programming below. A complete menu system is in Appendix 2. The relevant menu item and the valueor character to be edited appears in a highlighted form.
The and
and are used to select options within the menu. The buttons are repetitive i.e. steadily pressing the button results in continuous stepping (the menu repeats at the end).
Programming mode can be entered and a menu item can be selected by pressing and exited by pressing .
buttons are used for editing parameters with numbers or text, selection of local values or for character positioning and for selection in some sub-menus (e.g. Relay functions). Repeating function keys and are used for scrolling numbers and characters when editing parameters with numbers or text. (These two buttons are dual-functional - steady pressing results in continuous stepping up-down and in jumping to the beginning at the end). Use to acknowledge (quit) error messages (deletion of the error list).
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5.1.1. Scrolling and selecting menu items
The various measuring modes (M, B, U, R, C, E) can be selected using and
and
the Main menu can be entered and left respectively.
The desired menu item can be selected using
and (repetitive functioning i.e. steady pressing results in continuous stepping and in jumping to the beginning at the end).
1: SE300-1
3.125 m
2: Errors: 2
M 123456789ABDCDEF R
R1
R2
R3
Error report 6 E
01: SE300-1: Reply
02: SE300-2: Sensor
Main menu
605
Devices
Relays
Current outs
:
:
Default config
Restart
Relays 6 18
01: R_IN_1
02: R_IN_2
03: R_IN_3
01: R_IN_1
Programming
Info
Short TAG
ID
6 19
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5.1.2. Activation (of devices, relays and current outputs) selection (of language and operation mode)
Devices on the list may be active ( ) or inactive ( ). Only active devices will be queried. Active relays and current outputs would operate according to their configuration, inactive relays are de-energized while inactive current outputs remain 0 mA.
Relays 6 18
01: R_IN_1
02: R_IN_2
03: R_IN_3
:
No active relay.
to switch between active and inactive relay states.
or or
Use and / or
Selection of the various modes (Relay mode, current output mode, language, etc.) is done similarly.
Relays 6 18
01: R_IN_1
02: R_IN_2
03: R_IN_3
:
R_IN_1 is active
Language
5 43
German
French
Hungarian
After selection, the chosen language is automatically activated.
English
German
French or
Language
English
6 43
German
French
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5.1.3. Assignment of outputs (relay and current) to the device
During configuration, the relays and current outputs should be assigned to the field devices and to their variables (PV, SV, TV, QV):
-
-
-
Value has a positive sign (for summation)
Value has a negative sign (for differential measurement)
Values form devices marked this way will be averaged
The above settings can be changed using and .
Assignment of device SE380-1 to the relay R_IN_1 in the MultiCONT should be performed as below:
01: R_IN_1
Program
Info
ID
19 Programming
Source
Function
:
20 Source
1: SE380-1
2: SE380-2
21
:
Source
1: SE380-1
2: SE380-2
21
:
PV
SV
TV
QV
657
Source
1: SE380-1
2: SE380-2
:
21
Relay R_IN_1 is controlled by the difference of the measured values of SE380-1 and SE380-2
Source
1: SE380-1
2: SE380-2
:
21
Relay R_IN_1 is controlled by the average of the measured values of SE380-1, SE380-2 and SE360-1
Important: If there are more than one devices (sources) assigned to a relay (difference or average) then those devices should be programmed to measure the same parameter (DIST, LEV, ...) in the same engineering unit (m, ft, inch, ...)
Otherwise we would receive an error message (Program). See 5.7, 5.8 and 6.
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5.1.4. Entering parameter values
Parameters have signs and absolute values. Positioning the cursor to the sign and digits can be done using
and are for modifying the value of either the sign or the digit.
Switching between the (+) and (-) signs
Parameter 23
RP1 = + 0000.000
RP2 = 0.000
RP3 = 0
Parameter 23
RP1 = – 0000.000
RP2 = 0.000
RP3 = 0
Parameter 23
RP1 = + 0000.000
RP2 = 0.000
RP3 = 0
Changing cursor position
Parameter 23
RP2 = 0.000
RP3 = 0
Modifying the value of the digit (no carry-over)
Parameter 23
RP1 = + 0000.000
RP2 = 0.000
RP3 = 0
Parameter 23
RP2 = 0.000
RP3 = 0
can be used to quit without saving.
To save the parameters, press
after RP3.
.
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5.1.5. Editing character variables
Scrolling order of staves:
ABCDEFGHIJKLMNOPQRSTUVWXYZ [ \ ] ^ _ ! ” # $ % & ’ ( ) * + , - . / 0123456789 : ; < = > ? @
The character being edited is displayed in INVERTED mode.
Short TAG 09
S T 3 0 0 - 1 2
Short TAG 09
5.2. S
TEPS OF
C
OMMISSIONING A
M
ULTI
CONT N
ETWORK
Steps of commissioning:
•
Preparing transmitters and Universal Interface Modules. (see chapter 5.2.1) Transmitters should be given a unique „Short address”. If there are multiple transmitters, then the addres should not be zero!
• Placement of devices in the loop into the device list. See chapter 5.2.3
•
Configuration of the state of the transmitters. Devices (transmitters) placed in the device list during the detection process automatically become active i.e. the MultiCONT queries them constantly. This can be avoided by setting their state to be inactive (see chapter 5.2.3)
•
Detecting Universal Interface Modules: The detected modules (relays, current outputs) become inactive, meaning that MultiCONT does not control them.
•
Relay configuration: The relay should be assigned to one or more transmitters (sources), the mode of operation (function) should be specified, the switching points should be configured (parameters RP1…RP3), and then it should finally be activated. See chapter 5.7.
•
Current output configuration: Similar to the relay configuration, see chapter 5.8.
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5.2.1. Preparation of the Transmitters and the Universal Interface Modules.
5.2.1.1 Preparation of the Transmitters
During this process, under laboratory conditions it is recommended to cross-check the “Short address” (P19 or P13, see table to the right) and the configuration of the current outputs of the transmitters. The loop current of the ordinary MultiCONT
(non-Ex) is max. 60 mA, and is max. 22 mA for the Ex certified version. If the loop current exceeds this value the voltage at the terminals of the transmitters will be too low for the transmitters to start to work. In networks with more than one field device the
short addresses of the units should be set between 1 … 15 and then the current of the transmitters will be automatically limited to
4mA. This value can be overwritten in the constant current output configuration parameter (Parameter P08, see table to the right).
The point is that the loop current must not exceed the given limits.
A further condition of proper operation is that 2 or more devices cannot have the same “Short Addresses”.
D
EVICE
T
YPE
EchoTREK 4 wire
EchoTREK 2 wire
EasyTREK
NIVOCAP
NIVOTRACK
NIVOPRESS
UNICONT
THERMOCONT
data for NIVELCO made devices
„
SHORT
ADDRESS
”
C
ONSTANT CURR
.
PARAMETER
D
EVICE
TYPE
ID
P19 P08
1
3, 4
2
5
6
21
22, 23
P13
20
D
EFAULT
„S
HORT
TAG”
X X X X X X
where xxxxxx is the order or type code of the transmitter e.g.: STA380
DB500
PDF400
TB500
5.2.1.2 Preparing of the Universal Interface Modules
The Multicont can be expanded by a maximum of 32 Universal Interface
Modules. They can be differentiated from each other using their „Short
Addresses”. Two or more modules with the same address must not be in one system. Configuration is possible using the row of DIP switches that can be found on the top of the modules (0…31).
ADDR.
4
8
16
1
2
ON OFF
Example for setting the address:
4+8=12, this is the „Short Address” of the module.
5.2.2. Wiring
Wiring has to be done according to the previous instructions (See chapters 2. Technical Data and 4.1 Arrangement of cable terminals)
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5.2.3. Commissioning the MultiCONT
Switching on initiates a test process, during which MultiCONT tests the integrity of the memory where its settings are stored (See 5.9 The Boot Process)
This 50 sec lasting process can be accelerated (to about. 10 sec) by pressing key ESC
If everything goes perfectly, then the following
No HART device message appears on the screen, implying that the device table - the object of the query - is empty.
To choose a programming Language (English, German, French, Hungarian) select the Language menu item under ”Main menu”/”MultiCONT
config”/”Lanquage” using the
↑ and ↓ buttons and confirm it using the → button. From here on, the device will function using the selected language.
To detect devices in the loop select the ”Main menu”/”MultiCONT config”/” DEV detect” program.
IT IS ESSENTIAL not to confuse the Short address with the List-tag of the units. In order to make is possible to search and identify HART-capable devices, it is necessary to assign short addresses ranging from 1 …. 15 to the devices during their (laboratory) programming. MultiCONT however registers the devices on the basis of the List-tags ranging from 1, … 8, 9, A, B, … F.
At this stage configure the settings specific to the functioning of the system (display, lighting, etc.) under “Main menu” / “MultiCONT config”. See chapter
5.4.
Relays (See chapter 5.7) and current outputs (see chapter 5.8) should be programmed in accordance with the requirements of the application.
Settings can be protected via “Main menu”/“MultiCONT config”/”Password” with a secret code (software protection) and by using the program protection switch K1 (hardware protection) on the back of the front board (see chapter 7).
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5.3. M
AIN MENU
The Main menu can always be accessed from measurement mode by pressing OK.
Main menu
Devices
601
Relays
Current outs
Inputs
UIM-s
MultiCONT conf.
Default config
Restart
The structure of the menu (Appendix 2)
Setting features of devices (see chapter 5.5)
Programming relay mode of operation and parameters (see chapter 5.7)
Programming current generator mode of operation and parameters (see chapter 5.8)
External modules
Programming of parameters affecting operation (see chapter 5.4)
Reset to default. Clears device list, relay and current output parameters, assignments and resets the parameters of "MultiCONT conf."
Does not clear the switching number and work time.
The steps in 5.2.3 have to be repeated (MultiCONT comissioning).
Simulate repowering ( RESET )
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5.4. M
ULTI
CONT
CONFIGURATION
The selected menu item appears in inverted mode on the display, and is marked in grey in this manual.
Main menu
05
Devices
Relays
Current outs
Inputs
UIM-s
MultiCONT config
Default config.
Restart
MultiCONT conf.
DEV detect
635
EXT detect
Sorting
Main display
List display
User display
Trend
HART
USER RS485
LOG
Password
Language
Backlight
Clock
Report
Prog CS
Select menu items using and buttons
Enter by pressing
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5.4.1. DEV detect:
Queries the transmitters via HART line from 0 to 15, and lists them with 1…9, A, B, C, D, E, F tag.
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<
MultiCONT detects devices by means of the Short address (that is why two or more devices must not have the same Short address)
After detection however, query will be performed using the Long address that consists of the following three parts.
−
−
−
Manufacturer’s ID: (See APPENDIX 1. At the end of the Manual (for Nivelco products it is:151)
Device type ID: (See table under 5.2.1.1 Preparation of transmitters)
Device ID: number generated during production (0…16777215)
When detection stops with the „Same Long address” error message there are two ways to identify the devices with the same Long address
−
−
Devices should be removed one by one until DEV detect program can run to completion
Obviously the address one of those devices remained in the loop is the same as the address of the unit last removed.
Then reconnecting the devices one by one again, after detection, the Factory ID, Device Type ID, and Device ID can be read in from the “Main menu”/”Devices” menu item (See chapter 5.5 programming devices)
The Long addresses of the transmitters can be read using the Eview configuration software (preset to work with Short Addresses) provided with HART capable devices
Since the Long address can not be modified please send such a unit back to the manufacturer, or call our Export Department for help.
Question: what happens if the MultiCONT does not find all the devices?
1.
2.
One of the transmitters is not HART-capable. Check the transmitter type on the name plate.
There are more devices in the system than the given MultiCONT can handle (..this depends on the type, see chapter 3 Order Code). The number of devices that can be handled can be read in the “Main menu”/”MultiCONT config”/”Report”/”Devices” menu item (See chapter 5.4.). The interpretation of this 0nn/0mm number format is the following: “nn” is the number of devices listed and “mm” is the number of devices that can be handled (this depends on the type code, chapter 3 Order Code). In such a case where it detects more than “mm” devices, these will not be displayed in the list.
Faulty device. Dismount the unit and check it in the workshop .
3.
4.
5.
6.
Faulty wiring connection
The terminal voltage of the unit is small, check the configuration of the current outputs of the transmitters (See chapter 5.2.1.1 preparation of transmitters)
The device does not respond
-
Is there any voltage between terminals L+ and SH? If no, then the output is faulty
-
If there is voltage between terminals L+ and SH, then check if the terminals L+ and SH are short-circuited or if there is an open-circuit between the terminals L+ and L-.
Then, the next steps will be adding the device to the list, and setting the device.
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Searching result may be the following:
No HART device
Press OK
No device was found in the loop.
DEV detect
37
1: ST-300 (01)
2: SEA-360 (- -)
- - - - > SAVE < - - - -
3: SEA-360 (07)
4: SPA-380 (08)
The devices above the --- SAVE--- line are the ones included in the list. This list is empty if the unit is either newly manufactured or if reset („Mainmenu”/”Default”). The units under this line are not int he list, but have responded to a query. The „Short Address” (Polling Address) appears in brackets. Whereby a unit in the list responds, the „Short
Address” will appear in brackets, otherwise a (--) will appear instead.
Upon selecting any unit that has responded (either above or below the line) an pressing „OK”, the „Short Tag” can be changed.
MultiCONT only handles units above the line.
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−
−
−
Reorganising the list can be done in the following manner:
Select the unit using „
↑” and „↓”
Press to move the unit to the end of the list at the other side of the line
Selecting the SAVE line saves the list above the SAVE line.
DEV detect
37
1: ST-300 (01)
2: SEA-360 (- -)
- - - - > SAVE < - - - -
3: SEA-360 (07)
4: SPA-380 (08)
2: SEA-360
ST300
38
„Short TAG” can be changed
DEV detect
37
1: ST-300 (01)
2: SEA-360 (- -)
- - - - > SAVE < - - - -
3: SEA-360 (07)
4: SPA-380 (08)
DEV detect
37
1: ST-300 (01)
- - - - > SAVE < - - - -
2: SEA-360 (07)
3: SPA-380 (08)
4: SEA-360 (- -)
The units in the saved list automatically become active!!
List saved
Press OK
Saving the list above the ----> SAVE <---- line
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In ideal cases, the detection process takes a few seconds.
If the HART line is noisy, and the retrial count is big, then this time can increase to 25…40 seconds.
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5.4.2. EXT detect:
For detection of, external expansion (Relays, Current Output, or Combined) modules If available
The query process is similar to that of the EXT detect mode, the only difference being that the modules that get into the list remain in an inactive state.
(See 5.2.3 Commisioning the MultiCONT)
5.4.3. Display
The display consists of 3 parts: „Main field”, „List field” és „State field” See 5.10 .
Amongst these, the „Main field” and „List field” can be freely selected for each device.
The quantity to be displayed and the rounding of the decimal part can be set in the „Main image”.
This is where to configure the stepping of the results of the transmitters on the display.
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5.4.3.1 Source
The quantity to be displayed in the “Main image” can be selected independently for each transmitter. Cross-check your selection in “Main menu”/”MultiCONT config.”/”HART”/”CommandSet”, to confirm the selection of the appropriate command containing the desired quantity.
Main display
Source
Rounding
55
Source
1: SE380
2: SE360
: x: ST340
56
2: SE360
PV
SV
TV
QV
Current
Level
Level%
TOT1
TOT2
Status
6 42
* We can only talk about the output current, as a display quantity, if there is only one device in the system,
And if the „Short Address” is zero, i.e., if the current output is not constant.
Primary Value
Secondary Value
Tertiary Value
Quaternary Value
Current out of the transmitter*
Level
Level in %
TOT1 and TOT2 Totalizer Values during flow measurement
Status of the device
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5.4.3.2 Rounding
The MultiCONT by default rounds to 4 decimal places i.e., the quantity is displayed with precision of 4 decimals.
The rounding is for the main image quantity only.
Main display
Source
Rounding
55
Rounding
1: SE380
2: SE360
: x: ST340
70
SE360 x.xxxx
x.xxx
x.xx
x.x
59
5.4.3.3 Stepping
Stepping is related to the display only. The query of the transmitters and the control of the relays and current outputs functions constantly in the background, depending on the cycle time ( „Main menu”/”MultiCONT config.”/”HART”/”Cycle time”)
Main display
Source
Rounding
55
Step
Manual
Auto step 5s
Polled
48 manual stepping of the devices on the display using and automatic stepping at 2 different speeds refreshes the display after quering the device
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5.4.4. List display
Max. three quantities can be selected.
List display
Source
Rounding
60
Source
1: SE380
2: SE360
: x: ST340
61
2: SE360
PV
SV
TV
QV
Current
Level
Level%
TOT1
TOT2
Status
6 62
* We can only talk about the output current, as a display quantity, if there is only one device in the system,
And if the „Short Address” is zero, i.e., if the current output is not constant.
Primary Value
Secondary Value
Tertiary Value
Quaternary Value
Current out of the transmitter*
Level
Level in %
TOT1 and TOT2 Totalizer Values during flow measurement
Status of the device
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5.4.5. User Display:
In measuring mode (See chapter 5.10) the user can select a display format besides the display showing the measured data and this can be seen in the user display. We will receive an error message in the use’s image if:
- Only one device is selected to display double, difference or average.
- In the case of difference or average display for given transmitters, the values or dimensions are different.
5.4.5.1 Editing the user display
User display
Type
:
63
Type
Multiple
Difference
Average
6 51
Multiple
1: SPA-441
2: SEA-380
52
SPA-441
PV
SV
TV
QV
65
Difference
1: SPA-441
2: SEA-380
52
SPA-441
PV
SV
TV
QV
65
Average
1: SPA-441
2: SEA-380
4: SPA-380
52
SPA-441
PV
SV
TV
QV
65
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5.4.5.2 The various user displays
–
Multiple
1: SPA-441 LEV
SV=
12.45 m
3: SPA-360 VOL
SV=
125.3 m3
U
Bargraph / Output range
–
Difference
1: SPA-360 LEV
+PV=
12.45 m
3: SPA-441 LEV
-PV =
15.32 m
–2.87 m
U difference of SPA-360 and SPA-441
–
Average
List number of devices whose average value is calculated by MultiCONT
U
A: 134
3: SPA-380 LEV
15.32 m
3.19 m
The measurment results of the selected devices can be stepped using
and the calculated average
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5.4.6. HART
In this menu, it is possible to configure MultiCONT properties, the settings related to the transmitter query and also to choose the HART commands which the
MultiCONT uses to communicate with the devices. This is also where it is possible to test the HART line and view the statistics.
HART
Short TAG
Short address
Message
Description
Date
Command set
Retrial count
Cycle count
Cycle time
Debug
Statistics
68
MultiCONT properties
Device query speed, in case of an error, the retrial count and error display delay hardware test of the HART line
Number of transmitted requests and received responses
5.4.6.1 Short TAG
Arbitrary 8-character identifier
Short TAG 54
P-100
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5.4.6.2 Short Address
If multiple MultiCONT-s are to be connected to a single system via RS485, then this address differentiates them.
Short address 54
00
5.4.6.3 Message
An arbitrary message (usually related to the operation, and max 32 characters) can be assigned to a device.
To Switch rows use „OK” and „ESC”.
Message 54
MULTICONT PROCESS
CONTROLLER
5.4.6.4 Description
An arbitrary text that can be assigned to a device ( max 16 characters )
Description 54
MULTICONT P-100
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5.4.6.5 Date
The date assigned to the MultiCONT
Date 54
1900.00.00.
5.4.6.6 Command Set
Command set
1: SE360
2: ST380
66
3: SE380
COM1
COM2
NIV128
NIV129
NIV149
67
The communication between the MultiCONT and the devices is via different commands. The MultiCONT sends a command containing the address of the device, which responds in accordance with the standards. Some of the commands are universal, while others are device-specific. The appropriate commands have to be chosen based on the data required to control the display, relays, and current outputs. If multiple commands are selected, then the refresh time increases (display, relay, and output current modification, see 5.4.3.8)
MultiCONT uses the following commands to communicate with the devices.
- COM1: query of primary quantities/values
- COM2: the output current in mA-ben and in % (output range)
- COM3: the primary, secondary, tertiary and quaternary values
These commands can be interpreted by any device belonging to any manufacturer.
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The commands below can only be interpreted by Nivelco products:
- NIV128: device specific command optimalized for DIST, LEV, VOL measurements
- NIV129: device specific command optimalized for DIST, LEV, FLOW, TOT1, TOT2 measurements, TOT1 és TOT2 in float format
- NIV149: device specific command optimalized for LEV, FLOW, TOT1, TOT2 measurements, TOT1 és TOT2 in integer format
The table below shows the contents of the responses of Nivelco-manufactured devices to given commands:
COM3: 03 Universal HART command
EchoTREK 4-wire.
EasyTREK
P01 PV SV TV
0
DIST
LEV
1
LEV
2
LE%
3
VOL
LEV
LEV
LEV
4
VO%
LEV
5
FLO
LEV
QV
EchoTREK 2-wire.
EasyTREK
PV SV TV QV
NIVOTRACK
PV SV TV QV
NIVOCAP
PV SV
DIST Temp
DIST
Temp -
DIST
Temp -
%
DIST Temp
LEV
DIST Temp
DIST Temp
LE%
LEV DIST
-
Temp
LEV
LE%
DIST
LEV
Temp
DIST
-
Temp
LEV
LE%
DIST Temp
VOL
LEV DIST Temp
VOL
LEV DIST Temp
VOL
DIST Temp
VO%
LEV DIST Temp
VO%
LEV DIST Temp
VO%
LEV
DIST Temp
FLO
LEV DIST Temp -
-
%
LEV
LEV
TV
-
-
%
%
%
-
NIVOPRESS
P10 PV SV
0
1
2
3
P*
P*
LEV
LEV
-
-
P*
P*
TV
-
-
-
-
QV
-
-
-
-
UNICONT
PV
Prog**
Prog**
Prog**
Prog**
SV
I
I be
I be
I be be
TV
-
-
-
-
QV
-
-
-
-
PV
THERMOCONT
SV
Temp
Temp
-
-
-
-
-
-
TV
-
-
-
-
QV
-
-
-
-
PV
* P: pressure
** Prog: the value calculated by the device from the input current ( I be
).
During configuration, it is necessary to set the value ( pl. 4 mA=0 m 3 , 20mA = 125 m 3 ) coresponding to the incoming 4…20mA ( I be
)
SV TV
QV
-
-
-
-
-
-
QV
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NIV128: NIVELCO device specific commands optimized for VOL measurement
EchoTREK 4-wire.
EasyTREK
P01 PV Base 3. Pos. 4. Pos PV
EchoTREK 2-wire.
EasyTREK
Base 3. Pos. 4. Pos PV
0
1
3
5
DIST
LEV
2
LE%
VOL
LEV
LEV
LEV
LEV
4
VO%
LEV
FLO
LEV
SR*
SR
SR
SR
SR
SR
Curr.
Curr.
DIST
Curr.
LEV
Curr.
VOL
FLO
LEV
LEV
Curr.
LE%
LEV
LEV
Curr.
VO%
LEV
LEV
SR
SR
SR
SR
SR
SR
NIVOTRACK NIVOCAP
Base 3. Pos. 4. Pos PV
Curr.
DIST
LEV
Curr.
LEV
Curr.
LE%
LEV
LEV
Curr.
VOL
LEV
Curr.
VO%
LEV
Curr.
-
-
SR
SR
SR
SR
SR
-
Curr.
%
Curr.
LEV
Curr.
LE%
Base
LEV
LEV
LEV
Curr.
VOL
LEV
Curr.
VO%
LEV
-
3. Pos. 4. Pos.
0
0
0
0
0
-
Curr.
Curr.
Curr.
Curr.
Curr.
-
* SR (sensor range): Value of the difference in level between the „Maximum range” ( H=P04 ) and the „Minimum range” (dead zone-near blocking) in %
(empty tank: DIST=H
⇒ 0%, full tank: DIST=”Minimum range” ⇒ 100% ). The bargraph is necessary for display.
NIV129: NIVELCO device specific commands optimized for FLOW measurement
(TOT1 and TOT2 in float format)
P01 PV
EchoTREK 4-wire
EasyTREK
Base 3. Pos. 4. Pos PV
EchoTREK 2-wire
EasyTREK
Base 3. Pos. 4. Pos PV
NIVOTRACK
Base 3. Pos. 4. Pos PV
0
DIST
1
LEV
2
LE%
3
VOL
LEV
LEV
TOT1
TOT1
TOT2
TOT2
DIST
LEV TOT1 TOT2
LEV
VOL
LEV
LEV
TOT1
TOT1
TOT2
TOT2
DIST
LEV TOT1 TOT2
LEV
LEV TOT1 TOT2
LE%
LEV TOT1 TOT2
LE%
VOL
LEV
LEV
LEV
LEV
4
VO%
LEV TOT1 TOT2
VO%
LEV TOT1 TOT2
VO%
LEV
5
FLO
LEV TOT1 TOT2
FLO
LEV TOT1 TOT2
-
-
0
0
0
0
0
-
0
0
0
0
0
-
NIVOCAP
Base
%
LEV
LE%
VOL
VO%
LEV
-
LEV
LEV
LEV
LEV
3. Pos. 4. Pos
0
0
0
0
0
-
0
0
0
0
0
-
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NIV149: NIVELCO device specific commands optimized for FLOW measurement
( TOT1 and TOT2 integer part )
EchoTREK 4-wire
EasyTREK
Base 3. Pos. 4. Pos PV
EchoTREK 2-wire
EasyTREK
Base 3. Pos. 4. Pos PV
NIVOTRACK NIVOCAP
P01 PV Base 3. Pos. 4. Pos PV
0
DIST
LEV TOT1 TOT2
DIST
1
LEV
2
LE%
LEV
LEV
TOT1
TOT1
TOT2
TOT2
LEV
LE%
LEV TOT1 TOT2
DIST
LEV TOT1 TOT2
LEV
LEV TOT1 TOT2
LE%
LEV
LEV
LEV
3
VOL
LEV TOT1 TOT2
VOL
LEV TOT1 TOT2
VOL
LEV
4
VO%
LEV TOT1 TOT2
VO%
LEV TOT1 TOT2
VO%
LEV
5
FLO
LEV TOT1 TOT2
FLO
LEV TOT1 TOT2
-
-
0
0
-
0
0
0
0
0
-
0
0
0
5.4.6.7 Retrial count
This variable determines the numberof times to repeat the HART command in case of a bad response for each device
Retrial count 54
Value: 3…10
Default: 3
%
LEV
LE%
LEV
LEV
LEV
VOL
LEV
VO%
LEV
-
Base 3. Pos. 4. Pos
0
0
-
0
0
0
0
0
-
0
0
0
03
5.4.6.8 Cycle count
This determines the number of error cycles permitted before assuming an error and inclusion in the error list.
The entry in the error list is deleted if communication is successful in the following cycle
Cycle count 54
Value: 1…10
Default: 3
03
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5.4.6.9 Cycle time:
This determines the time lapse between two HART commands, in units of 100ms. If in the case of a transmitter it is necessary to send multiple commands, then this time also show the time between the commands.
Cycle time 54
Value: 5…50
Default: 5
05
Relationship between cycle count, retrial count, cycle time and refresh time
- The number of active devices in the system: X X=1…15, depending on the type of MultiCONT
- Retrial count ( N ): Number of repetitions in case of bad response, N= 3…10 ( default=3 )
- Cycle count ( M ): Number of cycles after which the MultiCONT assumes an error (inclusion int he error list) M=1…10 ( default=3 )
- Cycle time ( T ): Elapsed time between commands TC=T*100[ms]. T=5…50 ( default=5 )
- Number of selected HART commands: P
- Refresh time TK: The period of time after which the states of the display, relays and current outputs are refreshed.
Exp-n
Number of attempts
n = 1...N
Selected HART command number for the given device
Device list number
x = 1...X
p = 1...P
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TK
TC
TC
TC
TC
TC
TC
TC
TC
TC
E11-1 First HART command of device no. 1, error-free response received
Second HART command of device no. 1, error-free response received
First HART command of device no. 2, first response was bad, so MultiCONT attempts again
First HART command of device no. 2, second attempt
First HART command of device no. 2, third attempt
This is also bad, no further attempts are made, instead it moves on.
First HART command of device no. 3, first response was bad, so MultiCONT attempts again
E 1First HART command of device no. 3, second attempt with error-free response, so it moves on
First HART command of device no. X, error-free response received
If N*M bad responses are received from the device one after the other, then an error signal is sent which gets included int he error list.
As a result of the above, a complete turn ( TK ) thus depends greatly on the number of devices, the number of selected HART commands, and on the number of times a command has to be repeated due to the noisy line
TK min
=0.5 sec ( only one device, and a perfect response )
With default settings, in the case of 15 units ( X=15 ), assuming 1 HART command per device and a noisy line such that averagely every command is repeated once:
TK= X*TC*2=15*0,5*2=15 sec
In extreme cases TK could become minutes!!
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5.4.6.10 Test
It is possible to test the HART line.
Debug
Force
Listen
45
Force
49
None
1200 Hz (1)
2200 Hz (0)
Listen
50
RxD = 2200 Hz (0)
C No (0)
It is possible to send a continuous HART signal to the output.
Select using and
Listen
50
RxD = 2200 Hz (0)
RxD = reception
Constantly monitors the line and displays results if it senses anything
CD = Carrier detect, constantly "1" or toggling if the line is noisy.
In such a case the device may not respond
(see Device's HART test function)
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5.4.6.11 Statistics
For each device in the list, the number sent HART comands (TX) and the received responses (RX) is noted. When a device is inactive, its statistics do not change. These data are lost when the MultiCONT is put off. In ideal cases, the values TX and RX are the same. It is acceptable for the number of received responses to be greater than 95% of the number of sent commands. If the deviation is big, then it is recomended to check whether the cable shielding is grounded or the quality of the grounding.
Statistics
69
1: SE-360
TX = 4598
RX = 4572
2: ST-380
TX = 2569
RX = 2568
:
X: ST-380
TX = 2569
RX = 2568
5.4.7. USER RS485
The MultiCONT User RS485 interface allows serial data transfer to the central process controller computer or to a PLC. The following can be queried from MULTICONT through the communication line:
- system properties (MULTICONT configuration, relays, current generators, transmitters, errors, number of Universal Interface Modules, etc)
- error list
- device assignment to relays or current generators
- configuration of relays and current generators
- output values of the devices
The MULTICONT units have separate addresses so they can be connected into a system
(max. 30 MULTICONTs).
- 2 communication protocols are available:
- MODBUS RTU (default)
-
HART 5
USER RS485
80
MODBUS prot.
HART prot.
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5.4.8. Secret code
The viewing and modification of MultiCONT settings can be protected witha secret code differing from 00000000.
If there is a password, the following symbol appears left of the menu identifier, and flashes after being unlocked.
The password remains temporarily unlocked untill after returning to the measuring process.
Password protected MultiCONT
No Code
Press OK
"Password" is 00000000, no restriction
Password
44
Unlock
Modify
Scope
Unlock
00000000
The "Password" is not 00000000,
To enter and modify a password is needed
Unlock please
Press OK
Modify
00000000
Scope
All
Modify
46
Password modification permission is denied thus unable to modify "password"
Go back to Unlock menu
If "Password" is unlocked the key flashes, if there was no password, there is no key
"Password" can be deleted by typing 00000000
No access
Access to view parameters but not to modify
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5.4.9. Language
This is where to select the language used during measurement and programming.
The selected language will be switched to immediately.
Language
English
German
French
Hungarian
43
Default: english select using and
5.4.10. Background lighting
The background lighting of the display can be modified here.
Backlight
High
Low
Auto
36
In auto mode, pressing any button sets the backlight to "high".
10 s after the last button was pressed, the backlight turns off
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5.4.11. Report:
This provides information about the system structure. This displays the number of devices (transmitters), relays, current outputs, and modules int he system, and also the number that can be handled. Binding is when a relay or current output is assigned to a device.
Report
Devices:
UIM-s
Relays:
Current outs:
Inputs:
U485:
M485:
Bindings:
Type:
SW type:
SW version:
Serial:
Date:
Working:
Power cnt:
Temp min.:
Temperature:
Temp max.:
6
53
002/015
000/032
004/064
002/016
000/000
NO
YES
005/100
PEC1M9
01
01.00
B9718160
2005/11/15
6/18/59
224
18°C
22°C
35°C
2 devices (transmitters) in the loop, max. 15
No. of Universal Interface Modules (PJK-100)
No. of relays (64 = sum of internal and external relays)
No. of current outputs
Other inputs
RS485 u ser interface
RS485 m odule interface (needed for UIM functioning)
No. of bindings
Type of MultiCONT
S oftware type of MultiCONT
Software version of MultiCONT
Serial no. of MultiCONT processor
Date of MultiCONT software update
MultiCONT work time (days/hrs/mins)
No. of MultiCONT "power-on"s
MultiCONT min. temperature
MultiCONT actual temperature
MultiCONT max. temperature
5.4.12. Prog CS
When exiting the menu the device prepares a Frame Check Sequence from the settings (EXCLUSIVE-OR relation of bytes)
Prog CS
81
129
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5.5. P
ROGRAMMING
D
EVICES
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5.6. R
EMOTE
P
ROGRAMMING
Select the device to be programmed as described above.
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* If the access is denied the following message appears.
Unlock please
Press OK
After entering a valid code press OK.
** Parameters entered during remote programming via MultiCONT will be sent without being checked to the device where the data is checked.in
the event of bad parameter value, or if the given parameter is not defined in the given device, then the following message appears:
HART logical error
Press OK
To correct the problem see the User’s Manual of the respective device
(transmitter)
*** Explanation of the Echo Map of ultrasonic transmitters
On enter:
No. of echoes
No. of selected echo (on enter 1), select with or
Measured echo is blinking
Echo
1.40 m
5 1 13
-3.2 dB
Amplitude and distance of the measured (blinking) echo
The echo-map
0.70 m -17.5 dB
Selected echo marking amplitude and distance
after pressing button
Echo
.70 m
1.40 m
5 2 13
-3.2 dB
-3.2 dB
Note: the displayed data are at the moment of entry into the menu.
The flashing echo is the one used by the transmitter to measure distance. To refresh the display press ESC then OK.
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5.6.1. Editing the linearisation table
Warning! For the transmitter to compute the measurement results using the linearisation table, linearisation has to be enabled in parameter P47
(See the Installation and Programming Manual of the given transmitter)
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5.7. R
ELAY
C
ONFIGURATION
First of all it is recommended to decide which relay is to be assigned to which device(s), and to which measured value (PV=primary value
,
SV=secondary value, …. ) in Main menu/Relays/ Program/Source. Relays can be assigned to one or more sources (difference, average). Secondly the relay function should be selected in Main menu/Relays/ Program/Function. Finally the parameters have to be specified in Main menu/Relays/Program/Parameter such that the dimensions of RP1 and RP2 are determined by the devices assigned to them. Thus if the chosen value is LEVEL [m] then the RPx parameters also have to be entered in LEVEL [m]. For overview see Menu system of the MultiCONT Attachment 3. The relay functions in detail are as below (default cursive in gray background).
5.7.1. Relay Selection
It is impossible to enter the relay menu if the system does not contain a single relay. The number of relays in the system can be viewed under Main menu/MultiCONT config/ Report. (See chapter 5.4.9)
Select using and
Main menu
05
Devices
Relays
Current outs.
Inputs
UIM-s
MultiCONT config.
Default config
Relays
01: R1_IN
02: R12
:
12: R12n
18
List number of relay
Active
Relay ID
Short TAG
Inactive, de-energised relay
01: R1_IN
Programming
Short TAG
Info
19
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5.7.2. Properties of the selected relay
The refreshing of “Cycle”, “Work hours”, “Input” and “Output” takes place continuously in the case of the internal relays.
01: R1_IN
Programming
Short TAG
Info
19 Short TAG
R_IN_1
25
Info
Cycle:
74
1789
Working:
Input:
67
0.589
Output:
ID:
Parent:
BE
9729718161
9728718160
Location: Internal
Number of state changes of the relay
The energisation and release are each considered a different state
Relay energisation time
The value that the relay state was calculated from
(if RP1...RP3 are known)
Actual state of the relay
Relay ID number
In case of an internal relay, the MultiCONT's ID, if not then the module's ID
Location of the relay (Internal=in MultiCONT,
External=in an external module)
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5.7.3. Relay programming
5.7.3.1 Source selection
One or more devices can be assigned to one relay.
Relay: R1_IN
Programming
Short TAG
Info
19 Programming
Source
Function
Parameter
Invert
Clear TOT
Update TOT
Test
Source
1: SE300
2: SC380
3: SP380
: n: ST-300-1
21 1: SE300
PV
SV
TV
QV
57
Not assigned
Assigned with a "+" sign
Assigned with a "–" sign
Assigned by averaging
Modify using and
In the above example, Relay R1_IN is controlled by the difference between the secondary values of SE300 and SP380. In the case of a single unit, the sign is indifferent, in fact, average might as well be selected. In the case of the selection of multiple devices, control depends on the result of the mathematical sum. If in the case of selected multiple devices the dimensions of the quantities are different, the unit will display an error message. Upon selelcting the quantity, confirm that the appropriate HART command has been seleceted for the device (See Main menu/MultiCONT config/HART / command set, see chapter 5.4.5.5)
5.7.3.2 Function
Relay: R1_IN
Programming
Short TAG
Info
19 Programming
Source
Function
Parameter
Invert
Clear TOT
Update TOT
Test
Function
Hyst.
Alarm
Alarm, K
Window
Window, D
Error
Pulse, F
TOT 1
Alt., S
Not selected
Selected
Select using and
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O
PERATING MODE
Hysterisis. (2-point control)
Default: filling with energized relay:
Inversion = OFF,
above RP1 the relay will be de-energized below RP2 it will be energized
Inverted operation: by interchanging RP1 and RP2
or by selecting Inversion = ON
Main menu/Relays/Program/Invert
If RP1 = RP2 then the upper alarm function is enabled
Alarm
Default: Inversion = OFF
Below RP1 relay will be de-energized
Inverted operation (relay will be energized below RP1)
or by selecting Inversion = ON
Hysterisis = 2.5% of RP1
If RP1 = 0 the relay will be constantly energized
Relay
Relay
Alarm K (with delayed switching)
Default: Inversion = OFF
below RP1 relay will be de-energized using delay in RP3 (Factory default
t= 0 sec )
Delay can be set under RP3 in sec
Relay
Window (window comparator)
Default: Inversio n= OFF
Between RP1 and RP2 relay will be energized
Inverted operation (Between RP1 and RP2 relay will be de-energized)
...or by selecting Inversion = ON
Relay
K
F
UNCTION
K
P
ROG
. P
AR
RP1 t
RP2
Energised
De-energised t
RP1
Energised
De-energised t
RP1
K
Energised delay
De-energised
RP1,
RP2
RP1
RP1,
RP3
RP1 t
RP2
Energised
RP1,
RP2
De-energised
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Window D (comparator with delayed switching)
Default: Inversion = OFF
Between RP1and RP2 relay will be energized using delay in RP3
(Factory default t= 0 sec )
Inverted operation (Between RP1and RP2 relay will be de-energized )
…or by selecting Inversion = ON
Relay
K
Error
Default: Inversion = OFF
In case of error relay will be de-energized. RP3=0 for any error; RP3=n for error of code n
Inverted operation (in case of error relay will be energized ) or by selecting Inversion =ON
Impulse F
Default: Inversion = OFF
relay will be energized for appr. 200ms for each unit volume set in RP3
Operation can be inverted by selecting Inversion = ON
TOT1
20
10
Programming error will be displayed if:
– more than one device (transmitter) is marked as source
…- RP3 = 0
Relay
K
TOT1
Default: Inversion = OFF
relay will be de-energized when TOT1 reaches value in RP1
Operation can be inverted by selecting Inversion = ON (relay will be energized)
TOT1
20
Relé
RP3=10
RP1=20
K K K
RP1 t
RP2
Energised
Delay
De-energised
RP1,
RP2,
RP3
RP3
t
Energised
De-energised
RP3
t
Energised
De-energised
RP1
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Alt (optimized pump control)
Default: Inversion = OFF
More relays (max 8) can be assigned to one source (transmitter) and they are controlled such that the switching number will be the same for all of them.
In this case the connected relays will be energized and deenergized one after the other irrespective of which relay’s conditions are fulfilled.
As in the diagram, relays programmed in this manner operate in the following sequence for:
Mode:Alt S
1 23 1 23 Energised
123 1 2 3 De-energised
Mode: Hysterisis
3 32 2 21 Energised
123 3 2 2 De-energised
Relay
Relay
Relay
123
1
1
2
5.7.3.3 Configuring parameters
Programming
Source
Function
Parameter
Invert
Clear TOT
Update TOT
Test
Parameter 23
RP1 = + 0003.45
RP2 = 12.45
RP3 = 0
3
2
1
3
23
RP1
R3
RP2
RP1
R1
RP2
RP1
R2
RP2 t
Energised
De-energised
Energised
R2
De-energised
Energised
R1
De-energised
Energised
De-energised
Parameter to be edited
Selection of digit position
Modifying sign and number
For RP1 steps back to "Programming" sub-menu, for RP2 and RP3 steps back to the previous parameter
Accepts parameter change and steps to the next, pressing for RP3, values of RP1...RP3 are loaded to the memory and steps back to "Programming" sub-menu
RP1,
RP2
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5.7.3.4 Inversion
The operation of the relay can be inverted by switching on the inverter.
Default: Off
Invert
On
Off
26
Not selected
Selected
Select using and
Selected choice gets applied immediately
5.7.3.5 Deleting TOT
Quantity (TOT1 and TOT2) summation is done in the flow-measuring transmitters. In the MultiCONT it is possible to transmit the TOT2 in preset units in the form of relay impulses .In order to do this, the relay has to be switched to ‘Impulse F’ mode. In the ‘RP3’ parameter (belonging to the relay), specify the volume that will trigger 1 impulse (the length of 1 impulse is about 200 ms). There is a ‘PULSE’ and a ‘TOTAL’ variable for each relay programmed to work in ‘Impulse F’ mode. The ‘TOTAL’ variable of the relay goes after the ‘TOT2’ variable of the transmitter. The volume difference between the 2 variables, given in ‘RP3’ is put into the ‘PULSE’ variable. The value in the ‘PULSE’ variable is transmitted to the output of the relay. The ‘TOTAL’ and ‘PULSE’ relay variables get into the “non-forgetting” memory even in the event of a power failure, as a result of the (automatic) saving done every 6 minutes.The relay impulses that occur in the time lapse between the last save and the return of power get counted again after the power supply is put on. In order to avoid repeated counting, use a UPS.
Example: Let the TOT2 value of the transmitter be 1000m 3 . Let the TOTAL value of the relay also be 1000m 3 . Let the PULSE value of the relay be 0.
At the same time, assume the RP3 parameter of the relay to be 10m
3
. In this case, no impulses appear at the relay output, because the TOT2 value of the transmitter is the same as the TOTAL value of the relay. Based on the measurement of the transmitter the TOT2 value changes from 1000m 3 to 1050m 3 , the change being 50m
3
. Also, based on the RP3 parameter of the relay (10m
3
unit volume), 5 is added to the value of the PULSE variable, with the change being 5*10=50m 3 . The relay then counts 5 impulses. After this, the value of the relay’s PULSE becomes 0, while that of TOTAL becomes 1050m 3
Once in this menu, pressing ’OK’ will delete the values of the relay’s ’TOTAL’ and ’PULSE’ variables. This results in the total volume in the transmitter’s
’TOT2’ variable to be counted to the output of the relay based on the unit set in the ’RP3’.
The delete operation is followed by the window below:.
Clearing TOT
Press OK
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5.7.3.6 Refreshing TOT
Once in the menu, pressing ’OK’ will copy the transmitter’s ’TOT2’ value into the relay’s ’TOTAL’ variable, and then delete the contents of the relay’s
’PULSE’. The transmitter and the MultiCONT become synchronised
The update operation is followed by the window below.
Updating TOT
Press OK
5.7.3.7 Testing
Relay operation can be tested as seen below.
Test
On
Off
Toggle
24
Not selected
Selected
Select using and
Changing the selection will change the state of relay immediately
In “toggle” mode, pressing or causes the state of the relay to switch.
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Note:
1.
2.
3.
4.
5.
6.
Parameter 23
RP1 = 0001.25
RP2 = 12.45
RP3 = 0
To program the parameter select the relevant parameter in Main menu/Relays/Relay/Program/Parameter using the
↑↓ buttons, enter the value in between the pointers and click OK. Programming can only be completed by clicking
OK after setting RP3 (even if it is zero or not applicable in the given function!)
Inactive relays are de-energized (See: Main menu/Relays).
More than one device can be assigned to any of the relays (Main menu/Relays/Program/Source)
The result will be the mathematical combination of the sources.
If the measurement mode or dimensions of devices are different MultiCONT will send error message Program (See 6. Errors, Error messages)
The result of the transmitters marked with are added.
The result of the transmitters marked with is deducted from the sum of the result of the transmitters marked with
Computes the average of the results of the transmitters marked with
The instrument indicates error if the dimension or the measurement mode of the transmitters are different.
If the Error function is selected no (source) assignment is required since errors of all active devices will be monitored.
Relay state will not be changed (HOLD) if its assigned source does not reply!
The device will indicate program error if:
– There are multiple sources with different dimensions
– „Impulse F” function is selected, and there are multiple sources or RP3=0
– „Alt S” function is selected, and more than 8 relays are assigned to one device or the sources are different (e.g.: PV for 1 relay, and SV for another)
– The sources are ST, TV, and QV but the COM3 command is not selected
For a detailed overview of the Programming see Appendix 3.
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5.8. O
PERATION AND
P
ARAMETERS OF
C
URRENT
O
UTPUTS
First of all a device should be assigned to the current output, (Main menu / Current outputs / Program / Source).
The result of the transmitters marked with are added.
The result of the transmitters marked with is deducted from the sum of the result of the transmitters marked with . (difference measurement)
Computes the average of the results of the transmitters marked with
Secondly the relevant function should be selected and configured in Main menu/ Current outputs /Program/Function. Finally the parameters have to be programmed such that the values of the dimensions of CP1 and CP2 be determined by the transmitter(s). Thus if the measurement mode is LEVEL [m]
(e.g. for SE-300 P01=x1 P00=00x), then the programming has to be in LEVEL [m] too (Main menu/ Current outputs /Program/Parameter).
For a detailed overview of the programming steps see Appendix 4.
5.8.1. Selection of Current outputs
It is impossible to enter the current output menu if the system does not contain a single current output. The number of relays in the system can be viewed under Main menu/MultiCONT config/ Report. (See chapter 5.4.9)
Select using &
Main menu
05
Devices
Relays
Current outs.
Inputs
UIM-s
MultiCONT config.
Default config
Current outs.
01: C1_IN
02: C12MB
:
12: C12n
18 01: C1_IN
Programming
Short TAG
Info
19
List number of curr. out
Active
Curr. output ID
Short TAG
Not active (de-energised relay )
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5.8.2. Properties of the selected Current Output
01: C1_IN
Programming
Short TAG
Info
19 Short TAG
C1_IN
34
Info
Input:
34
0.589
Output:
ID:
Parent:
12.45 mA
9729718161
9728718160
Location: Internal
5.8.3. Current Output programming
5.8.3.1 Source selection
One or more devices can be assigned to a single current output
01: C1_IN
Programming
Short TAG
Info
19 Programming
Source
Function
Parameter
Test
The value that the output current was calculated from
(if CP1...CP3 are known)
Actual value of the output current
ID of the current output
For an internal curr.out., this is the MultiCONT's ID, for an external one, this is the module's ID
Location of the curr. out. (Internal=in MultiCONT, external=in module)
Source
1: SE300
2: SC380
3: SP380
: n: ST-300-1
30
Not assigned
Assigned with a "+" sign
01: SE300
PV
SV
TV
QV
Assigned with a "–" sign
Assigned by averaging
Modify using and
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In the above example, current output C1_IN is controlled by the difference between the secondary values of SE300 and SP380. In the case of a single unit, the sign is indifferent; in fact, average might as well be selected. In the case of the selection of multiple devices, functioning depends on the result of the mathematical sum. If in the case of selected multiple devices the dimensions or the values are different, the unit will display an error message. Upon selecting the value, confirm that the appropriate HART command has been seleceted for the device (See Main menu/MultiCONT config/HART / command set, see chapter 5.4.5.5)
5.8.3.2 Function
Curr. out.: C1_IN
Programming
Short TAG
Info
28 Programming
Source
Function
Parameter
Test
Function
Variable
Error 3.6 mA
Error 22 mA
31
Not selected
Selected
Select using and
Error 22mA
F
Value
Error 3.6mA
UNCTION
D
ESCRIPTION OF
O
PERATION
Operates according to the value selected in the „Source” menu item ( DIS, LEV, VOL, FLOW )
4 mA belongs to the value of parameter CP1, while 20mA belongs to that of parameter CP2.
CP3=0 error current for every error
CP3=n error current for code „n” error
For Error Codes ( see chapter 6.)
If there is no error, the value of the output current is 4mA
Remark:
1. The device will display an error if the selected mode is “variable” and CP1=CP2
2. Value of the output current will not change (HOLD), if the assigned device does not respond or or responds with an “Err xx” error!
3. If the current output is not active the output will be 0 mA.
4. If the Error function is selected, then no source assignment is required since errors of all active devices will be monitored.
5. The modified parameters can only be saved when the cursor is on CP3 by pressing OK.
P
ROG
.P
AR
.
CP1,CP2
CP3
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5.8.3.3 Parameter configuration
Programming
Source
Function
Parameter
Test
Parameter 32
CP1 = + 0003.45
CP2 = 12.45
CP3 = 0
Parameter to be edited
Selection of digit position
Sign and number modification from CP1: steps back to "Programming" sub-menu, from CP2: and CP3 steps back to the previous parameter
Accepts parameter change and steps to the next row.
Pressing when CP3 is highlighted, loads the values of CP1...CP3 into the memory and steps back to "Programming" sub-menu
5.8.3.4 Testing
The current output can be tested in steps of 1µA. Upon changing the numbers, the output changes immediately, and it is not necessary to press OK.
Test 33
12.125
Selecting the digit position
Sign and number modification
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5.9. T
HE
B
OOT
P
ROCESS
At every powering on a test program runs, testing the MultiCONT hardware The whole process can be followed on the display in English. The procedure takes about 50s. Pressing ESC will accelerate the test (to about 25 s).
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In case of FLASH error the unit will restart repeatedly because the unit is faulty. Please send the unit back to the manufacturer.
A working unit will query the devices stored in the device list and enter measurement mode. After this, it will operate according to the settings configured in Main menu / MultiCONT config (chapter 5.4), See 5.10 Measurement Mode, Appendix 5)
1: - - - - - - - DIST 1 M
There is no response from device with List TAG 1. (there is no result to display)
Error “Reply” appears in the error list. (See 6. Error codes)
Errors: 1
2: SE300-11 DIST 1
3.125 m
M
2006.04.10 A 14:26
The result of the device with List TAG 2. is on the display.
Device with List TAG 1. is being querried. (See 5.10 Measurement mode)
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5.10. M
EASUREMENT
M
ODES
After the boot test the MultiCONT will automatically enter the
Measurement Mode / standard display image. Measurement values will be queried and displayed in accordance with the contents of the device list read from the memory and the settings in
Main menu / MultiCONT config. / Display mode. Maximum 5 data per device can be displayed simultaneously on the display
(1 main image – see 5.5.3 - and 4 on the list image – see 5.4.4) together with dimensions and abbreviations (DIST, LEV, VOL,
FLOW, PV, SV, TV, QV, TOT1, TOT2, E). In the upper row we can see the device identifier (Short TAG), List Tag (1,…9,A.,...F) and the device actually communicating with the MultiCONT.
When the device communicates via RS485, the „*”flashes. There are two bargraphs on the display. One is the „sensor range”
(only for Nivelco transmitters), and this constitutes the transmitter’s measurement range (the tank level between the maximum and minimum measuring distance). The other is the „output range” that constitutes the 4-20mA range of the transmitter.
n=number of the device in the list
1...9, A...F
device ID
(short TAG) number of queried device
(flashes) op. mode
RS 485 communication menu display ID n: SE300-11 FLOW 2 M
Variable (PV, SV, TV, QV)
Main display
List display
(max 4 rows)
Status field
(no errors)
5.486 m
PV l/s
SV: 0.852 m
LEV: 0,514 m
TOT1: 1542 m3
TOT2: 1.25 E7 m3
2006.04.11
A 06:41
A = absolute time
R = relative time
Bargraph/sensor range
Bargraph/output range
Actual date and time
Status field
(on error)
Errors: 4 Err11
No. of error logs
Acknowledge, (erase) with
Code of the device error or "Locked" message if program protecting switch is on
In this mode, it is possible to view the „Bargraph display”, the „User display” (Range, Double, Difference, Average see Mainmenu / MultiCONT config / user’s
image - chapter 5.4) selected by the user, the relay-device and current output-device assignments, and also the error list, using
See Appendix 5
and for selection.
After the termination of a possible error, the display keeps on displaying the error until the error is acknowledged by pressing the ESC button. The query of the devices, the control of the relays and the current outputs and the servicing of the RS485 all happen continuously during programming. The MultiCONT automatically returns to measurement mode 5 minutes after the last button was pressed. It also records and saves the number of switchings and worktime of the relays every
6 minutes. The 6 minutes commence after the automatic exit.
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6. ERROR CODES
In the event of an error, the felirat “errors” (see Measurement mode, appendix 5) immediately appears irrespective of which device the error is connected to.
Errors occurring during operation will be collected in the E (Error) table where the error identifier message can be viewed.
Errors
E
01: SE300-11 : Response
02: ST300-11 : Program
03: SP300-11 : Err9
“Sensor” and “Reply” error message swill automatically erased from the list upon termination of the error.
Other errors entries will remain in the table until acknowledgement by pressing ESC. Thus for instance if a relay or current generator set for function “Error”, it will indicate the error even after termination of the error until the error is acknowledged as above.
E
RROR CODE
M
ESSAGE
1
2
3
Init
Reply
Sensor
4
5
6
Device
Program
Save
E
RROR DESCRIPTION
Device does not reply after switching-on*
Device with normal operation does not respond **
Sensor failure on the device ***
Other device Error (See chart next page)
Error occurred during programming of relay or current generator ****
Error occurred in the course of saving to memory
C
ORRECTION
Check wiring of device
Check wiring of device
Check device (transmitter)
Check programming of device ( See relevant Install and Prog. Manual), and measurement conditions
Check programming
If this happens repeatedly,send device to the manufacturer.
* An active device on the list does not reply after switching-on. Possible reasons:
- the system was modified before switching on (device was disconnected, the wiring changed, etc.)
device failed to reach operation conditions during the boot process (and is not yet able to measure) thus this error message appears
(e.g. in solid applications, STD-300 transmitters may not respond until the amplification reaches operation conditions).
** A device that had been working perfectly suddenly stops responding. Possible reasons:
-
-
- the device has become bad broken cable noisy HART line (See Main menu/MultiCONT config/HART test)
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*** A special error message belongs to sensor faults. This error can appear in the case of ultrasonic transmitters due to the breakdown of the transducer or during a dusty filling process, when if there is a display, a NoEcho message is displayed. In the case of magnetostrictive transmitters, this error can be due to the cracking of the magnet disc, or a break in the magnetostrictive wire.
1: SE300-12
SENSERR
2 Errors: 1
DIST
Err00
M
Device responds but there is no valid result because of sensor error.
**** Programming error will be caused:
-
- assignment of more than one source with different dimensions to a relay or current output
An appropriate value (PV, SV, etc) is assigned to a current output and CP1=CP2 (see 5.8 Operation and parameters of current outputs)
-
-
-
-
- assignment of flow value (Impulse F) to a relay and there is more than one source (see 5.7 Relay configuration) assignment of flow value (Impulse F) to a relay and RP3=0 (see 5.7 Relay configuration) more than 8 relays with „Alt S” function are assigned to to a transmitter different variables are selected in the case of a relay with „Alt R” function
The source is SV, TV or QV, but the COM3 HART command is not selected.
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7. HARDWARE PROTECTION OF SETTINGS
IC2
S1
For access, loosen the nuts fastening the front panel.
The program protection switch in its ON position will prevent modification of parameters affecting operation such as:
-
-
-
-
-
- relay parameters current output parameters activation of devices remote programming denying access to the Service menu denying permission to run DEV detect, EXT detect under MultiCONT config
The switch does not prevent modifications that do not influence the operation of the MultiCONT (such as language, backlight, user image, etc)
ON OFF
Program protection switch
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8. FUSE REPLACEMENT
B1 fuse
+
In order to change the fuse loosen four nuts fastening the front panel, carefully tilt the front panel forward, such that the cable band is not under tension and replace the fuse.
Warning! Only use fuses specified in the table below:
P
OWER
S
UPPLY
85…255 V AC 50…60Hz
11,4…28 V AC 50…60Hz
11,4…40 V DC
F
USE
B1
T400mA
T1A
The device contains 1 network fuse. Its value depends on the power supply.
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9. SERVICING
9.1. B
OX
M
ESSAGES
:
No.
Box Message
19
20
23
24
25
26
28
30
7
8
5
6
1
2
4
No CODE!
In manual prg!
Alredy unlocked!
Unlock, please!
HART error!
TOT1 cleared!
TOT2 cleared!
14
15
16
18
9 HART no reply
10* HART comm. error
11* HART logical error
12* HART write protect
13 Unknown dev/comm
Parameter saved
Save error
Device added
Unknown param.
Default loaded
PSW cleared
FLASH error
Same address!
No HART device
Load error
No comp. Device
HART:Parse error
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Explanation
Secret code is not set
The transmitter is under manual programming
No code in the trasnmitter ( i.e. 00000000 )
Secret code needed for modification (see.”Main menu/”MultiCONT config.”/”password”)
Communication error
Value of TOT1 deleted
Value of TOT2 deleted
During programming the device does not respond, or bad data
Error in HART message (parity, framing, overflow, …)
Other logical error in HART message
The parameter cannot be written
The address (Long address) in the HART message is not found in the list
Successful save of the parameter
Error in writing to FLASH memory
The selected device in the „Device detect” menu has been included into the list.
Unknown parameter during device detection
Loading of Factory default ( depending on type ) was successful.
Secret code is deleted
FLASH error at boot
Multiple same Long address found during DEV detect
In the „Device detect” menu, searched for devices with „Short addr.” between 0..15 but did not find any
Error when reading from FLASH memory
Device is not NIVELCO compatible
The received data are not applicable
No.
Box Message
35
36
37
38
39
40
31
32
33
34
41
42
43
Explanation
HART:Invalid sel.
HART:Too large
HART:Too small
HART:Few data
The received HART command is unknown to the MultiCONT
The received HART command is longer than standard
The received HART command is shorter than standard
HART:Device spec.
HART:Acces restr.
Bad parameter sent during remote programming
HART:Busy
HART:Comm. not. imp.
The received HART command is unknown to the MultiCONT
Please wait!
TOT cleared
DEV detect cannot run due to periodic disturbance on the HART line, which causes continuous error!
TOT deleted during relay progamming ( Impulse F )
TOT updated
No in RP mode
Stick in RP mode
TOT updated during relay progamming ( Impulse F )
Device could not enter „Remote programming” (RP) mode during programming
Unsuccessful exit after remote programming of device
9.2. O
THER
M
ESSAGES
:
No.
1
2
5
6
7
8
3
4
Message Explanation
Scanning HART line Displayed during device detection
Logical error
- Displayed instead of user’s image, if difference or average is selected, but there is only one active device
- Displayed if the dimensions of the results of the selected devices are different
No user screen
No active device
No HART device
Locked
No current output
No relay output
In „Main menu”/”MultiCONT config.”/”User display” „None” is selected
Displayed during measurement or instead of user’s image, when there is no avtive device
The unit’s device list is empty ( run „DEV detect”
The hardware switch is on ( the program cannot be modified)
Displayed in the position of the „current output assignment” image, if there is no current output in the system
Displayed in the position of the „Relay assignment” image, if there is no relay in the system
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9.3. T
ROUBLESHOOTING
9.3.1. It is impossible to enter the „Main menu”/”Relays” or „Main menu”/„Current outputs” menu:
There is no relay or current output in the unit. Check the number of relays and/or current generators in „Main menu”/”Multicont config.”/”report” menu.
9.3.2. It is impossible to enter the „Main menu”/”Devices” menu:
The device list is empty. (there are neither inactive, nor active devices in the system, in measurement mode a „No HART Device” message appears on the display.)
9.3.3. A „Please wait” message appears upon selecting „DEV detect”
The HART line is so noisy, that there is no communication, and every command is bad. The only way to exit this state is by putting the unit off and on again.
Enter „Main menu”/”MultiCONT config..”/”HART”/”Debug”/”Listen” and check if the CD is „0”. While it it continuously 1, communication between MultiCONT and the transmitters is not possible. Check the shielding of the cable and the cable route.
9.3.4. The result of „DEV detect” is the „No device” message
The MultiCONT did not detect any device that responded.
DEVICES
L+ L- SH
− If there are multiple devices in the loop, check for short-circuits or open-circuits.
There is a short-circuit if there is voltage between L+ and SH, but between L+ and L- the voltage is 0.
– The line is open-circuited (cut) if there is no voltage between L- és SH, because there is no voltage drop on the sensing resistor ( R fi
=255Ω ) connected between these 2 points, whereas the loop current should never be 0.
− Check the terminal voltage at the devices (transmitters). If the terminal voltage is small, it might be due to bad wiring (big intermediate resistance) or big loop current, resulting on a big voltage drop on the sensing resistor. Connect the devices in to the loop one by one, checking the „Short address” and the
− constant current parameter (see: chapter on preparation of transmitters)
Confirm that the device is HART capable (Type, nameplate)
9.3.5. The unit does not start up when switched on
It restarts repeatedly ( see: chapter 5.9.)
−
This can be due to bad FLASH ( the non-volatile memory in the unit )
−
Or a bad RS485 card ( types P__-1_A and P__-1_B ), because this is tested at boot, and does not continue in case of an error. Request help from our
Export department.
9.3.6. The „Response” error entry is too frequent
The line is noisy, check the grounding of the cable shielding. If the cable is not shielded, replace it with a shielded cable. The reliability of the communication can be checked under the „Main menu”/”MultiCONT config.”/”Hart”/”Statistics” menu, where Tx is the number of transmitted requests,and
Rx is the number of correct responses.
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9.4. A
DDITIONAL
I
NFORMATION
9.4.1. Problems that may occur during remote programming:
In the case of integer type parameters,
Multicont displays all the four digits even if the case of a given transmitter only one digit is meaningful. For example:
PRW :
P12 Error state
0002
14
SE-300:
P12: 2
SE-300 only tests the value of digit „a” value( see Manual), and does not display an error if we write 1002-t. It even stores this value. It does not indicate any operational error, but upon reading this parameter from SE-300 we receive 1002 which does not have any meaning according to the manual!!!!
9.4.2. MultiCONT transmits the parameters without examining them, and the testing is done by the device.
In the event of an error, if the device does not accept it, then a “HART logical error” box message appears on the display.
9.4.3. Use of Second HART Master ( Hand-Held or HART modem + Eview program )
Normally, there can only be one master in HART systems. Since the MultiCONT is a master, other masters can only be used if if the status of every device is set to inactive, i.e. the MultiCONT is in listen mode. (see „Main menu”/”devices”) After this, the other master can be connected to the L- and SH terminals
(with a 255 Ohm sensing resistor inside)
9.4.4. Upon exiting remote programming, the unit tests to see if the transmitter really exited the remote programming mode
(During remote programming „RP” appears on the display of the transmitter). If this is not successful, then the „
Stuck in RP mode
” box message keeps us informed. In this case, it is not possible to manually enter programming mode!!
9.4.5. When a transmitter does not respond, then „Response” error is entered into the table, but upon termination of the error (the device responds), this entry is automatically cleared from the table (and does not need to be acknowledged).
This is also true for „Szensor” error ( noEcho, etc ) The states of the relays and current outputs are not refreshed during this process!!!
9.4.6. Upon exiting the menu, MultiCONT immediately saves the modifications.
However, there are events that need to be saved, and this happens every 6 minutes. These include:
−
Work time and number of state changes of relays
−
−
The number of times the MultiCONT was switched on (see: „Main menu”/”MultiCONT config.”/”Report”/”Power count”)
The relevant internal variables, if the function of any relay is „Impulse F”, i.e. RP3 sends a unit pulse to the output, (TOTAL and PULSE, see: „Main menu”/”Relays”/”Programming”/”deleting TOT”)
9.4.7. The error list is cleared when the device is put off
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A
PPENDIX
1.
M
ANUFACTURER
I
DENTIFICATION CODES OF
HART-C
APABLE
D
EVICES
:
1 "Acromag",
2 "Allen Bradley",
3 "Ametek",
4 "Analog Devices",
5 "Elsag Bailey",
6 "Beckman",
7 "Bell Microsensor",
8 "Bourns",
9 "Bristol Babcock",
10 "Brooks Instrument",
11 "Chessel",
12 "Combustion Engineering",
13 "Daniel Industries",
14 "Delta",
15 "Dieterich Standard",
16 "Dohrmann",
17 "Endress & Hauser",
18 "Elsag Bailey",
19 "Fisher Controls",
20 "Foxboro",
21 "Fuji",
22 "ABB Automation",
23 "Honeywell",
24 "ITT Barton",
25 "Kay Ray/Sensall",
26 "ABB Automation",
27 "Leeds & Northrup",
28 "Leslie",
29 "M-System Co.",
30 "Measurex",
31 "Micro Motion",
32 "Moore Industries",
33 "Moore Products",
34 "Ohkura Electric",
35 "Paine",
36 "Rochester Instrument
Systems",
37 "Ronan",
38 "Rosemount",
39 "Peek Measurement",
40 "Schlumberger",
41 "Sensall",
42 "Siemens",
43 "Weed",
44 "Toshiba",
45 "Transmation",
46 "Rosemount Analytic",
47 "Metso Automation",
48 "Flowserve",
49 "Varec",
50 "Viatran",
51 "Delta/Weed",
52 "Westinghouse",
53 "Xomox",
54 "Yamatake",
55 "Yokogawa",
56 "Nuovo Pignone"
57 "Promac",
58 "Exac Corporation",
59 "Meggitt Mobrey",
60 "Arcom Control System",
61 "Princo",
62 "Smar",
63 "Foxboro Eckardt",
64 "Measurement Technology",
65 "Applied System
Technologies",
66 "Samson",
67 "Sparling Instrumnets",
68 "Fireye",
69 "Krohne",
70 "Betz",
71 "Druck",
72 "SOR",
73 "Elcon Instruments",
74 "EMCO",
75 "Termiflex Corporation",
76 "VAF Instruments",
77 "Westlock Controls",
78 "Dexelbrook",
79 "Saab Tank Control",
80 "K-TEK",
81 "Flowdata",
82 "Draeger",
83 "Raytek",
84 "Siemens Milltronics PI",
85 "BTG",
86 "Magnetrol",
87 "Metso Automation",
88 "Milltronics",
89 "HELIOS",
90 "Anderson Instrument
Company",
91 "INOR",
92 "ROBERTSHAW",
93 "PEPPERL+FUCHS",
94 "ACCUTECH",
95 "Flow Measurement",
96 "KAMSTRUP",
97 "Knick",
98 "VEGA",
99 "MTS Systems Corp.",
100 "Oval",
101 "Masoneilan-Dresser",
102 "BESTA",
103 "Ohmart",
104 "Harold Beck and Sons",
105 "Rittmeyer Instrumentation",
106 "Rossel Messtechnik",
107 "WIKA",
108 "Bopp & Reuther Heinrichs",
109 "PR Electronics",
110 "Jordan Controls",
111 "Valcom s.r.l.",
112 "US ELECTRIC MOTORS",
113 "Apparatebau Hundsbach",
114 "Dynisco",
115 "Spriano",
116 "Direct Measurement",
117 "Klay Instruments",
118 "Action Instruments",
119 "MMG Automatiky DTR",
120 "Buerkert Fluid Control
Systems",
121 "AALIANT Process Mgt",
122 "POUNDS INSTRUMENT",
123 "ZAP S.A. Ostrow Wielkopolski",
124 "GLI",
125 "Fisher-Rosemount Performance
Technologies",
126 "Paper Machine Components",
127 "LABOM",
128 "Danfoss",
129 "Turbo",
130 "TOKYO KEISO",
131 "SMC",
132 "Status Instruments",
133 "Huakong",
134 "Duon Systems",
135 "Vortek Instruments, LLC",
136 "AG Crosby",
137 "Action Instruments",
138 "Keystone Controls",
139 "Thermo Electric Co.",
140 "ISE-Magtech",
141 "Rueger",
142 "Mettler Toledo",
143 "Det-Tronics",
144 "TN Technologies",
145 "DeZURIK",
146 "Phase Dynamics",
147 "WELLTECH SHANGHAI",
148 "ENRAF",
149 "4tech ASA",
150 "Brand Instruments",
151
"NIVELCO",
152 "Camille Bauer",
153 "Metran",
154 "Milton Roy Co.",
155 "PMV",
156 "Turck",
157 "Panametrics",
158 "Stahl",
159 "Analytical Technology Inc.",
160 "Fieldbus International",
161 "BERTHOLD",
162 "InterCorr",
163 "China BRICONTE Co Ltd",
164 "Electron Machine",
165 "Sierra Instruments",
166 "Fluid Components Intl",
prw1101a0600p_03.doc
2007. november 28.
Nivelco reserves the right to change technical data without notice.
prw1101a0600p_05.doc
♦
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A
PPENDIX
2. T
HE
M
ENU
S
YSTEM OF THE
M
ULTI
CONT P-100
Main display
1: SE300 LEV 2 M
1.234
m
SV= 12.45m
LEV=25.12m
2006.04.04 A 10:44
ESC
OK
UIM-s 75
01: EXT_I/O
02: EXT_I/O
Buttons:
Step between menus
Step inside menus
ESC OK
Activate
Legend:
Not active
Active, during assignment, relay is energised
Source assigned with positive sign
Source assigned with negative sign
Source assigned to be averaged
Bargraph display User display Relay assignment 4-20mA assignment Error report
1 2 3 4 5 B
1:SE300 LEV U
1.234m
2:SPA-300 LEV
12.45m
1234567 R
- ------- R01
---- - - -- R02
---------- R03
1234567 C
- - - - - - - C01
- - - - - - - C02
Error report E
01:SE300 :Reply
02:SP300 :Program
Measuring mode
Enter Menu: button
Exit Menu: button
Returns to measuring mode if no key is pressed within 5s n: SE300 FLOW M
1.234
l/s
TOT1=124567
TOT2=985762
Errors: 3
ESC
OK
Main menu 6 01
Devices
Relays
Current outs
Inputs
UIM-s
MuliCONT conf.
Default config
Restart shows that programming of the device is locked by a password
Devices 606
1: SE380
2: ST360
.
.
15: SC300
Relays 618
01: R_IN_1
02: Rxxx
.
.
nn: Rxxx
Current outs 27
01: C_IN_1
02: Cyy
.
.
nn: Cyy
1:SE300 607
Remote program
Short TAG
Polling address
Message
Descriptor
Date
Final ass. number
Factory ID
Device type ID
SW version
HW version
Device ID
Major revision
Device revision
01:R_IN_3 619
Program
Short TAG
Info
01:C_IN_1 28
Programming
Short TAG
Info
01: EXT_I/O 76
List
Short TAG
Info
Remote program.
608
Secret unlock
Secret mod.
App. parameters
Parameters
Linear. table
Echo
Clear TOT1
Clear TOT2
Default
Program 620
Source
Function
Parameter
Invert
Clear TOT
Update TOT
Test
Short TAG 25
4R_IN_3 3
Info 74
Cycle: 1785
Working: 586
Input:
Output:
0.39
ON
ID: 9729718161
Parent: 9728718160
Location: Internal
Program 629
Source
Function
Parameter
Test
Short TAG 34
4C_IN_1 3
Info 64
Input: 1.42
Output 12.458mA
ID: 9729718161
Parent: 9728718160
Location: Internal
List 79
01: REL_O_S1 (01)
02: REL_O_S2 (02)
Remote programming of the parameters of the device
Parameter 611
P01 Meas mode
P02 Unit
P03 Round
P19 Polling addr.
P20 Damping
Source 21
1: SE380
2: ST360
n: ST330
Function 622
Hyst.
Alarm
Alarm.D
Window
Window.DD
Error
Pulse,F
TOT1
Alt..S
Parameter 2 3
RP1 = 40001.253
RP2 = 12.45
RP3 = 0
1:SE380 57
PV
SV
TV
QV
Source 30
1: SE380
2: ST360
n: ST330
1:SE380 58
PV
SV
TV
QV
Function 31
Variable
Error 3.6mA
Error 22mA
Parameter 32
CP1 = 40001.253
CP2 = 12.45
CP3 = 0
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A
PPENDIX
2. T
HE
M
ENU
S
YSTEM OF THE
M
ULTI
CONT P-100 (C
ONT
.)
MultiCONT conf. 35
DEV detect
EXT detect
Sorting
Main display
List display
User display
Trend display
HART
USER RS485
LOG
Password
Language
Backlight
Clock
Report
Prog CS
Detected DEV 37
1:SE300 (01)
2:SP360 (- -)
-- SAVE-----
3:SCA380 (08)
4:STD330 (12)
Detected EXT 39
1:REL_O_S1 (01)
2:CUR_O_S2 (- -)
-- SAVE-----
3:REL_O_S1 (08)
Sorting 41
Devices
Relays
Current outs
Inputs
UIM-s
USER RS485 80
HART Prot
MODBUS prot.
Password 44
Unlock
Modify
Scope
Language 43
English
German
French
Hungarian
Backlight 36
High
Low
Auto
Clock 72
Date
Time
Report 53
Devices : 002/015
Exts: 000/032
Relays: 004/064
Currents: 002/016
Inputs : 000/000
U485:
M485:
YES
NO
Bindings: 012/100
Type : PRC1M9
SW type : 01
SW version: 01.00
Serial No: 123456
Date : 2005/01/13
Working: 6/8/29
Power cnt: 125
Temp. min: 13°C
Temperature: 25°C
Temp. max: 38°C
2:SP360 38
4SP360 3
1:REL_O_S1 40
4REL_O_S13
Main display 55
Source
Round
Step
List display 60
Source
User display 63
Type
HART 68
Short TAG
Polling address
Message
Descriptor
Date
Command set
Retrial count
Cycle count
Cycle time
Debug
Statistic
Source 56
1: SE380
2: ST360
3: ST330
1:SE380 42
PV
SV
TV
QV
Current
Percent
Level
Level %
Round 70
1: SE380
2: ST360
3: ST330
Step 648
Manual
Auto step 5s
Auto step 10s
Polled
Source 61
1: SE380
2: ST360
3: ST330
Type 51
Multiple
Difference
Average
Short TAG 54
P-100
1:SE380 659
No
x.xxx
x.xx
x.x
1:SE380 62
PV
SV
TV
QV
Current
Percent
Level
Level %
TOT1
TOT2
Status
Multiple 52
1:SE380
2:ST360
3:ST330
4:SE380
Difference 52
1:SE380
2:ST360
3:ST330
4:SE380
Average 52
1:SE380
2:ST360
3:ST330
4:SE380
1:SE380 57
PV
SV
TV
QV
1:SE380 57
PV
SV
TV
QV
1:SE380 57
PV
SV
TV
QV
Command set 66
1: SE380
2: ST360
3: ST330
Debug 45
Force
Listen
1:SE380 69
Tx = 123
Rx = 122
ERR= 1
SE380 67
COM 1
COM 2
COM 3
NIV 128
NIV 129
Force 49
No
1200Hz ( 1)
22000Hz ( 0 )
Listen 50
RxD=2200Hz (0)
CD =No
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A
PPENDIX
3. R
ELAY
P
ROGRAMMING
prw1101a0600p_05.doc
♦
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A
PPENDIX
4. C
URRENT OUTPUT
P
ROGRAMMING
prw1101a0600p_05.doc
♦
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A
PPENDIX
5. M
EASUREMENT
M
ODE
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