User Manual - Vertex Temperature Controllers Home Page
Contents
1. PID control ON OFF action PID control AT1 start AT end AT2 start After two oscillatory cycles of on off control action around the setpoint SV the controller will use the measurements taken to set the PID parameters The controller will now start controlling using these parameters and should give good control on your system To abort an auto tune process Simply set the rUn to on or oF F If initially the controller is oscillating badly you may need to perform this procedure a second time to get the best results DO NOT CHANGE ANYTHING AT ALL IN THE PROCESS OR CONTROLLER WHILE DOING AN AUTO TUNING PROCESS Do not change anything during this procedure as it will result in erroneous settings that may not control well at all Just leave the system for a few minutes while it does its thing Also only do this at the full required temperature once the whole system has had a chance to warm up and work for a while Once it has finished the auto tune light will stop flashing and the controller will start to control using the new parameters Once this is done during initial setup and commissioning it should not be necessary to do it again unless you change something substantial or the performance changes unsatisfactorily Your controller should work perfectly now 6 Parameter Settings Please note that in most applications when you ordered your controller it will be configured so that all you need to d2. resistive load potential free relay output This Alarm output can be converted to be a second Cooling Output as in Heat Cool This Coling output would then be either on off or Prop control 4 5 Aux 24 Vdc Power Supply On terminals T9 ve and T10 ve you will find a 24Vdc 25 mA max aux power supply This is intended to only be used on powering 4 wire analog devices that require an external 24 Vdc like 4 20 mA devices Do not use this as a power source for any other loads as it will cause functional failures and perhaps permanent damage to your controller 4 6 RS485 Communications If you have chosen to have RS485 comms use terminals T13 and T14 for this Please read our separate user manual on RS485 Comms and Protocol for further information 5 Commissioning your F4 Controller 5 1 Front Panel Description Auto tuning indicator Upper display Manual Mode indicator Lower display Alarm 1 indicator Alarm 2 indicator Control Output 1 indicator Set key Up key Shift key Down key e PV Display Displays the process Value or parameter index code or error code e SV Lower display Display the set point value or the set value of parameter e C1 e Al e A2 e AT e MA 5 2 Key Functions e SET key e Shift key e Down key e Up key e SET Shift key e SET up key e Shift Down key Control output 1 indicator shows status of output on or off Alarm 1 status indicato
3. PTME PV Ramp to Setpoint Soft Start The Soft Start function allows you to limit the power applied to a load from initial startup ramping from 0 to 100 over the time you have set Soft Start 13 6 5 PID Level Ph Proportional band 0 0 300 0 e Integral time oFF 1 3000 Anti reset windup 0 0 100 0 Hysteresis for ON Off control 0 1000 0 0 100 0 0 unit Proportional Band Setting This can be set automatically by using the auto tune function or set manually here as a percentage of the controller SPAN High limit Low limit This part of the algorithm causes an output change based on any offset created between the PV and SV Integral time This can be set automatically by using the auto tune function or set manually here as a time constant in repetitions per seconds This part of the algorithm causes an output change based on the initial change derived by Pb and repeated in the integral time set to re establish control at the SV Derivative time This can be set automatically by using the auto tune function or set manually here as a time constant in seconds This portion of the algorithm causes an output change based on the rate of initial change To read a bit more about PID please visit our web site at http www ais k co uk Manuals contrwt pdf Manual Reset For PID control this value is set automatically by the auto tuning process For P o
4. 7 E o E A E EEE A EE 7 S ONU e A E E E E A E A A A 7 5 5 Auto Tune your Controlle essensen on aE ESFAS 7 O Parmer ONE in E 9 Bet OCI NOW as cece ae EE E E E AA 9 OZ WISER ECV GS ar E E E EAE A E EENS 10 6 3 Alarm Parameter LEVE osorno reet eris rant Ern NEEE EE EEEE ETATS 10 e e n LOVE E E E E A E A AEO 13 oae PID EVO aea EE E AE AE E ES 14 oo COD UON WOVEN eana E E E E AAAA 15 Le EOMME ACCS E EEEE EEEE EEE E EEEE 18 1 In A Hurry Vertex temperature controllers although quiet sophisticated can be very simple to use as well In its simplest form all you need to do is install it and get the wiring right turn it on check that the thermocouple type is correct during the self test it will display the input type make sure it is reading more or less the right temperature that the heating elements actually get hot when the C1 light is on and away you go No need for laboriously reading this manual and changing and setting all the parameters Just turn it on and when the system it is controlling has reached its operating temperature do an auto tune as explained in the section Tuning your VERTEX F4 controller You can also however explore all the parameters and set and use it in any way you may wish If you are not sure please go to YouTube and search for Vertex F4 and watch our helpful videos about this controller or contact Vertex and ask we are always happy to help To change the set point first use
5. MSRST TDI TCK ts sjey C JcB1 E eat Thermocouples Available as shown above in the table RTD Linear PT100 JIS standard or PT100 DIN standard Here in Europe we use DIN standard O 24mA 60 60 mV or 0 10 V After changing the links you specify the high and low scale limits ie 4 20 mA etc Define Low and High Scale parameter for analog inputs Low Scale The default value for mA is 4 00 mA for mV is 0 00 mV and for volts is will be 16 High Scale 0 00V You can change this simply by accessing this parameter and changing it This parameter is only displayed when the input signal type is set to linear The default value for mA is 20 00 mA for mV is 50 00 mV and for volts is 10 00V You can change this simply by accessing this parameter and changing it This parameter is only displayed when the input signal type is set to linear e Cut Off Function SCAH PV SCAL 4 Unit Decimal Point Control Action Low Limit High Limit Digital Filter PV Linear Input Signal The Cut off function is used to limit the input signal display PV within the limits defined by the user whenever the input signal is out of the scale defined by LHL and SLAH The cut off function can be set to Low High or High Low or set to None to disable it The cut off function has no effect for input signals other than linear types and is only showed when the 20 i
6. Relay output 5A 240Vac Resistive load l A1 mera al A2 gt Pulsed Voltage output DC 0 24V Resistive load 1 2K ohms Min Relay output sa O afe Current output 4 20mA Resistive load 600 ohms Max 5A 240Vac Resistive load Voltage output 0 10V Resistive load 600 ohms Min p Aux power output 24VDC 25mA max A TX TX The Control output 1 can be converted to 2nd Alarm Power supply 100 240 Vac 50 60 Hz Alarm 1 output can be converted to 2nd output T qu Relay output 5A 240Vac Resistive load te A2 Pulsed Voltage output DC 0 24V Resistive load 1 2K ohms Min Relay output Current output 4 20mA Resistive load 600 ohms Max NZS Vee Resistive Kec Voltage output 0 10V Resistive load 600 ohms Min 3 Aux power output 24VDC 25mA max Ta Mains Power Mains power can be anything between 90 and 264 Volts either AC or DC and gets connected to terminals 11 and 12 You can also order the controller with a DC low voltage power supply 24 Vdc actually can accept 19 36 Vdc On the F4 models the low power supply can only work with DC Not AC and DC as can the VT26 series Inputs Thermocouple This controller an accept any of the thermocouple inputs shown in the table The wires for the various thermocouples go on terminal 5 and 6 with T5 being ve and T7 being ve You should check in the parameter settings that the controller is set up to accept the type of thermoc
7. VERTEX F series Instruction Manual The VERTEX F4 controller 1 16 DIN is our NEW LOW COST yet HIGH SPEC controller Configurable on input between various thermocouples from the keypad by the user or with basic instrumentation skills between thermocouples PT100 linear mA linear mV and Voltage Choose between Relay Output or Solid State Relay Output or 4 20 mA or to convert the main heating output to be a second alarm when ordering It comes standard with the main heating output and one relay alarm but you can order it with the main output converted to a full function second alarm You can also order it where the Alarm output can be converted to a Cooling Relay Output on off or Prop control There are two optional extras firstly the RS485 comm s used for networking and or MMI interfacing and the IP65 gasket option Without the gasket the basic unit is IP63 We will have the 1 4 DIN 72 x 72 DIN and 1 8 DIN vert available soon It can also be ordered with a low voltage mains power supply option ie the 24 Vdc option which works on any DC voltage between 19 36 Vdc For informative short videos about how to use this controller go to YouTube and search for Vertex F4 You will see 4 different ones that may be of interest CONTENTS Ie AA RON eee e E E E E E 2 2 JNstaline your FA COnNntrOlET cists ssn stwdacccswodaawnavelessennetassnatebednnielaswaseolessnseelasesabteln 3 3 Check Basics of your Controller esessssss
8. ation low alarm that behaves like a Form B contact Deviation band high alarm that behaves like a Form B contact Deviation band low alarm that behaves like a Form B contact SV AxSP SV SV AxSP 12 6 4 O O Alarm Mode Setting As mentioned before after selecting how the alarm works in the A1Fu section you can set other related options here that effect how and when it works You can select one of the following modes None Disables alarm mode options Stdy Standby mode When selected it prevents an alarm on power up until the alarm setpoint has been reached and cleared and only then will it activate LAtH Latch mode This causes the alarm output and indicator to latch as the alarm condition is met and remain so until the controller power has been switched off and back on again StLA Both standby and Latch modes are applied Soft Level This level has two parameters that function as follows Ramp rate oFF 1 9999 0 1 999 9 oFF Soft start time oFF 00 01 99 59 oF Ramp Rate Setting The controller can have a single ramp function if activated To deactivate simply set this parameter to off The ramp function works in two ways on power up it will ramp at the pre set rate up or down to the setpoint or each time you change the SV set value it will make the change from where it was to the new set value at the pre set ramp rate The ramp rate is set in degree per min or sec depends on the time scale set in
9. e that you can set use these parameter settings to dictate when and how the alarm functions See the more detailed description below This allows the user to set a delay time after the alarm condition has been met before the relay changes state 11 In the strictest sense we only use Form A relay s normally open for all these options but in the second half of this table the relay is electrically made to behave like a Form B relay Normally closed With no power on the controller the alarm relay s will always be open Note X Alarm indica tor on Alarm indicator off RoFF Alarm deactivated Process high alarm with Form A contact Form A means normally open and makes when condition met Note Process low alarm with Form A contact Deviation high alarm with Form A contact A SV AxSP Deviation low alarm ON o i 7 AxHY with Form A contact OFF ZN ZN A SV SV AxSP Deviation band high ON AxHY AxHY alarm with Form A OFF hw ZX ZX ZX ZX contact SV AxSP SV AxSP ON AxHY AxHY orr ae A rca A L A A Z SV AxSP SV SV AxSP Deviation band low alarm with Form A contact HbdL Process high alarm that behaves like a Form B contact Form B means normally closed and opens when condition met AxSP AxHY AxSP Process low alarm that behaves like a Form B contact AxSP AxSP AxHY Deviation high alarm that behaves like a Form B contact Devi
10. esssessssrssssrserersrrrrserrrerereserreserresesresereeses 3 4 Wiring your F4 Controller sessssessssesesseesresesrnsrsrrsrssrsesrrseserreserrrseereserreseereseereseee 3 At Mane POWER apoien E EEEE EE E N 4 Ae ADUT e E E E E EE 4 FIO CON Sra sarees n E A E 4 e PODIDO ea E em sae opens toreteescausteoaeremennanss 4 E MAMIE MOU ee A 4 e VOEN U T 4 S VAOR IA eea E E E 4 Fo OUUU a A E E E 5 e REV OUD U oe cscs saree Gre tea sane eslnn eee reatacuatnereantnnecnseiberecuceoars 5 e SOU SAS Relay OU Gasser atceenncessctecscweuapncacsior ined E 5 Main output converted to 2nd alarm c cccscsscsesessessssscsesessescscssscsesessescssscscseseesessstscseseeeseeseee 5 A A E E E 5 4 5 Aux 24 Vdc Power Supply essessssssssssssrneesrnsesrrsesrrsesresesresesersesreseserresrreeseene 5 4 6 RS485 CommunicationS sesessssesesresesssesresesssesresesrsesresesrsssresesrsesrereseeee 5 5 Commissioning your F4 Controller essssssssssssssssssrsssrrseerrssrresrerrserrrseeresesresereeses 5 5 1 Front Panel Description esessssessrsessresssrrsesrsresrrersrrseserseseereserrrseerrseereseeresene 5 De WEY UCU ONS aenep aE EE A E EE A E E cated 6 3 POwer Up SedUGNCO serssprisuse inserir ENEE EAT EEE EErEE 6 5 4 Initial Quick Check esessssssssssssssssssssrsrsrsrssrsrsrsrsssssssssesessssssersrererereresrersreese 7 Activate OUtDUt cscccccsssscscsesssscsssescscseesescssscscscssescssscscscsesscscssssacseseesessssscseseseescisisscaeseneeess
11. input signal PV SV display type and unit for 2 sec 5 4 Initial Quick Check Activate Output e In the User level check that the run parameter is set to on or the output will be deactivated Input e Ifthe PV display reads open it means that there is a problem with the input e First check the input typesetting thermocouple type and make sure that is the type of thermocouple you are using e Then check the wiring etc to do with the input Polarity is very important Output e Now make sure that the SV set value is higher than the PV reading The C1 led should be lit or flashing on and off indicating that the controller is calling for heat e If you are using a relay output when the C1 led is lit the external interposing contactor or relay or control device should be energized switching the power to the load e f you are using a SSR the control led on the SSR should be lit and the heating elements should be getting hot e When the C1 led goes off the external interposing contactor or relay or control device should be off e Lastly when the C1 led is on the external interposing device is also on the heating elements should be on and the PV should start rising 5 5 Auto Tune your Controller e In order to get the best results from your controller it needs to be tuned or set for your application dynamics This is best done automatically by the cont
12. inute MM SS The alarm delay time is in minute and second The ramp rate is in per second e Error Protection If an error occurs you can dictate the failure mode of the main control output and alarm relay This off course excludes power failure as both relays will fail open because of their relay form design Error Protection Alarm Control Output 0000 0001 0010 0011 e Security Lock The security lock is designed to prevent unauthorized access to various levels 0010 The user level can be changed in this level 0101 The user alarm soft and PID levels can be changed in this level 0110 All parameters can be changed in this level e Setpoint Offset Using this you can introduce an invisible control offset so that when the SV set value as an example reads 100 if you have an offset of 10 the actual control point will be at 90 e Communication ID This sets the device address on a RS485 network e Baud Rate Sets the communication baud rate 7 Error Messages Display Error Correction Description No input signal is Check that wiring connections are correct check field wiring and check being received the probe itself Check that parameter probe type selected matches the probe you are using Finally if you are using a thermocouple you can short out the two input terminals and the display should read roughly ambient Change the probe Call us for help Input signal is out 1 Check the sensor is c
13. nipulation of any process off set that may exist between the measurement of the probe and the reading on the controller PV display Control Output Percentage e In Auto mode run On it reflects the output as a percentage of power applied to the load e In Manual mode rUn nfn the upper display will alternatively display the process value setting PV and OUTL percentage respectively while the MA indicator is lit The output value of percentage can be changed manually using the up and down keys Control Mode Selection The following options are available e Off Standby mode Both the control output and alarm are turned off disabled e On Auto mode In this mode the control output is determined by the controller e AT1 Auto tuning mode 1 In this mode the controller will tune the PID parameters automatically at the SV level Read item 5 5 above e AT2 Auto tuning mode 2 In this mode the controller will tune the PID parameters automatically at SV 10 Read item 5 5 above e Man Manual mode In this mode the value of the control output can be set manually Alarm Parameter Level This controller has one alarm but you can order it with the main control output converted to become a second alarm should you so require So it can be a PID controller with one alarm or simply an indicator with two alarms depending on your needs The relay output for the alarm is rated at 240 Vac 2 amps In the paramete
14. nly control it is used to compensate for any deviation that may exist between the process value and set point In old terms called manual reset Anti reset windup The anti reset windup shuts off the reset action integral term any time the measurement is outside of this band to prevent the reset action from saturating Reset action begins again when the measurement PV returns to within the band Hysteresis for on off control PV In ON OFF control Proportional band set to 0 0 the control output turns On Off around the set point To avoid unwanted on off changes in response to small oscillations around the setpoint we have provided the hysteresis setting that introduces a band that works as shown in the drawing ON OFF action Cycle Time In an on off controller where power to the load is regulated by switching the output on and off against time it is best done in measurable blocks of time called the cycle time This is 14 6 6 generally set to 15 seconds per block for a relay output controller or 1 second for a SSR output In its simplest form with a relay output controller 50 of power would be applied by having the output on for half of 15 seconds and off for the other half Option Level Input signal type EYPE J type K type N A K type T type E type B type R type S type N type C type PT100 DIN PT100 JIS MA mV Low scale for linear inpu
15. nput signal type is set to linear Select the process value indication to be either C or F when the input signal type is thermocouple or PT100 Select nl unit for linear inputs like mA mV or V Select the decimal point position The setting 00 00 and 0 000 is available for linear inputs only Dir Direct action used for cooling processes Rev Reverse action used for heating processes Set the low limit of the measuring range When the input goes below the low limit the PV display will start flashing to indicate that you are out of range and the control output and alarm will be forced according to the error protection selected Set the high limit of the measuring range When the input goes above this limit the PV display will start flashing to indicate that you are out of range and the control output and alarm will be forced according to the error protection selected This parameter can be used to smooth an unstable input signal if it is uncontrollable Set the time constant for the digital filter the first order filter depending on how unstable the input is FiLt 1 0 The example below shows the result when no filter is used when a 1 second and finally 15 second filter is used Unstable input smoothed by Filter set at 15 seconds 17 e Time Scale Set the time scale to be used for alarm delay time and or ramp rate HH MM The alarm delay time is in hour and minute The ramp rate is in per m
16. o is install it and follow the steps outlined in section 5 above However to use and access features like the alarm you will need to enter the parameter sections 6 1 Overview The parameters are to be found in 5 levels ie User Alarm Soft PID and Option Press SET al i _ Al L i arm Leve see section 3 3 3 ILJLJ PV SV display SET Soft Level see section 3 3 4 User Level see section 3 3 2 PID Level see section 3 3 5 LJ L E _ Optional Level see section 3 3 6 Cj I These can be accessed in the following way e User Level Simply press the SET key to scroll through the User level e Alarm Level Press the SET Sideways Shift keys together for 2 seconds e Soft Level Once the PV display reads Level simply use the up and down keys to scroll through the balance of parameter levels as shown above e PID Level Once the PV display reads Level simply use the up and down keys to scroll through the balance of parameter levels as shown above e Option Level Once the PV display reads Level simply use the up and down keys to scroll through the balance of parameter levels as shown above 6 2 6 3 User Level DUD F Process value offset 1000 1000 od 0000 correction 100 0 100 0 od 000 0 10 00 10 00 gF 00 00 1 000 1 000 gF 0 000 polit Control output Aa 0 0 m 0 CO Process Value Offset Correction e This parameter allows for manual ma
17. onnected correctly and input signal type is selected of A D convertor correctly range 2 Replace the sensor 3 Return to the supplier for investigation N The content of Reset all parameters and settings to the factory default setting by pressing EEPROM is shift and down keys simultaneously while turning the power on There is corrupt no need to recalibrate the controller after this procedure but all user settable parameters should be re set Return to the supplier for repairing Auto Tune Error The controller has failed to complete the auto tune process in 2 hours Retry the auto tuning process a second time or improve the control REEr process to have faster response and then try again or use manual tuning to set the PID parameters Flashing The PV is out of Check the sensor is connected correctly and input signal type is selected range correctly And that the polarity of the sensor is connected correctly Check the high low limit parameter is set properly Replace the sensor 19
18. ouple you are using Factory default is set to accept type K PT100 Inputs PT100 s generally having 3 wires The two similar colored wires will go on terminals T5 and T6 and the other one on T4 If your PT100 only has 2 wires simply connect it to T4 and T5 and then install a small bridge wire between T5 and T6 mA milli amp Inputs These are either 0 20 mA or 4 20 mA and get connected to T5 ve and T6 ve Voltage Inputs These are typically 0 10 Vdc or 1 5 Vdc etc and are connected to T5 ve and T6 ve mV milli volt Inputs These are also connected to T5 ve and T6 ve 4 3 Output e Relay Output The relay output is 2A 240Vac resistive load potential free relay output but even so never switch a load directly through this relay For this you use T7 and T8 Always use an interposing relay or contactor to switch the load e Solid State Relay Output The SSR output provides a 24 Vdc on terminals T7 ve and T8 ve which is designed to switch most makes of SSR s that work with a switching voltage of between 3 Vdc and 32 Vdc e Main output converted to 2nd alarm The main output can be converted to become a 2nd Relay alarm output If this is done then T7 and T8 simply become Alarm 2 This then performs as a second alarm which incorporates all the alarm features Alarm 2 relay will be a 2A 240Vac resistive load potential free relay output 4 4 Alarm 1 Alarm 1 is connected to T1 and T2 and is a 2A 240Vac
19. r Alarm 2 status indicator Auto tuning indicator The right most lower decimal point of display Manual mode indicator The right most decimal point of lower display Menu navigation and set value changes Shift to select the digit to be changed Decrease a parameter value or change a setting Increases a parameter value or change a setting Press together for 2 sec s to enter parameters Return to PV SV display normal position Pressing together on powering up resets all parameters to factory default setting No need to re calibrate but check all user settable parameter 5 3 Power up Sequence After checking your inputs and wiring it in the panel on power up the controller will perform a series of tests indicating the following e The controller will first turn on all segments of the display along with various led s etc to show that they are working e It will then momentarily flash showing the Input Type and Scale being used as in Deg C or F e t will then flash showing the Upper limit of your measuring range in the PV display and the low limit in the SV display e It will then settle at the operating display showing both the measured temperature in the PV display and the set value in the SV display High Limit of Low Limit of Display the measuring range for 2 sec All segments of display and indicators are lit for 2 sec Input type Process Value Unit Set point Value Display the
20. r settings under Alarm Level you will find the following parameters 10 A IOP Alarm 1 set point 1999 9999 ar 0000 10 unit 199 9 999 9 OF 000 0 19 99 99 99 OF 00 00 14 999 9 999 OF 0 000 H IHH Alarm 1 hysteresis 0 9999 0 999 9 0 99 99 0 9 999 R IFL Alarm 1 function Alarm 1 mode l IAL Alarm 1 delay time oFF 00 01 99 59 APSP Alarm 2 set point Same as Alarm1 set point 10 H C H y Alarm 2 hysteresis Same as Alarm1 hysteresis Alarm 2 function Same as Alarm1 function di Alarm 2 mode Same as Alarm1 mode Aedt Alarm 2 delay time Same as Alarm delay time OFF HH MM MM SS ISP 7 A2SP This is the alarm setpoint H i A iHY REHY This is where the hysteresis for each alarm is set You can see from the detail below how it works but in principle prevents the alarm from unwanted on off switching around the alarm setpoint This feature lends itself to some clever applications and uses A IFU Ys REFU This is where you set how the alarm works amongst other things being able to reverse the state of the normal relay status It does not however actually change it from normally open to normally closed but makes it work as if it were With no power it will always be a normally open contact Please see the table below for detail You can set how the alarm functions in relation to the process variable by choosing one of the parameters in the A1Fu section then over and abov
21. roller the process is called auto tuning e Always set the setpoint at about half the eventual control temperature the first time you turn it on after installing it during commissioning This will allow the controller to start controlling and you will easily see if there is something wrong e If the controller is being used as a PID controller the output will be on and stay on at first and the temperature will rise towards the setpoint As it nears the setpoint it will begin to switch on and off You can monitor this by watching the C1 light on the display When the output is on and it is heating the light will be on e Once the controller has stabilized at that setpoint and is working more or less ok take the setpoint up to the required temperature and let it re stabilized there e If you are then not happy with the control results you can make the controller set tune the PID parameters itself Should you wish to do this instruct the controller to do an auto tuning calibration of the parameters e Make sure that the value of Pb is not zero Pb O forces on off control Set the rUn parameter to be found in the user level to HE Note HEC will force the tuning process to be done at a point 10 below the setpoint in case your process should not go much above the setpoint The rightmost decimal AT on the PV display will blink during tuning process AT1 process 3 Auto mode le ON OFF action
22. t 1999 9999 o Unit High scale for linear input 1999 9999 1000 None None N A Low High High Low i C N A Engineer Pye Decimal point 0000 0000 N A 000 0 00 00 for linear input signal only 0 000 for linear input signal only _ e paaa High limit Refer to table 1 1000 Digit filter 0 0 99 9 0 0 Sec PEZE Time scale HH MM HH MM N A MM SS Er oP 600 15 D m Q IJl Oo IC mMM wT Oo Mir Fe Ok lt D a Cut off function m Tr Uni m i Error protection T 3 adi aa mMm Ir Security lock 0110 GU pF Setpoint offset 1999 9999 dod 0000 Unit 199 9 999 9 od 000 0 19 99 99 99 od 00 00 1 999 9 999 od 0 000 Pg eonmricaionio ssi aa A bAUG Baud rate CHE 2 4K 19 2K bps HBE 4 8K JBF 9 6K IJE 19 2K e Input Signal Type If you ordered a T C input controller you can change between any one of the thermocouples shown in the table above without a need for recalibration from the keypad by accessing this option level With basic instrumentation skills you can change between thermocouples PT100 linear mA linear mV and Voltage In order to do this you need to change links as shown below again without a need for recalibration but you should define the Low Scale High Scale and if required the Cut off limits c Gat Get Gy RTD 0 20mA_ xX _ Linked Open Linked _ F4M A TDOT
23. the sideways shift key to highlight a digit then use the up and down buttons to set it to the desired value Press set button on completion Refer item 5 2 for more key function information 2 Installing your F4 Controller Panel hole Screws Gasket Optional accessory Controller Mounting bracket Panel e Fit the controller as shown in the diagram Cut out size are 45 5 0 5mm X 45 5 0 5 mm e Fitting the controller without the Gasket makes it IP63 and with the Gasket IP65 3 Check Basics of your Controller The very first thing to verify exactly what options your controller includes ie What is the input what is the output and does your unit have RS485 comms This can be done firstly from the Code on the box that will coincide with various options in the selection code below This will tell you what wiring options to expect If it is not what you expected you can actually change between any of the inputs yourself see below but all the other options must be defined when ordering from the supplier factory Size EEA Amig 48x48 F4 Relay O Alarm ON O IP63 3S C y 485 C i 48x48 F4 4 Wiring your F4 Controller There are generally three sets of wires to connect The mains power thermocouple input and relay or solid state relay output wires 4 2 TX TX Alarm 1 output RS485 Control output 1 can be converted to 2nd Alarm ati an bea conasrkeat to duiun
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