ABSOLUTE ID-C112R 演算形デジマチックインジケータ ABSOLUTE ID
Contents
1. 23 1 d ila aogug aes lS ied 4 11 1 o 1 4 Pind Signal VO 4 pater a uci 1 GND i i 3 41 CK O m iw raa 80 10 ma ee sal Rea Sq em Ci P Gi acs canteen Decimal point 6 os aa eS connected 5 spon gt iia 000o 1000kn 8 lt T1 lt 25ms 150 lt T2 lt 180s 180 lt T3 lt 500s 150 lt T4 lt 180s TS It depends on the capacity of the data processing device HOLD 6 d E 5 oC soon F w MEKA XXXE J B 2 oa J 2 65 P W008 ol Err E E afn 7 Specifications 7 1 Specification of the Main Unit Model name 1D C112RB_ 1D Ci12RMB 1D C112REB Code No T 543 2858 543 2868 543 2878 Resolution 2 Timm T 00 imm0 000057 Measuring range 12 7mm 0 57 Accuracy 3 0 003mm 0 00012 or Tess Standards 4 150 R463 JIS B7503 MET DIN 878 ANSI B89 1 10 AGD Gruop2 Stem diameter 8mm 9 52mm 3 8 DIA Contact point Carbide SR1 5 M2 5x0 45 Steel 4 48UNF Protection level 5 type confirming to IP 42 Protection from foreign substances water proof Measuring force 1 5N 15091 or less Power supply Silver oxide cell SR 44 x 1pc Battery life T2 months under normal use Measurement frequency 6 10 tmesisec Measuring direction Useful in2. Timing Chart IMPORTANT Read the manual of the data processing device thoroughly before outputting data for proper operation Data output may be disabled if an output request REQ is received while the spindle is in motion or if REQ are made at short intervals during a continuous data output 4 11 2 Data Hold Data hold can be performed if this indicator is not connected with data processor However if data hold is performed during displacement of the spindle there is a possibility that a correct value is not held 1 Press HOLD key shortly to hold the data with H displayed at the upper left corner of the indicator while the data to be held is displayed 2 Press HOLD key shortly again to release the hold 5 Simple Inspection Mode In this mode the indicator can display a same value for a spindle shift quantity while retaining the current settings in memory Use this mode when performing accuracy inspection and calibration of the indicator alone 1 Remove and set the battery at once The indicator displays as in the figure 3 1 b 2 Hold down MODE key then press TOL and PRESET SET keys at same time The indicator enters the Simple Inspection mode then displayed C and lt gt at the upper LCD set the resolution is 0 001mm 0 00005 and arithmetic coefficients is A 1 B C 0 3 This mode can do Zero set and Data output Zero set Press the ZERO ABS key Data output Input the Output Request
3. at Reference gage b Upper limit c Lower limit 4 8 2 MODE 4 8 o ago Spindle displacement a enin Spindle displacement 5 RODNI 43 00000000000 oooggggocooo00000000000000000 000000 0000000000000 fF A80 C1900 O000000000000000000000000000000000000000 Oooogoggogogoooo000o000000 CET EO OE UU ELE ee OOOOOO00O0000000000000000000000000 oooggogogogo00000000000000000 2 Q0000000000000000000 0000 00 AMODEN 0000000020000 zeRo ss 00000000000000 000000OCOOCOOOOCO0O0O0000 2 DOOOOOOOOOO0OO00000000000 000000000000 3 DOOOOOOOODOODO00D00000000000000000000000000000000000000 og 0 DOOOOODOODOOODOO0DO000006 O0 0000000000000 D00000000000000000000000 OOOODCOOOOODO000000000000000000000000000000000 O 0000000O0000000000 OFFOO00000000000000000000000000000000000000000000 O OOOODOOODODOODOOODD0DO0D0000000000000000000000000000000000000000000 og OQOOCONCODOOODD0000000000000000000000000000000000000000 44000000000 0 0000000000000000000000 0 OOOODOOCCOOODOODODO0D000000000000000000000000 8000000000000000000000 000000OOOOOCOOOCO0OCO0C0CO00O000 0 0000000OOCO0OCOCOCOOOCOCOOOCOOOOOOCOOOCOOO0CO000O00000000 0 Oo0000000000000000000 0 122 000mmg 000000000 1 PRESETOOOOOOGOGOO0000 P o000000000000 2 00000000000 OPREseTM OOOOoOoOOooooooo0000000 3 00000000000000000000 P 000000000000000 fPReseTOOOoOooooo0 4 PRESETOO0000000 P oo000000000000000000 og 0 0000000000000
4. Check and set the upper lower limit for tolerance judgment and switching to the tolerance judg ment The tolerances are cleared if the resolution or coefficient settings are changed Set toler ances again if necessary Switching 3 measurement modes to either Normal mode Minimum Min Hold mode Select the unit systems 4 7 Setting the Tolerance 4 8 Switching the Modes Maximum Max Hold mode or 4 9 Switching the Unit System 3 Measurement Sub functions 4 10 Function Lock 4 11 Data output Data hold NOTE As measurement examples of typical applications the arithmetic coefficients origin setup position and preset position are shown in another sheet Appendix Make the most of those examples Press and hold 4 sec or 6 sec or more Restrict key operations to prevent miss operation Perform data output to data processor or holding the data Three ways of processing key are used in the following illustration pos Press shortly under 2 sec Press and hold 2 sec or more 4 2 Setting the Resolution and Arithmetic Coefficient This indicator is a special gage that performs internal calculation using formula f x Ax B Cx 1 assuming a spindle displacement as x Any numeric value can be set for coefficients A B and C of each term in the formula Also it is possible to switch the resolution of calculated result display values to either of 12 stepped resolutions The r
5. D 000000000AMOEN00000000 000 Ma 00000000000 Mmx0000000000000 2 Q0000000000000000000000000 m 0000000000000000000 a SET OOOOCO00 Me DOOOOCOOOODOOOOoOooDoooonooooooooooooooooooooooooO e oom Mxmoooooooo 00000000000000000000000 4 monooooooooooooongooooooooooo0a 5 00000000000000000000000000000000000000000 og 000000000000000000000 HEEM IEM 00 S S a 0 00000000000 ZEROABSO0O0000000O0000000000000000000000000000000 7 00000C 0000000000000000000000000000000000000000000000000000000000 a123 a123 0D0000000000000000000000O00000000000000000000000000000000000 HON 00 0000000000000000000000000000000 4 11 1 48 3 0 000 Ming0000000 1 00000000000000000000000000000000014m00000000000000000000000000000 00000M amp x00000000 000 OMOvED DOOOOOOOOOG Min00000000000 Ming oooooooooooo OOOCOOO0OM MxM ooooocdoo0o000000 e00M Ming oooooooo 4 000000000000000000000000 EA Max Min 1 00000000 0000000000000000 80000 30000 7 GND oo o H a H b H c Bd Oo o 7 a b c d 27 DATA 00000 0000 5 000 5 000 7 10 000 fN 0 000 00000 O lt gt O s GK max 000 0 000 7 5 000 7 10 000 max 000 Oo gt at aD f ES Ming OO 0 000 N 5 000 Ming 0o 0 lt 49000000 00000rm0000000000000000000000000000000000000000000000000 0me000 0 ON OFF 00 4sec0 000000 5 20100 og Gemeen LER 9 pooooo00000000000000 OFF00000000000 7 eer 12 0 DOOOOOOOOO0000000 000000000000 DTAS Say OOP goatee O mmo gooooooooo000000000000000000000 6 PA 4100000000000 a auch wake 00000000
6. REQ to the indicator from an external device 4 Remove the battery to release this mode 5 To perform measurement set up the indicator refer to 3 Setup The resolution and the arithmetic coefficient is setting to before entering this mode after setup After setup IMPORTANT Entering the simple inspection mode will clear the Origin point Preset value INC measuring system Tolerance judgment display and Peak values max and min values hold Mode However set value will be retained Refer to the figures described in the left COES 6 Error message and Corrective measures 1 Voltage drop Voltage of the battery has dropped Replace the battery 2 Contamination detection error There are condensation in the detector unit due to temperature difference or contamination by some other cause Turn the power off and leave it for approximately 2 hours for thermal stabilization Should it still fail to resume normal operation the instrument requires repair service Please contact Mitutoyo Office 1 Calculation factor value is inappropriate Check the setting value and set it again 2 Tolerance limit is set with the upper limit being smaller than the lower limit Set it so that the upper limit is greater than the lower A temporary error that occurs when the spindle is moved too fast Continue to measure since this error does not imply measurement error Preset value is improper Check the set value and set
7. SET key once to enter a numeric value 7 Repeat pressing the SET key shortly until the desired numeric value is displayed 8 The sign changes in the order of to and the numeric value changes in the order of 0 1 2 9 Repeat steps 6 and 7 and set coefficients at other digits in the same way During setup of coefficient A only the A digit lights up at the upper left corner of the LCD While A is blinking after the setup press the SET key shortly then the B digit starts blinking at the upper left corner and the most recently set value of coefficient B is displayed 11 In the same way used for coefficient A set coefficient B and then coefficient C 12 While C is blinking after the coefficient C setup press the SET key shortly The measurement value using the new coefficients is displayed Also if the arithmetic coefficients are set to other than A 1 B C 0 Ax B Cx 1 is displayed with it kept lit at the upper left corner on the LCD IMPORTANT Set value will be retained if the battery is replaced and the power OFF If the power is turned OFF then ON during the resolution and arithmetic coefficients setting the set value is cleared and it restores the state before setting These setup procedures cannot be performed unless the INC measurement Tolerance judgment or Peak hold measurement is released Since the measurement value displayed after completing the setup varies depending o
8. 32sec Switching into ABS system FAES System and ING Syston 13 TOL lt 2sec Torelance setup tolerance judgment release 4 7 Setting the Tolerance ETA Presetting 4 4 Setting the Preset Value 14 PRESET SET 4 5 Calling the Preset Value lt 2sec Releasing the peak hold pe Data output When the data processing unit is connected ica Dela onipo DAA hana 15 DATA HOLD Data hold When the data processing unit is disconnected gt 2sec Function lock lt Release 4 10 Function Lock key lock function gt 2sec Switching the measuring mode 4 8 Switching the Mode 16 MODE PRESET SET Resolution arithmetic coefficient setup 4 2 Setting the Resolution and Arithmetic Coefficient ZERO ABS Origin point setup calculation reference position setup 4 3 Setting the Origin Point 3 Setup 3 1 Battery Replacement Set a silver oxide battery SR 44 with the positive side facing front 1 Remove the battery cap by turning it counterclockwise arrow direction with a coin set in the groove Then replace the battery by new one 2 Secure the battery cap by turning it clockwise Be careful not to allow the seal to protrude 3 Immediately after the battery is set or replaced the indicator displays the message as shown in the figure 3 1 b The indicator enters the count mode Normal mode hold down MODE key then press ZERO ABS key shortly at once NOTE The supplied battery is separately packed for shipping Load the battery before using t
9. Ax B Cx 1 becomes 0 If the origin point is not properly set a correct value may not be displayed depending on the set arithmetic coefficients 4 4 Setting the Preset value Preset uses mastering 4 If the resolution or arithmetic coefficients settings are changed the preset value is cleared Set a preset value again if necessary 4 1 Battery Replacement v Measuring Flowchart Setting the Origin Point m initial Setup a 42 Setting the Resolution and Arithmetic Coefficient H 1 43 Setting the Origin Point i je 44 Seting the Preset Value i 1 45 Caling the Preset Value i Function Selection 4 6 ABS and INC system 1 1 47 Setting the Tolerance 48 Switching the Mode f je 49 Switching the Unit System i Measurement Power on Measurement Sub functions i 10 Furion Lock ey odcfurcton Saa for 4 2 SEC RST 10 Rosso OL peo eo woos renion el oj al a a awd broo leanann OBS OBE a AaB n gop hakogogan SET ABC za ast gt i 4 5 Calling the the Preset Value 2 Function selection 4 6 ABS System and INC System Call the preset value that has been set according to 4 4 Setting of Preset value Select the ABS system for absolute measurement or the INC system for comparative measure ment
10. C 0 switching to INC system is possible but zero setting cannot be performed while the E oF is displayed 4 7 Setting the Tolerance Check and set the upper lower limit for tolerance judgment The upper lower limits can be set in ABS and INC system respectively The upper lower limits can not be set separately in each measurement mode Ex Setting 10 200mm for upper limit and 9 800mm for lower limit 1 In each mode press the TOL key shortly then y gt blinks and the most recently set upper limit value is displayed 2 Set the upper limit in the same way as for setting the arithmetic coefficient 3 After setting the upper limit y gt will blink press TOL key shortly confirm the lower limit the previous lower limit is displayed and lt q begins to blink 4 Set the lower limit in the same way as that for the upper limit 5 After setting the lower limit return the state where the lt q symbol is blinking 6 Be sure that the upper lower limits are set correctly press the TOL key shortly to start the tolerance judgment display If the upper limit is less then the lower limit E SE tolerance error display is displayed Press the TOL key shortly set in the procedure from step 2 7 If the TOL key is pressed while the tolerance judgment is displayed the tolerance judgment display is released IMPORTANT Set value will be retained if the bat
11. mode the mode is changed in the order of Normal mode Maximum Value Max Hold mode Minimum Value Min Hold mode and Normal mode In each mode tolerance judgment can be performed with respect to the tolerances that have been set Tolerance judgment in each measurement mode Normal mode performs tolerance judgment on the current value Maximum value MAX hold mod erforms tolerance judgment on the Max value Minimum value MIN hold mode performs tolerance judgment on the Min value 4 8 1 Normal mode Itis used for normal measurement This indicator enters the Normal mode immediately after the battery is loaded replaced Hold down the MODE key in the Minimum Value Min hold mode The instrument enters the Normal mode Normal mode Tolerance judgment It is used for tolerance judgment on the current value in normal counting Operate the TOL key in the Normal count mode to display the tolerance judgment result after completing the tolerance setup 482000 Max 0 00000 00000000000000000000000000000014msd000000000000000m0000000000000
12. 0 05 B 00000 20000000 40 0 001 o1 c 0000050000000 10 0 002 02 0 00000 gDATAHOLON OOOOOOOSETOOOOOOODOOODOOODO00000000000000000000Moven oo i s oD000OO0OCOCOOO0COOOCO0OO0OCOCOO0OO0O00000000 0 005 a 0 5 0 DOOOOOOOODOOODOOODOO0DOO0DOOOO0DO0000000000000000000000000000000000000 0 01 1 OOOOOOODOO0D00000000000000000000000000 OD00O0OOOOOOCOCOOCOOOOOOCOOOOOOOOCOOOOOOOOOOOOOOCOOOOOOOOOOCOO000 NOTE Setup the instrument with the spindle perpendicular to the reference plane or the measured surface If the spindle axis is not perpendicular to the reference plane measured surface measurement errors will result If the instrument is to be secured with a fixture fix it by the stem in a slotted hole of approx 8G7 0 005 to 0 02 or 99 52 0 005 to 0 02 3 5 Mounting of Lifting Lever This instrument can be used with the optional lever Assy 902011 ISO or 902794 AGD attached into the lever mounting tapped hole The lever Assy is packed along with the lever a and the stopper screw b Demount the cap unscrew the screw M2 5 ISO or 4 48UNF AGD at the top of the spindle then mount the stop screw b instead Loosen the lever mount screw 9 and mount the lever a while hanging it on the stop screw b 3 3 3 6 Replacement of Contact Point P Various type of contact points and extension rods optionally available Hold the spindle with pliers protecting it with rags hold the contact point with another pliers an
13. 0 0DATaMOLD000000000000000000000 oD ae 00000 000000 0 GONorrg 0 OSETIO O ADATAMOLOD 00O000000000000000000000000000 iis X 180 lt T3 lt 500us oo00000 x 150 lt T4 lt 180us 0000000 ODATAHOLDD 0000000000000000 feb repoggoogoog 4igoo00 ooo0000 0000000000000000000000000000000000000 4 11 2 5 OOOOOOO000000000000000000000000000000 OoOo000000000000000000000000000000 enng ng 41110 0000 000000000000000000000000000000000000000000000000000000000000000000 0000000000000000000000000000000 6 A D Mm ScCO000000000000000000000 00 0 DP VRO 0 00000 0000000000000000000000 dP ean SE 0DO00000000000000000000000000000000000000000000000000000000000000 A 00000 ron 2 0000000000000000 0 0 DATA 000000000000000000000000000 00000 00 RECO x oe J4 4 XXXE o00000000000000000000 4 000000000 00 5 00000000000 Hoogogooooo Err LJ E of J 6 oo0000000 og 700 00000000000000000000000000000000000000000000__ 710000 0 00000000000000REQA00000000000000000000000000REA000000000000000000 oo 1D C112RB 0000000 Code No 1 543 285B 4120000000 DEt Dorim 00000000000000000000000000000000000000000000000000000000000000000 0000 Imm 0000 Oooo 3 G 003mmf D _ 20 C YQ DOOOOOOOOCOOOOCOOOOOOO GHoLoIn OOOO OOOoDoo0O H 0000000000000000000000 gogg 1S0 R4634 1S B7503DIN 878 2 00000Ho000000000000000000000000 0 9 ooo 0 0 SR15 0 M2 5x 0 450 5 0000000 Oooo 5 Oooooooo P4200 0000000000000000000000000O0000000000000000000000000000000000000000 000 15N0 0 000000000 oo O00
14. 0 m sRAmg d 000000000000000000000000000 000000000 MOND ___ 0000000 20 2 MODED 0000000 N TOL PRESETISETIO 000000000000000 00 oommo 0 0 0 A 48 c20 00000000 e ERRAN 00 Oo 0000000000000000000 a va wc 3 0000000Zz000000000000000000 aah P oT OZERODO0O O IZERO ABSO 000000000 oA 760g 000000 0 00000000000RE0000000000000 anai EA 4 Q000000000000000000000 5 000000000000000030000000000000000000000000000000000000000000000 00000000000000 ARAG Rann 1g00000000000000000 2000000000000M420000000000000m0 oo 000000 0000000000000000000000000NCOO0C00000O00000000000000000000000000000000 3 MOGOUUGOHUGUOUGOUUGOUUG00 Coononoonoonnononnononnn 5 IEC60529 JIS D0207 C09200 0 0000000000000000 0000000000 600000000 00000000000104 mse000000000000000 000000 O0000000000000000000000000 000000000000 OOOOO00 0 000000000000000000000000000000000000000000000 7200000 000000200000000000000000000000000000000000000000000 O0000mM000 00000 S4 10 S0000 0O0O0000000000000000000000000000 0000000000 lt lt 000000000000000 gt 0000000000000000000 7300000 4 ABSOOOOO 0 DO0O000000000000000000O00000000000000000000000000000000 Order No ao SO000000 0 000000000000000000000000000000000000000 7540774 1000 0000000 C 000000000000000000 02011 000 Assy oo 7905338 m sPCOO OOOO im 00000ABS0OO0O00000O00000I00O0O000000000000000000000000000000000000 000000 05409 M sPCOOOOOO 2m 000000000000000000 Printed in Japan FQAPNE202062 c 10 000 Lower limit 3 000
15. 0000 O OOOOOOD0D0000000000000000000000000000000000000000000000000000 0 OOOOO000000000000000000000000000000000000000000000000000000 00 OOOODCOOODOD00DO00000000000000000000000000000000000 o00000000 00000O0O00C0OCOOCO0OOCOCOCO0OCOO0OOO00O0OC0O0000000 oo 0000000000000000 Oo 00000000000000000000000000000000000 0 OOOODOO000D000000000000000000000000000000000000000000000000000000 a a o a ooo 0000000 000000000000000000000000000000000000000000000000000000 oo 000000000000000000000000000000000000000000000000000000 20000000 0000 mm000000 n000 enop 000000000000000 e000 eooooo0 gon 000000 LcD eoooooo0 en000000 20000000000 goog oo 00000 goog Sues rd Doo ON OFF IONA Eza meoooooo0 49000000 ZERO ABS ies ts aa 4 6ABSQ 0 INCO T TOL ee 10000000000 47000000 4400000000 D preserser 00000 0000000000000000 4500000000000 sec 0000000000 00000000000000000 g paTamoLo 2 0000000000000000 FA Ooo es dooooooo000 00 aig oo o00o000 Sse 0000000 480 000000 D MODE DPRESETSEN 000000000000 420000000000000 OIZ ROABS DONO000000000000000000 4300000000000 3000000 3100000 00000000000S40000000000000000000000 2 OO0000000000000000000000000000000000000000000000000 2 0D0O00000000000000000000000000000000000 3 00000000000 900000000000 MODEN 00 00 00 0 0 IZERO ABSIO000000O0000000000000 0000 oo 0 OOOO0000000000000000000000000000000000000000 O
16. 00000 OFFOo000000000 0000000000000 OFFOOO0 ONDOCO0ONOCOOOO00O0OO0O00O000000000 0 000000O0OCO0OCOCCOOOCCO0OCOC0OOOOO0OOCO00000000 000000O0OOOCO0OOOOOOOOCOOOOO0OOOOOO0O0OOOO0OO0OCO0OOO00O0OO000000 og DATA HOLDI OOO OOOO IPRESETOO0O0O000000000000000000000000000000000000000000 MODEnN OOOO00000000000000000000000000000000 4500000000000 1 PRESETIOOOOOOOGO00000 P o000000000000 2 Q000000000000000000000000000000000000 3 PRESETO0000000000000000000000000 oo OOOODOOOOOO00O00000000000000000000000000000000000000000 00000 C 0000000000 E oF D0000000000000000000000000000 46 ABS INC 0000O0O0O00O0O0000OO00CO00C0O0O0000O0O0 A8S00000000 INCO0O 200000000000 dD O0000000000 AB8S0000000 2 ABSO 00 ZERO ABSID OOOOOOOO INCOOOOO000000 Inc D000000000000000000000 INcoo0 ZERO ABSO 0000000000000000 3 INCO OO IZERO ABSID 0 0 0 0 0 0 00 ABSO O00000 Ne oo0o0000000 og 0000 C 0000000000 E o 00000000000NCO0OOO0O00000O000000000000000 47000000 0000000O0000000000000 0000000ABS00OINCOO0O00OOOOO00OO00000 ooOoo00g00000000000000000000000 210000 10200m 0000 9800mmg 000000 D DOOCdodoTOL INOoOoooooo gt oo0000000000000000000000 2 DOOOOCO0OOO Oro ooogodododdoo00000000 3 OOOO00O p gt 0000000000000000 000000000 lt Oo00000000000000000000000 4 000000000000000000 5 0000000 lt 00000000000000000 6 0000000000000000 nooonnoonnnnooonnonooonornoonnnnonnonnnonnnnn 000000000000000 E se 000000000T
17. 000smT00000000000000000 00 00000000000000000 BOL mEn WOOO OOD ecoooomencoooo SET Ser SET 4 0000000000000000000000000000 40 B0 ce goo A 000000000000000000 A00 i d 0000000 Rar E 7 5 sero ooooo0o000000000000000 2 GOL 5 eR G08 GM GO 000000000000000000ISEm0000000000000000000000000tsen0000000000 SET 7 0000000000000 0sem0000000000000 8 00007 0000 0 152 5 9900000000 ot ro oral 9 00 60 M00000000000000000 7 faf fi 1N00 ADD000000000 A 0000000000000007 A 000000000000000gsenm000000000000 020000 5000 oo 8 0000000000000 800000000000 SET SE Moo Ag00000 800000000000 co0n0000000000 2 1 v ROO COOOOT A000000000000000semT0000000000000000000000000000000000000 Rese j y 0 A B C 00 0000000000000000 Ax0 80 Ce 000000000000 zooo abioan po 8 0o000000OC000000000000 o0F00000000000 pols L 0000000000O0O0000000 OFFOO00 ONnpononnonononnonnnnnonnnnnnnnonnnnnnn R 0 DOOOOINCOOODOOOO0DO0000000000000000000000000000000000000 25000 G58 0 co0000000000000000000000000000000000000000o00000000 SET 000000000000000000000000000 L 0000000000000000 00000000 000mm OON00OO0O0O0x00000000000000000000000000 Enor OOOOOOODOO0D00000000000000000000000000000000000000 025000 0000000000 0 00000 0 0002mr0 0 0 0 0 A 10 B C 00 00 aan ae 00000000000 0 0000 4c 000 OOOogoooO0oO00000000000000000000000 0 000000000000000000000000000 000 0 001mm 00000 A08 00000000 0 OoOooo0oo0o00000000000000 E a oo ooo000 0 0002 0 02 A 00000 20000000 40 0 0005
18. ABSOLUTE ID C122R 0 0000000000000 User s Manual No 99MAH012B1 SERIES No 543 O y 1 76 27 6 3 nj oe o oooonono M25x045 go 2 3 a eae Ss O a 3 1 b 5 or 19 ont ooogg DOOODOCOO00000 200000 fe ArBicelg DOOCOOOOOO00000000000000000000000000 OOOOOO0000000000000000000000000000000000 OOOOOOCOOOO0000000000000000000000000000000000000000000000000000000 OOOOOOOOOOD0000000000000000000000000000000000000000000000000000000 OOOOOOOOOO0D0OO0000000000000000000000000000000000000000000000000000 000000000000 o0000000 A OOOOOCOOOOOO0000000000000000000000000000000000000000000000000 oooogogcooo000o000o0000000000000 0 OOOOO000000000 torqoo00000000000000000000 og 00000000 0000000000000000000000 0000000000000000000000000 000030000000000000000000000000000000000000000 0000O0000OO0O00C0OOO0OCO00O0O00 000OCO00O0O00O0C0O000O00OOOO000000000000 oooogoooooooooo000o00ooo0000000000 OOOOO0COOO00000000000000000000000000000 DQOOOOOOOODO00COOC00000000000000000000000000000000000000000000 OOOOOO0OOOOOD000000000000000000000000000000000000000000000000 00000000000 o000
19. DATA HOLD key at the numeric entry time the moving direction of blinking digit and the 3 0 001 0 00005 9 0 1 0 005 sequence of changing numbers will be reversed Also press the MODE key to return to the status before moving the numeric entry digit 4 0 002 0 0001 10 02 0 01 with the changed entry number left as it is If any setting is changed in this coefficient setup all existing values including the preset value and tolerances are cleared If none of the 5 __ 0 005 0 0002 11 0 5 0 02 settings is changed all existing values are retained 6 0 01 0 0005 12 1 0 05 The origin point setting will not be changed This setup can only be performed by external numeric entry For detailed information contact Mitutoyo sales office or your dealer 4 3 1 MODE x RERS 2 mee 3 or 19 im 000000 id 4 4 4 5 PRESET PRESET 3 fey E eS RG E3 2 epllagoe J 5 0OUD00 4 8 2 14314 2 ee Displays the value of calculation result when x 0 3 ar og on Right after the battery replacement 14 4 14 5 PRESET PRESET Cooooot v bo epai E A kotao gt ka 2008 b y i ii o Ss o 2 a at a S l re l w p EA
20. Do not press the key with a pointed object such as a screwdriver or ball point pen To clean the instrument use a soft cloth soaked in a diluted neutral detergent Do not use any organic solvent thinner or benzene It may deform or damage the instrument The contaminated spindle may cause malfunction Wipe them off with a cloth damped with alcohol NOTE Use the instrument in a temperature controlled room that has minimum temperature fluctuation Allow a sufficient time for both the instrument and workpiece to thermally stabilize before performing measurement 1 Dimensions and Nomenclature Dimensions without unit are in mm A is the symbol for American Gage Design AGD representing the dimensioning meets the ANSI standard for AGD Group 2 indicator Applicable to the model with suffix E 1 Cap 2 Flat back 3 Output connector with a rubber cap 4 Stem 5 Spindle 6 Contact point 7 Battery cap 8 LCD 9 Lever mounting screw 10 Release hole 2 Switches and Functions Switch Condition Function Operation procedure lt 2sec Turning the Power ON OFF gt 4sec mm e Switching to no unit display 11 ON OFF Switching inch metric conversion in mm sar Applicable to the model with suffix M and E 4 9 Switching the Unit System eui inchimm Switching to no unit display Applicable to the model with suffix M and E lt 2sec Zero set ea sl
21. OOOODOO00000000000000000000000000000000000000000000000000000000 0 OOOODOOC0OOOD00O00000000000000000000000000000000000000000000000000 0000000OOO00000O0000000 3200000000 0000000000A00000000 30 08000000000 og 0 ABOOOOOOOO00000000000000000000000000000000000 go oOo0000000000000000000000000000000000 3300000000 000000000 40740 000000000000000 000000000 0 m20 00000000000000000000000000000000 og 0 OOO000000000000000000000000000000000 0 OOOO0000000000000000000000000000000000 0000000OOCO0OOO00OOOOOCO0OOO0O0OO0OO00O0O000000 34000000000000 00000O00CO0COO00OOOOCOCOCOCOO0OOO00O0CO000O00O00 aga 0000000CO0CO0O00OOO00C0O0C0O0O000O0C0O000000 00 0300N0cmp 000000000000000000000000 Mitutoyo Calculation type Digimatic Indicator vo ssmanoizei SERIES No 543 3 3 08 10 005 1 76 276 cy A e 3 i FET A i 2 e i s eta Te S6 R Tl ii 10 10 5 46 5 54 4 16 5 21 2 Ez M2 5x0 45 thread ae 8 3 00 09 52 So 3 8 DIA ISOJJIS type AGD type or No 4 48 thread 3 1 a Introduction
22. This indicator is a special gage that performs internal calculation using formula f x Ax B Cx 1 assuming a spindle displacement as x This indicator is used for wide purpose applications by mounting a variety of fixtures in addition to usage as a dedicated application gage To obtain the highest performance from this instrument and to use it safely read this User s Manual prior to use After reading retain this manual for future reference Specifications of this instrument and information in this manual are subjected to change without notice In the event that the instrument should prove defective in workmanship or material within one year from the date of original purchase for use it will be repaired or replaced at our option free of charge upon its prepaid return to us Please contact Mitutoyo office However the warranty shall not apply if the product fails or is damaged as a result of fair wear and tear including battery drain Warning on Battery If the battery is misused or abused leakage or in extreme cases explosion and or fire can result Observe the following precau tions to avoid instrument failure and malfunction Do not disassemble deform short circuit charge heat the battery to 100 C and over or throw the battery into fire Always insert batteries correctly with regard to polarity and marked on the battery and the equipment Always use the recommended battery If the instrument is not used for more tha
23. all directions Operation temperature 0C to 40 C Storage temperature 10 C t0 60 C Mass of the main unit Approx 0 35 lbs Mass of packages Approx 0 66 Ibs All are shipping specifications at the factory sa Arithmetic Coefficient metic coefficient setting s dard All instruments in this series are of the flat back type 2 Changeable by way of setting Refer to 4 2 Setting the Resolution and A quantizing error is not included Also it varies depending on the arith The stem diameter and contact point parts only conform to the stan Protection level according to IEC60529 JIS D0207 C0920 The level indicated is valid only if the output connector cap is installed be displayed 7 2 Standard Accessories User s Manual Silver oxide cell SR 44 1pc 7 3 Optional Accessories Order No Part Name 540774 _ Release cable 902011 Lifting lever Assy Tor ISO type 902794 Lifting lever Assy for AGD type 905338__ Connecting cable 1m 905409__ Connecting cable 2m Ifthe spindle speed exceeds 10um sec the correct peak value may not 4 8 2 Maximum Value Max Hold mode In this mode the instrument hold the maximum value during measurement However if the spindle speed exceeds 10um sec the correct peak value maximum value may not be displayed 1 Hold down the MODE key in the Normal mode Symbol Max starts blinking to enter
24. ayed depending on the set arithmetic coefficients The preset is cleared if the origin point is set However the preset value is retained in memory Call the preset value again if necessary The origin point set can be performed only in the Normal mode 1 Hold down MODE key then press ZERO ABS key shortly at once under 2sec at an appropriate spindle position to be designated as the origin point The origin point is set at the position where the above key operation has been performed 2 Immediately after the origin point is set the indicator displays a value obtained from the calculation result at x 0 3 Immediately after the battery is set or replaced the indicator displays the message as shown in the figure Set the origin point and then enter the Normal mode IMPORTANT This instrument performs internal calculation assuming a spindle displacement as variable x with respect to the origin point x 0 Unless the origin point that meets various fixtures tools etc has been set a correct calculation result may not be displayed The origin point that has been set is retained even if the power is turned off However if the battery is replaced the origin point needs to be set again After the origin point has been set the current preset value is canceled The value that has been preset however is still retained Call the value again NOTE This origin point setup cannot be performed unless the INC measurement Tolerance judgmen
25. d turn to remove or mount it IMPORTANT Use a rag to protect the spindle during the above work to avoid instrument failure The spindle does not move smoothly if damaged Different contact point results in different external dimensions measuring force and imitation of measuring direction Contact point error such as perpendicularity of a flat contact point run out of roller point etc adds to the measurement error 4 Operation Procedure 4 1 Outline This indicator is a special gage that performs internal calculation using formula f x Av B C 1 assuming a spindle displacement as x To make the most of the dial indicator functions it is necessary to perform two setups 1 Initial setup 4 items and 2 Function selection 4 items The indicator also provides 3 Measurement Sub functions 2 items See the flow chart to the left for the setting flow up to measurement The reference sections and outlines are described below 1 Initial setup 4 2 Setting the Resolution and Set the resolution and coefficients A B and C in formula f x Ax B Cx71 Arithmetic Coefficient This indicator displays the calculation result of the formula using the set coefficients The preset value and tolerances are cleared if the resolution or coefficient settings are changed 4 3 Setting the Origin Point Set the origin point calculation reference point for calculation The origin point is the spindle position at which variable x in formula f x
26. e no unit system a dot is displayed at the upper right corner of the LCD 4 10 Function Lock Key lock function Hold down the DATA HOLD key switches to function lock state In the function lock state all keys are deactivated except the ON OFF key SET key DATA HOLD key and key for releasing lock in all modes To reactivate the keys hold down the DATA HOLD key again 4 11 Data Output Data Hold This indicator can perform data output to a data processor or holding the data Data can be outputted to the data processor if the indicator is not connected with a data processor Data can be held if the indicator is not connected with a data processor 4 11 1 Data Output Vital SPC data is available by data processor However if data output is performed during displacement of the spindle there is a possibility that correct data is not outputted or no data can be outputted 1 Connecting the instrument to a Digimatic Miniprocessor DP 1VR and other data processor with an optional cable Remove the output connector cap using a slotted screwdriver and insert the cable fully to the end Put the removed cap in a small bag and store in safety place 2 Press DATA key shortly to output the data to data processor while displaying the available data When the indicator receives an output request REQ from the data processor the data is also output Output Connector Interface Specification Output Data Format
27. esolution and arithmetic coefficients can be set only in the Normal mode The preset value and tolerances are cleared if the resolution and coefficient setting are changed Set tolerances again if necessary Example In mm system When setting the resolution to 0 01 and coefficients A B and C to 2 5000 0 5000 and 0 0 respectively Setting the Resolution 1 Hold down MODE key then press SET key shortly at once under 2 sec The instrument enters the Resolution Setup mode then displays Ax B Cx at the upper left corner of the LCD and blinks the most recently set resolution 2 Hold down the SET key then the resolution 12 step See the separate table will change sequentially Hold down the SET key until the desired resolution is displayed 3 When the resolution is changed to the desired value release the SET key once then press the SET key shortly to complete the resolution setup Next set the arithmetic coefficients Setting the arithmetic coefficients A B and C 4 When the instrument enters the arithmetic coefficient setup mode only A of Ar B Cx displayed at the upper left corner of the LCD blinks and the most recently set value of coefficient A is displayed 5 Hold down the SET key then the numeric entry digit of the coefficients will change sequentially 6 Hold down the SET key until the desired coefficient digit blinks When the desired coefficient digit starts blinking release the
28. g the DATA HOLD key at the numeric entry time the moving direction of blinking digit and the sequence of changing numbers will be reversed Also press the MODE key to return to the status before moving the numeric entry digit with the changed entry number left as it is 4 5 Calling the Preset Value 1 Press PRESET key shortly P sign blinks in the upper right corner of the indicator 2 Set the contact point on the reference position such as the stand and the fixture or master 3 Press the PRESET key shortly to preset the value that is previously set IMPORTANT When calling the preset value fix this indicator firmly on the stand fixture and etc and always have the spindle slightly retracted If arithmetic coefficient C is set to C 0 the preset value cannot be called while the message E oF is displayed 4 6 ABS System and INC System This instrument has two measuring systems ABS system for absolute measurement with a preset value designated as the origin and INC system for comparative measurement 1 The instrument is in ABS system upon completion of presetting 2 Pressing ZERO ABS key shortly in ABS system switches the system to INC system and sign INC displays in the upper left corner of the indicator and the instrument is ZERO set by pressing ZERO ABS key 3 Holding down ZERO ABS key during INC system switches to ABS system Sign INC goes off IMPORTANT If arithmetic coefficient C is set to
29. he Digimatic indicator The supplied battery is just to check the function and performance The specified battery life may not be assured Care should be taken Immediately after replacing the battery the origin point does not need to be set at an appropriate position of the spindle However if the origin point was not set at an appropriate spindle position reset the origin point as required 3 2 Adjustment of Display Unit Angle The display unit rotates 330 B clockwise from the initial position A IMPORTANT Do not rotate the display unit beyond the stoppers at positions A and B Caution risk of instrument failure Do not pull or push the display unit Caution risk of instrument failure 3 3 Mounting of Release This instrument can be used with the optional release 540774 attached into the release hole Remove screw 10 M2 6 of the release hole with 0 Phillips screwdriver and be sure to screw the release in IMPORTANT Jerking or knocking the release may cause the thread to be chipped off Do not insert other than the release to the hole or apply excessive force Caution risk of instrument failure Ifthe spindle is displaced upward and downward with the release being loosened there may be a possibility of damage to internal parts 3 4 Securing the Instrument Use this instrument with it secured or mounted onto the stand or either of various fixtures IMPORTANT Avoid fixing the stem direct
30. it again However in the case of arithmetic coefficient C 0 and x 0 an overflow error is normal 3 Setting error 4 ABS data composition error 5 Overflow IMPORTANT If this error occurs while the spindle is stopped or a miscount occurs during the spindle movement it could be due to sensor failure Contact a Mitutoyo sales office or representative Printed in Japan FQAPNE202062
31. ly using a lock screw If fixed under a clamping torque of 300N cm or more the spindle may not move smoothly Mitutoyo DOOOCOOOO0DOD00000000000000M00000Mo00Mo00mMoO000000000000 amp oo o00 o00 o00 ooo ooo 000000000 867 0 0 0050 0 0 0M00000000000000000000000000000000 o0 jooo0 o0 gt o o a sy 02011 0 O00000 go00 ooo0000 W000 000000000000 M 00000000000000 0 o Dow 0000W oo oo o0 oo oo oo o0 oo o oo00 900080 looo00 o0 0000 50300 oo000 oopa oo pooo oo aona oo o000 o00 p00 o00 000O0000O0O0O0CO0COO0O0COCOO0CO0OO0OCO0OOC0OOCOOOO0000O000O00O000000 0000000O00000O0O00000O000000000000000 0MOO0000COCOOO0COOOOOCOOOCOCOMO00000 ooooo0 ooo ooon joooon2 oo oo o000 o000 opon o joooo nooo o000 o000 o000 p a a a 4100 OOOO0COO0000000 000000 f amp ArBiceIg DOoo00dcoo0o0000000 OOODOO0DO00000000000 M000004000 90000040000 20000000 0 O0000002000000000 OOOOOD000000000000000000000000000000000000000000 a ogooo 0420000000000000 00000000000 fe sAx 8 Cr0 00 A B C 0 0 0 0 0 00 OOOOOOOOO00000000000000000000000000000000000000 00000000000000000 o000000 4 04300000000000 OOOOO00000000000000000000000000000 000000000000 f ArB eD O00 000000000000 00000000000 OOOOOO0DOO0O000000000000000000000000000 4 1
32. n the origin point the instrument will not always display the same value as shown in the figure As the result of calculation processing an overflow error may result This indicator s sensor resolution x resolution is 0 001mm 0 00005 in As it calculates using this resolution the end digit may not change depending on the combination of defined resolution and arithmetic coefficient 9 and 0 amp 2025000 Ex End digit is not counting case Resolution 0 0002mm Coefficient A 1 B C 0 The display value is not change case Coefficient A C 0 Setthe resolution and arithmetic coefficients in order to have the appropriated combination The resolution and arithmetic coefficients have been factory set to 0 001mm or 0 00005 and A 1 B C 0 respectively The number of digits that can be set for each coefficient is shown in the following table List of resolution Coefficient mm unit System no unit display system Inch unit system unique to mm inch model mm system mm system A 2 digits of intergers 4 digits of decimals inch system inch system igi gers 4 digi no unit system Fo unit system B 2 digits of intergers 4 digits of decimals 1 digit of intergers 5 digits of decimals 1 0 0002 0 00001 7 0 02 0 001 Cc 5 digits of intergers 1 digit of decimals 2 digits of intergers 4 digits of decimals 2 0 0005 0 00002 _ 8 0 05 9 002 If the SET key is pressed while holding down the
33. n three months remove the battery from the instrument to store it separately For disposing or storing battery cover the positive and negative terminals with a piece of insulating tape to prevent contact with other metals When disposing it follow the local ordinances or regulations of respective local governments Keep batteries avoid direct sunlight high temperature high humidity and out of the reach of children When the battery is removed do not swallow it by mistake In case a cell or the battery has been swallowed consult a physician immediately Should the content accidentally come into contact with the eye or skin or get into the mouth rinse with water immediately and consult a physician Should it attach to the cloths wash it with water WARNING Warnings on Disposal A WARNING For this instrument the LCD and a silver oxide battery are used When disposing them follow the local ordinances or regulations of respective local governments The LCD part contains irritating substance Should the liquid content accidentally come into contact with the eye or skin rinse with water immediately and consult a physician Should it get into the mouth immediately rinse inside the mouth swallow plenty of water vomit then consult a physician Precaution on Use Observe the following precautions to avoid instrument failure and malfunction IMPORTANT Do not disassemble and modify this instrument
34. o 00000000000000000000000 7 oo0o0oomonnnoononoooonnnononnnnn od 0 000000000000000000 OFFOO00000000000000000000000000000000 0 000000000 OF0000 ONDO00000000000000000000000000000 0000000OO0COO0OOO0OOOOCOOOOO0O0OOOCO0O0OO000 og 0 aBsooINCOOooodggoooo i ABSO0000000 ABSOOOOOOOOO00000000000000000000000000000000000000000 00000000000000 oo00000 000000 O100000000 10000mg D0 0000000004 0200mag gq 000000000 0000 10 0000 0 2009 10 200 mm Q 0 0 0 10 000 0 2000 9 8000 mm i INcgooggogg INCOOOOOO0000000000000000 0000000000000 1000 0209 mq 0000 0 209 m0 O DATAHOLOD 0000000 moLn000000000 N 00000000000000000000 0000 0000 MODE DO00DODCOOODODOOOCODCODOOCOOCOOOOOOCOOOOOOOO 480000000 00000030000000000000 OOOOOOOMovep OOOOOOODOMOO0000 000M Mamoooo000 0000 Ming ooooodoo o0000 00000000000 00O000O0O0O00OO0O0CO0OOO000O0000O0000000 en0000000000000 000000 0 0000000000000000 0 OOOO Mx OO00000 O Max000000000000000 0000 Min ogoooooo O Mingogooogodoooooo0o00 48100000 000000000000 000000O0000OOCO0OC 0CO0OO00CO0O00000 OOO Ming oooooOOOO000OMopenoooooododoooo00000000000 eoooooo00000 00000O0O0O0OOOOCO0O0O0O0000000000 oooooroooorooooooooononooonnonoonononnnoonniooo 4 3 Setting the Origin Point Set the origin point calculation reference point for calculation The origin point is the spindle position at which variable x in formula f x Ax B Cx becomes 0 If the origin point is not properly set a correct value may not be displ
35. o 44000000000 00000000000000000000000 OOOOOOODO00O0000000000000000000000000000000000 o000000 100000004 04500000000000 0044000000000000000000000000000000 0000 000000000 0 46ABS0 0 INCO 0000000AB8S0000000000 NC0000000000 ooodacnigS 047000000 00000000000000000000000000000000000000 ml OOOOOOOOO0OOO0 000000000 0000000000 00000000000000000 gt n0004 gt 0480000000 0 00000000000 Ma 00000000000 Miny0000000000000000 a2 0000000000000 049000000 0000000000000 i 43 ougggoogg gg S000000 e as Adone 9 400000000000 oO00000000000000000o000000 e a a d 040100000 0000000 OO00000000000000000000000000 oo 2 ooo04 Fe atch ge OCOOCOOODOODCODOODOODOODO00000000000000000000000000000000000000000000 l 4g Ansiginch i 000000 48 0000000 OO0000000000000000 3000000000 Eer 49000000 Ss Y om 0 0 ond 00nn a 00 0 0 2s 0 0 000m 20 0 0 000m 40 410 0000000000 420000000000000 1 Au 000000000000 3 O0o000000000000000004W0 80 C0000000000000000000000000000 A0B0C0 00 00 OFF oD000OOCOOCOOOCCOOCOOOO0OOOCOCOOOO0O0O0O 20000000000000 o0000OOO0OCO00OOCOO0OCO000O00000000000 DOODOODO000000000000000000000000000000000000000000 1 lmm0 OO OOOOOCOO00D 001900000 A 250000 B 0 50009 C 000 000000 4 2 ecoooogoo 2 MODE 0000000020000 IsSen000000000000000000000000000000 40 B0 cr 000000 MODE SET SET SEI gooooooo00000000000000 Wey x x 2 SETO00000000000000 200 0000000000000000000000000000StTNoOOOO0000000000 1 Ar ah eee 10 pater 3 00000000000000000000
36. t or Peak hold measurement Mode is released 4 4 Setting the Preset Value Preset uses mastering It is recommended that the value which is required not to change easily and derived from the fixture for the dedicated application etc be set to the arithmetic coefficient B and the value of a mastering etc which may change frequently be set by presetting The preset value is cleared change the resolution or arithmetic coefficients setting Set a preset value again if necessary Presetting can be performed only in the Normal mode Ex Presetting of 12 000mm 1 Press PRESET key shortly P sign blinks in the upper right corner of the indicator 2 Set the preset value in the same way as for setting the arithmetic coefficient 3 When all numeric entry has been completed the blinking number disappears Hold down the PRESET key for some time until symbol P starts blinking 4 Press the PRESET key shortly then the blinking symbol P disappears This completes presetting IMPORTANT Set value will be retained if the battery is replaced and the power OFF If the power is turned OFF then ON during presetting the set value is cleared and it restores the state before setting The preset value is cleared when the resolution and arithmetic coefficients are changed Ifthe presetting is performed by any mistake set the origin point or preset if necessary NOTE If the PRESET key is pressed while holdin
37. tarts blinking to enter the Min Hold mode Min Hold operation is performed by the same procedure as 4 8 2 Max Hold Mode e Min hold Tolerance judgment Performs tolerance judgment for the minimum value that has been held Difference of display in Max and Min mode Difference of tolerance judgment in each mode Path o Fla H o Fee Fla Path 0 a b d Normal mode 0 000 5 000 N 5 000 7 10 000 X 0 000 Normal mode O lt gt Max mode 0 000 7 5 000 a 10 000 Max mode 0 gt Min mode 0 000 X 5 000 Min mode oO lt 4 9 Selecting the Unit System This instrument can set the no unit system display mode in addition to the two unit system display modes of mm system and inch system The no unit system can be replaced with the desired unit mm amp No unit Hold down ON OFF key or in mm key for 4sec inch mm Hold down the in mm key Applicable to the model with suffix M and E In mm No unit Hold down the in mm key for 6sec Hold down the key while ignoring inch or mm displayed in progress Applicable to the model with suffix M and E NOTE Set the unit will be retained if the battery is replaced and the power OFF In the no unit system the display contents and arithmetic coefficients are the same as those in the mm unit system In the mm or inch system each unit is displayed at the lower right corner and in th
38. tery is replaced and the power OFF However a tolerance judgment display is released after the battery is replaced If the power is turned OFF then ON during the tolerance setting the set value is cleared and it restores the state before setting The tolerance value is cleared when the resolution and arithmetic coefficients are changed NOTE Upper lower limits difference in ABS INC system i Setting tolerance value in ABS system In ABS system preset the dimension of a reference gage and then set tolerance limits with the absolute dimension Upper limit reference value upper tolerance limit Lower limit reference value lower tolerance limit Ex Reference gage dimension 10 00mm Upper and lower tolerance limits 0 200mm Upper limit 10 000 0 200 10 200 mm Lower limit 10 000 0 200 9 800 mm ii Setting tolerance value in INC system In INC system set the reference gage dimension as zero 0 then set tolerance limit Ex Upper limit 0 200 mm Lower limit 0 200 mm Ifthe PRESET key is pressed while holding the DATA HOLD key at the numeric entry time the moving direction of blinking digit and the sequence of changing numbers will be reversed Also press the MODE key to return to the status before moving the numeric entry digit with the changed entry number left as it is 4 8 Switching the Mode The instrument has three measurement modes When the MODE key is held down in each measurement
39. the Max Hold mode 2 When the spindle is displaced the maximum value is held At this time the Max symbol display from blinking to lighting 3 Press the set key shortly then Max blinks and release the hold Then the current position is displayed and starts measuring a new maximum value Max Hold Tolerance Judgment Performs tolerance judgment for the maximum value that has been held 4 Operate the TOL key to display the tolerance judgment result after completing the tolerance setup 5 When the spindle is displaced and if the maximum value is held tolerance judgment is performed with respect to the held value IMPORTANT The HOLD mode is released after the battery is replaced NOTE If the ZERO ABS key is pressed shortly in the Hold mode the held position is zero set to allow comparison measurement Case the arithmetic coefficient C 0 is set the following problems may new peak value is detected when the indicator spindle is moved after performing peak hold During the peak hold mode measurement it is possible to prevent the measurement error by pressing HOLD key after peak hold in order to fix the peak value display 4 8 3 Minimum Value Min Hold Mode In this mode the instrument hold the minimum value during measurement However if the spindle speed exceeds 10um sec the correct peak value minimum value may not be displayed Hold down the Mode key in the Max Hold mode Symbol Min s
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