OSAKA – USER MANUAL LINE QB – V.1 - PAG. 1
Contents
1. By means of parameter SEnS it is possible to select the type of probe of input that is needed for termopares J J K CrAL S S B b C C E E N n R r T t or for sensors of infrarojo OSAKA series IRS range with linearizaci n IRS J Ir J or IRS K Ir cA for termoresistencia Pt100 IEC rtd or thermistor PT1000 Rtd Ptc or Ntc from calibration of agreement to IN 60751 A2 for sign normalized of current 0 20mA 0 20 or 4 20 mA 4 20 for signs normalized of tension 0 60mV 0 60 12 60mV 12 60 0 1V 0 1 0 5V 0 5 1 5V 1 5 0 10V 0 10 6 2 10V 2 10 By changing these parameters one advises to extinguish and to ignite the equipment to obtain a correct measure For the equipments with input of probe of temperature tc rtd it is possible to select by means of the parameter Unit the unit of measure of temperature C F and by means of the parameter dP the resolution of wished measure 021 120 1 As for the equipments programmed with input of normalized analog signal it is necessary first of all to programme the resolution wished in the parameter dP 021 120 1 220 01 320 001 and in the par metro SSC FSC the value that the equipment must visualize correspondent to the lower superior limit sign of input 1999 9999 cc IMPORTANT NOTE Input NTC PTC alone disponilbe in model QB 32 0 The model QB 32 0 does not admit probes PT 100 The new QB2. OUT I d d Start by the key pisani digital input and time spent Tr t1 turn off output t out OFF a ooa I P L Asymmetric timer for take off by means of key pisani digital input with beginning in OFF Trt a ITI t1 mus I L P Asymmetric timer with take off by means of key pisani digital input with beginning in ON Tr t2 Tr t2 Tr t2 Start Tr 11 3 Tr t a 1 11 a Notes 1 The equipment can do the start pause stop and reset the timer by pressing the keyl 9 for analogue inputs and or for the RS 485 input n tr u parameter the time units are established hh nn Hours and minutes nn SS Minutes and seconds SSS d Seconds and tenth of a second n tr t1 tr t2 parameters time 1 and 2 are established Parameter only as information tr St state timer rES Reset timer run Run timer Hold Hold timer 4 14 FUNCTION OF RAMPS ONLY MODELS RAMP All parameters related to the relative roles of the ramps are contained in the PRG folder The QB range has a special version Termination RAMP which allows up do to 4 ramps 8 segments These ramps are controlled by Set Points Pr S1 Pr S2 Pr S3 and Pr S4 and maintenance time Pr t1 Pr t2 Pr t3 and Pr t4 The Set Points of temperature of every ramp can be controlled by means of degrees minute doing the inclination of the ramp like you wish by means of the parameters Pr G1 Pr G2 Pr G3 and Pr G4
3. nonEz The function key does nothing tunE Auto tune self tune enabling A single press longer than 1sec starts the auto tune oPLo Manual mode The first pressure puts the instrument in manual mode OPLO while a second one puts the instrument in Auto mode rEG and vice versa AAc Alarm reset Pushing the key for 1 sec is reset a alarm memorized see par 4 11 ASi Alarm acknowledge Pushing the key for 1 sec can stop an active alarm see par 4 11 chSP Sequential set point selection Pushing the key for 1 sec is selected one of the 4 Set Point memorized St by Stand by mode The first press puts the instrument in stand by mode while a second one puts the instrument in Auto mode Str t Timer run hold reset P run Program run ramps P rES Program reset ramps P r H r Program run hold reset ramps Parameter 122 diSP Display management Their range values are nonE Standard Display Pou Power output SPF Final set point J Spo Operative set point AL1 AL2 AL AL1 AL2 ALS threshold Parameter 123 di CL Display colour Their range values are 0 Automatic multicolor The display colour is used to show the actual deviation PV SP 1 Display red fix 2 Display green fix 3 Display orange fix Parameter 124 AdE Deviation for display colour management Range values 1 999 OSAKA USER MANUAL LINE Q
4. 0 ALARM NOT STOP The alarm always remains active in alarm conditions 8 ALARM STOP The alarm is activated when there alarm conditions and can be disabled by the Key PISANI suitably programmed USrb ASI although there are alarm conditions AL10 ALARM 1 ENABLING DURING STAND BY MODE AND OUT OF RANGE CONDITIONS lets establish in that condition it should set the alarm when the equipment enters Standby mode or out of range 0 Alarm 1 disabled during Stand by and out of range 1 Alarm 1 enabled in stand by mode 2 Alarm 1 enabled in out of range condition 3 Alarm 1 enabled in stand by mode and in overrange condition 4 12 FUNCTION ALARMA OF LOOP BREAK All parameters related to the functions relating to the alarm of Loop Break are contained in the LbA group The alarm Loop Break intervenes for reasons of short circuit of a thermocouple thermocouple inversion load interruption etc and the cycle regulation is interrupted For the configuration the output to the alarm which allocates Loop Break it is necessary to establish to which output should match the alarm OSAKA USER MANUAL LINE QB V 1 PAG 11 To do this is necessary configure the parameters in the group lout the relative parameter to the output you want to use O1F O2F OSF O4F programming the parameter parameter to said output By accessing in LbA folder must be programmed in the O1AL parameter over
5. 4 7 REGULATION PID FOR OPERATIONS MOTORIZED WITH TEMPORARY POSITIONING H rEG C rEG Only PLUS version available 3PT All parameters related to PID control for motorized actuators are contained in the rEG folder This type of regulation is in use for the control of facilities provided with an operation motorized with controls of opening and closing of digital type that acts when configured 2 outputs respectively as H rEG and c rEG are programming the par Cont 3 Pt The control opening drive shall be provided with the output configured as H rEG while closure controlling shall be provided with the output configured as C rEG The mode PID regulation for motorized operation acts on the outputs H rEG heat or direct process and C rEG cold or reverse process based on the Set Point SP active and the result of PID control algorithm with two degrees of freedom of equipment The control system used does not provide feedback to set the current position of the drive OSAKA USER MANUAL LINE QB V 1 PAG 8 If the actuator was not provided with safety contacts that interrupt the operation once run it is necessary to provide the installation of these contacts SQO SQC as shown in Figure The PID regulation algorithm for motorized actuators with time positioning facilitates the setting of the following parameters Pb Proportional Band ti Integral Time Td Derivative time rS Manual Reset
6. Temperature Once the ramps are executed each time you reach a maintenance time there are some security par matros Pr b1 Pr b2 Pr b3 and Pr b4 that allow establish a differential safety that will assure that our maintenance process will remain the time we ve marked in Pr t1 Pr t2 Pr t3 and Pr t4 Temperature It is necessary keep in mind that if the temperature of process value enters the zone of safety the account will begin at that time so we recommend making a difference as low as possible according with the process to be performed The parameters Pr E1 Pr E2 Pr E3 Pr E4 are events of how the ramps are 1st 2nd 3rd or 4th The equipment can show the program status by a LED OSAKA USER MANUAL LINE QB V 1 PAG 12 ooga Decimal point C0 of the LSD Program in RUN the LED is ON Program in Hold The LED is flashing fast Program in wait The LED is flashing slow Program in end or reset the LED is off Where to according the state it will indicate us how he found the ramps Event 1 status during soak Event 1 status during ramp Event 2 status during ramp Y 2 status during soak ET BB on fon Jof Pr St Program status rES Reset program run RUN program HoLd Hold program The additional informations are related to how the instrument is programmed hence in many cases only part of this information is available 1 When the instrument is
7. 3 If no error is detected send the instrument to your supplier to be checked Eror Reason Acton M condition for starting it List of posible errors Autotuning unenforceable because it khan not verify the Overload or output short OuLd circuit 4 when used as an output or as transmitter power supply Auto tune not finished within 12 hours Possible problem in the memory EEPROM Press the ENTER key to clear the error Repeat autotuning after checking the cause of the error Check output 4 for the short circuit disappears Try to the autotuning after controlling the operation of the probe and actuator Press the Enter key and if the problem persists send the equipment to the supplier repeat memory FIRMWARE the supplier calibration memory the supplier activated by programming Contact who ha programmed the device 6 2 MAINTENANCE This instrument does not require periodical recalibration and it have no consumable parts so that no particular maintenance is required Some times a cleaning action is suggestible 1 SWITCH THE EQUIPMENT OFF power supply relay out etc 2 Take the instrument out of its case 3 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 circuits being careful not to damage the electronic components 4 To clean external plastic or rubber parts use only a cloth
8. p End P HLd P uit P run P Etl OSAKA USER MANUAL LINE QB V 1 PAG 16 r inP Measure retransmission rEr Error sp PV retransmission r SP Set point retransmission rSEr Serial value retransmission Digital NonE Output not used H rEG Heating output c rEG Cooling output AL Alarm output t out Timer output t HoF Timer out OFF in hold P End Program end indicator P HLd Program hold indicator P uit indicator P run indicator P Et1 Program Event 1 P Et2 Program Event 2 or bo Out of range or burn out indicator P FAL Power failure indicator bo PF Out of range burn out and Power failure indicator StbY Stand by status indicator diF 1 The output repeats the digital input 1 status diF 2 The output repeats the digital input 2 status on Out 1 always ON Initial scale value of the analog retransmission output Only version QB 32 48 98 RMA Full scale value of the analog retransmission Only version QB 32 48 98 RMA Program wait Program run Out 1 action Out 2 3 4 function Same functioning that OF1 Except analog output available only in O1F P ET2 Or bo P FAL bo PF StbY dif 1 dif 2 On 1999 Ao1H Ao1L 9999 9999 1 32 A on output 4 dir Direct dir action rEU Reverse action dir r Direct with reversed LED ReU r Reverse with reversed LED Same functioning tha
9. F x PID double action H C 58 3200 7 98 3200 F Oh 752 F 328 1562 F 67 Nota Column OUTS only active in version PLUS 4 Outputs 328 1562 F 58 Note Inputs PTC NTC only available for model QB 32 0 OSAKA USER MANUAL LINE QB V 1 PAG 3 Note Inout PTC NTC only it is available in model QB 32 0 Note Control Mode Column OUTS only activates in PLUS version 4 Outputs Then the upper display shows cod2 while the lower display shows 0000 or the value cod2 stored in memory 3 Using the buttons and NA There is established the value of code2 of agreement by the following tables PQRS P a R s code None Wattmeter instantaneous power expressed in W Not used Wattmeter energy expressed in Wh Sensor break Absolute worked time expressed in days Absolute worked time expressed in hours Absolute alarm Deviation alarm 4 Press the button k If the codes that are configured are correct the upper display shows CODE and the bottom shows Good 5 Return to press again key le Once you have pressed the equipment will reset and will configure the parameters as has been established in the CODE EXPRESS Note After using the method of Code EXPRESS always it will be possible to modify the parameters using the method of normal configuration If the value of a parameter among those included in the setup
10. Section rEn remote Rate rise for 0 01 99 99 inF inF DOSIHVE set point Units for ne change ramp UP Rate rise Group l TIN Timer function parameters 62 Pb Proportional band saa 50 Par Description Range Det Independent timer function NonE Timer not used i d A Delayed start timer i uP d Delayed start at power up i d d 2 Feed through timer L P L Asymmetrical oscillator with start OFF LLP Asymmetrical oscillator with start ON Timer unit hh nn minutes nn SS seconds SSS d Second and tenth of seconds Timer 1 2 Tr u Hours and Minutes and hh mm 00 01 99 59 mm ss 00 01 99 59 sss d 000 1 Timer status rES Timer reset run Timer run HoLd Timer hold 995 9 S uP d Start at power up with a first step in stand by S uP S Start at power up u diG Start at Run command detection only u dG d Start at Run command with a first step in stand by Engineering unit of the soaks hh nn minutes nn SS seconds Instrument the end of the program execution cnt continue A SP go to the set point selected by A SP St by go to stand by mode Hours and Minutes and behaviour at of for 0 01 99 99 inF inF NEGATIVE set point Units for UE change ramp DOWN NonE i d A NonE i uP d i d d I P L i L P SSS d hh mm mm ss 1 00 sss d rEs run Hold rES hh nn nn SS Cnt A SP ime of the end progra
11. by mode and in overrange condition 1999 AL1H AL1L 9999 9999 AL1L AL1H 1 9999 Es 9999 0 1 2 3 Group l LBA parameters relatives to O Break Aa Par Description ss Range Sec il eo eem O0 LBA during Soft start ves e mem errem m LBA for A uP dn both both 55 LbcA Condition enabling uP Active when Pout 100 dn Active when Pout 100 both Active in both cases Group l PEG parameters relatives to control Par Description______ Range Def Control type Pid PID On FA ON OFF 3Pt asymmetric hysteresis On FS ON OFF symmetric hysteresis nr Heat Cool ON OFF control with neutral zone 3Pt Servomotor control Only available in models QB 32 48 98 PLUS 3PT Autotuning selection 4 3 2 1 7 0 1 2 3 4 5 6 7 8 Oscillating auto tune with automaticrestart at power up and after all point change Oscillating auto tune with manual start 2 Oscillating tune with auto matic start at the first power up only 1 Oscillating auto tune with auto matic restart at every power up 0 Not used 1 Fast auto tuning with automatic restart at every power up 2 Fast auto tune with automatic start the first power up only 3 FAST auto tune with manual start 4 FAST auto tune with automatic restart at power up and after a set point change 9 Evo tune with automatic restart at every power up 6 Evo tune
12. oPr E Au Sb 134 UoLt Nominal Voltage of the 1 9999 230 load V 135 Cur Nominal current of the 1 999 10 load A 136 h Job Threshold of the working OFF 0 999 period days OFF threshold not used OFF 0 999 0 9999 days when 132 hours cotY 4 0 9999 hours when 132 cotY 5 137 t Job Worked time not O 999 Days resettable 0 999 Hours 1200 2400 9600 9600 19 2 38 4 OSAKA USER MANUAL LINE QB V 1 PAG 20 nonE rSP Group CAL User calibration parameters Description Ramge De 138 AL P Adjust Low Point 1999 AH P 10 Adjust Low Offset 300 300 139 140 Adjust High Point AL P 10 9999 9999 141 ud Adjust High Offset 300 300 6 PROBLEMS MAINTENANCE AND WARRANTY 6 1 SIGNS OF ERROR Out of range signals The upper display shows the OVER RANGE and UNDERRANGE conditions with the following indications Over range O G O C Under range LI LILI LI The sensor break will be signalled as an out of range Note When an over range 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 input signal source and the connecting line 2 Make sure that the input signal is in accordance with the instrument configuration Otherwise modify the input configuration
13. 010 indicating the busy status 210 4 18 CONFIGURATION OF PARAMETERS WITH KEY USB The equipment is equipped with a connector that allows the transfer of the operating parameters to another computer using the device USB KEY of 5 pin connection This device is used for serial programming of the equipments that must have the same configuration parameters or to keep a copy of the programming equipment and it can be transferred quickly To use the device USB KEY can be done only by feeding the device or the equipment Powered equipment and not powered KEY USB ce SUPPLY TT Decimal Point input 0 3 0 1 Not linear 0 1 Initial scale read out for 1999 9999 linear inputs V 1999 9999 Powered equipment by KEY USB Digital filter measured ine error used to enable the safety output value 1 or Over range 2 ou Under range 3 our Over and under N B For equipment that are equipped with RS485 communication port is essential that with the parameter trsp is programed as Safety output value 96 of 100 100 NONE For more information and an indication of the cause of the ui E d error view user manual in KEY USB device OSAKA USER MANUAL LINE QB V 1
14. PAG 15 I O 4 function On Output used as feed used as analog sensors out4 Output 4 SSR digital output 4 dG2c Digital input 2 driven by contact dG2U Digital input 2 driven by voltage Digital Input 1 function oFF Not used 1 Alarm reset 2 Alarm acknowledge ACK 3 Hold of the measured value memory alarm 4 Stand by mode 5 Manual mode 6 HEAt with SP1 and CooL with SP2 7 Timer RUN Hold Reset 8 Timer Run 9 Timer Reset 10 Timer Run Hold 11 Timer Run Reset 12 Timer Run Reset with lock 13 Program Start 14 Program Reset 15 Program Hold 16 Program Run Hold 17 Program Run Reset 18 Sequential SP selection 19 SP1 SP2 selection 20 SP1 SP4 binary selection 21 Digital inputs in parallel to and Y Only activating 2nd digital input Digital Input 2 function Same functioning that diF1 Only available with 10 4 F dG2c Action digital inputs Digital input 2 ONLY available if 10 4 F dG2c Out 1 function type Analogical version QB 32 48 98 RMA NonE Output not used H rEG Heating output c rEG Cooling output On Out4 Out4 dG2c dG2U oFF FF oFF 1 21 O DM direct action DI2 direct action 1 DI1 reverse action DI2 direct action 2 DM direct action DI2 reverse action 3 DI1 reverse action DI2 reverse action Def H rEG rEm r r SEr AL t out t HoF
15. Range 1 31 Baud Instrument address OFF 1 baud rate 1200 1200 baud 2400 2400 baud 9600 9600 baud 19 2 19200 baud 38 4 38400 baud Selection of the value to be retransmitted Master nonE Retransmission not used the instrument is a slave rSP The becomes a Master and instrument retransmits the operative set point PErc The instrument become a Master and it retransmits the power output OFF 0 1 99 59 mm ss 2 OFF Group l COn Consumption parameters Par Description_______ Ramge Def 133 Co tY Measurement type OFF Not used 1 Instantaneous power kW 2 Power consumption KW h 3 The energy used during the execution of the program 4 Total working time in days 5 Total working time in hours 6 Total working time on days with forced Stand By at reaching the inspection time h Job 7 Total working time in hours with forced Stand By at reaching the inspection time h Job 8 Total time in days which the control output is ON 9 Total time in hours which the control output is ON 10 Total time in days which the control output is activated and forced Stand By at reaching the inspection time h Job 11 Total time in hours which the control output is activated and forced Stand By at reaching the inspection time h Job OFF 1 11 AS Pr Auto AS Pr oP 0 St bY ALL Au oP ALL oPr E ALL Auto oPr E Au oP
16. as follows 1 Program and activate the desired Set Point 2 Program the parameter Cont PID 3 or Pt if the equipment controls a motorized drive with time positioning 3 If the control is of simple action program the parameter Func according to the process to be controlled by the output 4 Set 2 outputs as C rEG H rEG as if the equipment controls an installation with dual action or a motorized drive with time positioning 5 Program the parameter Auto as Selection of autotuning 4 Oscillating auto tune with automaticrestart at power up and after all point change 3 Oscillating auto tune with manual start 2 Oscillating tune with auto matic start at the first power up only 1 Oscillating auto tune with auto matic restart at every power up 0 Not used 1 Fast auto tuning with automatic restart at every power up 2 Fast auto tune with automatic start the first power up only 3 FAST auto tune with manual start 4 FAST auto tune with automatic restart at power up and after a set point change 5 SMART tune with automatic restart at every power up 6 SMART tune with automatic start the first power up only 7 SMART tune with manual start 8 SMART tune with automatic restart at power up and after a set point change NOTE the FAST autotuning type is particularly fast and does not show any effect since he calculates the parameters of the controller during the phase of scope of the Set Point For prope
17. codes COD1 cod2 is modified the change will acquire equipment while the other parameters remain exactly the same If we enter into one of the parameters EXPRESS CODE by normal procedure and we vary the Code EXPRESS will return to mark COD1 COD 2 oFF Only it will return to show his value if it is programmed by CODE EXPRESS In case you want to program the equipment Normal shape or want to change some parameter that does not include the Code Express below normal procedure is explained The configuration parameters are in different FOLDERS Each folder defines all parameters related to a specific function eg alarms outputs etc 1 Press the button during approxmately 5 seconds The upper display will show PASS thile the lower display shows 0 2 Using the buttons A and NA set the programmed password by default Password 20 Operator level or Password 30 programmer level all parameters 3 Press the button If the password is correct the display will show the name of the first parameter FOLDER preceded by the symbol In other words the upper display will show n P FOLDER input parameters PROMOTION PARAMETERS An important part of the QB line is that in either model parameters allow you to move the 3 levels of programming you have Hereby it is possible to come to have a simple equipment for the final user simple to programme and can avoid badly use of the clients at the moment of to
18. equipment with devices ex fuses proportionate to the effective current circuits Use cables with proper insulation adapted to the voltage temperature and environmental conditions and make the sensor wires from the entrance to keep away from power cords and other power cables to avoid induction of electromagnetic interference OSAKA USER MANUAL LINE QB V 1 PAG 5 If some cables used for the wired up one are protected one recommends to connect them to land for an alone side Finally check that the programmed parameters are those wished and that the application works correctly before connecting the outputs to the actuadores to avoid anomalies in the installation that hurts could cause to persons things or animals OSAKA and his legal representatives are not done in any way responsible by eventual hurts to persons things or animals as consequence of manipulations improper use mistaken employment or in any case without going in conformity with the characteristics of the equipment 3 4 SCHEME OF WIRING ELECTRICAL CONNECTIONS QB 32 Analogue input p 0UT3 5 OUT2 re ae e ss a 9 16 G7 68 al Ea 53 BA Pa Ba fs fs Neutral Line C NO C NO 100 240 VAC 20 30 VDC optional Note The terminal 4 can be connected in different ways Out SSR OUTy to regulate solid state relays terminals y and 11 connection 12 Vdc 20 mA auto feed for passive probes connection terminals 4 and 1 NOTE F
19. from PROGRAMMER level PASSWORD 30 In this case the number is forced to zero A The letter shows that the parameter is in the level of OPERATOR PASSWORD 20 o the letter shows that the parameter is in the USER level The number that shows is the position where you wish that are displayed the parameter Example f we want that first show parameter AUTO and followed SP we must introduce in AUTO 01 and SP 02 To change the USER level the parameter or what is the same to the letter o enter in desired parameter and press the key PISANI c the key up Ay Thereby the lower letter changes from A to o Only lack establishes the desired number and be programmed OSAKA USER MANUAL LINE QB V 1 PAG 23
20. of the parameter FUZZY OVESHOOT CONTROL The regulation of the PID relies on a particular algorithm to TWO LIBERTAD S DEGREES that it optimizes in an independent way the services of regulation in presence of disturbances of the process and variations of the SET POINT The equipment in addition offers the possibility of possessing an interface of serial communication RS485 protocol of communication MODBUS RTU and speed of transmission up to 38400 baud The value of the process is visualized in 4 digits the value of SET on 4 digits whereas the condition of the outputs distinguishes itself by 4 leds The equipment memorizes up to 4 Set Points of regulation and can have up to 4 outputs 3 outputs can be foxgloves with relay and 1 analogical outputs 0 4 20mA or 0 2 10V configurable or up to 4 static outputs SSH The input is multiconfigurable and accepts probes of temperature thermocouples J K S B C And L N H T termoresistance Pt100 thermistors PTC NTC Only in model QB 32 0 sensors of infrarojo OSAKA IRS and analog signals normalized 0 4 20mA 0 1 5V 0 2 10V O 50 60mV 12 60mV The equipment has 2 digital incomes for free contact of tension and can have an input for transformer of current for the function of warming of the Break Alarm Other important functions are Function of alarm Loop Break limitation of the power of output limitation of the speed of variation of the power of output rea
21. only if ti 0 FuOC Fuzzy Overshoot Control Str t carrer running time Is the time expressed in seconds which needs the drive to move to the position normally open to closed db S minimum value of regulation It is the first value that must be reached regulation in 96 having effect on the output Used to prevent the control from intervening frequently 4 8 FUNCTIONS OF AUTOTUNING AND SELFTUNING All parameters related to the AUTOTUNING and SELFTUNING function are contained in the IrEG folder The AUTOTUNING s function and the SELTUNING they allow the automatic tuning of the regulator PID The AUTOTUNING s function calculates the parameters PID across a cycle of tuning type SMART which the parameters are memorized and during the regulation they are kept constant in case of mistake ERAT put calculation pid oscillatory or fast programming autotuning with a value auto negative eg 1 2 3 41 The SELFTUNING function rule based in TUNE IN motorizes regulation and the continuous calculation of the parameters during regulation Both functions automatically calculate the following functions Pb Proportional Band tcc Time Out cliclo cooling tcH Time Output Cycle Heating ti Integral Time Td Derivative time FuOC Fuzzy Overshoot Control And for the Double Action PID regulation also rcG Relationship P C rEG P H rEG To activate the AUTO TUNING function proceed
22. range allows doing a calibration of the mistakes of measure to 2 points of the process making the set more precise between sensor equipment and perfecting the process with the minimal possible mistake These parameters can be found in the folder ICAL The parameters that intervene are AL P Adjust Low Point AL o Adjust Low Offset AH P Adjust High Point AH o Adjust High Offset OSAKA USER MANUAL LINE QB V 1 PAG 6 Later we explain a possible practical example of calibration Example climatic Chamber with a working range of 10 to 100 C 1 Establish in the parameter AL P 10 and parameter AH P 100 These are the ranges of work of the supposed climatic chamber 2 With the help of a calibrator look at how much of detour is on the lower part of the process in this case to 10 degrees and to establish this difference in the parameter AL o 3 With the help of the gauge to look how much at detour is in the top part of the process in this case 100 degrees and to establish this difference in the parameter AH o Hereby the process will remain corrected in all his curve along the whole range AH o 2 Modified curve Real curve AL o 1 AH P 10 C AH P 100 C By means of par FiL can programme the constant of time of the Filter software relative to the input Digital filter of input so that it is possible to diminish the sensibility to the inconveniences of measure In case
23. reactivate when it is above the value SP HSEt HEAt On FA OSAKA USER MANUAL LINE QB V 1 PAG 7 HEAt On FS CooL On FS 4 4 REGULATION ON OFF C rEG H rEG WITH NEUTRAL ZONE All parameters related to the regulation ON OFF Neutral Zone are in the rEG folder The operation is feasible when 2 outputs are configured as H rEG and C rEG respectively The Dead Zone operation is used for the control of the facilities that possess an element that causes a positive increase eg Heater humidifier etc And an element which causes a negative increase eg ad Cooling dehumidifying etc The control functions works on the configurated outputs depending on the measure of Set Point SP active and hysteresis HSEt programmed The regulator behaves in the following way Turn off the outputs when the process value reaches the Set and active output H rEG when the process value goes below value SP HSEt or lights the output C rEG when process value is greater than SP HSEt For following the element causing a positive increase has to be connected to the output programmed as H rEG while the element of negative growth will go unit with the output configured as C rEG OUTH rEGb heating OUTc rEG cooling 4 5 REGULATION PID TO SINGLE ACTION All parameters related to PID regulation are contained in the carpeta Ir EG folder The mode PID regulation type action is feasible simply
24. regulation rEG OPLO or OFF If the equipment shuts down during the auto tuning or self tuning function activated the functions will be integrated into the take off 4 9 SCOPE OF SET POINT WITH CONTROLLED SPEED AND AUTOMATIC COMMUTATION BETWEEN TWO SET POINT RAMPS AND MANINTENANCE TIME All parameters related to the ramps functioning are contained in the lrEG folder You can achieve the set point is reached in a given time in any case never greater than the time that the system needs naturally This can be useful in those processes heating or chemical treatments etc whose Set point must be reached gradually in pre established times Also you can get once reached the first Set SP1 the equipment automatically switching to the second Set SP2 after a programmable time thus obtaining a simple automatic thermal cycle These functions are available for all types of programmable regulation The functioning is established by the following parameters SP u Gradient of rise ramp activated when the process value is lower than the set point expressed in unit minute SPd Gradient of descent ramp activated when the process value is greater than the set point expressed in unit minute The functions are deactivated when will programming the relative parameters InF 4 10 SOFT START s FUNCTION DELAYS AND PROTECTION All parameters related to the operation of Soft Start and Delay and Protection
25. showing the standard display push button a 2 Push button again Cy When the programmer is running the lower display will show the segment currently performed and the Event status as shown below F LLL where the first character can be r for a ramp or S for a soak the next digit show the number of the segment e g 53 means Soak number 3 and the two less significant digits LSD show you the status of the two event the LSD is the Event 2 3 Push button YN again When the programmer is running the lower display will show the theoretical remaining time to the end of the program preceded by a P letter P843 4 Push button A again When the wattmeter function is running the lower display will show U followed by the measured energy 5 Push button YN again When the Worked time count is running the lower display will show d for days or h for hours followed by the measured time 6 Push button again The instrument returns to the standard display Note The additional information visualization is subject to a time out If no button is pressed for more than 10 second the instrument comes automatically back to the Standard display 4 15 FUNCTIONING OF THE KEY PISANI AND MANAGEMENT DISPLAY The function of PISANI key can be defined by the USrb parameter in the PAn group The parameter can be programmed as Parameters 121 uSrb C button function during RUN TIME
26. that associated to which output the alarm signal is intended The alarm Loop Break is activated if the output power Parameter 54 LbcA remains at the value of 100 for the time set in par LbAt expressed in sec To not give rise to false alarms the value set in this parameter should be executed taking into account the time of scope of the Set when the measured value is far from it for example when starting the installation With the intervention of the alarm the computer displays the message LbA and behaves as in the case of measure error giving in power of output as programmed on par OPE programmable in InP folder To restore normal operation after the alarm choose the regulation mode OFF and reprogram the operation of automatic regulation rEG after checking the correct operation of the probe and actuator To exclude the alarm Loop Break simply program LbAt OFF 4 13 FUNCTIONS OF TIMER ONLY MODELS RAMPS All parameters related to the timer related functions are contained in the TIN group We can schedule a output as timer programmed in the folder IOUT any of the outputs O1F O2F O3F O4F t out There are five types of timers available i d A Delayed start with a delay time and a end of cycle time Start Tr t1 Tr t2 I uP d Delayed start at power up with a delay time and a end of cycle time TETI Tr t2 Start 0 a OUT off LZONZZ Yj off PWR UP
27. timer is running the display shows the timer counting down At the end of the counting the instrument shows t End messages alternately with the 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 OSAKA USER MANUAL LINE QB V 1 PAG 19 i Il Display colour 0 Automatic multicolor 1 Display red fix 2 Display green fix 3 Displ fi Deviation for display 1 999 colour management em Display Timeout 126 fiLd Filter on the displayed OFF Value OFF 20 0 Instrument status at power ON AS Pr Starts in the same way it was prior to the power down Auto Starts mode oP 0 Starts in manual mode with a power output equal to zero St bY Starts in stand by mode Operative enabling ALL All modes will be selectable by the next parameter Au oP Auto and manual OPLO mode only will be selectable by the next parameter Au Sb Auto and Stand by modes only will be selectable by the next parameter Operative mode selection f oPr E ALL Auto Auto mode oPLo Manual in Auto modes mode St bY mode Stand by f oPr E Au oP Auto Auto mode oPLo Manual mode If oPr E Au Sb auto Auto mode StbY Stand by mode Group SEr Serial link parameters Par Description
28. with automatic start the first power up only 7 Evo tune with manual Start 8 Evo tune with automatic restart at power up and after a set point change Manual start Autotuning OFF Not active On Active of the OFF On OSAKA USER MANUAL LINE QB V 1 PAG 17 SELF Self tuning enabling no yES Mud Hysteresis of the ON OFF 1 9999 control orotection sec ol ak sa al Sec e pee a e Sec ee en esa ouput cva me for 1300 1200 Sec a ratio between 0 01 99 99 heating and fee Coo action Sec quum near t e e e Sec is cuis SR ea pen at power up oe 99 59 hh mm power output 100 100 used during soft start 74 Soft start time 0 00 OFF OFF OFFz 0 00 hh mm 0 1 7 59 On inF 0 1 e 59 ut Threshold for soft start 1999 9999 9999 disabling Group l Sp parameters relatives to Set Point Par Description Rame D Number of used set 1 4 points 77 SPLL Minimum point 1999 SPHL 1999 value Ki Maximum set point SPLL 9999 9999 value Set Point 1 2 3 y 4 SPLL SPHL a set point 84 Remote set point type RSP Trin Perc RSP The value coming from serial link is used as remote set point trin The value will be added to the local set point selected by A SP and the sum becomes the operative set point PErc The value will be scaled on the input range and this value will be used as remote SP 85 SPLr Local remote set point Loc local
29. AL1 HYSTERESIS AL1d AL1 DELAY in sec AL10 ALARM 1 ENABLING DURING STAND BY MODE AND OUT OF RANGE CONDITIONS AL1t ALARM 1 TYPE You can have 10 different behaviors of the alarm outputs nonE ALARM NOT USED LoAb ABSOLUTE LOW ALARM The alarm is activated when the process value goes below the slogan the alarm set on the AL1 parameter for deactivated when it rises above the setpoint AL 1 HAL 1 With this mode is possible to program in par AL1L and AL1H the limits that can be programmed for the slogan AL1 HiAb ABSOLUTE HIGH ALARM The alarm is activated when the process value rises above the slogan the alarm in the parameter AL1 to turn automatically itself off when it falls below the slogan AL1 HAL1 In this mode you can set in par AL1L and AL1H the limits within which you can program the slogan AL 1 Absolute Alarm MIN MAX PV l m DALLLOS X LL Mw pue MIN arm LoAb ON LHAo The alarm acts when it exceeded the High Limit ALH or below the Lower ALL Will be disabled within the limits ALH and ALL OSAKA USER MANUAL LINE QB V 1 PAG 10 LHAI The alarm is activated within the Upper Limit ALH and Lower ALL Will be disabled over the Upper Limit ALH and below the Lower ALL Absolute High Low Alarm MIN MAX EXT INT PV Alarm MAX E Te LH Ai ON LHAo SE br Sensor Break HidE DEVIATION HIGH ALARM R
30. ATION 4 3 REGULATION ON OFF 4 4 REGULATION ON OFF WITH NEUTRAL ZONE 4 5 REGULATION PID TO SINGLE ACTION 4 6 REGULATION PID TO DOUBLE ACTION 4 7 REGULATION PID FOR OPERATIONS MOTORIZED WITH TEMPORARY POSITIONING 4 8 FUNCTIONS AUTOTUNING AND SELFTUNING 4 9 SCOPE OF SET POINT WITH CONTROLLED SPEED AND AUTOMATIC COMMUTATION BETWEEN TWO SET POINT RAMPS AND TIME OF MAINTENANCE 4 10 SOFT START s FUNCTION DELAYS AND PROTECTION 4 11 FUNCTIONING OF OUTPUT ALARM 4 12 FUNCTION ALARMA OF LOOP BREAK 4 13 FUNCTION OF TIMER 4 14 FUNCTION OF RAMPS 4 15 FUNCTIONING OF THE KEY PISANI AND MANAGEMENT DISPLAY 4 16 DIGITALS INPUTS 4 17 INTERFACE SERIAL RS 485 4 18 CONFIGURATION OF PARAMETERS WITH KEY USB 5 PROGRAMMABLE PARAMETERS TABLE 6 PROBLEMS MAINTENANCE AND WARRANTY 6 1 SIGNS OF ERROR 6 2 MAINTENANCE 6 3 WARRANTY AND REPAIR 7 TECHNICAL DATA 7 1 ELECTRICAL CHARACTERISTICS 7 2 MECHANICAL CHARACTERISTICS 7 3 MECHANICAL DIMENSIONS AND FIXATION 7 4 FREQUENT QUESTIONS 1 1 GENERAL DESCRIPTION AND ELECTION TEAM QB The models QB 32 48 98 are digital regulators with microprocessor to two displays with regulation ON OFF ON OFF with dead zone PID with double action direct and inverse PID for operations motorized of temporary positioning The latter in model QB 32 48 98 PLUS 3PT For the regulation of the PID the equipment possesses AUTOTUNING s functions FAST AND NEW SMART TUNNING SELFTUNING with automatic calculation
31. B V 1 PAG 13 Parameter 125 diS t Display time out Parameter 126 FiLd Filter on the displayed value Range values 0 20 The parameters relative to consumption for his viewing and configuration we must go to the folder settings COn Parameter 133 Co tY Timer function lts ranges values are from 0 OFF and 11 Where OFF Not used 1 Instantaneous power kW 2 Power consumption kW h 3 Counter synchronous program it starts with the beginning of the program and stops at the end of the program It gets to zero at program startup 4 Total working time in days 5 Total working time in hours 6 Total working time on days with forced Stand By reaching the inspection time h Job 7 Total working time in hours with forced Stand By reaching the inspection time h Job 8 Total time in days in which the control output is activated 9 Total time in hours in which the control output is activated 10 Total time in days in which the control output is activated forced Stand By reaching the inspection time h Job 11 Total time in hours in which the control output is activated forced Stand By reaching the inspection time h Job Note In case of regulation with linear output or servomotor only has meaning option 4 5 6 7 Selection 4 11 represent an internal counter that calculates the work hours and or days of the device Upon reaching the scheduled work time in the parameter 136 h J
32. ELATIVE The alarm is activated when the process value goes above the value SP AL for turn off automatically when it is below SP AL With this mode is possible to program in par AL1L and AL1H and the limits within which it is possible to program the slogan AL1 LodE DEVIATION LOW ALARM RELATIVE The alarm is activated when the process value goes below the value SP AL to turn off automatically when is above of SP AL In this mode you can set the par AL1L and AL1H the limits within which you can program the slogan AL1 Deviation Alarm MIN MAX Alarm MAX Hide Alarm MIN LodE LHdo RELATIVE BAND ALARM IN ALARM OUT OF THE BAND MAX MIN The alarm operates when exceeding the High Limit SP AL or below the Lower SP AL both relative to the Set Point Will be disabled within the High Limit SP AL and Lower SP AL both relative to the Set Point LHdE RELATIVE BAND ALARM IN ALARM INSIDE THE BAND MAX MIN The alarm is activated within the High Limit SP AL and Lower SP AL both relative to the Set Point Will be disabled over the Upper Limit SP AL and below the Lower SP AL both relative to the Set Point Band Alarm MIN MAX EXT INT ime arm ON ON LHdi Ao p Alarm EXT N N aM N Linde O Ab1 ALARM 1 FUNCTION The parameter can have a value between 0 and 15 The programmed number that corresponds with the desired performance is obtai
33. OSAK A 2 WWW OSAKASOLU TONS COM qbae qbus qbes REGULATOR AND CONTROLLER 1 16 DIN 32 x 74 48 x 48 96 x 48 Manual V 1 CE O AKAt QB 98 INTRODUCTION In the manual present there is contained the information necessary for a correct installation and the instructions for the utilization and maintenance of the product therefore it s recommends to read attentivly the following instructions This documentation has realized with supreme care nevertheless OSAKA does not assume any responsibility of the use of the same one The same thing is said for every person or company involved in the creation of the manual present The present publication is an exclusive property of OSAKA that prohibits his absolute reproduction and spreading as well as part of the same one not to being of being expressly authorized OSAKA is reserved of contributing aesthetic and functional modifications at any time and without previous notice INDEX 1 DESCRIPTION OF EQUIPMENT 1 1 GENERAL DESCRIPTION AND ELECTION TEAM QB 1 2 DESCRIPTION OF FRONT PANEL 2 PROGRAMMING 2 1 FAST SETTING OF SET POINT 2 2 RESTORE PARAMETERS OF FACTORY 2 3 CODE EXPRESS PROGRAMMING LEVELS PARAMETER 2 4 TYPES OF REGULATION 2 5 ACTIVE SET POINT SELECTION 3 WARNINGS OF INSTALLATION AND USE 3 1 USE 3 2 MECHANICAL ASSEMBLY 3 3 ELECTRICAL CONNECTIONS 3 4 SCHEME OF WIRING 4 FUNCTIONING 4 1 MEASURE AND VISUALIZATION 4 2 OUTPUT CONFIGUR
34. S The parameters Pr G1 Pr G2 Pr G3 Pr G4 we indicate if we want the ramps are made by degrees minutes in case you do not wish to do a controlled ramp be introduced the value inf Since we want to arrive to SP2 by 1 grade minute and SP3 to 2 degrees minute we introduce in the parameter Pr G2 1 and in the parameter Pr G3 2 Before introduce the maintenance time of the ramps it is important that you first you entroduce the time to perform hours or minutes in the Pr u parameter In this case in the parameter it selected option hh nn hours and minutes is selected Then in the parameters Pr t1 Pr t2 Pr t3 enter 01 00 02 00 and 05 00 respectively e How do move the parameters to USER level to quickly change the desired parameters Do the following 1 Press the key for more of 3 seconds 2 The upper display show PASS while that the low display show 0 3 Press the key o X2 and enter with password 81 4 Press the oy le The equipment shows the name of the first folder of configuration T pr parameters l 5 By the button EP select the parameter folder you want to promote in this case the parameter IPRG 6 By the button select the parameter 7 The upper display will show the parameter name and the lower display will show your current level of promotion The promotion level is defined by a letter followed by a number c The letter shows that the parameter is accessible only
35. X90 mm e How dol set the analog output Enter the Out folder and go to o1t parameter In this parameter we choose what kind of output we wish 0 10V 4 20 mA etc Go to o1F parameter and choose what kind of output we wish Regulation retransmission etc In case that we want rebroadcast for example the input value we have to indicate the start and end of the scale in the parameters Ao1L and Ao1H Example We want rebroadcast the input value for output 4 20 mA The output value we want 0 to 100 C Set O1t 4 20 O1F r inP Ao1L 0 Ao1H 100 e How do Autotuning Although there are several ways to activate a Autotuning we will explain how to do that properly we recommend autotuning and not having to do it repeatedly 1 Setting the equipment and establish the normal Set Point working or which is used more 2 Go to the Auto parameter which is in the rEG folder and establish this parameter to 5 3 Turn off the equipment power supply not stand by and back on 4 The equipment will start the Autotuning indicating LED flashing Will be doing tests to calculate the PID It is possible that during autotuning the temperature is exceeded during 2 or 3 times do not be alarmed Depending on the auto tuning process will last more or less time 5 When the led of the autotuning turns off autotuning is complete Go back to the auto parameter and check that is in O if not set it yourself e How do I set PT100 t
36. by programming the parameter Cont contained in the rEG folder 2 Pid and works on the output of regulation in function to Set Point SP active mode H rEG operation or C rEG and the result of PID control algorithm with two degrees of freedom of the equipment Todos los par metros relacionados a la regulaci n PID est n contenidos en la carpeta IgG To achieve good stability of the variable in case of fast processes and actuator control with digital output cycle time tcc and tcH should have a low value with a very frequent intervention of the regulation output In this case the use of a static relay SSR for the control actuator is recommended Use output 4 Programmed as SSH The algorithm of regulation PID of simple action of the equipment facilitates the programming of the following parameters Pb Proportional Band ti Integral Time Td Derivative time tcH Time Output Cycle Heating tcc Time Out cliclo cooling rS Manual Reset only if ti 0 Fuoc Fuzzy Overshoot Control The latter parameter eliminates the disturbances in the load overshoot of the start up of the process or of Set Point s change It should be noted that a low value of the parameter reduces the overshoot whereas a high value increases it 1 Value FuOC OK 2 Value FuOC too high 3 Value FuOC too low 4 6 REGULATION PID TO DOUBLE ACTION H rEG C rEG All parameters related to PID control are containe
37. ching the Set Point to controlled speed control for two times with time of intermediate maintenance function Soft Start protection of parameters in different levels OSAKA USER MANUAL LINE QB V 1 PAG 1 OSAK A i2 WWW OSAKASOLUTIONS COM Line MODELOS Y OPCIONES gt SOLUCIONES EN REGULACI N gbae Modelos QB 32 0 QB 32 QB 32 RMA S Sam mm gt n gbus j Modelos OSAKA QBas QB 48 QB 48 RMA OSAKA QB 9g Modelos QB 98 RMA P Empieza el 22 durante el tiempo programado 2 horas MANT Apretando el pulsador Acabado el y conectado a la entrada inicia la 2 Rampa hasta sm fa Rel 1 Calor ES Rel 2 Fr o E rel 3 Se al fin OSAKA USER MANUAL LINE QB V 1 PAG 2 1 2 DESCRIPTION OF FRONT PANEL DISPLAY AND KEYBOARD Process Value in eng units OSAK A 3 Unit a Autotune in progress Alarm active En flashing Manual i Set Point or mode Control Output Output tH Timer IEDs Wattmeter F S A Counter Exit config I change Folder Settings Value settings Menu access Up Down confirm next parameter KEYS FUNCTIONS 1 Key ENTER Used to accede to the programming of the parameters of functioning and to confirm the selection Also it advances to the near parameter inside the folder in which he is 2 Key DOWN Decreases the value of the parameter 3 Key UP Increase the parameter value In automatic
38. d in the IgG folder The Double Action PID regulation is used to control of facilities where there is an element which causes a positive increase eg heat and an element which causes a negative increase eg cooling and acts when they are configurated 2 outputs as H rEG and C rEG and programming the par Cont Pid The element causing a positive increase will go connected to the output programmed as H rEG while negative growth element will go connected to the output programmed as C rEG The mode of regulation PID double action acts on both outputs C rEG H rEG and Set Point SP depending and the result of PID control algorithm with two degrees of freedom of the equipment To achieve good stability of the variable in case of fast processes and control actuators with digital outputs cycle times tcc and tch should have a low value with a very frequent intervention of the regulation outputs In this case the uses of a static relay SSH to control actuators are recommended The PID control algorithm of double action equipment facilitates the programming of the following parameters Pb Proportional Band ti Integral Time Td Derivative time tcH Time Output Cycle Heating tcc Time Out cliclo cooling rS Manual Reset only if ti 0 Fuoc Fuzzy Overshoot Control rcG Power Ratio or relation between power of the element in the output C rEG and power of the element controlled for the output H rEG
39. he following functions NonE Output not used H rEG Heat output c rEG Cold output AL Alarm output t out Timer output t HoF Timer output on Hold OFF P End end of program indicator P HLd pause indicator program P uit indicator program phase maintenance P run indicator RUN program P Et 1 2 Program Event 1 2 Or bo out of range or power failure indicator output P FAL power failure indicator bo PF Out of range indicator power failure and power failure St bY indicator Stand by dif 1 2 The output repeats the condition digital input 1 2 On output 1 always on Note The timer functions and ramp or program is only available from the RAMP model In the parameter io4 F is selected the function that required for the output or input 4 This output function shared with digital input 2 So if wish use output 4 as a digital input extra or feeder probe this output will be lost Let s see how we can configure it on Output 4 always ON used as a power source of power out4 output SSH dG2 c Digital input 2 for contact closure dG2 U Digital input 2 driven by 12 24 VDC ANALOG OUTPUT 0 4 20 mA o 0 2 10 V o1t Only RMA models OUT1 is the ANALOG OUTPUT Par o1F These parameters can be programmed for the following functions NonE Output not used H rEG Heating output c rEG Cooling output r inP Measure retransmission r Err Error sp PV retransmission r SP Set po
40. his new tool allows the user to leave the team practically configurated only entering 2 codes of 4 digits The following explains how to set parameters via express code 1 Prees Enter Key during approximately 3 seconds The upper display will show PASS 2 Using the buttons and Y set the password 300 and press Enter 3 If no previously programmed code in display shows codE and OFF in the lower display 4 Press button for continue 5 The upper display will show COD1 while the lower display shows 0000 6 At this moment it is necessary to choose the wished code of the and OD and then LMNO Erw Dp Lud i H Ab AD AB 0 0 ON OFF Heating H tr NU Au AD H 3 Ee Au JAR AB NU JA JAD IC 0 c e as o 6 H Ja pa jc o s ON OFF Neutral Zone Ic n a AL3 0 6 o pu w wo H Au AU c ju A A NU An C Ww JA following EX the up and down keys A press enter P cod L min o Input Type and Range Modo de Control 550 1000 C T e T t A NIN ITN IN I mMIPmPIPIMIMImPIMImPImMIIOlIcIcGjeIcGeIcIcGI 50 1370 C 50 1760 ON OFF Cooling 50 1760 C 70 400 C 50 785 C 4 50 785 C 200 8509 50 20 mA this selection force OUTy TX 20 mA this selection force OUTy TX PID Heating H PID Cooling 58 1832 F 58 2498
41. int retransmission r SEr Serial value of the RS485 Across the parameter oit is possible to choose the type of analogical output that is wished to choosing between 0 20 0 20 mA 4 20 4 20 mA 0 10 0 10 V 2 10 2 10 V In the parameters Ao1L and Ao1H are programmed the limits lower and Superior of the analogical output in case he needs Only it will appear when the output is configurated like r IMP r Err r SP or r SEr 4 3 REGULATION ON OFF C rEG All parameters related to the regulation ON OFF are contained in the rEG folder This mode of regulation is possible programming the parameter Cont On FS or On FA and it acts on the output configurated as H rEG or C rEG depending on the measure of the Set point active SP and of the hist resis programmed HSEt The team employs a regulation ON OFF with symmetric hysteresis if Cont On FS or with asymmetrical hysteresis if Cont On Fa The regulator behaves of the following form in case of inverse action or of heat FunC HEAt disables the output when the process value reaches the value SP HSEt in case of symmetrical hysteresis or SP in case of asymmetrical hysteresis and is activated when the value is below SP HSEt Vice versa in case of direct action or cooling OXF c rEG disables the output when the process value reaches the value SP HSEt in case of symmetrical hysteresis or SP for asymmetric hysteresis
42. iones rapid in the compressor This is done across the parameter cPdt establishing a time in seconds In case that stop the compressor for temperature until the time established in the parameter does cPdt not happen always and when the temperature is not superior to the SP HSET the equipment will not return to start the compressor for protection 4 11 FUNCTIONING OF OUTPUT ALARM AL1 AL2 AL3 For the configuration the alarm functioning whose involvement is linked to the process value AL1 AL2 AL3 is first necessary to establish to which output has to correspond the alarm To do this one needs configure the folder for all parameters Out parameters relative to the outputs you want to use as alarms 1F 02F O3F O4F programming the parameter relative to the desired output as AL Then we associate an alarm to the desired output through o1AL O2AL o3AL and o4AL parameters Note In all the following examples relate to AL1 alarm Naturally the operation of the other alarms is the same By accessing lAL 1 folders the parameters relating to alarms are programmed AL1t ALARM 1 TYPE Ab1 ALARM 1 FUNCTION AL1 AL1 THRESHOLD AL1L FOR HIGH AND LOW ALARMS IT IS THE LOW LIMIT OF THE AL1 THRESHOLD FOR BAND ALARM IT IS LOW ALARM THRESHOLD AL1H FOR HIGH AND LOW ALARMS IT IS THE HIGH LIMIT OF THE AL1 THRESHOLD FOR BAND ALARM IT IS HIGH ALARM THRESHOLD HAL1
43. l Measurement category Class of protection against electric shock Front in Class Il Insulation Reinforced between the low voltage section supply and outputs with relay and front panel Reinforced between the low voltage section supply and outputs with relay between parts of very low voltage inputs static outputs analog outputs static outputs and analogic respect to the input 50 V insulation between RS485 and parts low voltage Electromagnetic compatibility and safety requirements Compliance directive EMC 2004 108 CE EN 61326 1 directive LV 2006 95 CE EN 61010 1 Pollution category Il Temperature drift It is part of the global accuracy Operating temperature 0 50 C 32 122 F Storage temperature 30 70 C 22 158F Humidity 20 85 RH not condensing 7 2 MECHANICAL CHARACTERISTICS Case Plastic self extinguishing degree V 0 according to UL 94 _ Dimensions 48 x 48 depth 75 5 mm 1 77 x 1 77 x 2 97 in Weight 180 g max Installation panel Insert in hole 45 x 92 mm Connections Terminal strip for a section 2 x 1 mm Front protection IP 65 when the optional panel gasket is mounted for indoor locations according to EN 60070 1 Storage and transport temperature 10 60 C 7 3 MECHANICAL DIMENSIONS PANEL DRILLING AND FIXATION mm DIMENSIONS e Y d qe PANEL CUT OUT QB 32 Lx H 29 X71 mm QB 48 Lx H 45 X45 mm QB 98 Lx H 45
44. lect the parameter 7 The upper display will show the parameter name and the lower display will show your current level of promotion The promotion level is defined by a letter followed by a number Select the folder of the parameter that c The letter shows that the parameter is accessible only from PROGRAMMER level In this case the number is forced to zero A The letter shows that the parameter is in the OPERATOR level Example If there is wished that appears the Sens parameter first and Dp second parameter It must be programmed Sens A1 Dp A2 o The letter shows that the parameter is in the USER level The number that shows is the position where you wish that show the parameter to appear 8 With the key position Or NA this parameter is assigned the desired Note If a different value from O is established the letter c will change automatically to to and the parameter happens to be automatically the level of limited access 9 To go the level of USER parameter press co and maintaining the pressure press The letter will change of A to o changing automatically the level OSAKA USER MANUAL LINE QB V 1 PAG 4 10 When you need to go out of the procedure of promotion press the button and maintain pressure for over 10s The equipment shows the standard display 2 4 TYPES OF REGULATION The equipment has 3 operating modes automatic regulation REG Stand by Stand by and manual cont
45. lue To modify press the key UP to increase the value or DOWN to decrease it These keys act with steps of a digit but if they keep pressed for more than one second the value it increases or decrementa rapidly and after two seconds in the same condition the speed increases quickly to reach the wished value Once programmed the wished value touching the key Set outputs the fast programming mode or passes to the visualization of the slogans of alarm AL1 AL2 AL3 The output of rapid mode putting start of Set is given touching the key PISANI or happening for all the parameters of the menu User touching the key ENTER 2 2 RESTORE PARAMETERS OF FACTORY The equipment allows returning to programme the parameters of factory of rapid form in case it is needed To load the parameters of factory they must follow the following steps 1 Press ENTER key for 5 seconds 2 In the top display there will display message PASS and in the low one he will prove to be O 3 Press keys DOWNY UP and to establish password 481 4 Press key ENTER 5 The equipment will go out automatically and will do a reseteo of parameter showing in the top display the message dFLt Once the equipment returns to be ignited the equipment will return to be as the first time that was started 23 CODE EXPRESS AND PROGRAMMING LEVELS PARAMETER The new line of equipments QB comes with the new system of the list of programming parameter CODE EXPRESS T
46. ly 100 240 VAC 15 10 of the nominal value Frequency AC 50 60 Hz Consumption 5 VA max Terminals protection IP 20 according to EN 60070 1 Terminal block 16 M3 screw terminals for cables of 0 25 2 5 mm2 AWG22 AWG14 with connection diagram Panel cutout 45 40 6 x 45 0 6 mm 1 78 0 023 x 1 78 40 023 in Insulation voltage 2300 V rms according to EN 61010 1 Display updating time 500 ms Sampling time 130 ms Hesolution 30000 counts Total Accuracy 0 5 F S V 1 digit 25 C of room temperature Input s 1 input by temperature probe tc J K S B C E L N R T infrared sensor OSAKA IRS J and K range RTD Pt 100 IEC PTC KTY 81 121 990 O 25 C NTC 103AT 2 10KQ O 25 or signals in mV 0 50 mV 0 60 mV 12 60 mV or signal standard 0 4 20 mA 0 1 5V 0 2 10 V 1 input for current transformer max 50 mA 2 Digital input for voltage free contacts Normalized impedance input signal 0 4 20 mA 51 Q mV y V 1 MO OSAKA USER MANUAL LINE QB V 1 PAG 21 Output s Up to 6 digital outputs with relay OUT1 SPST NO 6 A 7 4 FREQUENT QUESTIONS AC1 3 A AC3 250 VAC OUT2 3 4 5 SPST NO 4 A AC1 2 A AC3 250 VAC or in piloting voltage SSR 12 VDC 20 mA Up 2 analog output OUT1 2 0 4 20 mA Load Max 300 Q o 0 2 10 V Auxiliar supply output OUT6 12 VDC 20 mA Max Electrical life for relay outputs 100000 operaz Installation category I
47. m 0 00 99 59 Ti indication na C 97 Pr S1 Set point soak 1 102 Pr S2 lor 4 112 Pr S4 OSAKA USER MANUAL LINE QB V 1 PAG 18 ms ms 7 Z Gradient o the ramp 1 0 1 122 2 3 or 4 Time of the soak 1 3 or 4 Wait band of the soak 1 ond 3 or 4 Events of the 1 4 group Program status rES run rEs rES Program reset HoLd run Program start HoLd Program hold Group I PAn Operator HMI parameters Par _ Description Range De Level 2 password limited OFF 1 200 access level OFF El nivel 2 no est protegido por una m 200 lini E NN uS configuration level M MEN express aia level Ce button function nonE tunE tunE during RUN TIME oPLo Aac nonE No function Asi chSP tunE Auto tune self tune St by Strt enabling A single press P run P rEs longer than 1 second P r H r starts the auto tune oPLo Manual mode The first pressure puts the instrument in manual mode OPLO while a second one puts the instrument in Auto mode AAc Alarm reset ASi Alarm acknowledge chSP Sequential set point selection Stby Stand by mode The first press puts the instrument in stand by mode while a second one puts the instrument in Auto mode Str t Timer Run hold reset P run Program run P rES Program reset P r H r Program run hold reset Display management nonE Pou nonE Standard dis
48. mode if you do a click shows H or C followed by a number This indicates the power value in output Heat H or Cold C If we wattmeter function activated the lower display will show U followed by the measured power 4 Key PISANIIESI When in the menu is used to change folder or for going out of parameters by long press Key of configurable functioning for the USrb parameter It can be set to Activate Auto tuning or Self tuning put the computer to manual control turn off the alarm change the active Set Point deactivate control etc see par 4 15 5 Led OUTPUT1 Indicates the state of output OUT 6 Led OUTPUT2 Indicates the state of output OUT2 7 Led OUTPUTS Indicates the state of output OUT3 8 Led OUTPUTA Indicates the state of output OUT4 9 Led SET POINT Indicates Set Point and programming indicates parameter value See par 2 3 10 Led AUTOTUNING IN PROGRESS Indicates that the autotuning Self tuning function are operating flashing 11 Measuring PV Normally indicates the process value 12 Unit C F indicates which unit is measuring the temperature 13 Alarm Alarm indication in progress 14 Manual mode indicates that the controller is being controlled in manual mode 2 PROGRAMMING 2 1 FAST SETTING OF SET POINT Press the Set button to confirm and the display will visualized SPn where n is the number of Set Point active at that time and the programmed va
49. moistened with e Ethyl Alcohol pure or denatured C2H5OH or e Isopropyl Alcohol pure or denatured CH3 2CHOH or e Water H20 5 Make sure that there are no loose terminals 6 Before putting the instrument back in its case make sure that it is perfectly dry 7 Put the instrument back and turn it ON 6 3 WARRANTY AND REPAIR This device has a guarantee in form of repair or replacement by manufacturing defects in materials of 12 months from the date of purchase OSAKA SOLUTIONS automatically void this guarantee and is not liable for any damages deriving from Use installation or use and handling undue others than those described above and in particular differs from the safety requirements established by the regulations Use in applications machines or electrical panels that do not provide adequate protection against liquids dust grease and electric shocks to the installation conditions made The inexperienced handling and or alteration of the product The installation use in applications machines or electrical panels do not comply with the valid norm In case of defective product under warranty or out of that period it should contact the post sales service to perform the necessary steps Request document repair RMA by mail or fax and complete it is necessary send the RMA and the device to SAT OSAKA by method prepaid 7 TECHNICAL DATA 7 1 ELECTRICAL CHARACTERISTICS Power supp
50. ned adding the values reported in the following description ALARM BEHAVIOUR TO THE CONNECTION It can have 2 different behaviors of the alarm output depending on the added value to par Ab1 NORMAL BEHAVIOUR The alarm is activated if and when alarm conditions exist 1 ALARM NOT ACTIVATED AT THE CONNECTION If the equipment is in alarm condition this is not activated The alarm is activated only when the process value after connection when alarm conditions exist ALARM DELAY It can have 2 different behaviors of the alarm output depending on the added value to par Ab1 0 ALARM NOT DELAYED The alarm is activated immediately after verifying alarm conditions 2 ALARM DELAYED On verify the alarms conditions the delay set in parameter are activated AL1d expressed in sec And only to pass the time the alarm will be activated MEMORY ALARM It can have 2 different behaviors of the alarm output depending on the value added to par Ab1 0 ALARM NOT MEMORIZED The alarm remains active in alarm conditions 4 ALARM MEMORIZED The alarm is activated when alarm conditions and remain active but such conditions do not remain but when is not press the key PISANI correctly programmed USrb Aac Alarm reset Alarm reset In the example the behavior is represented by a high absolute alarm SIOP ALARM It can have 2 different behaviors of the alarm output depending on the value added to par Ab1
51. ng the Enter key In the event that is experienced an error of probe the equipment will interrupt the running cycle The calculated value of autotuning will be automatically saved to your computer to complete the proper execution cycle in autotuning parameters relative to PID regulation Note The equipment come configured factory to perform auto tuning on all versions of equipment Auto 7 To activate the SELF TUNING function proceed as follows 1 Establish and activate the desired Set Point 2 Program the parameter Cont Pid 3Pt or if the equipment controls a motorized drive with time positioning 3 If the control is a simple action set the parameter according to control process through the output 4 Configure 2 outputs as C rEG and H rEG if the equipment controls a dual action installation or a motorized drive with time positioning 5 Program the parameter SELF yes 6 Exit from the parameter programming 7 Connect the equipment to the controlled installation OSAKA USER MANUAL LINE QB V 1 PAG 9 8 Activate self tuning by selecting the Tune option in the main menu or by correctly programming key PISANI conveniently scheduled When the Self tuning function is not activated the TUNE LED is permanently mode fixed and all the PID parameters of regulation Pb ti td ecc are not visualized any more To stop the Autotuning cycle or off Selftunting select the SELF menu any states
52. nts necessary protection The equipment must be adequately protected and away from liquids dust grease and dirt They must be accessible only with the use of a right tool and safety system except the front The devices can NOT be used in dangerous environments flammable or explosive without adequate protection It is recalled that the installer must ensure that the norm for electromagnetic compatibility is respected after implantation in the installation of equipment eventually using the right filters if is needed In case of failure or malfunction of measuring and control equipment that can create dangerous situations or damage to persons things animals or products defrost food or changes in their ideal state it is recalled that the facility should be equipped with electronic devices or electromechanical safety and warning system They should be placed outside the measuring and control equipments possible protective devices responding to specific safety requirements that are covered by the norm of the product or suggest the common sense For your own safety is highly instructions provided above recommended fulfilling the 3 2 MECHANICAL ASSEMBLY Requirements This equipment is designed for a permanent installation only for use in interiors in an electrical panel that covers the back framework The terminals are exposed and the wiring in the part of behind Select a location of assembly that has the following charac
53. ob is generated r iSP visualization Requires Inspection only configurations 6 7 10 0r 11 The counter reset with subsequent cancellation of the request for inspection r iSP can only be done by changing the value of the parameter 136 h Job For Co tY 6 7 10 or 11 the counter reset causes the cancellation of the stand by state and return to operational status Parameter 134 UoLt Nominal Voltage of the load Range value 1 9999 V Parameter 135 Cur Nominal current of the load Range value 1 999 A Parameter 136 h Job Threshold of the working period Their ranges values depend on the programmed value in parameter 133 Co tY These are OFF Threshold not used 0 999 days when 133 Co tY 4 6 8 10 0 999 hours when 133 Co tY 5 7 9 11 Parameter 136 t Job Worked time not resettable Range value 1 999 days or 1 999 hours 4 16 DIGITALS INPUTS In case the output OUT 4 is not used the equipment has a digital input whose operation is configurable through the diF1 diF2 parameter in the InP folder Parameters can be programmed as oFF Not used 1 Alarm reset 2 Alarm acknowledge ACK 3 Hold of the measured value memory alarm 4 Stand by mode 5 Manual mode 6 HEAt with SP1 and CooL with SP2 7 Timer RUN Hold Reset 8 Timer Run 9 Timer Reset 10 Timer Run Hold 11 Timer Run Reset 12 Timer Run Rese
54. of mistake of measure the equipment provides in output the power programmed in the par OPE This power will be calculated based on the cycle time programmed by the regulator ID whereas for the regulators ON OFF it is considered automatically a time of cycle of 20 seg Eg in case of probe error with ON OFF control and OPE 50 the regulation output will be activated for 10 sec Then stays off for 10 sec until the mistake of measure stays By means of par InE it is possible to establish which are the conditions of mistake at the input that they lead the equipment to providing in output the power programmed in the couple OPE The possibilities of par InE are Or the condition occurs in case of over range Ur the condition occurs in under range Our the condition occurs in case of over range or under range Through of par diSP present in the group IPAn establishes the normal visualization of the display SV that can be the active Set Point SPF the power of regulation of output Pou the operative Set Point when there are active sections Spo the slogan of alarm AL1 2 or 3 AL1 AL2 or AL3 4 2 OUTPUT CONFIGURATION The aqu of the equipment can be configured in the parameter folder Out where they are depending on the type of outputs digital or analog various parameters DIGITAL OUTPUT with relay or with SSR Par O1F o2F o3F o4F These parameters can be programmed for t
55. or the use of a sensor s output SSR 4 20 mA or 0 10 V install a power supply FAC 25 14 Pin nnedor ff 1 4mm max Sripped wire LE 5 5mm 0UT3 only available in models R 1 Additional Relay ELECTRICAL CONNECTIONS QB 48 Analogue input Ez 22 Su ba Line 100 240 VAC 20 30 VDC optional a El a 454 SE The terminal 4 can be connected in different ways Out SSR OUTy to regulate solid state relays terminals y and 16 connection 12 Vdc 20 mA auto feed for passive probes connection terminals y and 1 NOTE For the use of a sensor s output SSR 4 20 mA or 0 10 V install a power supply FAC 25 14 Pin nnedor gf 1 4mm max Sripped wire L 5 5mm 0UB only available in models R 1 Additional Relay ELECTRICAL CONNECTIONS QB 98 TERMINALS Line 40 Vac 100 2 optional 20 30 Vdc Neutral E g Pin connector pf 14 mm max E Strip ped wire L Note The terminal 4 can be connected in different ways Out SSR OUT to regulate solid state relays terminals 4 and 5 connection 12 Vdc 20 mA auto feed for passive probes connection terminals y and 1 NOTE For the use of a sensor soutput SSR 5 20 mA or 0 10 V install a power supply FAC 24 1A QUT3 only available in models R 1 Additional Relay 14 4 FUNCTIONING 4 1 MEASURE AND VISUALIZATION All parameters relating to the measure are contained in the folder InP
56. play SPF Spo Pou Power output AL1 ALS SPF Final set point Pr tu Pr td opo Operative set point P t tu P t td AL1 Alarm 1 threshold ti uP ti du AL2 Alarm 2 threshold PErc AL3 Alarm 3 threshold Ramp Timer nonE Pou Pr tu SPF Spo During a soak the AL1 ALS instrument shows the Pr tu Pr td soak elapsed time P ttu P t td During a ramp thejti uP ti du display shows operative set point At the end of the program execution the instrument Will show P End messages alternately with the measured value Pr td During a soak the instrument shows the soak remaining time count down During a ramp display shows operative set point At the end of the program execution the instrument shows P End messages alternately with the measured value P t tu When the programmer is running the display shows the total elapsed time At the end of the program execution the instrument shows t End messages alternately with the measured value P t td When the programmer is running the display shows the total remaining time count down At the end of the program execution the instrument shows P End messages alternately with the measured value ti uP When the timer is running the display shows the timer counting up At the end of the counting the instrument shows t End messages alternately with the measured value ti du When the
57. r implementation of the FAST autotuning type it is necessary that in the beginning of cycle there is a certain difference regarding the process variable and the set point For this reason the equipment starts the autotuning only when The Fast autotining does not start when the Set Point is close to the initial reading When the measured variable varies irregularly during the tuning cycle for the motive due to the process the variable ascends or descends In this case we recommend using the autotuning of the oscillatory type which acts in some cycles of ON OFF control which leads the process value to oscillate around the value of set point completed and which happens to PID regulation with the parameter calculated autotuning 6 Output programming parameters 7 Connect the equipment to the control system 8 Enable autotuning turning off and turning on the device if Auto 4 5 1 2 or 2 or by selecting the tunE option At this point the auto tuning function is activated and is signaled using the flashing LED TUNE The controller acts when the equipment s operations have ended and the parameters of PID control are the suitable If the conditions of the process values are not checked for autotuning the display will show erat This indicates that the equipment can not continue operations and the equipment will get in the normal mode of regulation and the parameters set above To clear the error erat is enough by pressi
58. rol OPLO The team can move from one state of operation to another in different ways From Oper parameter inside the folder Pan From the PISANI key conveniently programmed on par USrb USrb OPLO USrb St by can go from nivel rEG the level programmed in the parameter and vice versa From digital input conveniently programmed on par DiF it is possible passed to the REG mode to St by mode Default team is active in the REG mode If any of the three levels is programmed is scheduled to begin booting the computer with the last programmed mode before shutdown AUTOMATIC REGULATION rEG The mode of automatic regulation is the normal way of functioning During the automatic regulation it is possible to visualize the regulation power on the display SV pressing the key The values visualizables of power vary of H100 100 of power in heat output to C100 100 of power in output of Cold DEACTIVATED REGULATION Stand by East way deactivates the automatic control and deactivates the outputs of control In this way the equipment works as an indicator When the equipment is in way Stand by the top screen will show the measured value whereas the low screen will show alternately the Set Point and the message St bY MANUAL REGULATION OPLO This option allows programming manually the percentage of power given in the output of the regulator deactivating the automatic regulation When the eq
59. s are contained in the rEG folder The Soft Start function only works through PID control and allows to limit the power of regulation to boot the equipment for a set time This is useful when the actuator controlled by equipment could damage due to excessive power when this one is not still in conditions of regime eg in the case of certain heating elements The functioning is determined by the following parameters SLP Power of Soft Start Sst Soft Start Time in hh mm SS tH Set of disable cycle Soft Start Once set the parameter to the desired value when to connect the equipment will proceed to provide output power programmed on par St P for the time set in par SSt or to reach the absolute value set in par SS tH In practice the equipment operates in manual regulation automatically switching to regulation automatic to finish the time SSt or when the process value equals the value programmed on par HSEt To disable the Soft Start function simply program par SSt OFF The equipment allows doing a connection delay of the team using the od parameter This parameter is expressed in hours minutes hh mm If it is established a time in this parameter once the equipment is ignited until this time does not happen the exits of regulation will not be activated In case we work depending on cold C rEG the equipment allows to put a protection for a compressor to avoid connections and desconex
60. s sufficient a double cable and telephone type interleaving and of connection ground all GND terminals If your equipment is equipped with a serial interface program the following parameters available in the ISEr group Add Instrument address Programming a different number for each station 1 to 254 baud Transmission speed baud rate programmable from 1200 to 38400 baud All stations must have the same baud rate trSP Select the value for be relayed Master Its different programmations are nonE Retransmission not used the equipment is a slave rSP The equiment it becomes Master and retransmits the active Set Point PErc The equiment it becomes Master and retransmits the output power OSAKA USER MANUAL LINE QB V 1 PAG 14 5 PROGRAMMABLE PARAMETERS TABLE Then are described all the parameters that the team can adopt some of them may not be present or because they depend on the type of equipment used or because they are automatically disabled as unnecessary parameters Group l InP Parameters relative to the input Par ____ Description Range Pet Type probe input J J thermocouple i CrAL S i CrAL K thermocouple E L n r t C S thermocouple S Ir J Ir CA rtd Pt1 Ptc ntc L l UoLt When it tries to enter in programming keyboard while is in progress 0 60 12 60 a communication via serial the equipment visualizes buSy 05 15
61. t OF1 AL o2AL Alarms linked up with the o3AL out 2 3 and 4 oAAL s o2Ac OUut2 3 and 4 action 24 o3Ac 2 o4Ac Group l AL1 AL2 ALS parameters relatives to Alarms AL1 Alarm type AL1 AL2 AL3 nonE Alarm not used LoAb Absolute low alarm HiAb Absolute high alarm LHAo Windows alarm in alarm outside the windows LHAI Windows alarm in alarm inside the windows SE br Sensor Break LodE Deviation alarm relative HidE Deviation alarm relative LHdo Relative band alarm out of the low high Relative band alarm inside the Same AL1 functioning that AL2 01 AL AL1 AL2 ms i functioning that 01 Ac nonE LoAb HiAb HiAb LHAo Loab LHAI SE br nonE LodE HidE Lhdo LHdi Alarm function AL1 AL2 O AL3 1 Not active at power up 2 memorized 4 silenced 8 Relative alarm not active at set point change Lower limit alarm AL1 AL2 ALS High limit alarm AL1 AL2 ALS 31 AL1H 39 AL2H 47 AL3H 32 AL1 40 AL2 HAL2 AL1 AL2 AL3 delay 4 AL3d AL1 AL2 ALS threshold 48 AL3 HAL1 AL1 AL2 AL3 hysteresis 5 HAL3 AL1d AL2d 3 AL1o Alarm 1 2 3 enabling during Stand by mode and 51 AL3o out of range conditions O Alarm disabled during Stand by and out of range 1 Alarm enabled in stand by mode 2 Alarm enabled in out of range condition 3 Alarm enabled in stand
62. t with lock 13 Program Start 14 Program Reset 15 Program Hold 16 Program Run Hold 17 Program Run Reset 18 Sequential SP selection 19 SP1 SP2 selection 20 SP1 SP4 binary selection 21 Digital inputs in parallel to and keys Dai Only activating 2nd digital input In option 20 binary selection SP1 SP4 the combination of contacts associated with the closure of two digital inputs can activate one of the 4 Set Points memorized DIGIN2 SET POINT off When the function is enabled disable the active set point selection by A SP parameter by PISANI key 4 17 INTERFACE SERIAL RS 485 The equipment can be provided with a serial communication interface RS 485 which is connected to a network in which are inserted another type of equipments regulators or PLC and a personal computer used as installation supervisor By means the PC you can acquired all functioning data and program all parameters settings of the equipment The software protocol adopted at the QB range is a MODBUS RTU type used in several PLC and supervision programs available on the market the protocol manual of communication equipment QB series is available To keep the line under resting conditions is requested the link of a resistance Rt at end of value line 120 Ohm The equipment is equipped with two terminals called A and B that must be connected to all the namesake terminals of the network For wiring of the line i
63. teristics 1 It must be of easy access 2 Minimal vibrations and no impact 3 Without corrosive gases 4 Without water or other fluids it is to say of condensation 5 Temperature enviroment be according to the operative temperature 0 50 C 6 The relative dampness be according to the specifications of the equipment 20 85 96 The equipment can be mounted on the panel with a maximum 15mm thick When the maximum frontal protection IP65 is desired the optional board must be installed The equipment can be mounted in the panel with a maximum thickness of 15mm When is wished the front maximum protection IP65 the optional meeting it must be installed 3 3 ELECTRICAL CONNECTIONS Perform the wiring connecting only one wire to each terminal and following diagram controlling that the tension of supply is adapted for the equipment and that the load of the actuadores joined the equipment should not be superior to the allowed current The equipment is prepared to be permanently connected within a panel is not equipped with either switches or internal overvoltage protection devices It is recommended to install a switch isolator bipolar type as the disconnect device which interrupts the power supply of the equipment This switch should be placed as near as possible to the team and in a readily accessible location by the user In addition one recommends to protect adequately all the connected circuits to the
64. uching parameters This procedure is called Promotion of parameters As we were explaining a bit more above the equipment has 3 levels of access of parameters The first level is the USER S level It is that level where they can accede to the parameters of rapid form without need to enter no type of code of access The second level is the Operator s level In this level one accedes by means of Password 20 when shipped from the factory and it allows us to establish the parameters that are wished but appear linearly The third level is the Programmer s level In this level one accedes by means of the password 30 when shipped from factory and it allows us to accede to all the parameters of the equipment As explained a little above the teams allowed across any of the level move any parameter to our liking Later it explains how to do it There are 2 ways to market the equipment parameters 1 Using SET UP OSAKA software USB KEY recommended 2 By means of manual procedure from the same equipment If it is wished to programme by the manual procedure do the following 1 Press the key during more than 3 seconds 2 The upper display will show PASS thile the lower display shows DS 3 Press the key A or and between with password 81 4 Press the key The equipment wil show the name of the first folder of configuration of parameters InP 5 By means the button it wishes to promote 6 By means the button se
65. uipment is activated in manual regulation the percentage of power that acts is visualized in the top display SV The lower display will show alternately the power of output preceded for H for heat action or C for action of cold and the message OPLO which also can be modified by the keys Ay and 2 5 ACTIVE SET POINT SELECTION The equipment allows to form up to 4 Set Points of regulation SP1 SP2 SP3 SP4 and to select which of them will be active The maximum number of set points comes determined by the parameter nSP in the folder of parameters lsp The active Set point can be selected For the parameter A SP in the group of parameters lsp By means of the key PISANI if the parameter USrb CHSP By means of the digital input suitably programmed across of par DiF diF 2 18 19 20 The Set point SP1 SP2 SP3 SPA will be visible depending on the maximum number of Set points selected in the parameter nSP and will be configured with a value understood between the values programmed in the par SPLL and the value programmed in the par SPHL 3 WARNINGS OF INSTALLATION AND USE 3 1 USE The devices are made as measuring and regulating equipment in accordance with EN 61010 1 norm for operation up to an altitude of 2000 mts The use of equipment for standard applications not expressly provided in norm cited above should provide all measurement and adjustme
66. ypical configuration probe heat output for SSR high temperature alarm As we explained in several previous points the fastest convenient and effective way to set up your computer is to use the CODE EXPRESS Then explain how to set this typical application 1 Press Enter key for about 3 seconds The upper Display show PASS 2 Using the buttons A and NA enter the password 300 snd press Enterle With the buttons A and NA enter the code 0711 This code in the table of CODE EXPRESS wants to say input PT 100 and output HEAT for SSR Then enter in code 2 as 2000 this code in Code express wants say absolute maximum alarm 1 Once configured the express code will only be necessary to establish the desired SP the maximum alarm desired and make a Autotuning and the equipment will be totally configured e OW Set a typical ramp to make the following function ONLY AVAILABLE IN RAMPS MODELS SP1 60 C maintenance 1 hour SP2 40 C 1 C min maintenance 2 hours P3 100 C 2 C minute maintaining 5 hours At the end of Stand By program and start for push button OSAKA USER MANUAL LINE QB V 1 PAG 22 Go to the folder of ramps PRG The first parameter Pr F selected as you wish that start the program of ramps in this case u diG Stand By with start by button push For the Pr S1 Pr S2 and Pr S3 parameters enter 60 40 and 100 These are the values of each of the SET POINT
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