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GP-X User`s Manual - Panasonic Electric Works

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1. Detected distance value of 2nd point Analog voltage output value of 2nd point CR Space The response to E E R S V CR is A E E R S V n m Cr m 0 Factory shipment setting m 1 One point scaling m 2 Two point scaling m 3 Inverse The response to is EJE R S m 0 Inverse OFF m 1 Inverse ON 118 Command for adjustment Command Conttoller instruction character Settin address 4i Outline g Loading Writing m X1 _ String m example Scaling The analog voltage output scale is set for the controller at the designated address There are seven types of setting commands You can use them according to the 0 X1_Y1 1st purpose point of two point scaling lt One point scaling gt X2_Y2 2nd The response to the above command is point of two EJE w s v n 2 amp la amp ala lalala a point scaling Detected distance value X1_Y1 One amp amp Q amp Q amp amp amp CR is point scaling Analog voltage output value O Space X1_Y1_X2_Y2 E E WIS V n Cr Two point scaling f Y1 Teaching of lt Two point scaling gt 1st poin
2. 122 Input output trigger corner Controler tinstruction character Settin Item address l Outline g OoOo m E Writing m X1 String m example Load the internal trigger edge direction data The response to O x CR Internal m CR trigger edge internal trigger 0 Rising 1 Falling CR CR igger level data CR amp amp amp l Internal trigger level Enter the internal trigger level Setting range of The response to 8 amp amp amp amp R amp WIT Tin amp amp amp l amp 99 9999 X5 internal trigger hysteresis data onse to R T H n m Cr RIT Hin amp amp amp amp 9 aydeyo Internal trigger hysteresis Enter the internal trigger hysteresis Setti i The response to etting range o 888 88 ElE W T H n a amp a a a amp amp a 0 to 99 9999 Bailia CR X5 EJE Load the trigger delay time setting The response to C RDT E EI RIDIT n 0 en E E R D T n amp amp amp amp CR Migger delay Enter the trigger delay E The response to ntry range of WDT BB k amp 8 883 i 0 to 99 9999 sec i
3. Zero setting ON Zero setting OFF If scaling is set the offset at a detected distance of Omm is displayed when the key is pressed If the detected distance exceeds the detection range maximum detection distance zero setting cannot be performed If zero setting is attempted an Err15 0 Set error message is displayed with an alarm output After pressing and holding down the key for two seconds to remove the error set the distance again within the detection range e Make sure to check the trigger level in the case of internal trigger and the upper and lower limits after zero setting Zero setting can be performed from an external input terminal Zero setting cannot be reset from an external input terminal 28 Turn on the panel key lock function to protect the memory if zero setting from the external terminal is used frequently The maximum memory writing frequency is 100 000 cycles To perform zero setting set the detection distance within 1 2 F S If the de tection distance between the measurement result and zero setting exceeds 1 5 times F S calculation may not be performed correctly lt Zero setting without display scale gt Example GP XC10M with 2mm detection distance F o pe eh ae N Displayed value Displayed value e EE EAEE Press and hold E EE E 7 key at 1 0mm r Press and f i Detection key again to Detect
4. Enter the characteristics ID of each material of the designated controller for the connected sensor head POO The response to p 0 Stainless steel EJE W G D n p x x x Interchange SUS X X CR ability data p 1 FE iron ig wt ro aun SETS WERE characteristics ID To use interchangeability of the sensor head use interchangeability mode command WHH and specify 1 sensor head interchangeability Load the current sensor head interchangeability mode setting The response to E E R H H n 0 Cr is EJEI RIH H n m CR J o pe D i D Interchange ability mode Designate the sensor head interchange 0 Preset sensor ability mode head The response to 1 Interchangeable E E W H H n sensor head is E E WIH H Outline X1 Load the trigger mode setting The response to E E R T G n 0 Cr is E E R T G n m x x or lt Response value m gt 0 No trigger Trigger mode 1 External trigger 2 Internal trigger 3 Cyclic trigger Enter the trigger mode 0 No trigg The response to 1 oral trigger LJE lE l4 Wit Gln mx 2 Internal trigger is 3 Cyclic trigger y gg E E WIT G n
5. Averaging Averaging Symbol frequency SYMbol frequency po 1 8 26 1 1 024 9 A 2 048 He dD E 3 E a ees Enter the averaging frequency The response to E E WIA V n im CR is E E WIA V CR 32 64 Enter the upper and lower limit Basic control command Command Controller instruction character Setti Item address f tlin etting OoOo Loading Ey yea _ String m uine example Load the current memory number setting The response to E E R M M n 0 CrR is E E R M Min m CR Memory switch y Enter the memory number of the controller of the designated address The response to E E W M M n m CrR is E E W M M CR X6 Command Command Controler Instruction character j i Settin Loading wing fn ee m Outline Sanne Load the current object material setting ieee O Stainless steel RIM T n 0 CR SUS 1 FE iron Detected R M T in m 2 AL aluminum material he current object material setting 0 Stainless steel SUS WIM T n m er FE iron i AL aluminum WIM T CR 9 saydeyo Calibrate the controller of the designated address for the object to be det
6. er retained data Hold reset CR E O E A ns aie Load the current upper limit value setting The response to E E R H T n 0 CR Example 4 is E E R H T amp amp amp limit value Enter the upper limit value 8 888 i o PER Entry range n Examol 99 9999 fen is me X5 Enter the current detected value as an upper limit setting The response to Upper limit E WIHIGIn TR value teaching E WIH Cin amp 8 amp amp amp amp amp amp Cr The entered setting is sent back 115 9 aydeyo Basic control command item Command ha sd character Cutline Setting ma __ Upper lower limit value Lower limit value 8 amp amp amp amp R amp Entry range Lower limit value teaching Batch setting of upper and lower limit values and judgment O H_L_HYS hysteresis Format of H L and HYS data H and L amp amp amp amp amp amp R amp with a sign HYS amp amp amp amp amp 8 amp amp without a sign Averaging frequency 116 A A the current lower limit value setting The response to A JE E R L T n 0 eR is E E R L IT amp amp amp I CR Enter the lower limit value T
7. sss0es0s sesesseesseerseesseersneseees 51 3 4 Setting According to Application Application mode 52 3 4 1 Selecting the Application Mode cc ceccececceeeeeeeeeeeeeteeesneteeeeeeeeees 52 34 2 Man al MOQ Essi iienaa ea Na 54 3 4 3 Press BDC Detection Mode ccc ccececceeceeeeeeeeeeeeeeeeeeeenneeeeeeeeeeees 55 3 4 4 Rotation Eccentricity Detection Mode eeeeceeeeeeeteeteteeeeeeteees 57 3 4 5 Height Detection MOOG cccscisisssiiascine scnstcseisereiduniacueiaudiegteoientnienels 60 3 5 Trigger Input SOWING i arscres i uasa ea a i a ei Ei 63 3 5 1 External Trigger SQUiING i sciiiisciedszscectssccsnsdaceediandsdanevaiseduaacatasentenentas 64 3 5 2 Internal Trigger SGUING i iscsoccsesessssedesdexsvossvassasaeusgasesaueebe wiveeseseieniwes 64 3 9 9 Cycle Moger SUING enrere e Ea 65 3 6 Comparison with Previous Mean ssssssesrrrerrrrrrrrrrrrrrrnrrrrrre 66 Chapter 4 Detail Setting SET 1 0000000 eerie 69 4 1 Selection of Object to Be Detected ceeeeeeeeeeeeeeeeeeeeeees 70 4 2 Three Point Calibration Linearity adjustment 0 71 4 3 Judgment Output Setting ase ssaseiverstecesesteseseeraseeienatesusvsbeeisavnieiadi 73 4 3 1 Judgment Hysteresis cceeceeeeeeeeeeeececeeeeeeseeeeeneeeeneseeseneneaees 73 4 3 2 Output Style SEISCUON ssscessicceicdssstonevergensousevaseusvee leszuesbedetenerevduenwwne 73 A SUI Dray ei secsesi cae teececteteart adhe
8. Oha output 100mA max Load Q Interference Zos Y prevention output Tre EE O comparison output 6 tooma max EE O comparison output 6 tooma max GO 100mA max L 2av DC Load Load l 472 On 47Q 9 Analog voltage output 5 to T Analog ground l Input common 24V G 5V Note 1 4 4 5k Q ing i oan oee setting input Main circuit Memory switch input 1 5kQ Note 2 yM Q 5kQ itch i aaa Nemov switch input 2 Note 2 la f2 i Lal Ld yrs Timing input a kQ Reset input i Q 8 Interference prevention input E Internal circuit gt Users circuit 2 y ied ne a oO of Notes 1 Devices connected to the analog voltage output terminal No and must have 1MQ or larger input impedance 2 To perform memory switching by means of an external terminal select Ext as the memory switching method For details refer to section 4 8 Memory Switching Method Setting on page 93 Symbol D1 D2 ZD1 to ZD6 Tri to Tre Reverse supply polarity pro Surge absorption zener diode PNP output transistor 4 tection diode Memory switching input Note 2 Memory switch 1 Memory switch 2 Non voltage contact or PNP open collector transistor on or Zero setting input memory switch input 1 2 Reset input Low
9. or J o pe 2 ie oO 5 oO O S Internal circuit Users circuit 5 2 2 BCD Output Selection Procedure Setting example Change the invalid output setting to valid output PresslVJto select bcd lt BCD output invalid gt BCD a unit setting 102 5 3 Settings Related to Controller Communication Unit Optional 5 3 1 Overview of Controller Communication Unit Using the controller communication unit GP XCOM optional and link cable for controller communication unit SL F150 F250 F1000 optional data communication among multiple controllers becomes possible and calculation between two units setting data transfer multiple settings via RS 232C can be used Up to eight controllers can be connected Values detected at two arbitrary units can be calculated and judgment is issued for the result of the calculation Using commands in communication via RS 232C entry of conditions to connected controllers or data loading can be easily made Through combinations with optional intelligent monitor software GP XAiM optional data can be analyzed through various data entry and data buffering Each controller of the connected network must be given an address Give the address setting at each controller Turn the terminator switch on the GP XCOM controller located at the end of the network Note that calculation is disabled if
10. CR The factory shipment settings of the RS 232C communication conditions are 19200bps odd parity 1 stop bit and 8 bit data length X 0 115 2kbps 1 57 600 2 38 400 3 19 200 4 9 600 5 4 800 6 2 400 y 0 no parity 1 odd parity or 2 even parity Z 0 1 stop bit or 1 2 stop bits Change the RS 232C communication specification setting E E WIS A n x y z CR There is no response After changing the settings change the setting of the PC Load the version data of the CPU program The response to E E R V R n m cr is E E R V Rin amp amp amp CR Calculation designation Data buffering X 9 Contuct us Load the calculation setting between two controllers The response to EJE R U Cin is EJE RIU C 00 No calculation 1m Own station n address m 2m Own station n address m gt lt n is an address of the controller where a command is sent to Enter an equation to be calculated between two controllers The response to E E W U C n P is E E IW U C n 127 F o Ke D re D F i se D i ro X1 Use key operat
11. F o pe re D Enter 0 7500 as an upper limit setting for controller address 0 Transmission EE WHT0 000 7500 CR Response EE WHT0 CR Perform three point calibration for controller address 0 For details of three point calibration refer to section 4 2 Three Point Calibration Linearity adjustment on page 71 Designate all four memories Transmission EE WCG00 eCR Response EE WCG00 CR To save only the selected memory number send WWCG09 instead of WCGO00 in step After setting at zero point position send Transmission EE WCG01 x CR Response EE WCG01 CR After setting half the distance in the detection range send Transmission EE WCG02 x CR Response EE WCG02x CR 129 After setting the full scale distance in the detection range send Transmission EE WCG03 x CR Response EE WCG0x CR Save the offset and start enactment Transmission EE WCG04 CR Response EE WCG0x eCR Example 7 Perform zero setting for controller address 0 Transmission EE WZS00 CR Response EE WZS0 kCR To cancel zero setting Transmission EE WZS01 CR Response EE WZS0 kCR Example 8 Load the analog voltage output scaling data from controller ad dress 0 Referenc For details of analog voltage output scaling refer to section 4 5 Analog Voltage Output Scale on page 81 If 0 0000mm is set at 0 0000V and 2 0000mm is set at Q B 5 0000V T Data of first poin
12. 7 Supply an external trigger signal at the timing input terminal to hold the detection value at the time and output of judgment Sample hold POINT 61 2 F o ke 2 0 og 3 oo dHeight detection mode Detected value Upper limit valle s1s usseactecaveesnoidesersoneveacngts a 0 Lower limit value Q ON Timing input E TRE FF D ON HI output OFF ON GO output OFF ON LO output OFF Start of measuring mode 62 3 5 Trigger Input Setting There are the following trigger input types for determining the sampling period Select the desired trigger mode E External Trigger E at Ext Supply a signal from an external device using the timing input and reset input terminal to determine the sampling period E Internal Trigger fak Int Enter the trigger level in respect to the detected value The sampling period is determined through the relationship between the de tected value and trigger level E Cyclic Trigger FL fe W FLICK Enter the sampling period directly Reference Refer to section 2 3 2 Trigger Input on page 38 for details of the trigger Trigger input setting ENTER To section 3 5 1 External Trigger Setting To section 3 5 2 Internal Trigger Setting To section 3 5 3 Cyclic Trigger Setting 63 3 5 1 External Trigger Setting The external trigger is selected However if the external trigger is selected the trigge
13. OFF i i r i Start of holding mode 33 F o pe a azi N mBottom Hold y f The minimum detection value in the interval designated with trigger inputs is held For the trigger input the external trigger of timing input internal trigger with designation of the trigger level or cyclic trigger with designation of a period can be used For the internal trigger the trigger edge direction trigger edge time and sampling time can be designated Holding measurement begins with power on or immediately after reset input 2 F iy ne r i s N is turned on The analog voltage output is held at OV after the start of holding measure ment until the first measurement is finished For the use of each trigger input refer to section 2 3 2 Trigger Input on page 38 After the end of the first measurement until the second measurement is fin ished the result of the first measurement is held and output After the end of the second measurement the result of the second measure ment is held and output This cycle is repeated The output judgment is made as to the hold value Example of bottom hold example with external trigger jg displayed until the first input is obtained After reset input is The voltage output is displayed until the first held at OV input is obtained i voltage output is Measurement wae held at OV Displayed a i Output value Displayed value Out
14. Refer to page 52 Indication varies according to the mode selected in the application mode The figure on the left indicates what is displayed with the selection Ile g of the manual mode VA J t z Select the object to oer ENTER AE as be detected ae JA Refer to page 70 Calibration Refer to page 71 HGL o Judgment output setting Refer to page 73 Option JA d 5e Display scale dEFLE Refer to page 76 Wa Sel Analog voltage aE ra t output scale Refer to page 81 RS 232C SEbtoP EB HRA communication setting 7 Refer to page 98 wa wa Display setting Refer to page 86 BCD output unit setting Refer to page 100 Interference prevention setting Refer to page 90 Memory switching method setting vA Refer to page 93 f A Initialization to factory shipment settings Refer to page 94 in ik oA Controller communication unit setting and address setting Refer to page 104 Controller communication unit setting calculation setting Refer to page 106 Setting upon replacement of sensor head Refer to page 108 Software version display 26 mDetection Mode When the orange MODE indicator next to the key is not lit the sensor is in the detection state Judgment is output in the detection state accord ing to the upper and lower limit settings With the GO judgment a value is displayed in green on the lower line With t
15. If the setting is incorrect an error is displayed Press the key to cancel the error and repeat entry POINT lt Setting error gt e The detected value is beyond the detection distance range Also the full scale value cannot be entered T7 y Jaydeyo 4 4 2 Two Point Scaling The span inclination and offset of the displayed value can be defined arbi 78 trarily Set P1 0 5mm at 0 0000 and P2 2mm at 3 0000 Display 2 0000 POINT Display 3 0000 P2 SeS 2 0000 7 y 2mm 0 5mm 2mm Enter the first and second points Enter the detected value on the upper line and the value to be displayed on the lower line If the setting is incorrect an error is displayed Press the key to cancel the error and repeat entry lt Setting error gt The detected value is beyond the detection distance range e The detection value of the first point is equal to or larger than the detection value of the second point The displayed value of the first point is equal to the displayed value of the second point The span inclination becomes more than the value of 16 devided by the detection range times Scaling is possible up to 16 times for 1mm type and 3 2 times for 5mm type To reverse the span inclination select SLOPE of one point scaling or use the INV function Setting example lt Setting 1 mode gt to select d ScL
16. Select W lt Display scale gt Press VJto proceed to the second point Press to move to Press to move to another digit another digit lt Value entry mode gt Press WJor A to lt Value entry mode gt Press Wor A to change the number change the number nonce Krf n m m cam 1 8 08 18 08 18 PBE Bad Dad 18 ea DSDL aiaiai 1r M M rere AAEEXETET AA A ARLIN ETEN Press and hold exe lt Teaching mode gt Fag rm Bad Dad 18 Ca i a E a E a E a Odob D DA Da After teaching the value entry mode starts Press to move to another digit Press or A to lt Value entry mode gt ress Ww or A to lt Value entry mode gt arr ENTER rrr o 8 0 8 0 8 6 8 6 8 0 8 Tere rem i gt z rrr Fan bad Dad Ha ff Fan bad Dad Ht a8 fn Had OA 0 8 0 8 Press and hold we lt Teaching mode gt Press to move to another digit zanm Press VJ or A to E 8 Dad Dad of EES change the number 30 T a iE bad Dad 08 Dad After teaching the value entry mode starts 79 y Jaydeyo 4 4 3 INV Function With both the one point and two point scaling use the INV function to re verse the inclination However the INV function reverses the inclination around the 1 2 F S point different from SLOPE of one point scaling 2mm imm 2mm Setting example lt Setting 1 mode gt 80 4 5 Analog Voltage Output Scale
17. select the item Press to set Define the upper and lower lines through a series of operations If the default setting is selected on the upper line the default setting is restored for the lower line too 86 4 6 2 Selecting the Display Unit Distance display mm or output voltage display volt can be selected With the distance display mm a value after display scaling is displayed With the voltage output volt a voltage output is displayed so that the dis play scale agrees with the analog voltage output value Setting method ENTER 8 7 te ma ENTER um it usm te S ve iL Sern a os Da a If voltage output display is selected the display scale cannot be changed Change the analog voltage output scale To return the analog voltage output and display to separate settings select mm After the procedure the factory shipment display scale is restored pont Define the display scale again For details of display scale refer to section 4 4 Display Scale on page 76 87 4 6 3 Power Saving Mode Setting After settings are entered you can turn off the digital display to save power This function is especially useful to reduce power consumption in a system with multiple controllers Setting method Press WJor Ato select on pag After the power saving mode is selected the digital display is only unlit in the detection state Press any key to display for ten seconds then the digit
18. 0 5mm Press the key at the l T maximum detection distance la i full scale of the detection palates 1mm range If the calibration position is unsuitable an error is displayed Press the key to cancel and enter again To cancel calibration in the middle of the procedure press the key 71 72 Calibration can be made in each memory for each object material A total 12 sets of calibration data can be stored with a product with four memories and three materials Select nmEm in the calibration menu LI indicates the current memory number To perform common calibration for four memories select mEm A and per form calibration for the current material Use this mode during regular opera tion lt For a column shaped object use display scaling or analog voltage output scaling instead of three point calibration for better linearity POINT Three point calibration cannot be performed in the interference prevention amp state If sensor heads are installed close together turn on each individual unit to perform three point calibration 4 3 Judgment Output Setting 4 3 1 Judgment Hysteresis Determine the hysteresis of the upper and lower limit values Enter the value corresponding to the display The hysteresis is defined inside the upper or lower limit value in the GO area Enter the setting corresponding to the displayed value Enter the value so that the following equation stands true
19. Upper limit value H thr hysteresis width o hys gt Lower limit value pont L thr hysteresis width o hys 4 3 2 Output Style Selection The output style of the open collector output HI GO and LO issued upon deviation from the tolerance judgment value can be selected The tolerance judgment output is issued from a N O Sno N O output contact contact A me The tolerance judgment output is issued from a N C N C output a contact contact B N O normally open N C normally closed Referencd For the judgment hysteresis and output style selection method refer to page 75 73 4 3 3 Output Delay Select the off delay timer setting from the options shown in the table below O Nodelay Nodelay 100ms off delay 200ms off delay 1 400ms off delay 800ms off delay 1 000ms 000ms off delay eid Judgment output is held until the reset signal is issued Off delay timer The timing for switching the judgment output from ON to OFF retreats with the timer setting The timing chart is shown below Timer type and change in GO output in the case of to timer setting Regular output ON without timer OFF to lt t ON Off delay timer OFF e The delay becomes longer with the interference prevention setting Actually operate to check For details refer to Section 4 7 Interference prevention Setting on page 90 pont If the number of connected units is as large as eight the delay
20. lt Value entry mode gt Press VJ or Ato lt Value entry mode gt change the number Bre nt mmr ad 0 8 0 8 rrr i ad 0 8 taf Pad nd hold enter lt Teaching mode gt Press Dto move to ann another digit Bd 20 0 8 08 A ETE Press VJ or A to mm n change the number Upper line Detected Hut 0n8 0 8 0 8 1 8 distance value After teaching the value Lower line Output voltage entry mode starts value 3 D ko 2 A Press e Enter the detected value on the upper line and the displayed value on the lower line EEE If the setting is incorrect an error is displayed Press the key to Q cancel the error and repeat entry lt Setting error gt The detected value is beyond the detection distance range Also the full POINT scale value cannot be entered The voltage output setting exceeds 5 5V 82 4 5 2 Two Point Scaling The span inclination and offset of analog voltage output can be set arbi trarily Set P1 0 5mm at 0 0000 and P2 2mm at 3 0000 Voltage v Valed 5 0000 v 5 0000 f 3 0000 2mm 1 0000 e Enter the first and second points e Enter the detected value on the upper line and the displayed value on the lower line If the setting is incorrect an error is displayed Press the key to cancel the error and repeat entry lt Setting error gt e The detected value is beyond the detection distance
21. n 0 inverse OFF n 1 inverse ON e response to E E W S D n m 0 inverse OFF m 1 inverse ON eutput lt Response value q gt 0 Positive slope 1 Negative slope a Displayed value Enter the variation slope for scaling p 1 Analog voltage The response to output E E W L O n CR q 0 Positive slope S lEJE W L O CR 9 1 deyo q 1 Negative slope Load the current sensor head cable length data The response to Sensor head E E R C L n cable length is E JE R C L n m lt Response value m gt 0 3m 1 10m Load the current variation slope data for scaling 0 Displayed The response to value E E R L O n 1 Analog is voltage E E IR LO n m q gt CR 121 Command for adjustment item lend Instruction character Outline Setting my1 string m example Sensor head replacement Load the sensor head characteristics ID of each material preset in the 0to2 designated controller Interchange 0 Stainless steel The response to ability data SUS JEJE GlDInIm CR loading 1 FE iron is 2 AL aluminum fe Eye GlDin Im XI XIXXIX X X 0 to F 10 digits
22. x Red 2 pcs of setting 2 C2 4 e Black 2 pcs Red 1 pc Gray Black 2 pcs Thousands digit Red 2 pcs Of setting White Black 2 pcs Red 2 pcs Yellow Black 2 pcs Ten thousands Pink y Red 2 pcs digit of setting Black 2 pcs Red 3 pcs Polarity signal output High OFF LOW ON Low ON upon effective data Orange fac 3 pos VALID output ane yup Input from an external device for holding Gray Red 3 pcs Hold input data output The data output is retained while the input remains low ON Gra Black 3 pcs p Ground Red 3 pcs Shield Connected to OV inside X1 The cable marked with three black dots on a white background is not connected 100 The BCD output does not support decimal point shift caused by carry over Therefore select 4 in advance for the number of displayed digits if a deci mal point shift is foreseen For the setting method of the number of displayed digits refer to Section 4 6 4 Display Refreshment Period Menu and Dis play Places Setting on page 89 Do not use the cable with three black ID marks on the white background of the insulator though it is not connected The shielding wire with OV is connected inside MTiming Chart Action of continuous sampling without HOLD input High OFF HOLD input Low ON Sampling period 50us 4001s or more High OFF VALID output Low ON k gt 154s Data refreshment Data 1 D
23. 1 Selection of Object to Be Detected on page 70 If the object is made of iron select FE The factory shipment setting of GP X series is stainless steel SUS304 2 At the reference bottom dead center position adjust so that the distance between the sensor head and the object to be detected becomes the center halfway position of the detection range Adjust while observing the distance displayed on the controller P X series CE GP X series _ CE 3 In the reference position R Lee H HEHEH press the sa key to perform Press zero setting Lori SoS gt 0 0000 is displayed in the ime CO9 me Co LE gt MODE NTER MODE A lenter reference position Quon VJA fs wooe VY J A pr e With the zero setting in the bottom dead center mode the bottom hold value is zeroed This is convenient if the pressed point is made the datum e To cancel the zero setting restore the default settings of the application mode first If the trigger level exceeds 110 of the detection range in respect to the detection distance to be designated as a zero point the value may be clipped In this case set the trigger level again after designating the zero point 55 4 Select the press BDC detection mode After the bottom dead center BCD detection mode is selected a menu for entering the following settings ope
24. 17 6 4 t u j 25 7 miGP X10M M10 type 2 5 high frequency coaxial cable 3m am lla Coaxial connector for connection of controller ee Se fa l qji l 06 4 i oO F o pe 0 tae co f E miox1 25 7 Nut Toothed washer teeth inside 143 2 F o ke D F co mGP X12ML M12 type Y E 17 pe x 7 2 5 high frequency coaxial cable 3m Coaxial connector for connection of controller j a i 6 4 21 oO UTI ai i 610 1 3 5 M12 x 1 Nut 25 7 Toothed washer teeth inside mGP X22KL 22 type p22 3 5 M12 x 1 Nut Toothed T J fe 25 7 Z 6 2 2 5 high frequency coaxial cable 3m Coaxial connector for connection of controller GZ 06 4 21 Diameter of toothed w
25. 84 4 5 3 INV Function With both one point and two point scaling use the INV function to reverse inclination However the output reverses around the 1 2 F S point different from SLOPE of one point scaling Setting example lt Setting 1 mode gt y Jaydeyo Analog voltage output scale 4 6 Display Setting 4 6 1 Selection of Data Displayed in Upper and Lower Lines The items displayed on the panel in the detection state can be designated In the factory shipment state the HI LO detected value is displayed on the upper line orange and the GO detected value on the lower line green GP X series C Cao noo a t G A PS Setting example lt Setting 1 mode gt 3 D ko 2 A Upper line Orange Lower line Green lt Lower line setting gt Note With this function calculation can be made with the optional controller communication unit If calculation is not made a random value is displayed Calculated value Note Upper limit value Lower limit value Lower line display item name Default Distance detection Various hold values Calculated value Note Upper limit value Lower limit value Upper line display item name In the case of voltage output display voLt Press VJor A to select the item Press to set In the case of voltage output display voLt Press VJor A to
26. Ja deyo Check that analog voltage output scaling is set The analog voltage output is erroneous correctly Isn t BCD output mode selected Check that the hold measurement modes and Bole measurement Cannel Be petonned trigger conditions are configured correctly Check that cables are connected correctly RS 232C communication cannot be Check that communication conditions are performed entered correctly Check that pin layout of the connector is correct 136 Chapter 8 Specifications and Dimensions 8 1 Ratings and Performance sesiecscissi sa tasecestaorciusaeedecsss 138 8 kilSensor Head ecesna Eet 138 8 1 2 SON ONG paca cuits ssaenesoanesararnahamnornssiosbartonanannsannr 139 8 1 3 BCD Output Unit and Controller Communication AMMGsss to pcenecrinicaalesneradeeeioversviews 141 8 2 Dimensions Unit MM scisiscasiicinscsrocsadcaversiatereseescivalens 142 8 2 1 Sensor Head ies caxactesateerdcccusnnasaonamavacaeaanie 142 8 2 2 On ONS saa acanaa eas sco oan a eas 145 8 2 3 BCD Output Unit Optional ass cisessscsssncasedecceisess 145 8 2 4 Controller Communication Unit Optional 145 137 F o pe tee co F o ke 2 D gi 8 1 Ratings and Performance 8 1 1 Sensor Head S pe paame psam ype bemm iye mone mi2 022p Stainless steel SUS304 and iron Controller can be configured Temperature characteristics Note 3 0 07 F S C or less IP
27. LED lights up in mode status Orange LED lights up when the upper value is exceeded LO Ambient o o femperature 0 to 50 C No dew condensation Storage 0 to 50 C 35 to 85 RH Storage 35 to 85 RH Noise i amunit Power supply line 1 000Vp 10ms cycle 0 5 us pulse width y Radiation 300Vp 10ms cycle 0 5 us pulse width with noise simulator 100m s2 acceleration 10G approx in X Y and Z directions five times each Accessory ATA4811 Controller mounting bracket 1 set Indicator O O g 1 deyo Environmental resistance Notes 1 GP XC3S P and GP XC5S P is applicable to export regulations specified in Foreign Exchange and Foreign Trade Control Law Exportation of the 3S or 5S type or carrying it outside Japan requires an export permit from the Japanease government However GP XC3SE and GP XC5SE type which are not applicable to export regulations are also available 2 The factory shipment setting is between 0 and 5V in the detection range 3 Value at constant 25 C 4 The value is in the range from 20 to 60 of the maximum detection distance with a combination of sensor head and controller 139 F o ke gi When a different power supply is used for 2 or more controllers be sure T to connect either 0 V lines or V lines of the controllers each other Other wise the transmission by GP XCOM and the interference prevention func tion are not properly operated Mi
28. MEMORY from the internal memory to replace Memory switch 2 the current setting with it NPN output type OV Input COM Common PNP output type 24V TIMING Timing input Measurement begins RESET Reset input Temporarily finishes the holding interval Interference With a signal sent from another controller 16 INT PIN eek prevention input effects caused by interference are removed Power Power supply OV Supply power SEPP 4V DC Power supply 24V DC Analog output STROBE Strobe output An_ internal trigger outputs for measurement interval oO ele N yNl o 5 lt 1 5 I O Circuit Diagrams 1 5 1 NPN Output Type GP XCLS GP XCLISE GP XCCIMC GP XCOKL P ae No Di r H E A o o y Comparisonf Toad Oo Zp1 output LO oO Tr ein i ZD2 l pj oan output GO ads Tre K4 Load ZD3 i Comparison output HI 100mA max Load Trs 24v DC Zpa L g Alarm output 100mA max l Alarm L g Alarm output 100mA max 100mA max Load 10 Tra Z L ostrove output 100mA max max Trs D5 L ostrove output 100mA max oste output I topa p rtarterenos prevention output domAmax l 4 Output common L oV 47Q 47 gt 2 R Analog voltage output 5 to 5V Note 1 T Analog ground F 24V Oth Toke ae setting input z 3 Ftoav a QAF T 5k2 Memory switch input 1 Note 2 z wy 5 P 24V AF F
29. MODE Or enter an external reset signal Sensor head ID entry error Enter the correct sensor head ID Press move 2 F o Ke F at Keep the sensor head away from the others since the sensors may interfere each other If the error does Input signal level not disappear contact us error Furthermore check if the setting of the cable length selection switch on the rear side of the sensor matches the actual cable length Automatic recovery X Contact us if other errors are displayed lt Resetting method gt Press Upon an incorrect setting an error is displayed Press the key to return to the setting menu and enter the correct setting Press and hold for longer than two seconds Upon an error causing effects on the action of the controller an error is displayed together with an alarm signal Press and hold the key to remove error indication and alarm signal Error indication and alarm signal are removed similarly to the case of the key being held down for a long time An RS 232C command WCA removes the error Enter an external reset signal RS 232C command Automatic recovery Upon a broken wire in the sensor head or a short circuit error the controller automatically recovers from the error after the correct state is restored 135 7 2 What to Do When the following phenomenon occurs check Check that the cables are connected correctly P14 All
30. OV or open Invalid High 17 to 24V Valid 2 Low OV or open High 17 to 24V P NP open collector transistor Y _ Timing input Low OV or open Invalid High 17 to 24V Valid 15 1 6 Mounting Method The procedure for mounting the GP X series to a panel is described 2 Fay 1 6 1 Mounting the Controller oF 1 Cut a mounting hole in the pan 2 Insert the controller into the el mounting hole from the rear 4506 L a d p To mount the communication unit or BCD output unit the a must be from 1 to 3 Fit the mounting frame from the rear unit mm Without an optional unit unit mm tet Epam a M en For continuous side mounting A A 48 Xn 2 5 4 n The Number of the units to i A be mounted Note The panel thickness must be from 1 to 5mm To mount the communication unit or BCD output unit observe the x orientation shown Min 90 in the figure JU 4 Tighten the screw of the mounting frame With optional units unit mm is 4 90 or more fee p i sc 4 100 or more gt Note The panel thickness must be from 1 to 2 5mm To mount the optional controller communication unit GP KCOM or BCD output unit GP XBCD to the controller mount the controller on the panel first 16 1 6 2 Mounting the Sensor
31. V p q 2 Hold value p q 3 Calculated value p q 4 Upper limit value p q 5 Lower limit value p q 6 Character of selected item in lower line upper line 9 saydeyo Displaying item selection mm or V Hold val f 3 eae Enter the item displayed in the detection Upper limit value i Lower limit value TNE response to Character of E E W D P n selected item in is lower line upper E E W D P n line p Upper line setting q Lower line setting Load the unit of displayed value or display period and number of digits The response to E R U T n 0 Cr E R U T n m CR l O Unit of displayed Distance display m 1 Analog voltage output value Display unit value response to selection 1 Display period E R U T n 1 oR Display period number and number of of digits digits data E R U T n p1q cr Display period q Number of 0 20 cycles sec displayed digits 1 10cycles sec q 2 2 digits 2 5cycles sec q 3 3digits 3 2cycles sec q 4 4digits 4 1cycles sec q 5 5digits 125 9 saydeyo Display setting Command Controller instruction character Sein comer dd 3 7 Loading Writing n 4 string m Outline example Enter the unit of displayed value or display peri
32. a ei 74 4 4 Display Scale va cicecesecdevcce edad decades des ieee desseedds tasted besteleedec teases 76 4 4 1 One Point Scaling sei scapcciasctsol cancuetcmialduaiGuseianaierespoiensendeluanedansseaseds 76 4 4 2 Two Point Scaling Gi cesetecta eo eae datase seis d CoreateOete a icateteaeta Gee Gateceet 78 4 4 3 INV Function ai chasis sa deeccince aneda nated adedss const anesthemetbentanaatudenaeGdeamabeerenaten 80 4 5 Analog Voltage Output Scale cc cccecccccccccseseseeeeeeeeeeeeeeeeeees 81 AN MOMS HP ONG SCAN eesteesce etre echt dau a dee r aaia ra 81 4 5 2 TWO PoOint Scaling bce sae tonerecikaiinotcspainaeiasa aciehesmensttesahemaabetiatante 83 45 3 INV FUNCION sirsie 85 4 0 Display Settings E SOR 86 4 6 1 Selection of Data Displayed in Upper and Lower Lines 86 4 6 2 Selecting the Display UNM sesccssscicceveractaresuicasscesrsssvstersttetiversseriee 87 4 6 3 Power Saving Mode SOU sisi ccs asccse hace corccectanacataundinenttacwedseaes 88 4 6 4 Display Refreshment Period Menu and Display Places Setting i caciact dex cccxadendtcansnpenndactscoskaadeccneesenedantarcnateas 89 4 7 Interference Prevention Setting cccccccccccccccccecesceeeeeeeeeeeeeeeees 90 4 8 Memory Switching Method Setting ccccccecceeeseeseeeeeeeeeeees 93 4 9 Initialization to Factory Shipment Setting cere 94 4 10 Panel Key Lock ssseictartayssnaieeaieocancasssas ees ecneermatiyeeies oavcaeeasss 95 Chapter 5 S
33. and the position of the object to be detected 1 Select the material according to the object to be detected Reference Refer to section 4 1 Selection of Object to Be Detected on page 70 for selection of the material If the object to be detected is iron select FE The factory shipment setting of GP X series is stainless steel SUS304 57 F o pe D bagi w 2 Adjust so that the distance between the sensor head and the object to be detected is at the center half the distance of the detection range Perform adjustment while observing the distance displayed on the controller To perform zero setting set the detection distance within 1 2 F S If the de tection distance between the measurement result and zero setting exceeds 1 5 times F S the calculation may not be made correctly 3 Select the rotation eccentricity detection mode After the rotation eccentricity detection mode is selected a menu for entering the following item opens Trigger hysteresis lt BDC detection mode gt lt Rotation eccentricity mode gt 4S Press D to move to another digit _ ne T s 7 Press VJ or 4 to change the vlad number End of entry Press the key to return 4 Set the upper and lower limit values The deviation amount is measured in the peak to peak distance Enter the upper and lower limit values in respect to the measured value Referenc For details of the upper lower limit valu
34. as a master while designating the others as slaves to validate interference prevention To mount sensor heads close together perform three point calibra amp tion for each unit first In the interference prevention state three point calibration cannot be set V If master or slave is designated without connecting the external terminal the correct function will not be obtained POINT If the interference prevention function is used continuity in sampling is lost and measurement is made intermittently Connection method Example of connection of three units 1 Connect interference prevention cables and turn the power on INT Pout a it Interference prevention output Controller 1 Controller 2 Controller 3 INT Pin Interference i prevention input Master Slave Slave 2 Designate controller 1 as a master lt Setting 1 mode gt Interference prevention setting Press to select master mode 3 Designate controllers 2 and 3 as slaves Controller 1 Master Controller 2 Measurement Slave Measurement Controller 3 Slave2 GP X3S GP X5S GP X8S 1 5ms 0 9ms GP X10M GP X12ML i If the interference prevention input and output cables are not connected correctly to the external terminal detection is stopped and the correct ac amp tion is not obtained even if the interference prevention function is validated If the interference prevention function is use
35. indicators do not light up Check that the power saving mode starts without a P88 trigger in the holding measurement mode j The upper and lower lines of the digital oe display unit are not lit Check that the controller is in the power saving mode P 88 Check that the interference prevention function is f f P 90 validated without an interference prevention cable Check that if Master or Slave of the interference prevention function is set properly In case of the holding measurement mode is a triger input The displayed value does not change Check that the trigger settings are correct is displayed Check that timing signals are supplied Check that the displayed setting configures the Values are displayed in the upper and upper line for indication of the current value lower lines Check that the upper and lower lines are designated in displayed setting All the HI GO and LO outputs are turned on Check that hold is selected for the output delay P74 setting Alarm output does not turn off Refer to the troubleshooting method Check that cables are connected correctly The input signal is not accepted Check that the input method and input voltage are free from problems Check that the sensor head cable length An erroneous detection distance is selection switch is set correctly displayed Check that the display scale is set correctly Check that zero setting is performed Z
36. intererence prevention function ON state the time to take for detecting signal transmission errors is lon ger according to the No of the connected units For 8 units connected it takes approx 2 min max Take care when an error occurs 2 In case a calculation setting is used in the the intererence prevention function ON state if the averaging frequency exceeds 4 096 times a com munication error occurs when the power is turned ON In order to avoid the communication error set the averaging frequency as less than 4 096 times 92 4 8 Memory Switching Method Setting To switch the memory number for storage of settings described in sec tion 3 1 Memory Selection there are two methods panel key operation method and external input method Select the appropriate method otherwise memory switching will not occur The factory shipment setting is panel key operation Setting example To change panel key operation to external input lt Setting 1 mode gt Referenc For memory switching using external input refer to section 1 5 I O Circuit Diagrams on page 14 93 4 9 Initialization to Factory Shipment Setting Factory shipment settings other than the calibration and sensor head re placement mode can be restored Referencd For the initial setting items refer to section 2 4 List of Factory Shipment Settings on page 43 Setting example lt Setting 1 mode gt Press s to initialize then the detectio
37. is 12 8 times 19 2 times with GP X22KL that of a single unit 74 Setting example Set the judgment hysteresis at 0 0100mm output style at normally closed N C and output delay at 100ms lt Setting 1 mode gt Judgment output setting Set lt Judgment hysteresis gt K 5 2 P W Press B to move to another digit m Press VJor A to change the number 2 A arnad DULL lt Output style gt lt Output delay gt Press VJor Q to select 100 Press the key The indicator is not lit to return to the detection state 1 7 If n c is selected as an output style output is temporarily issued immedi ately after the power is turned on POINT 4 4 Display Scale Define the display range of the detected value The distance of the detected object from the sensor head is displayed with the factory shipment setting With the scaling function you can arbitrarily change the value displayed ac cording to the detected value A displayed value can be entered at an arbi trary distance The setting method includes three variations one point scaling two point scaling and INV Or select the default setting to return to the factory shipment state Only the displayed value can be changed with this function To change the analog voltage output according to the detected value use the analog volt age output scale Note If the voltage volts is selected fo
38. later version with Ver 1 10 or later version Possible 1 2 Basic Configuration 1 2 1 Sensor Head An eddy current flows in the object metal to attenuate the amplitude of the coil as an object metal is placed nearer in the high frequency magnetic field generating from the built in coil The amount of attenuation is detected and transmitted to the controller Metal 1 2 2 Controller A sensor head is connected and the displacement between the object metal and sensor head is measured and displayed The displacement is output as a voltage Judgment by comparing to a reference value is performed and output The controller has various functions to make it applicable to the likes of inspection judgment and positioning 1 2 3 Controller Communication Unit and Link Cable Optional Multiple controllers are connected and calculation and control are performed The analog voltage output of the calculation result cannot be used 1 2 4BCD Output Unit Optional The amount of displacement is output as a BCD code 1 2 5 Cable with Connector on One End for BCD Output Unit Optional 1 2 6 Extension Cable for Sensor Head Optional The controller and sensor head are placed at a distance A 7m extension cable is prepared 1 2 7 Intelligent Monitor Software Optional Runs on a PC for data management and control of the controller 1 3 Functional Description 1 3 1 Controller mF ront panel 1 2 P i n
39. n m Cn ON OFF m 0 Factory shipment setting m 1 One point scaling m 2 Two point scaling m 3 Inverse Display The response to E E R is EJEI R S D n m m 0 Inverse OFF m 1 Inverse ON J o pe D ai ro O X1_Y1 1st Enter the display scale setting for the point of two controller of the designated address point scaling There are seven types of setting 1 X2_Y2 2nd commands You can use them according point of two to the purpose point scaling lt One point scaling gt 2 X1_Y1 One JEJE WS D n 2 8 8 818 amp amp 8 amp point scaling Detected distance value 3 X1_Y1_X2_Y2 K amp L TRIR R amp I R k k ICR Two point scaling 4 Y1 Teaching Analog voltage output value O Space e response to the above command is of 1st point of SER W S D n a two point lt Two point scaling gt scaling WEE WIS D n 3 amp amp amp amp amp amp
40. product complying with EMC Directive The harmonized standard with regard to immunity that applies to this product is EN 61000 6 2 Note and the following conditions must be met to conform to that standard The controller must be connected within 10m of the power supply e The Signal cable connected to the controller must be shorter than 30m A ferrite clamp must be mounted within 10mm of the base of the single connector of the cable GP XBCC3 for the BCD output unit Miscellaneous e Never disassemble the GP X series 3 fe a O fe j 5 e a re on e 5 Checking the Packaged Components Check if the following components are found in the package OController 1 j Mounting frame 1 N Sensor head 1 Hexagonal nut N N Z J For GP X10M GP X12ML and GP X22KL only 2 JToothed washer O For GP X10M GP X12ML and GP X22KL only 1 Olnstruction manual el aa 4 LOGP X Series CD ROM a Notation MiMeaning of Symbols S gt eS Indicates handy points useful for operation POINT Pisce Indicates that care should be taken in regards to operation Referenc Indicates the page s describing relevant information Chapter 1 Before Starting Operation An outline of the GP X and mounting connection and wiring are described 1 1 Features of GP X Series ccccceeeeeeeeeeeeees 6 1 2 Basic Configur tioN usses tin asain 7 121 Sensor IMGAG iar sens
41. range e The detection value of the first point is equal to or more than the detection value of the second point The voltage output value of the first point is equal to the voltage output value of the second point The span inclination becomes 3 2 times the default inclination or more POINT e To reverse the span inclination select SLOPE of one point scaling or use the INV function 83 Setting example lt Setting 1 mode gt Analog as output scale F ied 2 Press to move to Press Dio move to T another digit another digit N Press WJor Alto lt Value entry mode gt Press V or A to change the number change the number MANM memrmr WA ON OS 18 U8 is mn LOS HRSA rome SaN mN M AARTEN ETET TOATA 8 OA DA Press and hold es lt Teaching mode gt renner ado md Dad 0 8 1 8 A AT Upper line Detected Wf tAt Oad 8 Dad distance value After teaching the value Lower line Output entry mode starts voltage value Press D to move to another digit lt Value entry mode gt Fress V or A to lt Value entry mode gt mm lentes ere N ad 0 8 0 8 2 bad 08 08 Dad ee Ee gt m m afft 0 8 1 8 ad ATA 08 18 at Press and hold e lt Teaching mode gt Press Dto move to ARAN another digit D am 4 Press or to COALA RA RA _ Fress Z number eS a E ar E a E a FASL LN After teaching the value entry mode starts
42. rotation eccentricity detection mode Transmission EE WAPO02x CR Response EE WAP0x kCR Trigger hysteresis setting Set the trigger hysteresis at 0 0100mm Transmission EE WTHO00000 0100 CR Response EE WTHO CR 3 Height detection mode Before starting the height detection mode perform zero setting at the ref erence position Zero setting can be performed with an RS 232C command Selection of height detection mode Transmission EE WAP03 x CR Response EE WAP0x kCR Value change inclination slope setting Inclination of the variation in the displayed value and analog voltage output is negative in the height detection mode To change the inclina tion to positive adjust the analog voltage scale 131 F i pe D i e2 6 3 Intelligent Monitor Software GP XAiM Optional With the optional intelligent monitor software GP XAiM the measurement data can be easily analyzed or saved at your PC while conditions can be entered saved or loaded Use these features together with the data buffering function of the controller to acquire ready to analyze data assuredly For details contact us To use the intelligent monitor software GP XAiM correctly 1 Preparation for operation of GP XAiM Before operating GP XAiM check the following 1 In the case of operation of a network with linked controller communication units GP XKCOM 1 Set the terminator switch of each GP XCOM correctly 2 Use Aut
43. same raceway This can cause malfunction due to induction e Make sure that the power supply is off while wiring e The analog voltage output is incorporated with a short circuit protection circuit Do not connect it directly to a power supply or a capacitive load e Be careful to avoid statically charging connectors during wiring work A failure may result e Use the exclusive extension cable for cable extension of the sensor head Overall length 10m Environment e This product has been developed produced for industrial use only e Avoid dust dirt and steam e Take care that the sensor does not come in direct contact with water oil grease or organic solvents such as thinner etc e In case noise generating equipment switching regulator inverter motor etc is used in the vicinity of this product connect the frame ground F G terminal of the equipment to an actual ground Take care that stress is not directly applied to the cable joint e This sensor is for indoor use only Compatibility e In case the sensor head is broken the sensor head replacement is possible with same model However entering a characteristics code ID code and calibration are required Intended Products for CE Marking e The models listed under Chapter 8 Specifications and Dimensions come with CE Marking As for all other models please contact our office C Operating Conditions for Compliance with CE e This is a CE conformity
44. sampling Sampling period 1 Sampling period 2 ON Timing indicator OFF Start of holding mode 42 Measured value Output of result of sampling period 2 Measurement l Displayed Output value Trigger period Sampling period 3 2 4 List of Factory Shipment Settings Memory number AEaer MemoryO Varies according to each model No GP XC3S P 0 6400mm GP XC5S P 0 8000mm GP XC8S P GP XC10M P 1 6000mm GP XC12ML P 4 0000mm GP XC22KL P 8 000mm Varies according to each model No GP XC3S P 0 1600mm Lower limit value lie sec EA S GP XC8S P GP XC10M P 0 4000mm GP XC12ML P 1 0000mm GP XC22KL P 2 000mm AE Application mode RFFL t Manualmode Holding measurement selection hak No holding measurement distance detection Trigger selection ke th Notrigger Internal trigger edge direction amp Edi down Varies according to each model No GP XC3S P 0 4000mm GP XC5S P 0 5000mm GP XC8S P GP XC10M P 1 0000mm GP XC12ML P 2 5000mm GP XC22KL P 5 000mm Varies according to each model No GP XC3S P 0 0008mm Internal trigger GP XC5S P 0 0010mm hysteresis GP XC8S P GP XC10M P 0 0020mm GP XC12ML P 0 0050mm GP XC22KL P 0 010mm Internal trigger delay 4n Osee o an internal tigger sampingtime with 5AP O sec o Moma Time width of cyclic trigger Fi 1 1 sec Compari
45. setting Setting Section 3 4 Setting According to Application Application mode Section 3 5Trigger Input Setting Application mode setting Holding measurement Section 2 3 Measurement Function selection Section 4 1 Selection of Object to Be Detected to section 4 9 Initialization to Factory Shipment Setting Setting 1 Detail setting Section 5 1 RS 232C Communication Special setting Setting to section 5 4 Sensor Head Replacement Setting Trigger selection Section 3 5 Trigger Input Setting Comparison with Section 3 6 Comparison with previous average Previous Mean 30 2 2 2 How to Enter a Value The value entry method for the upper limit is described as an example Setting Example Change upper limit setting 2 0000mm to 4 5000mm 1 Inthe detection state press the key The MODE indicator orange next to the key lights up to indicate the setting mode and the O MODE current memory number is displayed 2 Press the VJ key H t he H thr is displayed This is the upper limit setting change menu 3 Press the key The most significant digit of the upper limit value 20080 2 0000 blinks 4 Using the VJ or A key change the blinking number The number increases each time the A key is pressed The number decreases each time the VJ key is pressed 5 Press the gt key to move the blinking digit and repeat step 4 to change the number 6 After changing press t
46. the same distance or displayed value is Enter the correct scale entered for the first Distance setting range Press voo and second points Or Omm to 110 of F S a value beyond the range is entered or the inclination is too large Upper line Voltage output scale error This occurs when the same distance value or voltage value is entered for the first and second points Or a value beyond the range or a voltage exceeding the 5V range is entered or the inclination is too large The setting is too small or too large Zero setting is performed at beyond the setting range or at a point deviating from the upper lower limit judgment point The mean calculation overflows Enter the correct scale Distance setting range Omm to 110 of F S Voltage setting range 5 5V Correct the setting Perform zero setting in the detection range Check the upper and lower limit settings and hysteresis width to enter suitable settings Press and hold the MODE key to reset the memory Description of error Remedy Resetting key output Press wove Press and hold Croo Or enter an external reset signal Press and hold O MODE Or enter an external reset signal RS 232C command BCC inconsistency error Communication error of controller communication unit Send the command again RS 232C Check the connection of communication cables Automatic recovery Press and hold O
47. with external trigger ig displayed until the first input is obtained fe voltage output is After reset input is displayed until the first input is obtained held at OV fe voltage output is Measurement i held at OV l l Displayed N Output value Displayed value J T s The value at the Measured value timing input is output 0 and held Timing input ON External trigger gg OFF ON Sampling begins again with Reset input the reset input OFF Start of holding mode If the internal trigger is selected the sampling point is after the total time of trigger delay and sampling time However sampling time 0 results in a singular point enter a value other than 0 as a sampling time For details refer to I Internal Trigger Mode on page 40 36 wiAverage Hold Ft j The simple mean of detected values in the period designated with trigger in puts is held For the trigger input the external trigger of timing input internal trigger with designation of the trigger level or cyclic trigger with designation of a period can be used Holding measurement begins with the power on or immediately after reset input is turned on The analog voltage output is held at OV after the start of holding measure ment until the first measurement is finished With the external trigger setting the mean of the interval from timing input to the next timing input is obtained With a reset
48. xe o _ 3 ied xe o g N 3 ied xe o a SP 3 ied xe Sl o aN Sp ied xe o S Ol S ied xe SL o S o gt 3 ied xe o ae N 3 ied xe A o si jee Contents BOER OCCT UN creerme a aaeei fe nian a ea aaa 1 Handling Precautions sesnsesseeeeeeerrrrererteretrtrtrrrtrrtrrentnrnrrrrrrerne nn 2 Checking the Packaged Components se sicissssnccsscccascnscsetecieasensenacacneins 4 NOLAN ON we iicrvernssviereeesiemeseerpeelehuaerelianieupaenana vususeenmbuanueres 4 Chapter 1 Before Starting Operation 0 ccc cseseeeeseeeeeeeeettesetenteeaaes 5 1 1 Features of GP X Series iccccsiraccscesnesesonscsezexeeseraeesseevoressinnnernacagerees 6 1 2 Basic Configuration ascot weg aeiteadastisbectere ne davebateeedceevilesdsslcawiveancadinas 7 t2lSsenso Head cane teh aceasta 7 TAZ CONTO E eseas ai iE EEEE 7 1 2 3 Controller Communication Unit and Link Cable Optional ae rene eet earn ee ere re ee ne eee eee rere 7 1 2 4 BCD Output Unit OPtONAal sicssuiasdstesscasescoscceneconnoseradaaaciantaeusdetorsevs 7 1 2 5 Cable with Connector on One End for BCD Output Unit Optionals eene e ere nn ge ene ere ee eran ee eee T 1 2 6 Extension Cable for Sensor Head Optional eeeeeeeees 7 1 2 7 Intelligent Monitor Software Optional c ccccccceeeeeeeeeeeeeeeeeenenees 7 1 3 Functional DESCHDUOIN ciicsisres
49. 0 075 0 100 102 450 204 850 X Factory shipment setting 409 650 1 2 4 16 32 Setting example Change the averaging frequency to 1 024 times The key indicator lights up ieee frequency setting mode Press the key to turn off the indicator to return to the detection mode 51 3 4 Setting According to Application Application mode 3 4 1 Selecting the Application Mode In the application mode setting items change according to each application Because only the items necessary for the application mode are displayed data entry is easy There are the following four variations in the application mode e Manual mode rim FUR manual All detection functions can be used The manual mode is selected in the factory shipment setting Press BDC detection mode F E amp press The bottom hold and trigger modes are automatically selected SHS Series Sepa S Internal trigger level Displayed value Displacement amount Bottom dead center Time BDC Rotation eccentricity detection mode e m fe rot Peak to peak hold is automatically selected The minimum based internal trigger is selected Displayed value A Displacement amount Time 52 Height detection mode a 0 hfe height The reverse value change direction is selected The sample hold and external trigger modes are automatically selected aie Displayed Ce SSeS value Displacement am
50. 5kQ Memory switch input 2 Note 2 Tw Treav A T amp S Pr input 24V O45 T SkQ reset input 24V CE T 5kQ 1 interference l jai ki v v v E B Input common 0v Internal circuit Users circuit Notes 1 Devices connected to the analog voltage output terminal No and must have 1MQ or larger input impedance 2 To perform memory switching by means of an external terminal select Ext as the memory switching method For details refer to section 4 8 Memory Switching Method Setting on page 93 Symbol D1 D2 Reverse supply polarity pro erences Non voltage contact or NPN open collector transistor Zp1 to Zoe Surge absorption zener diode a ao Tri to Tre NPN output transistor or Y Memory switching input Note 2 Zero setting input memory switch input 1 2 Memory switch 1 Memory switch 2 Reset input Low 0 to 4V Valid High V or open Invalid 72 NPN open collector transistor Low 0 to 4V High V or open X Timing input Low 0 to 4V Valid High V or open Invalid 14 1 5 2 PNP Output Type GP XCLJS P GP XCLSE P GP XCCIMCP GP XCLKL P Terminal No V I Output O Output common 100mA max l CEH O comparison output lO tooma max O Somparison CEH O comparison output lO tooma max LO 100mA max O Tomparison output HI 100mA max al strobe output
51. 67 IEC IP67g JEM 10 to 55 C In storage 20 to 70 C 35 to 85 RH In storage 35 to 85 RH Power line 300Vp 10ms cycle and 0 5 us pulse width with noise simulator 250V AC for one min between all supply terminals connected together and 20M Qor more with 250V DC megger between all supply terminals connected together and enclosure Vibration resistance 10 to 150 Hz frequency 0 75mm amplitude in X Y and Z directions for two hours each 500m s acceleration 50G approx in X Y and Z directions for five times each Stainless steel SUS303 Brass Nickel plated Cable protector a e yO Connector attached high frequency coaxial cable 3m long Note 4 Cable extension Extension up up to 10m is possible with the optional cable o a o s iO D o Cc o Cc fe gt uw Weight Note 5 40g approx 40g approx 40g approx 50g approx 45g approx 80g approx Notes 1 GP X3SE and 5SE which are not applicable to export regulations are also available 2 The sensing range is specified for the standard sensing object 3 The value represents 20 to 60 of the maximum sensing distance when combining the sensor head and controller 4 For flexible cable type type contact us 5 The given weight of the threaded type sensor head is value including the weight of the nut and toothed lock washer 138 8 1 2 Controller w Supply voltage 24V DC 10 Ripple P P 10 or less Current co
52. Define an analog voltage output range in proportion to the detected value The full scale is set in the range from 0 to 5 0V before shipment from the fac tory An analog voltage output range inclination and other features of the detect ed value can be entered The setting method includes three variations similar to the display scale one point scale two point scale and INV Or select the default setting to return to the factory shipment state Only the voltage output can be changed with this function To change the displayed value according to the detected value use the display scale Pcie However if voltage volts is selected as a display unit the indication changes after analog voltage output scaling 4 5 1 One Point Scaling Only the offset changes while the voltage output span inclination remains unchanged With one point scaling a SLOPE function is available with which the inclination reverses around the point designated for scaling Change 0 5mm 1 2500 to 0 5mm 1 5000 Change the inclination with SLOPE Voltage Voltage V v Voltage 5 2500 5 2500 Vv 5 0000 5 0000 54 3 i 1 5000 F x i 1 5000 i gt 0 2500 i O gt 0 2500 1 2500 7 oa o k 2 2500 0 5mm 2mm 0 5mm 2mm 0 5mm 2mm 81 Setting example lt Setting 1 mode gt Analog voltage output scale Press VJ to select SLOPE Press to move to another digit
53. Head Tighten the sensor head to the torque specified below Mounting with set screw Use an M3 or less cup point set screw lt Column type gt Set screw M3 or smaller Model A mm Tightening torque Cup point eae GP x3S 41016 0 1N morless GP X5S 0 44N m or less 5 to 16 GP X8S 0 58N m or less Note Avoid tightening excessively F o ke 2 Mounting with nut lt Screw type gt GP X10M GP X12ML GP x22KL Model B mm Tightening torque Attached Attached Attached GP X10M 7 or more 9 8N morless vo lock toothed lock toothed lock washer washer washer GP X12ML 20N mor less GP X22KL 20 or more Note 1 20N m or less Notes 1 In case of without a nut If a nut is fitted this value will be 23 5mm or more 2 Mount such that the nuts do not protrude from the thread portion Mounting plate Distance from surrounding metal As metal around the sensor may affect the detection take care of the fol lowing lt Embedding of the sensor in metal gt Measurement value or analogue voltage output may be changed if the sensor is completely embedded in metal Keep the minimum distance specified in the table below GP X3S 610 a GP X22KL 20 ron 17 1 6 3 Processing and Tightening the Lead Wire Follow the procedure below to process and tighten lead wires Lead wire processing size Lead wire a Tighten N Loosen Dimension A 6 1m
54. IM Din m CR Loading 0 Displayed is measured value EE RIM DIn 1 amp 8 amp amp amp amp amp value 1 Detected sae distance a value Before a trigger is detected in the hold mode is sent back The judgment data is loaded from the controller of the designated address The response to E E R O T n m CR is E E R O T n x CA x The 4 bit judgment data is indicated with 0 to F bit 0 Lo al Go bit 2 Hi bit 4 Alarm Loading When x 1 0001b Hi judgment output judgment ROT is indicated because bit O is Example 2 output ON When x 2 0010b Go judgment output is indicated because bit 1 is ON When x 4 0100b Lo judgment output is indicated because bit 2 is ON When x C 1100b Lo judgment output is indicated with an alarm output because bit 3 and bit 2 are ON 9 aydeyo The hold mode setting is loaded from the controller of the designated address The response to JE JE R H M n O CA is E E R H M n m CR lt Response value m gt Example 3 m 0 Normal mode m 1 Peak hold m 2 Bottom hold m 3 Peak to peak hold pold mode m 4 Sample hold m 5 Average hold Normal mode Start the ho
55. Panasonic USER S MANUAL High Speed High Accuracy Eddy Current Digital Displacement Sensor GP X Series ME GPX 03 No 0020 92V Thank you for purchasing Panasonic Electric Works SUNX s GP X series High Speed High Accuracy Eddy Current Digital Displacement Sensor Read through this user s manual for the correct and best operation methods to achieve the opti mum performance of our product WPrecautions Note that sketches shown in this operation manual may be different from the appearance of the actual product in some respects Descriptions in this operation manual are subject to change without prior notice No part of this operation manual and software may be duplicated or repro duced without permission Though this operation manual is carefully prepared contact nearest Pa nasonic Electric Works SUNX s sales office if any uncertainties errors or pages out of order are found Remember that we will not assume responsibility for the results of opera tion in spite of the above descriptions Introduction Precautions and description of notation Chapter 1 Before Starting Operation Chapter 2 Basic Knowledge About Functions Chapter 3 Basic Function Setting Chapter 4 Detail Setting SET 1 Chapter 5 Special Setting SET OP Chapter 6 RS 232C Communication Function Chapter 7 What to Do Upon an Error Chapter 8 Specifications and Dimensions gt re a O 3 ied
56. Procedure 102 5 3 Settings Related to Controller Communication Unit Optional saisagaat sie seoorsuiehs pha rniasceiesansuesth saa ebensanqunsutennd 103 5 3 1 Overview of Controller Communication Unit 103 5 3 2 Connection of Controller Communication Unit and Address Setting ccccccsssscsseees 104 5 3 3 Calculation Between Controllers 000 106 5 4 Sensor Head Replacement Setting 0 108 5 4 1 Interchangeability of Sensor Head 00 108 5 4 2 Characteristics Code Entry Procedure 108 5 5 Software Version Display Menu 0 seeeeeees 110 97 5 1 RS 232C Communication Setting 5 1 1 Communication Specification Item Options of mode 5100 bps Baudrate 9200 19 200 8bao 9 600 l add ODD PRe tk parity Parity Ewen EVEN StoPb stopb Stop bits The data length is fixed at 8 bits and flow control is not made 5 1 2 Setting Procedure Setting example Change the baud rate from 19 200 bps to 9 600 bps lt Option mode gt SE kof lt Parity gt lt Stop bits gt ener Set Referencdyy For details of the RS 232C communication function refer to Chapter 6 RS 232C Communication Function on page 111 98 5 1 3 Connector Pin Layout on Controller Side cConnector pin layout I O OUT SD TXD IN RD RXD RTS Applicable connector Reference TCP6180 Hoshi
57. Trigger Setting sciscsccsseeeisasssssatnstnoenevieansanes 65 3 6 Comparison with Previous Mean 0 eeeeeeees 66 45 3 1 Memory Selection Various conditions are saved in the controller in up to four memories No 0 to 3 The memory number can be switched using a panel key or external terminal Referenc For external input output refer to section 1 4 External I O on page 13 References For the selection of the switching method refer to section 4 8 Memory Switching Method Setting on page 93 3 1 1 Memory Number Selection Setting example Change the memory number from 0 to 2 lt Detection state gt lt Memory Number selection gt Press to set The following items are stored in each memory Uaperimnvae Heihe Samping ime fersa ower imtvaue i thr Oyeie viooer trewan FL ter Faveracngrequeney Ru ereitte vederea AEERL Measuring mode RPPL 1 Tesora cL th koding measurement hat Dissayscalevaue Set Trigger mode Pee th Output hysteresis Patt Internal trigger level Internal trigger direction Internal trigger hysteresis Internal trigger delay The three point calibration adjustment data is not copied with the memory copy function For the entering method refer to section 4 2 Three Point Calibration Linearity adjustment on page 71 46 3 1 2 Memory Copy Function With the memory copy function the settings of the currently selec
58. able length of the sensor head cable 4 length selection Upper side Standard 3m extension 7m switch Lower side Standard 8m RS 232C Capable of loading writing settings and loading connector measurements WiSide view 2 P i ne a D z Connector for Peel the seal off and directly connect the optional unit connection BCD output unit or controller communication unit 10 1 3 2 BCD Output Unit Optional 1 f Cable with connector on one end for Connect the BCD output unit BCD output unit Optional 2 Connector for Connect the cable with connector on one end for BCD output BCD output unit Connector for connecting the Connect with the side panel of the controller controller Notes 1 To use the BCD output unit make sure to configure the BCD out put Rerne For the setting method refer to section 5 2 2 BCD Output Se lection Procedure on page 102 2 After the controller is configured for BCD output the analog volt age output becomes invalid For compliance with CE mount a ferrite clamp for EMC measures on the cable and within 10mm of the root of the cable connector to reduce the effects of radio noise Recommended product ZCAT2035 0930A made by TDK Co Ltd 11 Q P i ne a 0 z Sa 1 3 3 Controller Communication Unit Optional 12 1 2 3 5 4 1 Link cable Connects between controller communication Optional units 2 Transmission conn
59. al display goes out again POINT 88 4 6 4 Display Refreshment Period Menu and Display Places Setting The display refreshment period and the number of displayed digits can be changed 1 Display refreshment period The refreshment period of the displayed value can be changed Select the refreshment frequency per second The factory shipment setting is 20 20 cycles sec 2 Number of displayed digits Designate the position of the decimal point Designate the position from the right end with a number between 1 and 5 The factory shipment setting is 5 for type with 5mm detection range or 4 for type with 10mm detection range Setting method lt Setting 1 mode gt Press VJ or A to select the item 1 87720 cycles sec Press to confirm Q 10 cycles sec 2 cycles sec Press VJ or A rT ars i bh Ut Display example to select the item Ne 2 29 12500 Press 4 250 to confirm par n ooo 1 2 Last digit discarded lt Number of displayed digits gt 89 4 7 Interference Prevention Setting Connect the interference prevention output terminal No 7 at the external terminal and the interference prevention input terminal No 16 to switch the detection action alternately to prevent mutual interference from occurring Because the detection action switching signal is automatically generated there is no need to supply pulse signals for switching the action Designate one controller
60. amp amp 5 Y2 Teaching Detected distance value of 1st point of 2nd point amp amp amp amp amp amp amp O amp amp amp amp amp amp amp amp of two point Analog voltage output value of 1st point Detected distance value of 2nd point scaling olala alela 8 CR 6 Y1 Teaching Analog voltage output value of 2nd point O Space of one point The response to the above command is scaling E E W S D n oR n Inverse ON OFF 9 Recovery of factory shipment setting 120 Command for adjustment Command Controller instruction character Settin dd tline g Loading Writing in XI string m on example lt First point teaching in two point scaling gt lt Data format gt With the detection target set to the X1 and X2 are scaling distance set and send the analog detection voltage output values distance values The response to R amp R KRRK E E W S D n 4 amp amp amp amp amp amp amp without sign oR Analog voltage output value Display Y1andY2are is of the 1st point analog voltage E E W S D n cr output values lt Analog voltage output inverse gt 888 2888 E E W S D n 7 m Cr with a sign Th
61. asher washer teeth inside 144 8 2 2 Controller mGP XC P HAREK AEE 48 mas GP X series CE Ss lo ae 8 2 4 Controller Communication Unit Optional 2 F o pe 0 tae co 145 MEMO Chapter 8 146 Revision History First edition April 2003 Second edition November 2008 Third edition February 2011 Warranty Panasonic Electric Works SUNX warrantsthis product for twelve 12 months from the date of shipment or delivery to the purchaser s appointed warehouse Scope of Warranty During the above mentioned period if a failure of the product occurs under normal use and operation and if Panasonic Electric Works SUNX deter mines that it is responsible for the failure it shall repair the defect or replace the product However in no event shall Panasonic Electric Works SUNX be liable for the failure damage or loss stipulated below 1 Failure caused by instructions standards or handling specified by the customer 2 Failure caused by modifications done in the structure capabilities specifications etc without consulting Panasonic Electric Works SUNX after the purchase or the delivery of th
62. ata 2 Data 3 Data 4 inside controller BCD data output O Aee Keep the HOLD input at the high level to output the measurement data for each sampling period After data output is set the VALID output becomes Low ON J o pe tee 3 oO Action with HOLD input High OFF 400s or more 50us 154s HOLD input Low ON 4004 s or more High OFF VALID output Data refreshment If the VALID output is Low ON the BCD data is output after 4004s or more since the falling edge of the HOLD input and it remains output while the VALID output is Low ON If the VALID output is High OFF and the HOLD input is Low ON the BCD data output is maintained after the VALID output has become Low ON The VALID output becomes High OFF after approx 400s or more since the HOLD input becomes High OFF If the HOLD input remains High OFF continuous sampling at a sampling period of 504s occurs Note If the BCD output is valid the sampling period of the GP X controller becomes 504s sampling frequency 20kHz If the BCD output is valid the analog voltage output is invalid O_o ee acl 101 Low ON W O Circuit Output circuit diagram terminal No 1 to 22 Positive logic Nch MOS FET open drain B 50mA max DC power supply Main circuit i Internal circuit Users circuit Input circuit diagram terminal No 23 Non voltage contact or NPN open collector transistor
63. c Works Europe AG Rudolf Diesel Ring 2 D 83607 Holzkirchen Germany Phone 49 8024 648 0 US Headquarter Panasonic Electric Works Corporation of America 629 Central Avenue New Providence New Jersey 07974 USA Phone 1 908 464 3550 PRINTED IN JAPAN Panasonic Electric Works SUNX Co Ltd 2011 February 2011
64. ceentrcedeaensewsdccsonssastarsbecesactaaseay 7 1 2 2 Controller fcccsaccaecnnsingcanceesdacanainosrsaanaaneanasaiaiasaions 7 1 2 3 Controller Communication Unit and Link Cable Optional 0000aaaenaeeeeeeeneen eeen 7 1 2 4 BCD Output Unit Optional ees 7 1 2 5 Cable with Connector on One End for BCD Output Unit Optional escossesccscecscesceseeseesces 7 1 2 6 Extension Cable for Sensor Head Optional 7 1 2 7 Intelligent Monitor Software Optional 7 1 3 Functional Description sc cccesexssasenceseorecumeacssensmeranenres 8 1 3 1 Controller sistas sucvanccitds neue duasyaieedcvenuaddesdecaasaeeccs 8 1 3 2 BCD Output Unit Optional svvescssscevieesssunrasvies 11 1 3 3 Controller Communication Unit Optional 12 1 4 External IO iss icectaitssiagennguseinesresaacentansewineeemaouentnineeiase 13 1 5 WO Circuit DIAGFAINS ixo aeccescncuimnacenoscnteanconenetinmacrncet 14 1 5 1 NPN Output TV DOs ccssncissscnxecsaiananananianaacas 14 1 5 2 PNP Output Type iiscisesccsdsesdecsesscdestieisvesseassateeee 15 1 6 Mounting Method x iiccxiasesssisourteyeresiyseioniagenanyseenunrs 16 1 6 1 Mounting the Controller csessteeesinsaededeass 16 1 6 2 Mounting the Sensor Head 0 000eeee 17 1 6 3 Processing and Tightening the Lead Wire 18 et Connections assan a a 19 1 7 1 Connecting the Sensor Head and Controller 19 1 7 2 Mounting the Option Unit scecssercestciisrssisseeeies 20 1 8 Flow of C
65. d the trigger delay sampling time cyclic trigger interval and output delay settings vary according to the measuring time ratio duty determined by the number of connected units Number of connected units and measurement time ratio units Sunits 4units 5units units 7Zunits 8 units _ ae X3S GP xe GP X8S ea a e gs o aa o a lt In case the different models are mixedly used gt Example 2 units of GP X12ML and 6units of GP X22KL total 8 units are used The measurement time ratio of GP X12ML is 12 8 times each The measurement time ratio of GP X22KL is 19 2 times each 91 elie Setting items related to time Trigger delay sampling time cyclic trigger output off delay For example with a 1 0 sec setting of the cyclic trigger in a system con necting three units the actual period becomes 4 8 sec To obtain a 1 0 sec period enter 0 2083 sec If sensor heads are mounted close together without using the interference prevention function reserve the distance specified below a De e In the case of an opposing installation layout Model No of mm mm A gt Eo head In the case of a parallel installation layout GP x8sS 40 145 GP xiom 40 15 m GP XT2ML GP X22KL GP X22KL 200 200 e 20 20 Communication error by the calculation between controllers in the in tererence prevention function ON state 1 If a calculation setting is used in the the
66. dd o Stopbits Stefi tbit o S BCD unit output ocd invalid Pde Pe Controladdress Adde Od Calculation between units cRic None in 44 Chapter 3 Basic Function Setting 3 oO 3 1 Memory Selection is cesecencsscransseiscsassa tessa Atanemeseneaeess 46 3 1 1 Memory Number Selection 00ceeeeeees 46 3 1 2 Memory Copy Function 0 eeeeeeeeeeeeees 47 3 2 Upper and Lower Limit Value Settings 08 48 3 2 1 Setting the Upper and Lower Limit Value Entity Method siennes aE 48 3 2 2 Value Entry Setting Direct value entry 49 3 2 3 Using the Actual Detection Value to Set CTC RING cxirtinscarain secon decinaexeretremlatatnavenlaneRicaredtiass 50 3 3 Averaging Frequency Setting 0 cseeeeeeeeeeees 51 3 4 Setting According to Application Application MOE c csicisecessasssatessccnscssdsssaccsasesseesastens 52 3 4 1 Selecting the Application Mode 0 52 3 4 2 Manual Mode cijineyicssreacisnatnssasatsseeeusn ay samuss tas 54 3 4 3 Press BDC Detection Mode 0cceeeeeees 55 3 4 4 Rotation Eccentricity Detection Mode 57 3 4 5 Height Detection Mode cceceeeeeeeeeeeeeeeees 60 3 5 Tigger Input Setting ancsisswdcusssiavear se ncbcatntnaaconeancee 63 3 5 1 External Trigger SUING icticcisrsaicanicueiancrcas 64 3 5 2 Internal Trigger SQuinG wcticinscrstesdsireimuoisierias 64 3 5 3 Cyclic
67. den Wiring example PC AT compatible GP X series J o pe Sz RS 232C cable 3m Use ANM81103 Note RS and CS are not used for GP X series Deselect flow control on the PC side 99 G sa deyD 5 2 Settings Related to BCD Output Unit Optional 5 2 1 Overview of Specifications of BCD Output Unit High speed digital output can be obtained through connection of a BCD output unit GP XBCD optional and a cable with connector on one end for BCD output unit GP XBCC3 optional Digital output is superior in regards to resistance to external noise when compared with analog output and sta ble and high resolution can be obtained without filter circuits For CE compliance mount an EMC compliant ferrite clamp to the BCD output cable with the connector on the single side For details refer to page 11 Recommended product ZCAT2035 0930A made by TDK Co Ltd When the BCD output is used analog voltage output cannot be used Make sure that the detection sampling period changes If an analog volt age output is connected to external devices disconnects Terminal i ipti Name Detailed description ren name Cor otinsuator ID mark E TE orro Red 1 pe Orange x 4x Red 1 pc setting Gray DO 8x Black 1 pc A1 1x Red 1 pc White 6 B ex Black 1 pc Tens digit of Red 1 pc C1 4x setting Yellow D1 8x Black 1 pc x se seers Hundreds digit BCD output of measured value
68. e value MODE GJA ENTER When the gt key is pressed l wr l wr l wr al tr I mM y a 3 X aM mt F 27 2 r i ne a 0 N Wero Setting Press and hold the key on the panel for longer than two seconds to change the current position of the detected object to the zero reference po sition while the displayed value and analog voltage output are zeroed Use this key to adjust the reference position according to a slight difference in the detected object or according to the workpiece positions varying as time passes Press and hold the key for longer than two seconds too to cancel zero setting GP X series C GP X series _C Press and hold for mi J ri m7 hortor a m7 ri ri rm ri LO L eens DR LOLOL LOOGOn HID _ a En D gt m C gt JA ENTER MODE ZIA ENTER Press and immediately release the key to check the current zero setting ON OFF state GP X series _C GP X series C M L MZZL LW Ahh L Ahh gt Live a E Tike Co D gt RE Co gt O MODE VA ENTER mone 7 A ENTER
69. e a D z Sa The measurement calculated value setting data and so on Digital display are displayed The measurement is displayed in green on green orange the lower line with the GO judgment while it is displayed in orange on the upper line with the HI or LO judgment HI indicator Lights up if the measurement is larger the upper limit Orange value GO indicator Lights up if the measurement is between the upper Green and lower limit values N e 3 LO indicator Lights up if the measurement is smaller than the lower Orange limit value TIMING indicator p l l Lights up at the timing of an external or internal trigger MODE indicator Lights up in the setting mode while it is not lit during Orange measurement Starts the setting mode MODE key Returns to the original state in the setting mode DOWN key Use these keys to select the setting value and setting UP key items 0 SHIFT key Moves among setting digits ENTER key Determines the setting item and setting value Resets the controller forcibly to zero reference 12 0 set key position with the current detection position to shift the display and analog voltage output 4 N WRcear panel O 1 Lower terminal block Sensor head 3 connection Connect the sensor head connector 5 ites with reverse insertion pele 2 function Upper terminal block Connect each terminal to input or output Sensor cable Select the c
70. e the result of calculation is judged POINT 3 2 1 Setting the Upper and Lower Limit Value Entry Method There are the following two methods for entering the upper and lower limit values used for judgment of the detected value Press enter in the upper lower limit value setting mode The upper or lower limit value can be Value entry setting entered directly as a digital value The detection displacement value is set ENTER Detection displacement directly as an upper or lower limit value Press and hold ws in setting teaching The object to be detected workpiece can be used to enter the setting the upper lower limit value setting mode 48 3 2 2 Value Entry Setting Direct value entry Setting example Change the upper limit value from 1 5000 to 1 4000 Upper limit value setting mode Press B to move to another digit Press VJ or a to change the number If the gt key is pressed when the least significant digit blinks the entire value blinks Press the VJ or A key in this state to change the sign of the value the sign does not change if the value is 0 Press to make the entire value blink e Use as the upper threshold H thr value is zero or greater i ee Enter settings so that the following equation stands true Upper limit value H thr hysteresis width o hys gt Lower limit value POINT L thr hysteresis width o hys If the conditions are not satisfi
71. e Point Calibration Linearity adjustment on page 71 5 4 2 Characteristics Code Entry Procedure The characteristics code of the sensor head is a 10 digit number for each object to be detected Enter the number to achieve linearity 1 Select or check the object material and the code to be entered In the case of iron lt Detection state gt Press V to select set 1 lt Object selection mode gt lt Setting 1 mode gt M Ek S I Select the object to be 108 2 Enter the 10 digit number of the desired material specified on the tag If a different material code is entered an error is caused lt Detection state gt POINT Press VJto select head deflt indicates the characteristics code of a head adjusted in a set with the controller On this menu press the key Enter the 10 digit number Paces consisting of oe J o pe E oO 9 to F Press to move to another digit The highlight moves to the left end on the the lower line after the right end on the upper line Press VJor A to change the number Press Ensto set X The figure on the left shows a setting example for 0102030202 If value entry is incorrect or the material of the object is incorrect an error is caused Press the key to cancel error indication Enter again To restore the factory shipment setting of calibration data for the factory shipment set of the sensor head and controller sel
72. e entry method refer to section 3 2 Upper and Lower Limit Value Setting on page 48 5 Press the key to return to the detection state 58 6 Rotate the detected body to start detection The peak to peak distance is displayed upon a trigger based on the minimum point of the rotating body and judgment is output concerning the displayed value ig displayed until the first measurement result is obtained lt If the deviation is smaller than the hysteresis no trigger is generated Ex amine the settings POINT Referencdsy Press the gt key in the detection state to check the detected value on the upper line and measured value on the lower line For details refer to Detection Mode on page 27 2 F o ke 2 i w Rotation eccentricity detection mode Displayed value This point is not considered to be the minimum point because it is within the hysteresis Distance between P2 and B2 is PA Distance between P1 and displayed and output B1 is displayed and output P2 Trigger point Trigger point 4 Minimum point Trigger hysteresis Minimum point BI B2 Internal sampling Sampling period 1 Sampling period 2 N Timing indicator Start of measuring mode In the sampling period the peak point is determined first and the difference of the next minimum point is measured displayed and output as a peak to peak distance 3 4 5 Height Detec
73. e product 3 Failure caused by a development which could not be foreseen based upon the technology in practice at the time of purchase or contract 4 Failure caused by use which deviates from the conditions environ ment given in the product catalog or specifications 5 In case this product is used by being incorporated in the cus tomer s machine failure which could be avoided if the customer s machine had functions and structure commonly accepted in the industry 6 Failure due to Force Majeure Further the warranty given here is limited only to this product which has been purchased or delivered Panasonic Electric Works SUNX shall not be responsible for any consequential damage or loss arising from the failure of this product Scope of Service The cost of the product delivered does not include the cost of dispatching an engineer etc In case any such service is needed it should be request ed separately GP XC3S P or GP XC5S P is applicable to export regulations specified in Foreign Exchange and Foreign Trade Control Law Exportation of the GP XC3S P or GP XC5S P or carrying it outside Japan requires an export permit from the Japanese government Panasonic Electric Works SUNX Co Ltd http panasonic electric works net sunx Overseas Sales Division Head Office 2431 1 Ushiyama cho Kasugai shi Aichi 486 0901 Japan Phone 81 568 33 7861 FAX 81 568 33 8591 Europe Headquarter Panasonic Electri
74. e selection switch turn the power on again and perform calibration at three points without fail Do not pull the cable otherwise the cable will be damaged 19 1 7 2 Mounting the Option Unit Perform mounting after turning the power off If mounting is performed with the power turned on failure may result As well keep away from mounting brack ets when the power is on Mounting of controller communication unit and BCD output unit 1 Peel off the side seal of the controller 2 Mount the controller and the mounting frame on the panel in the orienta tion shown in the figure below For details refer to section 1 6 1 1 to 2 5mm Mounting the Controller on page 16 side If the fitting inter feres with another unit or the like and it cannot be mounted sideways mount from the rear while opening its arms Mounting from rear 20 LALLA A A 5 Press portions A of the mounting bracket to snap portions B to fix the fit ting as shown in the figure below 6 Connect the controller communication units as shown in the figure below Controller communication unit GP XCOM gt Link cable for controller communication unit SL F150 F250 F 1000 j J 2 lt f Terminator switch ON gt Terminator switch OFF Terminator switch ON 7 Turn the terminator switch ON at the two units located at both ends of the network Turn the terminator switch OFF at the ot
75. ecome within 110 and within 120 of pont the maximum detection distance respectively Referenc Press the E key in the detection state to check the detected value on the upper line and measured value on the lower line For details refer to HiDetection Mode on page 27 F o ke 2 D og 3 oo 3 4 4 Rotation Eccentricity Detection Mode rot Use this mode to detect eccentricity in the rotation of a shaft The minimum point in the deviation of measurements of a rotating body is defined as a reference trigger and the peak to peak distance is measured in the sampling period to output judgment in comparison with the preset upper and lower limit values After the rotation eccentricity detection mode is selected the following measuring conditions are set Holding measurement mode is fixed at peak to peak hold The trigger condition is set with a trigger hysteresis The internal trigger level trigger edge direction trigger delay and sampling time are ignored Comparison with previous mean is invalid To use the external trigger internal trigger with a trigger level or cyclic trigger select the manual mode and enter settings Example of detection of eccentricity 1 Mount the sensor head on equipment Prepare the sensor head mounting fitting and the object to be detected Referencds For mounting of the sensor head refer to section 1 6 2 Mounting the Sensor Head on page 17 2 Adjust the sensor head
76. ect defLt from this menu again 109 5 5 Software Version Display Menu The version data of the software built into the controller can be checked lt Detection state gt For the GP XC3SE P or GP XC5SE P the bottom indication is ended by However for the GP XC22KL P the bottom indication may be ended by p J o pe ie o1 110 Chapter 6 RS 232C Communication Function 6 1 How to Use RS 232C Commands cccceeeeeeseeees 112 6 2 C mmand LISTS cerren aen E 6 3 Intelligent Monitor Software GP XAiM Optional 132 9 1 deyo 111 6 1 How to Use RS 232C Commands To control the GP X series via the RS 232C follow the procedure below 1 Connect a communication cable between the controller and a host PC etc 2 Maintain consistency in the communication specification between the controller and the host PC etc Referenc For the communication specification setting method of the GP X series refer to section 5 1 RS 232C Communication Setting on page 98 The command format is described Wil ransmission Format of ELEL RIM D n m ca BCC Header Command Instruction character string Controller address r io pe D S cop Special communication header necessary for Header RS 232C control The transmission header is common The header is followed by various commands ID address of the controll
77. ected During calibration five commands are transmitted while the Zero point object Sabon to the object to be detected is Three point contact position CNANgee calibration 1 2 FS full scale E E JE Offset position eee writing F S full scale Zero point position 76 E E Designation of all four memories position a Offset saving and 1 2 F S position enactment E Designation of F S position current memory Saving enactment oz X2 Load the current zero setting state ON OFF or shift amount The response to E E R Z S n o cr is E E R Z S n o m 0 Zero setting M 0 Zero setting OFF ON OFF data m 1 Zero setting ON 1 Shift amount The response to for zero E E R Z S n 1 cr setting is A E JE R Z S n 1 amp amp amp amp amp amp amp amp x JCR The response data indicates the detected distance after three point calibration It is not a displayed value Zero setting 117 Command for adjustment Command Command Contoler Instruction character i Setting Item ny string m Outline example Perform or cancel zero setting of the controller of the designa
78. ector Connect a link cable to communicate with Reception another controller connector A Terminator If only one link cable is connected turn this switch switch on Lower side ON Connector for connecting Connect with a controller controller When a different power supply is used for 2 or more controllers be sure to connect either O V lines or V lines of the controllers each other Other amp wise the transmission by GP XCOM and the interference prevention func tion are not properly operated 1 4 External I O Jaydeyo Toyo Toyo Coo Toyo mal oc oc oc Coo allel slalsleizslo nopahanaiatsnelzha O W Indication Description 1 LO LO output A signal is output if the measurement is smaller than the lower limit value 2 leo GO output A signal is output if the measurement is between the upper and lower limit values 4 5 3 lH A signal is issued if the measurement is larger than the upper limit value NPN output type OV PNP output type 24V HI output ALARM Alarm output A signal is output if an error occurs Interference A signal is sent to another controller for T ATOUT prevention output removal of effects caused by interference mae Analog ground The measurement is output in an OUT Analog voltage output analog voltage oe The current detection position is forcibly SET A eau nipuh zeroed to become a reference position 1 Memory switch 1 One among four settings is called up
79. ed an error message is displayed Press the key to remove the error indication Enter the correct value 49 3 2 3 Using the Actual Detection Value to Set Teaching Setting example Change the upper limit value from 1 5000 to 1 7000 Press and hold for more than two seconds to teach Upper limit na setting mode F o pe D bagi oo The blinking value indicates that the distance between the sensor head and detected object is 1 2350 Change the distance blinking value between the sensor head and the detected object to 1 7000 then press the key to set e Use as the upper threshold H thr value is zero or greater Enter settings so that the following equation stands true Upper limit value H thr hysteresis width o hys gt Lower limit value L thr hysteresis width o hys If the conditions are not satisfied an error message is displayed Press the key to remove the error indication Enter the correct value POINT 50 3 3 Averaging Frequency Setting Change the averaging frequency to obtain the best relationship between the response time and variation in detection dy If high speed judgment is necessary set a smaller averaging frequency For momentary changes or fine judgment set a larger averaging frequency POINT to suppress any variation in detection E Relationship Between Averaging Frequency and Response Time Averagin BALA Response time ms
80. ed 74 4 4 Display Scale isio ecann eaei aeaa aaa 76 4 4 1 One Point Scaling nists catinsssavariananasananaiaanaestins 76 4 4 2 Two Point Scaling sxinmiiccsiveraisien bataweenaetins 78 4 4 3 INV Function 1 esipisesserenesarcserrergeeeiseoenteurecnceas 80 4 5 Analog Voltage Output Scale cccccccecccecceeeeeeeeeeeees 81 4 5 1 One Point Scaling cccceeeeeeeeeeeeeeeeeeeeeeeeees 81 4 5 2 Two Point Scaling scsiccussdetsrissetvasier tseieeieesaiecs 83 ASO INV FUNGON sorsra on a raain 85 4 6 Display Setting nnsnnnnenneeenrrrrrtrrrttrrrrrrtrrtrrrrrrrrrrrree 86 4 6 1 Selection of Data Displayed in Upper and Lower LINCS cran e mca 86 4 6 2 Selecting the Display Unit eee 87 4 6 3 Power Saving Mode Setting 0 ccceeeeeees 88 4 6 4 Display Refreshment Period Menu and Display Places Setting 0 ssssseseeeeeeeeseeeeees 89 4 7 Interference Prevention Setting cccccccccceccseeeeeeeees 90 4 8 Memory Switching Method Setting cee 93 4 9 Initialization to Factory Shipment Setting 94 4 10 Panel Key LOCK c cnutre tinier Gearcneaeee eae 95 69 4 1 Selection of Object to Be Detected The GP X series is configured before shipment from the factory so that lin ear accuracy is achieved for stainless steel SUS304 If the material of the object to be detected is other than stainless steel change the setting After changing the setting perfor
81. eeeeeeees 23 2 1 Displaying Operation otis cciwsiorteaioracsiagviesadsdetdinessdiculosovanmekeudbiowiess 24 2 AA Ope ration Pann lrir arere Ei 24 2 1 2 List of Characters Displayed at Controller c eesseeereeeeees 25 2 2 Operation System cet tistace nue e bea shsa ea teers eridene es eae 26 2 2 1 Overview Of Operation System isc ccceccccagidceaetaad Miataccedenchetneneanata 26 2 2 2 How to Enter a Value 0 ee ceeccecceecceeeceeceeeceeeneeueeeaeeeeeneeeaeeeaeenees 31 2 3 Measurement Function ccccccccceceeeseeeeeeeeeeeeeeaeaeaneeeeneeeenenees 32 2 3 1 Holding Measurement Function isctsscecddsccshacecs av eseearsddestandesetencnedes 32 2 3 2 Migger INPE A 38 2 4 List of Factory Shipment Settings ccceeeeeeeeeeeeeeeeeeeeeees 43 Chapter 3 Basic Function Setting 2 0 0 0 cceeeeeeeee rete eeeeteeeeeeeeeeees 45 3 1 Memory Selection ccceeeeeeeeeeeeeeeeeeneeeeeseessesseeeeeeeeeeees 46 3 1 1 Memory Number SGlECNONax ceeeetitetettriei a 46 3 1 2 Memory Copy Function xx sarcuscescenondeccnsenidrdsgertesiesseadioreseniabemeeiancendty 47 3 2 Upper and Lower Limit Value Settings 0 cece eeeeeeeee 48 3 2 1 Setting the Upper and Lower Limit Value Entry Method 48 3 2 2 Value Entry Setting Direct value entry eee eee eeeeteeteeeeeeeeeeees 49 3 2 3 Using the Actual Detection Value to Set Teaching eee 50 3 3 Averaging Frequency Setting
82. eeeees 112 6 2 Command LIStS p sissi keisarar EAEE REAREA EEEE EA EERE E EER 114 6 3 Intelligent Monitor Software GP XAiM Optional 132 Chapter 7 What to Do Upon an Error cc ceeeeeeeeeeeeeeeeeeeeeeeeteeeeeees 133 TA Error indication WISE srssssacecsesurererncngsereboomaveuerienctemecnaniag 134 7 2 What to DO ccs eee ee ee ees 136 Chapter 8 Specifications and Dimensions 0 ccceeeeees 137 8 1 Ratings and Performance si isrrives dotiessesissbsieseeetisererelscsdineetns 138 8 1 1 Sensor Head serari a a 138 912 Oe 10 cirea a eee eee 139 8 1 3 BCD Output Unit and Controller Communication Unit 141 8 2 Dimensions Unit MIM isvisevicisnidtsseervatsdesoecsbndeixGdaeeoecevesins 142 8 21 Sensor Headless r E R 142 92 2 CONTO ET traa e E Aa 145 8 2 3 BCD Output Unit Optional seeeeeeeeeeseesenernnrrnrrssesrsssrrrrrrnrrre 145 8 2 4 Controller Communication Unit Optional ssesseeeseessseeeeereneene 145 3 2 e 2 Q pn eo 5 Introduction Handling PrECAUU ONS ecsrsserenrnrersuseneaenemssnuosvermeraanaeenss 2 Checking the Packaged Components ssseeseeeeeee 4 PO eeen E E can tontee cae edn 4 Handling Precautions 5 e a ra e S AN This product is to inspect discrimirate measure sensing objects Never use this product for prevention of accidents which damage a WARNING human life or properties or for sa
83. eh N gt ON Timing input OFF Reset input OFF i Sampli Sampling E Sampling period 5 Internal sampling period 1 Sampling period 2 Sampling period 3 Start of holding mode In the external trigger mode the trigger delay and sampling time settings are ignored 39 2 r i ne i io N Wilnternal Trigger Mode In the internal trigger mode sampling begins after the trigger delay td since the trigger is generated and the sampling period is finished after the sam pling time ts The displayed output analog voltage output and upper lower limit judgment are updated at the end of the sampling period If the sampled period ts is set at 0 the sampling period is finished with the internal trigger level In the internal trigger mode the strobe output is turned on in the internal sampling period Example of bottom hold If sampling time ts gt 0 Dona a Uren nn nnnnn Trigger Trigger level 75er ee sect e cs ete cen nef cece cppperteee aden ee cadence nee far o hysteresis vy Trigger point Trigger Trigger ee y point point Displayed value ee Output of result of Output of result of sampling period 2 sampling period 1 Measurement 0 Displayed oe Output value Trigger delay Sampling time _ td ts eo ee ts ON i athe Sampling Sampling samp NYFF period 1 period 2 Strobe ON output OFF Start of holding mode With sample hold S
84. er The default address is o To use linking functions with the optional controller Controller address communication unit an address must be entered for each controller Using the controller communication unit data can be loaded from or written to linked controllers Character string indicating the data of various Instruction character commands An instruction character string may be string a 1 digit code or a setting value consisting of multiple digits Block check code of communication data Carriage return code Command separator Each command is terminated by a Oxd carriage return code WResponse Format Response to loading command The transmission and response format for a value is always 9 4f With some types of transmission command it takes a long time before the response is issued Max approx 5 sec Signed value Upper lower limit value scaling Pf ELELSTRIMID n leiala lalalala er BoC Header Command Controller Response data address Example For 0 8 enter 000 8000 at 8 amp amp amp amp amp R amp Value without a sign Time sensing distance PfELELSIRISIK M amp 8 amp 8 L818 8 L amp I er Header Command Controller Response data address Example For 1 0 enter 0001 0000 at amp amp amp amp 883K BCC Response to writing command PM EVEL S WIHIDIn Q F BCC a Header Command Controller address a The inst
85. erse ON E E WIS V n erR F io se D aei D 119 Command for adjustment it Command aie ma character auie Setting em A Writing n string m example Load the current scaling data of displayed measurement The detected distance and the corresponding displayed value are sent back lt Loading the setting of each scaling point gt E E R S D n m CR m Oor1 The response to the above command is E E IR S D njm O 1st point of amp l amp l amp l amp l amp l amp la aO l amp a a 18 a a a two point Detected distance value Analog voltage output value scaling CR m Oor1 O1 Space 1 2nd point of lt Loading the setting of two scaling points 2 points batch gt two point The response to E E R S D n 2 Cr 5 scaling is E E R S D n 2 Settingof grarayal Jalala Oee 818 818 ne Detected distance value of 1st point Analog voltage output value of 1st point 3 Sealing D amp amp amp amp amp amp amp amp O amp amp amp amp amp amp amp selection Detected distance value of 2nd point Analog voltage output value of 2nd point data CR O Space 4 Output The response to E E R S D n 3 Cr inverse is E E R S D
86. ference position The analog voltage output is OV too Be careful that if the display scale or analog voltage scale has been changed an offset corresponding to the scale setting is output POINT Referenc Press the gt key in the detection state to check the detected value on the upper line and measured value on the lower line For details refer to HiDetection Mode on page 27 60 4 Select the height detection mode lt Detection state gt lt BDC detection mode gt lt Rotation eccentricity mode gt lt Height detection mode gt End of entry 5 Set the tolerance judgment value Enter the upper and lower limit values for GO judgment in respect to the reference position zero point Upper limit value H thr Enter the positive tolerance e Lower limit value L thr Enter the negative tolerance 6 Press the key to return to the detection state ig displayed until the first measurement result is obtained References For details of the upper lower limit value entry method refer to section 3 2 Upper and Lower Limit Value Settings on page 48 e The upper and lower limit values having been entered before the height detection mode is selected change during mode selection so that the limit values must be entered again e There is another method for setting the upper and lower limits in respect to actual upper and lower limit samples Upper and lower limit value entry through teaching
87. fety maintenance Connection e The GP X series is configured to satisfy the specification with the combination of the sensor head and the controller Use the sensor head and controller in combination without fail with other combinations not only may the specifications may not be satisfied but also failure may result Turn the controller off before mounting or removing the sensor head and controller e Note that the cables will be damaged if they are pulled Power Supply e Wait 15 minutes or 20 minutes with GP X3S and GP X5S after the power is turned on before operation is started There may be a variation in the measurements immediately after power on because the power circuit is not stable e There is a muting time of about two seconds after the power is turned on Take care that wrong wiring may damage the sensor e Verify that the supply voltage variation is within the rating e If power is supplied from a commercial switching regulator ensure that the frame ground F G terminal of the power supply is connected to an actual ground e Make sure to use an isolation transformer for the DC power supply If an auto transformer single winding transformer is used this product or the power supply may get damaged e In case a surge is generated in the used power supply connect a surge absorber to the supply and absorb the surge Wiring e Do not run the wires together with high voltage lines or power lines or put them in the
88. h the point after the trigger delay and sampling time is held 40 If sampling time ts 0 Trigger point Trigger point Trigger point EES hao E EE Ged EEEE cede r E Vet higge Trigger level fz77 Q ccc EN lt YN A hysteresis O ase D Displayed value aa g A ass a PAE l Output of result of Output of result of l sampling period 2 sampling period 1 Measurement 0 Displayed a oi Output value Trigger delay td td 7 Ta Internal sampling Sammy Sampling period 1 period 2 Strobe ON output OFF Start of holding mode With sample hold S h and sampling time 0 the point exceeds the trigger level by the trigger hysteresis be sure to enter a sampling time other than 0 WiCyclic Trigger Mode In the cyclic trigger mode the trigger is generated periodically and held in the trigger interval The trigger is generated for each period The interval from the trigger point to the next trigger point is the sampling pe riod 2 F iy ne i s N The analog output or judgment output is updated after the sampling period The TIMING indicator green lights up with a trigger In the cyclic trigger mode no strobe output is issued The trigger delay time and sampling time settings are ignored Enter a period other than 0 for the cyclic trigger Example of bottom hold Displayed value Output of result of Pee os Sampling period 1 0 Trigger period Trigger period Internal
89. he After reset input is first input is obtained displayed until the first The voltage output is input is obtained held at OV E voltage output is p2 held at OV Output of result P2 B2 P1 of sampling period 204 P5 Displayed value Measured i value Output of result Output of result Measurement 0 P1 B1 of sampling P4 B4 of sampling Displayed eal period 1 period 4 Output value ON Timing input External trigger OFF ON Sampling begins again with Reset input the reset input OFF Start of holding mode 35 F o pe eh N mSample Hold The value detected at the time trigger input is held For the trigger input the external trigger of timing input internal trigger with designation of the trigger level or cyclic trigger with designation of a period can be used Holding measurement begins with the power on or immediately after reset input is turned on The analog voltage output is held at OV after the start of holding measure ment until the first measurement is finished After the end of the first measurement until the second measurement is fin ished the result of the first measurement is held and output After the end of the second measurement the result of the second measure ment is held and output This cycle is repeated The output judgment is made as to the hold value 2 F iy ne r i s N Example of sample hold example
90. he LO or HI judgment a value is displayed in orange on the upper line Detected value displayed when the upper limit setting is 1 0000 and the lower limit setting is 0 5000 In the case of within range GO In the case of beyond range LO or HI GP X series C GP X series C 25 Fire tn ml DO LI LO GO HI indicator W a a LA LA Li LI eeo D ome cas D mone JA ENTER move 7 A ENTER MODE indicator The range of the detected value can be checked on the LO GO HI indicator HI indicator orange Lights up with measurements larger than the upper limit setting GO indicator green Lights up with measurements between the upper and lower limit values LO indicator orange Lights up with measurements smaller than the low er limit value In the case of holding measurement and calculation measurement the measured value is displayed Press the or A key in the detection state to check the following item set tings but the settings cannot be changed At this time the MODE indicator at the key is not lit Press the gt key in the detection state to display the current detected value on the upper line and the measured value on the lower line Press the key to return to the original state Detection state i l Detected aT Heth PP ae A CULL Measured ao
91. he key to set the value 7 Press the key The MODE indicator orange is not lit to indicate that the controller has returned to the detection mode There is another method to replace the upper or lower limit setting with the current de tection distance When the least significant digit blinks press D All digits blink to indicate positive negative conversion 31 2 3 Measurement Function 2 3 1 Holding Measurement Function The holding measurement function includes the following variations Normal The measurement result is displayed and output The maximum value at the designated interval is measured Bottom hold The minimum value at the designated aati interval is measured Peak hold The difference between the maximum and Peak to peak hold minimum values at the designated interval is measured Sample hold The minimum value at the designated interval is measured A hold A simple mean of the measurement verage no interval is measured Referenc For the setting procedure refer to section 3 4 2 Manual Mode on page 54 gNormal no hold rim n nonE The measured value is always displayed with analog voltage output and judgment output The displayed value judgment output and analog voltage output are held with the timing input Measurement is always output Displayed value Time 32 mPeak Hold k The maximum detection value in the interval designated with trigger inpu
92. he response to E E L T n amp amp amp CR is E E T CR Enter the current detected value as a lower limit setting The response to E E W L Cin is E E WIL C CR Load the current upper and lower limit and judgment hysteresis settings as a batch The response to E E R W T n 0 CrR EJE R W T n O0 amp amp amp amp amp O amp amp amp amp amp Upper limit Lower limit amp amp amp amp amp amp CR Judgment hysteresis O Space judgment hysteresis settings as a batch The response to A E E WIWIT n 0 amp amp amp amp amp amp amp Upper limit O 8 amp 8 amp amp amp amp amp amp O8 amp amp amp amp amp amp amp Lower limit Judgment hysteresis CR O Space Load the current averaging frequency setting The response to E E R A V n 0 crR is EJE IRIA v n m CR
93. her units xThe procedure 6 and 7 explain the controller communication unit GP XCOM For the BCD output unit GP XBCD connect the exclusive cable with connector on one end GP XBCC3 21 1 8 Flow of Configuration Until Operation Is Started 1 8 1 Basic Usage Turn the power on Select the material of the Refer to section 4 1 Selection of the Object to object to be detected Be Detected on page 70 Adiust li it Refer to section 4 2 Three Point Calibration penne Linearity adjustment on page 71 Determine the reference point for detection Select the measuring mode Refer to section 3 4 Setting According to and enter conditions Application Application mode on page 52 Adjust the display scale Refer to section 4 4 Display Scale on page 76 Adjust the analog voltage Refer to section 4 5 Analog Voltage Output output scale Scale on page 81 2 P i ne a o z Sa Refer to Zero Setting on page 28 Enter the upper and lower Refer to section 3 2 Upper and Lower Limit limit values Value Settings on page 48 Set the judgment output Refer to section 4 3 Judgment Output Setting on page 73 1 8 2 Application Usage Use the mutual interference Refer to section 4 7 Interference prevention function Prevention Setting on page 90 Use the memory switching Refer to section 4 8 Memory Switching Method function for the settings Setting on page 93 Use the RS 232C com
94. input sampled data is deleted For the usage of each trigger input refer to section 2 3 2 Trigger Input on page 38 With the internal trigger setting the mean is calculated and output with each trigger while deleting the sum of internal sampling data After the end of the first measurement until the second measurement is fin ished the result of the first measurement is held and output After the end of the second measurement the result of the second measure ment is held and output This cycle is repeated The output judgment is made as to the hold value Example of average hold example with external trigger After reset input is is displayed until the displayed until the first first input is obtained input is obtained fe voltage output is Simple mean of ik voltage output is held at OV i i held at OV a 0 sampling penige Interval mean of sampling period 5 Measurement l l Displayed value Displayed value l AN Output value S S Ne Output of simple mean Out i ee put of simple mean Measured value of sampling period 1 of sampling period 4 0 ON Timing input External trigger OFF Sampling begins with reset Reset input input OFF l Start of holding mode 37 2 3 2 Trigger Input When various holding measurement functions are used the external trigger given at the external terminal timing input and internal trigger can be used to take measurements at variou
95. ion 1 distance distance restore to the original state Note x 7 After zero setting lt Zero setting with display scale offset at detection distance Omm gt Displayed value Displayed value Displayed value Z A 2 0 F57 Changed arbitraily 2 0 F Press and hold d I according to scale eo Keyat omm 1 Refer to section a Detection 4 4 Display Scale r Detection Press and hold Detection distance on page 76 and distance key again distance to restore the original setting Note N Analog Voltage Output Scale on page 81 N 1 0Q f Due to scaling the set detection distance Omm becomes the 3 0 datum for zero a ae a re setting Example after display scaling After zero setting Note In the case of zero setting at the external terminal zero setting is not canceled but performed again Similar change occurs in the case of analog voltage output scale 29 WiSetting Mode When the key is pressed the MODE indicator orange lights up to start the setting mode At this time the controller continues sampling measurement and judgment Press the VJ or A key to change the setting of major items Memory number Section 3 1 Memory Selection selection Upper limit setting ee ee Lower Limit Lower limit setting Section 3 2 Upper and Lower Limit Value Settings Averaging Section 3 3 Averaging Frequency frequency
96. ion on the controller to assign an address to the controller The default address is 0 Address assignment is necessary to configure a network For details refer to section 5 3 2 Connection of Controller Communication Unit and Address Setting on page 104 X2 To set three point calibration data after using a data writing command for each point send an enactment command without fail X3 The previous mean validity setting is only valid if the press BDC detection mode is selected as an application mode If another variation of the application mode is selected an error is displayed X4 The interference prevention function becomes valid when interference I O cables are connected at the external input terminals between controllers X5 If the detection range is exceeded even though the setting is valid as a command instruction character string error 20 is sent back X6 Memory switching cannot be performed unless panel is selected for the memory switching method If external input is selected error 20 is sent back X7 The system reset command is to restart the controller program The sensor goes into X the same state as restarting up state 8 After initialization of settings the sensor displays the detection state since it is automatically reset The sensor having the 1 10 or later version software does not require reset of the power supply Initialization using an RS 232C command does not initialize the communication condition
97. is E E R O D n m CR 0 Hold Output off delay 1 Oms 2 100ms 3 200ms 4 400ms 5 800ms 6 1 000ms Enter the off delay time for judgment output 1 Oms 2 100ms The response to 3 200ms 4 400ms_ E E W O D n 5 800ms 6 1 000ms jg E E W O D n Load the hysteresis in respect to the upper lower limit thresholds of judgment output The response to E E RIH Y n O CR is E E R H Y n amp amp amp l amp l 124 Input output trigger Command Controller linstruction character Setti Item address oy tlin eung tem E Writing n 1 String m Outline example Load the interference prevention function validity setting The response to JE E R K Bj n 0 is E E R K B n m lt Response value m gt Interference prevention function 0 OFF X4 1 Slave x4 2 Master Enter the interference prevention function validity setting The response to E E W K B n is WIK Display setting Outline R Load the data about the items displayed in the detection state The response to E E R D P n m CR is E E R D P n p qa cr p q 0 Default p q 1 mm or
98. ld mode on the controller of Peak hold the designated address Bottom hold The response to Peak to peak E E W H M n m hold is Sample hold jo Average hold BLE IE SWIHIM 114 Basic control command Command Controller instruction character Settin Item address i Outline g Loading Writing n x1 String m example Load the entered application mode data The response to E E RIA P n O cr is E E R A P n m or lt Response value m gt m 0 Manual mode m 1 BDC mode m 2 Eccentricity measurement mode m 3 Height mode m 4 Initialization of application mode Application mode Refer to page 132 for details Manual mode BDC mode Eccentricity measurement E E WIA Pin CR mode i Height mode TEIEIS Wale Initialization of Load the previous mean validity setting The response to Select the detail application mode The response to application mode E E R P A n 0 CR E E R P A n m CR lt Response value m gt Previous mean m 0 No previous mean X3 m 1 Previous mean Enter whether the previous mean is m 0 1 valid or invalid 0 No previous The response to mean SIE 1 Previous mean 9 aydeyo is E
99. m Tightening torque 0 2N m or less Recommended tool Small regular screwdriver width of 2 5mm or less thickness 0 5mm or less 18 1 7 Connection 1 7 1 Connecting the Sensor Head and Controller While holding the ring around the connector of the sensor head insert the connector into the sensor head connector of the controller until it snaps 2 r ied ne a 4 gt of Controller Sensor head cable length selection switch Sensor head connection connector Upper side Standard 3m extension 7m Lower side Standard 8m Factory shipment setting Ring around connector WX To disconnect hold the ring around the connector and pull straight toward you POINT e Turn the power off before connecting the sensor head to the controller Check before turning the power on e The circumferential ring of the cable connector is connected to OV When using an extension cable take measures to isolate the connector so it does not make contact with any surrounding conductors metal amp e Check that the setting of the sensor head cable length selection switch is consistent with the cable length before turning the power on The controller will not correctly recognize the cable length with a wrong setting e When using an extended cable GP XCCJ7 cable length 7m to extend the sensor head cable length slide the sensor head cable length selection switch up After operating th
100. m three point calibration without fail Referencd y For three point calibration refer to section 4 2 Three Point Calibration Linearity adjustment on page 71 Setting example Change the object to iron lt Setting 1 mode gt Su SUS Stainless steel SUS 304 F FE Iron SPCC AL AL Aluminum A5052 For other materials contact us Sensing range The sensing range is specified for the standard sensing object Stainless steel iron With a metal other than the metals specified in the specifications multiply with the correction coefficient shown in the table below Check the effect with the actual machine Correction coefficient table Sensorhead P X3S GP X5S GP X8S GP X10M GP X12ML GP X22KL Stainless steel SUSGO4 on fo S O 70 4 2 Three Point Calibration Linearity adjustment For the GP X series linearity adjustment in respect to the distance is made before shipment from the factory with a set of a sensor head and controller If adjustment is made for the material to be detected and operating environ ment linearity with increased accuracy is obtained Setting example In the case of GP XC5S lt Setting 1 mode gt Save common calibration data to four memories y Jaydeyo Make the object come in contact with the sensor head Object sensor head Press the key at the center i position half the scale of the L_ detection range Half the scale
101. method varies between the master and slave How to cancel master controller after calculation lt Option gt Sikar lt Calculation setting gt lt Calculation setting gt Setting for thickness measurement L A B e Calculation is made in the following way L A B N e First invert controller A A using one point scaling and add offset L to enter L A to controller A POINT e Subtract controller B from the above controller L A B to measure the thickness 107 G 1 deyo 5 4 Sensor Head Replacement Setting 5 4 1 Interchangeability of Sensor Head In case the sensor head is broken the sensor head replacement is possible with same model in the case enter a characteristics code ID code into the controller Using the ID type linearity correction function having been developed for the current application high accuracy identical to that of the factory shipment setting can be maintained The characteristics code is written on the tag attached to the sensor head cable After entering the ID code be sure to perform three point calibration e For replacement of a broken sensor head those provided with a amp characteristics code tag are provided The sensor head purchased in the set with the controller does not have a characteristics code do not use it in combination with a different controller Referencoyy For three point calibration refer to section 4 2 Thre
102. munication function to Refer to section 5 1 RS 232C Communication configure and perform data Setting on page 98 communication 1 8 3 Usage with Optional Unit Refer to section 5 2 Settings Related to BCD Output Unit Optional on page 100 Calculate measurements Refer to section 5 3 Settings Related to between two controllers Controller Communication Unit Optional on page 103 22 Chapter 2 r o pe 2 D ae N Basic Knowledge About Functions 2 1 Displaying Operation tuciserese lt zssisetsa aaeeea eneee 24 221 20 Operation Panel sive ncsectntenusasteatuaneauutaca 24 2 1 2 List of Characters Displayed at Controller 25 2 2 Operation System ics siscnecsdcrdercdartaccnncenacoanetenaanarceancnesannn 26 2 2 1 Overview of Operation System 0 eee 26 2 2 2 How to Enter a Value apsicvicstecyesivinaciaceanssereiinseiss 31 2 3 Measurement Function 2ic 8 was iccsccreeinwcsaeudecsieetatarss 32 2 3 1 Holding Measurement Function 0 068 32 2 3 2 Trigger Input acextuietctcareeceea nea 38 2 4 List of Factory Shipment Settings 0 ce 43 23 2 1 Displaying Operation 2 1 1 Operation Panel 2 r i ne i io gt N MEYE The measurement calculated value setting data and so on Digital display are displayed The measurement is displayed in green on green orange the lower line with the GO judgment while it is displayed in
103. n of Controller Communication unit and Address Setting perform auto matic assignment of the controller address 2 Atthe address 1 controller set the following equation Value of controller 1 Value of controller 2 If an address used for calculation of another lt Calculation setting gt combination is designated error Err is displayed If no controller is found at the address l i a designated for calculation error Err Rd is Press lV to select com displayed i Check the connection of controller communi Z z cation units GP XCOM and specified address 2 o i Press to reset after the error and to return naar to normal operation Controller address 1 TETE i sub subtraction Subtraction Press three times to return to the detection state Press gt to move to controller The value displayed at this time is the calculated address selection value To make a judgment enter the upper and lower limits for the calculated value To check the detected value of the controller press Press VJto select 2 the B key The value is displayed on the upper line At address 2 controller 2St 4 is displayed for equation display to indicate that data is sent to address 1 Controller address 2 106 lt How to cancel calculation setting gt After performing calculation between two controllers reset either the master controller or slave controller to cancel calculation The resetting
104. n state is indicated Initialization takes about four seconds e Power must be turned off then on again with 1 06 or earlier software lt L versions e To initialize the calibration and sensor head replacement modes restore POINT the default sensor head replacement mode For details refer to section 5 4 Sensor Head Replacement Setting on page 108 94 4 10 Panel Key Lock Use this function to prohibit key operation on the front panel Erroneous operations of operation keys can be avoided If any key is pressed after the panel key is locked KEY LOCK is displayed for about one second The panel key can only be locked in the detection state Setting example Lock the panel key lt Detection state gt Panel key lock OFF If zero setting from the external terminal is used frequently use the panel key lock function to protect the memory The maximum memory writing frequency is 100 000 cycles 95 MEMO Chapter 4 96 Chapter 5 Special Setting SET OP 5 1 RS 232C Communication Setting 0 eee 98 5 1 1 Communication Specification ltem 000 98 5 1 2 Setting Procedure oss tisseevenariaisseeitaselowearsesshasads 98 5 1 3 Connector Pin Layout on Controller Side 99 F o so 2 gi oO 5 2 Settings Related to BCD Output Unit Optional 100 5 2 1 Overview of Specifications of BCD Output UDe R 100 5 2 2 BCD Output Selection
105. nimum input time of each terminal input Zero setting input Memory switching input 1 2 Resetting input Timing input external trigger Jd JL on 2 0ms Output response time In the case without holding measurement Averaging frequency 0 075 0 100 2 o p 4 ow 8 020 16 040 32 oso e 16850 18 320 56 6450 52 128850 1 2 4 16 32 64 128 256 512 140 gt ON ims Output response in respect to timing ON 200 us input of holding measurement With a controller operating independently Timing input OFF Max 100 us Analog output Judgment output When the BCD unit GP XBCD is used the sampling period becomes double 50us Therefore the response time becomes also double Maximum speed 0 15ms 8 1 3 BCD Output Unit and Controller Communication Unit GP XBCD GP XCOM Model of combination set GP XC O GP XCO P t ti a oR 2omA or less Output N channel MOS FET open drain 5 digit BCD Maximum sink current 50mA au indinati Applied voltage 30V DC polarity indication GND VALID between output and Residual voltage 1V at 50mA sink current BCD output unit Controller communication unit Model No Non voltage contact or Hold input NPN open collector transistor input Low 0 to 1V Valid High open Invalid Terminator ON OFF switch Accessory Mounting bracket Stainless steel SUS304 1 pc M
106. ns Internal trigger level e Trigger hysteresis Comparison with previous mean valid invalid F o pe o toe 3 oo lt BDC detection mode gt Press D to move to another digit Press VJ or 4 to change the number Because the distance is based on about half of the detection range the setting range is within 1 000 MEY with a 2mm detection range sensor If a value exceeding this range is entered an error is caused Trigger hysteresis setting Press YJ or A to switch between ON and OFF End of entry Press twice State waiting for a trigger 5 Enter the tolerance judgment value Enter the upper and lower limit values for GO judgment in respect to the reference position zero Enter the lower limit value first Upper limit value H thr Enter the floating judgment value Positive tolerance e Lower limit value L thr Enter the empty stamping judgment value Negative tolerance 56 6 Press the key to return to the detection state is displayed until the first measurement result is displayed References For details of the upper lower limit value entry method refer to section 3 2 Upper and Lower Limit Value Settings on page 48 For the detection action refer to the example of the internal trigger mode with zero sampling time described on page 41 Enter settings so that the internal trigger level and the sum of the internal trigger level and trigger hysteresis b
107. nsumption 150mA or less Output voltage 5 to 5V Note 2 Output impedance 100 Q approx Response time 0 075ms Fastest Resolution Note 3 0 02 F S 64 times average processing 0 04 F S 64 times average processing Linearity Note 3 Within 0 3 F S Temperature Note 4 0 07 F S C or less characteristic lt NPN output type gt lt PNP output type gt NPN open collector transistor PNP open collector transistor Comparison output Maximum sink current 100mA Maximum source current 100mA Applied voltage 30V DC or less Applied voltage 30V DC or less Alarm output between output and OV between output and V Strobe output Residual voltage 1 6V or less Residual voltage 1 6V or less at 100mA sink current at 100mA source current 0 4V at 16mA sink current 0 4V at 16mA source current i ae Incorporated lt NPN output type gt lt PNP output type gt Photocoupler input Photocoupler input Input current 9mA or less Input current 9mA or less E li Operating voltage ON voltage 17V or more Operating voltage ON voltage 17V or more xternal input between 24V and input between OV and input OFF voltage 4V or less OFF voltage 4V or less between 24V and input between OV and input Input impedance 5k Q approx Input impedance 5k approx Analog voltage output Sampling frequency 40kHz 254s Zero set setting method Push button setting External input setting MODE Orange
108. o for address assignment of GP XCOM If Auto is not used addresses may not be recognized correctly 2 Preparation necessary after startup of GP XAiM before online operation is started 1 Enter the same RS 232C communication settings of the PC as those of the controller 2 For details refer to help of GP XAiM 2 Approximate time for loading buffered data To buffer data using GP XAiM the data acquisition interval varies according to the relationship between the data size to be acquired and the transmission speed of RS 232C When buffering refer to the relationship shown below as a measure The initial setting of the transmission speed of the controller is 19 200 bps To perform buffering change to a faster transmission speed Loading from controller connected with RS 232C cable Baud rate No of buffered data pieces bps 5 000 points 10 000 points 50 000 points 19 200 16 sec approx 1 min 20 sec approx 57 600 40 sec approx 115 2k 30 sec approx Note The intelligent monitor software GP XAiM witch can be used with GP XC22KL P has been released With 2 00 or later version software 132 Chapter 7 What to Do Upon an Error 7 1 Error Indication LIST esiceecce heen cael ey Sacawneg ieeddeievwsesiawsdcs 7 2 What to DO oasis aise ani he ehcelt ea face deetelsantee lich Sesaeeiiabes cda ss 136 2 F ied ne 9 N 133 7 1 Error Indication List Error indication Alarm ms f Rese
109. od and number of digits The response to O Distance display E E W U T CR Display unit 1 Analog voltage E E W UT plq selection output value is Display 2pq Display period E E W U T CR fade and number of p Display period q Number of digits 0 20 cycles sec displayed digits p 0 to 4 q 2 to 5 1 10 cycles sec q 2 2 digits 2 5cycles sec q 3 3 digits 3 2cycles sec q 4 4 digits 4 1 cycles sec q 5 5 digits Panel key lock 0 UNLOCK 1 LOCK Reset the panel display to the detection state Or refresh the detected state Detection state The response to display E E W H D n 0 er is E E W H D n cr Controller address Outline n X1 Reset the system The response to is shipment settings Initialization of settings S LIN TT X8 CR 126 System Option iene Command Sele eich character Outline Setting momi ail string m g example RS 2320 soting A a e Communication condition Software version Load the RS 232C communication specification setting The response to E E R S A n 0 Cr is E E R S A n x y Z
110. on of the reference position beyond the specified tolerance judgment is output After the BDC detection mode is selected the measuring conditions are set in the following way e The holding measurement mode is fixed at bottom hold The trigger condition is fixed at the internal falling edge trigger The trigger delay and sampling time are set at zero To use the external trigger select the manual mode and enter settings You can select whether a comparison with the previous mean is valid or invalid With a comparison with the previous mean slow variations in the reference bottom dead center caused by temperature changes and aging is ignored and abrupt changes empty stamping or floating caused by burrs is detected while the average bottom dead center up to the previous cycle is referred to zeroed The function is only valid when bottom hold and internal falling edge trigger are selected For details refer to section 3 6 Comparison with Previous Mean on page 66 Example of detection of bottom dead center F o pe 2 D toe 3 oo 1 Mount the sensor head on the lower die of the press and mount the detecting object on the upper die Prepare the sensor head mounting fitting and an object to be detected 2 Adjust the position of the sensor head and that of the object to be detected 1 Select the material according to the object to be detected Referencoy For selection of the material refer to section 4
111. onfiguration Until Operation Is Started 22 18 14 Basic Usage escenes eneen 22 1 8 2 Application USage ccc ec cceeeeeeeeeeeeeeeeeeeees 22 1 8 3 Usage with Optional Unit eee 22 1 1 Features of GP X Series The GP X series is a high speed high accuracy eddy current digital displacement sensor for measuring the distance to an object e Capable of detection of stainless steel SUS and iron e 40kHz high speed sampling e High resolution and linearity Availability of fine 3 8 sensor head e Sensor head interchangeability e Digital two line two color indication e Various measuring modes e Standard installation of RS 232C control capable of remote control from PLC or PC e Capable of high speed digital output with optional BCD output unit GP XBCD e Capable of linking up to eight units and calculation between arbitrary two units with optional controller communication unit GP KCOM Controller communication unit GP XCOM Link cable for controller communi cation unit SL F150 F250 F 1000 When GP XCOM is used controllers cannot communicate if their software versions are not compatible Check the software version while referring to Section 5 5 Software Version Display Menu on page 110 and use a Psi correct combination e Ver 1 06 or earlier version with Ver 1 06 r earlier version Possible e Ver 1 06 or earlier version with Ver 1 10 or later version Impossible e Ver 1 10 or
112. orange on the upper line with the HI or LO judgment HI indicator Lights up if the measurement is larger the upper Orange limit value GO indicator Lights up if the measurement is between the Green upper and lower limit values No EE LO indicator Lights up if the measurement is smaller than the Orange lower limit value TIMING indicator Lights up for 0 1 sec approx at the timing of Green an external or internal trigger MODE indicator Lights up in the setting mode while it is not lit Orange during measurement Starts the setting mode 7 MODE key Returns to the original state in the setting mode DOWN key Use these keys to select the setting value and UP key setting items O SHIFT key Moves among setting digits 1 ENTER key Determines the setting item and setting value Resets the controller forcibly to zero reference position 2 0 set key with the current detection position to shift the display and analog voltage output hk a 2 1 2 List of Characters Displayed at Controller 2 2 Operation System 2 2 1 Overview of Operation System MDisplay confirmation E Setting mode Detection state Memory number selection o4Soo wooe 9 Refer to page 46 JA WA Upper limit value 0 5009 Refer to page 48 Lower limit value Refer to page 48 2 r i ne i D N Averaging Ry frequency Averaging frequency Refer to page 51 Application mode 99 Application mode
113. ount Time F io so D toe 3 oo Select Default for the application mode to restore the factory shipment settings of the application mode Note that the negative span inclination setting of scaling changes to the positive span inclination after restoration of default settings Only the sign reverses the scale itself does not change Check the trigger level and trigger hysteresis because calculation errors may be caused Before changing the application mode select default 53 3 4 2 Manual Mode Arist manual There are the following variations in the detection function that are available in the manual mode N The measurement result is displayed and Suna output whenever necessary The maximum value in the designated 2 F iy ne gt i oO The momentary value at the designated Avera held A simple mean of the measurement interval g is measured Referenced For each holding measurement refer to section 2 3 1 Holding Measure The minimum value in the designated Bottom hold interval is measured The difference between the maximum and Peak to peak hold minimum values in the designated interval is measured ment Function on page 32 Setting example Select peak hold lt Peak hold gt 54 3 4 3 Press BDC Detection Mode F 55 press The deviation amount in the reference position ae dead center BDC of a press or the like is measured and upon deviati
114. ounting bracket Stainless steel SUS304 1 pc Notes 1 The cable for connecting GP XBCD and controller is the optional cable with connector on one end for BCD output unit GP XBCC3 cable length 3m 2 The cable for connecting GP XCOM with GP XCOM is the optional link cable for the controller communication unit SL F When a different power supply is used for 2 or more controllers be sure amp to connect either 0 V lines or V lines of the controllers each other Other wise the transmission by GP XCOM and the interference prevention func tion are not properly operated 141 F o pe D tae co 8 2 Dimensions Unit mm 8 2 1 Sensor Head 2 F o ke 2 gi HGP X3S 63 8mm type PE y E 2 5 high frequency coaxial cable 3m Coaxial connector for connection of controller i i 06 4 25 7 f MIGP X5S 05 4mm type 142 2 5 high frequency coaxial cable 3m Coaxial connector for connection of controller 25 7 17 6 2 E SC 6 4 HIGP X8S 68mm type 2 5 high frequency coaxial cable 3m Coaxial connector for connection of controller 6 2 6 2 a
115. p to the previous cycle is made the reference value zero to offset slow changes caused by aging or temperature This function can only be made effective for the press BDC detection mode Zero setting is necessary at the reference position Even in the manual mode comparison with the previous mean can be used if the following conditions are satisfied e Internal trigger Trigger direction down e Bottom hold To change the internal trigger delay time or sampling time select the BDC detection mode then select the manual mode Note that settings cannot be changed if the above conditions are not satisfied F o pe o bagi oo Detected value held value Positive o Upper limit 4 tolerance value Positive a Te Previous mean t tolerance Negative A tolerance Negative tolerance Lower limit 4 value 0 66 Setting example Comparison with previous mean 2 F ie ne O im MEMO Chapter 3 68 Chapter 4 Detail Setting SET 1 4 1 Selection of Object to Be Detected cceeees 70 Q 4 2 Three Point Calibration Linearity adjustment 71 3 4 3 Judgment Output Setting 22 cccccccceccceeeceeeeeeeteeees 73 gt 4 3 1 Judgment Hysteresis cccceeeseeeeeeeeeeeeeeeees 73 4 3 2 Output Style Sel COM ssc ccssiseisisiecessiewvewserssediones 73 4 3 3 Output Delay c cinosesieinstiacciatioraicereniacucsesdudini
116. pecial Setting SET OP cece eee eeeteeeeeeeeeeeeeeees 97 5 1 RS 232C Communication Setting csiiciciensaenisatiaiveniccasseavenak 98 5 1 1 Communication Specification ItOM sssssssssessseseeeeeeeeeeeeeeees 98 5 1 2 Setting Procedure ac cak oe cavenadas devactanenttecetenannedananeraanadssebaseaaededanecendeae 98 5 1 3 Connector Pin Layout on Controller Side 99 5 2 Settings Related to BCD Output Unit Optional 0 100 5 2 1 Overview of Specifications of BCD Output Unit ee 100 5 2 2 BCD Output Selection Procedure a cvcccccecccrcertiectssastacesenscsstavienevteas 102 5 3 Settings Related to Controller Communication Unit Optional esencon E EEE 103 5 3 1 Overview of Controller Communication Unit eeeeeee 103 5 3 2 Connection of Controller Communication Unit and Address Setting sean eae en ttre ap i a aa 104 5 3 3 Calculation Between Controllers 2 00 cccecececeeeeeeeeeceectteeeeeeeeeees 106 5 4 Sensor Head Replacement Setting 0 sesseeeeeeeeeeeees 108 5 4 1 Interchangeability of Sensor Head eeeeeeeeeeeceeeeeeneeeeeeeeees 108 5 4 2 Characteristics Code Entry Procedure ccccceceeeeeeeeees 108 5 5 Software Version Display Menu 0 000sseeeseeeeeeeeeeeeeeeees 110 Chapter 6 RS 232C Communication Function cccccceeeees 111 6 1 How to Use RS 232C Commands cecceeeeeeeeeeeeeeeete
117. played on the master controller as shown in the figure below lt Network of 2 controllers gt lt Network of 3 controllers gt lt Network of 8 controllers gt Rd Rd R4355 U U Mae tu GAs the last step press the key on the master controller to finish ad dress assignment Press the key on the master controller The mode indicator is not lit to indicate that the controller is in the detection state The other controllers move to the detection state automatically 105 J o pe 2 ie o1 5 3 3 Calculation Between Controllers Among controllers connected with controller communication unit designate two units to perform calculation and make judgment according to the result of calculation Suppose that detected values at two units are A and B The following cal culations can be made Addition A B Subtraction A B Detected values A and B are scaled on the corresponding controller To offset calculation offset the displayed value in advance using scaling e Another controller cannot start calculation through data communication to Pcie the two calculating controllers e The analog voltage output is the value detected at each controller The result of calculation is not output Setting example Setting procedure for subtracting controller address 2 from controller address 1 to make judgment at address 1 controller 1 According to step 4 in the description of section 5 3 2 Connectio
118. put of result of e Output of result of Measured value 5 sampling period 1 sampling period 4 ON Timing input External trigger OFF ON With the reset input sampling Reset input Degine ag OFF Internal sampling ate Sampling period 2 ie shay Sampling period 5 Sampling period 6 Start of holding mode 34 miPeak to Peak Hold Ff The difference between the maximum and minimum detection values in the interval designated with trigger inputs is held For the trigger input the external trigger of timing input internal trigger with designation of the trigger level or cyclic trigger with designation of a period can be used For the internal trigger the trigger edge direction trigger edge time and sampling time can be designated Holding measurement begins with the power on or immediately after reset input is turned on The analog voltage output is held at OV after the start of holding measure ment until the first measurement is finished For the usage of each trigger input refer to section 2 3 2 Trigger Input on page 38 After the end of the first measurement until the second measurement is fin ished the result of the first measurement is held and output After the end of the second measurement the result of the second measure ment is held and output This cycle is repeated The output judgment is made as to the hold value Example of peak to peak hold example with external trigger ig displayed until t
119. r direction trigger level trigger hysteresis trigger delay and sampling entered for the internal trigger are ignored 3 5 2 Internal Trigger Setting When the internal trigger is entered the operation menu proceeds accord ing to the following procedure Select the internal trigger Select the trigger direction Set the trigger level Set the trigger hysteresis Set the trigger delay Set the sampling time F o ke D bagi w Setting example Enter the following settings Trigger direction UP Trigger level 1 5000mm Trigger hysteresis 0 05mm Trigger delay 0 01 sec Sampling time 0 025 sec lt Internal trigger gt Ty me ty ziak lt Trigger direction gt Press or to switch between up and down lt Trigger level gt PANTI A k ely SS2uoo SDD Mea Press to move to another digit Press or to change the number lt Trigger hysteresis gt z a p48 JA Press to move to another digit Press V or to change the number lt Trigger delay gt Jt 25 gger delay gt dt 4 anmam EAEETETET EN Press to move to another digit Press V or amp to change the number 2uB250 wite ou Press B to move to another digit Press or to change the number lt Sampling time gt 64 Enter the settings so that the trigger level and the sum of the trigger level and trigger hysteresis become within 110 and 120 of the maxim
120. r the display unit as described in section 4 6 2 Selecting the Display Unit on page 87 the displayed scale agrees with the voltage output scale Use the voltage output scale 4 4 1 One Point Scaling Only the offset changes while the span of the displayed value remains un changed One point scaling includes a SLOPE function with which inclina tion changes around the point designated with scaling In the case of reverse inclination Change 0 5mm 0 5000 to 0 5mm 1 5000 Reverse inclination with SLOPE Display Display 3 0000 Poses sss ss25 3 0000 Display 2 0000 A 2 0000 f a 1 5000 f i 1 5000 7 C9 1 0000 1 0000 0 5000 i a ET e Osim TT j 0 5mm 2mm S l Lo If the height detection mode is selected the inclination becomes negative POINT 76 Setting example lt Setting 1 mode gt lt Display scale gt Press VJ to select SLOPE Press B to move to another digit lt Value entry mode gt Press V or A to lt Value entry mode gt change the number hs tts Sahh Da oai a ia a ON Gad 8 Oad Pad Press and hold we lt Teaching mode gt Press D to move to another digit 993833 ENTER Press VJ or A to rn ror change the number 0 8 0 8 0 8 0 8 1 8 After teaching the value entry mode starts Enter the detected value on the upper line and the value to be displayed on the lower line lv
121. ruction character string is sent back with the calibration command WCG Special communication header necessary for Header RS 232C control The response header is common PelETETS The header is followed by various commands ID address of individual controller The default address is 0 To use linking functions with the optional controller Controller address communication unit an address must be entered for each controller Using the controller communication unit data can be loaded from or written to linked controllers Upon a command error lEIEL nele I r Response data the following response Error No H data is sent back 10 Command format error 20 Setting error 21 BCC error 22 Alarm output error Block check code of communication data The controller does not update the displayed data immediately after each setting command is sent Go to another menu screen and then return or use a detection state display command WDH to update However 1 System reset INT and 2 Initialising the setting WIT do not require WDH in order that the sensor goes back to a detection state display since they are automatically reset internally 113 6 2 Command Lists Basic control command Command Controller Instruction character Settin address Outline g Loading writing n 1 String m example The measured value is loaded from the controller of the designated address The response to EJE R
122. s Sampling tins Enter the sampling time Entry range of The response to WSK G8 8 BRR SIE IE W S Kin amp 8 amp 0 to 99 9999 x CR sec is E E Input output trigger commen Controler Instruction character Settin Item address Outline g OoOo m E Writing Im X 1 String m example Load the cyclic trigger time width The response to EJE R F T n m x x CR is YEE IRIF T in amp amp amp amp l CR Cyclic trigger time width Enter the cyclic trigger time width The response to Entry range of 8 amp 8 amp 8 amp 8 amp amp amp amp 00 0001 to 99 9999 sec is Output style setting 9 aydeyo Judgment OR hysteresis Enter the hysteresis in respect to the upper lower limit thresholds of judgment output The response to EJE WIH Y n amp amp amp amp lalalala CR is IE E W Load the off delay time of judgment output The response to E E R O D n 0 CR
123. s and the controller address X9 Data buffering With data buffering sample data collected in the GP X series at high speed temporarily accumulates in the controller in reference to trigger conditions and upon completion of accumulation the data is loaded via RS 232C communication About 120 000 points of data can be accumulated Equivalent to about 3 sec at a sampling frequency of 25 ws Use optional intelligent monitor software GP XAiM to enter data buffering settings and perform data collection easily For the usage of various commands and details of the intelligent monitor software GP XAiM contact us 128 Examples of Application of RS 232C Commands Example 1 Example 2 Example 3 Example 4 Example 5 Example 6 Load the current displayed value from controller address 0 Transmission EE RMDO0 CR Response EE RMD0 000 4500 CR The current displayed value is 0 4500 If holding mea surement is designated the hold value is sent back Load the judgment data from controller address 0 Transmission EE ROTO00 CR Response EE ROTO2 CR The current judgment is GO Load the holding measurement mode from controller address 1 Transmission EE RHM10 CR Response EE RHM12x CR The current holding mode is bottom hold Load the upper limit setting from controller address 0 Transmission EE RHT00 CR Response EE RHT0 000 8000 CR The current upper limit setting is 0 8000
124. s timings In addition trigger delay and sampling time can be entered and the sampling period can be adjusted WeExternal Trigger Input terminals used for the external trigger includes the timing input and reset input External trigger input terminal Description of action R Resets the holding value and judgment output in the eset input sampling period after timing input WiSetting Items Concerning Internal Trigger Setting items for the internal trigger include the following Setting item of internal trigger Description of action Trigger edge direction To specify the internal UP DOWN edge To specify the level at which the trigger is generated Trigger level in the internal trigger mode To specify the hysteresis in relation to the trigger Trigger hysteresis level of the internal trigger The delay retreats the sampling start time Trigger delay td designated by the internal trigger Sampling time ts Specify the measuring interval from the start of sampling in the internal trigger mode Reference Refer to section 3 5 Trigger Input Setting on page 63 for the trigger set ting method WiCyclic Trigger Specify the cycle for the cyclic trigger 38 WeExternal Trigger Mode Example of peak hold Output of result of Measurement sampling period 2 Displayed Output value Output of result of sampling period 4 J of result pee A of sampling Measured value period 1 Displayed value F o pe
125. siiiirstivuasamaasadiantouiwnsaoiececumemaueigenys 8 13 VPCONTOET saiake a E RR 8 1 3 2 BCD Output Unit Optional sseneeeeeeeeeseeenennrnnrrnnnrnnrnsssrrrssrrrrrrn 11 1 3 3 Controller Communication Unit Optional eee 12 14A US aE arse reren ste caadesSadanalanta E a e TEE EATE 13 1 5 VVO Circuit DIB ONAN S iictnsdncrncnnsantdansasaansasiareriasaduascutraamteniaienianiaake 14 1 5 1 NPN Output Type cnnan nonan 14 19 2 PNP Qutp t TYPE ares cet crest cated anea iae a a REE 15 1 6 Mounting Method ssssesssssennerrersrnserrrtrtrrrrrrrrrsrsnrrnrtrrrreren reenn 16 1 6 1 Mounting the Controller snnseeeneeeeseeeeoooeennnnnnnnnnrsenrseerrennrnn renn 16 1 6 2 Mounting the Sensor Head ssesseeeeeeseeoeeeennrennnrnreesrrerrrrneennnnn 17 1 6 3 Processing and Tightening the Lead Wire ccceeeeeeeeeeeees 18 1 7 CONNECCION seneye e A E EREA 19 1 7 1 Connecting the Sensor Head and Controller eeeeeeees 19 1 7 2 Mounting the Option Unit sisiiciasiusassstreceeascessreceamenessackorasan sasaneeiones 20 1 8 Flow of Configuration Until Operation Is Started 0 0 22 101 Basie re La ee ene ee ee eee ee ere 22 1 8 2 Application Usage sas ciarenraiasnnndsayciaaneaniedassiaxdiadesseianniacetes tangiatescasacne 22 1 8 3 Usage with Optional UNibisescscsicscesssssesessecnesscsccsuseneradesneversacsvassvesse 22 Chapter 2 Basic Knowledge About Functions cccccce
126. son wih prevousmean cen None T aF Material of object to be detected AEERL Stainless steel SUS304 SS Varies according to each model No GP XC3S P 0 0008mm Judgment hysteresis GP XC5S P 0 0010mm width GP XC8S P GP XC10M P 0 0020mm GP XC12ML P 0 0050mm GP XC22KL P 0 010mm Output style a rag Normallyopen _ _ nmal Output delay e dan OFF Display scale Sel Defaut EF Omm o ommo O faena Varies according to each model No GP XC3S P 0 8000mm GP XC5S P 1 0000mm GP XC8S P GP XC10M P 2 0000mm GP XC12ML P 5 0000mm GP XC22KL P 10 00mm Note In the case of GP XC22KL P the displayed value includes three decimal places Upper limit value Internal trigger level At max detection distance 43 2 i ne a D N Indication on Indication on Analog voltage output scale a ct Default EHE At max detection distance Display setting aSr J o o o O ltem displayed in upper line WPPEr Default ltem displayed in lower ine Laver Default Displaying unit tait mm o S A Power saving mode Display refresh period Eza Invali Por Fe Sh E GP XC22KL 4 Number of displayed digits Poth th Other than GP XC22KL 5 Interference prevention input ink P Invalid ooo Memory switching method A A s Panel PR RS 232C communication pedee I Transmission speed bFS 19 200 bps EEE Pp PRe tk O
127. t Transmission WEE RSV00xxCR o gt Response EE RSVO00 000 0000 000 0000 CR Data of second point Transmission EE RSV01 CR Response EE RSV01 002 0000 005 0000 CR Example of creation of BCC Header H25 P E E IRIMID 1 05 Clcal ie T H45 H23 Two BCC characters H52 Calculate exclusive OR of M H4D the received message D H44 nasci Last character 1 H31 BCC H H35 of text 0 H30 BCC L H43 H5C e Concerning BCC Block check codes BCC are added to each command Calculate exclusive OR of ASCII characters from the start to the end of the command string and the result is added in two text characters To omit BCC calculation specify xx in place of BCC codes 130 Application Mode Setting To designate the application mode using RS 232C commands set each mode followed by the necessary items 1 Bottom dead center detection mode Select the BDC detection mode Transmission EE WAP01 x CR Response EE WAP0x kCR Set the trigger level WTT Set the level at 0 8000 Transmission EE WTT0 000 8000 CR Response EE WTT0xkCR Set the trigger hysteresis WTH Set the hysteresis at 0 0020 Transmission EE WTHO0000 0020 CR Response EE WTH0 xxCR Comparison with previous mean WPA setting Validate comparison with previous mean Transmission EE WPA01 CR Response EE WPA0 kCR F i se D hae D 2 Rotation eccentricity detection mode DSelection of
128. t combination e Ver 1 06 or earlier version with Ver 1 06 r earlier version Possible e Ver 1 06 or earlier version with Ver 1 10 or later version Impossible e Ver 1 10 or later version with Ver 1 10 or later version Possible 5 3 2 Connection of Controller Communication Unit and Address Setting 1 Mount the controller communication unit GP XCOM to the controller For details refer to section 1 7 2 Mounting the Option Unit on page 20 Use the accessory fitting fix GP XCOM Be sure to turn the power off before starting mounting J o pe 2 ie oO 2 Connect GP XCOM using the link cable for the controller communication unit SL F150 F250 F 1000 3 Turn on the terminator switch of GP XCOM located at both ends of the network and turn off the terminator switch of the other GP XCOM Controller communication unit GP XCOM S Link cable for controller communi cation unit SL F150 F250 F1000 Terminator switch OFF Terminator switch ON 104 4 Turn the controller on and assign an address to each controller according to the following procedure Select one master beyond the connected controllers and perform automatic address assignment The address of the selected controller becomes 0 l lt Option gt Press the key twice to determine the address Similarly set the address at other controllers At this time the address determined at other controllers is dis
129. t of two The response to point scaling lELEl WiS v n 3 lalalala lalalala Y2 Teaching of Detected distance value of 1st point 2nd point of two l 1 amp l amp amp l amp 8 amp amp O amp amp ae lalalala Analog point scaling Analog voltage output value of 1st point Detected distance value of 2nd point voltage output 6 Teaching of one O amp amp amp amp amp amp amp cr point scaling Detected distance value of 2nd point O Space Inverse ON OFF Recovery of factory shipment lt Teaching the first point of two point scaling gt setting Send the analog voltage output setting lt Data format gt for the scaling distance of the object to X1 and X2 Detected distance be detected value The response to the above command is 8 amp 8 amp amp 8K amp EJE W S V n 4 amp amp amp lalalala eo CR Analog voltage output value of Tst point Analog voltage EJE WIS Vin cr output value 88 amp 8 amp 8S amp ge output inverse gt with a sign n 0 Inverse OFF The re n 1 Inverse ON w ESE WISI Vin Z m CR is EIEI WIS V n CR m 0 Inverse OFF m 1 Inv
130. ted address O Zero setting ON The response to Zero setting ZS i Zero Ek OFF EI WIz SIn m x Cr Example 7 is WIE IE WIZ S CR Command for adjustment i H a character Outline Setting A Writing oe example Load the current scaling data of the analog voltage output The detected distance and_ the corresponding analog voltage output are sent back Load the data concerning scaling lt Loading the setting of each scaling point gt E E RIS V n m CR m 0Oor1 The response to the above command is E RIS V nim First point of amp amp 18 amp amp 18 amp O 8 I amp I two point Detected distance value Analog voltage output value scaling CR m 0Oor1 O Space Second point Loading the setting of two scaling points 2 points batch gt of two point The response to E E R S V n 2 cR scaling is E E R S V n 2 Setting of two amp amp amp amp amp amp amp amp EO amp amp amp amp amp amp amp Example 8 scaling points Detected distance value of 1st point Analog voltage output value of 1st poi Scaling O amp amp amp amp amp amp amp amp ols amp amp amp amp amp amp amp selection data Output inverse ON OFF r o pe D i e2
131. ted memory number are duplicated to another memory Use this function to leave most of the settings unchanged with partial changes and use the memory switching function Major applications Keep the holding measurement conditions common and change only the upper and lower limit judgment values Change only the material of the object to be detected To use the memory copy function select Panel for the memory switching method setting in advance F o ke 2 o tog 3 w References Refer to section 4 8Memory Switching Method Setting on page 93 Setting example Duplicate the settings of memory number 0 to memory No 2 1 Enter 0 for the source memory number lt Detection state gt lt Memory number selection gt aar a r 5 T 0s a ae x 3 Enter 2 as the destination card aj cary kog dane ber ae Menon anos Press EvE to copy Press wo0 to return 4 The data of memory number 0 is duplicated into memory No 2 5 After copying memory number 2 becomes the current memory number 47 3 2 Upper and Lower Limit Value Settings Set the upper and lower limit values for the judgment of the measured value Judgment is made as to the comparison between the value after display scaling and the upper and lower limit settings Before entering the upper limit value determine the display scale If holding measurement is selected judgment is made as to the held value In the calculation mod
132. the same address is given to two or more controllers When GP XCOM is used to link controllers to calculate the calculation sampling period varies according to the number of connected units The sampling period is approx 800 us if eight units are connected The sampling period may vary according to the quality of the communication signals Take care of the following when using GP XCOM 1 Calculation between two units can be made only in the manual mode for normal measurement If holding measurement is selected calculation is disabled As well a trigger input setting disables calculation In summary check the following setting items e Set the application mode RPP f as the manual mode Anu AL e Set the holding measurement selection hot g as the normal measure ment nant Set Trigger selection tr 1G as the none naan 103 2 The sampling frequency of the calculation No of connected units Sampling frequency conducted between two units varies accord 200 us approx ing to the total number of units connected in a AOD US Approx 600 ws approx the network 800 MS approx 3 As an analog voltage output the voltage detected at one unit is output instead of a value calculated for the two units When GP XCOM is used controllers cannot communicate if their software versions are not compatible Check the software version while referring to Section 5 5 Software Version Display Menu on page 110 and use a correc
133. tion Mode Gh height This mode is convenient to detect the height of a metallic part such as a screw or rivet etc After the height detection mode is selected the following measuring conditions are configured e Holding measurement mode is fixed at sample hold The trigger condition is fixed at external trigger The negative direction can be selected for the value displayed according to the detection distance and inclination of the analog voltage output To measure peaks or bottoms continuously varying select the manual mode and select the suitable holding measurement mode F o pe D bagi w Example of height detection 1 Mount the sensor head on equipment Prepare the sensor head mounting fitting and an object to be detected Referencoyy For the sensor head mounting method refer to section 1 6 2 Mounting the Sensor Head on page 17 2 Adjust the detection distance Prepare a reference sample and adjust the position of the sensor head so that the height detection range is contained in the detection range about half the distance of the sensor 3 In the reference position press and hold the key to designate the zero point GP X series C GP X series C IM D lha l Ll L Press and LAL DA DLA LA hold ooo m oD D od VIA BD ed VIA BD 0 0000 is displayed in the re
134. ts is held For the trigger input the external trigger of timing input internal trigger with designation of the trigger level or cyclic trigger with designation of a period can be used For the internal trigger the trigger edge direction trigger edge time and sampling time can be designated Holding measurement begins with power on or immediately after reset input is turned on The analog voltage output is held at OV after the start of holding measure ment until the first measurement is finished For the use of each trigger input refer to section 2 3 2 Trigger Input on page 38 After the end of the first measurement until the second measurement is fin ished the result of the first measurement is held and output After the end of the second measurement the result of the second measure ment is held and output This cycle is repeated The output judgment is made as to the hold value Example of peak hold example with external trigger After reset input is displayed until the first input is obtained nae voltage output is held at OV is displayed until the first input is obtained The voltage output is fe at OV Measurement Displayed Output of result of Output value Displayed value C7 __ sampling period 44 Output of result of h Measured value sampling period 1 0 ON Timing input External trigger OFF l With the reset input sampling ON beai j gins again Reset input
135. tting k Upper line Lower line output Description of error Remedy esetting key EEPROM data Turn the power off then loading error on again If the error Press and hold persists initialize settings move to restore factory Or enter an external EEPROM data shipment settings and reset signal writing error enter settings again After resetting initialize Press and hold settings and enter setting woos i Or enter an external again gt g reset signal Memory switching There is a short circuit in external output a circuit Check the wiring and Short circuit connect again protection functions The correction data after three point Perform adjustment again Press move calibration is incorrect The following equation of the upper and lower limit values stands true Upper limit value Enter correct values MODE hysteresis width lt Press Cie Lower limit value hysteresis width Z 1 9 deyo The following equation of the hysteresis width stands true Upper limit value hysteresis width lt Lower limit value hysteresis width Enter correct values Press Enter the correct value The trigger level exceeds the setting a ae of ES Press move The sum of the trigger Enter correct values level and trigger Setting range hysteresis exceeds Omm to 120 of F S Press mooe the setting range Display scale error This error occurs if
136. um detection distance respectively Uy Example 2mm type sensor head Trigger level 2 2mm POINT Trigger level trigger hysteresis 0 to 2 4mm The setting range of the trigger delay and sampling time is 0 to 99 9999 sec If an interference prevention setting is given the delay and sampling time become longer Check during actual operation 3 5 3 Cyclic Trigger Setting When the cyclic trigger is set operation menus proceed according to the fol lowing procedure Select the cyclic trigger Set the trigger period F i ke 2 D tog 3 oo Setting example Change the trigger period from 1 0 sec to 3 5 sec lt Cyclic trigger gt Press B to move to another digit Press VJ or A to change the number The setting range is between 0 0001 and 99 9999 sec Vly If an interference prevention setting is given the cyclic trigger period be comes longer Check during actual operation POINT Through zero setting or cancellation trigger direction change or scale change the trigger level and hysteresis are automatically adjusted to op timum values If the trigger level and trigger hysteresis exceed the above range they are automatically contained in the maximum setting range Be careful if the trigger level and trigger hysteresis are nearly set at the up per limit of the detection range 65 3 6 Comparison with Previous Mean With comparison with the previous mean a moving mean of held values u

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