Commissioning Supplement Fms Vms Etamatic Parameter List-Books Pdf

Commissioning Supplement FMS VMS ETAMATIC Parameter List
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Parameter list,Table of Content,PARAMETER LIST 4, P0 Load shift intern under the influence on correction effect 4. P1 8 Factory settings 5, P 9 46 Broken wire run time monitoring channel 1 5 dead band channel 1 5 8. P 52 104 1st and 2nd Monitoring Band Channel 1 5 Drift Compensation for Analogue Outputs 12. P 105 340 Manual and Automatic Determination of Range Limits Range Limits for Curve Set 1 8. Channel 1 5 15,P 346 350 Vorl ftbegrenzungen f r Kanal 1 5 26. P 351 355 Interpolation Method for Channel 1 5 27,P 356 360 Function Definition for Channel 1 5 28. P 366 373 Channel Enable For Curve Set 1 8 29, P 374 378 Definition of the Running Direction for Channel 1 5 During Fault Condition 30.
P 379 383 Mixed Fuel Firing 35, P 384 389 Definition of the monitor output Channel 5 and Channel 1 5 36. P 390 394 Mixed Fuel Firing 37, P 395 400 Broken Wire Detection for Load and Feedback Channel 1 5 38. P 406 420 Activation of the redundant Feedback and Broken Wire Detection for the Channels 1 5 39. P 426 428 Recirculation Channel Correction Threshold 41. P 429 671 Definition of the Correction of Curve Set 1 8 Cannel 1 5 for Correction Input 1 and 2 Spread. Factor Correction Modes Monitoring Time for Correction Input 1 and 2 Correctional Range of. Curve Set 1 8 Cannel 1 5 42, P 677 700 Definition of the Monitor Output Curve Set 1 8 4 20 mA Scaling for Channel 5 61. P 701 705 Definition of Flying Curve Set Switching 63. P 706 706 Compound Sticking Tolerance Time 64, P 707 712 Effect of the Band Shift for Load Channel 1 5 65. P 713 717 Maintenance Leak Check Blow Out 66, P 718 718 Load Input Definition of the Run Time digit min 66.
P 719 723 Run Time in dig min for Analogue Output channel 1 5 67. P 724 726 Blow Out Oil Lance Interlock Safety Chain Oil 67. Parameter list,P 727 728 Ignition Fuel A 68,P 729 729 Minimum Run Time of the Compound 68. P 730 734 Minimum Cycle to Control a Servomotor Cannel 1 5 69. P 738 739 Atomiser Blow Out Oil Lance 70, P 740 744 Minimum Pause for a Servomotor Control Channel 1 5 70. P 745 745 Elapsed Time Combustion Air Fan 71,P 747 749 Fuel A B C Curve Set Assignments 72. P 750 752 Overshoot Definition for Channel 1 5 73, P 753 789 Burner Start Sequence Control Ignition Delay Base Load Internal Load Leak Check. Pre ventilation Safety Time for Oil Gas 74,P 790 821 Firing Rate Controller Type Settings 84.
P 822 830 Serial Interface 1 2 Baud rate Parity Network Address Time Out 89. P 831 833 Display Brightness Contrast Energy Saving Languages 90. P 834 834 Tolerance Time for Incorrect Signal Sequence 92. P 835 835 Fuel Channels Remain Closed During Pre ventilation 92. P 836 836 Burner Start Automatic at Fault Condition 92. P 838 838 Display of the Internal Load at Burner OFF 92. P 839 839 Dead band Definition for Changing Load 93. P 840 844 Tolerance Values for Ignition High Load Position 94. P 845 849 Lamtec System Bus Family 95, P 850 879 Display Unit for Channel 1 5 redundant Channels 1 4 4 20 mA Scaling for Channels 1 5. redundant Channels 1 4 99, P 880 885 Display Unit for Correction Input No 1 2 4 20 mA Scaling for Correction Input 1 2 101. P 886 895 Field Bus Settings see separate Bus Description 102. P 896 936 O2 Regulator Settings 103,P 937 976 CO Regulator Settings 110. Parameter list,Parameter list, P0 Load shift intern under the influence on correction effect. No FMS ETA Short Text Description Min Max Default, 0 2 2 Last Ver Load shift because of correction 0 OFF 1 ON 0 1 0.
Moving the internal burner firing rate when correction is. on the upper end currently without function,Value 1 standard the compound controller moves. the internal firing rate until the correction is sufficient. again if a correction actuator cannot perform the,correction. Value 0 disables this function It may then be the case. that the correction is not done if the end of the actuator. range has already been reached,0 no movement,1 movement is activated. Caution This can lead to monitoring band faults,Parameter list. P1 8 Factory settings,No FMS ETA Short text Description Min Max Default.
1 4 4 ETAMATIC Option 0 VMS FMS 1 ETAMATIC 2 ETAMATIC 0 5. S channel 1 is continuous,0 no ETAMATIC VMS FMS,1 ETAMATIC 4 x Relay output channels DPS. 2 ETAMATIC S 1 x continuous 3 x Relay output,channel P 432 2 Feedback for. channel 1 for ETAMATIC with RPM Module,3 ETAMATIC with 2 continuous outputs. channel 2 via LSB 11,2 4 4 FAT an Control unit FAT active 0 2. 1 FMS ETAMATIC,2 ETAMATIC with internal Flame Monitoring.
3 4 4 Dichthei Carry out leakage check 0 1, This determines if the in the device embedded leakage. test should be enabled or not only effective if the device. is configured with controller enable,The real activation is set with P 769 and P 772. 4 2 2 sep Zpkt Option 0 no sep time 1 sep time 2 no sep time 0 3 1. auto load 3 sep time auto load, Option separated Ignition Point burner firing rate. automatically, Switch On Off determines whether or not the compound. controller works with a separated ignition point and. whether or not the firing rate input should automatically. be on setting Automatic means that only firing rate. values of 200 digits upward corresponding to 4 mA,through 300 400 500 etc up to 999 can be selected.
This means a limitation of 10 points plus ignition point. automatic firing rate input only available since version. 3 0 and higher,0 no separated ignition point manual firing rate. input at EI,1 separated ignition point manual firing rate. input at EI, 2 no separated ignition point automatically firing. rate input at EI,3 separated ignition point automatically firing. rate input at EI,5 4 4 VR Typ Which compound type VR 2 4 5 4 5 4 5.
VMS 4 FMS 4 ETAMATIC,5 VMS 5 FMS 5,Parameter list,No FMS ETA Short text Description Min Max Default. 6 4 4 anz Bren Number of curve sets 2 8 2 4 8,2 VMS FMS ETAMATIC. 7 4 4 Leist Rg Activate controller by bit pattern b1 Load c b2 O2 c b3 Mix 0 31 0 3. c b4 CO c b5 Gradual mixed firing, bit 2 mixed fuel control and bit 4 gradual mixed firing. exclude simultaneous setting, VMS To activate mixed fuel firing mixed fuel firing has to be. activated P 7 bit 2 1 P 379 0 and fuel change P 8 has to. be set to high, FMS To activate sliding fuel change the mixed fuel firing has.
to be activated P 7 bit 2 1 P 379 0 and the flying curve. change P 8 has to be set to 4, The ETAMATIC does NEITHER support sliding fuel change. NOR mixed fuel firing, 0 no load controller no O2 controller no mixed fuel. no CO controller and none gradual mixed firing active. 1 load controller active via P 790,2 O2 controller active via P 896. 3 load Controller and O2 Controller active, 4 variable mixed fuel firing active via parameter 379 0. with mixed fuel firing software only disabled at staged. mixed firing FMS, 5 load controller and variable mixed fuel firing active.
6 O2 controller and variable mixed fuel firing active. 7 load controller O2 controller and variable mixed fuel. firing active,8 CO controller active via P 937,9 CO controller and load controller active. 10 CO controller and O2 controller active,11 CO controller O2 controller and load. controller active,12 CO controller and variable mixed fuel firing. 13 CO controller variable mixed fuel firing and,load controller active. 14 CO controller variable mixed fuel firing and,O2 controller active.
15 CO Controller variable mixed fuel firing O2,controller and load controller active. 16 stagedl mixed firing,17 staged mixed firing and Load Controller. Parameter list,No FMS ETA Short text Description Min Max Default. 18 staged mixed firing and O2 controller active,19 staged mixed firing O2 controller and load. controller active,24 staged mixed firing and CO controller active.
25 staged mixed firing CO controller and load,controller active. 26 staged mixed firing CO controller and O2,controller active. 27 staged mixed firing CO controller O2,controller and load controller active. 8 4 4 flieg B Activate flying curve set switching 0 4 0 2. 0 OFF only enabled in mode Burner OFF,1 ON only enabled in mode Burner OFF. Base Load or Control Mode,FMS only enable with two similar fuels or with.
mixed fuel firing,ETAMATIC not enable,2 automatically switching via Burner OFF. FMS and ETAMATIC,3 automatic switching with Pilot Burner ON. FMS only ETAMATIC not enable,4 sliding controlled fuel change at FMS. FMS only ETAMATIC not enable, A flying curve set switching is only enable in mode. Burner OFF Base Load or Control, The band monitoring is being replaced for the period of.
flying switch over by running direction monitoring. Remark By changing via OFF the post ventilation time. P 758 should be longer than the afterburning time P. 789 This is due to guarantee that the state of the flame. is OFF before a new curve set is started,Further parameters are P 701 and P 705. Parameter list, P 9 46 Broken wire run time monitoring channel 1 5 dead band channel 1 5. No FMS ETA Short text Description Min Max Default, 9 3 4 Draht Z Tolerance time for broken wire detection 0 10 3. Tolerance time for detecting broken wire in seconds. Use this parameter to set the tolerance time for the broken. wire detection, Expanding the tolerance time causes the loss of type aproval. 10 3 4 o Drahtb Upper broken wire limit 0 999 990,Upper limit for broken wire in digit.
The digit value in this parameter defines the range in upper. direction where the ratio controller detects broken wire. Choose the value to detect broken wire,in the range from including 1 k Ohm 20 up to. and including 5 k Ohm 20,But not within the normal control range of the. potentiometer,Special designed plants may need other ranges. because they use potentiometers running out of,this ranges The parameter may be adapted to. other ranges in this case,11 3 4 u Drahtb Lower broken wire limit 0 999 30.
Lower limit for broken wire in digit, The digit value in this parameter defines the range in lower. direction where the ratio controller detects broken wire. Choose the value to detect broken wire,in the range from including 1 k Ohm 20 up to. and including 5 k Ohm 20,But not within the normal control range of the. potentiometer,Special designed plants may need other ranges. because they use potentiometers running out of,this ranges The parameter may be adapted to.
other ranges in this case,12 3 4 LZEIT K Watchdog timer channel1 0 999 100. Run time monitoring for channel 1,digits per second. The run time monitoring for any particular channel is set in this. The actual value may vary as much digits per second as digits. are set in the parameter value without causing a fault. This parameter is used for short circuit monitoring of the. potentiometers and therefore a value lower than the default. value of 100 digits should not be set,13 3 4 LZEIT K Watchdog timer channel2 0 999 100. Run time monitoring for channel 2 digits per second. see parameter 12,14 3 4 LZEIT K Watchdog timer channel3 0 999 100. Run time monitoring for channel 3 digits per second. See parameter 12,15 3 4 LZEIT K Watchdog timer channel4 0 999 100.
Run time monitoring for channel 4 digits per second. See parameter 12,16 3 4 LZEIT K Watchdog timer channel5 0 999 100. Run time monitoring for channel 5 digits per second. See parameter 12,Parameter list,No FMS ETA Short text Description Min Max Default. 17 4 4 Etam OEM ETAMATIC OEM 0 ETAMATIC 1 ETAMATIC OEM 0 2. 2 BurnerControl, 18 2 2 lpumpO oil pump ON 0 standard 1 together with the fan 0 1. 0 pressure atomizer,ignition transformer switches output oil pump on. and terminal 46 becomes oil pressure min OEM only,1 rotation atomizer.
fan switches on output oil pump,and terminal 46 becomes atomizer air pressure. ETAMATIC ETAMATIC OEM und FMS,Since Version 4 2, 19 4 4 ResMaske For the fault reset the signal sources are to free from their 0 655 200. monitoring of a frequent appearance 35, since 5 0 according to EN 14459 is a remote release only 4x. in 15 min valid By overstepping the fault shut down H889 is. A set bit switches the monitoring of the particular source off. Bit 3 Bit 6 und Bit 7are set in standard data set Therefore it. can be unlocked arbitrarily often via terminal programming. and control unit,Parameter list,No FMS ETA Short text Description Min Max Default. 20 4 2 iFlameOn Time x10 msec till the first flame detection on channel 1 0 150 0. internal Flame Detector, since 5 0 Time x10 msec till the first flame detection on.
channel 1 internal Flame Detector, 21 4 2 iFlameSt Delay time x10msec after fault flame is OFF until the 0 500 0. Flame Detector is set in start detection again, since 5 0 Delay time x10msec after fault flame is OFF. until the Flame Detector is set in start detection again. 23 3 4 TotbZ K This is the time when the dead band must be reach 0 99 30. channel 2 in seconds,See parameter 22, 22 3 4 TotbZ K This is the duration within which the dead band must be 0 99 30. reach channel 1 in seconds,The duration is entered within which the. VMS FMS ETAMATIC has to reach the particular Dead,Band By TRD plants the duration is 30 seconds In.
special cases it can be differ from For recirculation. channels it is possible to enter a higher value e g 60. sec for exceeding the lower limit, In individual cases a higher value for air by exceeding the. upper and for fuel by exceeding the lower limit may be. 24 3 4 TotbZ K This is the time when the dead band must be reach 0 99 30. channel 3 in seconds,see parameter 22, 25 3 4 TotbZ K This is the time when the dead band must be reach 0 99 30. channel 4 in seconds,see parameter 22, 26 3 4 TotbZ K This is the time when the dead band must be reach 0 99 30. channel 5 in seconds,see parameter 22,27 4 4 OF parameter without function 0 65535 0. 28 4 4 OF parameter without function 0 65535 0,29 4 4 OF parameter without function 0 65535 0.
30 4 4 OF parameter without function 0 65535 0,31 4 4 OF parameter without function 0 65535 0. 32 2 2 TOTB K Negative dead band channel1 0 10 2,Negative Dead Band of channel 1 in counts. Value of the negative dead band for,VMS FMS ETAMATIC No adjustment of the actuator. takes place within the dead band despite deviation. between actual value and the set point It is therefore a. measure of the setting accuracy If the parameter is set. too tightly overshoot may occur especially with fast. 33 2 2 TOTB K Negative dead band channel2 in digit 0 10 2. see parameter 32, 34 2 2 TOTB K Negative dead band channel3 in digit 0 10 2. see parameter 32, 35 2 2 TOTB K Negative dead band channel4 in digit 0 10 2.
see parameter 32, 36 2 2 TOTB K Negative dead band channel5 in digit 0 10 2. see parameter 32,Parameter list,No FMS ETA Short text Description Min Max Default. 37 4 4 OF parameter without function 0 65535 0,38 4 4 OF parameter without function 0 65535 0. 39 4 4 OF parameter without function 0 65535 0,40 4 4 OF parameter without function 0 65535 0. 41 4 4 OF parameter without function 0 65535 0,42 2 2 TOTB K Positive dead band channel 1 0 10 2.
Positive Dead Band of channel 1 in digits, Value of the positive dead band for VMS FMS ETAMATIC. Although there is a deviation between the actual value and. the set point value there will be no adjustment of the. This value acts as an indicator for the actuator accuracy. It is therefore a measure of the setting accuracy If the. parameter is set too tightly overshoot may occur,especially with fast motors. 43 2 2 TOTB K Positive dead band channel 2 0 10 2,see parameter 42. 44 2 2 TOTB K Positive dead band channel 3 0 10 2,see parameter 42. 45 2 2 TOTB K Positive dead band channel 4 0 10 2,see parameter 42.
46 2 2 TOTB K Positive dead band channel 5 0 10 2,see parameter 42. 47 4 4 OF parameter without function 0 65535 0,48 4 4 OF parameter without function 0 65535 0. 49 4 4 OF parameter without function 0 65535 0,50 4 4 OF parameter without function 0 65535 0. 51 4 4 OF parameter without function 0 65535 0,Parameter list. P 52 104 1st and 2nd Monitoring Band Channel 1 5 Drift Compensation for. Analogue Outputs,No FMS ETA Short text Description Min Max Default.
52 3 4 Del1 B Switch off time for 1st monitoring band channel 1 0 99 28. Switch OFF Time for 1st Monitoring Band of channel 1. in seconds, Enter the time for the first monitoring band It has to be. a little bit shorter than the monitoring time of the dead. band parameter 22 26, Otherwise a differentiated cut out between monitoring. band and dead band is not possible,For plants that are in conformity with TRD. Regulations 28 seconds, It is possible to increases this time for deviation of non. security relevant actuators and for special plants. 53 3 4 Del1 B Switch off time for 1st monitoring band channel2 0 99 28. see parameter 52, 54 3 4 Del1 B Switch off time for 1st monitoring band channel3 0 99 28.
see parameter 52, 55 3 4 Del1 B Switch off time for 1st monitoring band channel4 0 99 28. see parameter 52, 56 3 4 Del1 B Switch off time for 1st monitoring band channel5 0 99 28. see parameter 52,57 4 4 OF parameter without function 0 65535 0. 58 4 4 OF parameter without function 0 65535 0,59 4 4 OF parameter without function 0 65535 0. 60 4 4 OF parameter without function 0 65535 0,61 4 4 OF parameter without function 0 65535 0.
62 2 2 1 B K 1st monitoring band negative channel1 0 100 15. 1st negative monitoring band of channel 1 in digits. The negative monitoring band for the respective, channel The larger the monitoring band the greater. the scope the compound has for adjustment The,narrower the monitoring band the more often the. compound is stopped during adjustment Outside the,monitoring band the actuator is driven with a. continuous signal Within the monitoring band it is. driven towards the dead band As the continuous,channels have no dead band the monitoring band. represents the only shut down limit In the case of DPS. the shut down tolerance of the dead band is essential. 63 2 2 1 B K 1st monitoring band negative channel 2 in digit 0 100 15. see parameter 62, 64 2 2 1 B K 1st monitoring band negative channel 3 in digit 0 100 15.
see parameter 62, 65 2 2 1 B K 1st monitoring band negative channel 4 in digit 0 100 15. see parameter 62, 66 2 4 1 B K 1st monitoring band negative channel 5 in digit 0 100 15 20. see parameter 62,67 4 4 OF parameter without function 0 65535 0. 68 4 4 OF parameter without function 0 65535 0,69 4 4 OF parameter without function 0 65535 0. 70 4 4 OF parameter without function 0 65535 0,71 4 4 OF parameter without function 0 65535 0.
Parameter list,No FMS ETA Short text Description Min Max Default. 72 2 2 1 B K 1st monitoring band positive channel1 0 100 15. 1st Positive Monitoring Band of channel 1 in digit. The positive monitoring band for the respective channel. The larger the monitoring band the greater the scope the. compound has for adjustment The narrower the, monitoring band the more often the compound is stopped. during adjustment Outside the monitoring band the, actuator is driven with a continuous signal Within the. monitoring band it is driven towards the dead band As. the continuous channels have no dead band the, monitoring band represents the only shut down limit In the. case of DPS the shut down tolerance of the dead band is. 73 2 2 1 B K 1st monitoring band positive channel 2 in digit 0 100 15. see parameter 72, 74 2 2 1 B K 1st monitoring band positive channel 3 in digit 0 100 15.
see parameter 72, 75 2 2 1 B K 1st monitoring band positive channel 4 in digit 0 100 15. see parameter 72, 76 2 2 1 B K 1st monitoring band positive channel 5 in digit 0 100 40 20. see parameter 72,77 4 4 OF parameter without function 0 65535 0. 78 4 4 OF parameter without function 0 65535 0,79 4 4 OF parameter without function 0 65535 0. 80 4 4 OF parameter without function 0 65535 0,81 4 4 OF parameter without function 0 65535 0.
82 3 4 Del2 B Switch off time for 2nd monitoring band in secs 0 10 3. Switch OFF Time for 2nd monitoring band in seconds. Enter the switch off time of the second monitoring band. The second monitoring band is used for causing an, emergency burner shut off by large deviations between. actual value and set point, 83 3 4 2 B K 2nd monitoring band negative channel1 0 100 40. 2nd Negative Monitoring Band of channel 1 in counts. Second monitoring band in negative direction This, monitoring band is used for the emergency burner shut. off by huge control deviations, It should not be set too tightly The parameterised value is. added up on the first monitoring band By flying curve. switching attention has to be paid that the actuator is able. to reach the second monitoring band within 30 seconds. Otherwise the band has to be enlarged accordingly, 84 3 4 2 B K 2nd monitoring band negative channel2 in counts 0 100 40.
see parameter 83, 85 3 4 2 B K 2nd monitoring band negative channel3 in counts 0 100 40. see parameter 83, 86 3 4 2 B K 2nd monitoring band negative channel4 in counts 0 100 40. see parameter 83, 87 3 4 2 B K 2 berwachungsband negativ Kanal 5 in Punkten 0 100 40. siehe Parameter 83,88 4 4 OF parameter without function 0 65535 0. 89 4 4 OF parameter without function 0 65535 0,90 4 4 OF parameter without function 0 65535 0.
91 4 4 OF parameter without function 0 65535 0,92 4 4 OF parameter without function 0 65535 0. Parameter list,No FMS ETA Short text Description Min Max Default. 93 3 4 2 B K 2nd monitoring band positive channel1 0 100 40. 2nd Positive Monitoring Band of channel 1 in counts. Second monitoring band in positive direction This, monitoring band is used for the fast shutdown by huge. control deviations, It should not be set too tightly The parameterised value is. added up on the first monitoring band By flying curve. switching attention has to be paid that the actuator is able. to reach the second monitoring band within 30 seconds. Otherwise the band has to be enlarged accordingly, 94 3 4 2 B K 2nd monitoring band positive channel2 in counts 0 100 40.
see parameter 93, 95 3 4 2 B K 2nd monitoring band positive channel3 in counts 0 100 40. see parameter 93, 96 3 4 2 B K 2nd monitoring band positive channel4 in counts 0 100 40. see parameter 93, 97 3 4 2 B K 2nd monitoring band positive channel5 in counts 0 100 40. see parameter 93,98 4 4 OF parameter without function 0 65535 0. 99 4 4 OF parameter without function 0 65535 0,100 4 4 OF parameter without function 0 65535 0.
101 4 4 OF parameter without function 0 65535 0,102 4 4 OF parameter without function 0 65535 0. 103 2 2 Drift Z Time before 1st mon band switch off for drift 0 999 20. compensation,With continuous outputs in seconds 0 OFF. Switch OFF tolerance time of 1st monitoring band for drift. compensation of the continuous outputs 0 OFF in, Drift compensation is used to avoid fault shut down. because of overshoot undershoot dependent on the, excess air direction of the 1st monitoring band The time. is set in this parameter which initiates drift compensation. before shutdown through the first monitoring band, The value has to be set between 1 and the monitoring time.
of the first monitoring band P 52 P 56, Function If only the configured time remains before. shutdown through the first monitoring band drift, compensation is activated Do not set the value too high. Otherwise drift compensation is unnecessarily activated. Recommended Setting 10 to 15 seconds before switching. off through the first monitoring band, If the value 0 is entered drift compensation is switched. Parameter list, P 105 340 Manual and Automatic Determination of Range Limits Range Limits for. Curve Set 1 8 Channel 1 5,No FMS ETA Short text Description Min Max Default.
104 2 2 Driftpkt Number of points for automatic drift compensation 0 999 4. Number of counts for automatically drift compensation for in. digit with continuous outputs, Drift compensation is used to avoid fault shut down as a. result of overshoot undershoot dependent on the excess air. direction of the 1st monitoring band The number of digit is. set which is added to the continuous output in excess air. direction To ensure a steady operation of the plant only a. minimal correction should be made The range should be. between 4 and 10 digit, 105 2 2 B Zeit Time in seconds for limit determination 5 999 15. Time for the determination of the Range Limits in seconds. Sets the duration how long the actual value of the. VMS FMS ETAMATIC has to remain steady during pre, ventilation until this value is accepted as the new range limit. Set the duration relatively long by standard to avoid a slow. actuator being incorrectly read in, With intense oscillating feedback values this can lead to a. non detection of the range limits In this case it is better to. ensure that the feedback signal is attenuated, 106 2 2 BEing1 Limits can be input curve set 1 channel1 0 18 0.
Category range limits, Switch Sets whether the range limits are automatically. determined and tested during pre ventilation or the range. limits for the actuators are set through a technician during. commissioning The standard setting is automatic,determination Content 0. 0 range limits are determined automatically motors. with end switches,1 range limits upper value is input. 2 range limits lower value is input,3 range limits are entered as fixed values. 4 range limits determination disabled upper and,lower curve set point are used as range limit.
5 range limits are entered as fixed values The,programmed curves do not overwrite the range. limits priority curves mixed fuel firing gliding fuel. 11 range limits are taken from curve set 1 function. as in no 5, 12 range limits are taken from curve set 2 function. as in no 5, 13 range limits are taken from curve set 3 function. as in no 5, 14 range limits are taken from curve set 4 function. as in no 5, 15 range limits are taken from curve set 5 function.
as in no 5, 16 range limits are taken from curve set 6 function. as in no 5, 17 range limits are taken from curve set 7 function. as in no 5, 18 range limits are taken from curve set 8 function.


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