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Ascon Tecnologic - KX5P Line - ENGINEERING MANUAL - PAG. 19

[97] oPEr - Operative mode selection

Available: 

Always.

Range: • 

When [96] oPr.E = ALL:

 

Auto  Auto mode;

 

oPLo  Manual mode;

 

St.bY  Stand by mode.

•  When [96] oPr.E = Au.oP:

 

Auto  Auto mode;

 

oPLo  Manual mode.

•  When [96] oPr.E = Au.Sb:

 

Auto  Auto mode;

 

St.bY  Stand by mode.

]

Ser group - Serial link parameter

[98] Add - Instrument address

Available: 

Always.

Range: 

oFF 

Serial interface not used;

1... 254.

[99] bAud - Baud rate 

Available: 

When [98] Add different from oFF.

Range: 

1200 

1200 baud;

2400 

2400 baud;

9600 

9600 baud;

19.2 

19200 baud;

38.4 

38400 baud.

[100] trSP - Selection of the value to be  

retransmitted 

(Master)

Available: 

When [98] Add different from oFF.

Range: 

nonE 

Retransmission not used (the instrument is 
a slave);

rSP 

The instrument becomes a Master and 
retransmits the operative set point;

PErc 

The instrument becomes a Master and 
retransmits the power output.

Note: 

For more details see [82] SP.rt (Remote set point type)  
parameter.

]

CAL group - User calibration group

This function allows to calibrate the complete measuring 
chain and to compensate the errors due to:

 

Sensor location;

 

Sensor class (sensor errors);

 

Instrument accuracy.

[101] AL.P - Adjust Low Point

Available: 

Always.

Range: 

-1999...  (AH.P - 10) engineering units.

Note: 

The minimum difference between AL.P and AH.P is 
equal to 10 Engineering Units.

[102] ALo - Adjust Low Offset 

Available: 

Always.

Range: 

-300... +300 engineering units.

[103] AH.P - Adjust High Point

Available: 

Always.

Range: 

From (AL.P + 10) to 9999 engineering units.

Note: 

The minimum difference between AL.P and AH.P is 
equal to 10 Engineering Units.

[104] AH.o - Adjust High Offset 

Available: 

Always.

Range: 

-300... +300 Engineering Units.

Example:

 Environmental chamber with 10... 100°C of 

operative range.

1. 

Insert in the chamber a reference sensor connected with 
a reference instrument (usually a calibrator).

2. 

Start the control of the instrument, and set a set point 
equal to the minimum value of the operative range (e.g.: 
10°C).  When the temperature in the chamber is steady, 
take note of the temperature measured by the reference 
system (e.g.: 9°C).

3. 

Set [138] AL.P = 10 (low working point) and [139] ALo = -1 
(the difference between the reading of the instrument and 
the reading of the reference system).  Note that after this 
set, the measured value of the instrument is equal to the 
measured value of the reference system.

4. 

Set a set point equal to the maximum value of the 
operative range (e.g.: 100°C).  When the temperature 
in the chamber is steady, take note of the temperature 
measured by the reference system (e.g.: 98°C).

5. 

Set [140] AH.P = 100 (low working point) and [141] AHo = +2 
(the difference between the reading of the instrument and 
the reading of the reference system).  Note that after this 
set, the measured value of the instrument is equal to the 
measured value of the reference system.

AH.P 100°C

AH.o = 2

AL.o = -1

AH.P 10°C

Real curve

Modified curve

Note: 

Parameters from [105] to [125] are reserved.

]

PrG Group - Programmer function parameters

These instruments are equipped with 2 pages of 4 program 
each (8 programs total).
Each program is composed by 6 groups of 2 steps each (12 
steps total) 
The first step is a ramp (used to reach the desired set point), 
the second is a soak (on the desired set point).
When a RUN command is detected the instrument aligns 
the operative set point to the measured value and starts to 
execute the first ramp of the selected program.
When you need a program with more than 12 segments it is 
possible to link the selected program with the next one.

Example:

You are preparing the Page 1, Program 1 but you need 20 steps.
At the end of the 12 segments of Program 1 you will find a 
parameter “[164] P1.c2 – Program 1 continue on Program 2”; 
setting YES you will link Program 1 with Program 2.
Now you can program the 8 steps (of Program 2) necessary 
to complete your profile.
Running Program 1, the instrument performs the first 
program followed by the 8 steps of program 2.
In addition, every soak is equipped with a wait band which 
suspends the time count when the measured value goes out 
of the defined band (guaranteed soak).
Moreover, for each segment it is possible to define the status 

Содержание KX5P

Страница 1: ...on the back Select a mounting location having the following characteristics 1 It should be easily accessible 2 There is minimum vibrations and no impact 3 There are no corrosive gases 4 There are no w...

Страница 2: ...ected at one point only 4 Pay attention to the line resistance a high line resistance may cause measurement errors 2 3 Inputs 2 3 1 Thermocouple Input 1 2 _ Continuity detection current 250 nA Cold ju...

Страница 3: ...en by 24 VDC Digital input 1 Digital input 2 4 5 6 Logic status 1 6 24 VDC Logic status 0 0 3 VDC 2 4 Outputs Safety notes To avoid electrical shocks connect power line at last For supply connections...

Страница 4: ...50 V RS 485 Voltage levels According to EIA standard Protocol type MODBUS RTU Byte format 8 bit with no parity Stop bit 1 one Baud rate Programmable between 1200 38400 baud Address Programmable betwee...

Страница 5: ...ure drift It is part of the global accuracy Operating temperature 0 50 C 32 122 F Storage temperature 30 70 C 22 158 F Humidity 20 85 RH not condensing Electromagnetic compatibility and safety require...

Страница 6: ...r display is lit We define all the above described conditions as Standard Display 5 3 How to enter the Configuration mode The configuration parameters are collected in various groups Every group defin...

Страница 7: ...linear 0 10 0 10 V linear 2 10 2 10 V linear When the code of the input type is equal to e see How to order paragraph J TC J 50 1000 C 58 1832 F crAL TC K 50 1370 C 58 2498 F S TC S 50 1760 C 58 3200...

Страница 8: ...G2 U the instrument forces 12 diF2 parameter to nonE If 11 diF1 was equal to SP4 or UPDN it will be forced to nonE 4 The transfer from 9 io4F on to 9 io4F Out4 makes parameter 24 O4F visible equal to...

Страница 9: ...of range or burn out indicator P FAL Power failure indicator bo PF Out of range Burnout and Power failure indicator St By Stand By status indicator diF1 Repeates the digital input 1 status diF2 Repeat...

Страница 10: ...rom serial link H rEG Heating output c rEG Cooling output AL Alarm output P End Program end indicator P HLd Program hold indicator P uit Program wait indicator P run Program run indicator P Et1 Progra...

Страница 11: ...ff off off ON ON ON ON 2 The SE br sensor break alarm will be ON when the display shows indication 29 Ab1 Alarm 1 function Available When 28 AL1t is different from nonE Range 0 15 with the following r...

Страница 12: ...ysteresis equal to 25 C 34 AL1d Alarm 1 delay Available When 28 AL1t is different from nonE Range From oFF 0 to 9999 seconds Note The alarm goes ON only when the alarm condition persists for a time lo...

Страница 13: ...arm with alarm indication out of the band LHAi Absolute band alarm with alarm indication inside the band SE br Sensor break Note The relative alarm are relative to the current set point this may be di...

Страница 14: ...plication example LbAt LBA time 120 seconds 2 minutes LbAS delta LBA 5 C The machine has been designed in order to reach 200 C in 20 minutes 20 C min When the PID demands 100 power the instrument star...

Страница 15: ...ctive only in this two cases Setting a value between 0 00 and 1 00 it is possible to slow down the instrument action during set point approach Setting Fuoc 1 this function is disabled PV SP time 2 1 3...

Страница 16: ...is lower or equal to SS tH parameter SP Group Set point parameters The SP group will be available only when at least one output is programmed as control output H rEG or C rEG 74 nSP Number of used se...

Страница 17: ...equal to 50 In this way the thermal profile will be the following Master SP 210 C Second zone SP 210 45 165 C Third zone SP 210 45 165 C Fourth zone SP 210 30 180 C Fifth zone SP 210 40 250 C Sixth z...

Страница 18: ...quence in order to show that the instru ment is working correctly If an alarm occurs or a button is pressed the display returns to the normal operation 93 FiLd Filter on the displayed value Available...

Страница 19: ...n the chamber is steady take note of the temperature measured by the reference system e g 9 C 3 Set 138 AL P 10 low working point and 139 ALo 1 the difference between the reading of the instrument and...

Страница 20: ...HMI interface in order to make the instrument easy to use for the operator and comfortable for the assistance By a special procedure named promotion the OEM can create two parameter subsets The first...

Страница 21: ...shows the power output the MAN LED is ON and the instrument allows to set manually the control output power No Automatic action will be made In Stand by mode the instrument operates as an indicator I...

Страница 22: ...r promoted in the Limited Access level but it is important that all changes are made by authorized personnel only In this cases proceed as follows 1 Press the button for more than 5 seconds 2 The uppe...

Страница 23: ...6 1 Additional information This instrument is able to show some additional information that can help managing the system The additional information are related to how the instrument is programmed hen...

Страница 24: ...we use Program 1 as example Pr1 Group Program 1 129 P1 F Program 1 action at power up Available Always Range nonE Program not used S uP d Start at power up with a first step in stand by S uP S Start a...

Страница 25: ...of the third group equal to OFF The instrument will mask all the following parameters of the program in editing 140 P1 G2 Gradient of the second ramp Available When 129 P1 F is different from nonE an...

Страница 26: ...erent from oFF and 154 P1 S5 is different from oFF Range 0 1 999 9 enginering units per minute inF Step transfer 156 P1 t5 Time of the fifth soak Available When 129 P1 F is different from nonE 139 P1...

Страница 27: ...ere is not a ninth program For more details see Pr1 group 8 2 How to exit from program editing When you want to come back to the standard display push the button for more than 5 seconds Note The param...

Страница 28: ...point updating and time count are stopped and the instrument operates as controller with fixed set point The HOLD mode may be activated Setting 128 Pr St parameter HoLd A short pressure of the button...

Страница 29: ...nge or an under range is detected the alarms operate as in presence of the maximum or the minimum measurable value respectively To check the out of span Error condition proceed as follows 1 Check the...

Страница 30: ...THE EQUIPMENT OFF power supply relay output etc 2 Using a vacuum cleaner or a compressed air jet max 3 kg cm2 remove all deposits of dust and dirt which may be present on the case and on the internal...

Страница 31: ...al Point Position linear inputs 0 0 3 0 Decimal Point Position different than linear inputs 0 1 3 SSc Initial scale read out for linear inputs dp 1999 9999 0 4 FSc Full Scale Readout for linear inputs...

Страница 32: ...st 15 Ao1L Initial scale value of the analog retransmission dP 1999 Ao1H 1999 16 Ao1H Full scale value of the analog retransmission dP Ao1L 9999 9999 17 o1AL Alarms linked up with the out 1 0 0 63 1 A...

Страница 33: ...AL Alarm output P End Program end indicator P HLd Program hold indicator P uit Program wait indicator P run Program run indicator P Et1 Program Event 1 P Et2 Program Event 2 or bo Out of range or Bur...

Страница 34: ...m 2 function 0 0 15 1 Not active at power up 2 Latched alarm manual reset 4 Acknowledgeable alarm 8 Relative alarm not active at set point change 0 38 AL2L For High and low alarms it is the low limit...

Страница 35: ...control with neutral zone 3Pt Servomotor control available only when Output 2 and Ou tput 3 have been ordered as M Pid 57 Auto Autotuning selection 0 4 Oscillating auto tune with automatic restart at...

Страница 36: ...he value will be scaled on the input range and this value will be used as remote SP trin 83 SPLr Local remote set point selection 0 Loc Local rEn Remote Loc 84 SP u Rate of rise for POSITIVE set point...

Страница 37: ...he measured value PErc Percent of the power output used during soft start when the soft start time is equal to infinite the limit is ever active and it can be used also when ON OFF control is selected...

Страница 38: ...ith a first step in stand by nonE 130 P1 u Program 1 Time unit of the soaks 2 hh nn Hours and minutes nn SS Minutes and seconds hh nn 131 P1 E Program 1 Instrument behaviour at the end of the program...

Страница 39: ...Go to the set point selected by A SP St by Go to stand by mode A SP 168 P2 nE Program 2 Number of executions 0 1 99 times inF indefinitely 169 P2 Et Program 2 Time of the end program indication 2 0 0...

Страница 40: ...to SPHL 0 212 P3 G2 Program 3 Gradient of the 2nd ramp 1 0 1 999 9 E U minute inF Step transfer inF 213 P3 t2 Program 3 Time of the 2nd soak 2 0 00 99 59 time units 0 10 214 P3 b2 Program 3 Wait band...

Страница 41: ...the 3rd soak dP 0 oFF 1 9999 E U oFF 256 P4 E3 Program 4 Events of the 3rd group 0 00 00 11 11 0 event OFF 1 event ON 00 00 257 P4 S4 Program 4 Set point of the 4th soak dP OFF or from SPLL to SPHL 0...

Страница 42: ...ogram 5 Events of the 5th group 0 00 00 11 11 0 event OFF 1 event ON 00 00 302 P5 S6 Program 5 Set point of the 6th soak dP OFF or from SPLL to SPHL 0 303 P5 G6 Program 5 Gradient of the 6th ramp 1 0...

Страница 43: ...t step in stand by nonE 345 P7 u Program 7 Time unit of the soaks 2 hh nn Hours and minutes nn SS Minutes and seconds hh nn 346 P7 E Program 7 Instrument behaviour at the end of the program execution...

Страница 44: ...1 9999 E U oFF 389 P8 E1 Program 8 Events of the 1st group 2 00 00 11 11 0 event OFF 1 event ON 00 00 390 P8 S2 Program 8 Set point of the 2nd soak dP OFF or from SPLL to SPHL 0 391 P8 G2 Program 8 Gr...

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