Simex PUR-44D User manual
Assisting the automation
industry since 1986
User manual
CONTROLLER
PUR 44D
•Firmware: v.1.09.01 or higher
•Input type: universal
•Two rows of displays
Read the user's manual carefully before starting to use the unit or software.
Producer reserves the right to implement changes without prior notice.
2022.03.11 P R-44D_INSSXEN_v.1.00.002
User manual - CONTROLLER PUR-44D
CONTENTS
1. BASIC REQUIREMENTS AND USER SAFETY.......................................................................................3
2. GENERAL CHARACTERISTICS...............................................................................................................4
3. TECHNICAL DATA....................................................................................................................................5
4. DEVICE INSTALLATION...........................................................................................................................8
4.1. UNPACKING.....................................................................................................................................8
4.2. ASSEMBLY.......................................................................................................................................8
4.3. CONNECTION METHOD................................................................................................................11
4.4. MAINTENANCE...............................................................................................................................19
5. FRONT PANEL DESCRIPTION...............................................................................................................19
6. PRINCIPLE OF OPERATION..................................................................................................................2
6.1. MEASUREMENT MODE.................................................................................................................20
6.1.1. Dete tion OF THE PEAK VALUES.......................................................................................21
6.2. PID CONTROLLERS.......................................................................................................................22
6.3. CONTROL OF THE RELAY OUTPUTS.........................................................................................27
6.3.1. One threshold mode...............................................................................................................28
6.3.2. Two thresholds mode.............................................................................................................29
6.3.3. PWM Controlling....................................................................................................................30
7. DEVICE PROGRAMMING.......................................................................................................................32
7.1. PROGRAMMING MENU.................................................................................................................32
7.2. PARAMETERS EDITION................................................................................................................33
7.2.1. Numeri parameters (digit hange mode).............................................................................33
7.2.2. Numeri parameters (slide hange mode).............................................................................33
7.2.3. Swit h parameters (“LIST” type)............................................................................................34
7.3. MENU DESCRIPTION....................................................................................................................34
7.3.1. “rEL1” menu...........................................................................................................................35
7.3.2. “bEEP” menu..........................................................................................................................38
7.3.3. “inPt” menu ( ommon parameters)........................................................................................38
7.3.4. “inPt” menu (parameters of temperature inputs)...................................................................39
7.3.5. “inPt” menu (parameters of urrent and voltage inputs)........................................................39
7.3.6. ”OutP” menu...........................................................................................................................41
7.3.7. “CtrL” Menu............................................................................................................................43
7.3.8. ”bri” parameter........................................................................................................................47
7.3.9. ”HOLd” menu..........................................................................................................................47
7.3.10. ”diSP” menu.........................................................................................................................48
7.3.11. ”SECu” menu........................................................................................................................48
7.3.12. ”rS” menu.............................................................................................................................48
7.3.13. ”Edit” parameter...................................................................................................................49
7.3.14. ”dEFS” parameter................................................................................................................50
7.3.15. ”SErv” menu.........................................................................................................................50
7.4. MENU STRUCTURE.......................................................................................................................51
8. THE ALARM LED.....................................................................................................................................54
9. OVER-CURRENT PROTECTION............................................................................................................54
1 . DISPLAYED VALUES CALCULATION................................................................................................54
10.1. ADDITIONAL CALCULATIONS (USED CONVERSION CHARACTERISTIC)............................54
10.1.1. Linear hara teristi .............................................................................................................55
10.1.2. Square hara teristi ...........................................................................................................55
10.1.3. Square root hara teristi ....................................................................................................56
10.1.4. User defined hara teristi ..................................................................................................56
10.2. EXAMPLES OF CALCULATIONS................................................................................................57
11. SIGNALISATION OF ERRORS IN AUTO-TUNING PROCESS...........................................................61
12. THE MODBUS PROTOCOL HANDLING..............................................................................................62
12.1. LIST OF REGISTERS...................................................................................................................62
12.2. TRANSMISSION ERRORS DESCRIPTION.................................................................................67
12.3. EXAMPLES OF QUERY/ANSWER FRAMES..............................................................................68
13. DEFAULT AND USER'S SETTINGS LIST............................................................................................71
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User manual - CONTROLLER PUR-44D
Explanation of symbols used in the manual:
- This symbol denotes espe ially important guidelines on erning the installation and
operation of the devi e. Not omplying with the guidelines denoted by this symbol
may ause an a ident, damage or equipment destru tion.
IF THE DEVICE IS NOT USED ACCORDING TO THE MANUAL THE USER IS
RESPONSIBLE FOR POSSIBLE DAMAGES.
- This symbol denotes espe ially important hara teristi s of the unit.
Read any information regarding this symbol arefully
1. BASIC REQUIREMENTS AND USER SAFETY
- The manufacturer is not responsible for any damages caused by
inappropriate installation, not maintaining the proper environmental
conditions and using the unit contrary to its assignment.
- Installation should be conducted by qualified personnel . During installation all
available safety requirements should be considered. The fitter is responsible for
executing the installation according to this manual, local safety and EMC
regulations.
- If the device is equipped with PE connector, it should be connected to PE wire.
Otherwise PE wire should be connected to GND connector.
- The unit must be properly set-up, according to the application. Incorrect
configuration can cause defective operation, which can lead to unit damage or
an accident.
- If in the case of a unit malfunction there is a risk of a serious threat to the
safety of people or property additional, independent systems and
solutions to prevent such a threat must be used.
- The unit uses dangerous voltage that can cause a lethal accident. The unit
must be switched off and disconnected from the power supply prior to
starting installation of troubleshooting (in the case of malfunction).
- Neighbouring and connected equipment must meet the appropriate standards
and regulations concerning safety and be equipped with adequate overvoltage
and interference filters.
- Do not attempt to disassemble, repair or modify the unit yourself. The unit
has no user serviceable parts. Defective units must be disconnected and
submitted for repairs at an authorized service centre.
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User manual - CONTROLLER PUR-44D
- In order to minimize fire or electric shock hazard, the unit must be protected
against atmospheric precipitation and excessive humidity.
- Do not use the unit in areas threatened with excessive shocks, vibrations, dust,
humidity, corrosive gasses and oils.
- Do not use the unit in areas where there is risk of explosions.
- Do not use the unit in areas with significant temperature variations, exposure to
condensation or ice.
- Do not use the unit in areas exposed to direct sunlight.
- Make sure that the ambient temperature (e.g. inside the control box) does not
exceed the recommended values. In such cases forced cooling of the unit must
be considered (e.g. by using a ventilator).
The unit is designed for operation in an industrial environment and must
not be used in a household environment or similar.
2. GENERAL CHARACTERISTICS
The UR-44D device has a universal input that can be configured to work as: a current
input (in the range 0 - 20mA), as a voltage input (in the range 0-10V and 0-150 mV), as an
RTD input (operating with Pt 100/500/1000 sensors) and as a TC input (operating K, S, J, T,
N, R, B and E type thermocouples). The device automatically compensates the temperature of
cold junction of thermocouple sensor. RTD and TC inputs feature full linearization of
characteristics. Only one input type can be used at a time. The exact measurement ranges of
the inputs are quoted in the next chapter. The measurement is shown on a 4-digit LED display.
The device can be equipped with 1 or 2 relay outputs, 1 or 2 OC-type outputs or 1 relay
output and 1 OC-type output. Relay and OC-type outputs can be controlled from the
measuring inputs via Modbus protocol or a PID controller implemented in the device with two
control loops and an auto-tuning option. Optionally, the device (in version with two relays and
OC-type output) can be equipped with: an active current output, a passive isolated current
output or an active voltage output. An RS-485 communication interface and a sensor
transducer power supply output are available as standard. The device is available in two
power supply versions.
Exact description of functions is provided in further section of the instruction.
The UR-44D is designed to regulate such processes as heating / cooling temperatures
with adjustable delay times for the operation of the output relays and controlling of valve
levels.
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User manual - CONTROLLER PUR-44D
3. TECHNICAL DATA
Power supply voltage
(depending on version)
External fuse (required)
Power consumption
85...230...260V AC/DC; 50 ÷ 60 Hz (separated)
or 19...24...50V DC and 16...24...35V AC (separated)
or 11.4...12...15V AC/DC (separated)
T - type, max. 2 A
max. 2.5 VA @ 85 ÷ 260V AC/DC
max. 2.5 VA @ 16V ÷ 35V AC
max. 2.5 W @ 19V ÷ 50V DC
max. 2.5 VA @ 11.4V ÷ 15V AC/DC
Current input (20 mA) 0÷20 mA, 4÷20 mA overload protected,
input current is limited to 50 mA (typically)
Current measurement accuracy ± 0.1% @ 25°C; ± one digit (for 0÷20 mA range)
Current input resistance < 65 W (typical 30 W)
Accepted prolonged input overload 20%
Voltage input (10V range) 0÷5 V, 1÷5 V, 0÷10 V, 2÷10 V
Voltage measurement accuracy ± 0.1% @ 25°C; ± one digit (for 0÷10 V range)
Voltage input resistance > 100 kW (while maintaining correct polarization)
Accepted prolonged input overload 20%
Voltage input (150mV range) 0÷60 mV, 0÷75 mV, 0÷100 mV, 0÷150 mV
Voltage measurement accuracy ± 0.1% @ 25°C; ± one digit (for 0÷150 mV range)
Voltage input resistance > 1,5 MW
Accepted prolonged input overload 20%
RTD input (resistive) Pt 100, Pt 500,Pt 1000
Measurement range -100°C ÷ +600°C
Measurement accuracy ± 0,1% @ 25°C; ± one digit
Measurement wires resistance max. 20 W (every wire)
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User manual - CONTROLLER PUR-44D
Thermocouple input K, S, J, T, N, R, B, E
Thermocouple input range K: -200˚C ÷ +1370˚C
S: -50˚C ÷ +1768˚C
J: -210˚C ÷ +1200˚C
T: -200˚C ÷ + 400˚C
N: -200˚C ÷ +1300˚C
R: -50˚C ÷ +1768˚C
B: +250˚C ÷ +1820˚C
E: -200˚C ÷ +1000˚C
Measurement accuracy K, J, E: ± 0.1% @ 25°C; ± one digit
N: ± 0.2% @ 25°C; ± one digit
S, T, R, B: ± 0.5% @ 25°C; ± one digit
Accuracy of cold ends temperature
compensation
± 1˚C
Sensor power supply output 24V +5%, -10%, stabilized
max. 100 mA (50 mA @ 11.4V ÷ 15V AC/DC)
Relay output 0, 1 or 2 NO, 5A/250V AC (resistance)
3A/250V AC (reactance)
OC-type output 0, 1 or 2; 100 mA / 30V DC
Active current output
(optional, for two relays and one
OC-type output version only)
range max. 0 ÷ 24 mA
Load resistance max. 700 W
assive isolated current output
(optional, for two relays and one
OC-type output version only)
range max. 2.8 ÷ 24 mA
Supply voltage s = 9.5 ÷ 36V
Load resistance max. ( s – 9.5V) / 24mA [kW]
Active voltage output
(optional, for two relays and one
OC-type output version only)
range max. 0 ÷ 11V
Load resistance min. 2000 W
Temperature stability 50 ppm / °C
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User manual - CONTROLLER PUR-44D
Communication interface RS-485, 8N1 and 8N2, Modbus RT , not separated
Baud rate 1200 bit/s ÷ 115200 bit/s
Displays
(depending on version)
LED, main PV 9 mm height red,
auxiliary SV 7 mm height green
or
LED, main PV 9 mm height green,
auxiliary SV 7 mm height red,
Display range -999 ÷ 9999 plus decimal point
Data memory non-volatile memory, EEPROM type
Front panel protection IP 65
optional version with panel cut-out sealing available
Terminals protection IP 20
Housing type
Housing material
Housing dimensions
Mounting hole
Assembly depth
Panel thickness
panel
NORYL - GFN2S E1
48 x 48 x 100 mm
43 x 43 mm
102 mm
max. 5 mm
Operating temperature
(depending on version)
0°C to +50°C
or -20°C to +50°C
Storage temperature
(depending on version)
-10°C to +70°C
or -20°C to +70°C
Humidity
Altitude
5 to 90% no condensation
up to 2000 meters above sea level
Screws tightening max. torque 0,5 Nm
Max. connection leads cross
section
1.5 mm2
Safety requirements according to: EN 61010-1
installation category: II
pollution degree: 2
voltage in relation to ground: 300 V AC
insulation resistance: >20 MW
insulation strength between power supply and
input/output terminal: 1min. @ 3000 V AC
insulation strength between relays terminal:
1 min. @ 2300 V AC
EMC according to: EN 61326-1
This equipment is not intended for use in residential environments and may
not provide adequate protection to radio reception in such environments.
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User manual - CONTROLLER PUR-44D
4. DEVICE INSTALLATION
The unit has been designed and manufactured in a way assuring a high level of user
safety and resistance to interference occurring in a typical industrial environment. In order to
take full advantage of these characteristics installation of the unit must be conducted correctly
and according to the local regulations.
- Read the basic safety requirements on page 3 prior to starting the installation.
- Ensure that the power supply network voltage corresponds to the nominal
voltage stated on the unit’s identification label.
- The load must correspond to the requirements listed in the technical data.
- All installation works must be conducted with a disconnected power supply.
- Protecting the power supply connections against unauthorized persons must be
taken into consideration.
4.1. UNPACKING
After removing the unit from the protective packaging, check for transportation damage.
Any transportation damage must be immediately reported to the carrier. Also, write down the
unit serial number located on the housing and report the damage to the manufacturer.
Attached with the unit please find:
- user’s manual,
- warranty,
- assembly brackets - 2 pieces.
4.2. ASSEMBLY
- The unit is designed for mounting inside housings (control panel, switchboard)
insuring appropriate protection against surges and interference. Metal housings
must be connected to ground in a way that complies with the governing
regulations.
- Disconnect the power supply prior to starting assembly.
- Check the connections are wired correctly prior to switching the unit on.
In order to install the unit, a 43 x 43 mm mounting hole (Figure 4.1) must be
prepared. The thickness of the material of which the panel is made must not exceed
5mm. When preparing the mounting hole take the grooves for catches located on
both sides of the housing into consideration (Figure 4.1). Place the unit in the
mounting hole inserting it from the front side of the panel, and then fix it using the
brackets (Figure 4.2). The minimum distances between the centre points of multiple
units - due to the thermal and mechanical conditions of operation - are 67 mm x
67 mm (Figure 4.3).
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User manual - CONTROLLER PUR-44D
4.3. CONNECTION METHOD
Caution
- Installation should be conducted by qualified personnel. During installation all
available safety requirements should be considered. The fitter is responsible for
executing the installation according to this manual, local safety and EMC
regulations.
- The unit is not equipped with an internal fuse or power supply circuit breaker.
Because of this an external time-delay cut-out fuse with a small nominal current
value must be used (recommended bipolar, max. 2A) and a power supply circuit-
breaker located near the unit. In the case of using a monopolar fuse it must be
mounted on the phase cable (L).
- The power supply network cable diameter must be selected in such a way that in
the case of a short circuit of the cable from the side of the unit the cable shall be
protected against destruction with an electrical installation fuse.
- Wiring must meet appropriate standards and local regulations and laws.
- In order to secure against accidental short circuit the connection cables must be
terminated with appropriate insulated cable tips.
- Tighten the clamping screws. The recommended tightening torque is 0.5 Nm.
Loose screws can cause fire or defective operation. Over tightening can lead to
damaging the connections inside the units and breaking the thread.
- In the case of the unit being fitted with separable clamps they should be inserted
into appropriate connectors in the unit, even if they are not used for any
connections.
- Unused terminals (marked as n.c.) must not be used for connecting any
connecting cables (e.g. as bridges), because this can cause damage to the
equipment or electric shock.
- If the unit is equipped with housing, covers and sealing to, protecting against
water intrusion, pay special attention to their correct tightening or clamping. In the
case of any doubt consider using additional preventive measures (covers, roofing,
seals, etc.). Carelessly executed assembly can increase the risk of electric shock.
- After the installation is completed do not touch the unit’s connections when it is
switched on, because it carries the risk of electrical shock.
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User manual - CONTROLLER PUR-44D
Due to possible significant interference in industrial installations appropriate measures
assuring correct operation of the unit must be applied. To avoid the unit of improper
indications keep recommendations listed below.
–Avoid running signal cables and transmission cables together with power supply cables
and cables controlling inductive loads (e.g. contactors). Such cables should cross at
a right angle.
–Contactor coils and inductive loads should be equipped with interference protection
systems, e.g. RC-type.
–se of screened signal cables is recommended. Signal cable screens should be
connected to the earthing only at one of the ends of the screened cable.
–In the case of magnetically induced interference the use of twisted pair of signal cables is
recommended. Twisted pair (best if shielded) must be used with RS-485 serial
transmission connections.
–In the case of measurement or control signals are longer than 30m or go outside of the
building then additional safety circuits are required.
–In the case of interference from the power supply side the use of appropriate interference
filters is recommended. Bear in mind that the connection between the filter and the unit
should be as short as possible and the metal housing of the filter must be connected to
the earth with the largest possible surface. The cables connected to the filter output must
not be run with cables with interference (e.g. circuits controlling relays or contactors).
Connections of power supply voltage and measurement signals are executed using the
screw connections on the back of the unit’s housing.
Figure 4.4. Method of able insulation removal and able terminals dimensions
All connections must be made while power supply is disconnected !
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6-7 mm
Max. 1.5 mm
User manual - CONTROLLER PUR-44D
Figure 4.5. Terminals des ription: power supply, sensor power supply output, RS-485
Figure 4.6. Terminals des ription: a) one relay output; b) two relay outputs
Figure 4.7. Terminals des ription: a) one OC-type output; b) two OC-type outputs
Figure 4.8. Terminals des ription: one relay output and one OC-type output
13
5 6 7 8
GND DATA+
DATA-
RS - 485
+ Uo
Sensor power supply output
+24V +5%, -10%
Imax = 100mA/50mA
ower
supply
1 2
(depending on version)
9 10 11 12
R1
OC2
- +
max = 30V DC
Imax = 100mA
OC2
- +
max = 30V DC
Imax = 100mA
9 10 11 12
OC1
- +
b)
9 10 11 12
n.c. n.c.
OC1
- +
max = 30V DC
Imax = 100mA
a)
9 10 11 12
R2 R1
b)
9 10 11 12
R1
n.c. n.c.
a)
User manual - CONTROLLER PUR-44D
Figure 4.9. Terminals des ription: a) a tive urrent output; b) a tive voltage output; )
passive urrent output
Figure 4.10. Terminals des ription of universal input
Figure 4.11. Conne tion of 2-wire urrent transdu er
14
5 6
24V DC
- +
+ -
+
-
+
-
internally connected
31 32 33 34 35 31 32 33 34 35
ACTIVE
Current output
- +
3 4
a)
ACTIVE
Voltage output
- +
3 4
b)
Isolated
ASSIVE
Current output
3 4
)
31 32 33 34 35
TC
33 34
+-
V
+
mA
RTD
RTD
31 34
mV
+
User manual - CONTROLLER PUR-44D
Figure 4.12. Conne tion of 3-wire urrent transdu er
Figure 4.13. Conne tion of voltage transdu er
Temperature sensor can be connected to the device in typical 4-wire circuit (Figure 4.14a) or
3-wire circuit (Figure 4.14b). Due to precision of measurement 4-wire circuit is recommended.
If 2 wire circuit is used, the resistance of wires should be as small as possible, to
avoid of measurement errors. Measured value can be corrected (constant
correction) using „toFS” parameter from menu „in t”. Due to low precision 2-wire
connection is not recommended.
When 4-wires or 2-wires connection is used, the resistance of particular wires
(Ra ÷ Rd) CAN BE DIFFERENT. When 3-wires connection is used, the resistance of particular
wires (Ra ÷ Rd) MUST BE IDENTICAL to enable proper compensation of it's resistance. The
resistance of particular wire should not be greater than 20
W .
15
+ -
5 6 24V DC
+ -
internally connected
-
+
+
-
31 32 33 34 35 31 32 33 34 35
+ -
5 6 24V DC
+ -
internally connected
-
++
+
-
+
31 32 33 34 35
31 32 33 34 35
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User manual - CONTROLLER PUR-44D
a) b) c)
Figure 4.14. Conne tion of RTD sensors:
a) 4-wires ir uit; b) 3-wires ir uit; ) 2-wires ir uit
The connection circuit should not be changed while unit is powered. While using
TC, RTD or voltage inputs (0-150mV) the device is able to detect wire breaks. Wire
breaks are detected within about 2 seconds. For connectors number 32 and 33 of
RTD input it may take up to about 7 seconds. During detection measurements will
be incorrect. If wire break is detected "S.Err" (sensor error) message is displayed.
Depending on version:
85...23 ...260V AC/DC or
19...24...50V DC; 16...24...35V AC
11.4...12...15V AC/DC
Figure 4.15. Conne tion of power supply and relays
Contacts of relay outputs are not equipped with spark suppressors. While use
the relay outputs for switching of inductive loads (coils, contactors, power
relays, electromagnets, motors etc.) it is required to use additional
suppression circuit (typically capacitor 47nF/ min. 250VAC in series with
100R/5W resistor), connected in parallel to relay terminals or (better) directly
on the load. In consequence of using the suppression circuit, the level of
generated electromagnetic disturbances is lower, and the life of relay contacts
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RTD
Ra Rb Rc Rd
Ra, Rb, Rc, Rd can be different
31 32 33 34
RTD
Ra Rc Rd
Ra = Rc =
Rd
n.c.
31 32 33 34 31 32 33 34
Ra Rc
n.c.
RTD
n.c.
Ra, Rc can be different
FUSE
1 2
L N
L N
9 10 11 12
FUSE
R2 R1
User manual - CONTROLLER PUR-44D
rises.
a) b)
Figure 4.16. Examples of suppression ir uit onne tion:
a) to relay terminals; b) to the indu tive load
Figure 4.17. Example of OC-type outputs onne tion
(for devi e with OC-type output only)
17
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N
9 10 9 10
LL
N
!
5 6
11 12
+
voltage input
24 V
-
Logic controller
- +
OC1
+ -
Uo
5 6
11 12
- +
OC1
+ -
Uo
R
2k2
LED 10 mA
User manual - CONTROLLER PUR-44D
Figure 4.18. Example of a tive urrent outputs onne tion
(for devi e with a tive urrent output only)
Figure 4.19. Example of passive urrent outputs onne tion
(for devi e with passive urrent output only)
Figure 4.20. Example of a tive voltage outputs onne tion
(for devi e with a tive voltage output only)
18
+
current input
0-20 mA
-
Logic controller
3 4
- +
ACTIVE
current output
+
voltage input
0 - 10V
-
Logic controller
3 4
- +
ACTIVE
voltage output
- +
current input
4-20 mA
Logic controller
3 4 5 6
ASSIVE
current output Uo
+ -
Isolation loss
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User manual - CONTROLLER PUR-44D
4.4. MAINTENANCE
The unit does not have any internal replaceable or adjustable components available to
the user. Pay attention to the ambient temperature in the room where the unit is operating.
Excessively high temperatures cause faster ageing of the internal components and shorten the
fault-free time of the unit's operation.
In cases where the unit gets dirty do not clean with solvents. For cleaning use warm water with
small amount of detergent or in the case of more significant contamination ethyl or isopropyl
alcohol.
sing any other agents can cause permanent damage to the housing.
Product marked with this symbol should not be placed in municipal waste. Please
check local regulations for disposal of electronic products.
5. FRONT PANEL DESCRIPTION
Symbols and functions of push-buttons:
Symbol used in the manual: [ESC/MENU]
Functions:
• Enter to main menu ( press and hold by at least 2 sec.),
• Exit the current level and Enter to previous menu (or measure mode),
• Cancel the changes made in parameter being edited.
Symbol used in the manual: [ENTER]
Functions :
• Start to edit the parameter,
• Enter to the sub-menu,
• Confirmation of changes made in parameter being edited.
Symbol used in the manual: [^] [v]
Functions :
• Change of the present menu,
• Modification of the parameter value,
• Change of the display mode.
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MENU
ESC
ENTER
MENU
ESC ENTER
AL
R1
R2
9 mm PV
main display
Thresholds ex eeding
LED indi ators (R)
alarm LED indi ator (AL)
programming
pushbuttons
7 mm SV
auxiliary display
User manual - CONTROLLER PUR-44D
6. PRINCIPLE OF OPERATION
After turning the power supply on, device ID and software version are showed on the
display, next the controller goes to the measurement mode.
6.1. MEASUREMENT MODE
In the measure mode, the measurement results, converted over selected characteristic,
are displayed on the LED display. The measurement range equal to the nominal range is
called: nominal measurement range, and the measurement range equal to the extended
nominal range is called: permissible measurement range (Figure 6.1, 6.2).
For temperature inputs (TC and RTD) there is linear characteristic available only.
For this kind of inputs nominal measurement range, and permissible
measurement range are the same (no range extension available, Figure 6.3).
Figure 6.1. Definitions of measurement ranges in mode 4 ÷ 20mA
If the result of measurement exceeds the permissible measurement range, warning
”-Hi-” or ”-Lo-” is displayed rather than input signal, depending on exceeded value (see
description of “Lo r” and “Hi r” parameters, paragraph ”inPt” menu). The warning can be
effect of measurement circuit malfunction. In that case “-Lo-” means shortcut and “-Hi-”
means break of measurement circuit. If sensor failure will be detected (e.g. broken wires), then
”S.Err” warning will be displayed.
Figure 6.2. Definitions of measurement ranges in mode 0 ÷ 150mV
If the measurement value do not exceeds permissible measurement range but
displayed value exceeds range -999 ÷ 9999, the warning ”-Ov-” is displayed rather
than the calculated result.
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”Lo r” parameter ”Hi r” parameter
4 mA 20 mA
permissible measurement range
nominal measurement range
”Hi r” parameter
0 mV 150 mV
permissible measurement range
nominal measurement range
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