K3HB-S/-X/-V/-H Digital Indicators
Contents
1. RUN PT Measurement value oe DSP A2 rt be i LEVEL IN TA mE I LINIE RUN aojustment protect LEVEL MODE 9999q Comparative set value HH DEEI aiioe A AA W JE Scaling display value A2 0 to 2 19999 to 99999 3s min put typ 19 999 to 99 999 Vea 3s min J lige 1 SET PT e a Measurement value Measurement stops FRE Ico p PRHE Setting level protect 99999 Comparative set value H _ Fre Power frequency DP Decimal point position ifoto2 19999 to 99999 Bal 50 60H 0to4 J er gt 6 Z J WT PT ff cS ese Fuylaus velte INP A1 cel our ise z R k Setting change protect LEVEL MODE MODE ee aes os E AFLAN Scaling input value A1 elit P Comparative output pattern GEFIOFF ON 1s min a o Measurement starts 19 999 to 99 999 agaf Standard output ZR PT Measurement value ate Ee Beene Jc per date ouii ae Comparative set value LL L 1 Ai a a PE Poveed ecioipiaice 49999 19999 to 99999 LEVEL BSP AN Scaling display value A1 FAA Move to advanced I sa OFF ON 1smin 19 999 to 99 999 function setting level ce Kea 19 999 to 99 999 MM PT 9 MAX MIN protect LEVEL INP A2 AP Ad Scaling input value A2 0to2 19 999 to 99 999 Adjustment level 1 s max2. Protect level L RUN level Measurement value RUN PT CAL Calculation INP B1 a co 4 RUN adjusiment LEVEL MODE ggggg e A B K A A B A B K A B LE I Scaling input value B1 E protectO to 2 19999 to 99999 3 s min B A x10000 B A 1 x 10000 4 000 19 999 to 99 999 J 3s min J J LEVEL SET PT _ Measurement value Measurement stops IN TA Input type A tee DSP B1 1 s max GEE Setting level protect 99999 Comparative set value H 0 to 20 mA 4 to 20 mA dara i Scaling display value B1 19999 to 9999 m oon 0 to 2 0to5V 1to5V 5V 10V HGGG 19 999 to 99 999 ne J J 7 WT PT Ea Measurement value INP A1 rp a INP B2 ai toe Setting change protect LEVEL MODE MOPE aaa Comparative set value L Scaling input value A1 L W 2 Scaling input value B2 aFF OFF ON 1 smin je 19999 to 99999 Measurement starts 19 999 to 99 999 20 000 19 999 to 99 999 J ZR PT Measurement value Cae DSP A1 cel PT aot Al zr P E Forced zero protect 49900 Conpaieito esitelvllL LEVEL aor Fu Scaling display value A1 dr be eee ispl lue B2 aFE OFF ON d 19999 to 99999 ase 4200 19 999 to 99 999 2000 Scaling display value ismin Ta S 19999 to 99 999 MM PT 5 mz INP A2 K C K MAX MIN protect LEVEL Lar Fie Scaling input value A2 H 19 P 999 8 m mAN n ERSS oO oe Adjustment level 1 s max 20 005 19 999 to 99 999 5 wee DSP A2 Fe
3. Output test Less than 1s Password Advanced function To Protect Level Press the L LEVEL and cel MODE Keys in RUN level for at least 1s The PV display will start to flash Press the same keys for at least 2s to move to protect level Press the L LEVEL and MODE Keys for at least 1 s to return to RUN level To Adjustment Level Press the L LEVEL Key in RUN level once less than 1 s The level will change to adjustment level when the key is released Use the same operation to return from adjustment level to RUN level To Initial Setting Level Press the L LEVEL Key in RUN or adjustment level for at least 1 s The PV display will start to flash Press the LEVEL Key for at least 2 s to move to the initial setting level Press the L LEVEL Key for at least 1 s to return to the RUN level from the initial setting level Je IS Cs ed cS feb a p pae cS gw p LL Input Adjustment Level First move to initial setting level Press the L_ LEVEL Key in initial Display Adjustment Level setting level less than 1 s each time to move to the next level Move Comparative Set Value to the next level from the output test level to return to the initial setting Level Linear Output Level Communications Setting Level Output Test Level 5 4 Knowledge Required for Sett
4. Display adjustment level r out TMG H Z Wi SV DSP En Lt H Timing hold r 0 Comparative set value R g oFF nani Normal sampling display OFF ON j peak bottom peak to peak Ico ON T D REF oack ON timing delay gd EF Display refresh period gt D Oto 4 999 100 ms aff OFF 0 5s 15 25 45s Ice LEVEL Ice COLOR SFF OFF T 1 s max rz p i i Zal a Display color selection m a aaa m Da a a i ey A 5en r Green red green co red green red aoe DISP Display value Z LIM Zero limit Eein pay OFF ON P PV MAX MIN co RET EE Automatic display return Ube i3 0 to 99s POS T Rall ae Position meter type OFF Pad E incremental incremental fit reversed deviation deviation ico reversed 4 POS H 4 ra A ma H c DZC T MODE V0 26 T Simple average 14 Position meter upper limit 5aFt moving average 1330 0 19 999 to 99 999 ce ce A r AVG N Averaging times lz POS L mn n 1 2 4 8 16 32 64 128 FAG L Position meter lower limit 512 1 024 times Zui 19 999 to 99 999 ic aa a PVDP Sang Input sh
5. U 2 O Q x Q eo dp Circuit Diagram E2 E3 E4 E5 A 0 00 to 199 99mV 19 99 to 219 99 mV 1 MQ min a 0 000 to 19 999 mV 19 999 to 21 999 mV aii 100 00 mV 110 00 to 110 00 mV E4 o o 199 99 mV 199 99 to 219 99 mV E5 2 13 E Section 2 Preparations K3HB S Input the signal to be measured The inputs that can be measured by Analog Input each model are as follows Voltage Current Inputs Connect the input devices to the terminals shown below according to the input type Make sure that the absolute maximum rating is not exceeded even momentarily A B C D E OoRWND Input A Input B ep Cc Oo prr 40 49 Q ab A r gt 4 to 20 mA 0 to 20 mA 4 to 20 mA 0 to 20 mA 1to5V 0to5V 5 V 10 V 1to5V 0to5V 5 V 10 V Circuit Diagrams 2 14 2 2 Using l O E K3HB H Input the signal to be measured The following figure shows the inputs Temperature Input that can be measured by each model Connect the input devices to the terminals shown below according to the input type Make sure that the absolute maximum rating is not exceeded even momentarily OoRWNM K3HB H U o O Q Q dp p Pt O B TC 5 E B 2 15 E Section 2 Preparations op
6. 4 Ae ww oe Bank a 1 Refer to the measurement 2 This is not displayed in the factory default state Ee ieee onde table on the front Change the setting level protection to 0 H ce selection bn E is panel Parameter Display A RK Always displayed regardless of model or settings MODE s Z CMWT LZ E Communications write GFF OFF ON Displayed only for certain models or settings Displayed only for Communications Units LEVEL Password LEVEL 1 s min 0169 1 s max Press the U LEVEL key for at least 1 s from any display except for the protect level to return to the first parameter in the RUN or initial setting level Advanced function setting level Output test level INIT Set value initialization L ESE TEST Test input ge OFF ON SEF 19 999 to 99 999 PASS PASS output change LL L PASS H HH ERR MEVEL 1 s max Communications Displayed only for HYS Hysteresis setting level Communications Units 0 to 9 999 rZ U NO 12 Communications Unit No 0 to 99 OFF D Output OFF delay 0 to 1 999 100 ms BPS Baud rate c P S 19 6 19 2 or 3 5 138 4 K SHOT Shot output e 38 4 kbps 0 to 1 999 100 ms LEN Dc L Data length OUT N 7 or 8 bits T Output logic Ee SBIT N O N C col Eu b 3 Stop bi
7. Move to calibration level 19 999 to 99 999 ee Timing hoc no Input adjustment level TMG H AAL Normal sampling peak bottom peak to peak J ON T ArT E ON timing delay D 0 to 4 999 rr OFF T ar F E OFF timing delay 0 to 4 999 Jc op gt ZLM Zero limit 744 OFF ON GFF q LIM P Zero limit value hgj PI to 99 STEP Step value SEEP ORE 125710 r AVG T Average type Alot pE Simple average moving Sart average r AVG N Averaging times Fits Fi 1 2 4 8 16 32 i 64 128 512 1 024 times MEN Power interruption memory FFI OFF ON Display adjustment level z cc SV DSP Comparative Buada set value display aFF OFF ON j 1 s max D REF Display refresh period AFRI OFF 0 5s 15 25 4s SS COLOR mar ar Display color selection fiea Green red green red green red DISP Display value selection Pul PV MAX MIN LEVEL co ce MODE REI Automatic display return iG 0to 99s C2 POS T Position meter type OFF incremental incremental reversed deviation deviation reversed 1 POS H Position meter upper limit 19 999 to 99 999 F POS L a Position meter lower limi
8. U o O Q Q dp Q 2 wy D fon fa wy D op Circuit Diagrams Linear voltage output 5 kQ min ae es 500 Q max 1 2 Section 2 Preparations Comparative Outputs Comparative outputs are output to terminals B1 to B3 and C1 to C6 Connect loads within specifications The electrical life expectancy of the relays is 100 000 operations Circuit Diagrams Contact Outputs lt K34 C1 gt H and L Output Models OORUN ep ge prar 40 49 Q ab OW 2 2 Using I O Transistor Outputs U o O Q Q gt dp 2 9 E Section 2 Preparations Event Inputs Input control signals The configuration is shown below 1 2 3 1 TIMING 1 all2 2 S TMR 4 3 HOLD Ba 4 RESET 5 5 ZERO Ho 6 COM 6 7 BANK4 a 8 BANK2 9 BANK1 9 E 8 110 10 COM Models with terminal blocks Models with connectors lt K35 1 gt lt K35 3 gt lt K35 2 gt lt K35 4 gt Applicable connector XG4M 1030 OMRON ep ge prar qv 49 Q ab OW Circuit Diagrams lt K35 1 gt lt K35 2 gt NPN Input Models BANK 2A pein ee S TMR D2 l l HOLD D3 RESET D4 ZERO D5 lt K35 3 gt lt K35 4 gt PNP Input Models BANK 1 2 4 S TMR D2 HOLD D3 R
9. mode ne gt cr CN ARS zig ba rrr RIRIN co To next parameter col W Changing the Settings Use the following method to change the settings Monitor mode Edit 1345 gt if Use the gt A Key ren set value 0 HH OBE Su iH 39995 19 999 to 99 999 99999 19 999 to 99 999 195999 to 99 999 1 SV BNK Comparative set value bank Ta o7 Displayed when bank selection bn is not set to OFF I MI al a a 19999 J rary BFF LEVEL 1s max s to change the settings The setting to be changed will flash Ifa key is not pressed within 5 s the present setting will be saved and the display will return to monitor mode About Parameters A 19 gt O gO 9 53 Q o n Appendices E KSHB V WY Q 2 O Q Q Q lt A 20 Power ON Protect level RUN level RUN PT Measurement value a pai h Cu fa RUN adjustment protect Comparative set value HH Bone LEVEL MODE 55535 19999 to 99999 J 3s min fice 5 E rs 5 p SETET so Measurement value iah Comparative set value H level i A T n Ronei 55955 19999 to 99999 a Ice WT PT Ss Measurement value Uae YE P E setting change protect LEVEL MODE MO
10. eo Sensor Power Supply OoRWNDY 2 6 Use crimp terminals suitable for M3 screws as shown below A J C i 58 mm max 0O 5 8 mm max 4 Use cables with a heat resistance of at least 70 C Supply power to terminal numbers A1 and A2 The power supply specifications are outlined below 100 to 240 VAC 50 60 Hz 18 VA max at max load 24 VAC VDC 50 60 Hz 12 VA max 7 W max at max load No polarity When the power is turned ON a power supply capacity greater than the rated power supply is required When multiple Units are being used make sure that the operating power supply has sufficient capacity Complying with UL CSA Standards Use an SELV power supply with overcurrent protection for the DC power supply An SELV power supply has double or reinforced insulation between the input and output an output voltage of 30 V rms and 42 4 V peak and is 60 VDC or less Recommended Power Supply S8VS 06024Ll from OMRON The sensor power can be supplied from terminals B5 and B6 The power supply specifications are outlined below 12 VDC 80 mA G or 10VDC100mA gt 2 2 Using I O E Linear Output Linear currents and voltages are output between terminals B1 to B2 and between B3 to B4 Connect a load within the specified range Linear output OoRWNM
11. 2 220 nnnnnennnnnnnens 5 25 Setting the Present Measurement Value to O cceeeeeeeeeteeee 5 65 5 26 Setting the Present Measurement Value to 0 Again when Using a Forced Zero 5 67 5 27 Compensating Forced zero References cccccceesseeeeeeeesaeeseeees 5 70 5 28 Changing Display Refresh Periods cccccccssseeeeeeeeeeeeesaeeaeeeeees 5 73 5 29 Holding Maximum and Minimum ValUeS ccccesseeesseeeeeeeeeeeeeees 5 75 5 30 Changing Normal Display Values to Maximum and Minimum Values 5 78 5 31 Setting the Step for Changing the Rightmost Digit e 5 80 5 32 Displaying Not Displaying Comparative Set Values cc00 5 82 5 33 Changing Display Colors cccccccceecseeeceeeceeeeeeeaeeeeeeeeeeeeeesesssaeeeeeees 5 83 5 34 Using the Position Meter ccccccccccsssseeeeeeeeeeeeeeeeeeseeeeeeeeeesaeaeees 5 85 5 35 Automatic Return to Normal Display cccccccssseeeeeseeeeeeseeeeeeees 5 88 5 36 No Decimal Point Display ccccccccccssseeeeeseeeeeeeseeeeeeeeeeeeeeseeeeeeess 5 90 Other Operations 5 37 Performing Output Tests cccccceeeseeseeeeeeeeeeseceeeseeeeeeeeeeeaeeseeees 5 92 5 38 Using Comparative Set Value Banks cccccccccecceecssttssessssssseseees 5 93 5 39 Copying Bank Comparative Set Values ccceeeeeeeeeeeeeeeteeeetees 5 98 5 40
12. Hysteresis Comparative H j set value LL L ysteresis Output HHH s n oup o j 5 46 5 16 Preventing Output Chattering E Hysteresis is set using the following parameter m DE E Da Li Dirke oe M EE HYS Hysteresis s 0 to 9 999 E E E a az ah nl The decimal point depends on the decimal point position setting Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial Pa setting level 3smin Displays Lf e Lf is displayed on the level bank display to indicate the initial setting level L c B Press the cel MODE Key several times to change the PV display to Arcus e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the A UP and SHIFT Keys to set the password d 155 Press the MODE Key to move to the advanced function setting level suoneado pue suoroun e LF is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key several times to change the PV display to HYS F Press the SHIFT Key to make the SV display flash
13. eo Parameter Characters Set value Remarks Timing hold EAu H S H Sampling hold 3 15 E Section 3 Basic Application Methods Display Adjustment Level a re A Position Position meter upper Full scale 4 mm Position meter lower Other parameters are set to their default values Je gaj O E lt b 2 co Q oz lt L 2 Jp 4 mm 3 16 3 6 Panel Thickness Inspection E 3 6 Panel Thickness Inspection Advantages of Using the K3HB S e Calculation mode K A B can be used to convert panel thickness to actual size and measure it from the outputs of two displacement sensors e The forced zero function can be used for one touch deviation measurement from a reference panel thickness Forced zero Displacement Sensor pushbutton switch Z4W V25R 0J pan cos Cap I gt O 2 E Q t p Q os 7e K3HB S 24 VDC Forced zero pushbutton switch Operating power supply Displacement Sensor Z4W V25R Jp gaj O S lt b 2 qe Q or lt L 2 Jp 4 mm E Section 3 Basic Application Methods T a Workpiece dimensions 21 20 19 Panel too thin Panel thickness OK Panel too thick A B Sum of distances measured by two Z4W V25R Sensors K3HB S display When K 70 00 Comparative PASS outputs L ee
14. Communications setting level 2197999110199999 LEVEL 1 s max LEVEL 1 s max Output test level LEVEL 1 s max U NO BPS Baud 5 38 4 kbps LEN Data length 7 or 8 bits SBIT iL Ba E stop bits 1 or 2 bits PRTY Parity SDWT 4 0 to 99 ms TEST Test input 19 999 to 99 999 Displayed only for Communications Units Communications Unit No 0 to 99 rate 9 6 19 2 or None even or odd Send wait time LEVEL 1s max Linear output level 0 to 20 m 4 to 20m Oto 10V co MODE amp Displayed for Linear Output Units only LSET C Linear current model A A amm LSET V Linear voltage model 5 Oto5V 1to5V output upper limit H LSET H Linear 3 59 19999 to 99999 LSET L Linear a output lower limit 4 19999 to 99999 Tvv lt e EAL H Normal sampling Input adjustment level Display adjustment level Z LIM Zero limit OFF ON fea LIM P Zero limit value MODE 0 to 99 STEP Step value ORE Tso a0 AVG T Average type Simple average
15. e The setting can be changed when the SV display starts to flash G Use the IA UP and gt SHIFT Keys to change the set value Al gt 5 47 E Section 5 Functions and Operations H Press the tel MODE Key to switch to the next parameter Gol e The set value is registered Press the LEVEL Key for at least r 1 s to return to the initial setting level ma 1s min J Press the _ LEVEL Key for at least 1 s to return to RUN level m Jp co q gt os p pae cS Sep p LL 5 48 5 17 Outputting for a Set Interval E 5 17 Outputting for a Set Interval Advanced function setting level aa GA Go X Bg S The shot output function turns OFF a comparative output after a set interval after it turns ON The following diagram shows operation when the shot output is set to 10 ms on the K3HB S Timing Hold Set to Normal Comparative set value H Measurement value Comparative set value L Output H Output L 10 ms 10 ms Timing Hold Not Set to Normal Outputs at the measurement refresh timing if the comparative result is ON Even if the comparative result is the same as the previous time the output is made again at the refresh timing This function can be used to count the number of errors and for similar applications because an output is made at each refresh timing Example Sampling hold Comparative set
16. 10to 10 V 11 to 11 V For 2 inputs 0 2 FS 1 digit max for 23 5 C 2 to 22 mA Accuracy 0 to 20 mA 4 to 20 mA 2 to 22 mA Current input Inputs A and 150 0 199 99 to 300 0 180 00 to 180 00 199 99 to 350 00 200 0 to 1300 0 20 0 to 500 0 300 0 to 2300 0 0 0 to 900 0 350 0 to 1450 0 2 0 to 552 0 560 0 to 2960 0 90 0 to 990 0 100 0 to 850 0 20 0 to 400 0 100 0 to 1500 0 0 0 to 750 0 195 0 to 945 0 62 0 to 442 0 260 0 to 1660 0 75 0 to 825 0 200 0 to 400 0 0 0 to 600 0 300 0 to 700 0 0 0 to 1100 0 260 0 to 460 0 60 0 to 660 0 400 0 to 800 0 110 0 to 1210 0 100 0 to 850 0 200 0 to 400 0 100 0 to 1500 0 300 0 to 700 0 195 0 to 945 0 260 0 to 460 0 260 0 to 1660 0 400 0 to 800 0 200 0 to 1300 0 300 0 to 2300 0 350 0 to 1450 0 170 0 to 1870 0 560 0 to 2960 0 300 0 to 3300 0 100 0 to 1800 0 300 0 to 3200 0 170 0 to 1870 0 70 0 to 1970 0 300 0 to 3300 0 10 0 to 3490 0 0 0 to 2300 0 0 0 to 4100 0 230 0 to 2530 0 410 0 to 4510 0 Thermocouple input 0 3 PV or 1 C whichever is larger 1 digit max although there may be exceptions K T N 100 or less 2 C 1 digit max U L 2 C 1 digit max B 400 C max
17. 8 Li is displayed on the level bank a to indicate the initial setting level mal Le B Press the ktel MODE Key several times D to change the PV display to Aadu Ge e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the A UP and SHIFT Keys to set the password d 155 Press the MODE Key to move to the advanced function setting level Ge e LF is displayed on the level bank display to indicate the advanced function setting level E Press the kel MODE Key several times to change the PV display to tart 2 F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the set value H Press the ce MODE Key to switch to the next parameter Ge e The set value is registered 5 94 5 38 Using Comparative Set Value Banks E One Point Press the LEVEL Key for at least 1 s to return to RUN level B is lit to indicate that the bank is enabled E 2 Setting the Comparative Set Values for Each Bank Once the bank selection method has been specified set the comparativ
18. E K3HB S Settings Details RUN Level Parameter Characters Set vate Remas Comparative E set value H Monitoring a difference of 0 5 mm for a reference Comparative panel thickness of 20 mm set value L X Check on the status displays 3 18 3 6 Panel Thickness Inspection E Initial Setting Level 7 a Calculation EA E Scaling input value A1 Scaling display value A1 Scaling input value A2 Scaling display value A2 Input type B Z4W V25R Output mA Scaling display value B1 spoja uoneayddy ase Scaling input value B2 Scaling display value B2 Constant K Reference panel thickness 20 mm sensor displacement 25 mm x 2 Decimal point position Input Adjustment Level ea Parameter Gharacters Set value Remarks Timing hold EaG H naaAt_ Norma Other parameters are set to their default values Scaling input value B1 Displacement A ean 3 19 E Section 3 Basic Application Methods 3 7 Measurement of Disk Eccentricity Advantages of Using the K3HB S e The peak to peak hold function can be used for simple eccentricity measurement by measuring the difference between the maximum and minimum values for linear sensor signals that change continuously e Measurements are taken during the timing input pushbutton switch in diagram is ON and the last result is held when it is OFF e Applications such as measuring shaft eccentricity are possible Similar
19. E Section 6 User Calibration 6 1 About User Calibration F TTY XJ V S H The K3HB is calibrated correctly at shipment so there is normally no need for the user to calibrate it The K3HB does has a function to calibrate analog inputs that can be used when required Each time data is calibrated earlier calibration data is overwritten Be careful therefore because default data is lost when the K3HB is calibrated by the user Prepare measuring instruments and equipment for calibration separately Refer to each manual for the instruments and equipment for information on handling the instruments and equipment Calibration Flowchart User calibration is performed according to the following flowchart for the K3HB X V Power ON Move to the calibration level Aging Temporary registration of upper calibration limit Temporary registration of lower calibration limit Registration of temporarily registered upper and lower input limits Recalibrate C Calibration finished Turn ON the power supply again and check operation in RUN level The input type that can be calibrated according to this flowchart is the type selected under the input type A parameter To calibrate other input types switch the setting for input type A in the initial setting level to the desired input type and then perform calibration according to the flowchart outlined above 6 2 6 1 About User Calibration E Calibration Flowchart K3HB S
20. User calibration is performed according to the following flowchart User calibration is performed for input A if A is included in the calculation and input B if B is included in the calculation Calibration is performed on both inputs A and B if both A and B are included in the calculation Input A not included in calculation Input A included in calculation Connect the calibrator and input A and turn ON the power supply Move to the calibration level Temporary registration of upper calibration limit for input A Temporary registration of lower calibration limit for input A Registration of temporarily registered input A calibration value lt D B not included in calculation Input B included in calculation Connect the calibrator and input B Temporary registration of upper calibration limit for input B Temporary registration of lower calibration limit for input B Registration of temporarily registered input B calibration value Recalibrate Calibration finished Turn ON the power supply again and check operation in RUN level The input type that can be calibrated according to this flowchart is the type selected under input type A or input type B To calibrate other input types switch the setting for input type A or input type B in the initial setting level to the desired input type and then perform calibration according to the flowchart outlined
21. e The forced zero function can be used to easily adjust the reference step dimension to the actual object e The effects of carrier line movement can be eliminated using a normal dimensions check to measure the dimensions between the workpiece surface and the carrier line surface Checking Molded Parts Dimensions Displacement Sensor Z4W V25R Forced zero pushbutton switch Jp gaj O E lt b 2 co Q oz lt L 2 Jp 4 mm Sync Sensor E3Z D62 24VDC Sync Sensor E3Z D62 Forced zero pushbutton switch Connected internally Displacement Sensor Units mm 3 22 3 8 Step Inspection E Displacement Displacement sensor B sensor A Z d 2 80 i 20 mA 29 mm Displacement sensor 49 mA 25 mm ee ee a Carrier movement A output 26 0 mm 25 6 mm 26 4 mm 4 mA 21 mm 20 mA 29 mm Displacement sensor 12 mA 25 mm B output et ET _ Carrier movement 4 mA 21 mm LI 0 mm 22 8 mm 23 2 mm Sync sensor output ON K3HB S display CAE LAN rat K3HB S ON PASS tive output a comparative outputs OFF SS a l L ON f x l x OFF __ _ The previous judgement result is held until the Sync Sensor turns ON All outputs turn OFF when RESET input is received Oo fab cos OQ I gt O gea Q j t p Q lt gt 7e E K
22. feb a p cS gw p LL E Section 5 Functions and Operations 5 39 Copying Bank Comparative Set Values RR fe fi XM S5 4 The bank copy function is used to specify a bank between 0 and 7 and copy the group of comparative set values in that bank to all banks Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial m setting level 3 s min Displays fe m oe m a M e La is displayed on the level bank display to indicate the initial setting level B Press the LEVEL Key several times to move to the comparative set value level P e LH is displayed on the level bank display to indicate the comparative set value level C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP Key to select the bank to be copied from E Press the ce MODE Key to switch to the next parameter Ge e Change the comparative set values HH H L and LL as required F Press the ce MODE Key several times oe w to change the PV display to Lary G Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash H Use the A UP Key to change the SV display to an 5 98 5 39 Copying Bank Comparative Set Values E Press the tel MODE
23. LF is displayed on the level bank display to indicate the advanced function setting level E Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash F Use the IA UP Key to change the SV display to an If this operation is performed all parameters return to the initial settings and current settings are lost It is recommended that before performing this operation the Parameter List at the end of this manual or some other method is used to record the current set values 5 100 5 40 Initializing All Settings E G Press the kel MODE Key to switch to the next parameter and execute initialization Ge e The set value is registered H Press the _ LEVEL Key for at least 5 1 s to return to the initial setting level m 1s min Press the L_ LEVEL Key for at least 1 s to return to RUN level m 1s min T1 a Cor am Je fab 2 o gt 0 a gt gaj q fab 5 a gt Je 5 101 Section 5 Functions and Operations 5 41 Limiting Key Operations Protect level KR fe XJ V S H The key protect function limits level and parameter changes using key operations There are five kinds of key protection The parameters settings and details on the limitations of each kind of protection are outlined below O Enabled X Prohibited RUN Adjustment Protect The following parameter li
24. The following procedure uses the K3HB S as an example Lt Displays Lai A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial PE level 3 s min a M La is displayed on the level bank doe to indicate the initial setting level B Press the kel MODE Key several times to switch the PV display to aP Ai e Teaching is possible for scaling input value A1 T is lit to indicate that teaching is possible e Refer to P 5 17 for the teaching method C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP and X SHIFT Keys to change the set value Al gt E Press the cel MODE Key to switch the PV display to a SF Ai F Repeat steps C to and set nF Ae and a Use the same procedure to set the SaF a i dSPlb i7 CAP ibe and cS be parameters for scaling input B K3HB S only Use steps G to to set constant K if required Proceed to step J if constant K is not included in the calculation and does not therefore need to be set G Press the cel MODE Key several times o e y to switch the PV display to 7 Ge r e The set value is registered H Press the SHIFT Key to make the p I SV display flash gt g 21 Use the A UP and SHIFT Keys to change the set value Al gt j i i Baal E m 5 3
25. l Comparative set value H Temperature Indicator To heating control K3HB HTA PASS output Comparative set value L To cooling control Connections Diagram Comparative set value L Comparative set value LL Comparative set value LL Lower limit alarm K3HB H 100 to 240 VAC 24 VAC DC Comparative set value H Comparative set value HH E Section 3 Basic Application Methods Zone Outputs Display High 1000 0 C Comparative set value HH 800 0 C Comparative set value H 500 0 C Comparative set value L 200 0 C Comparative set value LL I I Low ON OFF Output HH Output H i Output PASS y Output L Output LL RUN Level Comparative setvalue HH Control example for the following Je gej O d lt b gt 2 co Q a lt L 2 Jp 4 mm Comparative se settings set value H Upper limit warning 1 000 0 C Comparative Heating output 800 0 C set value L i Cooling output 500 0 C 7 Lower limit warning 200 0 C Comparative i set value LL X Check on the status displays Initial Setting Level L 4 The Setting Level Protect setting must be set to 0 SET PT 0 to enable moving to the advanced function setting level Parameter Characters Set value Remarks Input type A typ
26. vy Measurement value No measurement RESET TIMING The PV display will show in no measurement status Selecting operations for input errors gt P 5 29 Remarks Operation will continue if input error enable is set to OFF disabled or OVER overflow TI cD Sa gt n fab lt gt I oS cD oe 5 21 E Section 5 Functions and Operations Peak to peak Hold e The maximum and minimum values are held while measurement is being performed while the TIMING input is ON When the measurement has been completed when the TIMING input turns OFF the measurement value is refreshed using the maximum value minus the minimum value i e the peak to peak value Important e When the maximum or minimum value exceeds the measurement range during measurement a sensor error will occur a sensor error will immediately show on the display and all outputs will turn OFF Also the measurement at that time will be invalid e Measurements are not performed and TIMING inputs are disabled during RESET input A sensor error occurs and all outputs are turned OFF ste a if the measurement range is exceeded amp Measurement SSS SSeS Ses eR S range upper limit ra oe ao Oi P1 B1 e eo A k e P e KA H v K r P1 P G s y 5 tae r tae r Measurement A eee EAE S TEE E ee
27. 0 10 eee 5 65 5 26 Setting the Present Measurement Value to 0 Again when Using a Forced Zero 5 67 5 27 Compensating Forced zero References 0 0 cc ccc eee eens 5 70 5 28 Changing Display Refresh Periods 0 0 0 0 cece eens 5 73 5 29 Holding Maximum and Minimum Values 0 c ccc cee 5 75 5 30 Changing Normal Display Values to Maximum and Minimum Values 5 78 5 31 Setting the Step for Changing the Rightmost Digit 0 0 00 5 80 5 32 Displaying Not Displaying Comparative Set Values 0 0 0 e eee eee eee 5 82 5 33 Changing Display Colors 22 53 44446006 eo08500 4554 405324 465 040 450540004442 5 83 5 94 Using the Position Meter 444424444446 056 502060 4bebndh0 00300034 o oR 44s ws 5 85 5 35 Automatic Return to Normal Display 0 0 0 0 0c cc eens 5 88 5 36 No Decimal Point Display s6 8a0tuaeneutaxenntadeweeneseaewtoawedunewss 5 90 Other Operations S57 Performing Output Tests cs sich ebanaebabeornssebabadens E E ena doe ba E nares 5 92 5 38 Using Comparative Set Value Banks 0 0 cee nees 5 93 5 39 Copying Bank Comparative Set Values 0 0 0 0 ccc eens 5 98 5 40 Initializing All Settings 0 2 0 00 0 eee eens 5 100 SAI Limitine Key Operations 2 0 stevcaton ohh evetdes Ooh cobedeepethheetds Ook woes 5 102 Section 6 User Ca
28. Key for at least 3 s in RUN level to move to the initial m setting level 3 s min a M e Lu is displayed on the level bank display to indicate the initial setting level B Press the cel MODE Key several times co pe to change the PV display to g u C Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV starts to flash D Press the A UP Key to select C or F r ee C IZ ve oF S E Press the __ LEVEL for at least 1 s to return to RUN level m 5 1s min 5 18 5 5 Setting Measurement Operations E 5 5 Setting Measurement Operations Input adjustment level R Ay FEL Xj Vy Sy Hy I pr u The K3HB has 5 measurement modes which are set using the LE eee following parameter Meaning of set value TMGH ee eae Normal oaa Cen Samping hod Applicable models K3HB ULILI Timing hold O bH Bottom hold es PP Peak to peak hold K35 3 Normal K35 4 e Measurement are performed continuously and outputs are based on comparative results e TIMING inputs are ignored Important e When the measurement value exceeds the measurement range a sensor error will occur and all outputs will turn OFF e The measurement value immediately prior to a HOLD input is held during the HOLD input Measurements are not performed during RESET input e lf RESET and HOLD inputs are competing the RESET input will take priority Measure
29. Lai e LZ is displayed on the level bank display to indicate the initial setting level B Press the LEVEL Key several times to move to the display adjustment level ic 2 is displayed on the level bank pa TI a2 oe fas a lt gt cD a gt oe C Press the Eel MODE Key to change the PV display to a EF D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the IA UP Key to change the set value F Press the ce MODE Key to switch to the next parameter Ge e The set value is registered 5 73 E Section 5 Functions and Operations G Press the __ LEVEL Key for at least 1 s to return to RUN level PA 1 smin Remarks Averaging inputs gt P 5 38 Detecting sudden input changes P 5 41 Jp co q gt os p pae cS Sep p LL 5 74 5 29 Holding Maximum and Minimum Values E 5 29 Holding Maximum and Minimum Values KASH Each time the MAXMIN Key is pressed at the RUN level the maximum and minimum values recorded while a measurement is being performed will be displayed e Maximum and minimum values are not affected when forced zero and tare zero are executed or cleared Max value Min value Measuring Initializing Initiali ing Measurement status
30. OMRON ASIA PACIFIC PTE LTD 83 Clemenceau Avenue 11 01 UE Square 239920 Singapore Tel 65 6835 301 1 Fax 65 6835 271 1 OMRON CHINA CO LTD Room 2211 Bank of China Tower 200 Yin Cheng Road M Shanghai 200120 China Tel 86 21 5037 2222 Fax 86 21 5037 2200 Authorized Distributor Cat No N128 E1 01B Note Specifications subject to change without notice Printed in Japan 0306 0 3M 1203 B
31. Other parameters are set to their default values 3 10 3 4 Temperature Monitoring Control with Multi level Output E 3 4 Temperature Monitoring Control with Multi level Output Advantages of Using the K3HB H e The temperature inside the furnace can be monitored and multi level judgment outputs can be used to perform control outputs according to the temperature inside the furnace e The temperature inside the furnace is detected using an E52 PRLIC Thermocouple e The temperature range of the E52 PRLIC is 0 to 1 400 C e The temperature is displayed in LILILJ L C on the KSHB HTA Can display temperature in increments as small as 0 1 C e The furnace temperature can be displayed using the 20 section display on the position meter provides a full scale level display e Comparative output HH turns ON when the furnace is 1 000 C or higher Comparative output H turns ON while the furnace is between 800 C and 1 000 C Comparative output LL turns ON when the furnace is 200 C or lower Comparative output L turns ON while the furnace is between 200 1 C and 500 C e The standby sequence function disables the comparative output from the time the K3HB HIA starts until the measurement value reaches the PASS range 0J pan cos Cap I gt O gea E Q t pm Q lt gt m 7e Thermocouple E52 PRLIC Measurement range 0 to 1 400 C Comparative set value HH Upper limit alarm Furnace
32. Pm _ pgs adjustment level and display Ernu H 1 s max e L i is displayed on the level bank display to indicate the input adjustment level C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP Key to change the set value E Press the ce MODE Key to switch to the next parameter Ge e The set value is registered The display may 3 differ F Press the L LEVEL Key for at least 1 s to return to RUN level Ly Bz 1s min S Remarks Adjusting timing inputs P 5 33 5 23 Je lt IS _ _ cS feb a p gae cS Je _ p LL E Section 5 Functions and Operations 5 6 Shifting the Temperature Input Input setting level E Input Shift 5 24 Input shift input 1 Input shift value 1 Input shift input 2 Input shift value 2 F Hj Two points are used to shift the input Display and control may not be satisfactory at the present location of the sensor temperature measurement point if the temperature at the measurement point and the displayed temperature are significantly different from that of the required location This can be corrected by setting the difference in temperature between the current display values and the desired values as the input shift values Display Input shift value 1 After shifting Input sh
33. a p pae cS Jp 2 a p LL E Section 5 Functions and Operations E Monitoring and Changing Set Values 5 6 The value set for a parameter is called the set value Set values can be numerals or characters When the SV display is lit it is called the monitor status When the SV display is flashing it is called the change status Monitor status Change status o Cc w i D I Use the SHIFT Lnc H gt EAE ee Y J 14 and A UP Keys to 1 5 SSS 1 5 1 set the set value to If no key is pressed for 5 seconds the set value is registered and the display returns to monitor status To next parameter Use the following procedure to change set values Procedure A The parameter to be changed is displayed e At this stage the set value is displayed but cannot be changed B Press the SHIFT Key once to enable changing the setting e The place that can be changed starts to flash C Use the gt SHIFT and A UP Keys to change the setting D Press the cei MODE Key to switch to the next parameter e The changed set value is stored in the internal memory e lf no key is pressed at step C for 5 s the set value is registered and the display automatically returns to monitor status If the display is on RUN level or adjustment level the time before the return to monitor status depends on the setting for the
34. e Comparative outputs can be generated for tank volume on four levels dry tank alarm lower limit alarm upper limit alarm and full tank alarm Zep oO fo t a lt b 2 TS p oe foe lt L n cS co e The display can be forcibly shifted to 0 for readings less than zero or readings outside the detection range of the Ultrasonic Displacement Sensor 4000 mm 500 mm Ultrasonic Displacement Sensor E4PA LS400 M1 500 to 4 000 mm 3 1 Monitoring Tank Levels 4 to 20 mA Process Indicator K3HB XAD 85 Full tank 80 Upper limit alarm Tank level display 4 000 mm 3 500 mm K3HB XAD O imi input 20 Lower limit phate alarm 4 00 mA 10 Dry tank 20 00 mA Connections Diagram K3HB X of ofo O O OIO O H H Ol olo lo j Hi O O O H 100 to 240 VAC i 4 OJO DP 24 VAC DC i 9 Sa Blue Black 4 to 20 mA E4PA LS400 M1 Standard Outputs Comparative set value HH Comparative set value H Comparative set value L Comparative set value LL Oo fab em Cap I gt O ge fat E Q tq t p Q lt gt an Display High Low Output HH OFF Output H Output PASS i Output L EE Output LL BE o 3 3 E Section 3 Basic Application Methods RUN Level value Comparative set va
35. moving average AVG N Averaging times 1 2 4 8 16 32 64 128 512 1 024 times MEMO Power interruption memory OFF ON TMG H Timing hold Z JED SV DSP Comparative Buada set value display naa peak bottom peak to aFF OFF ON Jee peak LEVEL Ica tT 1s max D REF ON T anaE ON timing delay dr EF Display refresh period i 0 to 4 999 100 ms aAa OFF 0 5 s 1s 2s 4s ke Pon Iel coLoR ZEC al zaba I A Display color selection A E OFF timing delay LaL DT D 0 to 4 999 100 ms f n Green red green red A green red DISP Display value selection PV MAX MIN col ce MODE RET Automatic display return iG 0 to 99 s Yce __Pos t L Position meter type Pas OFF incremental incremental reversed e deviation deviation reversed _ POS H 14 1 Position meter upper limit F 19 999 to 99 999 POS L a5 L Position meter lower limit 19 999 to 99 999 LEVEL 1 s max Comparative set value level Buhar m o I SV BNK Comparative set value bank O0to7 Displayed when bank selection bnt is not set to OFF rm Se SV0 HH I lee M At Comparative col Ue Sut set value 0 HH MODE me es 19 999 to 99 999 ce
36. pae cS gw p LL These kinds of gradual changes can be compensated for by using the zero trimming function Zero trimming is set using the following parameter Parameter Set value Meaning of set value Zero trimming Zero trimming ON ae O ar Zerortimming OFF 5 70 5 27 Compensating Forced zero References E Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial setting level 3smin Displays Lf e Lt is displayed on the level bank display to indicate the initial setting level B Press the cel MODE Key several times o to change the PV display to AAdu Ge e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the X SHIFT Key to make the SV display flash 2 e The setting can be changed when the SV display starts to flash D Use the IA UP and X SHIFT Keys to set the password i649 Press the MODE Key to move to the advanced function setting level Ge e LF is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key several times to switch the PV display to tr A F Press the SHIFT Key to make the SV display flash b d e The setting can be chang
37. 10 A or O to 1 9999 A 0 5 VACT For 0 to 199 99 mA 1 Q max For 0 to 19 999 mA 10 Q max K3HB V Load cell 1 MQ min Timing input NPN open collector or no voltage contact signal ON residual voltage 3 V max ON current at 0 Q 17 mA max Max applied voltage 30 VDC max OFF leakage current 1 5 mA max Startup NPN open collector or no voltage contact signal compensation ON residual voltage 2 V max timer input ON current at 0 Q 4 mA max Max applied voltage 30 VDC max OFF leakage current 0 1 mA max Forced zero input Bank input A D conver Sequential comparison system sion method K3HB H X V Digital sigma system Relay output 250 VAC 30 VDC 5 A resistive load Mechanical life expectancy 5 000 000 operations Electrical life expectancy 100 000 operations Transistor Maximum load voltage 24 VDC Maximum load current 50 mA output Leakage current 100 uA max Linear output 0 to 20 mA DC 4 to 20 mA Load 500 Q max Resolution Approx 10 000 Output error 0 5 FS 0 to 5 VDC 1 to 5 VDC 0 to 10 VDC Load 5 kQ min Resolution Approx 10 000 Output error 0 5 FS but 0 15 V OV for 1 V or less Display method e Negative LCD backlit LCD display e 7 segment digital display Character height PV 14 2 mm green red SV 4 9 mm green Ambient operating 10 to 55 C with no icing or condensation temperature Ambient operating humidity 25 to 85 Storage te
38. 6 2 User Calibration Operation E B Perform aging until the aging timer reaches 0 If the calibrator needs more than 30 minutes of aging extend the aging until the conditions are met e f the MODE Key is pressed while the aging timer is counting down the display skips to the calibration upper limit parameter display C Press the ce MODE Key to display the parameter for the calibration upper limit e The parameter for the present input type is displayed Refer to the table on P 6 9 for details on the relationship between parameters and the input type e The display will be as shown if A is not included in the calculation and the calibration then will be for input B KSHB S only D The calibrator applies a reference signal that corresponds to the calibration upper limit e Refer to the table on P6 9 for required reference signal values E Press the A UP Key A e The reference signal is read and T starts flashing F Press the A UP Key again to temporarily register the calibration upper limit G Repeat steps D to F to temporarily register the calibration lower limit When temporary registration has been completed the parameter for uoleIqieD Jasy registration St is displayed e Perform step L for the K3HB H TC input H Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to
39. 8 points 10 pin MIL connector PNP open collector 6 Power Supply Specifications Power supply voltage eee 100 to 240 VA 100 to 240 VAC 50 60 Hz 24 VAC VDC 24 VAC VDC 50 60 Hz Note 1 CPA and CPB can be combined with relay outputs only 2 Only one of the following can be used by each Digital Indicator RS 232C RS 485 communications BCD communications or DeviceNet communications o a 2 O Q Q Q lt A 10 Model Number Structure Available Output Board Combinations Supply Voltage Part number Applicable event input boards Applicable sensor power supply output boards Applicable relay transistor BCD DeviceNet output boards K3HB XVD K3HB XAD K3HB XVA K3HB XAA K3HB VLC K3HB HTA K3HB SSD 100 240VAC K3HB XVD K3HB XAD K34 C1 K34 C2 K34 T1 K34 T2 K34 BCD K34 DRT K33 CPA K33 CPB K33 L1A K33 L2A K33 L1B K33 L2B K33 A K33 B 100 to 240 VAC e CPA and CPB can be combined with relay outputs 24 VAC VDC K3HB XVA K3HB XAA K3HB VLC K3HB HTA K33 FLK1A K33 FLK3A K33 FLK1B K33 FLK3B only e Only one of communications BCD or DeviceNet can be used by each Digital K3HB SSD 24VAC VDC Indicator gt O D 5 2 O D N Appendices Parameter List Enter the set value before using Version So Status Cs j s Max value 19999 to 99999 maw f fe Protect RUN adjustment protect Setting level protect Setti
40. A 22 PASS PASS output change LEVEL LL L PASS H HH ERR 1 s max Communications Displayed only for HYS Hysteresis setting level L 4 5 Communications Units 0 to 9 999 UNO ut ae Communications 1 ieee OFF D Output OFF delay lea Unii No ORO SE 0 to 1 999 ms yc BPS Baud rate bPS 9 6 19 2 or EE SHOT Shot output e Sore Kp 0 to 1 999 ms LEN Pc LEFT Data length OUT N i 7 or 8 bits Output logic SBIR 4 H Z MONG Wee abe Stop bits O STP Output refresh stop Morabit OFF OUT ALL cel D L ur PRTY lsa Parity tal T ZR Tare zero None even or odd MODE SEF OFF ON Z tee SDWT cS ae Send wait time Z TRM Zero trimming TOOME ETT OFF ON GFF pce pr LEVEL HPF Previous average 1 s max i spp value comparison z Displayed for Linear Output Units Tico OFF ON Linear output level L5 only BNK C Bank selection LSET C Linear r bak L OFF KEY EV L GEE L current model GFF 4 2m 0 to 20 mA i J 4 to 20 mA 5 gt _ S TMR PEEL LSET V Linear rv Startup compensation timer L voltage model u 0 0 to 99 9 s 1 5 Oto 5V 1to5V IE lt Oto 10V Ge S ERR Input error enable F Eee L SETH Linear CF OFF OVER S ERR MODE J 2E i output upper limit sire 20 055 19999 to 99999 j lt Er te wt STDBY LSET L Linear c ae PT Standby sequence L Se k L output lower limit OFF ON 4 0 19999 to 99999 Jie CMOV
41. AN f IS Set scaling to convert and display input values as any values Inputs A and B are set separately One Point Setting Parameter for Input A Parameter Setvalue Meaning of set value scaling input value A1 EEE Input value corresponding _ m om sco Loe re pe pa Dar ar tO gar Scaling display value A1 i Display value dar A FEEF corresponding to ian A Scaling input value A2 13355 to T n Oo a a Scaling display value A2 EEE Display value corresponding to in Ag Scaling input value B1 Input value corresponding Lari i tod5r b i Scaling display value B1 EER Display value pe dah i 13395 corresponding tou nF b i scaling input value B2 Input value corresponding Lar be pa Ba Ba Ba to Scaling display value B2 ito Display value 33535 corresponding to infa The decimal point position for scaling input values depends on the input type The decimal point position for scaling display values depends on the decimal point position a setting Parameter Setvalue Meaning of set value aooco No decimal point One digit below the decimal point is displayed a Two digits below the decimal Decimal point position 40 point are displayed Three digits below the decimal point are displayed Four digits below the decimal point are displayed T Use the teaching function to use actual inputs to set scaling input values i an Ai nP Ag bt and aF be Refer to Teach
42. E G i L E o A E a E i i i 3 i i i i i r boy ft bo vy Foy fF fe Fon bo be Measurement values and comparative outputs refreshed 0 5 ms 9 38 5 13 Averaging Inputs E e The data refresh periods when averaging is used are given by model in the following table Svane _KSHBXIVH Kes No 20 ms 0 5 ms averaging Simple average average Averaging is set using the following parameters oor Of Rulick Meaning of set value AVG T Average type 5al Simple average a a Averaging times gir ee TI a a Je pa a Ss cD a gt op e me O be p Q Q f s ma 327 Cg To not use averaging set the average type Fut averaging times Funu 7 to i Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial m setting level 3 s min Displays a Lu cc Ms e Lu is displayed on the level bank display to indicate the initial setting level 9 39 Je IS j cS feb a p pae cS gw _ p LL E Section 5 Functions and Operations B Press the _ LEVEL Key once less than 1 s to move to the input adjustment level Less ew thant s Displays L e L is displayed on the level bank display to indicat
43. H Output __ B y e The measurement value is held when the HOLD input turns ON e When the HOLD input turns OFF the measurement value at that time is restored e During HOLD input signals other than RESET input and bank number selection using bank selection are not accepted e lf the HOLD input turns ON in no measurement status when a sensor error has occurred or when there is an overflow the status at that time is held e Forced zero is not accepted during HOLD input n a co fab os a O cS Sep gt LL 5 54 5 20 Holding Comparative Outputs E 5 20 Holding Comparative Outputs Advanced function setting level X Vj f5 fH The comparative output hold function holds the status of all outputs after any output except for the PASS output turns ON i e it stops refreshing outputs You can choose to stop outputs and continue measurement or to stop both Outputs will be refreshed again after the reset operation e Resetting measurements P 5 26 Example with Output Refresh Stop ON Comparative set value HH Comparative set value H Comparative set value L RESET Output HH Output H Output L Does not turn ON Meaning of set value Parameter Outputs Measurement an Continue Continue a sop Conine Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial setting level a D
44. Initializing All Settings ccccecscssseeeeeecccesseeeeeescacseeeeescoeseeees 5 100 5 41 Limiting Key Operations cccccceeeeeeecceceeeeeessaeeeeeseeeeeeeeseseeaeeeeeees 5 102 5 1 Section 5 Functions and Operations Knowledge Required for Setting Parameters E About Levels Levels are groups of parameters Levels for the K3HB are classified as follows Important Depending on the level measurements may continue Measurement operation Makes settings to prevent inadvertent key operations Movement between levels and changes to settings may be prohibited depending on the protect settings Protect The normal operation mode where inputs are read and comparative judgements are made In RUN level the present value can Executed be displayed comparative set values checked and forced zero executed or cleared The K3HB is in RUN mode immediately after the power is turned ON Switches banks and makes settings Adjustment such as communications write settings Makes initial settings such as the Initial setting input type scaling and comparative output patterns Input Adjusts inputs adjustment Enables disables comparative set Display value displays and sets the display adjustment refresh periods display color and position meter Comparative set Makes comparative set value bank Stopped value settings Linear output Sets the linear output Communications Sets the
45. Junction Compensation 0 0 000s 5 31 O Ski Adjus ing Timing Inputs srcsssrssrurasss 244 64 raids epiisp inue bt ikana aen 5 33 512 Eliminating Ditt Near 0 ceserrarsrro gner bade haw Se ENE een SE e EE aea eed 5 36 5213 Averaging NPUtS os cca cask eA eee ete d ee tae ee n KERA Ea d E Sede E 5 38 5 14 Detecting Sudden Input Changes 0 0 ce ee eens 5 41 Output Adjustments 222 222 222 een n nnn n nnn n eee eee e eee e een n eee eee 5 15 Changing Comparative Output Patterns 2 20 ene 5 44 5 16 Preventing Output Chattering n nananana eens 5 46 517 Outputine fora Set Interval cc veceeee eee ee dG ae oo seedeewae sewed decauesdess 5 49 5 18 Delaying Output OFF Timing 0 0 0 0 cee 5 52 5 19 Holding Measurement Status cry 1424 evan ee ewgs eve ee EPEN ENTEVE S EURER Ke eens 5 54 5 20 Holding Comparative Outputs n s nnana nananana 5 55 5 21 Allocating Another Output to PASS Output 0 0 20 0 0 0002s 5 57 5 22 Reversing Output Logic 26 5 5244 ped ote bb So DSS SSE ierni ira Se eee yas 5 59 5 223 No Output before PASS Rance 5624 24 05446 4665448 Soe 45st ber drawni tass aeii 5 61 5 24 Performing Linear Output 4 21 06005645a cdbabnsente beawseoeuseeeede oko te bee be 5 63 Display Adjustments 22222222 ne enn n nnn n nn nnn eee e ee ne nn ne eens 5 25 Setting the Present Measurement Value to
46. Key to switch to the next parameter e The comparative set value from the copy source bank selected in step D will be copied to all banks T1 a Cor am Je fab 2 o gt 0 a gt gaj q q fab 5 a gt Je 9 99 E Section 5 Functions and Operations 5 40 Initializing All Settings Advanced function setting level YY amp fe amp X M S514 Important Initialization can be used to start settings over again from the default gt settings Refer to Parameter List PA 12 for information on default Lr LaLe set values Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial setting level 3s min Displays ag Lu cc PM e La is displayed on the level bank display to indicate the initial setting level to change the PV display to AAdw Ge e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash D Use thelAl UP and gt SHIFT Keys to set the password i655 Press the cel MODE Key to move Displays to the advanced function setting level Ge Je 4 feb a p cS gw p LL e
47. MODE Lr wll Comparative 39995 set value 0 H SVO0 H N ca _ 19 999 to 99 999 Lm 1 04 4 2 Comparative ri SVO L 19999 set value 0 L ce 19 999 to 99 999 LiL Comparative 45555 set value 0 LL rtp SVO LL Jie 19 999 to 99 999 Pay copy F Bank copy OFF ON LEVEL 1s max W Changing the Settings Use the following method to change the settings Monitor mode Edit mode i2345 ays nnn gt spunea aT ERIS E ce Use the X A Keys to change the settings The setting to be changed will flash About Parameters If a key is not pressed within 5 s the present setting will be saved and the display will return to monitor mode To next parameter A 21 gt O gO 9 53 Q o n Appendices E K3HB S Power ON Initial setting level
48. Nothing specified R S 200 max 8 C 1 digit max W 40 38 PV or 8 C whichever is larger 1 digit max Platinum resistance thermometer input 0 2 PV or 0 8 C whichever is larger 1 digit max gt KS 1S D 5 Q O D n WY Q 2 O Q Q Q lt i Appendices E Power Supply Derating Curve for Sensor Reference Value Max current mA Max current mA 140 Ambient temperature C Ambient temperature C With 12 V With 10 V Note 1 The above values are for standard mounting Be careful because the derating curve differs depending on the mounting conditions 2 Do not use the Sensor outside of the derating area i e do not use it in the area labeled 1 in the above graphics Doing so may deteriorate or damage internal components Model Number Structure E Model Number Structure Base Units K3HB 00 0O DQ 1 Models by Type input epecificatons Voltage and Current Process Indicator 2 Input Range 6 Power Supply Specifications Power supply voltage 100 to 240 VAC 100 to 240 VAC 50 60 Hz 24 VAC VDC 24 VAC VDC 50 60 Hz Optional Boards Sensor Power Supply Output Boards K33 L Relay Transistor BCD DeviceNet Output Boards K34 L Event Input Boards K35 L gt O D gt 2 O N A 9 i Appendices Base Units with Optional Boards K3AB LILI OUL L DO 090 1 Models by T
49. S Q prar a Aa Q A 2 16 Section 3 Basic Application Methods 3 1 3 3 3 4 3 5 3 6 3 3 8 Monitoring Tank Levels cccccccccecssseeeeeceeeeeeeeeeeeeesaeeeeeeseeeeees 3 2 Monitoring Motor Load Current ccccccccsssssseeeeeeeeeeesseeeeeeeeees 3 6 Weighing Material cccccsssscccesseeeeeeessseeeeeeeeeeeseeeeeeeeeeesseaees 3 9 Temperature Monitoring Control with Multi level Output 3 11 Product Height Measurement and OK NG Judgemenrt 3 14 Panel Thickness INSPECTION ccccseeeeeeceeeeeeeeeeeseeeseeeeeesaaseess 3 17 Measurement of Disk Eccentricity ccccccseseeeeeeeeeeeeeeaeeeeees 3 20 Sic Om ioe 2 0 eh a ee ee 3 22 3 1 0J fab cos Cap I gt O gea D fat E Q t p Q lt gt an E Section 3 Basic Application Methods 3 1 Monitoring Tank Levels Advantages of Using the K3HB X e The tank level can be monitored e The distance to the surface of the liquid can be detected using an E4PA LS400 M1i Ultrasonic Displacement Sensor Sonic Displacement Sensor e The liquid volume can be displayed on the K3HB X to indicate volume in liters U I The tank level can also be shown using the 20 section display on the position meter provides a full scale level display e The number of measurements to be averaged averaging times can be set to 4 to ensure stable readings of levels in relation to full scale
50. Sampling and Comparative Output Response Times The K3HB S sampling and comparative output response times depend on the calculations timing hold type and for simple averaging the averaging times Refer to the following description for details E Output Refresh Period The K3HB S repeats input reads calculation and judgement output processing The output refresh period differs depending on whether there are one or two inputs as outlined below One input 0 5 ms 0 5 ms 0 5 ms Input Input Input Input Input Input Input A or Input B J Output Output Output Output Output Input read Every 0 5 ms Output refresh Every 0 5 ms Two inputs 0 5 ms 0 5ms 0 5 ms e Input Input Input Input Input Input Input Input A Input B V l l Output Output Output Output Output Output Input A every 1 ms Input read Input B every 1 ms Output refresh Every 0 5 ms WY Q 2 O Q Q Q lt A 26 Sampling and Comparative Output Response Times E E Output Response Time The comparative output response time is the sum of the data processing time and the output relay or transistor response time One input 0 5 ms 0 5 oe 0 5 ms Data processing ee a es laa E i Dp Jsi 5 Output response fal Eee oe Bee ey oso Two inputs 0 5 ms 0 5ms 0 5ms 0 5ms LJ Data processing time r Output response aco toro eg P time See note 1 Note 1 For transistor outputs For one input O
51. Scaling values 5 14 Sensor power supply 2 6 Set values 5 6 Setting change protect 5 102 Setting initialization 5 100 Setting level protect 5 102 SHIFT key 1 5 Shifting temperature input 5 24 Shot output 1 3 5 52 Simple average 5 38 Standard output 5 44 Standby sequence 1 3 Startup compensation timer 1 3 5 27 Status indicators 1 5 Step value 1 2 5 80 SV display 1 5 SV display status indicators 1 5 T Tare zero 1 2 5 67 Teaching 1 3 5 17 Temperature input shifting 1 2 5 24 Temperature unit 5 18 Timing delay 1 2 Timing hold 1 2 3 4 3 8 3 10 3 13 3 15 3 19 3 21 3 24 5 19 TIMING input 5 19 Timing input 3 20 Timing inputs 5 33 U UP key 1 5 User calibration 1 4 Using terminals 2 3 Weighing material 3 9 Display adjustment level 3 10 Initial setting level 3 10 Input adjustment level 3 10 Wiring 2 6 Z Zero limit 1 2 5 36 Zero trimming 1 2 5 70 Zone output 5 44 INDEX 3 E Index INDEX 4 OMRON OMRON Corporation Industrial Automation Company Control Devices Division H Q Analog Controller Division Shiokoji Horikawa Shimogyo ku Kyoto 600 8530 Japan Tel 81 75 344 7080 Fax 81 75 344 7189 Regional Headquarters OMRON EUROPE B V Wegalaan 67 69 NL 2132 JD Hoofddorp The Netherlands Tel 81 2356 81 300 Fax 31 2356 81 388 OMRON ELECTRONICS LLC 1 East Commerce Drive Schaumburg IL 60173 U S A Tel 1 847 843 7900 Fax 1 847 843 8568
52. Setting Scaling Values E Decimal Point Position A Press the kel MODE Key to switch the PV display to the next parameter a B Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV starts to flash C Use the IA UP Key to change the set value D Press the ce MODE Key to switch to the next parameter Ge e The set value is registered E Press the LEVEL Key for at least 1 s to return to the RUN level m 1smin Teaching Use the oa function to use real inputs to set scaling input values aT aP AR m I Pa J an iP A Pi ne Le i and Pi nE Qc Parameter Setting Procedure th performing step B press the IA UP Al e e is enabled and T flashes e The setting changes to match the actual input Press the A UP Key again A e T lights and the input value is registered as the set value and the T changes monitor mode is entered from flashing e Press the ce MODE Key when in to being lit teaching mode to cancel teaching and switch to the next parameter The input value will not be registered if a sensor error occurs during teaching or the UP Key is pressed when no measurement has been made suoneado pue suoroun E Section 5 Functions and Operations 5 4 Setting the Temperature Unit Initial setting level Either C or F can be set as the temperature unit Parameter Setting Procedure A Press the _ LEVEL
53. __ I meas J Messurnent soneed Measuring Me Power supply a a Switching Maximum and Minimum Value Displays Each time the MAXMIN Key is pressed in RUN level the PV display switches as follows present value gt maximum value minimum value present value Present value MAX value MIN 2 NS p 2s _ Er 985 7 OO ah cA E dA m anv dR E dA OO dA dA dA a socau O Bee eae sods O 208A socau If input error enable 5 6 is ON and a sensor error occurs the input error will be displayed on the maximum and minimum display The input error is cleared by a RESET input or by pressing the lt gt MAX MIN Key for at least 1 s Power Interruption Memory This function can be used to hold the maximum and minimum values during power interruptions The setting choices are hold and no hold This function can control maximum and minimum value fluctuations even if device power is interrupted 9 5 TI a2 gt cq pa lt gt m Ss cD S amp S gt oe E Section 5 Functions and Operations Max Min A value Held Ressel cover cup M OFF ON Holds values even for no measurement status an input error or an overflow Holds values even with a software reset performed through key operations or communications The power interruption memory cannot be accessed if the startup compensation timer is enabled when the power is turned ON Parameter Settin
54. above 6 3 C D D om O oO 2 a E Section 6 User Calibration Calibration Flowchart User calibration is performed according to the following flowchart K3HB H Note gt TC input Bias compensation value input Registration of temporarily registered upper and lower input limits Recalibrate T Calibration finished Turn ON the power supply again and check operation in RUN level The previous calibration value is not displayed when the status of bias compensation values is being monitored The display cannot handle bias compensation values because they are temperature readings rather than a count This means the value that is read during calibration is not a bias value but the calibration value for the main input 2 CO 2 ab 7 6 4 6 2 User Calibration Operation E 6 2 User Calibration Operation y ny fe ff X V S H E Connecting to the Calibrator Xj Vv f5 e Connect the Calibrator standard voltage generator or standard current generator to the input terminal for the input type to be calibrated e Use a Calibrator with enough precision for the accuracy of the K3HB e Do not cover the bottom during calibration Never touch the input terminals or compensating conductor Cold junction compensator Cold junction compensator Short circuit K3HB K3HB tit 09C 32 F Open circuit Cold junction compensating conductor connection Cold j
55. and resetting maximum and minimum values Max min Parameter Set value value switching PG Enabled Enabled Enabled Max ee ic 2 Enabled Prohibited Prohibited Prohibited Parameter Setting Procedure A Press the _ LEVEL and ce MODE Keys together for at least 3 s in RUN Ly Ge g level to move to the protect level 3smin Displays LP LP is displayed on the level bank dan to indicate protect level TI a2 oe fas a re Ss cD a gt oe B Press the lte MODE Key several times _ to display the desired protection Ge The display shows setting change protect as an example C Press the SHIFT Key to make the SV display flash D Use the IA UP Key to change the SV display E Press the ce MODE Key to switch to the next parameter Ge e The set value is registered 5 103 E Section 5 Functions and Operations F Press the LEVEL and kel MODE Keys together for at least 1 s to return to RUN level Jp co q gt os p pae cS Sep p LL 5 104 Section 6 User Calibration 6 1 About User Calilbration cccccccessseeeeeeeeeeeeeseseessseeeeeeeeeeeeeas 6 2 6 2 User Calibration Operation cccccccccccccecssseecssssseesssesssseeseesees 6 5 C D D om O oO O a a O 2 2 2 gt ab 2
56. automatic display return time If the automatic display return time setting is less than 5 s for example 3 s then if there are no key operations in change status for 3 s the changed set value is registered and the display automatically returns to the display when the power was turned ON Knowledge Required for Setting Parameters E E Confirming and Changing Comparative Set Values Comparative set values are confirmed and changed in RUN level The Unit keeps operating even while comparative set values are being confirmed and changed The comparative set values from HH to LL are displayed each time the MODE Key is pressed in the operation status immediately after the power is turned ON The SV display status PEDD is lit for the displayed comparative set value Some comparative set values may not be displayed depending on the relay transistor output specifications and settings Refer to the parameter setting procedures for information on how to change comparative set values Comparative Comparative Comparative Comparative ae value HH set value H set value L set value LL status 2125 0 a ei B _ peel 0 2 pgslee do manis Honig Lights Tp 1 gt 1 gt 5 gt ce cg co status pan 5 ates eesiT i i Pad ou 1 If no key is pressed for 5 seconds the set value is regist
57. averaging Averaging times n Example 4 The Unit operates as shown in the diagram to the right for the settings shown in the table below Calculation A Timing hold mode Sampling hold Averaging times n Example 5 The Unit operates as shown in the diagram to the right for the settings shown in the table below Calculation Timing hold mode Peak hold Averaging times n A 28 0 5 0 5 05 05 05 05 05 05 05 05 0 5 Input Input Input Input Input Input Input Input Input Input Input Input Input A Input B Output Output 0 5 ms x M averaging times n For simple averaging lf the number of averaging times is 8 the comparative output that corresponds to the average for 8 read inputs 4 input A s and 4 input B s is output Comparative output 4 ms output response time See note 1 response time 0 5 ms x M averaging times output response time See note 1 05 05 05 05 05 05 05 Input 0 5 ms min ae i l Output Timing input received Next timing input receive enabled i ao gt gt am OO a 0 5 to 1 0 ms Timing input processing time lt gt 1 0 to 1 5 ms Comparative output response time 1 0 to 1 5 ms output response time See note 1 05 05 05 05 05 0 5 0 5 Input Input yeu Input aa Input A Input B Y Output Timing input a Next timing input Peat coud Receive enabLed x Timing input proc
58. baud rate data length and setting other communications settings Sets test measurement values to Output test perform output tests Advanced Used for advanced customization function settings Je 4 as feb a p cS gw p Li 5 2 Knowledge Required for Setting Parameters E To change a parameter move to the level where that parameter is found The current level is shown on the bank level display when moving between levels Level bank Level mN PProtectlevel ssts S level Not lit or Bo to RUN level a I only when banks are used Adjustment level Lo Initial setting level me Ae level LF nest nei sing nal TI a2 gt oe pa lt gt m oS cD gt oe 5 3 Section 5 Functions and Operations E Moving between Levels Power ON __ Always displayed regardless of model or settings __ May not be displayed depending on the model or settings 152 3s min i than S Adjustment lt _ gt RUN 3s min Measurement stops Measurement starts Less than 1s Input Less than 1 s adjustment Display adjustment Less than 1 s Comparative Less than 1 s set value Communications Li settings inear output Level transitions gt Initialization Less than 1s
59. because reset input t received Measurement tonet OET gt period occurrad during measurement during measurement period Measurement value No measurement Peak value 1 reaver Xf roneanseren RESET TIMING E Peak value 2 The PV display will show in no measurement status aa Selecting operations for input errors gt P 5 29 emarks Sai Operation will continue if input error enable is set to OFF disabled or OVER overflow 5 20 5 5 Setting Measurement Operations E Bottom Hold e The minimum value is held while measurement is being performed while the TIMING input is ON and when the measurement has been completed when the TIMING input turns OFF the measurement value is refreshed using the held minimum value Important e When the measurement value exceeds the measurement range during measurement a sensor error will occur a sensor error will immediately show on the display and all outputs will turn OFF Also the measurement at that time will be invalid e Measurements are not performed during RESET input and TIMING ane are disabled aN A sensor error occurs and all outputs are turned OFF if the measurement range is exceeded Measurement cans momen ee fet eee a a range lower limit Peat tas Measurements during Measurement Measurement invalid because a s nsor cal PowerON period i etror occurred during measureme t PESE EINADO ANG awe
60. display to indicate the initial setting level B Press the _ LEVEL Key several _ times to move to the display adjustment Ly level an 2 is displayed on the level bank da to indicate the display adjustment level C Press the WODE to change the PV display to Z l r D Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash 5 83 TI a2 oe fas a lt gt cD a gt oe E Section 5 Functions and Operations E Use the IA UP Key to change the set value EN F Press the ce MODE Key to switch to the next parameter Ge e The set value is registered G Press the __ LEVEL Key for at least 1 s to return to RUN level m 1s min Remarks Performing output tests P 5 90 Sep er co a fab os a O cS Sep gt LL 5 84 5 34 Using the Position Meter E 5 34 Using the Position Meter Display adjustment level WY fh fe amp X M5535 Fy The meter on the right side of the front panel with 20 sections is called the position meter and shows the position of the displayed value present value maximum or minimum in relation to any values set using the position meter upper and lower limits The position meter upper and lower limits can be set to any range The position meter display pattern is set using the f
61. e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect suoneado pue suoroun C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP and X SHIFT Keys to set the password i635 Press the MODE Key to move to the advanced function setting level e LF is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key several times to change the PV display to 5 31 E Section 5 Functions and Operations F Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the set value to arr H Press the ce MODE Key to switch to the next parameter Ge e The set value is registered Press the LEVEL Key for at least 1 s to return to the initial setting level m lt 1s min J Press the _ LEVEL Key for at least 1 s to return to RUN level ma 1s min Sep lt Sa co a fab a D O cS SP gt LL 9 32 5 11 Adjusting Timing Inputs E 5 11 Adjusting Timing Inputs Input adjustment level OFF T Applicable models K3HB ULLI K35 1 K35 2 K
62. error occurs tare zero cannot be executed while no measurement is being performed Forced zero can be cleared but not during RESET input There are two methods for executing and clearing tare zero using key operations and using ZERO inputs Using Key Operations Executing tare zero Press the A UP Key while forced zero is being executed and the present value is displayed to execute tare zero Clearing tare zero Press and hold for 1 s to clear tare zero Press it again for 1 s to clear forced zero R Z not lit T ZR not lit T ZR lit 1 7 A Execute m m A Execute 2 aml y aa DHA eas 38000 Pa eeg 20000 The tare can be zeroed ZERO not lit ZEPO lit EE again even after it has been used 2 s min Forced zero released 5 67 TI a2 gt oe pa lt gt I a lt gt cD gt n E Section 5 Functions and Operations Using ZERO Inputs Executing tare zero Tare zero is executed on the rising edge of the ZERO input ON signal during forced zero execution Clearing tare zero If the ZERO input is ON for 1 s tare zero is cleared Forced zero is cleared if the ZERO input is ON for a further 1 s Tare zero is set using the following parameter Parameter Set value Meaning of set value Tare zero pan Tare zero enabled p bror Tare zero disabled Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN lev
63. flash 6 E Section 6 User Calibration Use the A UP Key to change the set I alk al value to J Press the ce MODE Key e The calibration value is registered e When there are two inputs input B is calibrated next Connect the reference device to input B and repeat steps D to J K3HB S only K Turn ON the power again and check the operation K3HB H TC Input Perform step F and then perform bias compensation L Press the cel MODE Key to change to bias calibration e Disconnect the standard voltage generator or standard current generator e Turn ON the thermocouple of the cold junction compensator Make sure the cables for the standard voltage generator or standard current generator are disconnected at this time e Calibration values are not displayed when bias compensation values are being monitored The value that is read is not a bias value Instead the display shows calibration values for the main inputs Disconnect to open Sa 2 i gt ab wd Leave open controller Output Input has eae This is the compensating conductor for the selected This is the compensating Output conductor for the selected thermocouple However the compensating conductor for thermocouple K is used for thermocouples E R S B and W thermocouple However the compensating conductor for thermocouple K is used for th
64. front panel keys or an event input If the bank copy function is used the comparative set values set to one bank can be copied to all banks E 1 Specifying the Bank Selection Method LE bahla aD Om w w BNK C Applicable models K3HB LILILI K35 2 K35 4 Before banks can be selected the bank selection method must be specified The bank selection function is enabled when the selection method is specified The individual bank settings cannot be made until bank selection is enabled The bank selection method is set using the following parameter Parameter Setvalue Meaning of set value Bank selection disabled Bank selection a Bank i using keys en ie Bank selection using event input 2 1 With this setting banks cannot be selected using event inputs 2 With this setting banks cannot be selected using key operations Event inputs can be used only for models with connectors The relationship between event input BANK1 BANK2 and BANK4 ON OFF status and the bank number is shown below External terminals 9 93 TI a2 Je pa a Ss cD a gt oe Je IS j cS feb a p pae cS gw p LL E Section 5 Functions and Operations Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial ma i level 3smin Displays
65. kas Kaa foes DRE i i isk33 FLK2B3 T2 gt 1 LiB gt L2B gt i RUN adustmentprotect varf PE S o O Settingtevelprotect_ see Pet Y S OO Poono o n n s o E Protect Setting change protect ve Pe Y Ef Forced zeroprotect_ zr PEL Y oT TX I ooo o MaxMin ee a a a a a a a a a ee ee ee pee ps TASS output change PASS or ERR Measurement value comparative set value HH Measurement value comparative set value LL When the Output Unit is onl lt CPAIB gt change in PASS output eee aia ee iter the Ou nk Adjustment a 2 When the Output Unit is lt CPA gt change in PASS output PASS or ERR communication write ea L L aaa l l E A E E A ES a a __ _____ _ ___ __ ________ mowie i a OT OT TE Caiculation B Always displayed for X V H Powersupply trequency Fef f x i E Scaling input value A1 En x Scaling display value A1 x x Calculation B Always displayed for X V Calculation B Always displayed for X V x x Scaling input value A2 Scaling display value A2 a EA Scaling input value B1 Scaling display value B1 Scaling input value B2 Scaling display value B2 S E EA Decimal point postion aef _ M E E Comparative oupa patem aee ete art tnamnatigeet aaa _ D eas nf ON timing delay Calculation B Always displayed for X V o s Calculation A orK A O OO Calculation A or K A Calculation A or K A Calculation A _or K A Calculation A or
66. not wire in parallel with or in the same cable as power lines Other measures for reducing noise include running lines along separate ducts and using shield lines Example of Countermeasures for Inductive Noise on Input Lines F l l Digital Indicator Signal input E 2 conductors with shield 3 Ifa noise filter is used for the power supply check the voltage and current and install the noise filter as close to the product as possible 4 Reception interference may occur if the product is used close to a radio television or wireless Revision History The revision code of this manual is given at the end of the catalog number at the bottom left of the back cover November 2003 Original production January 2004 Page 2 4 Bottom left portion of C corrected Page A 5 Information updated for applicable standards March 2005 Page 1 4 Power interruption memory added Page 2 4 Added information on BCD Output Cable at bottom of page Pages 2 4 A 11 and A 17 Changed K34 B4 to K34 BCD Pages 2 5 Added information on Special Cable for Event Inputs with 8 pin Connector at bottom of page Page 2 7 Min changed to max at bottom of page Page 2 12 Corrected the maximum measurement range of input range B for DC voltage Page 2 13 Changed K2HB V to K3HB V in heading Page 5 29 Underlined the phrase in the first line of the page to draw user s attention Page 5 83 Text added after table Page 6 9
67. supply side 100 to 240 VAC 24 VAC DC Comparative output L 3 6 3 2 Monitoring Motor Load Current E e Comparative set value H is 50 00 A and comparative set value L is 40 00 A Level output Display High 50 00 A Comparative set value H 40 00 A Comparative set value L Low i a ee _ Dae 0J pan ee op I gt O oe E Q tq t Q os Jp ON Output H OFF Output PASS Output L RUN Level Parameter Characters Set value Remarks Comparative se Control example for the set value H following settings Comparative Comparative output 1 set value L se 50 00 A Comparative output 2 40 00 A X Check on the status displays Initial Setting Level L The Setting Level Protect setting must be set to 0 SET PT 0 to enable moving to the advanced function setting level Parameter Characters Set value Remarks Inputtype A cn ER A AA Scaling input value A1 Scaling display value A1 Scaling input value A2 Scaling display Poke value A2 Decimal point position Comparative Level output output pattern Move to Move to advanced advanced function setting level to function set the startup setting level compensation timer 3 7 E Section 3 Basic Application Methods Advanced Function Setting Z KEVENEE Remarks Startup ine Setthe startup compensation compensation timer at timer motor startup to 10 s Input Adjustment Level e
68. the _ LEVEL Key for at least to 5 2 Setting Inout Types E B Ifthe PV display is not Sa t A or cae D rb press the kel MODE Key to display the desired parameter C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP Key to change the set value E Press the ce MODE Key to switch to the next parameter Ge e The set value is registered F Press the LEVEL Key for at least 1 s to return to the RUN level Parameter Setting Procedure Power Supply Frequency Set the input type for the K3HB X V H and then set the power supply frequency Perform step E above and then perform the following steps G Press the MODE Key several times to change the PV display to Fr H Press the SHIFT Key to make the SV display flash suonesado pue suoroun e The setting can be changed when the SV starts to flash e Set the frequency to 50 Hz or 60 Hz to match the local frequency If input type A is changed scaling input values A1 and A2 and scaling display values A1 and A2 are initialized The same applies to input type B Input type A is the only choice for all models except the KSHB S k k 5 13 Je IS _ feb a p cS gw p LL E Section 5 Functions and Operations 5 3 Setting Scaling Values Initial setting level R
69. value H an 3 M easurement value pi Comparative 3 set value L sS TIMING signal A E output B a O Output L 10 ms 10 ms 10 ms The shot output time is set using the following parameter Parameter Set value Meaning of set value Shot output tito i 0 to 1 999 ms 0 to 199 9 s Shot The unit for KSHB X V H settings is 100 ms For example if 10 is set then the shot output time is 10 x 100 ms 1 s The shot output time is an internal calculation time The following times are added to the set time to give the actual output time e For relay outputs 11 ms max e For transistor outputs 1 ms max 5 49 Je 4 feb a p cS gw p LL E Section 5 Functions and Operations Parameter Setting Procedure A Press the _ LEVEL Key for at least F 3 s in RUN level to move to the initial ma setting level 3 s min e LG is displayed on the level bank display to indicate the initial setting level Displays Lit B Press the cel MODE Key several times D to change the PV display to AAdw Ge e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash ri
70. values the correct input type must be selected for the wiring Note Do not change the order of step B When input type A is set the scaling value and decimal point position will be initialized automatically 4 2 The initial setup is explained in the following example Settings Example In the following setting example 1 to 5 V input is scaled to the range 0 000 to 1 000 e f the measurement value goes above 0 700 comparative output H turns ON e If the measurement value goes below 0 500 comparative output L turns ON Measurement value Display value 0 700 NOUR parret 0 500 i 000 Input Comparative outputH __ m 1 0000 V 5 0000 V value Comparative output L GG Initial Setup Flow To change a set value press the gt SHIFT Key The digit that can be changed will flash Use the gt i SHIFT Key to move to the digit to be changed and change the setting using the A UP Key A Check the wiring and turn the power ON e If the display flashes S E this indicates that the input is outside the set range and does not indicate product failure B Set input type A to 1 0000 to 5 0000 V 1 Move to the initial setting level by pressing the _ LEVEL Key for at least 3 s operation will stop 2 Set input type A Sa t to ca ual and press the Sel MODE Key twice C Set the scaling value 1 Set scaling input value A1 Sa AP to i iuan and press the ke
71. 1 and 8 mm thick 2 Use the specified size of crimp terminals M3 width 5 8 mm max for wiring To connect bare wires use AWG22 cross section 0 326 mm to AWG14 cross section 2 081 mm to wire the power supply terminals and AWG28 cross section 0 081 mm to AWG16 cross section 1 309 mm for other terminals Length of exposed wire 6 to 8 mm 9 In order to prevent inductive noise wire the lines connected to the product separately from power lines carrying high voltages or currents Do not wire in parallel with or in the same cable as power lines Other measures for reducing noise include running lines along separate ducts and using shield lines 10 Ensure that the rated voltage is achieved no longer than 2 s after turning the power ON 11 Allow the product to operate without load for at least 15 minutes after the power is turned ON 12 Do not install the product near devices generating strong high frequency waves or surges When using a noise filter check the voltage and current and install it as close to the product as possible 13 Do not use thinner to clean the product Use commercially available alcohol 14 Be sure to confirm the name and polarity for each terminal before wiring the terminal block and connectors 15 Use the product within the noted supply voltage and rated load VII VIII 16 Do not connect anything to unused terminals 17 Output turns OFF when the mode is changed or s
72. 35 3 K35 4 RAER X V S TIMING inputs can be delayed by adjusting the ON timing delay and OFF timing delay TIMING signal TIMING input _ OFF timing delay ON timing delay Parameter Set value Meaning of set value ON timing delay o to 4555 0 to 4 999 ms anTE 0 to 499 9 s 0 to 4 999 ms 0 to 499 9 s The unit for K3HB X V H settings is 100 ms For example if 10 is set then the delay is 10 x 100 ms 1 s The an amp ON timing delay and sFF amp OFF timing delay settings can be used for the timing hold set values as shown in the following table OFF timing delay FF t Timing hold set value 5 gt a a fat 3 a cD Suone Setting possible Setting not possible 5 33 Jp a co fab a gt O cS IP r gt LL E Section 5 Functions and Operations Explanation of Functions ON timing delay OFF timing delay The following example shows K3HB S settings for an ON timing delay of 20 ms and an OFF timing delay of 10 ms Timing Hold Set Value Set to Sampling Hold s gt te a Ps KA g y pte 4 Pi 6 rs r 6 2 A A o s 4 y a t Q 8 a U amp 4 amp x r s e e gt K a 4 e x amp Q e 4 e e p aeaa e a a 0 ta o ae a a A 7 tas ta s Power ON Mea
73. 3HB S Setting Details RUN Level Parameter T Characters Set vue Remas Comparative o set value H Monitoring a difference of 0 5 mm for a reference Comparative step of 2 mm set value L X Check on the status displays 3 23 E Section 3 Basic Application Methods Initial Setting Level 1 2 Parameter Characters Set value Remarks Calculation a Scaling input value A1 Scaling display value A1 Scaling input value A2 ao Z4W V25R Scaling display Output mA value A2 Paputtype zate eo value B1 __ Displacement f mm Scaling display value B1 Scaling input value B2 Scaling display value B2 Decimal point position Input Adjustment Level l ei Parameter Characters Set value Remarks Timing hold EAu H 5 H Sampling hold x Other parameters are set to their default values Jp gej O d lt b gt 2 co Q a lt L 2 Jp 4 mm 3 24 Section 4 Initial Setup 4 1 K3HB X Initial Setup Example 4 2 K3HB V Initial Setup Example 4 3 K3HB H Initial Setup Example 4 4 K8HB S Initial Setup Example a AN A K3HB XVD K3HB VLC K3HB HTA K3HB SSD 4 4 4 6 4 8 4 1 D Q O 3 Q J 40 N E Section 4 Initial Setup 4 1 K3HB X Initial Setup Example K3HB XVD Note When the power is turned ON a number may be displayed that is unrelated to the input range setting To display correct
74. 5 r Ge 5 27 E Section 5 Functions and Operations F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the IA UP and gt SHIFT Keys to change the set value H Press the ce MODE Key to switch to the next parameter Ge e The set value is registered Press the L LEVEL Key for at least P 1 s to return to the initial setting level m 1s min J Press the _ LEVEL Key for at least 1 s to return to RUN level ma 1s min e S TMR processing takes priority even if the TIMING input turns ON while the S TMR input is ON Remarks Resetting measurements P 5 26 Sep lt Sa co a fab a D O cS SP gt LL 9 28 5 9 Selecting Operations for Input Errors E 5 9 Selecting Operations for Input ErrOrS Advanced function setting level FTT jj The display and operation when the input is exceeding input range can be selected by setting this parameter Refer to Input Characteristics P A 6 for input ranges Parameter Set value Meaning of set value Disabled input error duke Overflow Operation at Z Z IEI Input error Each operation is outlined below Disabled Display ouput The display is fixed at the Outputs correspond to the measurement value that fixed display value corresponds to the upper or lower limit of the input range
75. 8 100 00mV i0408 100 00 mv 199 99 mV 9995 199 99mV 19999 199 99 mV Calibration upper limit Calibration lower limit Reference Reference Parameters Parameters signal signal 0 to 20 mA 20 00 mA 4 to 20 mA Oto 5 V 5 000 V 1 000 V 1to5V 5V 5 000V _ 5 5 000 V 0 to 20 mA 20 00 mA 4 00 mA 4 to 20 mA 0 to 5V 5 000 V 1 000 V 1to5V 5V V 5 000 V Ob 5 000 V K3HB H Calibration upper limit Calibration lower limit Input type Reference Reference Parameters Parameters i signal signal PT PT100 0 00 0 3900 Q 2 2 O 2 ab u 6 10 Section 7 Troubleshooting Tel TWOP WIS DIAY S 2x coc orccenteceanscaanecge ceeseectendenaasreteectenesssnaecsaecegizanet 7 2 7 2 Countermeasures ccccececcecceceececceceececcececucuecusaeceecesaucueaeeaees 7 3 O o D N y O O Q Section 7 Troubleshooting 7 1 Error Displays PV SV Rese Description of error Countermeasure display display An unexpected Unit was The mounting position depends on the detected Unit model Check the Unit s model number and mount it in the correct position Displayed the first time power is Press the _ LEVEL Key for at least 3 s to turned ON after mounting a new register the new Unit configuration Display error Repair is necessary Consult your OMRON representative Internal memory error Repair is necessary Consult your O
76. 9 99 mV tf Lack 0 000 to 19 999 mV Ls a 100 00 mV Pod at 199 99 mV frequency a ae ae Eliminates inductive noise from the power supply line Set to the power supply frequency Functions and Operations E Section 5 Functions and Operations Parameter a value Meaning of set value Input type A type A 0 000 to 20 000 mA Laer 4 000 to 20 000 mA i EOE Input type A aS o 0 000 to 5 000 V ca kb wa 1 000 to 5 000 V ae 5 000 V 9 12 Make sure the terminal wiring is correct for the input range Otherwise correct values will not be displayed of set value Parameter Set value oF SO o oes 300 0 to 1500 0 z 200 0 to 1300 0 300 0 t0 2300 0 a f 20005000 0 010900 0 4 5 100 0 1 850 0 100 010 1500 0 ss f 20004000 00107500 EE 200 010 400 0 800 0 to 700 0 a f 00108500 100 0 to 1500 0 8 8 200 0 10 400 0 800 0 to 700 0 tke 0 0 0 1700 0 0 0 t0 3000 0 eS 0 0t017000 0 0t03000 0 100 0 to 1800 0 300 0 to 3200 0 0 0 to 2300 0 0 0 to 4100 0 Power supply 55 50E Hz CPE ee Eliminates inductive noise from the power supply line Set to the power supply frequency Parameter Setting Procedure Input Type The following procedure uses the KSHB S as an example 3 s in RUN level to move to the initial setting level 3s min Displays TE e Lf is displayed on the level bank display to indicate the initial setting level A Press
77. 99 STEP Step value ORE T2110 AVG T Average type Simple average moving average AVG N Averaging times 1 2 4 8 16 32 64 128 512 1 024 times MEMO LEVEL fea D REF Display refresh period FF OFF 0 5s 1s 2s 4s 1s max ne MEN Power interruption memory FFI OFF ON Display adjustment level FF El 5 E SV DSP Comparative set value display J oP ce E OFF incremental OFF ON T COLOR L 12 AT Display color selection rn r Green red green red green red DISP Display value selection PV MAX MIN ce ce OE RET Automatic display return J uJ O to 99 s POS T Position meter type incremental reversed deviation deviation reversed I POS H Pas Position meter upper limit 19 999 to 99 999 ce DI POS L F AAT L Position meter lower limit 19 999 to 99 999 LEVEL 1s max Comparative set value level cel SV0 HH Comparative cel MODE Du 99999 set value 0 H 19 999 to 99 999 SV0 H ELH Comparative SVO L Comparative set value 0 L SVO LL Comparative L 45495 set value 0 LL Tna COPY _ 2 Bank copy SFF OFF ON
78. 99 999 maamt Standard output zone ase J output level output dar q DSP A1 ui Scaling display value A1 ut 19 999 to 99 999 LAA 1 Refer to the measurement range table on the front panel LEVEL 1 s min 959 59 AMOV Move to advanced function setting level INP A2 Scaling input value A2 19 999 to 99 999 Password 0169 Advanced function setting level INIT Set value initialization OFF ON PASS PASS output change LL L PASS 4 HH ERR HYS Hysteresis 0 to 9 999 OFF D Output OFF delay 0 to 1 999 100 ms SHOT Shot output 0 to 1 999 100 ms OUT N Output logic N O N C O STP Output refresh stop OFF OUT ALL T ZR Tare zero OFF ON Z TRM Zero trimming OFF ON HP F Previous average value comparison OFF ON BNK C Bank selection OFRIKEYaEV S TMR Startup compensation timer 0 0 to 99 9s S ERR Input error enable OFF OVER S ERR STDBY Standby sequence OFF ON CMOV Move to calibration level 19 999 to 99 999 2 This is not displayed in the factory default state Change the setting level protection to 0
79. DE 49999 P value L GEE OFF ON 1 smin muse ce H ZR PT Measurement value Forced zero protect 49999 Comparative set value LL GFE OFF ON 19999 to 99999 ice AA m MM PT MAX MIN protect Parameter Display _ Always displayed regardless of model or settings Press the the RUN or initial setting level Displayed only for certain models or settings Adjustment level ce MODE LEVEL key for at least 1 s from any display except for the protect level to return to the first parameter in LEVEL 1s max BANK Bank o Oto7 Displayed when bank ce selection bn L is set to KEY I gt pe CMWT LZ E Communications write AFF OFF ON Displayed only for Communications Units LEVEL 3s min Measurement stops gt Measurement starts LEVEL 1 smin Initial setting level n EA A E Input type A IN TA a DSP A2 w PAZ Scaling display value A2 3535 19 999 to 99 999 ERE s E i DP Decimal point position E zg Power frequency g 0to4 50 60 Hz o0 000 co p PD INP A1 OUT P LA SW Scaling input value A1 4 2 E Comparative output pattern a 19 999 to
80. EL Key for at least 1 s to return to RUN level Fa 1smin T1 a Cor am p Je fab 2 o gt 0 a gt gaj q fab 5 a gt Je 5 87 Je 4 feb a p cS gw p Li E Section 5 Functions and Operations 5 35 Automatic Return to Normal Display Display adjustment level TTT aS G G GS If no keys are operated for a specified time after switching the display in the RUN level or adjustment level the display will automatically return to the RUN level The time until the display returns automatically RET can be set and the automatic display return can be disabled through this setting Automatic display return settings are made using the following parameter Parameter Setvalue Meaning of set value 0 to 99s eum Anes enn Automatic display return will not occur if set to 0 b ia Ia Parameter Setting Procedure A Press the _ LEVEL Key for at least ma rc j gt 3 s in RUN level to move to the initial e Lf is displayed on the level bank display to indicate the initial setting level B Press the LEVEL Key several times to move to the display adjustment level e Le is displayed on the level bank display to indicate the display adjustment level C Press the ce MODE Key several times to change the PV display to er D Press the SHIFT Key to make the SV displa
81. ESET D4 ZERO D5 Ha LL 2 10 2 2 Using I O E K3HB X 00AN DC Voltage DC Current AC Voltage or AC Current Input OokowpP AC voltage only Input the signal to be measured The following figure shows the inputs that can be measured by each model Connect the input devices to the terminals shown below according to the input type Make sure that the allowable instantaneous overload is not exceeded even momentarily K3HB X AC voltage only Circuit Diagram E2 E3 E4 E5 AC voltage only Buffer Amplifier U o O Q Q gt ep Section 2 Preparations D roo 60000 0 50000 5 5000V Es B 19 909mA 02001021800 mA EB Moama D ao0020000mA 20001022000ma 5 roam V prar a 1 a Q an e omwtsv oozy er D 0o01 1 9988 000001018980V Ea B 0 0000 0 1 9900V o0000102t900V Es O EE Ee B 000i 19 999 mA 0 00010 2 999mA 5 oam 2 12 2 2 Using l O E K3HB V Input the signal to be measured The following figure shows the inputs mV Load Cell Input that can be measured by each model Connect the input devices to the terminals shown below according to the input type A B C D E Make sure that the allowable instantaneous overload is not exceeded even momentarily 00AN
82. FF gt ON 1 ms and ON gt OFF 1 5 ms For two inputs OFF ON 2 ms and ON OFF 2 5 ms For relay outputs The relay operation time of 10 ms is added to the transistor output response times E Operation Timing Examples Example 1 The Unit operates as shown in the diagram to the right for the settings shown in the a2 i 9 gt 0 0 5 0 5 table below Input Input Input Input Input Input l Calculation A yy yy ff 4 Timing hold mode Output Output Output Output Output Output Averaging times n Comparative output response time 0 5 ms output response time See note 1 Example 2 The Unit operates as shown ee 1 05 05 05 05 05 05 in the diagram to the right for the settings shown in the Input Input Input Inout Input Input Input table below ere Input B Calculation Output Output Output Output Output Output Timing hold mode Comparative output response time 0 5 ms output response time See note 1 Averaging times n The output every 0 5 ms is the comparative output corresponding to the input change for either input A or input B The input change for both inputs is reflected in the comparative outputs every 1 ms gt O D gt 2 O D N A 27 YW ai 2 O Q Q Q lt x i Appendices Example 3 The Unit operates as shown in the diagram to the right for the settings shown in the table below Calculation Timing hold mode 8 times simple
83. H Output PASS E Output L Sam Output LL El Level Output Measurement value Comparative set value HH Comparative set value H Comparative set value L Comparative set value LL Output HH a 67 Output H _ __ Output PASS Sas Output L A Output LL D The PASS output turns ON when any of the HH H L or LL output turns OFF 5 44 5 15 Changing Comparative Output Patterns E Parameter Setting Procedure A Press the _ LEVEL Key for at least a 3 s in RUN level to move to the initial setting level 3smin Displays Li e Li is displayed on the level bank display to indicate the initial setting level T B Press the cel MODE Key several times Da to change the PV display to ane Ge C Press the X SHIFT Key to make the SV display flash e The setting can be changed and the SV display starts to flash D Use the IA UP Key to change the set value E Press the ce MODE Key to switch to 7 the next parameter GE E e The set value is registered F Press the L_ LEVEL Key for at least 1 s to return to RUN level ny 1s min Remarks Preventing output chattering gt P 5 46 Delaying output OFF timing gt P 5 52 TI gt Je pa lt gt m a gt Ss cD gt oe Outputting at set intervals gt P 5 49 Reversing output logic gt P 5 59 Holding already output compa
84. K A Calculation K A or K A B a a aa a a a a aa a ee eee 0 7 van When the Output Unit is lt CPA gt change in PASS output PASS or ERR Letting level protect 0 Re x x X X X Zero limit Zero limit value Averaging times Pitt yy COKE KATRANIE Al III t I xixi Input compensation input value 1 HE x x Input compensation value 1 Input compensation input value 2 Input compensation value 2 A sess _ conparaivesctvauedspay SudSP __ Display retresh period dreef Display colorselection cater in Displaywalue selection ase Display Automatic display return eef _ adjustment Position meter type 6e amp l O TWhen the Output Unitis lt CPA gt change in PASS output PASS or ERR a a ae ee ee a a u O x x z Ea x at Lx PV decimal point display re x Switching banks H omase al T rea Comparative set value i is the value between j HH 0 to 7 i When the Output Uni Comparative set value ai i A ig the value between 0 H 0 to 7 i When the Output Unit i Comparative Comparative set value n is the value between set value L 0 to 7 When the Output Unit is on Comparative set value is the value between 0 and 7 set on the comparative set vals ae LL 0 to 7 When the Output Unit is only lt CPA gt change in PASS output LL Switching banks Pasa tT a ea EREIZ OO Ee
85. LEVEL Key for at least 1 s to return to RUN level m 1smin T1 a Cor am p Je fab 2 o gt 0 a gt gaj q fab 5 a gt Je 5 37 E Section 5 Functions and Operations 5 13 Averaging Inputs Input adjustment level Amar os Gs G Ge The averaging function smooths the displays and outputs for input values with dramatic fluctuations such as spike noise ae Explanation of Functions Average processing There are two types of averaging simple and moving Select one type The number of samples averaging times can also be specified for the input values to be averaged Simple average is used when the display refresh period is to be lengthened Moving average is used to remove periodic noise superimposed on input signals For example with the K3HB S the relationship between the data refresh periods for both simple and moving averages when the averaging times is set to 4 is shown below Simple Average Voltage current input Sep S 0 5 ms S S Sampling 2 o Lo Lo Lo Average Average Average Average gt Li Measurement values and o 0 0 Y comparative outputs refreshed 0 5 ms x averaging times 4 2 ms Moving Average Voltage current input e 0 5 ms saming LI TT TTTTTTTITITTI T l i Ms t t t i 1 i i i Le u C G oe ee I i a
86. Lm _ 11 BANK ad mm Pat ine DP Decimal poi iti cs um Bank0 to 7 dw Fe Scaling display value A2 fad Oto aaa point postion g ZEOGU 19 999 to 99 999 ooann a Displayed when bank tea jce OUT Parameter Display be eee 2 La tkh Hle Pe E A p _ r Comparative output pattern co m __ Always displayed regardless of model or settings MODE i Zi CMWT 4 20 0to5V 1to5V 5V nAAL Elenea epui zene cuja LZ E Communications write Co 10V level output AFF OFF ON AMOV Displayed only for certain models or settings Displayed only for FAA Move to advanced Communications Units This is not displayed in the factory default state 7 function setting level Change the setting level protection to 0 19 999 to 99 999 Press the _ LEVEL key for at least 1 s from any display except for the protect level to return to the first tae Password parameter in the RUN or initial setting level LEVEL 0169 LEVEL 1 s min 1 s max Advanced function setting level INIT Set value initialization OFF ON Output test level E E Ge TEST Test input 21919991t01991999 WY Q 2 O Q Q Q lt
87. MRON representative Error in non volatile memory Press the __ LEVEL Key in this state for at least 3 s to return to the factory settings If the problem still persists repair is necessary Contact the point of purchase or your OMRON representative Flashing Normal The input value is outside the Change the input type setting to an on Serr operation possible measurement range or appropriate value in the initial setting level the input is faulty Quickly return the input to within the AE 2 This problem may occur if the possible measurement range were bere power is turned ON with nothing Refer to 5 2 Setting Input Types for connected to the input terminal details on the possible measurement This only means that the input is range for each input type P 5 11 outside the possible measurement range and does not indicate a product failure If the problem still persists after implementing the preceding measures repair is necessary Contact the point of purchase or your OMRON representative Flashing Normal operation The measurement value after Operation will continue with a scaling is either greater than measurement value of 99 999 or 99 999 or less than 19 999 19 999 If there is an operating problem adjust the input range and scaling value until the measurement value falls within the range Place the switch below the E slot toward the front KSHB H only The scaling value may be inappro
88. Middle rows of table reversed Pages A 2 Changed XAD to XVA and XVA to XAD in left column Page A 3 Changed column division within table under Event inputs i e Startup compensation timer input was moved to the same column as for the Hold input Page A 3 Changed max to min for the load resistance specification of the linear output Page A 10 Added information on BCD to table 4 About this Manual Manual Structure Preface Provides precautionary information a manual revision history an overview of the manual contents information on using this manual and other general information Section 1 Outline Provides an overview and describes the features of the product Section 2 Preparations Describes the mounting and wiring required before using the product Section 3 Basic Application Methods Shows typical applications for the product Also shows wiring and parameter settings which enables the user to understand how to use the product from practical examples Section 4 Initial Setup Describes the initial setup process when using this product Section 5 Functions and Operations Describes the functions and settings methods for more effective use of functions displays outputs and settings for each application Section 6 User Calibration Describes the methods for user calibration Section 7 Troubleshooting Describes how to check and possible countermeasures for errors Appendices Provides specificat
89. NDUtS cccccccccecseseeeeeeeeeeeeeeeeeeseeeseeeeesesaeeeeeess 5 33 5 12 Eliminating Drift Near 0 oo cceeeeeeeeececeeeeesesseeeeeeeeeeeeeeeeeeeeeaas 5 36 5 13 Averaging INputs sacttn cee ncnseteereadeatapeceeucadactbsaduetwcesdecncuctnsdacessdecbeeatedent 5 38 5 14 Detecting Sudden Input Changes cccccccceeeeeeeeeeeeeeeeeeeeeeeeeaes 5 41 Output Adjustments 2 5 15 Changing Comparative Output Patterns cceccecesseeeeeeeeeeeeeeees 5 44 5 16 Preventing Output Chattering ccccceeceecceeessesseeeeeesesseeeeeeesaeeseeees 5 46 5 17 Outputting for a Set Interval eeeeccceecccceeeeeeseeeeeeeeeeeeeeeeeeseneeaas 5 49 5 18 Delaying Output OFF Timing ccccceeeecceeeseesseeeeeeseeeseeeeeesaeeseeees 5 52 3 5 19 Holding Measurement Status 0 0 eee eee eee teeter ete eeeeeaeees 5 54 5 20 Holding Comparative Outputs cccccccceceeessseeeesseeeeeeeseaseaeeeeeees 5 55 5 21 Allocating Another Output to PASS Output ccccceeeeeeeeeeeeeees 5 57 Q 5 22 Reversing Output Logic cccceeessessseceeeeeeeeeeeeeeeceeeeeeeeeeeeeeeseeees 5 59 f 5 23 No Output before PASS Range ccccccccceceeseseeeeeeeeeeeeeeeeeaaeaeeeees 5 61 5 24 Performing Linear OutPUt ce ceceeeeecceeeeeeeeeseeeeeeeeeeeeeeesaeeaeeeeeees 5 63 a Display Adjustments
90. NSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM PROGRAMMABLE PRODUCTS OMRON shall not be responsible for the user s programming of a programmable product or any consequence thereof Disclaimers CHANGE IN SPECIFICATIONS Product specifications and accessories may be changed at any time based on improvements and other reasons It is Our practice to change model numbers when published ratings or features are changed or when significant construction changes are made However some specifications of the products may be changed without any notice When in doubt special model numbers may be assigned to fix or establish key specifications for your application on your request Please consult with your OMRON representative at any time to confirm actual specifications of purchased products DIMENSIONS AND WEIGHTS Dimensions and weights are nominal and are not to be used for manufacturing purposes even when tolerances are shown PERFORMANCE DATA Performance data given in this manual is provided as a guide for the user in determining suitability and does not constitute a warranty It may represent the result of OMRON s test conditions and the users must correlate it to actual application requirements Actual performance is subject to the OMRON Warranty and Limitations of Liability ERRORS AND OMISSIONS The information in this document has been carefully checked and is believed to be accurate however no responsibility is
91. O signal line Surge EN61000 4 5 1 kV with line power line 2 kV with ground power line Radio frequency electric EN61000 4 6 3 V 0 15 to 80 GHz interference Momentary power interruptions EN61000 4 11 0 5 cycle 0 180 100 from voltage dips rated voltage gt KS O D 5 Q O D n a Q 2 O Q Q Q lt Appendices E Input Characteristics K3HB X wee rT 199 99V 199 99t021999V 4 hee 19 999 V 1 999 to 21 999 V 41 9999 V 1 9999 to 2 1999 V DC voltage input all ranges 0 1 rdg 1 0000 to 5 0000 V 0 5000 to 5 5000 V 1 dig max 199 99 mA 199 99 to 219 99 mA DC current input all ranges 0 1 rdg 19 999 mA 19 999 to 21 999 mA 1 dig max 1 9999 mA 1 9999 to 2 1999 mA AC voltage input 0 0 to 400 0 V or 0 00 to 4 000 to 20 000 mA 2 000 to 22 000 mA 199 99 V 0 3 rdg 5 dig max 0 0 to 400 0 V 0 0 to 440 0 V AC voltage input 0 000 to 19 999 V or 0 00 to 199 99 V 0 00 to 219 99 V 0 0000 to 1 9999 V 0 5 rdg 10 dig max 0 000 to 19 999 V 0 000 to 21 999 V AC current input 0 000 to 10 000 A or 0 0000 to 1 9999 V 0 0000 to 1 9999 V 0 0000 to 1 9999 A 0 5 rdg 20 dig max 0 000 to 10 000 A 0 000 to 11 000A AC current input 0 00 to 199 99 mA or current 0 0000 to 1 9999 A 0 0000 to 2 1999 A 9 900 to 19 999 A 0 5 rdg 10 dig max AA 0 00 to 199 99 mA 0 00 to 219 99 mA 0 000 to 19 999 mA 0 000 to 21 999 mA Note The accuracy is for
92. Outline Preparations Basic Application Methods Initialization Functions and Operations i User Calibration Troubleshooting Appendices s Manual K3HB S X V H Digital Indicators User Preface Thank you for purchasing the K3HB This manual describes the functions performance and application methods needed for optimum use of the KSHB Please observe the following items when using the K3HB e This product is designed for use by qualified personnel with a knowledge of electrical systems e Read this manual carefully and make sure you understand it well to ensure that you are using the K3HB correctly e Keep this manual in a safe location so that it is available for reference when required Notice 1 All rights reserved No part of this manual may be reprinted or copied without the prior written permission of OMRON 2 The specifications and other information contained in this manual are subject to change without notice in order to make improvements 3 Every precaution has been taken in the preparation of this manual Nevertheless OMRON assumes no responsibility for errors or omissions If you discover any problems with this manual please notify your nearest OMRON representative providing them with the catalog number provided on the cover Read and Understand this Manual Please read and understand this manual before using the product Please consult your OMRON representative if you
93. Rees ES ose se 3 22 Section 4 Initial Setup 4 1 K3HB X Initial Setup Example K3HB XVD 0 0 00 4 2 4 2 K3HB V Initial Setup Example K3HB VLC 0 0 0 eee 4 4 4 3 K3HB H Initial Setup Example K3HB HTA 0 0 0 eee 4 6 4 4 K3HB S Initial Setup Example K3HB SSD 0 0 0 0 cee 4 8 Section 5 Functions and Operations Knowledge Required for Setting Parameters 0 0 00 0c eens 5 2 Operation Adjustments 222222222 e nnn n nnn n nnn e eee eenne nee 5 1 Setting Calculations 0 00000 eee eens 5 9 32 SONEM IV pes ss 5240554 esheeeaieeesa tno s use o05eeeens 460edaness ieee 5 11 DO SEMNE SCANNE VANCES 4 6 4 606s 246 oh 8 hb hea he hede seo 5 4 550 5050 2405S 4S 5 14 54 Setting the Temperate Unii 224520245 08655 4560558 imici GS toe eSSbeeeteeesi es 5 18 5 5 Setting Measurement Operations 0 00 0 5 19 5 6 Shifting the Temperature Input 00 eens 5 24 5 7 Resetting Measurements nnna anana dee be aoeeendatens eyed e be daeeebaes 5 26 5 8 Not Performing Measurements for Set Intervals 0 0 00 cee eee 5 27 CONTENTS 1 O O mD F gt F ep i Contents Input Adjustments 2 2 0220 222222222 e nnn n enn n nnn n nee n eee e een en nnn n eens 5 9 Selecting Operations for Input Errors 0 0 0 0 0 0 ee eee eens 5 29 D 5 10 Disabling Cold
94. Setinput type A to 0 000 to 19 999 mV When input type A is set the 1 Move to the initial setting level by pressing the LEVEL Key for at least scaling value and decimal point 3 s operation will stop position will be initialized 2 Set input type A cn amp F to b LE and press the cel MODE Key twice automatically 4 2 K3HB V Initial Setup Example KSHB VLC C Set the scaling value 1 Set scaling input value A1 cn AP to i uuu and press the cel MODE Key 2 Set scaling display value A1 a5 Al to I and press the ce MODE Key 3 Set scaling input value A2 anf Ae to iS S95 and press the fe MODE Key 4 Set scaling display value A2 d5 AZ to iiiu and press the cel MODE Key D Set the decimal point position 1 Set the parameter dP to aa aaa and press the kel MODE Key E Set comparative set value H to 0 700 and set comparative set value L to 0 500 1 Return to the RUN level by pressing the L LEVEL Key for at least 1 s Start operation 2 Press the el MODE Key repeatedly until the SV display status shows CHD 3 Set the value to 4 iii and press the cel MODE Key The SV display status will show lt I 4 Set the value to amp 50u and press the ce MODE Key The setting procedure is completed F Start actual operation 1 Press the el MODE Key repeatedly to display the m
95. The display doesn t flash Overflow Display aap The display is fixed and flashes at Outputs correspond to the the measurement value that fixed display value corresponds to the upper or lower limit of the input range Input error Display C opus Error display flashes All outputs are turned OFF Cc jw The errors are AEr or Ere for the K3HB S and S r for the K3HB X V H Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial ma setting level 3smin Displays Li TI a2 oe pa a ro oS cD a gt oe p m kans a M e La is displayed on the level bank display to indicate the initial setting level 5 29 E Section 5 Functions and Operations B Press the kel MODE Key several times Di to change the PV display to AAdw Ge e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP and SHIFT Keys to set the password i645 Press the MODE Key to move to the advanced function setting level e LF is displayed on the level bank display to indicate
96. U EU Comparative set value 19999 to 99999 6H Comparative set value 6L 19999 to 99999 15555 to 45599 S555 to 9559 39999 19555 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 6LL Comparative set value Du HH 7HH 19999 to 99999 15555 to 495599 5555 to 55955 Conforms to decimal point position Conforms to decimal point position Comparative set value 19999 to 99999 7H Comparative set value 19999 to 99999 7L 15555 to 95599 S555 to 9559 Conforms to decimal point position Conforms to decimal point position Comparative set value 19999 to 99999 7LL S555 to 39559 Conforms to decimal point position EU EU A 15 gt Ke 1S D 5 Q O D n Appendices Linear voltage type Linear Linear current type current type SEEE 0 20 mA 4 20mA 4 20 mA g ag 4 27 COW 0 5 V 1 5 V 0 10 V Linear output upper limit Linear output lower limit 19999 to 99999 19999 to 99999 rPorc anm aa Conforms to decimal point position Conforms to decimal point position Communi Communications cations set protocol tings EE 7 g Communications unit number CompoWay F Modbus CYF Aad 0 to 99 Baud rate Communications data length 9 6 19 2 38 4 Communications stop bits Communic
97. _ LEVEL Key for at least 1 s to return to RUN level Fa 1s min Sep lt Sa co a fab a D O cS SP gt LL 5 60 5 23 No Output before PASS Range E 5 23 No Output before PASS Range Advanced function setting level xj Vi Sy Hy The standby sequence function can be used to prevent outputs from turning ON for unstable inputs after the power is turned ON All outputs will remain OFF until the measurement value reaches the PASS value STDBY Comparative set value HH H Measurement value Comparative set value LL L Output LL L All outputs will remain OFF after power is turned ON until the measurement value reaches the PASS value Standby sequence Oo a Disabled Parameter Setting Procedure A Press the _ LEVEL Key for at least 7 3 s in RUN level to move to the initial m e La is displayed on the level bank display to indicate the initial setting level TI a2 gt oe pa lt gt I a lt gt cD gt oe B Press the cel MODE Key several times to change the PV display to Fadu e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display start
98. a Parameter Characters Set value Remarks Timing hold EAG H naaAt_ Normal Display Adjustment Level a re Parameter Characters Setvalue Remarks Display value lay value Piay Present value selection Other parameters are set to their default values Je gej O ds lt b 2 co Q oz lt L 2 Jp 4 mm 3 8 3 3 Weighing Material E 3 3 Weighing Material Advantages of Using the K3HB V e Resin can be weighed e A load cell sensor is used to detect the weight of resin For example O to 100 kg can be displayed with a rated load cell specification of 100 kg recommended applied voltage of 10 V and rated output of 2 mV V e Here 2 mV V means the load cell outputs 2 mV with 1 V applied at the rated load 100 kg weight in this case With 10 V applied the load cell output is 20 mV 2 mV x 10 e The weight of the resin is displayed on the K3HB VLC in kilograms ULI kg e The weight of the resin is displayed using the 20 section display on the position meter provides a full scale level display e The number of measurements to be averaged averaging times can be set to 4 to ensure stable readings of levels in relation to full scale 0J pan cos Cap I gt O gea E Q tq t p Q lt gt m 7e e The rightmost digit on the display can be rounded to 0 or 5 e he weight of the tank can be subtracted to display only the weight of th
99. a a a ae a Se a e Communicators date engi tE 1 1 J a a ee es a a l M a a a a a Communications waittime Sate e eee a e a D ii aa C input rest a Set value initialization A cwe PASS output change output change Hysteresis Output OFF delay Shot output Output logic Output refresh stop Advanced Tare zero function setting Communications settings ESETA S apes eee SS ee pee re Zero trimming Habek ape r 41 Sie a SS a Previous average comparison Bank selection na Pe ed When the Output Unit is lt CPA B gt change in PASS output PASS or ERR Ce Me AEA ead lt K35 1 to 4 gt Event Input Items marked may not be displayed due to Unit configuration or settings Others are always displayed lt K34 C1 gt Relay Output H L Displayed if the Unit is connected lt K34 C2 gt Relay Output HH H L LL A Displayed if the Unit is connected and the setting conditions are met lt K34 T1 T2 gt Transistor Output lt K34 BCD gt BCD Output lt K33 CPA B gt PASS Output lt K33 L1A B gt Linear Current Output lt K33 L2A B gt Linear Voltage Output lt K33 FLK1A B gt RS 232C lt K33 FLK2A B gt RS 485 lt K34 DRT gt DeviceNet gt O O D gt Q O CD on A 17 Appendices About Parameters E KSHB X Power ON Protect level RUN level Initial setting level
100. aaf on Enabled Li A F I LI off Disabled Zero limit value LIM P Lea The decimal point depends on the decimal point position setting Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial st level in Displays L e T 35 Li is displayed on the level bank display to indicate the initial setting level m j gt ww a B Press the _ LEVEL Key again once less than 1 s to move to the input a dbs level L is displayed on the level bank ase ess tanig EA n 4 as q gt a p cS gw p Li C Press the cel MODE Key aae times to switch the PV display to L A D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the lAl UP Key to change the set value to an to e Change the set value to oF disable the setting F Press the kel PUE a to switch to 5 the next parameter Le e The set value is Sea 5 36 5 12 Eliminating Drift Near 0 E G Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash H Use the lAl UP and SHIFT Key to change the zero limit value Press the tel MODE Key to switch to the next parameter Ge e The set value is registered J Press the _
101. al status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash 9 92 5 18 Delaying Output OFF Timing E D Use the IA UP and SHIFT Keys to set the password d 155 Press the MODE Key to move to the advanced function setting level e LF is displayed on the level bank display to indicate the advanced function setting level F Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the IA UP and gt SHIFT Keys to change the set value Al gt H Press the tel MODE Key to switch to the next parameter Ge e The set value is registered Press the LEVEL Key for at least 1 s to return to the initial setting level m 1s min J Press the C LEVEL Key for at least a 1 s to return to RUN level mE SE 1s min Remarks Outputting at set intervals gt P 5 49 Holding already output comparative outputs P 5 55 9 93 E Section 5 Functions and Operations 5 19 Holding Measurement Status TAR KESH Measurement values maximum values minimum values and output status can be held while the HOLD input is ON Comparative set vaLue HH H Comparative set value LL L HOLD input Output HH
102. an input frequency range of 40 Hz to 1 kHz except for AD current input A and B ranges and an ambient temperature of 23 5 C The error however increases below 10 of the maximum input value DC voltage input all ranges 10 or less of max input 0 15 FS DC current input all ranges 10 or less of max input 0 1 FS AC voltage input 0 0 to 400 0 V 10 or less of max input 0 15 FS AC voltage input 0 00 to 199 99 V 10 or less of max input 0 2 FS AC voltage input 0 000 to 19 999 V or 0 0000 to 1 9999 V 10 or less of max input 1 0 FS AC current input 0 000 to 10 000 A 10 or less of max input 0 25 FS AC current input 0 0000 to 1 9999 A 10 or less of max input 0 5 FS AC current input 0 00 to 199 99 mA or 0 000 to 19 999 A 10 or less of max input 0 15 FS K3HB V a 0 00 to 199 99 mV 19 99 to 219 99 MA 9 99 to 199 99 mV 40 1 rdg 1 dig max s h 000 to 19 999 mV 1 999 to 21 999 MA 0 000 to 19 999 mV 0 1 rdg 5 dig max 100 00 mV 110 00 to 110 00 mV 100 00 mV 0 1 rdg 3 dig max 4 199 999 mv 199 99 to 219 99 mv 2199 999 mV 0 1 rdg 1 dig max Note The accuracy is for an ambient temperature of 23 5 C For all ranges 10 or less of max input 0 1 FS Specifications K3HB S Input type Setting Specified range range Voltage input 05t0o55V spe ane 1to5V 0 5 to 5 5 V 5to 5 V 2D For 1 input 0 1 FS 1 digit max for 2345 C
103. and DeviceNet Transistor output lt K34 T1 gt lt K34 T2 gt PNP Relay output Relay output lt K34 C1 gt i lt K34 C2 gt H L DeviceNet Connector BCD NPN Open Collector lt K34 BCD gt Included DRT lt K34 DRT gt e Applicable Connector Sold separately HDR E50MAG1 HONDA TSUSHIN KOGYO CO LTD e Special Cable Sold separately K32 BCD OMRON HDR E50MAG1 with 0 3 m cable REQUEST MAX REQ COMMON MIN REQ RUN DATA VALID LL OVER COMMON 1 V Power supply cable Black N C 2 CAN L Communications cable Blue 50 3 Shield 4 CAN H Communications cable White 5 V Power supply cable Red 25 Applicable Connector HR31 5 08P 5SC 01 HIROSE ELECTRIC CO LTD Attach the provided crimp terminals 10 10 a4 Bagi a COMMON 10 10 10 The BCD COMMON is shared The pins indicated in the above diagram as blank white boxes have been removed Only one of RS 232C RS 485 communications BCD or DeviceNet can be used by each Digital Indicator maa O Pin arrangement K32 BCD K3HB end 300 mm Cover HDR E50LPA5 manufactured by Honda Tsushin Co Ltd Connector HDR E50MAG1 manufactured by Honda Tsushin Co Ltd Connected device end PLC display device etc 46 5 mm D sub connector 37 pin female Cover 17JE 37H 1A manufactur
104. applications are possible for non metallic objects using an ultrasonic displacement sensor Jp gaj O E lt b 2 co Q oz lt L 2 Jp 4 mm Linear Proximity Sensor E2CA TIMING input v4 pushbutton switch K3HB S Linear Proximity Sensor E2CA Pushbutton switch Measures only while ON 3 20 3 7 Measurement of Disk Eccentricity E m rotation O4 amp Status of workpiece C C gt C C Linear Proximity y Sensor output Pushbutton switch OFF ON while rotating once or me K3HB S display Reset status A When the workpiece has rotated once or more the desired value A is measured 0J pan ee op I gt O gza Q tq t Q o 7e E K3HB S Setting Details Initial Setting Level 1 2 Parameter Characters Set value Remarks Caiulation e A Input ype A caren 4 20 Scaling input value A1 E2CA Output mA Scaling display value A1 ie I Displacement Scaling display l mm value A2 Decimal point position Input Adjustment Level Ci Parameter Characiers Set value Remarks Timinghold AG H P P Peak to peak hold Other parameters are set to their default values 3 21 E Section 3 Basic Application Methods 3 8 Step Inspection Advantages of Using the K3HB S e Calculation mode A B can be used to measure steps using two displacement sensors
105. ash 2l e The setting can be changed when the SV display starts to flash 5 57 E Section 5 Functions and Operations D Use the IA UP and SHIFT Keys to set the password i645 Press the MODE Key to move to the advanced function setting level e LF is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key to change the PV display to PASS F Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the set value H Press the cel MODE Key to switch to Hae the next parameter Ge E e The set value is registered I Press the L_ LEVEL Key for at least 1 s to return to the initial setting level r s 1s min J Press the __ LEVEL Key for at least 1 s to return to RUN level ma Z 1s min 5 58 5 22 Reversing Output Logic E 5 22 Reversing Output Logic Advanced function setting level Gy Nyy FED Xs Va Sn The output logic reversal function sets the logic of comparative outputs for comparative results Operation Parameter ae Comparative Comparative e result a status The comparative outputs will turn OFF if an input error occurs when open in alarm is set Turns OFF when an input error occurs Parameter Setting Procedure A Press the _ LEVEL Key for at le
106. assumed for clerical typographical or proofreading errors or omissions Safety Precautions Definition of Precautionary Information The following notation is used in this manual to provide precautions required to ensure safe usage of the product The safety precautions that are provided are extremely important to safety Always read and heed the information provided in all safety precautions The following notation is used Indicates a potentially hazardous situation which if not avoided will result in minor or moderate injury or may result A WARNING in serious injury or death Additionally there may be significant property damage Indicates a potentially hazardous situation which if not PANO VUON avoided may result in minor or moderate injury or in property damage Symbols General Caution Indicates non specific general cautions warnings and dangers Caution Electrical Shock Caution AN Indicates possibility of electric shock under specific conditions TEN General Prohibition Prohibition a a Indicates non specific general prohibitions General Caution Indicates non specific general cautions warnings and dangers Mandatory Caution Precautions Z WARNING Do not touch the terminals while power is being supplied Doing SO may possibly result in electric shock Make sure that the terminal cover is installed before using the product Always provide protective circuits in the network W
107. ast 1 s to return to the initial setting level ma m 1s min J Press the _ LEVEL Key for at least 1 s to return to RUN level PE 1smin Remarks Setting the present measurement value to 0 forced zero P 5 65 T1 a Cor am p Je fab 2 o gt 0 a gt gaj q fab 5 a gt Je 5 69 E Section 5 Functions and Operations 5 27 Compensating Forced zero References Advanced function setting level Xj Vv f5 The zero trimming function compensates the forced zero shift value based on the measurement value for an OK object PASS data while forced zero is being executed This function can be used if the timing hold setting is set to sampling hold peak hold or bottom hold The zero trimming algorithm is shown below Calculates measurement value A Forced zero value ZRn DispLay value D A ZRn Comparative judgement Forced zero value correction ZRn 1 a x ZRn 1 a x A a Previous zeroed weight 0 9 Application Example Absorbing temperature drift for linear sensors The reference device is measured using the linear sensor and forced zero is executed first thing in the morning when the room temperature is low While workpieces are subsequently being measured the room temperature gradually increases and the measurement values gradually change due to the temperature characteristics of the linear sensor Je IS j cS feb a p
108. ast 3 s in RUN level to move to the initial Ly setting level 3smin Displays Li e Lf is displayed on the level bank display to indicate the initial setting level Daga mal B Press the kel MODE Key several times to change the PV display to Fadu suoneado pue suoroun e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the A UP and SHIFT Keys to set the password i655 Press the Al gt MODE Key to move to the Displays TI advanced function setting level Ge e LF is displayed on the level bank display to indicate the advanced function setting level 5 59 E Section 5 Functions and Operations E Press the kel MODE Key several times D to change the PV display to atte 7 Ge F Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the set value H Press the cel MODE Key to switch to the next parameter Ge e The set value is registered Press the L_ LEVEL Key for at least 1 s to return to the initial setting level ma Li 1s min J Press the _
109. asurement values when the rotating axis is eccentric is due to the eccentricity or to a burr Measurement Values _ Measurements without using previous average value comparison Measurements using previous average value comparison gt 360 5 41 T1 a am p Je fab 2 o gt 0 gt Ea q am n E Section 5 Functions and Operations Previous average value comparison makes the measurement value the difference between the present input value and the average of all previous input values number or np pep ay Comparative set value for next input measurements value value CO YOA 1 V341 L V14V2 Vater 3 Vn Vn indicates the input value and Cn indicates the comparative set value used for the next input Previous average value comparison is performed on confirmed measurement values e When the timing hold is set to Normal the comparison is performed every time e When the timing hold is set to a setting other than Normal the comparison is performed on held values Previous average value comparison is set using the following parameter LP Hoe Parameter Set value Meaning of set value l Previous average value HP F Previous average comparison disabled value comparison ee p oT n IS _ feb a p cS gw p Li A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial set
110. ations parity None even odd nank Eutn add Send wait time Output test TeSt input 0 to 99 ito 39 OFF 19999 to 99999 AFF 95999 to 99959 Conforms to decimal point position Set value initialization PASS output change OFF ON LL L PASS H HH ERR Hysteresis Output OFF delay 0 to 9999 G to 3999 0 to 1999 Gto 399 Conforms to decimal point position Shot output 0 to 1999 Close in alarm open in alarm Output logic Advanced function Output refresh stop OFF OUT ALL settings Tare zero Zero trimming Previous average value comparison OFF ON Bank selection Startup compensation timer OFF KEY EV 0 0 to 99 9 a0 togas Operation at input error Standby sequence OFF overflow input error Cold junction compensation Move to the calibration level Others Linear output calibration value H Linear output calibration value L 1 Variable CO is sued for reading communications data has been added N Q 2 O c Q Q Q lt 2 Set the bank parameter to EV when an event input connector is mounted as a standard feature or Parameter Display Conditions Parameter Display Conditions Unit oat Output Parameter Gerda 7 lt K34 lt K33 1 lt K33 es Fikias Setting Conditions name T1 gt 1 lt K34 L1A gt 1 L2A gt k33 FLKiBs lt K34 XPV ISTH Nags lt K34 BCD gt
111. ay to an amp Ge F Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the IA UP and SHIFT Keys to change the ON timing delay time e Units ms for the K3HB S 100 ms for the KSHB X V H H Press the El MODE Key to switch the PV display to the next parameter af F L D e The parameter an amp is registered Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash J Use the A UP and SHIFT Keys to change the timing delay Al gt e Units ms for the KSHB S 100 ms for the KSHB X V H K Press the ce MODE Key to switch to the next parameter Ge e The set value is registered L Press the LEVEL Key for at least 1 s to return to RUN level ra 1s min suonesado pue suoroun 5 35 E Section 5 Functions and Operations 5 12 Eliminating Drift Near 0 Input adjustment level The zero limit function makes all measurement values 0 for inputs lower than a set value If the input value is less than the set value the measurement value becomes 0 This function is effective to eliminate display drift and displacement near 0 I yr Set the following parameter for zero limit The zero limit value can be a L m set only when zero limit has been enabled ZIN Meaning of set value Zero limit a
112. caling display value A1 19999 to 99999 19999 to 99999 155959 to 99555 Conforms to input type uppoo RRR VD 19999 AD 19999 u ppp RRR Conforms to input type Scaling input value A2 Scaling display value A2 19999 to 99999 19999 to 99999 Conforms to input type ee ouu 2134 55 Pae Da a Da Da E Al Lal l al 43999 POEEE pat RTE STE Conforms to input type Input type B Scaling input value B1 enFb i 0 to 20 mA 4 to 20 mA 8 20 4 20 7 5 0 to 5V 1to5 V 5 V 5 5 0 10 V 19999 to 99999 155959 to 95555 Conforms to input type Conforms to input type Scaling display value B1 Scaling input value B2 1af A 19999 to 99999 19999 to 99999 ure ULI LIL W Da Da Da Dal E AN N L al EU Conforms to input type Scaling display value B2 Constant K 19999 to 99999 19999 to 99999 15555 to 99555 Decimal point position Temperature unit 0 4 mma a re to LILOLILILG LALALALA N mam m m a BOLE ROR DADA DN N al Dr a Da Da Da At RO C F T F Comparative output pattern Standard outputs zone narnAL Fank LEu L outputs level outputs gt Ke 1S D 5 Q O D n Appendices aa LL ou SS a Ini Timing hold bAu H Normal sampling peak naAAl 5 H F H anA bottom peak to peak n HP P ON timing delay nTE 0 to 4999 oto 4599 OFF timing dela
113. d function setting level press the cel MODE Key several times and display the t rau parameter to move to the calibration level e The parameter character is Z Adu B Press the SHIFT Key to make the SV display flash e The parameter can be changed when the SV display starts to flash C Use the IA UP and SHIFT Keys to set the password The teu 1201 password is iZi D Press the ce MODE Key to write the password e If the password is correct the Unit moves to the calibration level e If the password is incorrect the Unit remains in the advanced function setting level and the next parameter is displayed The set value is always 0 after moving from character display to monitor status Move to the calibration level Change status E w w w ad o AAD mEn a eee Use the L gt SHIFT and A UP Keys to set the password Password doesn t match Password matches To next parameter Does not move to the calibration level Calibration level Set value initialization Operation in Parameter Operation Procedure Calibration Level A Follow the steps outlined above to move to the calibration level e The aging timer is displayed e The aging timer is a 30 minute countdown timer that counts until O is reached oa e A calibration record mark will be Calibration displayed if a user calibration history record mark exIsts 6 6
114. displaying numerals the decimal point in measurement values P5 93 Hy Other Max Min hold Bank selection Bank copy Holds the maximum and Eight comparative set value Any bank setting can be minimum measurement banks can be selected using copied to all banks values the keys on the front of the Unit or by external inputs Groups of comparative set values can be set and can be selected as groups P 5 54 Vv 5j f P 5 93 f Vv 6 f P 5 98 x Vv f5 f Cold junction User calibration Power interruption memory compensation Enables or disables terminal Allows the user to calibrate the Enables recording the temperature compensation K3HB maximum and minimum P 5 31 P6 1 fo values when power is H X Vi S4 fh interrupted gt P5 75 Vv 6 f 1 2 Component Names and Functions E 1 2 Component Names and Functions Level bank display Max Min status PV display Comparative output status 3 Position meter Status indicators D 2 SV display SV display status 8 D 12 LEVEL Key qj SHIFT Key MODE Key PV display Displays PVs maximum values minimum values parameter names and error names SV display Displays SVs and monitor values Displays the position of the PV with respect to a desired scale Comparative output Display the status of comparative outputs Status indicators Max Min status Turns ON when the maximum value or minimum value is displayed in the
115. e A Set the R thermocouple _ thermocouple sensor range Temperature Set the temperature unit unit to C Comparative Zone outputs output pattern Move to Move to advanced func advanced tion setting level to set the function standby sequence setting level Advanced Function Setting Z i Parameter Characters Set value HEWES Standby Enable the standby sequence sequence 3 4 Temperature Monitoring Control with Multi level Output E Input Adjustment Level Parameter Characters Set value Remarks Timing hold EAG H_ naaRt_ Norma Display Adjustment Level a re Parameter _ Characters Setvalue Remarks Display value Present value selection Position Incremental display meter type Position meter upper Full scale Position 0 0 C to 1400 0 C meter lower Decimal point Display numbers below position the decimal point spoja UOHeOIddy aseg Other parameters are set to their default values 3 13 E Section 3 Basic Application Methods 3 5 Product Height Measurement and OK NG Judgement Advantages of Using the K3HB S e he sampling hold function can be used together with a sync sensor to display and hold product heights e The forced zero function can be used for one touch zero adjustment e The position meter display can be used to display how far the measurement value deviates from the center e The dimensions of molded parts can be checked or caps that are not tig
116. e A ee eae range ROWER TINE j it ere it a VES gh ree ust Measurement Measurement invalid because a sensor M asurement invalid because reset error occurred during measurement input received during measurement Power ON period RESET The PV display will show in no measurement status Selecting operations for input errors gt P 5 29 peas Operation will continue if input error enable is set to OFF disabled or OVER overflow Je IS j cS 2 feb a D gae cS gw p LL If the measurement exceeds the measurement range with the input error enable parameter 5 set to OFF disabled then the upper or lower limit of the measurement range will be taken as the measurement value The display will flash if the input error enable parameter is set to OVER overflow A sensor error will not occur in either case and a comparative value judgment will be made on the displayed value Comparative results are not based on measurement values shown with dotted lines 5 22 5 5 Setting Measurement Operations E Parameter Setting Procedure A Press the _ LEVEL Key for at least n 3 s in RUN level to move to the initial m setting level 3 s min Displays Lf e LG is displayed on the level bank display to indicate the initial setting level B Press the L_ LEVEL Key again less than 1 s to move to the input rm cp
117. e resin A forced zero function can be used to shift the reading on the display to 0 when the empty tank is on the scale Weighing Indicator K3HB VLC Load Cell Sensor example Rating 100 kg 2 mV V output Recommended applied voltage 10 V Connections Diagram K3HB V Operation 100 to 240 VAC 24 VDC AC 3 9 Je os O ds eb gt 2 co Q or lt L 2 Jp 4 mm E Section 3 Basic Application Methods Initial Setting Level i Parameter Characters Set value Remarks input typeA cn tA bit Scaling input value A1 Scaling display value Display value Weight Scaling S K3HB VLC input display value Decimal point position Input Adjustment Level t Parameter Characters Set value Remans Timinghold EAG H maak Noma Zero limit Enables the zero limit function Zero limit value Displays 0 for values less than zero Step value Rightmost digit will change from 0 to 5 to O etc Averaging type AuG k mauE Moving average Moving average Averaging 4 times Display Adjustment Level pa Le Parameter Characters Setvalue Remarks _ Display value Present value selection Position Incremental display meter type Position meter upper limit Full scale Position 0 0 to 100 0 kg meter lower limit
118. e set values for each bank Comparative set values are set using the following parameters Meaning of set value Comparative set value HH 75595 to 19999 to 99999 Dux HH 353395 Comparative set value H 1333 to 19999 to 99999 Duk H i 1 Comparative set value L 133535 to 19999 to 99999 Duk ba be BB Comparative set value LL 79594 to 19999 to 99999 Seek bh II The decimal point depends on the decimal point position parameter setting Parameter Setting Procedure A Press the _ LEVEL Key for at least to X SV LL 3 s in RUN level to move to the initial setting level 3smin Displays Li a My e La is displayed on the level bank display to indicate the initial setting level TI a2 oe fas a re Ss cD a gt oe mam B Press the LEVEL Key several times to move to the comparative set value level Ly L4 is displayed on the level bank display to indicate the comparative set value level C Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the Al UP Key to select the bank to be set E Press the cel MODE Key m e The bank selected in step D can be set 9 95 Je IS j cS feb a p pae cS gw _ p LL E Section 5 Functions and Operations 5 96 F Press the tel MODE Key s
119. e the input adjustment level C Press the cel MODE Key several times o to switch the PV display to Ruu t Ge D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the IA UP Key to change the average type setting F Press the cel MODE Key to change to a the next parameter Ruiti n e The average type setting is registered G Press the SHIFT Key to make the aF SV display flash gt Ee PIUSA H Use the IA UP Key to change the E Fo averaging times setting EN DARES Press the tel MODE Key to switch to the next parameter Ge e The averaging times setting is registered J Press the __ LEVEL Key for at least 1 s to return to RUN level ra 1s min Remarks Changing display refresh periods gt P 5 73 9 40 5 14 Detecting Sudden Input Changes E 5 14 Detecting Sudden Input Changes Advanced function setting level TA KIK SIAJ The previous average value comparison function can be used to detect only sudden changes in input signals Explanation of Functions Previous average value comparison Use the previous average value comparison to not detect gentle changes and only detect sudden changes Off center As shown in the above diagram when rotating a cylindrical object and measuring the distance from the object using a laser displacement meter it cannot be judged if the increase in me
120. e to do so may occasionally cause unexpected operation resulting in minor or moderate injury or damage to the equipment Ensure safety in the event of product failure by taking safety measures such as installing a separate monitoring system Product failure may occasionally prevent operation of comparative outputs resulting in damage to the connected facilities and equipment Tighten the screws on the terminal block and the connector locking screws securely using a tightening torque within the following ranges Loose screws may occasionally cause fire resulting in minor or moderate injury or damage to the equipment Terminal block screws 0 43 to 0 58 N m Connector locking screws 0 18 to 0 22 N m VI A CAUTION Make sure that the product will not be adversely affected if the DeviceNet cycle time is lengthened as a result of changing the program with online editing Extending the cycle time may cause unexpected operation occasionally resulting in minor or moderate injury or damage to the equipment Before transferring programs to other nodes or changing I O memory of other nodes check the nodes to confirm safety Changing the program or I O memory of other nodes may occasionally cause unexpected operation resulting in minor or moderate injury or damage to the equipment Precautions for Safe Use 1 Do not use the product in the following locations e Locations subject to direct radiant heat from heating equipmen
121. easurement values and start actual operation Clearing Settings If you become confused while setting the parameters and cannot continue all settings can be cleared so that you can start over Refer to 5 40 Initializing All Settings P 5 100 for information on clearing all settings Refer to Section 5 Functions and Operations for details on setting parameters 4 5 y Q eo Q J 4 N iss Section 4 Initial Setup 4 3 K3HB H Initial Setup Example K3HB HTA Note When the power is turned ON a number may be displayed that is unrelated to the input range setting To display correct values the correct input type must be selected for the wiring 4 6 The initial setup is explained in the following example Settings Example Using the K thermocouple 200 0 to 1300 0 C to measure the temperature and display in C e f the measurement value goes 500 C or higher comparative output H turns ON e f the measurement value goes 100 C or lower comparative output L turns ON Measurement value 500 0 100 0 i Comparative output H Comparative output L HG Initial Setup Flow To change a set value press the gt SHIFT Key The digit that can be changed will flash Use the gt SHIFT Key to move to the digit to be changed and change the setting using the Ai UP Key A Check the wiring and turn the power ON TT e lf the disp
122. ed by DDK Connector Equivalent to 17JE 13370 02 manufactured by DDK Stand 17L 002A manufactured by DDK Os Qe Qe D a 29 09 O Q ER O O6 XS Xa 2O Note The BCD Output Cable has a D sub plug Cover 17JE 37H 1A manufactured by DDK Connector equivalent to 17JE 23370 02 D1 manufactured by DDK 2 4 2 2 Using I O E E E E Analog Input Analog Input Analog Input AC voltage only 5 3 AB 5 N C 5 O C 3 D U 3 N C S O COM Q tF Refer to the measurement range O on the front panel 5 ep KSHB H KSHB S K3HB X V D Event Input Models with Terminal Blocks lt K35 1 gt lt K35 3 gt TIMING S TMR 3 HOLD RESET ZERO O COM Models with Connectors lt K35 2 gt lt K35 4 gt 1 TIMING 3 D 2 S TMR 3 HOLD 4 RESET 5 ZERO 6 COM 7 BANK4 10 8 BANK2 9 BANK 10 COM e Applicable Connector Sold separately XG4M 1030 OMRON e Special Cable Sold separately K32 DICN OMRON XG4M 1030 with 3 m cable Special Cable for Event Inputs with 8 pin Connector Modi Appearance O W U UUU Pin No Signal name N C S TMR HOLD RESET AJ JN 5 N C Me BANK2 BANK1 COM o o oN o 1 oO 2 5 V Q a L Q ab an E Section 2 Preparations E Wiring Power Supply O O O aoe 1 1 D Hh 3 jt 4 5 5 6 Lolo lt
123. ed from a constant P5 9 fe Filter Average processing Average processing of input signals with extreme changes or noise smooths out the display and makes control stable P5 38 Vv S f Input compensation Forced zero Forces the present value to 0 Effective to set a reference value from which to perform measurements P 5 65 j Vj f5j Timing hold Using external timing signal inputs synchronous measurements can be made and maximum values minimum values and the difference between maximum and minimum values can be measured P5 18 j Vy fj H Previous average value comparison Slight changes can be removed from input signals to detect only extreme changes gt P 5 41 f Vv 5j H LELEA e Shifts the current value measured with a forced zero to 0 again Effective for example when two compounds are measured separately P 5 67 Xj fvi fS Step value Timing delay The start and stop timing for measurements can be adjusted using timing signals gt P5 33 ne Vv 6 HW Zero trimming Compensates for gradual changes in input signals from for example sensor temperature drift based on OK data PASS data at measurement Xj vy fSj P 5 70 Temperature input shift Changes the display value to 0 for input values less than the set value Effective when drift and displacement of values near zero need to be eliminated P 5 36 ne V
124. ed when the SV display starts to flash G Use the A UP Key to change the set value to an Cc ja e Change the set value to aFF to turn OFF zero trimming H Press the tel MODE Key to switch to the next parameter Ge e The set value is registered Press the LEVEL Key for at least 1 s to return to the initial setting level H Le 1s min suoneado pue suoroun 5 71 E Section 5 Functions and Operations J Press the LEVEL Key for at least 1 s to return to RUN level PA 1 smin Remarks Setting the present measurement value to 0 forced zero gt P 5 65 Jp co q gt os p pae cS Sep p LL 5 72 5 28 Changing Display Refresh Periods E 5 28 Changing Display Refresh Periods Display adjustment level Gy Nyy FED Xs Va Sn When measurement values change rapidly and the display changes with the measurement values flickering often occurs and the display becomes difficult to read The flickering can be suppressed and the display made easier to read in such situations by delaying the display refresh period The display refresh period is set using the following parameter Parameter ee Meaning of set value Every 50 ms eevee every Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial FE setting level 3 s min j gt cx LEI Displays
125. el bank display to indicate the initial setting level B Press the LEVEL Key several times to move to the display adjustment level a T e Le is displayed on the level bank display to indicate the display adjustment level C Press the ce MODE Key several times cc I to change the PV display to Fug D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the IA UP Key to change the position meter type setting Al gt F Press the ce MODE Key to switch to the next parameter Ge e The set value is registered 5 36 No Decimal Point Display E G Press the __ LEVEL Key for at least 1 s to return to RUN level mE 1smin T1 a Cor am Je fab 2 o gt 0 a gt gaj q fab 5 a gt gt Je 5 91 E Section 5 Functions and Operations 5 37 Performing Output Tests Output test level R AECA X M Sla The output test function is used to set test measurement values using the keys to check the comparative outputs against the set comparative set values A test measurement value is set using the following parameter Parameter Set value Meaning of set valus a ee eee Output test disabled Test input a5 19999 to 99999 Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial ma set
126. el to move to the initial e LO is displayed on the level bank display to indicate the initial setting level Lu B Press the cel MODE Key several times IS to change the PV display to Ficus e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash Je 4 feb a p cS gw p LL D Use the IA UP and gt SHIFT Keys to set the password i645 Press the MODE Key to move to the advanced function setting level Ge e LF is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key several times to switch the PV display to zr F Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash 5 68 5 26 Setting the Present Measurement Value to 0 Again when Using a Forced Zero i G Use the A UP Key to change the set value to an e Change the set value to aFF to turn OFF tare zero H Press the tel MODE Key to switch to the next parameter Ge e The set value is registered Press the L LEVEL Key for at le
127. election 1 4 5 78 Display returning to RUN level 5 88 Display rightmost digit step 5 80 Drawout 2 3 Drift eliminating 5 36 E Event input 2 10 External dimensions 2 2 Forced zero 1 2 3 14 3 17 3 22 5 65 Forced zero compensation 5 70 Forced zero protect 5 103 H HOLD input 5 19 5 54 Hysteresis 1 3 Initial setup 5 2 5 3 5 4 Example for K3HB H 4 6 Example for K3HB S 4 8 Example for K3HB V 4 4 Example for K3HB Z 4 2 Initializing settings 5 100 Input adjustment 5 2 5 3 5 4 Input adjustment level 3 13 Input calculation 1 2 Input error enabled 5 29 Input errors operation for 5 29 Input type 3 4 3 7 3 10 3 12 3 15 3 19 3 21 3 24 5 10 5 11 Inspecting for steps 3 22 Initial setting level 3 24 Input adjustment level 3 24 RUN level 3 23 Inspecting panel thickness 3 17 INDEX 1 E Index Initial setting level 3 19 Input adjustment level 3 19 RUN level 3 18 K Key operations restricting 5 102 Key protection 1 3 5 102 L LCD field of vision 2 3 LEVEL key 1 5 Level output 5 44 Level bank display 1 5 Linear output 1 3 5 63 Max Min hold 1 4 MAX MIN key 1 5 Maximum and minimum values holding 5 75 Measurement operations 5 19 Measurement status holding 5 54 Measurement value setting to 0 5 65 Measurement value setting to 0 again 5 67 Measurements delaying 5 27 Measurements resetting 5 26 Measuring disk eccentricity 3 20 Initial setting level 3 21 Input adju
128. ement rae sages EEEREN tq hldusestiaj ore value UP Key ZERO input e Maximum and minimum values are not initialized even if forced zero is executed e Forced zero is not possible for maximum or minimum value displays e When the display range has been exceeded or a sensor error occurs forced zero cannot be executed while no measurement is being performed Forced zero can be cleared but not during RESET input e The forced zero and forced zero clear operations are stored in the internal non volatile memory of the K3HB so the status is held even if the power supply is turned ON again TI gt a gt oe pate gt ao a Epe cD 5 lt a cs There are two methods for executing and clearing forced zero using key operations and using ZERO inputs Using Key Operations Executing forced zero Press the UP Key for less than 1 s while the present value is displayed to execute forced zero Clearing forced zero Press the A UP Key for at least 1 s to clear forced zero r J Execute E m m cga gooni D anne T Forced zero can executed ZERO not lit ZERO lit again even after it has been used A s min Forced zero released 9 65 E Section 5 Functions and Operations Using ZERO Inputs Executing forced zero Forced zero is executed on the rising edge of the ZERO input ON signal when ZERO input is ON for 1 s max Clearing forced zero Forced zero is cleared when ZERO inpu
129. ered and the display returns to monitor status 2 Use the SHIFT and A UP Keys to set the set value Displayed Comparative Set Values Displayed si tals set values H L Models with Relay H L Models with Relay Outputs _ lt C1 gt HH H L LL Models with Relays Outputs lt C2 gt HH H PASS L LL Models with Transistor Outputs lt I 1 gt lt T2 gt TI a2 n fas a oS cD a gt oe For Sensor Power Supply Output Models with a PASS Output the displayed comparative set value depends on the allocation setting of the PASS output A Allocating other outputs to PASS output gt P 5 57 When Su d5 comparative set value display is set to OFF comparative set values are not displayed during operation but are displayed with key operations 5 7 E Section 5 Functions and Operations Parameter Setting Procedure A Press the e MODE Key several times to display the comparative set value to Ge be changed One of the values between HH and LL will flash according to the displayed comparative set value B Press the SHIFT Key to make the SV display flash e The setting can be changed when the L SV display starts to flash C Use the SHIFT Key and A l UP Key to change the comparative set value D Press the ce MODE Key to switch to the next parameter Ge e The comparative set value set in C
130. ermocouples E R S B and W 6 2 User Calibration Operation E M After the count stabilizes press the UP Key e The current value is displayed N Press the A UP Key again e The count value is set Input Type and Parameter Reference Signal K3HB X Calibration upper limit Calibration lower limit Input type Reference Reference Parameters Parameters signal signal 199 99 to 199 99 V 199 99V 199 99 V jo isita 9339 Taseov n559 i000 P 1999910 1 9903 19993 1 9090v 139339 1 9000V_ 1 0000 to 5 0000 V 199 9910 199 99 ma 19999 t99 99ma 13939 199 99 mA 1899910 19 909ma 19 999 19 999mA 19999 19 999mA 7 999910 1 9909 ma 19999 1 9990mA 15893 1 9909 mA 4000t020 000ma_ 20000 20 000ma woga 4 000mA oowaoov waa aov ao oov i 0 00 to 199 99V 9999 199 99V 8of 000V o 000t013 909v 2999 19909v ono 0 000 oo0001019980V t3333 19099V aaooa ooooov a 0 000010 1 99998 13939 19909 Gogcd oooo0A A l 0 0010 198 99mA 19889 199 09ma 02 oooma 0 00010 18 999mA 12353 19 909mA aaao 0 000mA_ C op 4 ap a o O 6 9 E Section 6 User Calibration K3HB V Calibration upper limit Calibration lower limit Input type BI Parameters neleleti e Parameters ale eee signal signal 00t 9999 19999mv 0 199 99 mV 0 000 to 19 999 mV 0 000 mV 19 999 mV 100 00 mV 228
131. es gt P 5 70 Delaying output OFF timing gt P 5 52 Holding already output comparative outputs P 5 55 Example of Previous Average Value Comparison for Sampling Hold Input waveform l l l l l l 0 V i l l l jan o een ming inpu ania ORR Number of measurements Input value Display value Comparative value for the next input 4 0 4 0 0 3 0 4 0 1 0 4 0 3 0 3 5 4 0 8 5 3 5 5 0 1 3 5 8 5 6 0 9 43 Je pa lt gt m Ss cD gt n E Section 5 Functions and Operations 5 15 Changing Comparative Output Patterns initial setting ievel fh fe amp XV S H This function compares the measurement value and comparative set value and outputs the comparative result The output pattern is set using the following parameter Parameter A value Meaning of set value Standard output pattern Eu Zone output I 5 auk i REWER Level output Standard Output C Conpaeiveonmt output Measurement value Comparative set value HH Comparative set value H Comparative set value L Comparative set value LL Output HH Output H Output PASS Output L Output LL Zone Output Measurement value Comparative set value HH os i i 2 Comparative set value H Comparative set value L 1 2 Comparative set value LL hr Output HH eS 6 Output
132. essing gt 0 5 to 1 0 ms 0 5 ms max Comparative output response time 0 5 ms max output response time See note 1 Sampling and Comparative Output Response Times E Relationship between Timing Signals and Reset or Hold Signals The following tables show whether or not measurement is performed for each signals timing input when timing hold is not set to normal Timing Signal and Reset Signal TIMING RESET sam Sampling Measured gt Not measured Not measured Measured gt Not measured Not measured Measurement not Measurement not possible Measurement not Measurement not posse Other Measurement cancelled Measurement cancelled Measurement cancelled Measurement cancelled Timing Signal and Hold Signal Measurement Measurement Measurement TIMING TIMING Measurement Other Measurement Measurement Measurement not possible gt O D gt Q O CD on A 29 WY Q 2 O Q Q Q lt i Appendices No Measurement Status When no measurement value has been determined a no measurement status exists The PV display for no measurement is and all outputs are OFF A no measurement status occurs in the following circumstances Se See See SP e When the power is turned ON during timing hold mode RESET PV display input or startup compensation timer operation All outputs OFF e Immediately after returning to RUN level from any level other
133. eters y Q eo 5 Q J 4 N iss I E Section 4 Initial Setup 4 4 K3HB S Initial Setup Example K3HB SSD Note Do not change the order of step C When input type A is set the scaling value and decimal point position will be initialized automatically 4 8 The initial setup is explained in the following example Settings Example In the following setting example 1 to 5 V input is scaled to the range 0 000 to 1 000 e f the measurement value goes above 0 700 comparative output H turns ON e If the measurement value goes below 0 500 comparative output L turns ON Measurement value Display value 0 700 1 000 pv 0 500 gt 00 Input Comparative outputH E 1 000 V 5 000 V value Comparative output PE _ Initial Setup Flow To change the setting press the SHIFT Key once The setting that can be changed will start flashing Change the set value by pressing the SHIFT Key and UP Key A Check the wiring and turn the power ON Connect the sensor to input A e The input type is factory set to 4 to 20 mA input When the power is turned ON the display may flash A E outside the input range This simply indicates however that the input is outside the range 4 to 20 mA and does not indicate a product failure B Set the calculation to 0 1 Move to the initial setting level by pressing the _ LEVEL Key for at least 3 s with the PV d
134. ethods 3 2 Monitoring Motor Load Current Advantages of Using the K3HB X e The motor load current can be monitored and the measurement value and output status held when the motor is tripped The K3HB X will hold this status even if a power interruption occurs e A 75 5 current transformer CT can be used for motor current detection e Up to 10 A can be input directly using the KSHB XAA e Current can be displayed in amperes A up to two digits past the decimal point LILJ LIL A on the KBHB XAA e Two level output detection can be used for the upper limit e The startup compensation timer on the KSHB XAA can be set to prohibit measurements for a certain amount of time after the motor startup signal is received to prevent judgments that result in inadvertent output due to inrush current measured when the motor starts Jp gaj O S lt b 2 qe 2 Q a lt L 2 Nn 4 mm e The startup compensation timer is set to 10 s e An output is generated when the H and L values exceed the comparative output settings Uses two level detection for the upper limit Power supply ON signal Magnetic relay 0to50 AAC Comparative output 1 comparative output H Oto5A Comparative output 2 comparative output L Process Indicator K3HB XAA Motor Connections Diagram Comparative output H Startup Compensation timer input Power
135. ettings P 5 100 for information on clearing all settings Refer to Section 5 Functions and Operations for details on setting parameters y Q eo 5 4 9 E Section 4 Initial Setup Cc 2 jd N i 4 10 Section 5 Functions and Operations Knowledge Required for Setting Parameters c ccsssccceeeeessseeeeeeeees 5 2 Operation Adjustments 5 1 Setting Calculations ccccccccccsessseeeeeceeeeeseeeesseeeeeeeeeeessaesaeeeeeees 5 9 5 2 Setting Input TYPES cee cccccccsssseecceecceeeseceeeceeeeeeeesecsseueaeeeeeesaeaaess 5 11 53 Seting Scaling Values esient 5 14 5 4 Setting the Temperature Unit cccccccceeeeeesseeeeeeeseeseeeeeeeaeeseeees 5 18 5 5 Setting Measurement Operations ccccceceeeeeeeeeeeeeeeeeeeeeeeeeeenaaees 5 19 5 6 Shifting the Temperature INPUut cccsceccecceseeeeeeeeeeeeeseeeeeeeessaeees 5 24 5 7 Resetting MEaSuUreMents ccccsssececeeseeececeeseeeceeeeeeeeeeeeesseeseeeens 5 26 5 8 Not Performing Measurements for Set Intervals cccccceseeeeees 5 27 Input Adjustments 22 5 9 Selecting Operations for Input Errors cceseeeeeeeeeeeeeeeeeeeeeeeeees 5 29 5 10 Disabling Cold Junction Compensation esseeeeeeeeeeeeeeeseeeees 5 31 5 11 Adjusting Timing I
136. ettings are initialized Take this into consideration when setting up the control system 18 Install an external switch or circuit breaker that complies with applicable IEC60947 1 and IEC60947 3 requirements and label them clearly so that the operator can quickly turn OFF the power 19 Use the specified cables for the communications lines and stay within the specified DeviceNet communications distances Refer to the User s Manual Cat No N129 for details on communications distance specifications and cables 20 Do not pull the DeviceNet communications cables with excessive force or bend them past their natural bending radius 21 Do not connect or remove connectors while the DeviceNet power is being supplied Doing so will cause product failure or malfunction 22 Use cables with a heat resistance of 70 C min Noise Countermeasures Do not install the product near devices generating strong high frequency waves or surges such as high frequency welding and sewing machines 1 Mount a surge suppressor or noise filter to peripheral devices generating noise in particular motors transformers solenoids and magnet coils Line filter mm i i Digital Indicator Power supply input Digital Indicator Signal input Power supply input Surge suppressor 2 In order to prevent inductive noise wire the lines connected to the terminal block separately from power lines carrying high voltages or currents Do
137. everal times to select the comparative set value to be changed G Press the SHIFT Key to make the SV display flash H Use the lA UP and SHIFT Keys to change the set value Press the ce MODE Key to switch to the next parameter Ge e The parameter changed in step H is registered Repeat steps F to to The settings for all change other comparative comparative set values in the set values in the same bank bank have been completed Proceed to step Proceed to step J to copy the D to set contents of this comparative set bank to all values for other banks banks J Press the Ice MODE Key several times to change the PV display to Lary K Press the SHIFT Key to make the SV display flash L Use the lAl UP Key to change the set value M Press the tel MODE Key to switch to boo the next parameter Su ant Proceed to step N when bank comparative set value settings have been completed 5 38 Using Comparative Set Value Banks E ee A Proceed to step D to correct Proceed to step N if bank copied bank parameters comparative set value settings have been completed N Press the L_ LEVEL Key for at least 1 s to return to RUN level m 1smin Remarks Copying bank comparative set values gt P 5 98 T1 a Cor am Je fab 2 o gt 0 a gt gaj q q fab 5 a gt Je 9 97 Je IS j
138. g Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial ma r Le a M e La is displayed on the level bank display to indicate the initial setting level B Press the _ LEVEL Key once less than 1 s to move to the input adjustment level e L i is displayed on the level bank display to indicate the input adjustment level C Press the ce MODE Key several times aT o Z to change the PV display to Sk EF D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the IA UP Key to change the set value F Press the ce MODE Key to switch to the next parameter Ge e The set value is registered G Press the __ LEVEL Key for at least 1 s to return to RUN level m 1s min Je IS j cS feb a p pae cS gw p LL 5 76 5 29 Holding Maximum and Minimum Values E Changing normal display values to maximum and minimum values gt Remarks P 5 78 TI cD Se gt oe fab lt gt m Ee cD so lt gt Je 5 77 E Section 5 Functions and Operations 5 30 Changing Normal Display Values to Maximum and Minimum Values Display adjustment level FTT aS GS GS G The PV display value displayed after power is turned ON after the RESET input immediately afte
139. ge the set value F Press the ce MODE Key to switch to the next parameter Ge e The set value is registered 5 80 5 31 Setting the Step for Changing the Rightmost Digit E G Press the __ LEVEL Key for at least 1 s to return to RUN level I 1s min T1 a Cor am Je fab 2 o gt 0 a gt gaj q fab 5 a gt gt Je 5 81 Je 4 feb a p cS gw p Li E Section 5 Functions and Operations 5 32 Displaying Not Displaying Comparative Set Val ues Display adjustment level R h fe amp X Ma S51 Comparative set values can be displayed or not displayed on the SV display during operation This is set using the following parameter Parameter Set value Meaning of set value Comparative set value not Comparative set value displayed display C AaSP pa Pm Be Comparative set value displayed If comparative set value display is set to OFF the comparative set value display will turn OFF not be lit after 10 s in RUN level The comparative set value is displayed again when any key is pressed Parameter Setting Procedure A Press the LEVEL Key for at least m 3 s in RUN level to move to the initial setting level 3 S min Displays H a M e Lu is displayed on the level bank display to indicate the initial setting level B Press the L_ LEVEL Key several me t
140. hat apply to the combination of products in the customer s application or use of the products At the customer s request OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the products This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product machine system or other application or use The following are some examples of applications for which particular attention must be given This is not intended to be an exhaustive list of all possible uses of the products nor is it intended to imply that the uses listed may be suitable for the products e Outdoor use uses involving potential chemical contamination or electrical interference or conditions or uses not described in this manual e Nuclear energy control systems combustion systems railroad systems aviation systems medical equipment amusement machines vehicles safety equipment and installations subject to separate industry or government regulations e Systems machines and equipment that could present a risk to life or property Please know and observe all prohibitions of use applicable to the products NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS AND THAT THE OMRON PRODUCTS ARE PROPERLY RATED AND I
141. have any questions or comments Warranty and Limitations of Liability WARRANTY OMRON s exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year or other period if specified from date of sale by OMRON OMRON MAKES NO WARRANTY OR REPRESENTATION EXPRESS OR IMPLIED REGARDING NON INFRINGEMENT MERCHANTABILITY OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE OMRON DISCLAIMS ALL OTHER WARRANTIES EXPRESS OR IMPLIED LIMITATIONS OF LIABILITY OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS WHETHER SUCH CLAIM IS BASED ON CONTRACT WARRANTY NEGLIGENCE OR STRICT LIABILITY In no event shall the responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted INNO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY REPAIR OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON S ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED STORED INSTALLED AND MAINTAINED AND NOT SUBJECT TO CONTAMINATION ABUSE MISUSE OR INAPPROPRIATE MODIFICATION OR REPAIR Application Considerations SUITABILITY FOR USE OMRON shall not be responsible for conformity with any standards codes or regulations t
142. ht on PET bottles can be detected Checking Dimensions after Press fitting Displacement Sensor Z4W V25R Forced zero pushbutton switch Jp gaj O E lt b 2 co Q oz lt L 2 Jp 4 mm K3HB S Sync Sensor E3X DA11 N YN Displacement Sensor Z4W V25R oA ORE ap Forced zero pushbutton switch Sync Sensor E3X DA11 N Connected internally Shield wire Brown Blue 3 14 3 5 Product Height Measurement and OK NG Judgement E 2mm Shape of workpiece lt p Gree 4 oo T R Insufficient Press fitting press fitting omitted Far Displacement sensor output i Near ON rT Sync sensor OFF K3HB S Imm Display Ii K3HB S Comparative outputs PASS LL E K3HB S Setting Details RUN Level 0J pas Cor a I gt ss gza Q j Ss 7 S a eames Gases Sea Remarks Comparative set value HH Comparative se Example of monitoring in set value H two stages at the 2 mm Comparative and 3 mm from the set value L reference Comparative set value LL X Check on the status displays Initial Setting Level 7 Parameter Characters Set value Remarks Calculation 2 value A1 Z4W V25R Output mA Scaling display see a er Scaling input value A2 Scaling display value A2 Decimal point position Input Adjustment Level
143. ift valuel 4 Before shifting Input 0 Input shift Input shift input value 1 input value 2 Setting range initial value LL d gone 55 The shift is linear because there are two separate settings The shift for the input value set for the input shift input 1 parameter is set for the input shift value 1 parameter The shift for the input value set for the input shift input 2 parameter is set for the input shift value 2 parameter The angle of the slope before and after shifting may be different because different shift values can be set for the input shift value 1 and input shift value 2 parameters 5 6 Shifting the Temperature Input E Parameter Setting Procedure rc j gt w A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial m setting level 3smin Displays Lg e Lt is displayed on the level bank display to indicate the initial setting level B Press the LEVEL Key for less than 1 s in initial setting level to move to the m input adjustment level 1s max e L 1 is displayed on the level bank display to indicate the initial setting level qu to change the PV display to cnc i D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the Al UP and the X SHIFT Keys to change the set value EN F Press the kel MODE Key t
144. ift input value 1 PV decimal point 19999 to 99999 FF OFF ON Ice z q ISS1 Input shift value 1 H H 19999 to 99999 Vice ISI2 Input shift input value 2 a 19999 to 99999 Comparative set value level co ISS2 2 a I SV BNK Comparative set value bank a 5 2 Input shift input value 2 ae 0to7 DOG 19999 to 99999 u Displayed when i co bank selection Se Memo ease is not set to ma z Power interruption memory i FF OFF ON q Se SV0 HH lee Guilty Comparaive ol 6 HH 999gq Set value 0 99999 co 19 999 to 99 999 Ss _ SV0 H MODE Ba H Comparative WH 99999 set value 0 H 3959 lt 19 999 to 99 999 SVO L South Comparative L 435999 set value 0 L 3595 J 19 999 to 99 999 como SVO LL L L h Comparative Lh 45555 set value 0 LL 5355 J 19 999 to 99 999 gt COPY L ar Bank copy tor SFF OFF ON SFF Mi Changing the Settings Use the following method to change the settings Monitor mode Edit mode 2345 Dd i245 yog0 gt Aung ce ce Use the X A Keys to change the settings The setting to be changed will flash About Parameters If a key is not pressed within 5 s the present setting will be saved and the display will return to monitor mode To next parameter gt O gO 9 53 Q o n A 25 i Appendices
145. imes to move to the display adjustment level ou Displays Le e Le is displayed on the level bank display to indicate the display adjustment level C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP Key to change the set value E Press the ce MODE Key to switch to the next parameter Ge e The set value is registered F Press the LEVEL Key for at least 1 s to return to RUN level m 1 smin 5 82 5 33 Changing Display Colors E 5 33 Changing Display Colors Display adjustment level Gy Nyy FED Xs Va Sn The PV display color can be switched when the comparative result changes from PASS to HH H L or LL or when an input error occurs during operation in RUN adjustment or protect levels This function is called display color selection The color switching pattern is set using the following parameter color Display color selection ba AL cr Comparative output HH H L or LL or input error status OFF All comparative outputs HH H L and LL are OFF and no input error PASS status ON HH H L or LL comparative output is ON or input error Not PASS status Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial m setting level 3smin Displays Li ca e Li is displayed on the level oank
146. indicator RUN level e Level bank display In RUN level displays the bank if the bank function is ON Turns OFF if the MAX MIN Key B UP Key bank function is OFF In other levels displays the current level Status indicators T ZR Turns ON when the tare zero function is executed Turns OFF if it is not executed or is cleared D Zero Turns ON when the forced zero function is executed Turns OFF if it is not executed or is cleared Excluding the K3HB H Hold Turns ON OFF when hold input turns ON OFF 8 SV display status TG Turns ON when the timing signal turns ON Otherwise OFF indicators T Turns ON when parameters for which teaching can be performed are displayed HH H L LL In RUN level turn ON when the comparative set values HH H L and LL are displayed MAX MIN Key Used to switch the display between the PV maximum value and minimum value and to reset the maximum and minimum values LEVEL Key Used to switch level ro MODE Key Used to switch the parameters displayed SHIFT Key Used to change parameter settings When changing a set value this key is used to move along the digits UP Key When changing a set value this key is used to change the actual value When a measurement value is displayed this key is used to execute or clear the forced zero function or to execute teaching 1 5 E Section 1 Outline 1 3 Internal Block Diagram l Transistor 4 output 6 Contact outputs In
147. ing P 5 17 for details 5 14 5 3 Setting Scaling Values E Set constant K when setting the calculation EAL to K A 2 or K A B 5 K3HB S only Parameter Set value Meaning of set value Constant K ia 19999 to 99999 H l l The decimal point will be according to the decimal point position setting Scaling is a function that applies a preset conversion formula to sampled input values to convert each input value to a measurement value The input values can thus be converted to Units used by the system The scaling conversion formula for voltage current input is shown below DSP2 DSP1 INP1 DSP2 INP2 DSP1 dsp NP2 INP P INP2_ INP Here INP1 The input value for measurement value DSP1 DSP1 The measurement value for input value INP1 INP2 The input value for measurement value DSP2 DSP2 The measurement value for input value INP2 inp Input value for each sampling dsp Corresponding measurement value Display value Display value Reverse scaling is also possible Input value Teaching can be performed using actual inputs 9 15 TI gt oe pa lt gt m oS cD gt oe Je 4 feb a p cS gw p LL E Section 5 Functions and Operations Scaling Constant K K3HB S Only 5 16 Parameter Setting Procedure Scaling Settings for Input A
148. ing Parameters E Advanced Function A special operation is required to move to the advanced function Setting Level setting level Use the following procedure Procedure The Setting Level Protect setting must be set to 0 5Ek Pk 0 to enable moving to the advanced function setting level A Move to the initial setting level press the ce MODE Key several Pu Da times to display the Arnau move to advanced function setting level parameter B Press the gt SHIFT Key to enable entering the password C Use the gt SHIFT and IAI UP Keys to set the password The password is 155 0169 D Press the ce MODE Key to write the password e The advanced function setting level will be entered if the password is correct e If the password is incorrect the first parameter on the initial setting level will be displayed The set value is always 0 after moving from character display to monitor status Move to the advanced function setting level Change status Use the SHIFT and lAl UP Keys to set the password Password doesn t match Password matches To next parameter Does not move to the advanced function setting level Advanced function setting level Set value initialization a w w L D E bALE m T1 a a p Je fab p gt 0 gt Eae q q Irs a gt Je 9 9 Je IS j cS 2 q gt
149. ions and settings lists Xl Settings Data Notation The letters of the alphabet in settings data are displayed as shown below RICE a ele le emia ls lee a Applicable Model Notation The following symbols are used to indicate the applicable models for specific functions fX K3HB XO0 VV K3HB VOO fH K3HB HOC fS K3HB SOO XII Contents E CONTENTS Section 1 Outline 1 1 Main Functions and Features of the K3HB 0 0 0 0 ec 1 2 1 2 Component Names and Functions 0 0 000 cc ccc cee eens 1 5 Lo Mitermal Block Diafani 4 04 4 6 pene bo oe oe ee tethered oO ObR SPE SE SSS SE4 SS eee Sees 1 6 Section 2 Preparations 2A MOUN cudk ware gu nee ee eee Goes GaGa ea ee ReneS ead aoe Bee eaMee eee 2 2 22 Msi VO e et oe ee eo eae ee ed hE RRA AR ee eee 2 4 Section 3 Basic Application Methods 3 1 Monitoring Tank Levels 0 0 ccc ee teen ene eens 3 2 3 2 Monitoring Motor Load Current 0 0 0 ce eens 3 6 3o Weighing Material 2 20 4004 26 osn eo ome dE SKC EM EAR ERDED SODA ROR ESOS 3 9 3 4 Temperature Monitoring Control with Multi level Output 0 0 0005 3 11 3 5 Product Height Measurement and OK NG Judgement 0 00000 cee 3 14 30 Panel Thickness INspechiOly s 4044440452 60604 406 04 54 6405S 5 obo e os 3 17 3 7 Measurement of Disk Eccentricity 0 0 0 ccc ee eee nes 3 20 Qo lep AMSPeCHON 655 4 62 050545 betes enue be eeteese nes dae
150. isplayed RUN level 2 Set CAL to 5 and press the ce MODE Key C Set input type A to 1 to 5 V e Set Lm F to i 5 and press the cel MODE Key D Set the scaling value 1 Set scaling input value A1 a AP to i cam and press the MODE Key 2 Set scaling display value A1 aS Al to H and press the ce MODE Key 3 Set scaling input value A2 SaF Ae to 5 Ga and press the cel MODE Key 4 Set scaling display value A2 d 5 AZ to iiun and press the MODE Key E Set the decimal point position 1 Set the parameter dF to aa aaa and press the kel MODE Key 4 4 K3HB S Initial Setup Example KSHB SSD F Set comparative set value H to 0 700 and set comparative set value L to 0 500 1 Return to the RUN level by pressing the _ LEVEL Key for at least 1 s Start operation 2 Press the el MODE Key repeatedly until the status display shows lt D Td ee oe and then set the value to tu im 3 Press the kel MODE Key until the status display shows cH gt and then set om om the value to i Sic G Start actual operation 1 Press the kel MODE Key repeatedly to display the measurement values and start actual operation Clearing Settings If you become confused while setting the parameters and cannot continue all settings can be cleared so that you can start over Refer to 5 40 Initializing All S
151. isplays Lf e Lf is displayed on the level bank display to indicate the initial setting level suoneado pue suoroun m j e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect 5 55 Je IS j cS 2 feb a p pae cS Jp 2 a p LL E Section 5 Functions and Operations C Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP and SHIFT Keys to set the password i645 Press the MODE Key to move to the advanced function setting level e LF is displayed on the level bank display to indicate the advanced function setting level F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the set value H Press the tel MODE Key to switch to the next parameter Ge e The set value is registered Press the L_ LEVEL Key for at least 2 1 s to return to the initial setting level ma ba 1s min J Press the LEVEL Key for at least 1 s to return to RUN level Ly 1s min 5 56 5 21 Allocating Another Output to PASS Output E 5 21 Allocating Another Output to PASS Output Advanced function
152. ithout protective circuits malfunctions may possibly result in accidents that cause serious injury or significant property damage Provide double or triple safety measures in external control circuits such as emergency stop circuits interlock circuits or limit circuits to ensure safety in the system if an abnormality occurs due to malfunction of the product or another external factor affecting the product s operation Z CAUTION Do not allow pieces of metal wire clippings or fine metallic shavings or filings from installation to enter the product Doing so may occasionally result in electric shock fire or malfunction Do not use the product in locations where flammable or explosive gases are present Doing so may occasionally result in minor or moderate explosion causing minor or moderate injury or property damage Do not attempt to disassemble repair or modify the product Doing so may occasionally result in minor or moderate injury due to electric shock Do not use the equipment for measurements within Measurement Categories Ill and IV for KSHB X and Il Ill and IV for K3HB S K3HB V and K3HB H according to IEC61010 1 Doing so may occasionally cause unexpected operation resulting in minor or moderate injury or damage to the equipment Use the equipment for measurements only within the Measurement Category for which the product is designed Perform correct setting of the product according to the application Failur
153. l MODE Key 2 Set scaling display value A1 d5 Fl to I and press the kel MODE Key 3 Set scaling input value A2 Sa AZ to S Goat and press the cel MODE Key 4 Set scaling display value A2 d5 Ae to iiun and press the ce MODE Key D Set the decimal point position 1 Set the parameter a to aa aaa and press the kel MODE Key 4 1 K3HB X Initial Setup Example K3HB XVD E Set comparative set value H to 0 700 and set comparative set value L to 0 500 1 Return to the RUN level by pressing the _ LEVEL Key for at least 1 s Start operation 2 Press the cel MODE Key repeatedly until the SV display status shows CHD 3 Set the value to H iit status will show cL gt and press the ce MODE Key The SV display 4 Set the value to 4 500 and press the el MODE Key The setting procedure is completed F Start actual operation 1 Press the el MODE Key repeatedly to display the measurement values and start actual operation Clearing Settings If you become confused while setting the parameters and cannot continue all settings can be cleared so that you can start over Refer to 5 40 Initializing All Settings P 5 100 for information on clearing all settings y Q eo 5 Refer to Section 5 Functions and Operations for details on setting parameters 4 3 E Section 4 Initial Se
154. l or settings MODE i Lf CMWT L Communications write AFF OFF ON Displayed only for Communications Units 2 This is not displayed in the factory default state Change the setting level protection to 0 L Displayed only for certain models or settings Password 0169 LEVEL 1 s max Press the O LEVEL key for at least 1 s from any display except ae for the protect level to return to the first parameter in the RUN or initial setting level Advanced function setting level Output test level INIT Set value initialization HEDH TEST Test input SFFI OFF ON SEF 19 999 to 99 999 ce m 7 PASS i pa PARR PASS output change LEVEL A aR PASS LL L PASS H HH ERR 1s max tions Unit la Communications ons Units HUE HYS Hysteresis setting level ROMOIS 999 WaT U NO la 412 Communications OFF D Unit No 0 to 99 arr d Output OFF delay 4 0 to 1 999 100 ms Loe BPS Baud rate Iie cv re 9 6 19 2 or Hat SHOT Shot
155. lay flashes 5 this indicates that the input is outside the set range and does not indicate product failure B Set input type A to K thermocouple 200 0 to 1300 0 C 1 Move to the initial setting level by pressing the _ LEVEL Key for at least 3 s operation will stop 2 Set input type A cn A to 2 H and press the ce MODE Key twice C Set the temperature unit e Set the temperature unit d i to L and press the cel MODE Key D Set comparative set value H to 500 0 and set comparative set value L to 100 0 1 Return to the RUN level by pressing the _ LEVEL Key for at least 1 s Start operation 2 Press the el MODE Key repeatedly until the SV display status shows CHD 3 Set the value to Sit u and press the ce MODE Key The SV display status will show lt TD 4 Set the value to imu u and press the el MODE Key The setting procedure is completed E Start actual operation 1 Press the kel MODE Key repeatedly to display the measurement values and start actual operation 4 3 K3HB H Initial Setup Example KSHB HTA Clearing Settings If you become confused while setting the parameters and cannot continue all settings can be cleared so that you can start over Refer to 5 40 Initializing All Settings P 5 100 for information on clearing all settings Refer to Section 5 Functions and Operations for details on setting param
156. libration 6 1 About User Calibration 0 20 0 0 cc ee ee eee ee nee eee nes 6 2 6 2 User Calibration Operation 0 0 0 0 ee eee eens 6 5 CONTENTS 2 Contents E Section 7 Troubleshooting IA Eror Displays c4s5 cucneceaeaces ENAA ENA os 7 2 Q dod COUMCTINCASUICS 4 22 4 6c4 e0ouy ds baht sowie dearyede bes theee ee be ewe ESk 7 3 D dp Appendices OE eere eer ben a e rra r Oa e A 2 Model N m Dee sertene ANEP SEENEN CA AAEN ERA ban A 9 iee o a E e EE EE E EE E T E E E E E es wees A 12 Parameter Display Conditions 0 0 0 0 eee eee ee ee eens A 17 PXOOUL PalaMelers s one Bataan s oh eee 22544845008 s oo oot eee he ee oboe Be ee aeees A 19 Sampling and Comparative Output Response Times 0 00 eens A 26 No Measurement StqtUs lt 2 00 ea dia Goose MSOs OUR a He hore hee ee aage A 30 CONTENTS 3 E Contents V J J eo CONTENTS 4 Section 1 Outline 1 1 Main Functions and Features of the K3HB eee 1 2 1 2 Component Names and Functions eeeeeeeeeeeeeeeeeeeeeeees 1 5 1 3 Internal Block Diagram ce ececceceeeeeeeeeeeeeeseeeeeeeeeaaeeeeeeeeeeaes 1 6 1 1 E Section 1 Outline 1 1 Main Functions and Features of the K3HB Measurement Input calculation Two measurement values can be added subtracted or the ratio calculated In addition any constant can be set and measurement values can be added to or subtract
157. lue HH g Control example for the following Comparative se settings set value H Full tank alarm set 3 400 mm Comparative Upper limit alarm 3 200 mm set value L i Lower limit alarm 800 mm Dry tank alarm 400 mm Comparative ny set value LL X Check on the status displays Initial Setting Level Parameter Characters Set value Remarks input ypeA actA dAd Scaling input value A1 Scaling display value A1 Measurement distance Scaling input TA EE value A2 D Scaling display N value A2 Decimal point a position Comparative output pattern Input Adjustment Level en Remarks Tminghod EAG H naaA_ Norma Zero limit Enables the zero limit function Je os O ds eb gt 2 co Q a lt L 2 Jp 4 mm E4PA LS400 M1 Output Zero limit value Displays 0 for values less than zero Averaging type AuG t fAauE Moving average Moving average Averaging times 3 4 3 1 Monitoring Tank Levels E Display Adjustment Level par te Parameter Characters _ Set value Remarks _ Display value Present value selection Position Incremental display meter type Position meter upper limit Full scale Position 0 0 to 4 000 mm meter lower limit Other parameters are set to their default values Oo feb cos Cap I gt O gea E Q t p Q lt gt Jp 3 5 E Section 3 Basic Application M
158. ment N range upper limit TI a2 n fas lt gt I lt gt cD gt op A sensor error occurs and all outputs are turned Power ON OFF if the measurement range is exceeded Measurement value Measuring RESET Sensor error HOLD Measuring The PV display will show during RESET input no measurement status Remarks Selecting operations for input errors gt P 5 29 Operation will continue if input error enable is set to OFF disabled or OVER overflow 9 19 Jp lt i co fab SL a O cS Jp gt LL E Section 5 Functions and Operations Sampling Hold e The measurement is held from the rising edge of the TIMING signal Important e When the measurement value exceeds the measurement range a sensor error will occur and all outputs will turn OFF e Measurements are not performed during RESET input and TIMING inputs are disabled A sensor error occurs and all outputs are turned a OFF if the measurement range is exceeded Measurement EE Ya aa Ga AED a ger FL PAP PRL aaa a 4 range upper limit rete 2 w pte Ri s y s K a i ele P Q 6 x G Hot e d 5 e cn Q Measurement O K w e R K point ta s Lm a ta 0 KA Ky Measurement invalid because A e Power ON ta a
159. mits key operations in RUN level and movement to adjustment level Restriction details details S o level Move to the Present Comparative adjustment value set value m Parameter RUN adjustment 2 protect Ii Et me Setting Level Protect The following parameter limits moving to other levels Restriction details Move to the Parameter Set value Move to the initial advanced setting level function ec level Je IS _ feb a p cS gw p Li l Saanciever level protect Setting Change Protect The following parameter disables changing settings with key operations Parameter Set value Restriction details Setting change using key Setting change protect operations Enabled WE PE Setting change using key operations Prohibited All protect level parameters and movement to advanced function setting level and calibration level can be changed 9 102 5 41 Limiting Key Operations E Forced zero Protect The following parameter limits key operated execution and clearing of forced zero and tare zero Parameter Set value Restriction detail Forced zero using key operations and tare zero Zero protect execution clear Enabled Ce Zor Forced zero using key operations and tare zero execution clear Prohibited Not available in the K3HB H Max Min Protect The following parameter limits key operations for switching
160. mperature 25 to 65 C with no icing or condensation attitude 2 000 m max Accessories 2 fixtures unit stickers operation manual waterproof packing terminal cover DeviceNet connector crimp terminals Hirose HR381 SC 121 DeviceNet only gt D O D J 2 O D O v Q 2 O Q Q Q lt i Appendices E Characteristics Sampling period K3HB S One input 0 5 ms Two inputs 1 ms KQHE XIVF Display range 19999 to 99999 Comparative K3HB S Linear output response 50 ms after comparative output output response time time Comparative output One input OFF ON 1 ms ON gt OFF 1 5 response time ms Two inputs OFF ON 2 ms ON OFF 2 5 K3HB V Linear output DC input 150 ms response time Comparative DC input 100 ms output MS response time KGHBX Linear output Comparative output AC input 300 ms response time KSHB H Linear output PT input response time TC input Comparative PT input 120 ms output TC input 180 ms response time Insulation 20 MQ min at 500 VDC resistance Dielectric Between external terminals and case strength 2 300 VAC for 1 min between external terminals and case Noise immunity 100 to 240 VAC models 1 500 V at power supply terminals in normal or common mode waveform with 1 ns rising edge and pulse width of 1 us 100 ns 24 VAC VDC models 1 500 V at power supply terminals in normal or common mode waveform wi
161. n place Adapter E LCD Field of Vision The K3HB is designed to have the best visibility at the angles shown in the following diagram 2 3 Section 2 Preparations 2 2 Using I O A Operating Power Supply 100 to 240 VAC 24 VAC VDC HSR Check the required power supply type V Q pur a L Q an B Sensor Power Supply Output Sensor power supply Sensor power supply PASS output ee linear output 3 3 S at G S lo lS Jo 6 N 5 2E 2 5 z 62 A S E 63 i RO amp 7 z 2 es a 64 a F 64 S z Z 5 7 D lt lt E lt I ee J lt 5 S E9 e o 2 E E9 18 S S l g g a 2 Oo 5 o oO o B m a D a a A S S 2 8 d 2 2 8 69 o au DB Z o ja a A lt K33 lt K33 lt K33 lt K33 lt K33 lt K33 CPB gt CPAs L2B gt LIB gt L2A gt L1A gt Sensor power supply Sensor power supply communications a N a 7p O le F be a 09 a op gt gt a a fo a lt z E RJZ g E i s S s s o e 2 S oO D 8 8 9 2 g g e 8 6 5 gt gt D gt gt gt gt N S S 2ER ZL lt K33 B gt lt K33 A gt RS 232C RS 232C lt K33 lt K33 FLK1B gt FLK1A gt RS 485 RS 485 lt K33 lt K33 FLK3B gt FLK3A gt BCD Output Cable C Relays Transistors BCD
162. ng change protect Oto 2 Oto 2 OFF ON Forced zero protect Max Min protect OFF ON mi mM m ey WY Q 2 O Q Q Q lt x Measurement value Forced zero status Not displayed Conforms to decimal point position Forced zero value Tare zero status Not displayed Not displayed Conforms to decimal point position Tare zero value Measurement value comparative set value HH Not displayed 15555 to 39559 99999 Conforms to decimal point position Conforms to decimal point position Measurement value comparative set value H Measurement value comparative set value L 19999 to 99999 99999 Conforms to decimal point position Conforms to decimal point position Measurement value comparative set value Conforms to decimal point position Parameter List a a Initial setting ioan Ta A B K A A B K A B B Ax10000 B A 1 x10000 Input type A Power supply frequency X VD 199 99 V 19 999 V 1 9999 V 1 0000 to 5 0000 V X AD 199 99 mA 19 999 mA 1 9999 mA 4 000 to 20 000 mA X VA 0 0 to 400 0 V 0 00 to 199 99 V 0 000 to 19 999 V 0 0000 to 1 9999 V X AA 0 000 to 10 000 A 0 0000 to 1 9999 A 0 00 to 199 99 mA 0 000 to 19 999 mA V 0 00 to 199 99 mV 0 000 to 19 999 mV 1 50 60 VD A wo ud ud d ud MO he iy se Muy re Se Scaling input value A1 S
163. o SP Lees rrr Bah RST RTE D Use the IA UP and X SHIFT Keys to set the password i645 Press the MODE Key to move to the advanced function setting level e LF is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key several times to change the PV display to SHat F Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash Important Set the shot output time Stat to 0 to use the OFF delay oF F a G Use the IA UP and gt SHIFT Keys If set to anything else aFF to change the set value Al gt d OFF delay will be H Press the ce MODE Key to switch to the next parameter Ge disabled e The set value is registered Press the L_ LEVEL Key for at least 1 s to return to the initial setting level m Le 1s min 5 50 5 17 Outputting for a Set Interval E J Press the LEVEL Key for at least 1 s to return to RUN level mE 1smin Remarks Delaying output OFF timing gt P 5 52 T1 a Cor am Je fab 2 o gt 0 a gt gaj q fab 5 a gt gt Je 5 51 E Section 5 Functions and Operations 5 18 Delaying Output OFF Timing Advanced function setting level FTT aS GS GS GS The output OFF delay function delays the OFF timing for comparative results The shot
164. o switch the ce PV display to 55 4 C Press the ce MODE Key several times fa suoneado pue suoroun 5 25 Section 5 Functions and Operations 5 Resetting Measurements Y EWIE When the RESET input turns ON or the MAX MIN Key is pressed for at least 1 s the maximum value minimum value and outputs are cleared Measurement is not performed during RESET input T Te z 4 3 a o gt i value Do tean outing ere o ro o E Min o val u e ta a Comparative set value HH H Measurement value Comparative set value LL L No measutement status RESET input Output HH H Output LL L e The display during RESET input is and all outputs are OFF e HOLD and TIMING inputs are accepted but measurement is disabled during RESET input e The RESET input is disabled during S r Sep er co a fab os a O cS Sep r r gt LL A Not performing measurements for set intervals gt P 5 27 5 26 5 8 Not Performing Measurements for Set Intervals E 5 8 Not Performing Measurements for Set Intervals Advanced function setting level FTT os Gs GS GS With this function measurement is not performed until a set time has passed after the S TMR input
165. of linear output Parameter Setting Procedure A Press the _ LEVEL Key for at least to Lo 3 s in RUN level to move to the initial e Lf is displayed on the level bank display to indicate the initial setting level B Press the LEVEL Key once less than 1 s or several times to move to the linear output level and display elmer JL ob D Displays L5 e L5 is displayed on the level bank display to indicate the linear output level C Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IA UP Key to change the set value E Press the ce MODE Key to switch to the next parameter Ge e The set value is registered F Press the L_ LEVEL Key for at least 1 s to return to RUN level ma 1s min 5 64 5 25 Setting the Present Measurement Value to 0 E 5 25 Setting the Present Measurement Value to 0 KAS The forced zero function forces the present measurement value to 0 This function can be used for applications such as making comparative judgements where the tare or container weight is canceled and only the weight of the contents are used for measurement When forced zero is cleared the display returns to the actual measurement value The changes to measurement values when forced zero is executed or cleared during measurement are shown below Measu r
166. ollowing parameter Parameter Set value Meaning of set value OFF o cE incremental Position meter type iab Incremental reversed Oo du Deviation 2 E Deviation reversed i 3 g 35 19999 to 99999 1 19999 to 99999 1 1 The decimal point depends on the decimal point position parameter setting 2 The amount that the displayed value differs from the mid point between the position meter upper and lower limits the deviation is piaia seaou gt lt eseaioag anenyuasaid seaou D gt se ou p gt lt qese9109 anpenquasalg seang anen yuasaig seag anpeau s id aseaouj gt Position meter gt upper limit Position meter lower limit b Present value 40 Present value 40 Present value 70 Present value 70 If the position meter lower limit set value is smaller than the position meter upper limit set value the top and bottom of the above displays will be reversed The position meter will not be lit if there is an input error 9 85 TI a a oe fas a re OS cD O gt oe Je IS j cS feb a p pae cS gw p LL E Section 5 Functions and Operations Parameter Setting Procedure A Press the _ LEVEL Key for at least 7 3 s in RUN level to move to the initial ma setting level 3smin Displays Li e Lf is displayed on the level bank display to indicate the ini
167. osition Conforms to decimal point position EU EU Comparative set value 19999 to 99999 3H Comparative set value 3L 19999 to 99999 15555 to 95599 S555 to 9559 39999 15555 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 3LL Comparative set value 4HH 19999 to 99999 S555 to 395595 S555 to 9559 555955 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 4H Comparative set value 19999 to 99999 4L 15555 to 495599 S555 to 9559 55955 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 4LL Comparative set value 19999 to 99999 5HH 15555 to 95599 5555 to 95599 55955 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 5H Comparative set value 5L 19999 to 99999 15555 to 95599 S555 to 95599 39999 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 5LL Comparative set value 6HH 19999 to 99999 15555 to 495599 S555 to 9559 15555 39999 Conforms to decimal point position Conforms to decimal point position E
168. output eevee al 0 to 1 999 100 ms 7 u Ir LEN Tea Le g Data length eee OUT N t 7 or 8 bits our me Output logic l a a N O N C zal cu PE J Co MODE Ahala a Stop bits Lo O STP 1 or 2 bits a SEP Output refresh stop Ea s2 OFF OUT ALL Poty ERN J ea Parity HP F EuEn None even or odd He E Previous average MODE FF value comparison Eu SDWT OFF ON ARS S Send wait time m P BNK C 20 0 to 99 ms hn Z Bank selection FFI OFF KEY EV z Wee aan LEVEL ska 5 27 EW Startup compensation timer tS Max Displayed for Linear 0 0 to 99 9 s Linear output level Output Units only S ERR LSET C Linear Sine Input error enable L SE E L current model SE OFF OVER S ERR 4 2 0 to 20 mA J ic 4 to 20 mA es Z JILL STDBY ae kt A by LSET V Linear 3 ERT ue Mel SELNES L SEE voltage model l OFF ON 1 5 Oto5V 1to5V ee 0 to 10V ror e ce LSET H Li amp IL Cold junction compensation MODE Gb H alin mear n OFF ON output upper limit 19999 to 99999 LSET L Linear output lower limit 19999 to 99999 7 gt CMOV LDL Move to calibration level f 19 999 to 99 999 WY Q 2 O Q Q Q lt A 24 Input adjustment level 5 LIM P Zero limit value f 0 to 99 STEP Step value Ole 2 8 10 Be n a AVG T Average type
169. output 5Ha is given priority over the OFF delay aFF c The OFF delay will be disabled if the shot output is set to anything other than 0 regardless of the OFF delay setting Explanation of Functions Output OFF delay If the measurement value changes and the comparative result that had been ON until now turns OFF the comparative output will be held for the time set for the output OFF delay parameter The comparative output ON time may be too short if measurement values change quickly When comparative output signals are read by external devices short signals may not be received properly In such situations the output OFF delay can be used to output comparative output signal values for a set duration or greater Output OFF delay is set using the following parameter Parameter Set value Meaning of set value Output OFF delay ito 1353 0 to 1 999 ms 0 to 199 9 s The unit for KSHB X V H settings is 100 ms For example if 10 is set then the output OFF delay is 10 x 100 ms 1s Parameter Setting Procedure A Press the _ LEVEL Key for at least to Lu 3 s in RUN level to move to the initial setting level 3smin Displays Li co PG e La is displayed on the level bank display to indicate the initial setting level Je 4 feb a p cS gw p Li to change the PV display to AAdw G2 e This parameter is not displayed for the initi
170. priate Review the scaling value in the initial setting level D O O co D D Ke 3 1 The parameters already set are returned to the factory settings If the problem still persists after performing initialization repair is necessary 2 K3HB S only When an error occurs for input A or inputs A and B the display will show ALEr When an error occurs for input B only the display will show a Ere 1 2 7 2 Countermeasures E 7 2 Countermeasures Symptoms inspection details Forced zero is not executed Is forced zero protect enabled Set the forced zero protect to when the Al UP Key is OFF Enable in the protect pressed level The display remains on Is the startup compensation The startup compensation after the power is turned ON timer setting too long timer can be set up to 99 9 s Change the setting to an appropriate value Is the HOLD input still ON Turn OFF the HOLD input If the HOLD input remains ON and the power is turned ON the display remains on while the HOLD input remains ON Is the RESET input still ON Turn OFF the RESET input The comparative output does not Is the hysteresis setting too Change the setting to an turn OFF even if the large appropriate value measurement value returns to Is the output refresh stop set Turn OFF the output refresh the normal range stop Cannot move to the advanced Is the operation protected Refe
171. put AD napaja O deih arer EEPROM Event Wave Event input input ZAK shaping terminal circuit circuit lI l Linear output Drive Linear output rt ONE Q m ommunicaiong Sensor power I x Sd Fer supply l i tme e e e ee ee ee e e e e e e U u u u u u u Constant voltage Constant voltage circuit 1 circuit 2 Pe Pe _ SSS oo Constant voltage o circuit 1 circuit aas 1 NdWODONIN l Drive i e e e e u Power supply circult Operating power supply 1 6 Section 2 Preparations ZW AMOUEMNNG 2ececancaedecnaccase ecnccaseetoosedencecvencencessadmetecesnaceencaecsehedneiese 22 Using oem seceecnece ca esernpecebece aaia E A 2 4 ee E Section 2 Preparations 2 1 Mounting E External Dimensions Character size for main display mm PV display SV display za ep a Q prar a a Q ab OW __ 95 DeviceNet models 97 _ E Panel Cutout Dimensions 120 min 75 min oO N 2 2 2 1 Mounting E E Mounting Method 1 Insert the KSHB into the mounting cutout in the panel 2 Insert watertight packing around the Unit to make the mounting watertight Watertight packing U o O Q Q dp 3 Insert the adapter into the grooves on the left and right sides of the rear case and push until it reaches the panel and is fixed i
172. r moving to RUN level and immediately after automatic display return to RUN or adjustment levels can be set to either the present value maximum value or minimum value The display value selection is set using the following parameter Parameter A ee Meaning of set value Present value Display value aa ee Pa fe Ta Parameter Setting Procedure A Press the _ LEVEL Key for at least ra 3 s in RUN level to move to the initial setting level 3s min Displays Lit e Li is displayed on the level bank display to indicate the initial setting level B Press the LEVEL Key several times to move to the display adjustment level Displays L Le is displayed on the level bank display i indicate the display adjustment level C Press the ce MODE Key to change the PV display to oi 57 Je IS _ feb a p cS gw p Li D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the IA UP Key to change the set value F Press the ce MODE Key to switch to the next parameter Ge e The set value is registered G Press the L LEVEL Key for at least 1 s to return to RUN level m 1s min 5 78 5 30 Changing Normal Display Values to Maximum and Minimum Values E Displaying not displaying comparative set values gt P 5 82 Remark
173. r to Advanced Function functions Setting Level for information on how to clear protection P 5 5 Cc O qD Tp cE 5 CE 7 3 E Section 7 Troubleshooting D Oo 2 t D a 2 7 4 Appendices DG CNC ANIC IS an cd sees feats aces Race aaees ace E A 2 Model Number Structure ccccccccccessseeceeeeceeseceeeesseeeeeceeeesseaeees A 9 Parameter LISE serisine r AE AENEA ARENE Nenie A 12 Parameter Display Conditions s ssssssssssseeeeeseseeeeeeeeeeeeeeeeess A 17 About Parameters cacti tection ct nce gsaesachecensencctiucentgeaetaaceeteussedecuedncast A 18 Sampling and Comparative Output Response Times 008 A 26 No Measurement Status ccccccceseeeeccceeeeeeesseeeseeeeeceeeeseesseeeeeeeeeeees A 30 gt O gO 9 53 Q 0 n A 1 v Q 2 O Q Q Q lt Appendices Specifications E Ratings Power supply voltage 100 to 240 VAC 50 60 Hz Pee 24 VAC 50 60 Hz VDC Allowable power voltage range 100 to 240 VAC 18 VA max 24 VAC VDC 11 VA 7W max Absolute max ratings SUPPIY 250 to 110 of the rated power supply voltage of inputs HOV K3HB XVD K3HB XAD 199 99 mA 400 V allowable instantaneous overload 30 s 19 999 mA 200 V allowable instantaneous overload 30 s 1 9999 mA 200 V allowable instantaneous overload 30 s 4 000 to 20 000 mA 200 V allowable instantaneo
174. rative outputs P 5 55 Performing output tests gt P 5 90 Allocating other outputs to PASS output gt P 5 57 9 45 Jp co _ fab SL a O cS IP r r gt LL E Section 5 Functions and Operations 5 16 Preventing Output Chattering Advanced function setting level KVMS Hy Chattering of a comparative output results from drift in the measurement value near the comparative set value Chattering can be prevented by adjusting the hysteresis value Explanation of Functions Hysteresis Hysteresis is a range between the value for which a comparative output turns ON and the value for which the comparative output turns OFF When the comparative output turns ON it turns OFF only after the change in measurement values is greater than the set hysteresis Comparative set value Measurement value Comparative set value Hysteresis _ width Measurement value Comparative outputs i when hysteresis is not used Comparative outputs when hysteresis is used bos Chattering removed Hysteresis works in the direction of decreasing measurement values for comparative set values HH and H and works in the direction of increasing measurement values for comparative set values LL and L However hysteresis works in the direction of decreasing measurement values for all set values if the output pattern is set to a level output Comparative set vaLue HH H
175. s can be stopped by an external signal input P5 27 f Vv 5 f Standby sequence Turns the comparative output OFF until the measurement value enters the PASS range P5 61 Vv 6 f Output refresh stop Holds the output status when comparative results outputs other than PASS turn ON P5 52 f Vv 5 o Produces a constant comparative output ON time P5 49 Vv F uy Output operation can be confirmed without actual input signals by setting test measurement values using the keys P 5 90 Vv Bj f 1 3 Section 1 Outline Display DIES o F WVAE TIUC Y olg Display color selection Display refresh period The current display value can The PV display color can be When inputs change quickly be selected from the present set to either green or red The the display refresh period can value the maximum value present value color can be be delayed to reduce and the minimum value switched according to the flickering and make the status of comparative outputs display easier to read P5 78 E Vv 6 uy P 5 83 E Vv i uy P5 73 f Vv 6 f Displays the current Can convert the input signal to The comparative set value measurement value as a position any display value can be set to not display in relation to the scaling width on during operation a meter with 20 sections P 5 85 gt P5 14 P 5 82 X fV fS Hy X fV fS X fvi sy Hy Decimal point display Disables
176. s Using position meters gt P 5 85 Changing automatic display return time gt P 5 73 T1 a Cor am Je fab 2 o gt 0 a gt gaj q q fab 5 a gt Je 5 79 Je IS _ feb a p cS gw p Li E Section 5 Functions and Operations 5 31 Setting the Step for Changing the Rightmost Digit Input adjustment level R AUMmMRARA X Ma Sa The step for changing the rightmost digit on the display is set using the following parameter Parameter Set value Meaning of set value Step value ae cheep Refer to the diagram below i alla Ia Set value FF 0 10 0 t Parameter Setting Procedure A Press the LEVEL Key for at least Displays Lit Display values for rightmost digi 3 s in RUN level to move to the initial setting level 3 l P a M Le e Lu is displayed on the level bank display to indicate the initial setting level B Press the _ LEVEL Key once less than 1 s to move to the input adjustment level SS e L i is displayed on the level bank display mania to indicate the input adjustment level C Press the cel MODE Key several times Gel LE Bis to change the PV display to S D Press the SHIFT Key to make the SV display flash e The setting can be changed and the SV display starts to flash E Use the IA UP Key to chan
177. s to flash 5 61 E Section 5 Functions and Operations D Use the IA UP and SHIFT Keys to set the password i645 Press the MODE Key to move to the advanced function setting level e LF is displayed on the level bank display to indicate the advanced function setting level F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the set value to an Cc e Change the set value to aFF to turn OFF the standby sequence H Press the ce MODE Key to switch to the next parameter Ge e The set value is registered Press the _ LEVEL Key for at least f r rae S 1s min J Press the C LEVEL Key for at least ra 1s min 9 62 5 24 Performing Linear Output 5 24 Performing Linear Output Linear output level fo amp KS The linear output function outputs currents or voltages proportional to measurement values as they change Select the type of linear output Set the maximum and minimum output measurement values to output the current or voltage for those measurement values Voltage Output Linear output Linear output 5or10V 5V Line B I 1V Line B oV Measurement Measurement Linear output Linear output value a output e ae value lower limit upper limit ower limit upper limit Current Output Linear output Linear o
178. sensor error occurred durihg taet measurement Measurement No measurement X value RESET TIMING l I I I The PV display will show in no measurement status eai Selecting operations for input errors gt P 5 29 emarks Operation will continue if input error enable is set to OFF disabled or OVER overflow Peak Hold e The maximum value is held while measurement is being performed while the TIMING input is ON and when the measurement has been completed when the TIMING input turns OFF the measurement value is refreshed using the held maximum value Important e When the measurement value exceeds the measurement range during measurement a sensor error will occur a Sensor error will immediately show on the display and all outputs will turn OFF Also the measurement at that time will be invalid e Measurements are not performed and TIMING inputs are disabled during RESET input ite A sensor error occurs and all outputs are turned OFF if the measurement range is exceeded Measurement foot irab ena Cer rt tr tt Prat sj range upper limit ones _ w gre 7 es o A l a o t e a ry a 36 e a 4 e z 4 s Q Q amp z 2 e A Q 6 Ag amp Q a gt A ite a s ta oe ra Measurement invalid s A easuementinel DON k P ON Measurement because a sensor error e
179. setting level X Vj f5 fhi The PASS output change parameter can be set to output a comparative output or error output from the PASS output terminal instead of outputting the PASS output This function is valid only when PASS there is a PASS output terminal In the default settings PASS signals are output from the PASS output terminal Parameter Set value Meaning of set value PASS output change PASS HH The output turns ON when an input error occurs To allocate input errors to the PASS output set the input error enable parameter to Err If input error enable is set to AFF or au r there is no output because there is no input error e Setting the operation at input error parameter to 5 6rr P 5 29 If Err is allocated P will light when Er is displayed Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial setting level 3s min X a oe fas lt gt I Ss cD gt oe m Displays Lu a My e La is displayed on the level bank display to indicate the initial setting level to change the PV display to AAdu Ge e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display fl
180. stment level 3 21 Measuring judging product height 3 14 Display adjustment level 3 16 Initial setting level 3 15 Input adjustment level 3 15 RUN level 3 15 MODE key 1 5 Monitoring motor load current 3 6 Display adjustment level 3 8 Initial setting level 3 7 Input adjustment level 3 8 RUN level 3 7 Monitoring tank levels 3 2 Display adjustment level 3 5 Initial setting level 3 4 Input adjustment level 3 4 RUN level 3 4 Monitoring controlling temperature 3 11 Advanced function setting level 3 12 INDEX 2 Display adjustment level 3 13 Initial setting level 3 12 RUN level 3 12 Mounting method 2 3 Moving average 5 38 N Normal 3 19 5 19 5 33 O OFF timing delay 5 33 ON timing delay 5 33 Output chattering 5 46 Output logic 1 3 5 59 Output OFF delay 1 3 5 52 Output refresh stop 1 3 Output test 1 3 5 2 5 3 5 4 5 92 Outputs with set intervals 5 49 Outputs delaying turning OFF 5 52 P Panel cutout dimensions 2 2 Parameter display conditions A 12 Parameter list A 12 PASS output allocation 5 57 PASS output change 1 3 5 57 PASS range and outputs 5 61 Peak hold 5 19 5 20 5 33 Position meter 1 4 1 5 3 14 5 85 Power supply 2 6 Previous average value comparison 1 2 Protect 5 2 5 3 5 4 PV display 1 5 R RESET input 5 19 5 26 Resetting measurements 5 26 RUN 5 2 RUN adjustment protect 5 102 Sampling hold 3 15 3 24 5 19 5 20 5 33 Scaling 1 4 3 4 3 7 3 10 3 15 3 19 3 21 3 24 5 14
181. surement value Measurement value 2 No measurement U No measurement RESET l zal TIMING e 20 ms Timing delay time Delay processing invalid due to reset input Timing Hold Set Value Set to Peak Hold oe A arta Pi e A t fe gt 6 2 Greeeeereereereee A ave a 3 a i a booosoooooooooo TE Q iow 7 oe 0 e r ig 6 o oa Ki z a e e Q k r Q k P A N r y ta e ta st s e e Delay processing invalid tons Power ON due to reset ifput Measurement value RESET TIMING one ee ome pe omo 10 ms 10 ms 10 ms Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial ma setting level 3 s min e LG is displayed on the level bank display to indicate the initial setting level B Press the L_ LEVEL Key again less than 1 s to move to the input ra adjustment level 1 s max e L 1 is displayed on the level bank display to indicate the input adjustment level C Press the SHIFT Key to make the SV display flash gt e The setting can be changed when the SV display starts to flash 5 34 5 11 Adjusting Timing Inputs E D Use the IA UP and SHIFT Keys to set the timing hold parameter E Press the cel MODE Key several times 7 to switch the PV displ
182. t 19 999 to 99 999 LEVEL 1 s max Comparative set value level Buhar Ta Comparative set value bank m ou Displayed when bank selection bn L is not set to OFF rm Se Sv0 HH i Du HH Comparative set cS SU THH value 0 HH MODE 99999 33335 19 999 to 99 999 e SVO H cA e r h mode E aH Comparative set 99999 value 0 H e 19 999 to 99 999 m SVO L Su 4i Comparative set 4959 ware value 0 L e 19 999 to 99 999 5 rey p OVO LL 210 4 L Comparative set 19995 value 0 LL c rte pa a 49999 2191999101991999 Jie m rms COPY L O 4 Bank copy GFF OFF ON rary BFF LEVEL 1s max Hi Changing the Settings Use the following method to change the settings Monitor mode Edit mode i545 gt 1345 goo gt zbuann ce ce To next parameter Use the X A Keys to change the settings The setting to be changed will flash If a key is not pressed within 5 s the present setting will be saved and the display
183. t e Locations where the product may come into contact with water or oil e Locations subject to direct sunlight e Locations where dust or corrosive gases in particular sulfuric or ammonia gas are present e Locations subject to extreme temperature changes e Locations where icing or condensation may occur e Locations subject to excessive shocks or vibration 2 Do not use the product in locations subject to temperatures or humidity levels outside the specified ranges or in locations prone to condensation If the product is installed ina panel ensure that the temperature around the product not the temperature around the panel does not go outside the specified range 3 Provide sufficient soace around the product for heat dissipation 4 Use and store the product within the specified temperature and humidity ranges If several products are mounted side by side or arranged in a vertical line the heat dissipation will cause the internal temperature of the products to rise shortening the service life If necessary cool the products using a fan or other cooling method 5 The service life of the output relays depends on the switching capacity and switching conditions Consider the actual application conditions and use the product within the rated load and electrical service life Using the product beyond its service life may result in contact welding or burning 2 Install the product horizontally S Mount to a panel between
184. t is ON for 1 s min Setting the present measurement value to O again using the forced Remarks zero reference P 5 67 Tare zero Prohibiting key operated forced zero gt P 5 102 Key protect Jp co q gt os p pae cS Sep p LL 5 66 5 26 Setting the Present Measurement Value to 0 Again when Using a Forced Zero E 5 26 Setting the Present Measurement Value to 0 Again when Using a Forced Zero Advanced function setting level Ame x V5 The tare zero function shifts the present measurement value to O again using a forced zero This function is effective when each of two different types of compound are to be weighed as shown in the following example Material A Material B eli eid ot ie Scale error tare weight Weight of materials A and B Weigiit of materials A anid B i Material A weight Scale error tare weight i Material B weight Scale error Measurement value F d d T d Tare zero Forced orced zero are zeroe are zeroe release Jotorell UP Key ZERO input e Information about whether tare zero is being executed or cleared and shift values after tare zero is executed are not stored in memory when the power is turned OFF If the power is turned OFF during tare zero the Unit will be in forced zero status when the power is turned ON again e When the display range has been exceeded or a sensor
185. t value ut 19999 to 99999 555955 Conforms to decimal point position ue ee 9955 to 45599 19999 to 99999 Comparative set value 19999 to 99999 OL ical set value Sut 15555 to 39559 S555 to 9559 39999 15555 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value LL 19999 to 99999 OLL Comparative set value 1HH 19999 to 99999 15555 to 39559 S555 to 9559 55955 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 1H Comparative set value 19999 to 99999 1L 15555 to 95599 S555 to 95599 555955 13555 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 1LL Comparative set value 19999 to 99999 2HH 15555 to 495599 5555 to 9559 555955 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 2H Comparative set value 19999 to 99999 2L 19999 9 S555 to 9559 555955 13555 Conforms to decimal point position Conforms to decimal point position EU EU Comparative set value 19999 to 99999 2LL Comparative set value 19999 to 99999 3HH 15555 to 95599 5555 to 9559 15555 555955 Conforms to decimal point p
186. th 1 ns rising edge and pulse width of 1 us 100 ns Vibration Frequency 10 to 55 Hz Acceleration 50 m s to 10 sweeps of 5 min each in X Y and Z directions Shock 150m s 100m s for relay outputs resistance 3 times each in 3 axes 6 directions Weight Approx 300 g Digital Indicator only Degree of Front panel Conforms to NEMA 4X equivalent to IP66 Rear case IP20 protection Terminals IPOO finger protection VDE 0106 100 EEPROM non volatile memory Number of rewrites 100 000 times protection Installation Overvoltage category Il pollution degree 2 as per IEC61010 1 environment Specifications E Applicable UL61010C 1 CSA C22 2 No 1010 1 evaluated by UL standards EN61010 1 IEC61010 1 Pollution degree 2 overvoltage category Il EN61326 1997 A1 1998 A2 2001 Applies only when the product is used indoors The K3HB XVALILI complies with UL standards when the applied input voltage is within the range O to 150 VAC EMI EN61326 A1 Industrial applications Terminal interference wave voltage EN55011 11 Group 1 Class A CISPRL16 1 2 Electromagnetic interference wave EN55011 11 Group 1 Class A CISPRL16 1 2 EMS EN61326 A1 Industrial applications Electrostatic discharge ESD EN61000 4 3 4 kV contact 8 kV in air Radiating radio frequency EN61000 4 3 10 V m 1 kHz sine wave electromagnetic field amplitude modulation 80 MHz to 1 GHz Burst EN61000 4 4 2 kV power line 1 kV I
187. than the protect and adjustment levels during timing hold mode RESET input or startup compensation timer operation e When the MAX MIN Key is pressed for at least 1 s If the hold signal turns ON when no measurement has been made the no measurement status is held A 30 Index E INDEX A Adjustment 5 2 5 3 5 4 Advanced function settings 3 7 5 2 5 3 5 5 Analog input 2 11 2 13 2 14 2 15 Automatic display return 5 88 Average processing 1 2 5 38 Average type 5 39 Averaging inputs 5 38 Averaging times 5 39 Bank copy 1 4 5 98 Bank selection 1 4 5 93 Basic application methods 3 1 Bottom hold 5 19 5 33 C Calculation 3 15 3 19 3 21 3 24 5 9 Calculation mode 3 17 3 22 Cold junction compensation 1 4 5 31 Comparative output pattern 1 3 5 44 Comparative output status indicators 1 5 5 59 5 61 5 63 5 64 Comparative outputs 2 7 2 8 5 59 5 61 5 63 5 64 Comparative outputs holding 5 55 Comparative set value 5 2 5 3 5 4 Comparative set value banks 5 93 5 98 Comparative set value display 1 4 5 82 Component names and functions 1 2 4 2 4 4 4 6 4 8 Constant K 3 19 D Decimal point display 1 4 Decimal point display disabling 5 90 Decimal point position 3 4 3 7 3 10 3 15 3 19 3 21 3 24 5 17 Detecting sudden input changes 5 41 Display adjustment 5 2 5 3 5 4 Display color 5 83 Display color selection 1 4 5 83 Display refresh period 1 4 5 73 Display value s
188. the advanced function setting level E Press the ce MODE Key several times to switch the PV display to S Err F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the SV display to aFF H Press the tel MODE Key to switch to the next parameter Ge e The set value is registered I Press the L_ LEVEL Key for at least 1 s to return to the initial setting level pa n 4 j cS feb a p pae cS gw p LL 1s min J Press the __ LEVEL Key for at least 1 s to return to RUN level m 1s min Remarks Setting input types gt P 5 11 5 30 5 10 Disabling Cold Junction Compensation E 5 10 Disabling Cold Junction Compensation Advanced function setting level f Hy This function disables cold junction compensation terminal Le Loh temperature compensation Parameter Set value Meaning of set value Cold junction Room temperature display CJC compensation enabled 0 0 C disabled Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial m setting level 3smin Displays LE e LG is displayed on the level bank display to indicate the initial setting level X B Press the cel MODE Key several times to change the PV display to Arcus
189. tial setting level B Press the _ LEVEL Key several D times to move to the display adjustment m level cc T e Le is displayed on the level oank display to indicate the display adjustment level TT L to change the PV display to PaSs e D Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash E Use the IA UP Key to change the position meter type setting F Press the ce MODE Key to switch to the next parameter C Press the cel MODE Key several times Gel e The parameter for position meter type is registered G Press the SHIFT Key to make the SV display flash gt e The setting can be changed when the SV display starts to flash H Use the lA UP and X SHIFT Keys to change the position meter upper limit setting Press the ce MODE Key to switch to the next parameter PaS t e The parameter for the position meter upper limit is registered 5 86 5 34 Using the Position Meter E J Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash K Use the IA UP and SHIFT Keys to change the position meter lower limit setting L Press the ce MODE Key to switch to the next parameter Ge e The parameter for the position meter lower limit is registered M Press the L_ LEV
190. ting level 3smin Displays Lf e LG is displayed on the level bank display to indicate the initial setting level B Press the _ LEVEL Key several m umes to move to the output test level 17 e LE is displayed on the level bank display to indicate the output test level C Press the SHIFT Key PJ e The test input will be 0 after moving to output test status D Use the IA UP and SHIFT Keys to change the set value Al gt e Use the A UP Key to increase the set value e Use the SHIFT Key to decrease the set value Je 4 feb a p cS gw p LL e Continue pressing the key to quickly increase or decrease the set value E Once the output test has finished press the L_ LEVEL Key for at least m 1 s to return to RUN level 1s min 9 92 5 38 Using Comparative Set Value Banks E 5 38 Using Comparative Set Value Banks Advanced function setting level Comparative set value level FYT XJ Vj Sj Hj The K3HB has 8 banks where groups of comparative set values can be set beforehand Comparative set values can be changed easily by switching these banks This function is called bank selection Explanation of Functions Bank selection Comparative set values HH H L and LL are set in groups to banks Comparative set values can be set to all 8 banks numbered 0 to 7 Banks can be selected using
191. ting level in Displays Lif e Li is displayed on the level bank display to indicate the initial setting level Lu B Press the tel MODE Key several times to change the PV display to Aadu e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash a bq eee rrr pa TS TS Te 5 42 5 14 Detecting Sudden Input Changes E D Use the lAl UP and SHIFT Keys to set the password Zi i635 Press the kel MODE Key to move to the advanced function setting level e Le is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key to change the PV display to HR F F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the A UP Key to change the set value H Press the ce MODE Key to switch to the next parameter Ge e The set value is registered Press the L_ LEVEL Key for at least 1 s to return to the initial setting level m Le 1 smin J Press the _ LEVEL Key for at least 1 s to return to RUN level Ly 1s min Remarks Compensating forced zero referenc
192. ts 1 or 2 bits O STP Output refresh stop OFF OUT ALL PRIDE Parity None even or odd T ZR Tare zero OFF ON SDWT Me Send wait time Zab I ZTRM Zero trimming Oieveims ETT OFF ON oFF ce HP E LEVEL 2 i 1s max F P n Displayed for Linear BER 2 Linear output level Output Units only ce OFF ON BNK C Bank selection my LSET C Linear rE L GEE E current model a OEF TKEYTEV oFF 4 20 0 to 20 mA i l ca i 4 to 20 mA TLI S TMR EE LSET V Linear kar Startup compensation timer LEE wu voltage model 5 0 0 0 to 99 9 s 1 5 Oto 5V 1to5V co ic Oto 10V S ERR Input error enable Ce fi eee SETH Linear OFF OVER S ERR MODE SEE output upper limit 19999 to 99999 STDBY LSET L Linear Standby sequence output lower limit OFF ON 19999 to 99999 Pas CMV LFIEILN Move to calibration level 19 999 to 99 999 WY Q 2 O Q Q Q lt A 18 Input adjustment level ce MODE TMG H EAD Hl Timing hold agar Normal sampling peak bottom peak to peak ON T ON timing delay 0 to 4 999 100 ms OFF T OFF timing delay 0 to 4 999 100 ms Z LIM Zero limit OFF ON LIM P Zero limit value 0 to
193. tup 4 2 K3HB V Initial Setup Example K3HB VLC The initial setup is explained in the following example Settings Example Indicated as O to 1N in the load cell specifications rated load 1N recommended applied voltage 10 V rated output 2 mV V e f the measurement value goes above 0 700 comparative output H turns ON e f the measurement value goes below 0 500 comparative output L turns ON Measurement value Display value 0 700 1 000 0 500 0 000 3 Input Comparative output H m 0 000 mV 19 999 mV value aie ee L 10V O Q J 4 N iss I Load cell OUT 2 mV V indicates a load cell output of 2 mV for 1 V applied voltage for the rated load when using a load of 1 N When the applied voltage is 10 V the load cell output is 20 mV 2 mVx10 Initial Setup Flow Note When the power is turned ON To change a set value press the gt SHIFT Key The digit that can be a number may be displayed that changed will flash Use the SHIFT Key to move to the digit to be is unrelated to the input range changed and change the setting using the Ai UP Key Sern A Check the wiring and turn the power ON To display correct values the correct input type must be e If the display flashes 5 this indicates that the input is outside selected for the wiring the set range and does not indicate product failure Note si not change the order of step B
194. turns ON Timing starts at the rising edge of the S TMR input and the PV display is while no measurement has been performed If the power is turned ON while the 5 tar input is ON measurement will not start until the time set in the 5 tar elapses This can be used when detecting motor overloads or to ignore motor inrush currents ito 954 0 1t099 9s Parameter Setting Procedure A Press the _ LEVEL Key for at least 3 s in RUN level to move to the initial m setting level 3smin Displays Li e Li is displayed on the level bank display to indicate the initial setting level ca B Press the cel MODE Key several times to change the PV display to Arcus e This parameter is not displayed for the initial status due to setting level protect Refer to Limiting Key Operations P 5 102 for information on removing setting level protect C Press the X SHIFT Key to make the SV display flash 2l e The setting can be changed when the SV display starts to flash TI a2 oe fas a lt gt cD a gt oe D Use the A UP and SHIFT Keys to set the password d i amp 4 Press the MODE Key to move to the advanced function setting level Ge e LF is displayed on the level bank display to indicate the advanced function setting level E Press the ce MODE Key several times Di to change the PV display to
195. unction compensating conductor connection F e Connecting the Cold Junction Compensator The input will not be 5 correct if the connection terminal of the cold junction compensating conductor is touched while the thermocouple is being calibrated Short enable or open disable the tip of the thermocouple in the cold junction compensator with the compensating conductor connected as shown below Use this method to connect and disconnect the cold junction compensator e Thermocouples are calibrated by type i e Group 1 input types 2 4 7 8 10 and 14 and Group 2 input types 3 5 6 9 11 12 and 13 e Use the correct compensating conductor for the selected thermocouple The cold junction compensator and compensating conductor for thermocouple K are used for thermocouples R S E B and W e Set the thermocouple to be calibrated in the cold junction compensator and setting it to 0 C Disable the internal thermocouple open the tip e Use a calibrator that is sufficiently precise for the accuracy of the K3BH e Do not cover the bottom during calibration Never touch the input terminals or compensating conductor 6 5 D D om OQ oO O a a 1 2 S Cc 2 qv See 2 O ab u E Section 6 User Calibration E Key Operation Procedure Perform the operation according to the following procedure Moving to Calibration Parameter Setting Procedure Level A Move to the advance
196. us overload 30 s KSHE XVA 400 V allowable instantaneous overload 30 s K3HB XAA 2 A allowable instantaneous overload 30 s 0 000 to 19 999 mA 2 A allowable instantaneous overload 30 s K3HB V 0 00 to 199 99 mV 200 V allowable instantaneous overload 30 s 0 000 to 19 999 mV 200 V allowable instantaneous overload 30 s 100 00 mV 200 V allowable instantaneous overload 30 s 199 99 mV 200 V allowable instantaneous overload 30 s External power supply 12 VDC 10 80 mA only for models with external power supply Srv 10 Ta A oly fr dels wr exer power Sopp Input range DC voltage current 0 to 20 mA 4 to 20 mA 0 to 5 V 1 to 5 V 5 V measure 10 V 2 channels ment range K3HB X DC voltage 199 99 V 19 999 V 1 999 V 1 000 to 5 000 V Measure DC current 199 99 mA 19 999 mA 1 999 mA 4 000 to 20 000 mA ment type AC voltage 0 0 to 400 0 V 0 00 to 199 99 V 0 000 to 19 999 V 0 0000 to 1 9999 V AC current 0 000 to 10 000 A 0 0000 to 1 999 A 0 00 to 199 99 mA 0 000 to 19 999 mA K3HB V Load cell 0 00 to 199 99 mV 0 000 to 19 999 mV 100 00 mV 199 99 mV N CAT Il Specifications Input KSHB S Current range 120 Q max Voltage range 1 MQ min impedance DC voltage for 199 9 V 10 MQ min For other ranges 1 MQ min DC current for 199 99 mA 1 Q max For 19 999 mA or 4 to 20 mA 10 Q max For 1 9999 mA 33 Q max AC voltage 1 MQ min AC current for O to
197. utput x am Z 20 mA 20 mA gt Je fab gt Ss D Line B 23 i 4 mA Line B a 0 mA Measurement Measurement Linear output Linear output value Linear output Linear output value lower limit upper limit lower limit upper limit Areas marked with an asterisk are input error areas If the operation at input error parameter is set to input error then the output would be like Line B Otherwise the output would be like Line A If operation stops without performing a measurement then the minimum value e g 4 mA for the 4 to 20 mA range is output The value set for the upper limit does not necessarily have to be higher than the value set for the lower limit The following is an example of reverse scaling Linear output x 20 mA Line A Line B 4 mA Measurement Linear output Linear output value lower limit upper limit 5 63 Je 4 as feb a p cS gw p Li E Section 5 Functions and Operations If the upper and lower limit are set to the same value then the upper limit will equals the lower limit plus 1 for linear output Parameter Setvalue Meaning of set value Linear current type O to 20 mA LEE EE Sue 4 to 20 mA Linear voltage type 0 to 5V IEE i RoC 8 a Linear output upper When a linear output is mounted the linear current type or linear voltage type parameter can be set according to the type
198. v O Sets the step size for changing the value of the rightmost digit of the measurement value P 5 80 ne Vv 5 f Shifts the temperature input value P 5 24 1 1 Main Functions and Features of the KSHB Key operations Teaching During scaling the input value during measurement can be set as is as the scaling input value Setting Scaling Xi v Sj Outputs Comparative output pattern The comparative output pattern can be selected as standard output zone output and level output P 5 44 ve Vv 5 f PASS output change Comparative results other than PASS and error signals can be output from the PASS output terminal P 5 57 E Vv 6 f Output logic Reverses the output logic of comparative outputs for comparative results P5 59 Vv f5 f Linear output Outputs currents or voltages proportional to measurement values as they change P 5 65 Vv F f Key protection Limits key operated level and parameter changes to prevent inadvertent key operations and malfunctions P 5 102 Hysteresis Prevents comparative output chattering when the measurement value fluctuates slightly near the set value P5 46 ee Vv 5 T Output OFF delay Connects the comparative output OFF timing for a set interval Comparative output ON times can be held when comparative results change quickly P 5 55 ne Vv 6 f Startup compensation timer Constant time measurement
199. will be registered Sep lt Sa co a fab a D O cS SP gt LL 5 1 Setting Calculations E 5 1 Setting Calculations Initial setting level f Sy The K3HB S can add subtract and display two analog inputs input A and input B Explanation of Functions Calculation and constant K E A e Select to use only input A E B e Select to use only input B E K A Jo e Select to subtract input A from a constant m a ene e K can be set to any value K a y e This function is useful for applications such as measuring the o l ca height of a workpiece e Select to add input A and B values TI gt cq pa lt gt m lt gt cD gt n e Select to subtract input B from input A e This function is useful for applications such as measuring steps in workpieces e Select to subtract input A and B values from a constant e K can be set to any value e This function is useful for applications such as measuring the thickness of a workpiece 5 9 E Section 5 Functions and Operations E B A x 10000 e Select to display the ratio between input A and input B E B A 1 x 10000 e Select to display the error ratio for input B and input A Set using the following parameter pa Parameter Set value Meaning of set value m r CAL Calculation reco i Parameter Setting Procedure A Press the _ LEVEL Ke
200. will return to monitor mode About Parameters A 23 gt O gO 9 53 Q o n Appendices E KSHB H Protect level RUN level Initial setting level 5 Measurement value L_ x IN TA RUN PT kA g ce L Si 0 to 2 S s min Vc 3s min la x SET PT Measurement value Measurement stops E E ERE E l P G Setting level protect Comparative set value H 5p Power frequency V I oto2 3935 19999 to 99999 50 60 Hz ce ce ath LEVEL WT PT e ce Measurement value ACs 4 amex tase YEPE Setting change protect LEVEL MODE MODE 49999 Comparative set value L r T unit FF OFF ON 1s min 19999 to 99999 Measurement starts Te 42 MM PT Measurement value zyn A E TA AAR MAX MIN protect Comparative set value LL MODE CE o output pattern E oto2 13333 19999 to 99999 LEVEL nant Standard output zone Fsimin cS Output level output rz AMOV FAT Move to advanced bevel function setting level Adjustment level 1 s max wp 719999 to 99999 Anh BANK Bank p O0to7 1 Refer to the measurement range table on the front panel Displayed when bank selection bn L is Parameter Display 2 ee _ Always displayed regardless of mode
201. y 0 to 4999 oto 4999 Zero limit off on Zero limit value 0 to 99 Conforms to decimal point position Input adjustment Step value Average type average Averaging times Fuki r 1 2 4 8 16 32 64 128 256 512 1024 Input shift input 1 9999 to 99999 Puu Input shift value 1 19999 to 99999 9995 to 55599 Input shift input 2 19999 to 99999 13555 to 55599 00 a Input shift value 2 19999 to 99999 13555 to 55599 Har Power supply memory off on AFF Comparative set value off on AFF display Display refresh period a off 0 5 s 1s 2s 4s ar Display color selection L Green red green red r urar green red Display value 5 PV max min Pu AA Aca selection Automatic display 0 to 99 D He return Position meter type 35 OFF incremental BFF ual Lalor dE LaL incremental reversed deviation deviation Display reversed adjustment Position meter upper 19999 to 99999 Conforms to decimal Yy LG 16 limit point position bI lt 2 pag cs cy J gt ir TE cy a a Position meter lower L 19999 to 99999 limit Conforms to decimal point position DLD lt SED ea EX Lie Lia a X X X X V S H X X X X V S H ma to 3 ba Lo gI ho cS o Q 2 O Q Q Q lt x Parameter List a Le A ee Comparative set value display Comparative set value set value Bunnar bank Comparative se
202. y flash e The setting can be changed when the SV display starts to flash E Use the IA UP and X SHIFT Keys to change the set value Al gt F Press the ce MODE Key to switch to the next parameter Ge e The set value is registered 5 88 5 35 Automatic Return to Normal Display E G Press the __ LEVEL Key for at least 1 s to return to RUN level I 1smin T1 a Cor am Je fab 2 o gt 0 a gt gaj q fab 5 a gt gt Je 5 89 Je 4 feb a p cS gw p Li E Section 5 Functions and Operations 5 36 No Decimal Point Display Display adjustment level 5 90 f Hj This function selects whether or not to display values below the decimal point for present values maximum values and minimum values If no display is selected then numbers past the decimal point are rounded off to display the nearest integer Comparative judgments however will use the decimal point Parameter Set value Meaning of set value of set value Decimal point display Decimal point display 2 23 5 Decimal point display 23 5 Decimal point display Ci I P d ia 24 No decimal point display Parameter Setting Procedure A Press the _ LEVEL Key for at least to at 3 s in RUN level to move to the initial setting level 3 S min Displays L et Lf H e LG is displayed on the lev
203. y for at least ma 3 s in RUN level to move to the initial setting level 3s min Displays Lai a MD e Lu is displayed on the level bank display to indicate the initial setting level B Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash C Use the IA UP Key to change the set value D Press the ce MODE Key to switch to the next PV display Ge e The set value is registered Remarks Setting constant K gt P 5 16 Je IS j cS feb a p pae cS gw p LL 5 10 5 2 Setting Inout Types E 5 2 Setting Input Types Initial setting level CARRA X Vg Sa K3HB X Set the input type to match the connected input device E Meaning of set value DC voltage XVD 199 99 V odu 1 0000 to 5 0000 V DC current XAD AAd 199 99 mA Input type A 19 999 mA TI m Oodd 4 000 to 20 000 mA AC voltage XVA ORAA 0 0 to 400 0 V ame bu 0 00 to 199 99 V a 0 000 to 19 999 V Pod 0 0000 to 1 9999 V AC current XAA AAR 0 000 to 10 000 A uel ob AR 0 0000 to 1 9999 A OCAR 0 00 to 199 99 mA od AR 0 000 to 19 999 mA Eliminates inductive noise from the power supply line Set to the power supply frequency TI a2 Je pa a Ss cD a gt oe Parameter Set value Meaning of set value Input type A 0 000 to 19
204. ype EAA Voltage and Current Process Indicator Linear Sensor Indicator Temperature Indicator 2 Input Range 3 Analog Communications and Other Output Specifications K33 Relay output PASS SPDT Sensor power supply 12 VDC 10 80 mA Relay output PASS SPDT Sensor power supply 10 VDC 5 100 mA Linear current output DC0 4 20 mA Sensor power supply 12 VDC 10 80 mA Linear current output DC0 4 20 mA Sensor power supply 10 VDC 5 100 mA Linear voltage output DC0 1 5 V 0 to 10 V Sensor power supply 12 VDC 10 80 mA Linear voltage output DC0 1 5 V 0 to 10 V Sensor power supply 10 VDC 5 100 mA Sensor power supply 12 VDC 10 80 mA Sensor power supply 10 VDC 5 100 mA Communications RS 232C Sensor power supply 12 VDC 10 80 mA FLK1B Communications RS 232C Sensor power supply 10 VDC 5 100 mA FLK3A Communications RS 485 Sensor power supply 12 VDC 10 80 mA FLK3B Communications RS 485 Sensor power supply 10 VDC 5 100 mA 4 Relay Transistor Output Specifications K34 Relay contact H L SPDT each Relay contact HH H LL L SPST NO each 5 Control Input Specifications K35 Control input specifications Ln Control input 5 points M3 terminal blocks NPN open collector Control input 8 points 10 pin MIL connector NPN open collector 3 Control input 5 points M3 terminal blocks PNP open collector Control input
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