Eurotherm MKP/PKP User guide

Type
User guide
UU
UU
U
USER MANUALUSER MANUAL
USER MANUALUSER MANUAL
USER MANUAL
PKPPKP
PKPPKP
PKP
MKPMKP
MKPMKP
MKP
170.IU0.XKP.0E1 11/10
XKP-0-E1.pmd 08/11/2010, 10.021
XKP-0-E1.pmd 08/11/2010, 10.022
INDEXINDEX
INDEXINDEX
INDEX
MOUNTING REQUIREMENTS .................................................... 1
OUTLINE AND CUT OUT DIMENSIONS ..................................... 2
CONNECTION DIAGRAMS ........................................................ 4
PRELIMINARY HARDWARE SETTINGS ................................... 19
SECURITY CODE SETTING MODE .......................................... 23
RUN TIME AND CONFIGURATION MODES ............................. 26
GENERAL NOTE ABOUT GRAPHIC SYMBOLS
USED FOR MNEMONIC CODE VISUALIZATION. ....... 26
KEYBOARD DESCRIPTION ......................................... 27
CONFIGURATION MODE .................................................... 28
MONITOR MODE .......................................................... 29
MODIFY MODE ............................................................. 30
RUN TIME MODE ................................................................. 68
PRELIMINARY .............................................................. 68
CONTROL PARAMETERS ............................................ 69
CONTROL PARAMETERS PROTECTION.................... 69
CONTROL PARAMETERS MODIFICATION. ...................... 69
PROGRAMMER MODE .......................................................... 101
BARGRAPH DESCRIPTION ............................................104
INDICATORS ..................................................................105
DISPLAY FUNCTION DURING
PROGRAMMER MODE .............................................. 106
OUTPUT POWER OFF FUNCTION............................ 109
CLOCK CALENDAR .................................................... 110
OUT FAILURE DETECTION FUNCTION (OFD) ......... 111
SERIAL LINK............................................................... 111
LAMP TEST ................................................................. 112
MANUAL MODE .......................................................... 112
DIRECT ACCESS TO THE SET POINT ...................... 113
GENERAL NOTES ABOUT PROGRAM EDITING...... 114
EDIT MODE................................................................. 114
SIMPLE PROGRAM MANAGEMENT ......................... 122
LINKED PROGRAM MANAGEMENT.......................... 125
HOW TO CHECK A PROGRAM .................................. 126
HOW TO RUN A PROGRAM (SIMPLE OR LINKED).. 127
ACTIONS AVAILABLE DURING RUNNING MODE .... 128
CONTOLLER MODE .......................................................... 131
DISPLAY FUNCTION DURING
CONTROLLER MODE ................................................ 132
INDICATORS FUNCTION DURING
CONTROLLER MODE ................................................ 134
DIRECT ACCESS TO THE SET POINT ...................... 134
SMART FUNCTION..................................................... 135
OUTPUT POWER OFF FUNCTION............................ 136
ERROR MESSAGES .......................................................... 137
GENERAL INFORMATIONS............................................... 142
MAINTENANCE ......................................................................151
LEGEND ELECTRICAL AND SAFETY SIMBOLS .....................152
DEFAULT PARAMETERS ........................................................ A.1
CODING .............................................................................. A.15
XKP-0-E1.pmd 08/11/2010, 10.023
(Applicable in the countries of the
European Union)
The label on the instruction
manual and on the carton box indicates that
the product, is compliant with the requests of
the European Directive nr. 2002/92/CE regarding
the restriction of hazardous substances in
electric and electronic apparatus.
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1
MOUNTING REQUIREMENTSMOUNTING REQUIREMENTS
MOUNTING REQUIREMENTSMOUNTING REQUIREMENTS
MOUNTING REQUIREMENTS
This instrument is intended for permanent installation,
for indoor use only, in an electrical panel which
encloses the rear housing, exposed terminals and
wiring on the back.
Select a location, for instrument mounting, where
minimum vibrations are present and the ambient
temperature is within 0 and 50 °C (32 and 122 °F).
The instrument can be mounted on a panel up to 15
mm thick with a cutout of 92 x 45 mm (PKP) or 92 x
92 mm (MKP).
For outline and cutout dimensions refer to Fig. 2.
The surface texture of the panel must be better
than 6,3 μm.
The instrument is shipped with rubber panel
gasket.
To assure the IP65 and NEMA 4 protection, insert
the panel gasket between the instrument and the
panel as shown in fig. 1.
While holding the instrument against the panel
proceed as follows:
1) insert the gasket in the instrument case;
2) insert the instrument in the panel cutout;
3) pushing the instrument against the panel;
4) insert the mounting brackets as shown in fig.1;
Fig. 1
Gasket
bracket
bracket
Panel
Screw
Panel
Screw
brackets
Gasket
5) with a screwdriver, turn the screws with a torque between
0.3 and 0.4 Nm.
Screws
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OUTLINE AND CUT OUTOUTLINE AND CUT OUT
OUTLINE AND CUT OUTOUTLINE AND CUT OUT
OUTLINE AND CUT OUT
DIMENSIONSDIMENSIONS
DIMENSIONSDIMENSIONS
DIMENSIONS
Fig. 2.A OUTLINE AND CUT-OUT DIMENSIONS FOR PKP MODEL
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Fig. 2.B OUTLINE AND CUT-OUT DIMENSIONS FOR MKP MODEL
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4
Connections are to be made with the instrument
housing installed in its proper location.
A) MEASURING INPUTSA) MEASURING INPUTS
A) MEASURING INPUTSA) MEASURING INPUTS
A) MEASURING INPUTS
NOTESNOTES
NOTESNOTES
NOTES:
1) Any external component (like zener barriers etc.)
connected between sensor and input terminals
may cause errors in measurement due to
excessive and/or not balanced line resistance or
possible leakage currents.
2)The line must be not longer than 30m or leave the
building.
CONNECTION DIAGRAMSCONNECTION DIAGRAMS
CONNECTION DIAGRAMSCONNECTION DIAGRAMS
CONNECTION DIAGRAMS
Fig. 3 REAR TERMINAL BLOCK
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A.1) TC INPUTA.1) TC INPUT
A.1) TC INPUTA.1) TC INPUT
A.1) TC INPUT
Fig. 4 THERMOCOUPLE INPUT WIRING
NOTESNOTES
NOTESNOTES
NOTES:
1) Don’t run input wires together with power cables.
2) For TC wiring use proper compensating cable preferable
shielded.
3) When a shielded cable is used, it should be connected at
one point only.
3
+
_
Shield
1
3
+
_
Shield
1
4
RTD
13 4
RTD
13
A.2) RTD INPUTA.2) RTD INPUT
A.2) RTD INPUTA.2) RTD INPUT
A.2) RTD INPUT
Fig. 5 RTD INPUT WIRING
NOTESNOTES
NOTESNOTES
NOTES:
1) Don’t run input wires together with power cables.
2) Pay attention to the line resistance; a high line resistance
may cause measurement errors.
3) When shielded cable is used, it should be grounded at one
side only to avoid ground loop currents.
4) The resistance of the 3 wires must be the same.
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Shield
+
_
TX
3
1
11
7
A.3) LINEAR INPUTA.3) LINEAR INPUT
A.3) LINEAR INPUTA.3) LINEAR INPUT
A.3) LINEAR INPUT
Fig. 6 mA, mV AND V INPUTS WIRING
NOTESNOTES
NOTESNOTES
NOTES:
1) Don’t run input wires together with power cables.
2) Pay attention to the line resistance; a high line resistance
may cause measurement errors.
3) When shielded cable is used, it should be grounded at one
side only to avoid ground loop currents.
4) The input impedance is equal to:
< 5 Ω for 20 mA input
> 1 MΩ for 60 mV input
> 200 kΩ for 5 V input
> 400 kΩ for 10 V input
A.4) 2, 3 AND 4-WIRE TRANSMITTER INPUTA.4) 2, 3 AND 4-WIRE TRANSMITTER INPUT
A.4) 2, 3 AND 4-WIRE TRANSMITTER INPUTA.4) 2, 3 AND 4-WIRE TRANSMITTER INPUT
A.4) 2, 3 AND 4-WIRE TRANSMITTER INPUT
Fig. 7.A INPUTS WIRING FOR 2-WIRE TRANSMITTER
Shield
_
+
mA,
mV
or
V
3
1
+
_
G
mA
mV
or
V
1
3
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7
Fig. 7.B INPUTS WIRING FOR 3-WIRE TRANSMITTER
Shield
3
1
11
7
PWR
+
Out
TX
GND
Fig. 7.C INPUTS WIRING FOR 4-WIRE TRANSMITTER
NOTESNOTES
NOTESNOTES
NOTES:
1) Don’t run input wires together with power cables.
2) Pay attention to the line resistance; a high line resistance
may cause measurement errors.
3) When shielded cable is used, it should be grounded at one
side only to avoid ground loop currents.
4) The input impedance is lower than 5 Ω (20 mA input)
Shield
3
1
11
7
PWR
+
Out
+
TX
PWR
_
Out
_
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8
B) AUXILIARY INPUTB) AUXILIARY INPUT
B) AUXILIARY INPUTB) AUXILIARY INPUT
B) AUXILIARY INPUT
Fig. 8 AUXILIARY INPUT WIRING
NOTESNOTES
NOTESNOTES
NOTES:
1) This input is
not isolated not isolated
not isolated not isolated
not isolated from measuring input. A double or
reinforced insulation between instrument output and power
supply must be assured by the external instrument.
2) Don’t run input wires together with power cables.
3) Pay attention to the line resistance; a high line resistance
may cause measurement errors.
8
9
10
11
DIG. 1
DIG. 2
DIG. 3
Shield
_
+
mA
or
V
6
5
+
_
G
mA
or
V
5
6
4) When shielded cable is used, it should be grounded at one
side only to avoid ground loop currents.
5) The input impedance is equal to:
< 5 Ω for 20 mA input
> 200 kΩ for 5 V input
> 400 kΩ for 10 V input
6) The line must be not longer than 30m or leave the building.
C) LOGIC INPUTSC) LOGIC INPUTS
C) LOGIC INPUTSC) LOGIC INPUTS
C) LOGIC INPUTS
Fig. 9.A - LOGIC INPUTS DIG 1, 2, 3 WIRING
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Fig. 9.B - LOGIC INPUTS IN 1, 2, 3 and 4 WIRING
58
59
IN 2
IN 3
56
57
IN 1
60
IN 4
Fig. 9.C - LOGIC INPUTS IN 5, 6, 7 and 8 WIRING
NOTESNOTES
NOTESNOTES
NOTES:
1) Do not run logic input wiring together with power cables.
2) Use an external dry contact capable of switching 0.5 mA,
5 V DC.
3) The instrument needs 110 ms to recognize a contact status
variation.
4) The logic inputs are
NOT NOT
NOT NOT
NOT isolated by the measuring input.
A double or reinforced insulation between instrument input
and power line must be assured by the external element.
5) The line must be not longer than 30m or leave the building.
58
59
IN 6
IN 7
56
57
IN 5
60
IN 8
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3) The minimum active period to perform this measurement is
equal to 120 ms.
4) The input impedance is equal to 20 Ω.
14
15
Load
Current
transformer
D) CURRENT TRANSFORMER INPUTD) CURRENT TRANSFORMER INPUT
D) CURRENT TRANSFORMER INPUTD) CURRENT TRANSFORMER INPUT
D) CURRENT TRANSFORMER INPUT
Fig. 10 CURRENT TRANSFORMER INPUT WIRING
This input allows you to measure and display the current
running in the load, driven by a time proportional control output,
during the ON and OFF periods of the output cycle time. By this
feature it is also available the "Output failure detection" function
(see page 110).
NOTESNOTES
NOTESNOTES
NOTES:
1) This input is
not isolated not isolated
not isolated not isolated
not isolated from measuring input.
2) Do not run current transformer input wiring together with AC
power cables.
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E.1) RELAY OUTPUTSE.1) RELAY OUTPUTS
E.1) RELAY OUTPUTSE.1) RELAY OUTPUTS
E.1) RELAY OUTPUTS
Fig. 11.A RELAY OUTPUTS 1,2,3 and 4 WIRING
OUT 1
23
NC
24
C
25
NO
OUT 2
27
C
NO
28
OUT 3
29
NO - OUT 3
OUT 4
30
C - OUT 3/4
31
NO - OUT 4
26
NC
The outputs from OUT 1 to OUT 4 are equipped with relays
having contact rating equal to 3A/250V AC on resistive load.
WARNINGWARNING
WARNINGWARNING
WARNING: When OUT 3 and 4 are used as independent relay
outputs the addition of the two currents must not exceed 3 A.
Fig. 11.B RELAY OUTPUTS 10 to 14 WIRING
OUT 10
61
NO OUT 10
62
NO OUT 11
NO OUT 12
63
64
NO OUT 13
65
NO OUT 14
66
COMMON
OUT 11
OUT 12
OUT 13
OUT 14
COMMON
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Fig. 11.C RELAY OUTPUTS 15 to 19 WIRING
The outputs from OUT 10 to 19 are equipped with relays having
contact rating equal to 0.5A/250V AC on resistive load.
GENERAL NOTES ABOUT RELAY OUTPUT WIRINGGENERAL NOTES ABOUT RELAY OUTPUT WIRING
GENERAL NOTES ABOUT RELAY OUTPUT WIRINGGENERAL NOTES ABOUT RELAY OUTPUT WIRING
GENERAL NOTES ABOUT RELAY OUTPUT WIRING
1) To avoid electrical shock, connect power line at the end of
the wiring procedure.
2) For power connections use No 16 AWG or larger wires rated for
at last 75 °C.
3) Use copper conductors only.
4) Don’t run input wires together with power cables.
For all relay outputs, the number of operations is 1 x 10
5
at
specified rating.
All relay contacts are protected by varistor against inductive load
with inductive component up to 0.5 A.
The following recommendations avoid serious problems which
may occur, when using relay output for driving inductive loads.
INDUCTIVE LOADSINDUCTIVE LOADS
INDUCTIVE LOADSINDUCTIVE LOADS
INDUCTIVE LOADS
High voltage transients may occur switching inductive loads.
Through the internal contacts these transients may introduce
disturbances which can affect the performance of the
instrument.
For all the outputs, the internal protection (varistor) assures a
correct protection up to 0.5 A of inductive component.
OUT 15
50
NO OUT 15
51
NO OUT 16
NO OUT 17
52
53
NO OUT 18
54
NO OUT 19
55
COMMON
OUT 16
OUT 17
OUT 18
OUT 19
COMMON
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The same problem may occur when a switch is used in series
with the internal contacts as shown in Fig. 12.
Fig. 12 EXTERNAL SWITCH IN SERIES WITH THE
INTERNAL CONTACT
In this case it is recommended to install an additional RC
network across the external contact as shown in Fig. 12
The value of capacitor (C) and resistor (R) are shown in the
following table.
Anyway the cable involved in relay output wiring must be as far
away as possible from input or communication cables.
E.2) VOLTAGE OUTPUTS FOR SSR DRIVEE.2) VOLTAGE OUTPUTS FOR SSR DRIVE
E.2) VOLTAGE OUTPUTS FOR SSR DRIVEE.2) VOLTAGE OUTPUTS FOR SSR DRIVE
E.2) VOLTAGE OUTPUTS FOR SSR DRIVE
Fig. 13 SSR DRIVE OUTPUT WIRING
Logic level 0Logic level 0
Logic level 0Logic level 0
Logic level 0: Vout < 0.5 V DC.
Logic level 1Logic level 1
Logic level 1Logic level 1
Logic level 1:
14 V ± 20 % @ 20 mA
24 V ± 20 % @ 1 mA.
Maximum current = 20 mA.
LOAD
(mA)
<40 mA
<150 mA
<0.5 A
C
(μF)
0.047
0.1
0.33
R
(Ω)
100
22
47
P.
(W)
1/2
2
2
OPERATING
VOLTAGE
260 V AC
260 V AC
260 V AC
+
_
__
__
_
+
24
25
OUT 1
SOLID STATE
RELAY
+
_
__
__
_
+
27
28
OUT 2
SOLID STATE
RELAY
R
C
LOAD
LINE
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Switching modeSwitching mode
Switching modeSwitching mode
Switching mode: isolated zero crossing type.
Rated currentRated current
Rated currentRated current
Rated current: from 50 mA to 1 A.
Rated voltageRated voltage
Rated voltageRated voltage
Rated voltage: from 24 V
RMS
to 240 V
RMS
-10 % +15 % (50/
60Hz)
Load typeLoad type
Load typeLoad type
Load type: resistive load only
NOTESNOTES
NOTESNOTES
NOTES 1) To avoid electrical shock, connect power line at
the end of the wiring procedure.
2) For power connections use No 16 AWG or larger
wires rated for at last 75 °C.
3) Use copper conductors only.
4) Don’t run input wires together with power cables.
5) This output is not fuse protected. Please, provide it
externally using a fuse with a I
2
t equal to128.
23
Load
24
Line
26
Load
27
Line
OUT 1
OUT 2
NOTENOTE
NOTENOTE
NOTE: This output is not isolated.
A double or reinforced insulation between instrument output and
power supply must be assured by the external solid state relay.
E.3) TRIAC OUTPUTSE.3) TRIAC OUTPUTS
E.3) TRIAC OUTPUTSE.3) TRIAC OUTPUTS
E.3) TRIAC OUTPUTS
Fig. 14 TRIAC OUTPUT WIRING
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The two relay output must be interlocked (see chapter
"Preliminary hardware setting" paragraph "Out 3 and 4
selection").
NOTESNOTES
NOTESNOTES
NOTES:
1) Before connecting the instrument to the power line, make sure
that line voltage and the load current are in accordance with the
contact rating (3A/250V AC on resistive load).
2) To avoid electric shock, connect power line at the end of the
wiring procedure.
3) For servomotor connections use No 16 AWG or larger wires
rated for at last 75 °C.
4) Use copper conductors only.
5) Don’t run input wires together with power cables.
6) For feedback potentiometer, use shielded cable with the shield
connected to the earth at one point only.
7) The relay outputs are protected by varistors against
inductive load with inductive component up to 0.5 A.
E.4) SERVOMOTOR OUTPUTE.4) SERVOMOTOR OUTPUT
E.4) SERVOMOTOR OUTPUTE.4) SERVOMOTOR OUTPUT
E.4) SERVOMOTOR OUTPUT
Fig. 15 SERVOMOTOR OUTPUT WIRING
29
30
31
Servo-
motor
Power
line
12
13
14
(Open the valve)
(Close the valve)
Feedback
potentiom-
eter
Shield
(Open)
(Close)
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E.5) ANALOG OUTPUTSE.5) ANALOG OUTPUTS
E.5) ANALOG OUTPUTSE.5) ANALOG OUTPUTS
E.5) ANALOG OUTPUTS
Fig. 16.A OUTPUT 5 WIRING
Fig. 16.B OUTPUT 6 WIRING
NOTENOTE
NOTENOTE
NOTE:
1) Do not run analog output wirings together with AC power
cables.
2) Out 5 and 6 are isolated outputs.
3) The maximum load is equal to 600 Ω.
+
_
Shield
_
+
17
+
_
G
16
17
16
OUT 5
OUT 5
20 mA20 mA
+
_
Shield
_
+
19
18
OUT 6
20 mA
+
_
+
_
G
18
19
OUT 6
20 mA
+
_
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Eurotherm MKP/PKP User guide

Type
User guide

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