Digital Indicators K3HB-R/-P/-C User`s Manual
Contents
1. lt ra a3 p Ss NM Referring to the following table specify the prescale value corresponding to the desired display unit Calculated value Display unit ii value m Interval 1000 xda Na 100 adaa Na Number of input A pulses per rotation xda Circumferential length m of input A per rotation 5 21 E Section 5 Functions and Operations Use the following parameter to set the function Parameter a Meaning of set value Function F Passing speed ii Fe Cycle ycle Fa Time diference Measuring length Interval Parameter Setting Procedure ra A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level u Min 3 s min e La is displayed on the level bank display to indicate the initial setting level P B Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash A C Use the A UP Key to change the set value ca D Press the ce MODE Key to switch the display to the next PV The set value Is registered wm So p D a sa WN 6 LL 5 3 Setting the Function for the K3HB C E 5 3 Setting the Function for the K3HB C Initial setting level E F1 Individual Inputs The count in incremented on input A pulses and decremented on input B pulses The count is incremented on the rising edge of input A and decremented on the rising2. 0 to 4 qoo0g a0 1 o00 00 40 2 0005 Prescale 2X Poe AS 0 0000 to 9 9999 0 OOOD to 3 9999 1 0000 ee e ee Decimal pointposition dF 2 Prescale 3X Pos Au 0 0000 to 9 9999 Decimal pointposition dP3 3 Prescale 4X PCY AJ 0 0000 to 9 9999 n AGE to 3 9999 l e ae Decimal point position 4 Prescale 5X pss As 0 0000w9 9999 20000049333 1 0000 1 o o a oni ee a as ee Decimal point position 0 to 4 5 x cx wr res oon ea 40 0 Qo Prescale 6X PSE As 0000099909 Haccgt99999 1 0000 ee jf a pout i E E Decimal point position 0 to 4 annann aoe Ce ey ee A 4 0008 Prescale 7X Pon AJ 0 0000 to 9 9999 RHEE Decimal pointposition dP 0 to 4 onnan a0 7 ano0 00 0 4 Da Da Da Bankcopy ta cary OFF ON o ON Comparative set Penk cp a nt een to 7 7 bank Comparative set value unas 19999 to 99999 45555 to 5555 99999 Conforms to decimal 05 point position Comparative set value Suna 19999 to 99999 45555 to 5555 99999 Conforms to decimal 04 point position Comparative set value Sutlad 19999 to 99999 45555 to 5555 99999 Conforms to decimal 03 point position Comparative set value Bunad 19999 to 99999 45555 to 5555 99999 Conforms to decimal 02 point position Comparative set value Sula i 19999 to 99999 45555 to 5555 99999 Conforms to decimal 01 point position Comparative set value Su tad 19999 to 99999 45555 to 5555 99999 Conforms to decimal 15 point position Compara
3. 9 6 19 2 or 38 4 kbps OUT N Output de energization LEN N O N C Data length 7 or 8 bits O STP Output refresh stop OFF OUT ALL coll z SBIT MoDE ia amp Stop bits Z 1 or 2 bits BNK C Bank selection 6 OFF KEY EV D PRTY i rity tuio ge even or odd STDBY Jc Standby sequence c ft SDWT OFF ON Send wait time LEVEL Displayed for Linear Linear output level Output Units only LSET C Linear current model 0 to 20 mA 4 to 20 mA LSET V Linear voltage model Hig a lig SW 0to10V LSET H Linear output upper limit 0 to 99999 LSET L Linear output lower limit 0 to 99999 J gt re ze O Q M 0 V A 25 Appendices Input adjustment level Display adjustment level L 7 MEIC ti m SV DSP Comparative AEAT Power interruption gt aar set value display BEF memory C oFF OFF ON OFF ON LEVEL 1s max D REF Display refresh period FFIOFF 0 55 15 25 45 COLOR Display color selection Green red green red green red DISP Display value selection PV MAX MIN co Ce MODE R E T Automatic display return imjO to 99s POS T Position meter type OFF incremental incremental reversed deviation deviation reversed 0 to 99 999 POS L Position meter lower limit 0 to 99 999 LEVEL 1s max Prescale level P
4. E K3HB C Level Outputs Measurement value Comparative set value 5 Comparative set value 4 Comparative set value 3 Comparative set value 2 Comparative set value 1 Output 5 Output 4 Output 3 Output 2 Output 1 Zone Outputs Ta p B gS Ta x 5 LL Comparative set value 5 Comparative set value 4 Comparative set value 3 Comparative set value 2 Comparative set value 1 Output 5 5 40 5 10 Changing Comparative Output Patterns E Parameter Setting Procedure The following explanation uses the K3HB R as an example A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level Displays Lu 3s min L amp H is displayed on the level bank display to indicate the initial setting level r Le lt a B Press the cel MODE Key several times to change the PV display to awe P C Press the gt SHIFT Key to make the SV display flash The setting can be changed and the SV display starts to flash D Use the Al UP Key to change the set value E Press the ce MODE Key to switch to the next parameter e The set value Is registered F Press the _ LEVEL Key for at least 1 s to return to RUN level Remarks 5 11 Preventing Output Chattering gt P 5 42 5 12 Outputting for a Set Interval P 5 44 5 13 Delaying Output OFF Timing P 5 46 5 15 Holding Comparative Outputs P
5. Outline Preparations Basic Application Methods Initial Setup Functions and Operations E Troubleshooting Appendices xa t HATE k 7 E M BOS ar DnE b of g may hy O i em V O de a ao 2 D V AX D Preface OMRON products are manufactured for use according to proper procedures by a qualified operator and only for the purposes described in this manual This manual describes the functions performance and application methods needed for optimum use of the K3HB 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
6. The interruption memory cannot be used if the startup compensation timer is enabled when the power is turned ON 5 22 Holding Measurement Values P 5 63 5 24 Changing Normal Display Values to Maximum and Minimum Values P 5 67 5 24 Changing Normal Display Values to Maximum and Minimum Values E 5 24 Changing Normal Display Values to Maximum and Minimum Values Display adjustment level KaG The PV display value displayed after power is turned ON after a RESET input immediately after moving to the RUN level and immediately after automatic display return to the RUN or adjustment levels can be set to any of the following present value maximum value or minimum value The display value selection is set using the following parameter Parameter Setvalue Meaning of set value Pu Presentvalue Disola ee selection af oP ata Min value Parameter Setting Procedure a A Press the _ LEVEL Key for atleast 3 s in RUN level to move to oo the initial setting level Displays L amp 3s min 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 L is displayed on the level bank display to indicate the display adjustment level C Press the cel MODE Key to change the PV display to ai 5 T1 z ci n re gt a3 p Ss n D Press the
7. ssssssisseeeeeressrrrrrrreeeee 5 39 5 11 Preventing Output Chattering sessssrrsseesssrrrrrrersrrrrrrrsrrrrrrree 5 42 5 12 Outputting for a Set INterval cecccssssseseceeeseeeseeeeeeeessaeeeeeees 5 44 5 13 Delaying Output OFF Timing cccccsesseeeeeeceesseeeeeseeeessaeeeseeeess 5 46 5 14 Holding Measurement Status ccccceesseeeeeeeeeeeeessseeseseeeeeeeeeees 5 48 5 15 Holding Comparative Outputs ccccecccceceeceeceeeesesseeeeeeeeeeeeeeeeees 5 49 5 16 Allocating Another Output to PASS Output eeeeeeeeeeeeeees 5 51 De 17 Reversing OUMU LOGIC seriinin 5 53 5 18 No Output before PASS RAne ccccceceecceeeceeeessseeeeseeeeeeeeeees 5 55 5 19 Performing Linear OUtOUL cceeeececccsseeeseeeeeeeseeeeseeeeessaeseeeess 5 57 5 20 Changing the Display Refresh Period ccccccecccssssssssseeeeeeeeeeees 5 60 n 5 21 Setting a Compensation Value for the Measurement Value 5 61 3 5 22 Holding Measurement Values sssssssssrssrssrssrrerrnrrnsrnrrrnrrnrrnerrns 5 63 S 5 23 Holding Maximum and Minimum ValUe S cceeeeeseeesseeeeeeeess 5 65 Z 5 24 Changing Normal Display Values to Maximum and S POTATO Y CS saacniconnsstnangreaviaiiamndesteariianemadarudabueeniatamuanien 5 67 S 5 25 Displaying Not Displaying Comparative Set Values s s 5 68 j 5 26 Changing Display Colors sssssssssssrrrsereessssssrsrrrrenrnnsessrrrrrrrrreee 5 69 a 5 27 USING the Position MCTED iicimnceencnss
8. Max Min Protect The following parameter limits key operations for switching and resetting maximum and minimum values Max min Parameter value Switching Enabled Enabled Enabled ma a Enabled Prohibited Oo goo Prohibited Prohibited Parameter Setting Procedure A Press the L_ LEVEL and cel MODE Keys together for at least igel 3 s in RUN level to move to the protect level afn is displayed on the level bank display to indicate protect e oe level __ B Press the cel MODE Key several times to display the desired Ge protection e The display shows setting change protect as an example C Press the gt SHIFT Key to make the SV display flash N D Use the lAl UP Key to change the SV display ql E Press the ce MODE Key to switch to the next parameter e The set value is registered F Press the _ LEVEL and cel MODE Keys together for at least PAA 1 s to return to RUN level 1s min T1 z ci S Tp rev gS ra g p Ss Tp 5 85 E Section 5 Functions and Operations WN oO wD a ES WN GS LLU 5 86 Section 6 Troubleshooting OL TE Oi 1S Dla S waccesycuntecatecannecorencininamieatennddnntiandaeeancnancomisane 6 2 Countermeasures cccccecceccecceceeeeeeeceeeeeeeeaeeeeeeeaeeeaeeaeeeenennenanness 6 3 Pugooys jqnoL Section 6 Troubleshooting 6 1 Error Displays Tx i oh Description o
9. Parameter Set value Meaning of set value p a delay tito 455 0 to 1 999 ms 0 to 199 9 s The unit for K3HB R settings is 100 ms For example if 10 Is set then the output OFF delay is 10 x 100 ms 1 s 2 Parameter Setting Procedure B p A Press the L_ LEVEL Key for atleast 3 s in RUN level to move to FE the initial setting level 2 Displays L 5 3 s min LO is displayed on the level bank display to indicate the initial E setting level B Press the ce MO DE Key several times to change the PV display to Tau e This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations for information on removing setting level protect C Press the gt 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 ut i649 Press the cel 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 cel MODE Key several times to change the PV display to arr 4 5 46 5 13 Delaying Output OFF Timing i F Press the SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash Al G Use the A UP and gt SHIFT Keys to change the
10. SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash E Use the Al UP Key to change the set value F Press the ce MODE Key to switch to the next parameter e The set value Is registered G Press the L_ LEVEL Key for at least 1 s to return to RUN level 5 25 Displaying Not Displaying Comparative S et Values P 5 68 Remarks 5 27 Using the Position Meter P 5 71 5 28 Automatic Return to Normal Display P 5 73 5 6 N wo E B O ge a x D rus E Section 5 Functions and Operations 5 25 Displaying Not Displaying Comparative Set Values Displays L 5 3 s min 5 68 Display adjustment level TTT Ry Py 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 CdSe 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 atleast 3 s in RUN level to move to the initial setting level a in e La iS displayed on the level bank display to ind
11. z ci n re gt ra p Ss n E Section 5 Functions and Operations 5 29 Performing Output Tests Output test level m amp Ry Pa CJ 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 value Note With the K3HB P the setting range Is 0 to 99999 Parameter Setting Procedure q A Press the C LEVEL Key for atleast 3 s in RUN level to move to Ly the initial setting level Displays L amp aot ei is displayed on the level bank display to indicate the initial setting level B Press the _ LEVEL Key several times to move to the output test level EES e Le is displayed on the level bank display to indicate the output test level C Press the gt SHIFT Key e The test input will be 0 after moving to output test status D Use the Al UP and SHIFT Keys to change the set value e Use the IA UP Key to increase the set value e Use the gt SHIFT Key to decrease the set value 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 rm atleast 1 s to return to RUN level 1s min 7a B a Ss fa lt k D 35 LL 5 74
12. 4 V7 2 Comparative set value 7 2 19 999 to 99 999 SVI Comparative set value 7 1 19 999 to 99 999 COPY Bank copy OFF ON No Measurement Status E 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 ute hed SSS 88888 A no measurement status occurs in the following circumstances When power is turned ON during a RESET input or during startup PV display compensation timer operation All outputs OFF Immediately after returning to RUN level from any level other than the protect and adjustment levels during a RESET input or during Startup compensation timer operation If the HOLD signal turns ON when no measurement has been made the no measurement status is held gt te 0 Q O M 0 A 29 E Appendices Forecasted Cycle Calculations When the input pulse stops suddenly forecasted cycle calculations are used to wait for the next input pulse based on frequency forecasts During forecasted cycle calculations the frequency is forecasted continuously for any point in time regardless of when the next input pulse is received This increases the response characteristic in the shaded portion of the diagram gt S 0 oO v LL Time Forecasted cycle calculation Forecaste
13. About Parameters About Parameters E K3HB R Power ON Initial setting Protect level level La Measurement value ve pa yar v mn E1R UN adjust ment protect LEVEL MODE 99999 Cee uaee 35 min ae P S bs Prescale BX 0 to 2 3s min 1 2052 0 0000 to 9 9999 GEL D SELT Comparative set value H stops alae rie oo PS BY 1 s max J7 1 Setting level protect 99999 _ Input type A rana 19999 to 99999 Prescale BY lce l ce Measurement value oe Yc e LA EAN n LEVEL MODE MODE j TB r ial aor is Measurementvalue J Ee IE A t NO N ce gage Comparative set value LL rn WS HE AF a NONE I DP MAX MIN tect i ZA ee 7 a he MIN protec 19999 to 99999 ismin f Taob Prescale AX An Decimal point position 0 0000 to 9 9999 0 to 4 ye Ice OUT P LEVEL PAd a AY allt P Comparative output Adjustment level 1 s max 0 0 SAAL pattern standard co J output zone output bln H BANK Bank q Evel output p Oto 7 moe AMOV Move to advanced Displayed when bank selection hn E is set BE a co _ _to KEY This is not displayed in the factory default state 1 Bit EUA eae es
14. Prescale AY 1 60 0 01666 1 666 x 1072 Prescale BX PS bo L555 Input B prescale value a kuna BY 1 60 0 a eer 1 666 x 10 position Comparative Standard outputs output pattern Input Adjustment Level L as Averaging type AGE 5aPL Simple averaging Auto zero time A AEIR ho Display is forced to zero when no pulse is received for 10 seconds Auto zero time B 3 5 lus red v O gt oO Ss O rev Ct O a 5 oe os Tp E Section 3 Basic Application Methods Display Adjustment Level pa e Parameter Characters Set value Remarks Display color color PASS range Green selection LL L H and HH ranges Red selection type Position meter lower limit gej D 4S 2 Q 2 lt L wn co 3 6 3 3 Monitoring Conveyor Line Passing Time K3HB R E 3 3 Monitoring Conveyor Line Passing Time K3HB R Advantages of Using the K3HB R e Displays the passing time to tenths of a second 00 0 s using a rotary encoder that outputs 100 pulses rotation e he prescale value is obtained using the following formula assuming a roller circumference xd of 0 125 m and processing length of 5 m 1 ppt Wee ne quency Pulses N per rotation Circumferential speed Roller circumference zd 0 125 m x rotational speed Processing length Circumferential speed Processing length m Circumferential length
15. T1 a ci S Te D O gS ra a3 p Ss Tp Interruption memory disabled Parameter Setting Procedure z A Press the C LEVEL Key for atleast 3 s in RUN level to move to so m the initial setting level Displays La 35 min et is displayed on the level bank display to indicate the initial setting level __ B Press the _ LEVEL Key several times to move to the input m adjustment level Displays t e L is displayed on the level bank display to indicate the input adjustment level Ge C Press the ce MODE Key to switch to the PV display to nEna 5 63 E Section 5 Functions and Operations D Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash Al E Use the Al UP Key to change the set value l F Press the c MODE Key to switch to the next parameter The set value is registered ma G Press the _ LEVEL Key for at least 1 s to return to RUN level 1s min Remarks 5 23 Holding Maximum and Minimum Values P 5 65 fa p B a z fa 5 S 35 LL 5 64 5 23 Holding Maximum and Minimum Values E 5 23 Holding Maximum and Minimum Values m g R m Each time the MAX MIN Key is pressed in the RUN level the maximum or minimum value recorded while a measurement is being performed will be displayed Max value
16. Turns the comparative output OFF until the measurement value enters the PASS range P 5 55 R fP Display color selection The PV display color can be setto either green or red The present value color can be switched according to the status of comparative outputs P 5 69 R F Can convertthe input signal to any display value P 5 28 R fP fe Output refresh stop Holds the output status when comparative results outputs other than PASS turn ON P 5 49 Ry fP Produces a constant comparative output ON time P 5 44 Ry fP fC Output operation can be confirmed without actual input Signals by setting test measurement values using the keys P 5 74 Ry fP j Display refresh period When inputs change quickly the display refresh period can be delayed to reduce flickering and make the display easier to read P 5 60 Ry fP tj Comparative set value display The comparative set value can be setto not display during operation P 5 68 Ry fP fC 1 3 E Section 1 Outline Other Max Min hold Holds the maximum and minimum measurement values P 5 65 R fP T Interruption memory The measured value can be recorded when the power supply is interrupted P 5 63 f 1 4 Bank selection Eight comparative set value banks can be selected using the keys on the front of the Unit or by external inputs Groups of comparative set values ca
17. 3s min 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 comparative Ly set value level L4 is displayed on the level bank display to indicate the comparative set value level C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash 5 78 5 30 Using Prescale Comparative Set Value Banks E Al D Use the Al UP Key to select the bank to be set qp E Press the kel MODE Key e The bank selected in step D can be set __ F Press the cel MODE Key several times to select the comparative Ge set value to be changed G Press the gt SHIFT Key to make the SV display flash A H Use the Al UP and SHIFT Keys to change the set value l Press the ce MODE Key to switch to the next parameter e The parameter changed in step H is registered Repeat steps F to I 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 Proceed to step N J to copy the D to set when bank contents of this comparative set comparative set bank to all values for other value settings have banks banks been completed suogeado pue suonoun y J Press the ce MODE Key several times to change the PV display to Lay
18. CONTENTS 1 l Contents 5 15 Holding Comparative Outputs noana nanana 5 49 5 16 Allocating Another Output to PASS Output 0 20 00 0000 00s 5 51 Del Reverse COULD OC Cea 205 630i os atk hws aon a owes Ol es Ba ee es 5 53 5 18 No Output before PASS Range joc oso dane od hae Gage eh See Se ead 5 55 JIO Pertorming Lincar Our i scb54 ce doe n o A AA ae te dee a dew Sed ce Sede Sew betes 5 57 5 20 Changing the Display Refresh Period 0 0c cece eens 5 60 5 21 Setting a Compensation Value for the Measurement Value 0 0002 na 5 61 5 22 Holdins Measurement Valuesine 4 5 gaa us beau banks Gadd Jaekaes tee bane aedaee ae 5 63 5 23 Holding Maximum and Minimum Values 0 000 eens 5 65 5 24 Changing Normal Display Values to Maximum and Minimum Values 5 67 5 25 Displaying Not Displaying Comparative Set Values 20 00 0 cece eee eee 5 68 5 26 Changing Display Colors s 20145 604ci6 dias ded he oho ee ibe hae ee bbow Sooo ees 5 69 D21 Using tne Position Meter 51 scadvar aiid ohare debe Sec teas crasaek er uw r a wile acai 5 71 5 28 Automatic Return to Normal Display 0 0 0 0 0 cc ccc cee en nes 5 73 5 29 Pororo Output Tese nran ei GAS eed a eA ee ee ee ee eee ee 5 74 5 30 Using Prescale Comparative Set Value Banks 20 0 cee cee ees 5 75 5 31 Copying Bank Prescale Vales cs oats kaise sds eee oak oo ee ae ee eee ee eA 5 81 5 32 Copyines Bank Comparative Se
19. Circuit Diagrams Linear voltage output OE 500 Q min 2 6 2 2 Using I O 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 K3HB C outputs are enclosed in parentheses OUT OUI PAUNA Circuit Diagrams Contact Outputs lt K34 C1 gt H OUT4 and L OUT2 Output Models D O a o ct gt T lt K34 C2 gt HH OUT5 H OUT4 L OUT2 and LL OUT1 Output Models 2 7 WY Cc fe Dp ie ok A E Section 2 Preparations 2 8 Transistor Outputs CD HH OUTS C H OUT4 PASS OUT3 L OUT2 LL OUT1 COM MED HH OUT5 iM H OUT4 MC PASS OUT3 AMA L OUT2 8 2 Q C5 LL OUT1 2 2 Using I O E Event Inputs OUI PAUNA B Input control signals The configuration is shown below S TMR Delays measurement until set time See page 5 34 expires Holds measurement value maximum HOLD value minimum value and output See page 5 48 Status i U RESET Clears maximum value minimum See page 5 33 a value and output status 5 Q COMPENSATION Sets a compensation value for the See page 5 61 a measurement value ct T Models with terminal blocks Models with
20. H 6 2 6 2 Countermeasures E 6 2 Countermeasures Symptoms Inspection details Countermeasure The display remains on Is the startup compensation The startup compensation after the power is turned ON timer setting too long timer can be setup 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 S top Cannot move to the advanced Is the operation protected Refer to Advanced Function function setting level Setting Level for information on how to clear protection P 5 4 a O D U gt z ro 6 3 E Section 6 Troubleshooting D p Q lt Y a ro H 6 4 Appendices SPECIMENON e a E ERRARE Oa a Na A 2 Model Number Structure sssssrrrseessssrrrrrrsrrrrrrnssrrrrrrnnrrrrrrrresrsrrree A 7 Patameter EiS bonerrmaas ora a AE A 8 Parameter Display Conditions esesssrsrrnneesrrrrrrssrrrrrrnerrrrreneesrrrrree A 17 ADOUE P AVaINGtEIG senaia naieaacniarmataan A 23 SO VC 1S URE GI
21. Oto 10V MODE were l LSET H Linear Races tke output upper limit ie U NO Lf i Communications Unit No 0 to 99 ce Looe BPS Baud rate at 2119 6 19 2 or 3 5 38 4 kbps J _ ILEN Ree AP Data length 7 or 8 bits L SBIT Shek Stop bits 1or2 bits ni u ERDE E Parity EuEn None even or odd A Z I SDWT Send wait time eu 0 to 99 ms LEVEL 1s max Linear output level Output Units only Displayed for Linear LSET C Linear 19999 to 99999 LSET L Linear output lower limit 19999 to 99999 15559 gt te 0 J Q O M 0 A 23 Appendices Input adjustment level Display adjustment level Le ic cc SV DSP Comparative mi AVG T Average type TOs be Do Aul E Simple average SFE a display I moving average LEVEL Races a Ae 1s max D REF l times 1 2 4 8 16 32 Display refresh period H 64 128 256 512 OFF 0 55 15 25 45 cel 1 024 times R Ae zH eee Display color selection Auto zero time A k e 0 0 to 2999 9 Green red green red la l green red AT ZB DISP Display value y Auto zero time B selection J 0 0 to 2
22. Prescale 0AX 0 0000 to 9 9999 l PSO AY Prescale QAY 9 to 9 DPO Decimal point position 0 0 to 4 Comparative set value level LEVEL 1 s max 0to7 ce 17 ath Lt 0 Comparative set value 0 5 HEEEE 19 999 to 99 999 tea ec m rug SV04 IL0L9 1 1 Comparative 39999 set value 0 4 J 19 999 to 99 999 ce MODE Cc m z3 SV0 3 afhtLt 121 Comparative 355955 set value 0 3 19 999 to 99 999 t E 1 Comparative 395955 set value 0 1 19 999 to 99 999 Li COPY _ _ Bank copy oFFIOFF ON pa Smd LEVEL 1s max Displayed when bank selection 4nt is not set to OFF mI PS7 AX Prescale 7AX 0 0000 to 9 9999 pa Daia pa PS7 AY lP rescale 7AY 1 9 to 9 DP7 Decimal point position Jee 0to4 rar CORNE ore Bank copy FF Sie cel LEVEL 1s max SV BNK Comparative set value bank Displayed when bank selection 4nt is not set to OFF g set value 7 5 19 999 to 99 999 T re ru SV7 4 I 1 211 Comparative 99999 set value 7 4 19 999 to 99 999 Cc m rm SVv7 3 Lt Ea Comparative 59999 set value 7 3 19 999 to 99 999
23. Press the cel MODE Key several times to change the PV display F Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash N G Use the A UP Key to change the set value ql H Press the ce MODE Key to switch to the next parameter The set value is registered Press the L_ LEVEL Key for at least 1s to return to the initial m setting level 1s min J Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min wm So p D a sa WN 6S LL 5 50 5 16 Allocating Another Output to PASS Output E 5 16 Allocating Another Output to PASS Output Le ey 3s min Displays L 5 Ri F w 7 Ri Advanced function setting level Ef Gs 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 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 L PASS output change PSS Parameter Setting Procedure A Press the LEVEL Key for atleast 3 s in RUN level to move to the initial setting level e LA is displayed on the level bank display to indicate the initial setting level B Press the cel MODE Key s
24. When the Out put Unit is only lt CPA B gt change in PASS output LL Bank selection KEY When function requires two inputs Bank selection OFF Bank selection OFF Bank selection OFF and func tion requires two inputs Bank selection OFF and func tion requires two inputs R When using F6 passage time P When using F2 cycle F3 time differ ence or F4 time band When the Out put Unit is lt CPA gt change in PASS output PASS or ERR BERRE ii A 17 Measurement value compara tive set value LL Adjust Bank hn ment Communica fA tion write Initializa Function Fial tion Input type A La EA Input type B LatEA Prescale AX PS Au Prescale AY PS AY i a i Prescale BY PS bY Time unit ELAE s Jipu ddy Decimal point position Comparative aue P output pattern Move to the advanced func tion setting level Appendices Level Parameter Char lt l gt lt C1 gt C2 gt lt T1 gt lt BCD gt lt CPA gt lt LIA gt lt L2A gt lt FLKIA gt lt DRT gt Setting name acters lt 2 gt lt T2 gt lt CPB gt lt 1B gt lt L2B gt lt FLK1B gt Conditions lt 3 gt lt FLK2A gt ee es lt FLK2L input Average type Aut E O a a S ee raging Au times mi zero time function requires two Power interrup tion memory Comparative hall oP the Out set value dis put Unit is play
25. e The set value Is registered 5 1 U1 DM p B a Ee Nn 2 S 35 LL E Section 5 Functions and Operations 5 2 Setting the Function for the K3HB P Initial setting level The K3HB P supports six different measurement operations Explanation of Functions Function E F1 Passing Speed 5 16 Measuring Workpiece Passing Speed between A and B Operation Configuration Application e Basic Operation The reciprocal of the time T s from the turning ON of input A to the turning ON of input B is multiplied by 60 and the workpiece passing speed between points A and B Is displayed D x 60 x o T Time s from the rising edge of input A to the rising edge of input B a Prescale value A D Passing speed Not valid ot Input A l Not valid Input B i Ti OTe gt T2 T3 a T4 gt Hold ee ee ee ee Measurement value No measurement 1m1 x 60x 12x60 xQ 1 T4x 60x TR Recovery Time The time required from the end of one measurement until completing preparations for the next measurement Allow at least 1 ms 5 2 Setting the Function for the K3HB P l Referring to the following table specify the prescale value corresponding to the desired display unit Calculated value Display unit o value Passing speed 1000 L 60 km h L Sensor interval m E F2 Cycle Measuring Feed Cycles for Parts m1 O cr 5 DN Fey gt Ss ra
26. 5 84 Protection 5 2 5 84 6 3 PV display 1 5 1 6 R RESET input 5 33 6 3 A 2 A 29 Resetting measurements 5 33 RUN level 5 3 5 4 RUN adjustment protection 5 84 A 8 S Scaling 1 3 5 28 5 29 Sensor power supply 2 5 Set values 5 6 Setting change protection 5 84 Setting initialization 5 83 Setting level protection 5 84 SHIFT key 1 5 1 6 Shot output 1 3 5 44 Simple average 5 36 5 37 Standard outputs 3 8 3 10 3 12 5 39 Standby sequence 1 3 5 55 Startup compensation timer 1 3 5 34 6 3 A 2 A 12 A 23 A 25 Status indicators 1 5 1 6 SV display 1 5 1 6 SV display status indicators 1 5 1 6 T Teaching 1 2 5 30 U UP key 1 5 1 6 W Wiring 2 5 Z Zone outputs 5 39 5 40 A 23 A 25 A 27 Authorized Distributor
27. 99999 ar ca 5 U e Li yi ul lt output Linear voltage type LSEb u 0 5 V 1 5 V 0 10 V Linear output upper H Same as measurement limit value a Same as measurement value None When the time unit is hr min s When the time unit is min s ms Linear output lower LSEEL Same as above Same as above Ri 13299 Same as above limit Communi Communications unit ti na 0 to 99 G to 55 cations set number Communications data LEn 7 8 4 length Communications stop beet i bits Communications E None even odd nant Eun add Even parity Test input OFF 19999 to 99999 None EU when time limit is OFF When the time unit is Lower limit of P is 0 hr min S OFF 0 to 99999 when When the time unit is the time unit is min min s ms Output test OFF 0 00 00 to 9 59 59 when the time unitis hr min s OFF 00 00 0 to 99 59 9 when the time unit is min s C N Hysteresis H45 0 to 9999 when time 1 None EU limitis OFF Lower limit 5 5 55 When the time unit is of P is 0 oe 54 hr min s 7 3 0 00 00 to 0 59 59 When the time unit is when the time unitis hr min s ms min s 00 00 0 to 09 59 9 when the time unit is Advanced min s ms PASS output change LL L PASS H HH CE L ERR function Output OFF delay AFF d 0 to 1999 G to i999 R 100 ms settings P ms Shot output BHAE 0 to 1999 Gto 1555 R 100 ms P ms Output logic aur n Close in alarm
28. D Absolute ratio When fa x a 0 an overflow will be displayed at the upper limit When fax 6 0 0 will be displayed Example This example shows the prescale values and the prescale set values for displaying the absolute ratio between two rpm s using two rotary encoders each of which outputs 1 000 pulses per rotation Prescale value of Input A a 1 1 000 1 0000 x 1077 Prescale value of Input B B 1 1 000 1 0000 x 1073 Prescale value of Input A X mantissa 75 Prescale value of Input A Y exponent ywa w r oe ag ea gt w mal a mal A D Om im a e wa X Omg Liz i o4 n u 1 l Prescale value of Input B X mantissa Prescale value of Input B Y exponent Da him A a ad ae Za r ye X ros ju w ju T Sd Liz an L ju X 5 1 Setting the Function for the K3HB R E E F3 Error Ratio Measuring the Line Speed Error Ratio between Two Conveyors Zee Communications output To computer Remote monitor Ss aS Operation Configuration Application Basic Operation The error ratio between the frequency of input A and the frequency of input B is displayed as a percentage The measurement value can be obtained using the following formula _ foxB faxa D axu x 100 fa Frequency A Hz fb Frequency B Hz a Prescale value A B Prescale v
29. D C xa C Count a Prescale value A D Measurement value Input A Input B y y y y A A A y HOLD Count e Holding the Measurement Value Turning ON the HOLD input temporarily stops the cumulative count and holds the measurement value The outputs are also held e Resetting the Display Value The display value can be zeroed by turning ON the RESET input or press the MAX MIN Key for 1 second or longer While the RESET input is ON measurement is not performed the display shows and all outputs are OFF e Compensation Value Input Use the compensation input to start measurement from the desired value The compensation value must be set in advance 5 3 Setting the Function for the K3HB C E E F3 Pulse Counting Input Pulses are counted on the rising edge of input A The measurement value can be obtained using the following formula D Cxa C Count a Prescale value A D Measurement value mutA FT a a a a a a HOLD E o f 16 Count e Holding the Measurement Value Turning ON the HOLD input temporarily stops the cumulative count and holds the measurement value The outputs are also held e Resetting the Display Value The display value can be zeroed by turning ON the RESET input or press the MAX MIN Key for 1 second or longer While the RESET input is ON measurement is not performed the display shows and all outputs are OFF e Compensation Value Input Use the c
30. Function Individual inputs phase Pulse counting differential inputs pulse input counting input Input type A No contact NO no contact NC contact NO contact NC Input type B Sick No contact NO no oe a contact NC contact NO contact NC Initial ian Comparative output aut F Zone outputs level fant LEwEL Level a pattern outputs Move to the advanced Arnau 19999 to 99999 45555 to SSSSS function L level C es ee conpersaonoke CaP 00005000 HRD 0 35e Input Compensation tan F None When input ts none PLU None adjustment conditions addition Power supply memory OFFON o ON Orr Comparative setvalue 5u d5 a ON a display Display refresh period OFF 0 55 15 25 45 0 55 15 25 45 OFF Display color selection ar Green _ green red irac r Grn cr Ed b Green a green red red Display value PV max min we A A selection Display Automatic display rk 0 to 99 to 43 10 adjustment return Position meter type OFF incremental Incremental incremental reversed deviation deviation reversed Position meter upper PaS H 19999 to 99999 45555 to 9959595 limit a E limit a Di 7 7 a Di a A 13 gt re ze D gt Q A 0 v Appendices Prescale OX E a asso TS 1 0000 op Decimal point position dPa 0 to 4 oo000 DAIO D 0 900 90 90 9000 4 0005 Prescale 1X PIAS 0 0000 to 9 9999 0 DDOD to 3 9999 1 0000 Lo ee f Decimal pointposition d
31. LJ LT 0 to 99 999 _ J CORY oFF Bank copy OFF ON About Parameters E K3HB C Protect level RUN level Initial setting level Measurement value RUN PT e LEVEL FI FUNC J DP Lin Jefe RUN adjustment protec LEVEL MODE Comparative set value 5 I7 ae in Pele ae J p EmN 59999 19 999 to 99 999 3s min F unction 00000 Decimal point position l F1 to F3 0 to 4 LEVEL ice q Measurement value y ca Displayed when bank 1 S max Fp P Serer Comparative set value 4 stops WT selection ba L is E E E Setting level protect 33333 _19 999 to 99 999 Input type A set to OFF 0 to 2 e isa No contact NO NC BIER S Measurement value Contact NO NC elit F co Sua ti tput WT PT LEVEL MODE WS gggog Comparative set value 3 Measurement IN TB TA Set oa SCE Setting change protect 1s min 19 999 to 99 999 starts Input type B HES level output FF ON 1m No contact NO NC OFF O Measurement value Ss J OO Pe iy AMOV Comparative set value 2 MODE mir mn m Move to advanced MM PT 19 999 to 99 999 LEVEL r ai PS AX function setting le
32. Linear output lower 155595 19999 to 99999 limit LEE When a linear output is mounted the linear current type or linear voltage type parameter can be set according to the type of linear output With the K3HB P the setting range for the linear output lower limit value and the linear output upper limit value is 0 to 99999 Input the upper and lower limits for the linear output as integer values However if the time unit for the K3HB R P is set to hr min s the integer values will be interpreted as and if the time unit is set to min s ms the integer values will be interpreted as Parameter Setting Procedure a A Press the _ LEVEL Key for atleast 3 s in RUN level to move to ao the initial setting level Displays L i 35 min ei 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 iSeec wo E B O ge a x GS rus LS is displayed on the level bank display to indicate the linear output level C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash Al D Use the Al UP Key to change the set value ol E Press the c MODE Key to switch to the next parameter e The set value is registered F Press the gt S
33. UP and SHIFT Keys to set the password ir 64 Press the cel MODE Key to move to the advanced m os function setting level F is displayed on the level bank display to indicate the advanced function setting level to F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash el E Press the ce MODE Key several times to change the PV display 5 34 5 8 Not Performing Measurements for Set Intervals E G Use the A UP and SHIFT Keys to change the set value ol H Press the ce MODE Key to switch to the next parameter e The set value Is registered 7 Press the _ LEVEL Key for at least 1s to return to the initial P setting level 1s min ra J Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min Remarks 5 7 Resetting Measurements P 5 33 T1 O cT N rev Ss ra o f p Ss NM 5 35 E Section 5 Functions and Operations 5 9 Averaging Input Input adjustment level ra Ry Average processing of input values smooths the displays and outputs for inputs with extreme fluctuations such as spike noise gt 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
34. ca J WN 3 D gt Displays L 5 E Press the ce MODE Key to switch to the next parameter eChange the prescale values AX AY BX and BY as required F Press the cl MODE Key several times to change the PV display to Lay G Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash T1 z ci n re a3 p Ss n H Use the Al UP Key to change the SV display to an Press the ce MODE Key to switch to the next parameter e The prescale value from the copy source bank selected in step D will be copied to all banks JaA HITIA 5 81 Section 5 Functions and Operations 5 32 Copying Bank Comparative Set Values Comparative set value YTT Ry Py 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 atleast 3 s in RUN level to move to the Initial setting level 1 n 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 L4 is displayed on the level bank display to indicate the comparative set value level C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV
35. lt CPA gt change in PASS output orERR Display refresh period Display adjust ment Display color Lar selection Position meter PAS type Position meter P35 H Position meter upper limit type OFF Position meter P5 Position meter lower limit type OFF Scaling Prescaling PS ha Bank selection bank OFF Prescale AX Bank selection 0 7 OFF is the value between 0 and 7 set for the comparative set value bank Prescale AY A Bank selection 0 7 OFF is the value between 0 and 7 set for the comparative set value bank Prescale BX He Te Bank selection 0 7 OFF is the value between 0 and 7 set for the comparative set value bank Prescale BY Bank selection 0 7 OFF is the value between 0 and 7 set for the comparative set value bank Decimal point Bank selection position OFF is the 0 7 value between 0 and 7 set for the comparative set value bank Bank copy rary Bank selection OFF WY Q e C Q Q Q lt A 18 Parameter Display Conditions Level Parameter Char lt l gt lt C1 gt lt C2 gt lt T1 gt lt BCD gt lt CPA gt lt L1A gt Setting name acters lt 2 gt lt T2 gt lt CPB gt lt L1B gt Conditions lt 3 gt Compar Comparative Bank selection ative set set value bank OFF value When the Out put Unit is lt CPA gt change in PASS output PASS orERR Comparati
36. set for the comparative set value bank Bank selection OFF is the value between 0 and 7 set for the comparative set value bank Bank selection OFF is the value between 0 and 7 set for the comparative set value bank Bank selection OFF Bank selection OFF Bank selection OFF is ett ttt vV set value 5 the value between 0 and 7 0 to 7 set for the comparative set value bank Comparative Bank selection OFF is set value 4 the value between 0 and 7 0 to 7 set for the comparative set value bank Comparative Sul ad Bank selection OFF is set value 3 the value between 0 and 7 0 to 7 set for the comparative set value bank Comparative Gull ad Bank selection OFF is set value 2 the value between 0 and 7 0 to 7 set for the comparative set value bank Comparative Dunai Bank selection OFF is set value 1 the value between 0 and 7 0 to 7 set for the comparative set value bank Linear output E G a D D D D D D ee oo tT EAs E O l upper limit Ti D E Communica tions unit No C C e Communica Ni tions data Communica E tions stop bits Communica a tions parity Communica Sale tions wait time Output Test input beESt test Advanced Set value initial crack function ization Output OFF afF d delay socom sree a feoncseecion_Jonre TT S S length rr a Q amp e C Q Q ol lt A 22
37. to T1 z ci n re gt a3 p Ss n 5 71 E Section 5 Functions and Operations E 3 Setting Comparative Set Values for Each Bank Once the bank selection method has been specified set the comparative set values for each bank K3HB R P Parameter Setvalue Meaning of set value Comparative set value HH F454 to 19999 to 99999 Su HH Comparative set value H Pb 19999 to 99999 Suk SE SusH Comparative set value L 159535 19999 to 99999 SV H a ROAN r j Comparative set value LL 159535 19999 to 99999 L TE Goeth x Bank number X to Note The decimal point depends on the decimal point position parameter setting With the K3HB P the setting range is 0 to 99999 SV LL K3HB C Parameter Set value Meaning of set value Comparative set value 5 13395 19999 to 99999 Cc a a at E a Dar Comparative set value 4 EEEE 19999 to 99999 Duxa Comparative set value 3 EEEE 19999 to 99999 Dural Comparative set value 2 13395 19999 to 99999 Duxa opa pa Comparative set value 1 EEEE 19999 to 99999 c pa Se WN p D ge MN c D LL x Bank number X to Note The decimal point depends on the decimal point position parameter setting Parameter Setting Procedure o A Press the C LEVEL Key for at least 3 s in RUN level to move to cae the initial setting level Displays L i
38. 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 with 1 ns rising edge and pulse width of 1 us 100 ns Vibration resistance Frequency 10 to 55 Hz Acceleration 50 m s 10 sweeps of 5 min each in X Y and Z directions 150 m s2 100 m s for relay outputs 3 times each in 3 axes 6 directions Weight Approx 3009 Base Unitony O Memory protection EEPROM non volatile memory Number of rewrites 100 000 Applicable standards UL61010C 1 CSA C22 2 No 1010 1 evaluated by UL EN61010 1 IEC 61010 1 Pollution degree 2 Overvoltage category II EN61326 1997 Al 1998 A2 2001 EMI EN61326 A1 industrial applications Electromagnetic radiation interference CISPR 11 Group 1 Class A CISPRL16 1 2 Terminal interference voltage CISPR 11 Group 1 Class A CISPRL16 1 2 EMS EN61326 A1 industrial applications Electrostatic Discharge Immunity EN61000 4 2 4 kV contact 8 kV in air Radiated Electromagnetic Field Immunity EN61000 4 3 10 V m 1 kHz sine wave amplitude modulation 80 MHz to 1 GHz 1 4 to 2 GHz Electrical Fast Transient Burst Immunity EN61000 4 4 2 kV power line 1 kV I O signal line Surge Immunity EN61000 4 5 1 kV with line power line 2 kV with ground power line
39. 5 49 5 16 Allocating Another Output to PASS Output P 5 51 5 17 Reversing Output Logic P 5 53 5 29 Performing Output Tests P 5 74 T1 OQO cr DN Fev gS ra a3 p Ss Tp 5 4 E Section 5 Functions and Operations 5 11 Preventing Output Chattering Advanced function setting level fR Chattering of a comparative output results from drift in the measurement value near a comparative set value Chattering can be prevented by adjusting the hysteresis value 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 3 width Measurement value i Comparative outputs H H when hysteresis is not used Comparative outputs when hysteresis is used NN Chattering removed Jp co pe b a CO Epe co n _ gt LL 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 Note that hysteresis works in the direction of decreasing measurement values for all set values if the out
40. 5 53 5 69 Input type 1 2 5 27 Interruption memory 5 63 K Key operations restricting 5 84 Key protection 1 2 5 84 L LCD field of vision 2 3 LEVEL key 1 5 1 6 Level outputs 5 39 5 40 A 23 A 25 A 27 Level bank display 1 5 1 6 Linear current type 5 58 INDEX 1 E Index Linear output 1 3 2 6 5 57 Linear output level 5 2 5 3 5 4 Linear output lower limit 5 57 5 58 Linear output upper limit 5 57 5 58 Linear voltage type 5 58 M Max Min hold 1 4 5 65 MAX MIN key 1 5 1 6 Max Min protect 5 85 Maximum and minimum values holding 5 65 Measurement status holding 5 48 Measurements delaying 5 34 Measurements resetting 5 33 MODE key 1 5 1 6 Monitoring and changing set values 5 6 Mounting method 2 3 Moving average 5 36 5 37 O OFF timing delay 5 46 Operation 5 2 Output chattering 5 42 Output logic 1 3 5 53 Output OFF delay 1 3 5 46 Output refresh stop 1 3 5 49 6 3 Output test 1 3 5 2 5 4 5 74 Output test level 5 3 A 23 A 25 A 27 Outputs with set intervals 5 44 Overflow 5 10 5 11 5 14 p Panel cutout dimensions 2 2 Parameter display conditions A 8 Parameter list A 8 PASS output change 1 3 5 51 PASS range and outputs 5 55 Position meter 1 3 1 5 1 6 Position meter lower limit 5 71 5 72 Position meter type 5 71 5 72 Position meter upper limit 5 71 5 72 Power supply 2 5 Prescale values 5 28 Protect 5 2 5 3 5 4 INDEX 2 Protect level 5 3 5 4
41. Configuration Application e Basic Operation The input frequency of input A is multiplied by 60 and the rotational speed is displayed in rom Setting a prescale value S enables the measurement value to be displayed in any unit BS The measurement value can be obtained using the following formula g D fax60xa fa Frequency A Hz a Prescale value A D Measurement value Referring to the following table specify the prescale value corresponding to the desired display unit rps input pulse Circumferential 0 06 xd N 5 9 E Section 5 Functions and Operations N Pulses per rotation md Circumferential length per rotation Example This example shows the prescale value and the prescale set values for displaying the speed of a roller using a proximity sensor that outputs five pulses per rotation Prescale value a 1 5 2 0 x 1071 Prescale value of Input A X mantissa Prescale value of Input B Y exponent x ju 1 ju Lm aM E F2 Absolute Ratio Measuring the Speed Ratio Between Two Rollers Encoder Alarm outputs lt Operation Configuration Application D Basic Operation The absolute ratio between the frequency of input A and the 3 frequency of input B is displayed as a percentage z The measurement value can be obtained using the following formula D axe x 100 fa Frequency A Hz fb Frequency B Hz a Prescale value A B Prescale value B
42. Manual Please read and understand this manual before using the product Please consult your OMRON representative if you 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 SUBJ ECT TO CONTAMINATION ABUSE MISUSE OR INAPPROPRIATE MODIFICATION OR REPAIR Application Con
43. Min value Measurement value Initializing o Initiali ing Measurement status D mer reserve soodes Messur Powersupply ES SEY E Switching Maximum and Minimum Value Displays Each time the MAX MIN Key is pressed in the RUN level the PV display switches as follows present value gt maximum value minimum value present value Present ad MAX valu MIN al m m 2 234 5 2 30126 a 985 7 CMW ja T annar lt CMW anne CMW ee annm O Hold erer FLLI O Hold oti Resetting the Maximum and Minimum Values The maximum and minimum values can be reset by a RESET input or by pressing the lt gt MAX MIN Key for 1 s 5 65 T1 O cr DN rev gt 3S ra o f pl Ss NM Ta p B gS Ta x GS 5 LL E Section 5 Functions and Operations Maximum and Minimum Value Interruption Memory 5 66 Remarks 7 This function can be used to hold the maximum and minimum values during power interruptions The settings are hold and don t hold This function enables fluctuation management using the maximum and minimum values even if the device should momentarily stop 5 22 Holding Measurement Values P 5 63 Max Min E value Held Reset OFF ON Values are held even in overflow or no measurement status Values are held even if a software reset is performed by key operations or communications
44. Preparations E Section 2 Preparations 2 1 Mounting 2 2 E External Dimensions Character size for main display mm PV display SV display N DI o moe 2 6 75 min WO NO 120 min 2 1 Mounting E E Mounting Method 1 Insert the K3HB into the mounting cutout in the panel 2 Insert watertight packing around the Unit to make the mounting watertight Watertight packing D O a o ct T 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 in place Adapter WE 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 Terminal Block A A BCDE TO O oo Game Operating Power Supply O W oo i T 7 100 to 240 VAC T C 24 VAC VDC TW JO O ql em lamn lead Leal P EE O LTO E To D O LL LG QO C heck the required power 0 supply type oO B C ensor Power Supply Output R elays Transistors BC D DeviceN et Sensor power supply Sensor power supply Relay output Relay output Transistor output PASS output linear output lt C1 gt
45. Prescale value a 1 500 0 002 2 0 x 1073 Prescale value of Input A X mantissa 5 Au iiniu Prescale value of Input B Y exponent 5 A4 i 3 Parameter Setting Procedure Prescale Settings for InputA The following procedure uses the K3HB R as an example A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level e L is displayed on the level bank display to indicate the initial setting level B Press the ce MODE Key several times to switch the PV display we On tO FS Fie e Teaching is possible for the prescale AX mantissa scaling input value T is lit to indicate that teaching Is possible e Refer to P 5 30 for the teaching method C Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash D Use the Al UP and SHIFT Keys to change the set value T1 OQO cr MN rev gS ra 3 p Ss Tp E Press the cel MODE Key to switch the PV display to 5 74 F Press the SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash G Use the A UP and gt SHIFT Keys to change the set value 5 29 E Section 5 Functions and Operations Decimal Point Position H Press the ce MODE Key to switch the PV display to the next parameter d I Press the SHI
46. Section 3 Basic Application Methods N Ss D p 2 Q 2 lt L Ww A Section 4 Initial Setup 4 1 Initial Setup Example for the K3HB R ceecceeceeesseeeeeeeeeeeees 4 2 Initial Setup Example for the K3HB P eeeceeeeeesseeeeeeeeeeeees 4 4 4 3 Initial Setup Example for the K3HB C cc ceeceeeeecesseeeeeeeeeeeees 4 6 v Y 0 O 4 1 E Section 4 Initial Setup 4 1 Initial Setup Example for the K3HB R The initial setup is explained in the following example Settings Example A proximity sensor that outputs eight pulses per rotation is used to detect the teeth on a gear and the rotation speed of the roller is displayed in rpm elf the measurement value goes above 700 rpm comparative output H turns ON elf the measurement value goes below 500 rpm comparative output L turns ON Measurement value 700 500 Comparative output H Comparative outout L EPF QO p K3HB R co l V S etting the Prescale Value e Prescale value a 1 8 0 125 0 125 x 107 Prescale value of Input A X mantissa P5 Au 8 i250 Prescale value of Input A Y exponent 5 AH if aa Initial Setup Flow To change a set value press the SHIFT Key once to enable changing the setting and then press the UP Key to change the value Press the MODE Key to register the set value The set value will be registered and the next param
47. Set value Remarks Display value value Present value selection Position meter Incremental display type Perme upper limit Full scale lower limit 3 14 3 7 Counting the Number of Workpieces K3HB C E 3 7 Counting the Number of Workpieces K3HB C Advantages of Using the K3HB C e Detects and counts workpieces on a conveyor Using the prescale value banks two units can be counted as a Single workpiece 4 units can be counted as a single workpiece etc eRemembers the measurement value immediately preceding a power interruption e Using a BCD output the count is displayed on the M7E oo rey Yn O gt Ke gej O rev p o gt p R S O O Tp Large display unit Connections Diagram Note Use the K32 BCD Cable purchased separately for BCD output wiring Refer to the K3HB Digital Indicators Communications User s Manual N129 for details on the wiring method of the M7E M7E 12DRN1 E3X DA S 3 15 Za S D S p e2 lt L a wn A E Section 3 Basic Application Methods E Settings for the K3HB C Advanced Function H Z PANY EEVEE Parameter Characters _ Setvalue Remarks Bank E vent inputs selection The Setting Level Protect parameter 5E 7r must be set to 0 and the Move to Advanced Function Setting Level parameter Faw 0169 i 55 to enable moving to the
48. The information in this document has been carefully checked and Is believed to be accurate however no responsibility is 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 AN WARNING avoided will result in minor or moderate injury or may result in serious injury or death Additionally there may be significant property damage Indicates a potentially hazardous situation which if not PANS VON 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 Indicates possibility of electric shock under specific conditions ieee General Prohibition Prohibition 5 ia pn Indicates non specific general prohibitions General Caution Indicates non specific general cautions warnings and dangers Mandatory Caution Precautions AN WARNING Do not touch the terminals while power is being supplied Doing SO may possibly result in electric shock Make s
49. _ LEVEL Key several times to move to the display ma ind level Le is displayed on the level bank display to indicate the pane adjustment level C P ress the ce MODE Key several times to change the PV display to D Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash Al E Use the Al UP Key to change the position meter type setting F Press the cel MODE Key to switch to the next parameter ht 1 e The parameter for position meter type is registered G Press the gt 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 Keys to change the position meter upper limit setting I Press the kel MODE Key to switch to the next parameter Functions and Operations oon Da e The parameter for the position meter upper limit is registered 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 lAl UP and SHIFT Keys to change the position meter lower limit setting Ta L Press the ce MODE Key to switch to the next parameter e The parameter for the position meter lower limit is registered ra M Press the _ LEVEL Key for at least 1 s to return to RUN level 1s min 5 72 5 28 Automatic Return to Normal Display
50. advanced function setting level Initial Setting Level i Parameter Characters Set value Remas Func F3 Pulse counting input input type A eer eee No contact NO Comparative Zone output output pattern Input Adjustment Level oo Parameter Characters Setvalue Remarks _ Interruption Interruption memory ON memory Display Adjustment Level a te Parameter Characters Setvalue Remarks _ Display value value Present value selection Prescale Level 3 a a e P rescaling bank Settings for prescale 0 prescale 1 See note Prescale 0AX OAX 85800 To display two units as a OAY one workpiece the prescale 1 2 0 5 0 5000 x 10 Prescale No decimal point decimal position Prescale 1AX O PSLAS D2500 To display four units as Prescale LAY one workpiece the prescale 1 4 0 25 0 2500 x 10 Eee No decimal point decimal position Note When prescale bank 0 is set the prescale 0 settings are performed next 3 7 Counting the Number of Workpieces K3HB C E Comparative Set Value Level Li a _ Parameter Characters Setvalue Remarks Comparative set value banks Bank 0 or bank 1 See note Comparative set value 0 Comparative set value 1 Note When comparative set value bank 0 Is set the comparative set value 0 OUT5 settings are performed next oo fe v O gt lt 2 oe O fed o gt p R S O os Tp 3 17 E
51. connectors lt K35 1 gt lt K35 3 gt lt K35 2 gt lt K35 4 gt 1 N C 3 S TMR 3 HOLD RESET 5 COMPENSATION COM 7 BANK4 z BANK2 9 BANK1 0 COM Applicable connector XG4M 1030 OMRON Circuit Diagrams lt K35 1 gt lt K35 2 gt NPN Input Models BANKUA pem S TMR D2 HOLD D3 RESET D4 COMPENSATION D5 lt K35 3 gt lt K35 4 gt PNP Input Models BANK 1 2 4 S TMR D2 HOLD D3 RESET D4 COMPENSATION D5 l 2 9 E Section 2 Preparations Pulse Inputs Open Collector Inputs Input the signals to be measured The following diagram shows the inputs capable of being measured by each model Or Om COLORIR OMOLON NIC 1 OL Ol ws 7 INA NPN 3 COM T Nic EX Q E Q INB we a 6 COM Note E3 and E6 as well as B6 are internally connected Circuit Diagram 2 2 Using I O E Voltage Pulse Inputs A B C DE Input the signals to be measured The following diagram shows the inputs capable of being measured by each model INA Voltage INB Voltage D O a o ct T Note E3 and E6 as well as B6 are internally connected Circuit Diagram 2 11 E Section 2 Preparations PNP Inputs Input the signals to be measured The following diagram shows the inputs capable of being measured by each model Ol IO QO O OUO i nic 1 COL OIO K E gt INA PNP a E3 COM 2 NIC E 0 53 Q INB pne D
52. display starts to flash D Use the Al UP Key to select the bank to be copied from E Press the cel MODE Key to switch to the next parameter Change the comparative set values HH H L and LL as required wo E B O ge a x GS rus F Press the ci MODE Key several times to change the PV display to Lary G Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash H Use the IA UP Key to change the SV display to an Press the cel MODE 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 5 82 5 33 Initializing All Settings E 5 33 Initializing All Settings Advanced function setting level Ry Pj C Important Initialization can be used to start settings over again from the default r settings Refer to Parameter List P A 8 for information on default set LE NLE values INIT Parameter Setting Procedure a A Press the L_ LEVEL Key for atleast 3 s in RUN level to move to Ly the initial setting level Displays L amp 3s min e L is displayed on the level bank display to indicate the initial setting level B Press the cel MODE Key several times to change the PV display uZ n to anu e This parameter is not displayed for the initial status due to setting level protect Refe
53. edge of input B When both inputs A and B turn ON atthe same time the count does not change The measurement value can be obtained using the following formula D Cxa C Count a Prescale value A or prescale value B D Measurement value Note If F1 individual inputs is used both preset value A and preset value B must be set Se Input B A a m az HOLD Count e Holding the Measurement Value Turning ON the HOLD input temporarily stops the cumulative count and holds the measurement value The outputs are also held e Resetting the Display Value The display value can be zeroed by turning ON the RESET input or press the MAX MIN Key for 1 second or longer While the RESET input is ON measurement is not performed the display shows and all outputs are OFF e Compensation Value Input Use the compensation input to start measurement from the desired value The compensation value must be set in advance 5 23 T1 O cr DN rev gt gS ra ra p Ss Tp fa p B a Ee Nn 35 LL E Section 5 Functions and Operations E F2 Phase Differential Inputs This function is normally used when connected to an incremental rotary encoder While input A is OFF the count is decremented on the falling edge of input B and incremented on the rising edge of input B The measurement value can be obtained using the following formula
54. for the input values to be averaged Simple averaging is used when the display refresh period is to be lengthened Moving averaging is used to remove periodic noise Superimposed on input signals The following graphs show the relationship between the data refresh periods for both simple and moving averaging processes when the averaging times Is set to 4 Simple Average Input frequency 20 ms 2 no ILTTTTTTTTTtTt iti ttt 2 Sampling qe C ESS Lo 2 Average Average Average Average m Measurement values and comparative outputs refreshed l 20 ms x averaging times 4 80 ms Moving Average Input frequency a sna ek A T T lt ee pe oe q woa ae SS a Measurement values and comparative outputs refreshed 20 ms 5 36 5 9 Averaging Input E e The data refresh periods when averaging is used are given by model in the following table C SetValue Refresh period moeg I Every20ms every 80ms 8 very 160 ms Every 320ms a Every 640 ms ee veyas ea Evey2s6s 256 EverySi2s sie Everyi024s et Every20 485 Moving average ito Wey Every 20 ms Averaging is set using the following parameters Parameter Setvalue Meaning of set value AVG T Averaging type Averagingtype one Simpleaverage oun average ZZ AVG N ee ae
55. in the following locations e Locations subject to direct radiant heat from heating equipment 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 in a panel ensure that the temperature around the product not the temperature around the panel does not go outside the specified range 3 Provide sufficient space 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 wel
56. kV contact 8 kV in air Radiated Electromagnetic Field Immunity EN61000 4 3 10 V m 1 kHz sine wave amplitude modulation 80 MHz to 1 GHz 1 4GHz to 2 GHz Electrical Fast Transient Burst Immunity EN61000 4 4 2 kV power line 1 kV I O signal line Surge Immunity EN61000 4 5 1 kV with line power line 2 kV with ground power line Conducted Disturbance Immunity EN61000 4 6 3 V 0 15 to 80 MHz Power Frequency Magnetic Immunity EN61000 4 8 30 A m 50 Hz continuous time Voltage Dips and Interruptions Immunity EN61000 4 11 0 5 cycle 0 180 100 rated voltage Specifications E K3HB C pema 10559 1 90 9 Functions F1 F2 2 gigacounts Functions F3 0 to 4 gigacounts Input signals e No voltage contact 30 Hz max with ON OFF pulse width of 15 ms min e Voltage Inputfrequency ON OFF ON voltage OFF voltage Input puse Mode inp range pulsewidth S OFF vonage impedance FI Ow 30 KHz bus min 45 IOV 3002V 10K eee ee e Open Inputfrequency ON OFF core cel jee ee pulse width Note The Up Down Counting Pulse 0 to 30 KHz Indicator will malfunction ifa pulse greater than the input frequency range is input SYSERR may 0 to 50 kHz appear on the display ON residual voltage 3 V max OFF leakage current 1 5 mA max Load current Must have a switching capacity of 20 mA or higher Must be able to properly switch load currents of 5 mA or less Max No of display digits 5 19999
57. lines connected to the terminal block 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 Example of Countermeasures for Inductive Noise on Input Lines S A l l Digital Indicator Signal input S 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 cate WS Ol October 2004 Original production 01 E g November 2010 Page 2 4 Changed B4 to BCD and changed diagrams Page A 4 and A 5 Changed Meter to Indicator in tables Page A 7 Changed meter to indicator and B4 to BCD in table and added note Page A 17 to A 22 Changed B4 to BCD in table Page 2 4 Changed figure in upper left corner and at bottom of page Page 2 9 Added table Pages 2 10 to 2 12 Changed figures and added notes Page 5 23 Added prescale value B and added note Page 5 27 Changed left column of top four rows of table Page 5 28 Chang
58. o f p Ss NM Operation Configuration Application e Basic Operation The time T s from one input A ON to the next Is displayed The measurement value can be obtained using the following formula D Txa T Time s between input A rising edges a Prescale value A D Cycle Input A t T gt lt 72 gt 4 73 is 14 ve _ 715 Hold lt TR gt Measurements T3 and T4 are not valid Measurement value No measurement T5x a E Section 5 Functions and Operations TR Recovery Time The time required from the end of one measurement until completing preparations for the next measurement Allow at least 1 ms Referring to the following table specify the prescale value corresponding to the desired display unit Calculated value Display unit value 1 60 E F3 Time Difference Measuring Workpiece Passing Measuring Differences in Time between A and B Length of Workpiece Steps Operation Configuration Application e Basic Operation The time T s from input A ON to input B ON is displayed D Txa T Time from input A rising edge to input B rising edge s a Prescale value A D Time difference Not valid lt lt Wm So p D a sa WN 6S LLU Input A Input B Hold I I I I I Lf I I I Measurement value No measurement T xa T2xa Taxa TR Recovery Time The time required from the end of one measurement until completing prepar
59. odd nant Eun add Even parity Output test Test input FESE OFF 19999 to 99999 arr 499991099993 orF o u T A 15 gt xe ze D gt Q A 0 W E Appendices E aE 1 Close in alarm open in n 4 a T C in alarm alarm Bank selection ha OFF KEY EV AFF PEY OFF Others Linear output calibration value H Linear output calibration value L 3 Variable CO is used for reading communications data 4 Set the bank parameter to EV when an event input connector is mounted as a standard feature or has been added Y od O 5 C a ol O A 16 Parameter Display Conditions Parameter Display Conditions K3HB R P Level Parameter Char lt l gt lt C1l gt lt C2 gt lt T1 gt lt BCD gt lt CPA gt lt LIA gt lt L2A gt lt FLKIA gt lt DRT gt Setting name acters lt 2 gt lt T2 gt lt CPB gt lt LIB gt lt L2B gt lt FLK1B gt Conditions ere lt FLK2A gt lt FLK2L Protect RUN adjust mia PE ment protect Setting level GEL Pe protect Setting change Yk Pr protect Max Min pro PE tect Measurement PASS output value change PASS Measurement When the Out value compara put Unit is only tive set value HH change in PASS output HH Measurement When the Out value compara put Unit is only tive set value H change in PASS Measurement When the Out value compara put Unit is only tive set value L change in PASS
60. of the K3HB P Functions of the K3HB C The K3HB R has the following six functions for reading and displaying input pulses F1 Rpm circumferential speed F2 Absolute ratio F3 Error ratio F4 Rotational difference F5 Flow rate ratio F6 Passing time P 5 9 PR D Filter Average processing Average processing of input signals with extreme changes or noise smooths out the display and makes control stable P 5 36 f J Input compensation Input compensation The compensation input changes the display to the preset compensation value P 5 61 f4 Key operations Teaching During scaling the input value during measurement can be set as is as the scaling input value gt P 5 30 We Setting Scaling RC The K3HB P has the following Six functions for reading and displaying input pulses F1 Passing speed The K3HB C has the following three functions for reading and displaying input pulses F 1 Individual inputs F2 Cycle F2 Phase differential inputs F3 Time difference F3 Pulse counting input F4 Time band F5 Measuring length F6 Interval P 5 16 gt P 5 23 f E Input types Specifies the sensor types connected to input A and input B P 5 27 Ry fP j Auto zero time Enables forced zeroing of the frequency when no pulse has been inputfor a specific period of time P 5 31 f D Key protection Limits key operated level and parameter chang
61. open in n a 1 Close in alarm alarm Output refresh stop EP OFF OUT ALL FF FF ae ALL FF ae ALL LL OFF Bank selection OFERESE KEY EV AFF MEY Ey o Startup compensation CRE EY 0 to 99 9 ag to 9 4 timer Standby sequence Standby sequence pSkdbY OFF ON o ON FF a n Others Linear output calibration value H Linear output calibration value L 1 Variable CO is used for reading communications data home Cee here Coe oes D wm n d n ot rags MOE ip FI C3 bo Lo FJ ko ey O T T r 5 uw ur lt mr ss U gt Wn vN m 2 Setthe bank parameter to EV when an event input connector is mounted as a standard feature or has been added A 12 Parameter List K3HB C ke i A fe cc E eee ee ee ee ae eae RUN adjustment rune 0 to 2 ito sai ea De e L Setting change Ue Pe OFF ON AFF an OFF ahs EU Measurement value 19999 to 99999 49955 to 399949 Conforms to decimal comparative set value point position 5 RUN Measurement value 19999 to 99999 49959 to 99595 Conforms to decimal comparative set value point position 4 Measurement value 19999 to 99999 Conforms to decimal comparative set value point position 3 Measurement value 19999 to 99999 Conforms to decimal comparative set value point position 2 Measurement value 19999 to 99999 Conforms to decimal comparative set value point position 1 Adjustment
62. per rotation pulses per rotation So LA Passing time Scaling value oo rey Yn O gt Kej gez O rev p o gt 5 R S O O Tp Alarm outputs Connections Diagram Operating power K3HB R 100 to 240 VAC 24 VAC VDC 3 7 Za S D S p e2 lt L a wn A E Section 3 Basic Application Methods E Settings for the K3HB R Tae oe a RUN Level Comparative X set value H Comparative X set value L X Check on the status displays Initial Setting Level 1 Parameter Characters Setvalue Remarks Funt Fa Passingtime eae a eee Presale Pse WOOT Frescal value a lt 5 Prascale AY 0 125 100 4000 4 0000 x 10 Time unit unit GFF Disabled o soe m aE oF Os ao below the position decimal point Comparative Standard outputs output pattern Input Adjustment Level L ae p e Averaging type O Aub SARL Simple averaging Averaging times Ausa 1 Jone Auto zero time Display is forced to zero A when no pulse is received for 10 seconds Display Adjustment Level a te Parameter Characters Set value Remarks ____ Display value value Present value selection Position meter Incremental display type ee ee ae upper limit Full Scale lower limit 3 8 3 4 Measuring the Operation Time of a Press K3HB P 3 4 Measuring the Operatio
63. set value col H Press the ce MODE Key to switch to the next parameter e The set value is registered P I Press the LEVEL Key for at least 1 s to return to the initial 7 Ly setting level 1s min J Press the C LEVEL Key for at least 1 s to return to RUN level Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min Remarks 5 12 Outputting for a Set Interval P 5 44 E 5 15 Holding Comparative Outputs gt P 5 49 T1 O cr DN Fev gt sas ra o f p Ss NM 5 47 E Section 5 Functions and Operations 5 14 Holding Measurement Status Aag 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 H Output _ 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 a RESET input or bank signal are not accepted n cS pe b a lt gt Pe co n _ gt LI 5 48 5 15 Holding Comparative Outputs E 5 15 Holding Comparative Outputs Advanced function setting level mg ng Pa 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 re
64. 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 06024 from OMRON OUI PAUNA Sensor Power Supply The sensor power can be supplied from terminals B5 and B6 The power supply specifications are outlined below 12 VDC 80 mA G H or 10VDC 100mA gt Refer to page A 6 for information on the derating curve for the Sensor power supply OUI PAUNA 2 5 E Section 2 Preparations Linear Outputs Linear currents and voltages are output between terminals B1 to B2 and between B3 to B4 A B C ODE 1 mam lt Connect a load within the specified range 4 oF O 5 z Linear output 6 O v lt C T a O lt Q v a Sensor power supply
65. the displayed comparative set value depends on the allocation setting of the PASS output Displayed comparative set value 5 16 Allocating Another Output to PASS Output P 5 51 When Su aa comparative set value display is set to OFF comparative set values are not displayed during operation but are displayed with key operations 5 7 T1 OQO cr DN rev gS ra ra p Ss Tp E Section 5 Functions and Operations Parameter Setting Procedure A Press the ce MODE Key several times to display the comparative set value to be changed e 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 SV display starts to flash C Use the SHIFT Key and A UP Key to change the Al comparative set value ql D Press the ce MODE Key to switch to the next parameter e The comparative set value setin step C is registered fa p B a g Nn 35 LL 5 8 5 1 Setting the Function for the K3HB R E 5 1 Setting the Function for the K3HB R Initial setting level fr Ry The K3HB R supports six different measurement operations Explanation of Functions Functions E F1 Rpm Circumferential Speed Measuring Roller Measuring Motor Speed Winding Speed K3HB R Alarm outputs Operation
66. to return from adjustment level to RUN level Press the __ LEVEL Key in RUN or adjustment level for at least 1 s The PV display will start to flash Press the L 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 First move to initial setting level Press the L LEVEL Key in initial setting level less than 1 s each time to move to the next level Move to the next level from the output test level to return to the initial setting level A special operation is required to move to the advanced function setting level Use the following procedure Knowledge Required for Setting Parameters E Procedure The Setting Level Protect setting must be set to 0 5E FE to enable moving to the advanced function setting level Refer to 5 34 Limiting Key Operations P 5 84 for the procedure to release protection A Move to the initial setting level press the tel MODE Key several 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 SHIFT and A UP Keys to set the password The password is d 164 0169 D Press the cel MODE Key to write the password e The advanced function setting level will be entered if the password is correct e f the password Is incorrect the first param
67. 0 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 5VDC 0 to 10 VDC Load 5 kQ max Resolution Approx 10 000 Output error 0 5 FS but 0 15 V O V 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 Main functions Scaling measurement operation selection average processing previous average Comparison output hysteresis output ON delay output test teaching display selection display color switching key protection bank selection display refresh period maximum minimum hold reset Ambient operating temperature 10 to 55 C with no icing or condensation Ambient operating humidity 25 to 85 Storage temperature 25 to 65 C with no icing or condensation Accessories Waterproof packing 2 fixtures terminal cover unit stickers instruction manual DeviceNet connector DeviceNet models only Hirose HR31 5 08P 5SC 01 crimp terminals DeviceNet models only Hirose HR31 SC 121 2 1 For models with DC power supply approximately 1 A of control power supply capacity is required for each Digital Indicator Be sure there is adequate power supply capacity when using more than one Digital Indicator We recommend the S8VS DC Power Supply from OMRON 2 Models with PNP inputs are also available 3 Only the enclosed DeviceNet connector can be used with K3HB model
68. 5 30 Using Prescale Comparative Set Value Banks E 5 30 Using Prescale Comparative Set Value Banks Advanced function setting level P rescale level Comparative set value level m M amp RJ Py Gs The K3HB has 8 banks where groups of prescale values and comparative set values can be set in advance Prescale values and comparative set values can be changed easily by switching these banks This function is called bank selection Explanation of Functions Bank selection Prescale values AX AY BX and BY and comparative set values HH H L and LL 5 4 3 2 and 1 are set into banks Prescale values and comparative set values can be set to all 8 banks numbered 0 to 7 Banks can be selected using front panel keys or an event input If the bank copy function is used the prescale values or comparative set values set to one bank can be copied to all banks E 1 Specifying the Bank Selection Method 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 me T Parameter Setvalue Meaning ofsetvame JE BNK C GFF Bank selection disabled S Bank selection using keys i K3HB O000 002 Bank eclecion z K3HB OUL LL4 using event input 2 1 With this setting banks can
69. 7 Al 1998 A2 2001 EMI EN61326 A1 industrial applications Electromagnetic radiation interference CISPR 11 Group 1 Class A CISPRL16 1 2 Terminal interference voltage CISPR 11 Group 1 Class A CISPRL16 1 2 EMS EN61326 A1 industrial applications Electrostatic Discharge Immunity EN61000 4 2 4 kV contact 8 kV in air Radiated Electromagnetic Field Immunity EN61000 4 3 10 V m 1 kHz sine wave amplitude modulation 80 MHz to 1 GHz 1 4 to 2 GHz Electrical Fast Transient Burst Immunity EN61000 4 4 2 kV power line 1 kV I O signal line Surge Immunity EN61000 4 5 1 kV with line power line 2 kV with ground power line Conducted Disturbance Immunity EN61000 4 6 3 V 0 15 to 80 MHz Power Frequency Magnetic Immunity EN61000 4 8 30 A m 50 Hz continuous time Voltage Dips and Interruptions Immunity EN61000 4 11 0 5 cycle 0 180 100 rated voltage Connectable sensors gt xe xe 0 gt 2 A 0 W A 5 E Appendices E Power Supply Derating Curve for Sensor Reference Value Max current mA Max current mA j pT i 120 120 7 Ht i 80 80 j m j 40 40 20 20 0 0 20 10 0 10 20 30 40 50 60 20 10 0 10 20 30 40 50 60 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 depends on the mounting conditions 2 Do not use the Sens
70. 7u ok iS SoH Comparative BH Comparative lt agaga set value 0 H gqqqq set value 7 H 19 999 to 99 99 19 999 to 99 999 or SVO L _ SV7L L L C omparative t 4 4 Comparative 135353 set value 0 L 13533 set value 7 L J 19 999 to 99 999 Jea 19 999 to 99 999 DauN o con A amam Comparative eee COMparative 13395 lt ot value 0 LL 713333 cot value 7 LL l 19 999 to 99 99 19 999 to 99 999 K am copy r am copy are Bank copy aF Bank copy LEVEL OFF ON OFF ON 1s max A 24 About Parameters E K3HB P Li Protect level RUN level Measurement value RUN PT t ie LEVEL FUNC z TIME ee 3s min cep e 3s min Function nn BFF OF DNS LEVEL Dlo to 2 3S min ileal y F1to F6 aZ min s 100 ms Y c3e a Measurement value Sica IN TA ea 1s max rc SET PT Comparative set value H Input A DP Decimal point ating level protect TE 0 to 99999 No contact NO NC 0808 position 0 to 4 0 to 2 amp a Measurement value e ee Jel our iS u p WT PT LEVEL MODE MODE n Comparative set value L Measurement net ne B AL E Comparative output pattern a ar T protect 1 S min lea 0 to 99999 start
71. 9 Same as above EU 1LL P20 2HH 2H Comparative set value Suet Same as above Same as above R 19999 Same as above EU 2L P 0 Comparative set value Suet Same as above Same as above R 19999 Same as above EU 2LL P 0 3HH 3H Comparative set value ZuL Same as above Same as above R 19999 Same as above EU 3L P 0 P 0 r Comparative set value display A WwW T a x 4H Comparative set value Sh Same as above Same as above R 19999 Same as above EU AL P 0 Comparative set value Su hh Same as above Same as above R 19999 Same as above EU ALL P 0 5HH 5H Comparative set value ZuL Same as above Same as above R 19999 Same as above EU 5L P 0 Comparative set value Su Sh Same as above Same as above R 19999 Same as above EU 5LL P 0 6HH 6H Comparative set value Su Ek Same as above Same as above R 19999 Same as above EU 6L P 0 Comparative set value SuL Same as above Same as above R 19999 Same as above EU 6LL P 0 D Comparative set value Su HH Same as above Same as above 99999 Same as above EU KO 7HH EO Comparative set value Sua Same as above Same as above 99999 Same as above EU L 7H O Comparative set value Zui Same as above Same as above R 19999 Same as above EU O 7L P 0 D Comparative set value Buit Same as above Same as above R 19999 Same as above eo poo W 7LL P 0 A 11 VY Q e C Q Q Q lt Appendices nee ae linear Linear current type current type LSEE L 0 20 mA 4 20 mA
72. 99 435955 to 555595 99999 Conforms to decimal EU 64 point position Comparative set value Subhas 19999 to 99999 19995 to 59995 99999 Conforms to decimal 63 point position Comparative set value u ar 19999 to 99999 45555 to 5555 99999 Conforms to decimal 62 point position Comparative set value 5 5 i 19999 to 99999 43555 to 555559 99999 Conforms to decimal EU 61 point position Comparative set value Sued 19999 to 99999 45555 to 555559 99999 Conforms to decimal EU 75 point position Comparative set value Duna 19999 to 99999 43555 to 555559 99999 Conforms to decimal 74 point position Comparative set value Sued 19999 to 99999 45555 to 5555 99999 Conforms to decimal 73 point position ene Set value wae 19999 to 99999 45555 to 555559 99999 Conforms to decimal EU point position Comparative set value ai 19999 to 99999 45555 to 5555 99999 Conforms to decimal 71 e position Linear Linear current type LSEE 0 20 mA 4 20 mA g 20 4 20 4 20 mA A fesse E Linear voltage type LSEE u 0 5 V 1 5 V 0 10 V h 5 5 5 0 10 i5 0 10 1 15V o O V Linear output upper LSEt H 19999 to 99999 49555 to 55555 CE limit Linear output lower LSEE L 19999 to 99999 43555 to 55555 19999 limit Communi Communications unit a 0 to 99 cations set number nye Baudrate rate PS 96 192 384 O 6 19 2 38 4 ae FEE Cr E a Bi ta b D L j N g gt EL w co 3 a gt Ln Communications Pek Yy None even
73. 999 9 S PV MAX MIN a ie MEMO MODE RET mn re Power interruption Automatic display return oFF memory 0to 99s OFF ON POS T Position meter type OFF incremental incremental reversed deviation deviation reversed POS H Position meter upper limit 19 999 to 99 999 POS L Position meter lower limit 19 999 to 99 999 LEVEL Prescale level is max Po hah PS BNK Prescale bank gf0to 7 Displayed when bank selection an is not set to OFF 0 0000 to 9 9999 PS7 AY Prescale 7AY 9 to 9 PSO AY Prescale OAY RSWABIXG Prescale 7BX 0 0000 to 9 9999 RSvABiNG Prescale 7BY 9 to 9 DPT Decimal point position 0 0 to 4 Prescale OBY Decimal point position 0 e J 0 to 4 7 zna COPY COPY 2 aI Bank copy Bank copy OFF E OFF ON LEVEL Comparative set value level 1s max SV BNK Comparative set value bank 0to7 Displayed when bank selection bnt is not set to OFF O O SVO HH m z SV7 HH C Fag Comparative ole rinses Comparative ro mae Set value 0 HH wopE Ped set value 7 HH 19 999 to 99 99 19 999 to 99 999 ok f l svo Vee sv
74. B K3HB P l 3 5 Measuring Workpiece Passing Time between Points A and B K3HB P Advantages of Using the K3HB P e Measures the time from when sensor A turns ON until sensor B turns ON e Displays the measurement value to tenths of a second 00 0 s with the display unit of the K3HB P setto seconds ws rey Yn O gt Kej gez O rev p o gt 5 R SF O O Tp Connections Diagram K3HB P Operating power 100 to 240 VAC 4 24VACNDC 5 6 E3X DA S E3X DA S 3 11 Za S D S p e2 lt L a wn A E Section 3 Basic Application Methods E Setting for the K3HB P Tame ee a RUN Level Comparative X set value H Comparative X set value L X Check on the status displays Initial Setting Level i Parameter Characters Setvalue Remarks Fut F Time diference Input type A ee ER No contact NO Input type B o atb D No contact NO Prescale AX e a Prescale value a 1 Prescale AY AY 1 0000 x 10 eee aa CA ELA digit below the position decimal point Comparative Standard outputs output pattern Display Adjustment Level a te Parameter Characters Setvalue Remarks Display value value Present value selection Position meter Incremental display type perime e upper limit Full scale lower limit 3 6 Measuring the Fee
75. C2 gt lt T1 gt lt BCD gt lt CPA gt lt LIA gt lt L2A gt lt FLK1A gt Setting name acters lt T2 gt lt CPB gt lt L1B gt lt L2B gt lt FLK1B gt Conditions lt FLK2A gt lt FLK2L rAdvanced Setvalue initial al function ization PASS pean E eo Hysteresis the Out put Unit is lt CPA gt change in PASS output orERR Output OFF afF d delay aS Output Outputlogic Output pee g KaT stop Bank selection selection baH E H EEEE com C bar pensation timer Standby all the Out sequence put Unit is lt C PA B gt change in PASS output PASS orERR A 20 Parameter Display Conditions K3HB C Level Parameter Char lt l gt lt C1 gt lt C2 gt lt T1 gt lt BCD gt lt CPA gt lt LIA gt lt L2A gt lt FLK1A gt name acters lt 2 gt lt T2 gt lt CPB gt lt L1B gt lt L2B gt lt FLK1B gt me lt FLK2A gt lt FLK2L Protect RUN adjust run Pe ment protect Setting level GER Pe protect Setting change Yk Pt protect Max Min pro tect Measurement value Measurement value compara tive set value 5 value compara tive set value 4 Measurement value compara tive set value 3 Measurement a Measurement value compara tive set value 2 Measurement value compara tive set value 1 nase aonk oe _ __ Barksetcion e ment Communica Pave tion write inializa Function ae e
76. Compensation Conditions Plus Measurement value Measurement value The immediately preceding input is negative so compensation is not The immediately performed preceding input is compensation positive s0 N l compensation is value l performed Compensatidn performed regardless of whether the immediately preceding i l input is positive or negative l 1 I Compensation Compensation suoneed pue suonoun y Da Da Da fa 43333 tO Compensation No conditions condition 2 lt Lor Enabled only when the immediately preceding input is an addition 5 61 E Section 5 Functions and Operations Parameter Setting Procedure 7 A Press the _ LEVEL Key for atleast 3 s in RUN level to move to ae Hoy the initial setting level Displays Li 3smin e is displayed on the level bank display to indicate the initial _ displayed on the level bank display to indicate the initial setting level __ B Press the _ LEVEL Key several times to move to the input ma adjustment level Displays i 1 e i is displayed on the level bank display to indicate the input adjustment level C Press the gt 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 and SHIFT Keys to change the set value ra E Press the kel MODE Key to switch to the PV display to tan P The set value is
77. Conducted Disturbance Immunity EN61000 4 6 3 V 0 15 to 80 MHz Power Frequency Magnetic Immunity EN61000 4 8 30 A m 50 Hz continuous time Voltage Dips and Interruptions Immunity EN61000 4 11 0 5 cycle 0 180 100 rated voltage A 3 gt O 0 Q O p 0 W Q amp e C Q Q a lt Appendices K3HB P Measurement accuracy 0 08 rdg 1 digit for voltage pulse open collector sensors at 23 5 C Measurement range Functions Fl F3 and F4 10 ms to 3 200 s input pulse interval Function F 2 20 ms to 3 200 s input pulse interval Functions F5 and F6 0 to 4 gigacounts number of input pulses Se Inputfrequency ON OFF Note The Digital Time Interval Indicator range pulse width a eee if a pulse greater than the input frequency range is Fl to F4 0 to 50 kHz input SYSERR may appear on F5 F6 0 to 30 kHz the display Connectable sensors ON residual voltage 3 V max OFF leakage current 1 5 mA max Load current Must have a switching capacity of 20 mA or higher Must be able to properly switch load currents of 5 mA or less Input signals e No voltage contact 30 Hz max with ON OFF pulse width of 15 ms min ta nit range pulse width impedance 45t030V 30to2V 10k Comparative outputre 2 ms max time until the comparative output is made when there is a forced sudden change in the Ais time transistor input signal from 15 to 95 or 95 to 15 output Linear output resp
78. Conforms to decimal EU 33 point position Comparative set value ulad 19999 to 99999 45555 to 555559 99999 Conforms to decimal EU 32 point position Comparative set value Sus 19999 to 99999 45555 to 55555 99999 Conforms to decimal EU 31 point position Comparative set value Duas 19999 to 99999 455955 to 55555 99999 Conforms to decimal EU 45 point position Comparative set value Dua 19999 to 99999 435955 to 55555 99999 Conforms to decimal EU 44 point position Comparative set value Sued 19999 to 99999 43555 to 55555 99999 Conforms to decimal EU 43 point position Comparative set value Sued 19999 to 99999 435955 to 555559 99999 Conforms to decimal EU 42 point position Comparative set value Dua i 19999 to 99999 43555 to 55555 99999 Conforms to decimal EU 41 point position Comparative set value Sus 19999 to 99999 43555 to 55555 99999 Conforms to decimal EU 55 point position Comparative set value Su 5 04 19999 to 99999 43555 to 55555 99999 Conforms to decimal EU 54 point position Comparative set value Su5oF 19999 to 99999 T9555 to 55555 99999 Conforms to decimal EU 53 point position Comparative set value Duar 19999 to 99999 45555 to 55555 99999 Conforms to decimal EU 52 point position Comparative set value Dua l 19999 to 99999 435955 to 555559 99999 Conforms to decimal EU 51 point position Comparative set value Subo5 19999 to 99999 45555 to 55555 99999 Conforms to decimal EU 65 point position Comparative set value ua 19999 to 999
79. E 5 28 Automatic Return to Normal Display Display adjustment level MAR i GD GS If no keys operations are performed for a specified time in the RUN level or adjustment level the display will automatically return to the display status activated when the power was turned ON The time until the display returns automatically 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 Automatic display return will not occur if setto 0 Automatic display return c m i 1 Parameter Setting Procedure A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level Le d Displays L amp ao min e L is displayed on the level bank display to indicate the initial setting level __ B Press the L LEVEL Key several times to move to the display adjustment level e L is displayed on the level bank display to indicate the display adjustment level D Press the SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash E Use the Al UP and SHIFT Keys to change the set value F Press the ce MODE Key to switch to the next parameter e The set value Is registered G Press the L_ LEVEL Key for at least 1 s to return to RUN level T1
80. E9 COM a Note E3 and E6 as well as B5 are internally connected Circuit Diagram E2 E5 Section 3 Basic Application Methods Monitoring Roller Speed K3HB R cccecccssseseseeeeeeeseeeeeeeeeesanes 3 2 Monitoring Conveyor Speed Difference K3HB R neseser 3 4 Monitoring Conveyor Line Passing Time K3HB R eeen 3 7 Measuring the Operation Time of a Press K3HB P usss 3 9 Measuring Workpiece Passing Time between Points A and B FSP eere E E ease 3 11 Measuring the Feed Length of a Sheet K3HB C esscr 3 13 Counting the Number of Workpieces K3HB C ccccceceeeeeeeeees 3 15 3 1 oJ ped N O D gt Ke per fat p e 5 D ro os Tp E Section 3 Basic Application Methods 3 1 Monitoring Roller Speed K3HB R Advantages of Using the K3HB R e Monitors roller speed by using a proximity sensor to detect the teeth on a gear attached to the end of the roller e Outputs four comparison levels corresponding to the roller speed LL L H and HH 72 gaj z w o p 2 oe Q lt YL wn qe am Setting the Prescale Value Prescale value a 1 8 0 125 0 125 x 10 Input A prescale value X mantissa u ieSai Input A prescale value Y exponent PAH i Connections Diagram Operating power K3HB R 100 to 240 VAC 24 VACIVDC Display Comparative set value HH High Comparativ
81. FT Key to make the SV display flash e The setting can be changed when the SV starts to flash Al J Use the A UP Key to change the set value l K Press the cel MODE Key to switch to the next parameter The set value Is registered ma L Press the L_ LEVEL Key for at least 1 s to return to the RUN level 1s min Teaching Use the teaching function to set the scaling input value 75 Au using a real input The K3HB P does not support teaching Parameter Setting Procedure Al After performing step B press the A UP Key e Teaching is enabled and T flashes The setting changes to match the actual input a Press the A UP Key again e The entered value is set and the SV starts flashing Wm So p D a sa WN 15 LL A Use the Al UP and SHIFT Keys to change the set value eChange the set value to the desired value qp Press the kel MODE Key to set the displayed value The prescale value calculated based on the input value and the display value is registered and the display switch to monitor T changes from flashing to lit mode eIn teaching status pressing the kel MODE Key cancels teaching and switches to the next parameter 7 5 30 Using Prescale Comparative Set Value Banks P 5 75 5 30 5 6 Setting the Auto zero Time E 5 6 Setting the Auto zero Time Input adjustment level f Ry The display is force
82. HIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash G Use the gt SHIFT and lA UP Keys to change the linear output Al upper limit value 5 58 5 19 Performing Linear Output E ol H Press the ce MODE Key to switch to the next parameter I Press the SHIFT Key to make the SV display flash J Use the gt SHIFT and IA UP Keys to change the linear output RIA lower limit value K Press the ce MODE Key to switch to the next parameter Lot e The set values are registered to L Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min T1 O cr N Fev 3S ra o f p Ss NM 5 59 E Section 5 Functions and Operations 5 20 Changing the Display Refresh Period _ display adjustment evel AR Ry Pal When measurement values change rapidly the accompanying changes in the display value can cause flickering decreasing readability Readability of the display can be improved in such Situations by lengthening the display refresh period to suppress flickering The display refresh period is set using the following parameter Parameter Set value Meaning of set value Display refresh period aF Every 50 ms Parameter Setting Procedure P A Press the _ LEVEL Key for atleast 3 s in RUN level to move to iy rm the initial setting level Displays L amp 35 mi
83. Input A hpt Prescale value X mantissa po a FL Input A Prescale value Y exponent pe it Sal Input B Prescale value X mantissa DZ D Coes Input B Prescale value Y GGG to InputA Input A prescale value _ s value mantissa Input A prescale value exponent Input B prescale value mantissa See note Input B prescale value exponent exponent See note pe uf a Note Not displayed on the K3HB C or the K3HB P The decimal point position for scaling values depends on the decimal point position a setting Parameter Set value Meaning of set value ooaoa No decimal point One digit below the decimal point is displayed 7a D a Ee Nn D LL a Two digits below the decimal Decimal point position ap point are displayed Three digits below the decimal point are displayed Four digits below the decimal point are displayed 5 28 5 5 Setting Prescale Values E P rescaling enables input values to be displayed using any unit by multiplying the input pulse frequency or count by a specific coefficient Example This example shows the prescale value and the prescale set values for displaying the speed of a rotary encoder that outputs 500 pulses per second The K3HB R is used in function F1 Prescaling ey 3s min Rd A 7 Ri A D fax60xa fa Frequency A Hz a Prescale value A D Measurement value rpm
84. K Press the gt SHIFT Key to make the SV display flash Al L Use the Al UP Key to change the set value M Press the kel MODE Key to switch to the next parameter Su r D Ll DO 5 79 E Section 5 Functions and Operations D 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 _ LEVEL Key for at least 1 s to return to RUN level 1s min Remarks 5 32 Copying Bank Comparative Set Values gt P 5 82 7a p af Ss Ta x D Li 5 80 5 31 Copying Bank Prescale Values 5 31 Copying Bank Prescale Values Prescale level FY i CS GS The bank copy function is used to specify a bank between 0 and 7 and copy the group of prescale values in that bank to all banks Parameter Setting Procedure A Press the LEVEL Key for atleast 3 s in RUN level to move to the initial setting level 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 e L3 is displayed on the level bank display to indicate the comparative set value level C Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash D Use the Al UP Key to select the bank to be copied from j
85. K3HB R e Monitors differences in the speeds of conveyors using two 60 pulse rotation NPN open collector rotary encoders e Outputs four comparison levels corresponding to the conveyor speed LL L H and HH A green display indicates operation within the correct range and a red display indicates operation not within the correct range Alarm outputs Connections Diagram K3HB R Comparative output H Comparative output HH Operating power E Rotary encoders Comparative output LL Comparative output L Standard Outputs Display Comparative set value HH High Comparative set value H Comparative set value L Comparative set value LL Low Output HH Output H Output PASS iy Output L OO Output LL S 3 2 Monitoring Conveyor Speed Difference K3HB R E E Settings for the K3HB R rene ences a Rees Comparative set value HH a Control example for the following RUN Level Comparative st settings set value H HH alarm 100 rom Comparative H alarm 50 rom set value L L alarm 50 rom LL alarm 100 rpm Comparative set value LL X Check on the status displays Initial Setting Level i Parameter Characters Setvalue Remarks Function Fua F4 Rotational difference Input type A o atA Oo No contact NO Input type B o atb o No contact NO Prescale AX PSAS L555 Input A prescale value a
86. NG THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS AND THAT THE OMRON PRODUCTS ARE PROPERLY RATED AND INSTALLED 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 Itis 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 yourOMRON 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
87. S BNK Prescale bank 0to7 Displayed when bank selection 4nt is not set to OFF PS0 AX er ey PS7 AX Prescale 0AX P at 5029 Drascale TAX 0 0000 to 9 9999 WUT 0 0000 to 9 9999 ke MODE por rey PSO AY por rey PS7 AY aa yo p Prescale OAY lt yo 7 Prescale 7AY 9 to 9 MODE 9 to 9 J a DPO DP7 1 4 Decimal point Decimal point GUGGE position 0 position Ya 0 to 4 Om COPY Bank copy Bank copy OFF ON Comparative set value level SV BNK Comparative set value bank 0to7 Displayed when bank selection 4nt is not set to OFF Up Q Y O C Q ok Q lt A 26 T mI ERRA E 59559 LEVEL 1s max SV0 HH Comparative set value 0 HH 0 to 99 999 SV0 H Comparative set value 0 H 0 to 99 999 SVO L Comparative set value 0 L 0 to 99 999 SVO LL Comparative set value 0 LL 0 to 99 999 GORE Bank copy OFF ON ce MODE 4 SV7 HH LAH Comparative ggg set value 7 HH 0 to 99 999 yy SV7 H 1 Comparative 35 set value 7 H Jl 0 to 99 999 Gu SVIE l o Comparative I set value 7 L Oto99 999 TPA SVA r Comparative Yea set value 7 LL z Ee al Lt 4 mt al ht La
88. S Ti STAS notentsagycareunnaneesanenensenneccesmmenshcsenedeececruinouce A 29 Forecasted Cycle Calculations cccccccccsssssssssssssesseeseeseeeesssaeeessees A 30 gt te 0 Q O M 0 A 1 a Q amp e C Q Q el lt Appendices Specifications Power supply voltage 100 to 240 VAC 24 VAC VDC DeviceNet power supply 24 VDC llowable power supply voltage 85 to 110 of the rated power supply voltage range DeviceNet power supply 11 to 25 VDC Power consumption 100 to 240 VAC 18 VA max 24 VAC VDC 11 VA 7 W max at maximum load 2 Current consumption DeviceNet power supply 50 mA max 24VDC Inputs No voltage contact voltage pulse open collector External power supply 12 VDC 10 80 mA only for models with external power supply E Ratings A 10 VDC 5 100 mA only for models with external power supply Startup compensation timer input Hold input ON residual voltage 2 V max Resetinput ON currentat0 Q 4 mA max NPN open collector or no voltage contact signal SESE UPUt Max applied voltage 30 VDC max Compensation OFF leakage current 0 1 mA max input Bank input Outputs Relay contact 250 VAC 30 VDC 5A resistive load outputs Mechanical life expectancy 5 000 000 operations Electrical life expectancy 100 000 operations Transistor Maximum load voltage 24 VDC Maximum load current 50 mA outputs Leakage current 100 uA max Linear outputs 0 to 2
89. alue B D Error ratio When fax a 0 an overflow will be displayed at the upper limit When fax B 0 0 will be displayed Example This example shows the prescale values and the prescale set a values for displaying the line speed m min error ratio between two conveyors using two rotary encoders each of which outputs a 100 pulses per rotation The circumferential length of the rotary encoder is 0 125 m g Prescale value of Input A a 0 125 100 0 00125 1 2500 x 1073 Prescale value of Input B B 0 125 100 0 00125 1 2500 x 1073 ju a ju Og S J ju wm mime N gt T gt LE a Prescale value of Input A X mantissa Prescale value of Input A Y exponent D a D aa ee u Da jae Dag 44 Pw 4 A Lim jur pe s hi i ju J Prescale value of Input B X mantissa Prescale value of Input B Y exponent jam ld T a x him a Liz a Wd Z hi D E Section 5 Functions and Operations E F4 Rotational Difference Measuring the Rpm Circumferential Speed Difference Absolute Difference between Two Conveyors Alarm outputs Operation Configuration Application e Basic Operation The difference between the speed of input A and the speed of input B is displayed The measurement value can be obtained using the following f
90. ations for the next measurement Allow atleast 1 ms Referring to the following table specify the prescale value corresponding to the desired display unit Calculated value S unit a value ae a EE Time difference 5 2 Setting the Function for the K3HB P l E F4 Time Band Monitoring the ON time of a Controlling the Valve Open Time Printing Press Communications Operation Configuration Application e Basic Operation The ON time T s of input A is displayed D Txa T ON time s of input A a Prescale value A D Time band Input A t Ti ATR gt T lt T3 la Hold Measurement T3 is not valid TR Recovery Time The time required from the end of one measurement until completing preparations for the next measurement Allow at least 1 ms Referring to the following table specify the prescale value corresponding to the desired display unit Calculated value Display unit value T1 O cr N Fev 3S ra a3 f pl Ss NM Time band 5 19 E Section 5 Functions and Operations E F5 Measuring Length Measuring workpiece length Operation Configuration Application e Basic operation Displays the number of input A pulses while input B is ON The measurement value can be obtained using the following formula D Cxa C Number of pulses of input A while input B is ON a Prescale value A D Measured length InputA M
91. attern is set using the following parameter Parameter Set value Meaning ofset value ns eo Dent _Ineremental Peston meter ype zag Incremental reversed su OO vevin aur Devaton tevere 19999 to 99999 1 19999 to 99999 1 1 The decimal point depends on the decimal point position parameter setting With the K3HB P the setting range is 0 to 99999 2 The amount that the displayed value differs from the mid point between the position meter upper and lower limits the deviation is ona T1 z ci n re a3 p Ss n lt psea20 ANJeAJUISUd aSeadu gt Position meter gt upper limit Set to 100 Position meter lower limit gt setto 0 Present value 70 Present value 70 Present value 85 Present value 85 qea anjenquasalg seeou j lt eseainag anjenqussay aseaxouy gt 2522080 anjenquasaig seeou j gt If the position meter lower limit set value is larger 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 5 7 1 E Section 5 Functions and Operations Parameter Setting Procedure n A Press the C LEVEL Key for at least 3 s in RUN level to move to cao the initial setting level Displays L i 3s min e i is displayed on the level bank display to indicate the initial setting level __ B Press the
92. ay outputs only e Only one of the following can be used by each Digital Indicator RS 232C RS 485 communications BCD communications or DeviceNet communications A 7 D gt xe xe D gt Q A 0 W Appendices Parameter List Enter the set values before using K3HB R P Version Status 19999 to 99999 19999 to 99999 19999 to 99999 Measurement value Max value a Min value RUN adjustment aP protect Setting level protect GEE Protect Setting change PEPE protect Max Min protect ARP Measurement value l i um 3 rm cz re a rr 19999 to 99999 when time unitis OF F Lower limit of P is 0 0 to 99999 when the time unit is min 0 00 00 to 9 59 59 when the time unitis hr min s 00 00 0 to 99 59 9 when the time unit is min s ms nrc x u uu uu to 5 mm mm m T oo uu G tog Measurement value comparative set value HH RUN Measurement value comparative set value H Measurement value comparative set value L Measurement value comparative set value LL Adjustment Input type A Lark No contact NO no oo a ti contact NC contact NO contact NC Input type B No contact NO no contact NC contact NO contact NC Prescale AX Po Ao 0 0000 to 9 9999 D ouuu to 5 S999 1 0000 Initial Prescale BX 0 0000 to 9 9999 D ROD to 9 9999 1 0000 4 Time unit m D r ELAE OFF min hour s min s 100 ms Standar
93. cedure A The parameter to be changed is displayed e Atthis stage the set value is displayed but cannot be changed B Press the gt 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 ce MODE Key to switch to the next parameter e The changed set value is stored in the internal memory elf 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 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 E Confirming and Changing Comparative Set Values 5 6 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 GH gt CH gt cL gt cLD is lit for the displayed comparative set value Knowledge R
94. d Cycle Calculation T T2 T3 T2 Input pulse Po 7 P3 1 T3 Frequenc 0 j i Forecasted cycle calculation 1 Frequency calculation is not possible with only pulse Po so the calculated value remains at 0 2 When pulse P is received the time T4 from Pg to P Is the cycle so the frequency can be calculated as 1 T 3 If pulse P is received and T4 gt T gt the cycle has shortened i e the frequency has increased so 1 T gt is used as the frequency at that point 4 If time T gt expires before the next pulse is received after receiving pulse P gt it is clear that the frequency will be lower than 1 T gt but the value will not be know until the next pulse is actually received 5 If time T expires and the next pulse still has not been received after receiving pulse P gt the frequency is forecasted continuously for any point in time The forecasted value if time T3 has expired from receiving pulse P gt Is 1 T3 If P3 is actually received at that time the frequency will be 1 T3 i e the frequency at that time has been forecasted accurately Y od 1 C a O O The response characteristic for rapid changes in the input frequency is thus improved in comparison to assuming that the frequency is 1 T gt until pulse P3 is received A 30 Index E INDE X A Adjustment level 5 2 5 3 5 4 Advanced function setting level 5 2 5 3 5 4 Advanced function settings 5 5 Automatic display r
95. d Length of a Sheet K3HB C E 3 6 Measuring the Feed Length of a Sheet K3HB C Advantages of using the K3HB C e Displays the measurement value to tenths of a millimeter 0000 0 mm using a rotary encoder that outputs 250 pulses to measure a feed length of 0 5 m e Outputs comparative output OUT1 when the measurement value is 500 0 or higher e Outputs comparative output OUT2 when the measurement value is 700 0 or higher oo rey Yn O gt Kej gez O rev p o gt 5 R S O O Tp Comparative output OUT2 ssi le re Comparative output OUT1 eC Connections Diagram HB C Operating power 100 to 240 VAC 24 VDC AC Phase Phase E6B2 CWZ6C 3 13 Za S D S p e2 lt L a wn A E Section 3 Basic Application Methods E Setting for the K3HB C rnea l e RUN Level Comparative set x value OUT1 Comparative set x value LOUT2 X Check on the status displays Initial Setting Level i Parameter Characters Setvalue Remarks Fuat Fe Phase differential inputs ee eae we Inputtype 8 carte o0 No contact NO Ce ee cee Prescale valle 0 2 Prescale AY AY 2 0000 x 109 eee aa CA A digit below the position decimal point Comparative Level outputs output pattern Display Adjustment Level pa sal Parameter Characters
96. d outputs zone outputs level outputs Decimal point position 5 Da cz re Comparative output pattern Move to the advanced function setting level Averaging type i Averaging times W Q amp e C Q Q ol lt 19999 to 99999 499 Aiifi k Simple average moving 5APL A uE average 1 2 4 8 16 32 64 128 256 512 1024 Input a K i oot adjustment a itp zero time A REA 0 0 to 2999 9 68 to 2999 9 Auto zero time B He Ih 0 0 to 2999 9 ato 2959 49 Power supply memory AERA OFF ON AFF n A 8 0000 2000 0 00 00 70 000 1 em Conforms to the decimal point position When the time unit is hr min s When the time unit is min s ms Conforms to decimal point position m Conforms to decimal point position m Cc m m m my my m Cc C cy Cc Conforms to decimal point position Cc Conforms to decimal point position Parameter List Comparative setvalue cds CS OFF ON ON lt a lt i on display Display refresh period OFF 0 55 15 25 45 0 5s 15 25 45 za ee u5 za ee oe o l Display color selection ar Green OPO Ss tS 25 AS green red amp rn r Grn rEd o Green or green red red Display value ae aP PV max min Pu AA ALA selection a a a S A return Display adjustment Position meter type OFF incremental Incremental incremental reversed deviation deviation reversed Position meter u
97. d to zero when there is no pulse for a specific period of time Parameter Setvalue Meaning ofsetvalue Input A auto zero time _ auto zero time AEA Auto zero time B Input B auto zero time Aik h The input B auto zero time can be set only for function F1 or F6 Due to the principle of forecasted cycle calculation the frequency will not become zero even if the input signal is cut off Refer to Forecasted Cycle Calculation P A 30 for details on forecast cycle calculations Auto zero time Frequency Time When there is no input pulse for a specified time auto zeroing can be used to force the measurement frequency to zero The time from cutoff of the input pulse to the zeroing of the measurement frequency is called the auto zero time T1 z ci S MN D gS ra a3 p Ss Tp Parameter Setting Procedure A Press the _ LEVEL Key for atleast 3 s in RUN level to move to ra the initial setting level 3s min e L 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 adjustment level i mi is displayed on the level bank display to indicate the input E eaa level C Press the tel MODE Key several times to switch the PV display ue E to s 7 5 31 E Section 5 Functions and Operations D Press the gt SHIFT Key to make the SV di
98. ding or burning 6 Install the product horizontally 7 Mountto a panel between 1 and 8 mm thick 8 Use the specified size of crimp terminals M3 width 5 8 mm max for wiring To connect bare wires use AWG 22 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 AWG 16 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 a
99. duct is designed Perform correct setting of the product according to the application Failure 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 CAUTION Make sure thatthe 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
100. e display will show B Setthe function to F1 passing speed 1 Move to the initial setting level by pressing the _ LEVEL Key for at least 3 s Operation will stop 2 Set Fun to F i and press the ce MODE Key C Setinput type A and input type B to 00 no contact normally open 1 Set input type A cn ER to 4 and press the kel MODE Key 2 Setinput type B sn EA to HU and press the kel MODE Key 4 2 Initial Setup Example for the K3HB P D Set the prescale value 1 Set the prescale AX 5 Au to 5 3333 and press the kel MODE Key 2 Setthe prescale AY PS AY to iti 2 and press the cel MODE Key E Setthe decimal point position al 1 Set the decimal point position dP to aa aaa default value and press the cel MODE Key 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 cel MODE Key several times to change the SV display status to H and set the value to ti iu 3 Press the cel MODE Key several times to change the SV display status to L and set the value to tt Simi G Start actual operation 1 Press the kel MODE Key several times to display the measurement values and start actual operation Clearing Settings If you become co
101. e 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 the level MODE Key Used to switch the displayed parameter 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 teaching 1 5 E Section 1 Outline 1 3 Component Names and Functions of the K3HB C Level bank display Max Min status PV display Comparative output status 3 Position meter Status indicators D SV display SV display status LEVEL Key SHIFT Key UP Ke MAX MIN Key MODE Key Function o 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 user set 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 RUN indicator level Level oank display In RUN level displays the bank if the bank function is ON Turns OFF ifthe bank function is OFF In other levels displays the current level Status indicators Hold Turns ON OFF when the hold inp
102. e initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D Use the IAI UP and SHIFT Keys to set the password GFF Al u 184 Press the cel MODE Key to move to the advanced Displays L F uan setting level Ge F is displayed on the level bank display to indicate the advanced function setting level 5 55 E Section 5 Functions and Operations Tal a ae to Sean cel E Press the ce MODE Key several times to change the PV display gt F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash Al G Use the A UP Key to change the set value to an Change the set value to oF F to turn OFF the standby sequence H Press the cel MODE Key to switch to the next parameter The set value is registered n I Press the _ LEVEL Key for at least 1 s to return to the initial a Ly setting level ls min J Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min fa p B a Ee Nn 35 LL 5 56 5 19 Performing Linear Output 5 19 Performing Linear Output Linear output level mar R m o The linear output funct
103. e set value H Comparative set value L Comparative set value LL Low Output HH Output H Output PASS Output L Re Output LL a 3 2 3 1 Monitoring Roller Speed K3HB R E E Settings for the K3HB R Pamer Joma a e Comparative set value HH Control example for the following RUN Level Comparative x settings set value H HH alarm 3 400 rpm set value L L alarm 800 rom LL alarm 400 rpm Comparative set value LL X Check on the status displays Initial Setting Level i Parameter Characters Setvalue Remarks Function R pm circumferential speed Input type A pocncEA oi No contact NO P CERAIS Prescale value a 1 8 0 125 0 125 x 10 position Comparative Input Adjustment Level wt Parameter Characters Set value Remarks Averaging type AGE SARL Simple averaging Averaging pes ET TE ome Auto zero time Display is forced to zero A when no pulse Is received for 10 seconds Display Adjustment Level x or Parameter Characters Set value Remarks Display value Present value selection Position meter Incremental display type Noein upper limit Full scale lower limit 3 3 lus red v O gt oO Ss O rev Ct O a Se oe os Tp E Section 3 Basic Application Methods 3 2 Monitoring Conveyor Speed Difference K3HB R gaj z w o p 2 Q lt YL wn qe oo 3 4 Advantages of Using the
104. e setting the parameters and cannot continue all settings can be cleared so that you can start over Refer to 5 33 Initializing All Settings P 5 83 for information on clearing all settings Refer to Section 5 Functions and Operations for details on setting parameters 4 3 cr v T D 5 Q p a v a E Section 4 Initial Setup 4 2 Initial Setup Example for the K3HB P 4 4 The initial setup is explained in the following example Settings Example The passing speed is displayed in m s when the distance between A and B is 5 m elf 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 0 700 0 500 l Comparative output L Setting the Prescale Value The prescale value can be obtained using the following formula when the output Is to be displayed in m s Prescale value a 5 60 0 08333 8 3333 x 1072 Prescale value of Input A X mantissa gt ju bm Prescale value of Input B Y exponent gt TEE him Initial Setup Flow To change a set value press the SHIFT Key once to enable changing the setting and then press the UP Key to change the value Press the MODE Key to register the set value The set value will be registered and the next parameter will be displayed A Check the wiring and turn the power ON e Th
105. e the PV display M G to HYS T1 z ci n re a3 p Ss n F Press the SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash G Use the A UP and gt SHIFT Keys to change the set value H Press the ce MODE Key to switch to the next parameter e The set value Is registered I Press the L_ LEVEL Key for at least 1s to return to the initial setting level ma J Press the _ LEVEL Key for at least 1 s to return to RUN level Wn 3 z 5 4 UIJ E Section 5 Functions and Operations 5 12 Outputting for a Set Interval Advanced function setting level Mp fF RJ Pa Gc 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 100 ms on the K3HB R Comparative set value H Measurement value Comparative set value L Output H Output L 100 ms 100 ms The shot output time is set using the following parameter Parameter setva Weaning ofset value 0 to 1 999 ms 0 to 1 999 ms 0 to 199 9 s to 199 9 s ee The shot output will be are disabled when set to 0 The unit for K3HB R 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
106. easuring period Measuring pgriod Measuring period i Measuring period gt e gt e di _ E E A ATR S oo Hold Not valid e Measurement value NomeasurementX Caixa X Cae KC TR Recovery Time The time required from the end of one measurement until completing preparations for the next measurement Allow at least 1 ms Referring to the following table specify the prescale value corresponding to the desired display unit Calculated value Display unit value Measured length 1000 xda Na fa p B a g Nn 35 LL mda Na Na Number of input A pulses per rotation mda Circumferential length m of Input A per rotation 5 20 5 2 Setting the Function for the K3HB P l E FO Interval Measuring Slit Intervals Alarm outputs Operation Configuration Application e Basic Operation The number of input A pulses from one input B rising edge to the next is displayed The measurement value can be obtained using the following formula D Cxa C Number of input A pulses between input B rising edges a Prescale value A D Interval Input A Measuring tihe Measuring time Measuring time i Measuring time 1 ig gt lt gt gt Input B IRA Not valid Hold _ ny TR Recovery Time The time required from the end of one measurement until completing preparations for the next measurement Allow at least 1 ms T1 O cr DN Fey
107. ed fo FP eee o tion InputtypeA atA ost eA type B LnTER a function requires two inputs PrescaleY Y PS RAY Pp Bankselecton 0FF selection Bank selection 0FF OFF o point er selection OFF position Comparative output pattern Move to the level protect 0 advanced func tion setting level Compensation Lana value Compensation ton F conditions Power interrup tion memory Display Comparative Sud SF adjust set value dis ment play Display refresh a r EF period Display color tata selection Display value deh selection Automatic dis rEe play return Position meter Pab t type Position meter PaS H Position meter type OFF upper limit Position meter PaS t Position meter type OFF lower limit A 21 gt xe ze D gt Q A 0 W Appendices Level Parameter Char lt l gt C1 gt lt C2 gt lt T1 gt lt BCD gt lt CPA gt lt L1A gt lt L2A gt lt FLK1A gt lt DRT gt Setting Conditions name acters lt 2 gt lt CPB gt lt L1B gt lt L2B gt lt FLK1B gt lt 3 gt lt FLK2A gt lt A gt lt FLK2L Scaling PS bal Bank selection OFF Prescale X 0 7 Prescale Y 0 7 Bank copy Comparative set value bank Comparative Compar ative set value a Lr Ee a ci c Su on on on rm Da c De cx ca a Cre Cre ue lt m Bank selection OFF is the value between 0 and 7
108. ed sentence under first table Page 5 71 Changed text in bottom table including present values under figures Page INDEX 1 Added and corrected index entries Page 3 2 Correct end of formula for prescale value Page 5 57 Changed figures and removed paragraph from below second figure Page 5 58 Added material to note Page A 4 Change description of measurement ranges INDE X 2 Removed Operation at input error About this Manual Manual Structure Preface Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Appendices Provides precautionary information a manual revision history an overview of the manual contents information on using this manual and other general information Outline Provides an overview and describes the features of the product Preparations Describes the mounting and wiring required before using the product 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 Initial Setup Describes the initial setup process when using this product Functions and Operations Describes the functions and settings methods for more effective use of functions displays outputs and settings for each application Troubleshooting Describes how to check and possible countermeasures for errors Provides specifications and setting
109. ee E Eee E ee ee Flutin m w l p l T1 z ci n re a3 p Ss n 512 1024 To not use averaging set the average type u e to SAPL and the averaging times Aluti n to i Parameter Setting Procedure 7 A Press the _ LEVEL Key for at least 3 s in RUN level to move to po Hoy the initial setting level Displays L cE 3 s min L 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 Ly ill level Displays L i tais L i is displayed on the level bank display to indicate the input e ae level 5 37 E Section 5 Functions and Operations C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash Al D Use the Al UP Key to change the average type setting aaa E Press the l MODE Key to change to the next parameter Ald e The average type setting Is registered X F Press the gt SHIFT Key to make the SV display flash ie A R ang EAS G Use the A UP Key to change the averaging times setting Le Lm EN qp H Press the ce MODE Key to switch to the next parameter e The averaging times setting is registered ma I Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min 5 20 Changing the Display Refresh Period
110. el f Ry With this function measurement Is not performed until a set time has passed after the S TMR input 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 nr input is ON measurement will not start until the time set in the 5 trr elapses This can be used to create a waiting status until a rotating body reaches its normal speed range when the power to the K3HB and the rotating body is turned ON atthe same time Use the following parameter to set the time Parameter Setvalue Meaning of set value uu Startup compensation timer disabled 0 1 to 99 95 Parameter Setting Procedure A Press the _ LEVEL Key for atleast 3 s in RUN level to move to m the initial setting level Displays L i 3s min e LO is displayed on the level bank display to indicate the initial setting level Lu mal ZZ n to annu Gol B Press the ce MODE Key several times to change the PV display e This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash 7a D a Ee Nn k D 35 LL D Use the A
111. equired for Setting Parameters E 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 Outputs of the K3HB C are given in parentheses Power ON Comparative Comparative Comparative Comparative set value HH set value H set value L set value LL Monitor status Light Light ights Lights 1 If no key is pressed for 5 seconds the set value is registered and the display returns to monitor status 2 Use the gt SHIFT and A UP Keys to set the set value Displayed Comparative Set Values Displayed comparative set values Relay transistor output specifications Toto H L Models with Relay Outputs lt C1 gt HH H L LL Models with Relays Outputs lt C 2 gt HH H PASS L LL Models with Transistor Outputs lt T1 gt lt T2 gt For Sensor Power Supply Output Models with a PASS Output
112. es to prevent inadvertentkey operations and malfunctions gt P 5 84 R fP F 1 1 Main Functions and Features of the K3HB Outputs Comparative output pattern The comparative output pattern can be selected as Standard output zone output and level output gt P 5 39 Ry fey f PASS output change Comparative results other than PASS and error signals can be output from the PASS output terminal P 5 51 R fP Output logic Reverses the output logic of comparative outputs for comparative results P 5 53 R fP j Linear output Outputs currents or voltages proportional to measurement values as they change P 5 57 R fP fC Display Display value selection The current display value can be selected from the present value the maximum value and the minimum value P 5 67 R fP fC Displays the current measurement value as a position in relation to the scaling width on a meter with 20 sections P 5 71 Ry fP j Hysteresis Prevents comparative output chattering when the measurement value fluctuates slightly near the set value P 5 42 Ry 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 46 Fy Startup compensation timer Constant time measurements can be stopped by an external Signal input gt P 5 34 Ry Standby sequence
113. eter on the initial setting level will be displayed The set value is always 0 after moving from character display to monitor status Change status Use the gt SHIFT and A 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 T1 O cT DN rey l O 3S ra a3 p 5 NM 5 5 E Section 5 Functions and Operations E Monitoring and Changing Set Values fa wo B a Ee Nn S 35 LL 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 itis called the change status Monitor status Change status Use the gt SHIFT and Al UP Keys to o setthe set value 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 Pro
114. eter will be displayed A Check the wiring and turn the power ON e The display will show 0 B Setthe function to F1 rom circumferential speed 1 Move to the initial setting level by pressing the _ LEVEL Key for at least 3 s operation will stop 2 Set Ftal to F i and press the kel MODE Key C Set input type A to 00 no contact normally open 1 Set input type A un EA to H59 and press the el MODE Key 4 2 4 1 Initial Setup Example for the K3HB R D Set the prescale value 1 Set the prescale AX PS Au to fi i50 and press the ce MODE Key 2 Setthe prescale AY P5 A4 to ii uu and press the cel MODE Key E Setthe decimal point position a 1 Set the decimal point position sP to agaas default value and press the cel MODE Key F Set comparative set value H to 700 and set comparative set value L to 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 several times to change the SV display status to H and set the value to Hunua 3 Press the cel MODE Key several times to change the SV display status to L and set the value to Huauu G Start actual operation 1 Press the kel MODE Key several times to display the measurement values and start actual operation Clearing Settings If you become confused whil
115. eturn 5 73 Auto zero time 1 2 5 31 Averaging 1 2 5 36 Averaging times 5 36 5 37 Averaging type 3 3 3 5 3 8 5 36 5 37 Bank copy 1 4 5 81 5 82 Bank selection 1 4 5 75 Basic application methods XI 3 1 C Communications setting level 5 3 5 4 Communications settings 5 2 Comparative output pattern 1 3 5 39 Comparative output status indicators 1 5 1 6 Comparative outputs 2 7 5 39 Comparative outputs holding 5 49 Comparative set value banks 5 75 5 81 5 82 Comparative set value display 1 3 5 68 Comparative set value level 5 2 5 3 5 4 Comparative set values 5 7 5 39 5 42 5 68 5 74 5 75 COMPENSATION input 5 61 A 2 Component names and functions 1 5 1 6 D Decimal point position 5 28 5 30 5 77 Display adjustment 5 2 5 60 Display adjustment level 5 3 5 4 Display color selection 1 3 5 69 Display refresh period 1 3 5 60 Display value selection 1 3 5 67 Display returning to RUN level 5 73 Event inputs 2 9 A 2 External dimensions 2 2 F Function for the K3HB C 5 23 Function for the K3HB P 5 16 Function for the K3HB R 5 9 H HOLD input 1 5 1 6 5 16 5 17 5 18 5 19 5 20 5 21 5 23 5 24 5 25 5 48 6 3 A 2 Hysteresis 1 3 5 42 6 3 Initial setting level 5 2 5 3 5 4 Initial setup Example for the K3HB C 4 6 Example for the K3HB P 4 4 Example for the K3HB R 4 2 Initializing settings VIII 5 83 Input adjustment 5 2 5 3 5 4 Input adjustment level 5 2 5 3 5 4 Input error
116. everal times to change the PV display n to Annu e This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect T1 z ci n re ra p Ss n C Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash the A UP and gt SHIFT Keys to set the password 14 Press the kel MODE Key to move to the advanced unction setting level e LE is displayed on the level bank display to indicate the advanced function setting level D Us E Press the kel MODE Key to change the PV display to PASS F Press the SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash E Section 5 Functions and Operations a G Use the A UP Key to change the set value Hae col H Press the ce MODE Key to switch to the next parameter The set value is registered 1 Press the L LEVEL Key for at least 1 s to return to the initial rm setting level 1s min J Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min fa p B a z fa 5 S LL 5 52 5 17 Reversing Output Logic E 5 17 Reversing Output Logic Advanced function setting level m M a
117. f 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 L 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 ASYSERR Repair is necessary memory error message Consult your OMRON representative Input displayed frequency when there is range no pulse input exceeded error Indicates an internal memory error Error in non volatile memory Press the _ LEVEL Key in this state for atleast 3 s to return to the factory settings If the problem still persists repair is necessary Contact the point of purchase or yourOMRON representative Normal The measurement value after Operation will continue with a Operation 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 The scaling value may be inappropriate Review the scaling value in the initial setting level 1 The parameters already set are returned to the factory settings Ifthe problem still persists after performing initialization repair is necessary i e Ka Y Q Ke
118. fae Change the setting level protection to 0 AFF OFF ON Ee only sit ommunications Units Password LEVEL 0169 LEVEL 1s min 1s max Parameter Display Advanced function setting level Output test level L Always displayed regardless of model or settings ee ae OFF ON LALE BFF Displayed only for certain models or settings a a IX o o PASS PASS output change LL L PASS H HH Press the L LEVEL key for atleast 1 s from HYS Hysteresis j z 0 to 9 999 when TIME is OFF any display except for the protect level to HUE 0 00 00 to 0 59 59 when TIME is h min s 0 00 00 to 59 59 9 when TIME is a pax or ur 6 return to the first parameter in the RUN or initial setting level cl min s ms E f OFF D Output OFF delay 0 to 1 999 ms SHOT Shot output 0 to 1 999 ms co MODE OUT N fe Output de energization aaj N O N C L D O STP Output refresh stop SFE OFF OUT ALL hah E BNK C Bank selection SEF OFF KEY EV Standby sequence OFF ON EGEJ TEST Testinput zFF 19 999 to 99 999 il S max Displayed only for icati Communications Communications ais setting level ce MODE L See a current model 4 210 to 20 mA lt 4 to 20 mA rrr LSET V Linear L I0 6 a voltage model i 5 0to5V 1to5V J
119. freshing outputs You can choose to stop outputs and continue measurement or to stop both Outputs will be refreshed again after the reset operation e 5 7 Resetting Measurements P 5 33 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 ounsretesn so Se eam canoe Parameter Setting Procedure H A Press the L_ LEVEL Key for at least 3 s in RUN level to move to 4 the initial setting level Displays L amp oval Lu is displayed on the level bank display to indicate the initial hin level suogeado pue suonoun y uZ n to manu Gol B Press the cel MODE Key several times to change the PV display e This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash 5 49 E Section 5 Functions and Operations D Use the IA UP and SHIFT Keys to set the password ui i645 Press the cel MODE Key to move to the advanced aa tion setting level ris displayed on the level bank display to indicate the advanced function setting level
120. gt P 5 60 Remarks Wm So p D a sa WN 6S LL 5 38 5 10 Changing Comparative Output Patterns E 5 10 Changing Comparative Output Patterns niai seting ievel FY i CS GS This function compares the measurement value and comparative set value and outputs the comparative result The output pattern is set using the following parameter Farameter Setvalue Meaning ofset value Comparative output 274 Standard outputs See note pattern Fane Zone outputs e F LEE Level outputs Note Standard outputs cannot be specified with the K3HB C E K3HB R P Standard Outputs Measurement value Comparative set value HH Comparative set value H Comparative set value L Comparative set value LL ON Output HH OFF T Output H r 3 Output PASS E gt Output L COo o S y L Output LL Do S a Zone Outputs S Nn 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 5 39 E Section 5 Functions and Operations Level Outputs Measurement value Comparative set value HH Comparative set value H Comparative set value L Comparative set value LL ON OFF Output HH Output H 3 Outputpass LL 2 Output L _ _ Output LL The PASS output turns ON when any of the HH H L and LL outputs turns OFF
121. hite boxes have been removed Only one of RS 232C RS 485 communications BCD or DeviceNet can be used by each Digital Indicator D E Event Input P ulse Inputs Models with Terminal Blocks NPN Open Collector NPN Voltage Pulse PNP Input lt 1 gt lt 3 gt Inputs K3HB ONB Inputs K3HB ONB K3HB LIPB N C nic E nic 1 63 S TMR me INA Voltage EJ nic Eo INA NPN INA PNP 3 HOLD com EJ com 3 COM RESET NIC nic EX COMPENSATION INB Voltage 5 N C Q COM INB wen INB Eo E com COM E com Models with Connectors lt 2 gt lt 4 gt Note E3 and E6 Note E3 and E6 Note E3 and E6 as well as B6 as well as B6 as well as B5 are internally are internally are internally 1 N C 2 S TMR 3 HOLD 1 zs 2 4 RESET connected connected connected 5 COMPENSATION 6 COM 7 BANK4 9 40 8 BANK2 a 9 BANKI sen 10 COM The following signals depend on the model S TMR Used by the K3HB R only e Applicable Connector Sold separately COMPENSATION Used by the K3HB C only XG4M 1030 OMRON e Special Cable Sold separately K32 DICN OMRON XG4M 1030 with 3 m cable 2 4 2 2 Using I O E E Wiring Use crimp terminals suitable for M3 screws as shown below Tr 5 8 mm max Y O 5 8 mm max L 3 Use cables with a heat resistance of at least 70 C iS Power Supply a Supply power to terminal numbers Al and A2 The power supply S T
122. icate the initial setting level B Press the __ LEVEL Key several times to move to the display adjustment level ee is displayed on the level bank display to indicate the display adjustment level C Press the gt 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 change the set value E Press the cel MODE Key to switch to the next parameter e The set value is registered F Press the _ LEVEL Key for at least 1 s to return to RUN level 5 26 Changing Display Colors E 5 26 Changing Display Colors Display adjustment level FY i GD GS 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 myer F oe cm Comparative output HH H L or LL or input error status K3HB R P OFF All comparative outputs HH H L and LL are OFF and no input error ON HH H L or LL comparative output is ON or input error K3HB C OFF All outputs 1 to 5 are OFF and no input error ON One of outputs 1 to 5 is ON or input error Parameter Setting Procedure g A Press the L_ LEVEL Key for at least 3 s in RUN level to move to the initial se
123. ing to the following table specify the prescale value corresponding to the desired display unit Calculated value Display unit _ value Passing time N Pulses per rotation md Circumferential length per rotation L Length of processing stage When fais 0 an overflow at the upper limit will be displayed 5 1 Setting the Function for the K3HB R E Example This example shows the prescale values and the prescale set values for measuring the passing time using a rotary encoder that outputs 100 pulses per rotation Circumferential length per rotation xd 0 125 mm Length of processing stage 5 m Prescale value a 5 0 125 100 4 000 4 0000 x 10 Prescale value of Input A X mantissa 5 Au Good Prescale value of Input A Y exponent 5 A4 i aa Use the following parameter to set the function Function Rpm circumferential speed D Parameter Setting Procedure ra A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level 35 min TET E e Lu is displayed on the level bank display to indicate the initial setting level PJ B Press the X SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash A C Use the A UP Key to change the set value T1 OQO cr DN rev gS ra g p Ss Tp ca D Press the c MODE Key to switch the display to the next PV
124. ion 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 50or10V 5V 1V oV Measurement i Measurement Linear output Linear output value PP o nes da value lower limit upper limit ower limit upper limit Current Output Linear output Linear output 20 mA 20 mA 4mA 0 mA Measurement Measurement Linear output Linear output value Linear output Linear output value lower limit upper limit lower limit upper limit 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 20 mA 4 mA Measurement Linear output Linear output value lower limit upper limit 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 5 57 T1 O cr N Fev 3S ra a3 f p NM E Section 5 Functions and Operations Linear current type 0 to 20 mA cai o HD 4 to 20mA Linear voltage type 0 to 5 V LICE 1to5V Oto 10V Linear output upper 3533 19999 to 99999 limit
125. iring and turn the power ON e The display will show 0 B Set the function to F2 phase differential inputs 1 Move to the initial setting level by pressing the _ LEVEL Key for at least 3 s Operation will stop 2 Set Fulnt to Fe and press the fe MODE Key C Set input type A to 00 no contact normally open Set input type A a r to Gi and press the cel MODE Key 4 3 Initial Setup Example for the K3HB C D Set the prescale value 1 Set the prescale AX 5 Au to Z Go and press the cel MODE Key 2 Set the prescale AY P5 AY to ii u default value and press the kel MODE Key E Set the decimal point position ri 1 Set the decimal point position dP to anaa a and press the kel MODE Key F Setthe comparative output pattern 1 1 Set the comparative output pattern aue F to LEuEL and press the kel MODE Key G Set comparative set value OUT1 to 500 0 and set comparative set value OUT2 to 700 0 1 Return to the RUN level by pressing the _ LEVEL Key for at least 1 s Start operation 2 Press the cel MODE Key several times to change the SV display status to 2 and set the value to iiiu 0 3 Press the cel MODE Key several times to change the SV display status to ay 1 and set the value to Sg a H Start actual operation 1 Press the kel MODE Ke
126. 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 Enabled X Prohibited RUN Adjustment Protect The following parameter limits key operations in RUN level and movement to adjustment level a aa Restriction details O Weda yg to the Parameter Present Comparative adjustment value set value display change RU spect protect bl Ee meer Note When there are no enabled menu items on the adjustment level i e when bank selection is at a setting other than Key and MM PT there iS no communications function movement to the adjustment level is not possible Setting Level Protect The following parameter limits moving to other levels Restriction details Move to the Parameter Move to the initial advanced setting level function Cd ting level WN p 2 O cs aN Z lt D LL Setting i aao protect Setting Change Protect The following parameter disables changing settings with key operations Parameter Setvalue Restriction details S etting Setting change using key _ using key Setting change protect operations Enabled EPE Setting change using key operations Prohibited All protect level parameters and movement to the advanced function setting level and calibration level can be changed 5 84 5 34 Limiting Key Operations E
127. le This example shows the prescale values and the prescale set values for measuring the flow rate ratio from flow rates l min using two flow meters 10 1 400 rpm Prescale value of Input A a 10 400 0 025 2 5000 x 1072 Prescale value of Input B B 10 400 0 025 2 5000 x 10 72 Prescale value of Input A X mantissa 5 Au g Soda Prescale value of Input A Y exponent 5 T1 O cr DN Fev gt sas ra o f p Ss NM Pw al 3m Z a pala dl A ag gt rr ju ray jur s bi ju r os X V2 c Prescale value of Input B X mantissa 75 Prescale value of Input B Y exponent 75 rr Omg ju ry Liz 5 13 Section 5 Functions and Operations E F6 Passing Time Measuring Conveyor Line Passing Time Distance Alarm outputs Operation Configuration Application e Basic Operation The cycle of the input pulse 1 Hz of input A is measured and displayed The passing time is displayed in the desired unit by setting a prescale value e The measurement value can be obtained using the following formula al D zB xa fa Frequency A Hz a Prescale value A D Passing time rom Input frequency x E Number of pulses per rotation Circumferential speed Roller circumference nd x rom Length of processing stage Circumferential speed oa So p D a sa WN 6S LLU Passing time Referr
128. lt C2 gt lt T1 gt lt T2 gt z z a Z PNP af k ka Ios 2 B E 5 i 5 6 H 4 C H 4 3 D SL 63 o o E t 63 gt a C3 COM Bes 6 is 869 3 L 2 E z g lz L 2 LL 1 lt CPB gt lt CPA gt ee No combinations with CPA CPB other than relay output l BCD NPN Open Collector lt BCD gt DeviceNet Connector e Applicable Connector Sold separately Included DRT lt DRT gt Sensor power Supply Sensor power supply HDR ES50MAG1 aeuaawiqles ane 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 PASS 3 Bis B RD AC R z N C ee pe RUN HOLD CMP S g a E g DR DATA VALID S a fe T Q T 2 a g D 1 V Power supply cable Black a le_s g lt lt z 2 CAN L Communications cable Blue s s e 3 Shield gt l G 2 2 69 a 4 CAN H Communications cable White anos 69 n 2 a a a 69 s 5 V Power supply cable Red Applicable Connector lt B gt lt A gt RS 485 RS 232C RS 485 RS 232C lt FLK3B gt lt FLK1B gt lt FLK3A gt lt FLK1A gt EMO 10 10 16 eC oe ce eEueee oe The BCD COMMON is shared Attach the provided crimp terminals The pins indicated in the above diagram as blank w
129. mp RJ Py Gs The output logic reversal function sets the logic of comparative outputs for comparative results Operation Parameter Comparative Comparative Comparative result output status output The comparative outputs will turn OFF if an input error occurs when open in alarm Is set Parameter Setting Procedure A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level Displays L i S TiN e LG is displayed on the level bank display to indicate the initial setting level L j X B Press the cl MODE Key several times to change the PV display uZ n to manu e This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash T1 z ci n re a3 p Ss n D Us e the IA UP and SHIFT Keys to set the password 64 Press the cel MODE Key to move to the advanced function setting level 1 bal e LE is displayed on the level bank display to indicate the advanced function setting level E Press the cl MODE Key several times to change the PV display L to au n F Press the SHIFT Key to make the SV display flash The set
130. n et 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 Le is displayed on the level bank display to indicate the adjustment level 7a p B a Ee Nn D Ss LL D Press the gt 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 Key to change the set value F Press the cel MODE Key to switch to the next parameter e The set value is registered G Press the LEVEL Key for at least 1 s to return to RUN level Remarks 5 9 Averaging Input P 5 36 5 60 5 21 Setting a Compensation Value for the Measurement Value E 5 21 Setting a Compensation Value for the Measurement Value Input adjustment level F Cy This function sets the measurement value to the compensation value on the rising edge of the COMPENSATION input signal Compensation can be made conditional by selecting a compensation condition Explanation of Functions Compensation Compensation Conditions By detecting the COMPENSATION rising edges the measurement value can be set to the preset compensation value Compensation of the measurement value can be specified to be performed only when the immediately preceding input is an incremental input by setting the compensation condition Compensation Conditions None
131. n Time of a Press K3HB P Advantages of using the K3HB P Sensor ON time is measured using a through beam photoelectric sensor e Displays the measurement value to tenths of a second 00 0 s with the display unit of the K3HB P set to seconds oo rey Yn O gt Kej gez O rev p o gt 5 R SF O O Tp Connections Diagram K3HB P Operating power 100 to 240 VAC 24 VACNVDC E3X DA S Standard Outputs Display High 45 0 Comparative set value H 35 0 Comparative set value L Low ON e OFF Output H D S E Output pass E SSS o Output L 3 9 Za S D S p e2 lt L a wn A E Section 3 Basic Application Methods E Settings for the K3HB P aoe oe a RUN Level Comparative X set value H Comparative X set value L X Check on the status displays Initial Setting Level 1 Parameter Characters Setvalue Remarks F nt F4 Timeband eater orar T A piee Decimal point oe digit below the position decimal point Comparative Standard outputs output pattern Display Adjustment Level I te Parameter Characters Setvalue Remarks Display value value Present value selection Position meter Incremental display type meri e upper limit Rall Full scale lower limit 3 5 Measuring Workpiece Passing Time between Points A and
132. n be set and can be selected as groups P 5 75 Ry fP F Bank copy Any bank setting can be copied to all banks P 5 81 Ry fP fe 1 2 Component Names and Functions of the K3HB R P l 1 2 Component Names and Functions of the K3HB R P Level bank display Max Min status PV display Comparative output status 3 Position meter Status indicators SV display SV display status D LEVEL Key SHIFT Key UP Ke MAX MIN Key i MODE Key Function S 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 user set 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 RUN indicator level Level bank display In RUN level displays the bank if the bank function is ON Turns OFF if the bank function is OFF In other levels displays the current level Status indicators Hold Turns ON OFF when the hold input turns ON OFF CMW Turns ON when communications writing is ON enabled and turns OFF when communications writing is OFF prohibited SV display status T Turns ON when a parameter for which teaching can be performed is indicators displayed HH H L LL In RUN level turn ON when the comparative set values HH H L and LL ar
133. nfused while setting the parameters and cannot continue all settings can be cleared so that you can start over Refer to 5 33 Initializing All Settings P 5 83 for information on clearing all settings Refer to Section 5 Functions and Operations for details on setting parameters 4 5 cr v T D 5 o p O T O E Section 4 Initial Setup 4 3 Initial Setup Example for the K3HB C 4 6 The initial setup is explained in the following example Settings Example The feed length is displayed to tenths of a millimeter 0000 0mm using a rotary encoder that outputs 250 pulses per rotation to measure a feed length of 0 5 m elf the measurement value goes above 500 0 comparative output OUT1 turns ON elf the measurement value goes below 700 0 comparative output OUT2 turns ON Measurement value 700 0 500 0 Comparative output OUT1 Setting the Prescale Value The prescale value can be obtained using the following formula when the output is to be displayed as 0000 0 mm Prescale value a 500 250 2 x 10 Prescale value of Input A X mantissa 5 Prescale value of Input B Y exponent 75 Initial Setup Flow To change a set value press the SHIFT Key once to enable changing the setting and then press the UP Key to change the value Press the MODE Key to register the set value The set value will be registered and the next parameter will be displayed A Check the w
134. not 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 Bank No o gt gt O BANKI BANK2 BANK4 o 0o OFF OFF OFF 2 OFF OFF a OFF OFF OFF E Section 5 Functions and Operations Parameter Setting Procedure A Press the _ LEVEL Key for atleast 3 s in RUN level to move to Hoy the initial setting level Displays L i 3smin is displayed on the level bank display to indicate the initial displayed on the level bank display to indicate the initial setting level je cu LEI B Press the cel MODE Key several times to change the PV display to Fadu This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash D U Use the A UP and SHIFT Keys to set the password i654 Press the kel 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 ae ce MO DE Key se
135. nt stops Less than S Output test Less than 1s Password 1s min Advanced function setting To Protect Level To Adjustment Level To Initial Setting Level Input Adjustment Level Display Adjustment Level Prescale Level Comparative Set Value Level Linear Output Level Communications Setting Level Output Test Level Advanced Function Setting Level 5 4 Lea Mah Initialization i Communications settings Power ON Always displayed regardless of model or settings __ May not be displayed depending on the model or Settings p gt Level change ce eee Ms Protect He 1s min Measurement starts 15 min Less than 1s Display adjustment Prescale Comparative set value Less than 1s Less than 1s adjustment Less than 1s Less than 1s Linear output wn Press the L LEVEL and 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 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
136. nvestnaviennensinanennbad ures vennsiads 5 71 5 28 Automatic Return to Normal Display cccccccssessseeceeessseeeeeeeees 5 73 5 29 Performing Output Tests ressssrscsctecisicas vinrmaeuysereeiencawaterieatveseuadis 5 74 5 30 Using Prescale Comparative Set Value Banks seee 5 75 5 31 Copying Bank Prescale Values sseessssssrsrrrrrrereesrsrrrrrrrreee 5 81 5 32 Copying Bank Comparative Set Values ssssssesesssrrrrerrerrrrrerne 5 82 5 33 Initializing All Settings sateiassisvrsaasdviecrasrnaniwnnieupiarndiumivecstinmeun 5 83 5 34 Limiting Key Operations cccccssseseeecceeeseseeeeeeseeeeeeeeetsssaeseeeees 5 84 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 to be executed or may be ESET ETE stopped Check under the operations Measurement operations Makes settings to prevent inadvertent column key operations Movement between Protect levels and changes to settings may be prohibited depending on the protect Settings The normal operation mode where inputs are read and comparative judgements are made In RUN level the present value can 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 bank
137. nything to unused terminals 17 Output turns OFF when the mode is changed or settings 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 IEC 60947 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 specification of 702C 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 Digital Indicator 4 2 Q gt Q Q i T z O A Digital Indicator Signal input Power supply input Surge suppressor 2 In order to prevent inductive noise wire the
138. oltage pulse L Contact NO or voltage pulse H Contact NC or voltage pulse L Note Not displayed on the K3HB C when F3 has been selected Parameter Setting Procedure Input Type The following procedure shows an example using the K3HB R 3 A Press the LEVEL Key for atleast 3 s in RUN level to move to z the initial setting level 5 in e L amp is displayed on the level bank display to indicate the initial g setting level a B Ifthe PV display is not a r or Wn amp b press the kel MODE Key to display the desired parameter C Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash D Use the Al UP Key to change the set value E Press the cel MODE Key to switch to the next parameter e The set value Is registered F Press the L_ LEVEL Key for at least 1s to return to the RUN level 5 27 E Section 5 Functions and Operations 5 5 Setting Prescale Values Initial setting level AR Ry Py Set scaling to convert and display input values as any values Separate settings are made for inputs A and B One Point When bank selection has been enabled the prescale values for each bank must be set in the prescale level When bank selection has been disabled the prescale values must be set in the initial setting level Refer to 5 30 Using Prescale Comparative Set Value Banks P 5 75 Setting Parameter for
139. ompensation input to start measurement from the desired value The compensation value must be setin advance T1 O cr DN Fev 3S ra o f p Ss NM 5 25 E Section 5 Functions and Operations Use the following parameter to set the function reece e Masa F unction zz Individual inputs Elat E Phase differential inputs Pulse counting input Parameter Setting Procedure ra A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level 3 s min LO 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 A UP Key to change the set value D Press the cel MODE Key to switch the display to the next PV e The set value Is registered wm So p D a sa WN 6S LL 5 4 Setting Input Types E 5 4 Setting Input Types Initial setting level da he Setthe input type to match the connected input device Parameter Setvalue Meaning of set value Input type A Open collector NO or Lanka voltage pulse H Open collector NC or voltage pulse L Relay contact NO or voltage pulse H Relay contact NO or voltage pulse L Input type B No voltage contact NO or La tkh voltage pulse H See note No voltage contact NC or v
140. one even or odd x up SDWT sae Send wait time EH 0 to 99 ms LEVEL Displayed for Linear Linear output level Output Units only LSET C Linear current model 0 to 20 mA 4 to 20 mA LSET V Linear voltage model 0to5V 1to5V 0 to 10 V LSET H Linear output upper limit 19 999 to 99 999 LSET L Linear output lower limit 19 999 to 99 999 gt re ze O 2 M p W A 27 Up Q Y O C Q ok Q lt Appendices A 28 Input adjustment level Display adjustment level L 7 SFF COMPN Compensation value 19 999 to 99 999 COM P Adding with no compensation condition Power interruption memory OFF ON ce MODE SV DSP Comparative set value display OFF ON m D REF c dr Ei Display refresh period SFFIOFF 0 5s 15 25 45 COLOR Display color selection Green red green red green red DISP Display value selection PV MAX MIN RET Automatic display return 0w 99s POS T Position meter type OFF incremental incremental reversed deviation deviation reversed POS H Position meter upper limit 19 999 to 99 999 POS L Position meter lower limit 19 999 to 99 999 oc o PS BNK Prescale bank 0 to 7 m a PS0 AX
141. onse 10 ms max time until the final analog output value is reached when there is a forced sudden change time in the input signal from 15 to 95 or 95 to 15 Insulation resistance 20 MQ min at 500 VDC Dielectric 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 with 1 ns rising edge and pulse width of 1 us 100 ns Vibration resistance Frequency 10 to 55 Hz Acceleration 50 m s 10 sweeps of 5 min each in X Y and Z directions Shock resistance 150 m s 100 m s for relay outputs 3 times each in 3 axes 6 directions Degree of Frontpanel Conforms to NEMA 4X for indoor use equivalent to IP 66 protection IP00 finger protection VDE0106 100 Memory protection EEPROM non volatile memory Number of rewrites 100 000 Applicable standards UL61010C 1 CSA C22 2 No 1010 1 evaluated by UL EN61010 1 IEC61010 1 Pollution degree 2 Overvoltage category II EN61326 1997 Al 1998 A2 2001 EMC EMI EN61326 A1 industrial applications Electromagnetic radiation interference CISPR 11 Group 1 Class A CISPRL16 1 2 Terminal interference voltage CISPR 11 Group 1 Class A CISPRL16 1 2 EMS EN61326 A1 industrial applications Electrostatic Discharge Immunity EN61000 4 2 4
142. or outside of the derating area i e do not use itin the area labeled 1 in the above graphics Doing so may deteriorate or damage internal components Up Q Y O C Q ok Q lt A 6 Model Number Structure E Model Number Structure Base Units with Optional Boards K3HB LILI OUIU L DO 090 1 Models by Type ede input specifications RR _ Ray pulse nccator ES Time interval indicator Up Down counting pulse indicator 2 Input Range Codes Auxiliary output and external power supply specifications 3 Analog Communications and Other Output Specifications Linear voltage output DC 0 1 5 V 0 to 10 V Sensor power supply 12 VDC 10 80 mA eo Linear voltage output DCO 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 Communications RS 232C Sensor power supply 10 VDC 5 100 mA Communications RS 485 Sensor power supply 12 VDC 10 80 mA Communications RS 485 Sensor power supply 10 VDC 5 100 mA 4 Relay Transistor Output Specifications BCD output transistor NPN open connector HH H PASS L LL 5 Control Input Specifications Control input specifications 6 Power Supply Specifications Power supply voltage 24 VAC VDC 24 VAC VDC 50 60 Hz Note CPA and CPB can be combined with rel
143. ormula D fbx60xfB fax60xa fa Frequency A Hz fb Frequency B Hz a Prescale value A B Prescale value B D Measurement value Example This example shows the prescale values and the prescale set values for displaying the difference between speeds using two rotary encoders each of which outputs 60 pulses per rotation Prescale value of Input A a 1 60 0 01666 1 6666 x 10 2 Prescale value of Input B B 1 60 0 01666 1 6666 x 10 2 Prescale value of Input A X mantissa PS Au apap Prescale value of Input A Y exponent On ja j X fa p B a Ee Nn 35 LL ja a md Lit ww mam u re wr wed rn ju Dag Prescale value of Input B X mantissa Prescale value of Input B Y exponent 4 w ju bm gt ry _ Liz 5 1 Setting the Function for the K3HB R MIF5 Flow Rate Ratio Monitoring Liquid Mixture Flow Rate Ratio Linear output G a H ESen Operation Configuration Application e Basic Operation The flow rate ratio of input B is displayed on the basis of the frequency of input A and the frequency of input B The measurement value can be obtained using the following formula _ fbxB akaro fa Frequency A Hz fb Frequency B Hz a Prescale value A B Prescale value B D Flow rate ratio When fax a fox 6 0 0 will be displayed Examp
144. pper 35 Same as measurement Same as measurement None limit value value When the time unit is hr Minis When the time unit is min s ms limit P 0 gt re ze 0 Q A p W A 9 Appendices ee ee a a an 0 Prescale 1BX PS tbo 0 0000 to 9 9999 0 OEOD to 9 9999 1 0000 ee e ee Prescale 1BY Sth 9 to 9 ae cu in Decimal point position dP i 0 to 4 qo000 9000 0 1 990 00 99 9000 oo Poe Ex n U X Pa wil Decimal pointposition dF 2 Feen PS Decimal point position 0 to 4 nnna co00 9 3 900 00 90 000 Da ec Decimal point position 4 Decimal point position 0 to 4 onnan co00 9 5 fa ag c Ln m a oO Oo Oo c ci A ag Lim 100 00 70 000 ce aa 6 0 to 4 go0000 9000 0 900 00 990 000 W Q amp e C Q Q ol lt A 10 Parameter List Comparative set value Sunt bank a a A i oe E Comparative set value Sut Same as measurement Same as measurement 99999 Same as measurement EU OHH value value value OH Comparative set value Futi Same as above Same as above R 19999 Same as above EU OL P 0 Comparative set value Bunih Same as above Same as above R 19999 Same as above EU OLL P 0 1HH 1H Comparative set value Bu iL Same as above Same as above R 19999 Same as above EU 1L P 0 Comparative set value u iLL Same as above Same as above R 1999
145. put pattern is set to a level output Comparative set value HH H Hysteresis Comparative H i set value LL L ysteresis Output HH H OutptLue 5 42 5 11 Preventing Output Chattering i Hysteresis is set using the following parameter Ta Parameter Setvalue Meaning of set value HYS Hysteresis 0 to 9 999 Line 5h al al The decimal point depends on the decimal point position setting Parameter Setting Procedure A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level Displays L ui 3 s min et is displayed on the level bank display to indicate the initial setting level Le CT Papa n to anu Gol B Press the cel MODE Key several times to change the PV display e This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash the A UP and gt SHIFT Keys to set the password D Us e 55 Press the kel MODE Key to move to the advanced of function setting level e LE is displayed on the level bank display to indicate the advanced function setting level Hue sel E Press the cel MODE Key several times to chang
146. r to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt 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 0 165 Press the cel 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 SHIFT Key to make the SV display flash 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 T1 z ci n re a3 p Ss n G Press the cel MODE Key to switch to the next parameter and execute initialization e The set value Is registered H Press the _ LEVEL Key for at least 1 s to return to the initial setting level Press the L_ LEVEL Key for at least 1s to return to RUN level If this operation is performed all parameters return to the initial settings and current settings are lost Itis 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 83 Section 5 Functions and Operations 5 34 Limiting Key Operations Protect level er Fa RJ PSG The key protect function limits level and parameter changes using
147. registered F Press the SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash EAS G Use the A UP Key to change the set value T H Press the cel MODE Key to switch to the next parameter e The set value Is registered ra I Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min fa p D a Ee Nn 5 D 35 CiS 5 62 5 22 Holding Measurement Values E 5 22 Holding Measurement Values Input adjustment level F Cy This function holds measurement values in the event of a power interruption You can specify that measurement values be held or not held This function can be used to control fluctuations in the measurement value even if the device momentarily stops Measurement value A Hold Recover OFF ON Holds values even in overflow or no measurement status Holds values even if a software reset is performed by key operations or communications The interruption memory cannot be accessed if the startup compensation timer is enabled when the power Is turned ON When the interruption memory is enabled maximum and minimum values are also held when there is a power interruption This is also possible for the K3HB R P Use the following parameter to set the interruption memory parameter Parameter Set value Meaning of set value Interruption memory Interruption memory AERO enabled
148. s No contact N O NC a RAR Standard output r EES Measurement value Contact NO NC Yee Zone output level output MM PT Comparative set value LL el PS AX mzz AMOV MAX MIN protect 0 to 99999 Prescale AX PU tet Move to advanced 0 to 2 1s min 0 0000 to 9 9999 function setting level PS AY 19 999 to 99 999 z m Prescale AY Adjustment level s max 9 to 9 BANK Bank 0to7 Displayed when bank This is not displayed in the factory default state ce selection bnt is Change the setting level protection to 0 et to KEY CMWT Communications write OFF ON Displayed only for p eer LEVEL assword LEVEL Communications Units 1s min 0169 1s max Parameter Display Output test level LEC TEST Test input OFF AGE 0 to 99 999 __ Always displayed regardless of model or settings Te CEVA EE OFF ON __ Displayed only for certain models or settings PASS PASS output change LL LEVEL f L PASS H HH ERR 15 max Displayed only for Press the LJ LEVEL key for at least 1 s from Canmuricahons Communications any display except for the protect level to O Ore a ire setting level Units return to the first parameter in the RUN or 1 999 ms U NO Communications Unit No 0 to 99 BPS Baud rate initial setting level SHOT Shot output 0 to 1 999 ms
149. s and makes settings Adjustment a such as communications write settings Makes initial settings such as the input Executed Initial setting type scaling and comparative output patterns Input adjustment Adjusts inputs Enables disables comparative set value Display displays and sets the display refresh adjustment periods display color and position meter 7a D a Ee Nn k D 35 LL Sets the prescale bank Comparative set Makes comparative set value bank Stopped value settings Linear output Sets the linear output Communications Sets the baud rate data length and setting other communications settings Ouisubiect Sets test measurement values to p perform output tests Advanced Used for advanced customization function settings 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 display Protect level Linear output level Communications setting level Output test level Advanced function setting level i U U L Le L3 i LS Le LI oa T1 O cr DN rev gt sas ra o p Ss Tp 5 3 wm So p D a sa WN 6S LLU E Section 5 Functions and Operations E Moving between Levels 3s min Measureme
150. s lists XI Settings Data Notation The letters of the alphabet in settings data are displayed as shown below SOLO Applicable Model Notation The following symbols are used to indicate the applicable models for specific functions PR K3HB ROD OOC fJ K3HB POO OO0 fC K3HB COO O00 XII Contents l CONTENTS Section 1 Outline 1 1 Main Functions and Features of the K3HB 2 2 0 ne 1 2 1 2 Component Names and Functions of the K3HB R P 0 0 0 0c eae 1 5 1 3 Component Names and Functions of the K3HB C 0 0 eee 1 6 LA internal Block Disrann 4 ccs eae de tacos Gh bk Sete RG td ie Lach ee a SE l 7 Section 2 Preparations 2At Moun Mi rsono RERE EE ea Re aR EE a E E EE 2 2 Zo A WO ce na tana tee ee as aa e a ae E E N E 2 4 Section 3 Basic Application Methods 3 41 Monitoring Roller Speed K3HB R in Ge xe So xs Ss AWS ae PE ADE EAS Dae 3 2 3 2 Monitoring Conveyor Speed Difference K3HB R 0 0 0 eee 3 4 3 3 Monitoring Conveyor Line Passing Time K3HB R 0 0 eee ee 3 7 3 4 Measuring the Operation Time of a Press KSHB P 0 0 0 0 eee 3 9 3 5 Measuring Workpiece Passing Time between Points A and B K3HB P 3 11 3 6 Measuring the Feed Length of a Sheet KBHB C 0 0 0 0 ccc ee 3 13 3 7 Counting the Number of Workpieces K3HB C 0 0 0 0 0c eee 3 15 Section 4 Initial Setup 4 1 Initial Setup E
151. s with DeviceNet communications The enclosed crimp terminals are for Thin Cable 4 Depends on the model Specifications E E Characteristics K3HB R Measurementaccuracy Functions F1 F6 0 006 rdg 1 digit for voltage pulse open collector sensors at 23 5 C Functions F2 to F5 0 02 rdg 1 digit for voltage pulse open collector sensors Measurement range Functions F1 to F6 0 5 mHz to 50 kHz for voltage pulse open collector sensors Input signals No voltage contact 30 Hz max with ON OFF pulse width of 15 ms min Voltage pulse 50 KHz max with ON OFF pulse width of 9 us min ON voltage 4 5 to 30 V OFF voltage 30 to 2 V input impedance 10 kQ Open collector 50 KHz max with ON OFF pulse width of 9 us min Connectable sensors ON residual voltage 3 V max OFF leakage current 1 5 mA max Load current Must have a switching capacity of 20 mA or higher Must be able to properly switch load currents of 5 mA or less Comparative output re Functions F1 to F6 100 ms max time until the comparative output is made when there is a forced sponse time transistor sudden change in the input signal from 15 to 95 or 95 to 15 output Linear output response Functions F1 to F6 110 ms max time until the final analog output value is reached when there is a time forced sudden change in the input signal from 15 to 95 or 95 to 15 Insulation resistance 20 MQ min at 500 VDC Dielectric strength 2 300 VAC for
152. shot output time SH to 0 to use the OFF delay aff d a If set to anything else aFF a OFF delay will be disabled H Press the cel MODE Key to switch to the next parameter e The set value Is registered I Press the L_ LEVEL Key for at least 1s to return to the initial ra setting level 1s min 1s min J Press the L_ LEVEL Key for atleast 1s to return to RUN level Remarks 5 13 Delaying Output OFF Timing P 5 46 5 4 UI E Section 5 Functions and Operations 5 13 Delaying Output OFF Timing Advanced function setting level fl PE Rg UE Ty The output OFF delay function delays the OFF timing for comparative results The shot output Sat is given priority over the OFF delay aFF a 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
153. siderations SUITABILITY FOR USE OMRON shall not be responsible for conformity with any standards codes or regulations that 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 ENSURI
154. splay flash e The setting can be changed when the SV display starts to flash A E Use the Al UP and SHIFT Keys to change the set value fa F Press the cel MODE Key to switch to the next parameter e The set value Is registered ra G Press the _ LEVEL Key for at least 1 s to return to the RUN level 1s min fa p B e ge fa 5 S LL 5 32 5 7 Resetting Measurements 5 7 Resetting Measurements T Y R m 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 lay t 3 w i o Pe Max gt e a value 7 OO 3 3 4 i l i e p Min value S A a ajat Measurement value Comparative set value HH H Comparative set value LL L oi No m asurement status RESET input Output HH H E Output LL L lc y e The display during RESET inputis and all outputs are OFF a HOLD and TIMING inputs are accepted but measurement is a disabled during RESET input g A 5 8 Not Performing Measurements for Set Intervals P 5 34 5 33 E Section 5 Functions and Operations 5 8 Not Performing Measurements for Set Intervals Advanced function setting lev
155. t Values pssi eprore aed ia BR Gee ee ek 5 82 5295 Amitializine All Seu S rensat s Minar ew dud waa ete a dr eB ohh Wie Sire ede tears ae 5 83 5154 Tomine Key Operalons cnire s came d Redo See eee See A See Pus eyes eee 28 5 84 Section 6 Troubleshooting GL Eror Displays seo cet shat ee anne hae aah a ee EOE de ee ee 6 2 6 2 Countermeasures 0 ccc ce eee ete eee eee e eee e eee eee eeneees 6 3 Appendices PEC IMCALOMS 2 2 eit obs Ge ae ee tue hae sake cet Oe aa os oe ae te ate Oe e eae A 2 Mode DIN UIMIDEE STUC aperia erene eat hea ae een adh bre hoe 6 ere ee ee A 7 Parameter Lee naa bashers Gk hh Gee ets A ai oes ks Sea a nesses A 8 Parameter Display Condit iONS ersada d a dete cease ace a aca dew hack we Sh de dels A 17 PAMOU tl ARAN LCLGS shore te As fai a hee Gate Be de ees ect bea Rao E A 23 NO Measurement orsa abo ae 4 08 Skee Seen dew ae OO oe eee Coe eee A 29 Porecasted ycle Caleulauons coisas det ew seta widen oot ween es ease ebaand bee A 30 CONTENTS 2 Section 1 Outline 1 1 Main Functions and Features of the K3HB ceeeeeeeeeesseeeees 1 2 1 2 Component Names and Functions of the K3HB R P 006 1 5 1 3 Component Names and Functions of the K3HB C 0 1 6 1 4 Internal Block Diagram iicississsisinvanseasuidernensanssunstnianadssvavennmannesaies 1 7 1 1 E Section 1 Outline 1 1 Main Functions and Features of the K3HB Measurement Functions of the K3HB R Functions
156. ting can be changed when the SV display starts to flash E Section 5 Functions and Operations N G Use the A UP Key to change the set value T H Press the ce MODE Key to switch to the next parameter The set value is registered F I Press the _ LEVEL Key for at least 1 s to return to the initial se m setting level 1s min J Press the L_ LEVEL Key for at least 1 s to return to RUN level 1s min Nn p B a z fa 5S LL 5 54 5 18 No Output before PASS Range E 5 18 No Output before PASS Range Advanced function setting level mg hg a 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 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 GFF Disabled Parameter Setting Procedure 3 F A Press the C LEVEL Key for at least 3 s in RUN level to moveto f4 m the initial setting level S Displays L 8 ao mn fis displayed on the level bank display to indicate the initial ai setting level B B P eS the ce MODE Key several times to change the PV display to Aadu e This parameter is not displayed for th
157. tive set value Sur tat 19999 to 99999 45555 to 5555 99999 Conforms to decimal 14 point position Ez EX Lo Lo Lo Lo Lo he Oo Oo Oo oO Comparative set value Su lod 19999 to 99999 45555 to 5555 99999 Conforms to decimal 13 point position Comparative set value Su tad 19999 to 99999 45555 to 5555 99999 Conforms to decimal 12 point position ui 19999 to 99999 45555 to 5555 99999 Conforms to decimal 11 point position Comparative set value udan 19999 to 99999 45555 to 5555 99999 Conforms to decimal 25 point position Comparative set value Sucat 19999 to 99999 43555 to 55555 99999 Conforms to decimal 24 point position Comparative set value udad 19999 to 99999 45555 to 5555 99999 Conforms to decimal 23 point position W Q amp e C Q Q ol lt O O 3 T D rat cr lt a gt Ww a gt D lt v Z ap wm J A 14 Parameter List a ep A Compara Comparative set value Seene 19999 to 99999 to 99999 to ae ao 39993 Conforms to decimal to decimal tive set 22 point position value dis GGG L OOGO play Comparative set value we 19999 to 99999 cel to 3 99999 Conforms to decimal 21 point position Comparative set value uah 19999 to 99999 43555 to 555559 99999 Conforms to decimal 35 point position Comparative set value Suda 19999 to 99999 45555 to 55555 99999 Conforms to decimal EU 34 point position Comparative set value uial 19999 to 99999 43555 to 55555 99999
158. to 99999 Comparative output re 1 ms max Transistor output 10 ms max Relay contact output sponse time time until the comparative output is made when there is a forced sudden change in the input signal from 15 to 95 or 95 to 15 Linear output response 10 ms max time until the final analog output value is reached when there is a forced sudden change time in the input signal from 15 to 95 or 95 to 15 Insulation resistance 20 MQ min at 500 VDC Dielectric 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 with 1 ns rising edge and pulse width of 1 us 100 ns Vibration resistance Frequency 10 to 55 Hz Acceleration 50 m s 10 sweeps of 5 min each in X Y and Z directions Shock resistance 150 m s 100 m s for relay outputs 3 times each in 3 axes 6 directions Weight Approx 300 g Base Unit only Degree of Frontpanel Conforms to NEMA 4X for indoor use equivalent to IP 66 celia P20 IP00 finger protection VDE0106 100 Memory protection EEPROM non volatile memory Number of rewrites 100 000 Applicable standards UL61010C 1 CSA C22 2 No 1010 1 evaluated by UL EN61010 1 IEC61010 1 Pollution degree 2 Overvoltage category II EN61326 199
159. to give the actual output time For relay outputs 11 ms max e For transistor outputs 1 ms max wm So p D a sa WN 6S LL 5 44 5 12 Outputting for a Set Interval E Parameter Setting Procedure A Press the _ LEVEL Key for atleast 3 s in RUN level to move to the initial setting level Displays L amp 3 s min 0 is displayed on the level bank display to indicate the initial setting level r Le B Press the cel MODE Key several times to change the PV display uZ n to anu e This parameter is not displayed for the initial status due to setting level protect Refer to 5 34 Limiting Key Operations P 5 84 for information on removing setting level protect C Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash D Use the A UP and SHIFT Keys to set the password u i6S Press the cel 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 cel MODE Key several times to change the PV display ampere tO anat F Press the gt SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to gt y A I y flash A G Use the A UP and SHIFT Keys to change the set value s g 2 Set the
160. tting level Displays L i 3 s min LO is displayed on the level bank display to indicate the initial setting level __ B Press the L LEVEL Key several times to move to the display m sk el level Le is displayed on the level bank display to indicate the dep adjustment level T1 a ci n rev gt 3 p Ss n ol C Press the l MODE Key to change the PV display to gt D Press the SHIFT Key to make the SV display flash The setting can be changed when the SV display starts to flash Al E Use the Al UP Key to change the set value 5 69 E Section 5 Functions and Operations q F Press the ce MODE Key to switch to the next parameter e The set value is registered ma G Press the _ LEVEL Key for at least 1 s to return to RUN level 1s min Remarks 5 29 Performing Output Tests gt P 5 74 Ta p B gS Ta D 5 LL 5 70 5 27 Using the Position Meter E 5 27 Using the Position Meter Display adjustment level m Mff RJ Py Gs 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 p
161. ure that the terminal cover is installed before using the product Always provide protective circuits in the network Without 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 Il Ill and IV for K3HB R K3HB P and K3HB C 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 pro
162. ut turns ON OFF CMW Turns ON when communications writing is ON enabled and OFF when communications writing is OFF prohibited SV display status T Turns ON when a parameter for which teaching can be performed is indicators displayed 5 4 3 2 or 1 Turns ON when the comparative values 5 4 3 2 or 1 Is displayed in the RUN level 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 the level MODE Key Used to switch the displayed parameter 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 teaching 1 6 1 4 Internal Block Diagram E 1 4 Internal Block Diagram lt Waveform shaping circuit Pulse input C i i I EEPROM lt gt r Drive Transistor circuit output O Event input C q Waveform Drive shaping circuit circuit Relay output T a Tae SR RC Cen REISS EEO Linear output r Dive oe E DeviceNet circuit circuit N Drive pi Communi Sensor power a i cations Communications supply circuit SK diver Power supply 1 7 E Section 1 Outline 1 8 Section 2 Preparations ZX MOI siaaa EE AEA DP GING T e A E 2 2 2 4 amen
163. ve A Bank selection set value HH OFF is the 0 to 7 value between 0 and 7 set for the comparative set value bank When the Out put Unit is lt CPA gt change in PASS output HH Comparative H Bank selection set value H OFF is the 0 to 7 value between 0 and 7 set for the comparative set value bank When the Out put Unit is lt CPA gt change in PASS output H Comparative D Bank selection set value L OFF is the 0 to 7 value between 0 and 7 set for the comparative set value bank When the Out put Unit is lt CPA gt change in PASS output L Comparative Bank selection set value LL OFF is the 0 to 7 value between 0 and 7 set for the comparative set value bank When the Out put Unit is lt CPA gt change in PASS output LL Bank copy rary Bank selection OFF When the Out put Unit is lt CPA gt change in PASS output PASS orERR Linear ol current output ol Linear voltage u type Linear output LEE H upper limit Linear output LSEE L lower limit Commu Communica nica tions unit No tions settings Baudrate eP5 J J TT T T Te f f y O Co tions data length Communica Shee tions stop bits Communica Porky tions parity Communica Sve tions wait time Output Test input beESE test gt O 0 Q AO p 0 A 1 WO VY Q amp xe C Q Q Q lt Appendices Level Parameter Char lt C1 gt
164. vel MAX MIN protect 1s min 7S rescdle Ax 19 999 to 99 999 0 to 2 Measurement value 0 0000 to 9 9999 This is not displayed Comparative set value 1 papa PS AY in the factory default ee 1 g Prescale AY state Change the cq 9 t09 setting level protection to 0 LEVEL Adjustment level 1 s max BANK Bank 0to7 Displayed when bank A selection ie is 4 LEVEL ao LEVEL 15 min 0169 1 s max Displayed only for Communications Unts Advanced function setting LF Output test level level INIT Set value initialization OFF ON Parameter Display TEST i EESE Testinput AFF OFF 19 999 to 99 999 PENEL Displayed only for 1s max ree Communications LE T setting level L Always displayed regardless of model or settings OFF D Output OFF delay 0 to 1 999 ms O Displayed only for certain models or settings SHOT Shot output 0 to 1 999 ms F U NO Press the LJ LEVEL key for atleast 1 s from LI Communications any display except for the protect level to OUT N om je Unit No 0 to 99 return to the first parameter in the RUN or ant deuaaal LPG BPS Baud rate initial setting level mary BNK C Bank selection 38 4 kbps OFF KEY EV ke LEN I7 3 LEN Data length 7 or 8 bits z SBIT Chek Sap fLIK Stop bits 2 1 or 2 bits S cet PRTY of 6S Gea EwEn N
165. veral times to change the PV display f n to th ha Ta Ta F Press the gt SHIFT Key to make the SV display flash e The setting can be changed when the SV display starts to flash N G Use the A UP Key to change the set value ql H Press the ce MODE Key to switch to the next parameter e The set value is registered Wm So p D a sa WN D LLU ma I Press the _ LEVEL Key for at least 1 s to return to RUN level B lights to indicate that the banks are enabled B lights 1s min 5 76 5 30 Using Prescale Comparative Set Value Banks E E 2 Setting Prescale Values for Each Bank Use the following parameter to set the prescale values Parameter Setvalue Meaning of set value oo hpt Prescale value X Po N Ae Input A Prescale value Y Pos f ppl Input B Prescale value X PS I a Input B Input A Input A prescale value value mantissa Input A prescale value exponent Input B prescale value mantissa Input B prescale value Prescale value Y exponent Poan PS BX Bank number to Parameter Setvalue Meaning of set value aaaoa No decimal point One digit below the decimal point is displayed Two digits below the decimal Decimal point position APs point are displayed Three digits below the decimal point are displayed Four digits below the decimal point are displayed x Bank number
166. xample for the K3HB R 0 0 cee ee ees 4 2 4 2 Initial Setup Example for the K3HB P 0 cee eens 4 4 4 3 Initial Setup Example for the K3HB Cs3 oiscbcesis Hib HE 4 ESOS 4 OS Ek HoH 4 6 Section 5 Functions and Operations Section SKnowledge Required for Setting Parameters 20 0 00 cece eee 5 2 5 1 Setting the Function for the K3HB R 2 eens 5 9 52 Setting the Function tor the K3HB P 2 i4 2 6 0c0 wiawddeaweniawsdtewkeniagddaasd 5 16 5 3 Setting the Function for the KGOH BC tet ss oo ee ee ok oe Oe She we oo 5 23 JA SeN put ly pes hed es cl ca ta bs de whem sae oe tee eee 5 27 Hi SemS Prestale Vacs 45m tus Can eed Ee a weed an oa eae ec aa AOR eee we ex 5 28 JO setting the Auto 2e10 Mes Acc ag tls cede Gae hte ceha weet eet Awe esaebew sas tes 5 31 5357 Resetting Measurements c 1 ican ae parea ee E eae Jan hd eda eee ae 5 33 5 8 Not Performing Measurements for Set Intervals 0 0 0 0 eee eee 5 34 Oe SAVETASINe TOPU 44 24 Grae Shade a Rane ades Mae sede e ee ee eee eae eee eae 5 36 5 10 Changing Comparative Output Patterns nassaan ccc ees 5 39 5 11 Preventing Output Chatter ne nc 224 12 eo bb hor ee hea edd oe oy sd ee ed 5 42 5 12 Outputtine fora Set Interval serere an wake ea ne ead dese saw bel Gaw eee eee as 5 44 5 13 Delaying Output OFF Timing dx 2 4 4 0045 Ged tar ewed r ee ered 5 46 SAA Holding Measurement Status 3 5 4 osc2 naa E E a er E ha een ees 5 48
167. y several times 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 33 Initializing All Settings P 5 83 for information on clearing all settings Refer to Section 5 Functions and Operations for details on setting parameters 4 7 cr v T D E Section 4 Initial Setup Q p Q T B 4 8 Section 5 Functions and Operations Knowledge Required for Setting ParaMeters cccccccssesseeseeeeseeeees 5 2 5 1 Setting the Function for the K3HB R ccccccsssseseeeeeeeeseeeeeeeess 5 9 5 2 Setting the Function for the K3HB P ccccccssssseeseeeeeseeeeeeeeees 5 16 5 3 Setting the Function for the K3HB C cccccccceseeseeeeeeseseeeseeeees 5 23 Oe SEUNG INDUC TY DCS sariedcrctioveccseckonsteorndensirianed icieh danecioneslawiiaccwnsies 5 27 5 5 Setting Prescale Values sessssssssrsrrrsrsressssrrrrrrrrrrrenssssrrrrrrrreree 5 28 5 6 Setting the Auto zero TIME cccccccccscsssseeeeceeeceeneeeeeeesesneesseeess 5 31 5 7 Resetting Measurements ssssssssrssrseeenesssssrrrrrrrerrnsessrrrrrrreeree 5 33 5 8 Not Performing Measurements for Set Intervals ee 5 34 5 9 Averaging INpUt eseesesssrrrrrrsresessssrrrrrrrrrrrnnsrssrnrrrrrrereesernrrrrrrrree 5 36 5 10 Changing Comparative Output Patterns
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