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Easson Premium SC-100 Manual

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SC-100
SC-200
SC-300
SC-100
SC-400
Digital Readout System
- Digital Counter -
Operation Manual
(Milling Malti-function Option)
SC-500
SC-600

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Summary of Contents for Easson Premium SC-100

  • Page 1 SC-100 SC-200 SC-300 SC-100 SC-400 Digital Readout System - Digital Counter - Operation Manual (Milling Malti-function Option) SC-500 SC-600...
  • Page 3 SC-102 DIGITAL COUNTER 0.000 cal sin 0.000 SC-103 DIGITAL COUNTER 0.000 cal sin ½ inch Made in Taiwan 0.000 0.000 ½ inch Made in Taiwan SC-100 Digital Readout System - Digital Counter - Operation Manual (Multi-function) Resson Technologies Co., Ltd.
  • Page 4 Notes in Operation Note before using this display! ● Use the defined voltage The rated power voltage supplied to this display should be 100V~230V, select correct voltage supply and try best supplying the power from lighting power line! Since the power circuit would become unstable under frequent power on/off and cause instant strong interference or even power shutdown;...
  • Page 5 SC-100 Specification SC-100 Specification : Number of axes : 2 Axes (SC-102) 、3 Axes (SC-103) Reslution : 0.05/0.02/0.01/0.005/0.002/0.001/0.0005/0.0002/0.0001mm Display function : 8-digit LED Response speed : 60m (198.6feet)/min Quantizing error : 1 count Power source : AC100V 240V / 50 60Hz / 20VA Temperature fange : Service:0 40℃...
  • Page 6 The back shell plug seat of DRO. X Axis Z Axis RS232 output linear scale output linear scale output Y Axis Remote controller linear scale output output...
  • Page 7 Content 一. Basic Functions ....... 1 二. REF datum memory ...... 5 三. 199 SubDatum Function ....9 四. Built-in Calculator ....19 五. LHOLE Function ......25 六. INCL Function ......31 七. PCD Function ......39 八. R Function ......45 九.
  • Page 9 Basic Functions SC-102 SC-103 DIGITAL COUNTER DIGITAL COUNTER 0.000 0.000 cal sin cal sin 0.000 0.000 0.000 ½ ½ inch inch Made in Taiwan Made in Taiwan - 1 -...
  • Page 10 Purpose : Set the current position for that axis to zero Example : To set the current X Axis position to zero SC-103 SC-103 DIGITAL COUNTER DIGITAL COUNTER 1234.565 0.000 cal sin cal sin 567.890 567.890 456.645 456.645 ½ ½ inch inch Made in Taiwan...
  • Page 11 Purpose : SC-100 provides two sets of basic coordinate display, they are ABS (absolute) and INC (incremental) displays. During machining operations, the operator can store the work piece datum ( zero position ) in ABS coordinate, then switch to INC coordinate to continue machining operations.
  • Page 12 Purpose : SC-100 provides the centre-find function by halving the current display coordinate, so that the zero point of the work piece is located at the centre of the work piece. Example : To set the X Axis zero point at the centre of the work piece. Step 1 : Locate the edge finder at one end of the work piece, then zero the X Axis.
  • Page 13 - 5 -...
  • Page 14 During the daily machining process, it is very common that the machining cannot function : be completed within one working shift, and hence the DRO has to be switched off, or less commonly, a power failure occurs whilst machining which leads to loss of the work piece datum ( work piece zero position ).
  • Page 15 function : In ref datum memory function, the SC-100 will automatically store the relative distance between the mark position and the work piece datum ( zero position ) whenever the operator alter the ABS zero position, such as zeroing, centre find, co-ordinate preset or etc...
  • Page 16 function : If the ref point is lost for any reason, the work piece datum can be recovered by RECALL 0 function as follows:. step 1 : enter into the ref function, select the RECALL 0 ( recall work piece zero ) FIND REF FIND REF cal sin...
  • Page 17 ( sdm 2 ) 2 號零位 ( sdm 1 ) 1 號零位 ( sdm 3 ) 3 號零位 ( ABS ) ( sdm 4 ) 工件基準零點 4 號零位 - 9 -...
  • Page 18 Purpose : Most DRO cabinet on the market provide just two set of work co-ordinates - ABS/INC. It was found that ABS/INC was inadequate and inconvenient to use, and, particularly in the case of complex machining or repetitive work, which needed more than just two sets of working co-ordinates.
  • Page 19 Application example: To set up four subdatum zero ( SdM 1 to SdM 4 ) the following two methods can be used Either 1. Move machine to required subdatum position, then zero SdM display coordinates 2. Directly key in the SdM zero position co-ordinates ( co-ordinate relative to ABS zero ) ( ABS ) Work piece datum ( sdm 2 ) Subdatum 2...
  • Page 20 Set this point switch to sdm 1 SC-103 SC-103 to ZERO coordinate display Sdm 1 Sdm 1 DIGITAL COUNTER DIGITAL COUNTER 0.000 cal sin cal sin 0.000 ½ ½ inch inch Made in Taiwan Made in Taiwan sdm 1 set up already Step 3 : Set up the subdatum point 2 ( sdm 2 ) switch back to Locate the tool at subdatum...
  • Page 21 Set this point switch to sdm 3 SC-103 SC-103 to ZERO coordinate display Sdm 3 Sdm 3 DIGITAL COUNTER DIGITAL COUNTER 0.000 cal sin cal sin 0.000 ½ ½ inch inch Made in Taiwan Made in Taiwan sdm 3 set up already Step 5 : Set up the subdatum point 4 ( sdm 4 ) switch back to Locate the tool at subdatum...
  • Page 22 SC-100’s XY displays are referenced to the sdm 1 zero SC-103 switch to next ( up ) Sdm 1 DIGITAL COUNTER sdm coordinate display 50.000 cal sin 35.000 ½ inch Made in Taiwan SC-100’s XY displays are referenced to the sdm 2 zero SC-103 switch to next ( up ) Sdm 2...
  • Page 23 In a case where many subdatum ( sdm ) points need to be set up,the operator will find that the method of direct keying in the of SdM zero position co-ordinates ( co-ordinate relative to ABS zero ) is much quicker and less prone to error. Set up the work piece datum ( ZERO) at ABS co-ordinate, then move the tool located at the work piece datum ( ABS zero point )and directly key in all subdatum point co-ordinates ( the relative position to ABS zero ) using the keypad.
  • Page 24 Step 4 : Set up the subdatum point 3 ( sdm 3 ) Key in the sdm 3 coordinate Switch to sdm 3 coordinate display SC-103 SC-103 Sdm 3 Sdm 3 DIGITAL COUNTER DIGITAL COUNTER -50.000 cal sin cal sin -50.000 ½...
  • Page 25 SC-100’s XY displays are referenced to the sdm 1 zero SC-103 switch to next ( up ) Sdm 1 DIGITAL COUNTER sdm coordinate display 50.000 cal sin 35.000 ½ inch Made in Taiwan SC-100’s XY displays are referenced to the sdm 2 zero SC-103 switch to next ( up ) Sdm 2...
  • Page 27 SC-103 DIGITAL COUNTER 1234.565 cal sin 567.890 456.645 ½ inch Made in Taiwan - 19 -...
  • Page 29 Function : A calculator is used frequently during a manual machining process.. SC-100 is the first DRO that has a built-in calculator The built-in calculator of the SC-100 not only provides normal mathematical calculations such as add, substract, multiply & divide, it also provides useful trigonometric calculations that are frequently required during a machining process such as SIN, COS, TAN, SQRT and also inv SIN, inv COS, inv TAN, SQUARE...
  • Page 30 Working principle of SC-100’s calculator function Example : when the SC-100 is put in calculator mode, the operation of RD-15M actually divided into two parts as follows Normal calculator normal X/Y/Z DRO display to enter into SC-103 SC-103 calculator function DIGITAL COUNTER DIGITAL COUNTER cal sin...
  • Page 31 i.e. Trigonometric calculation - COS : 100 X COS 30 = 86.602540 SC-103 SC-103 86.602540 DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin ½ ½ inch inch Made in Taiwan Made in Taiwan i.e. Trigonometric calculation - inverse SIN : SIN 0.5 = 30 SC-103 SC-103 DIGITAL COUNTER...
  • Page 32 Move the machine to X display = 0.000 then it is at the position of X = 108.675 SC-103 X 108.675 DIGITAL COUNTER 0.000 cal sin 567.890 456.645 ½ X = 108.675 inch Made in Taiwan The tool is now at the position of the calculated result ( X = 108.675 in the above example ) To get back to normal coordinate display to continue the machining...
  • Page 33 - 25 -...
  • Page 34 Function : SC-100 provides LHOLE function for drilling a line of holes. Simply enter the machining parameters below (following the step by step guides that are displayed on the SC-100's message screens), and the SC-100 will calculate all the hole position co-ordinates and temporarily preset the hole position coordinates to zero ( 0.000 ).
  • Page 35 step 2 : Enter Line Angle ( LIN ANG ) Line Angle ( LIN ANG ) = -30 degree enter Line Angle ( LIN ANG ) SC-103 SC-103 LIN ANG LIN ANG next step DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin 0.000 -30.000...
  • Page 36 All LHOLE machining parameters to enter into LHOLE drilling mode are already entered into SC-100 Operator can to select the Line Hole, then move the machine to display = 0.000, then the Line Hole position is reached. move the machine to display = 0.000 Next Line Hole SC-103 HOLE 2...
  • Page 37 swap back to LHOLE cycle to continue the Line Holes drilling operation presently in the temporarily XYZ coordinate display return to LHOLE function cycle swap back to SC-103 SC-103 LHOLE function cycle XYZ-ABS HOLE 1 DIGITAL COUNTER DIGITAL COUNTER 78.560 0.000 cal sin cal sin...
  • Page 39 - 31 -...
  • Page 40 Function : During a machining process, it is quite common to machine an inclined surface. If the work piece is small or the accuracy requirement is quite low, the operator can simply work on an incline or rotary table to machine the inclined working surface easily.
  • Page 41 Example : X(+) Angular Direction : To accurately datum the work piece at a 20 degree angle Positive ( Clockwise ) on the XY plane Negative ( Anti-clockwise ) Y(+) 20 degree Approx. 20 Install the work piece onto an rotary table at approxiately 20 degree. step 1 : select XY plane as the work plane ( INCL - XY ) XY plane XY 平面...
  • Page 42 step 2 : enter incline angle ( INCL ANG ) incline angle ( INCL ANG ) = -20 degree enter incline angle ( INCL ANG ) SC-103 SC-103 INCL ANG INCL ANG DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin 0.000 -20.000 ½...
  • Page 43 If the operator wants to check or verify if SC-100’s INCL calculation is correct, or wants to temporarily exit the INCL function cycle ( swap to normal XYZ display ). The operation are as follows :. temporarily return to presently in INCL cycle XYZ coordinate display temporarily swap to normal SC-103...
  • Page 44 Example : To machine a 45 degree inclined surface X(+) on XZ plane using a two axis SC-100 Angular Direction : Positive ( Clockwise ) Negative ( Anti-clockwise ) Y(+) Inclines the mill head by 45 degree step 1 : select XZ plane as the work plane ( INCL - XZ ) XY plane XZ 平面...
  • Page 45 step 2 : enter inclined angle ( INCL ANG inclined angle ( INCL ANG ) = -45 degree enter inclined angle ( INCL ANG ) SC-103 SC-103 INCL ANG INCL ANG DIGITAL COUNTER DIGITAL COUNTER next step cal sin cal sin -45.000 0.000 ½...
  • Page 46 move the machine to display = 0.000 - then the tool Position the tool on any point set the Z dial is positioned at the inclined surface on the inclined surface to zero two axis SC-102 incline display reset XZ axis SC-102 0.00 DIGITAL COUNTER...
  • Page 47 - 39 -...
  • Page 48 Function : SC-100 provides a PCD function to for drilling holes around a Pitch Circle Diameter. The operator simply enters the following machining parameters in accordance with the step by step guides shown on the SC-100's message display,. The SC-100 will then calculate all the pitch hole position coordinates and temporarily preset the hole position coordinates to zero ( 0.000 ).
  • Page 49 step 2 : Enter Centre Coordinate ( CENTRE ) Centre Coordinate ( CENTRE ) : X=0.000, Y=0.000 enter Centre Coordinate ( CENTRE ) next step SC-103 SC-103 CENTER CENTER DIGITAL COUNTER DIGITAL COUNTER 0.000 0.000 cal sin cal sin 0.000 0.000 ½...
  • Page 50 step 5 : Enter the Start Angle ( ST. ANG ) Start Angle ( ST. ANG ) = 30 degree enter Start Angle ( ST. ANG ) next step SC-103 SC-103 ST ANG ST ANG DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin 0.000 30.000...
  • Page 51 move the machine to display = 0.000 SC-103 Next Pitch hole HOLE 2 DIGITAL COUNTER 0.000 cal sin 0.000 ½ inch Made in Taiwan HOLE 2 = picth hole no. 2 move the machine to display = 0.000 SC-103 Last Pitch hole HOLE 1 DIGITAL COUNTER 0.000...
  • Page 52 To leavet the PCD function, after the PCD hole drilling operation is completed follow the under-mentioned procedure: returns to normal presently in PCD function cycle XYZ coordinate display SC-103 SC-103 HOLE 1 DIGITAL COUNTER DIGITAL COUNTER 0.000 78.560 cal sin cal sin 0.000 5.000...
  • Page 53 - 45 -...
  • Page 54 function : It is quite common to need to machine round a corner or an arc surface in the course of a day's work, especially in mould making. If the arc surfaces are complicated or a number of round corners have to be precisely machined, or arc or round corners are to be machined, then CNC milling machine should be used.
  • Page 55 Understanding the Co-ordinate System : For those operator who do not have experience in CNC programming, or the first time user of SC-100's R functions, they may find that it is difficult to understand what is meant by "co-ordinate". The co-ordinate is a pair of numbers which specify a position on a surface. When using SC-100's R function, it is necessary to enter the co-ordinates of ARC center, start point, end point and etc.
  • Page 56 X (+ positive direction) Y (+ positive direction) Example 3 : Z (+ positive direction) Example 4 : Start Point ( 20, 0 ) zero point Start point & Centre ( -20, 0 ) zero position ( 0,0 ) ( 0,0 ) End Point ( 40,20 ) End point...
  • Page 57 Following parameters need to be entered into SC-100 for ARC machining : XY plane R 1. Select work plane - XY, XZ or YZ plane R YZ plane R XY work plane XZ plane YZ work plane XZ plane R Tool Diameter ( TOOL DIA ) 2.
  • Page 58 X (+ positive direction) Example : Y (+ positive direction) To machine an XZ plane R using a 2 Axis SC-100 Tool Diameter = 6mm Z (+ positive direction) The following machining parameters have to be entered into the SC-100 : Z step = 0.3 mm 1.
  • Page 59 step 2 : enter the Centre's co-ordinate ( XZ CENTR ) centre coordinate ( XZ CENTR ) : X=20.000, Z=20.000 enter centre's coordinate ( XZ CENTR ) next step SC-103 SC-103 SC-103 XZ CENTR XZ CENTR XZ CENTR DIGITAL COUNTER DIGITAL COUNTER DIGITAL COUNTER 0.000...
  • Page 60 step 5 : enter the End point's coordinate ( XZ End P ) end point coordinate ( XZ ENd P ) : X=40.000, Z=20.000 enter End point's coordinate ( XZ ENd P ) next step SC-103 SC-103 XZ End P XZ ENd P DIGITAL COUNTER DIGITAL COUNTER...
  • Page 61 step 8 : enter Z incremental step machining SC-100 provides two options on the Z incremental step machining. The Operator can enter select the smooth R function which best suits the job. Option 1 : Fixed Z step ( Z STEP ) The Z increment per step machining is fixed, and as the ARc's curvature varies with their Z position, the operator has to use their experience to select different Z STEP increments during the ARC machining to get the optimal, fast machining...
  • Page 62 During the XZ or YZ plane R machining, it is necessary to accurately position the Z axis. However, as there is no Z axis in a two axis SC-102, and guide the operator easily to position the Z axis during the ARC machining, SC-102 uses the unused axis display to show the Z dial turn number and Z dial reading..
  • Page 63 If the operator wants to verify if the SC-100’s R calculation is correct , or wants to temporarily exit the R function cycle ( swap to normal XYZ display ). The procedure is as follows :. temporarily return to presently in R cycle XYZ coordinate display temporarily swap to normal SC-103...
  • Page 64 Y (+ positive direction) Example : X (+ positive direction) To machine an XY plane R using a 2 Axis SC-100 Z (+ positive direction) Following machining parameters have to be entered into the SC-100 : Start point ( 20, 0 ) 1.
  • Page 65 step 2 : enter the Centre's coordinate ( CENTRE ) centre coordinate ( CENTRE ) : X=20.000, Y=20.000 enter centre's coordinate ( CENTRE ) next step SC-103 SC-103 CENTRE CENTRE DIGITAL COUNTER DIGITAL COUNTER 0.000 20.000 cal sin cal sin 20.000 0.000 ½...
  • Page 66 step 5 : enter the End point coordinates ( ENd PT ) end point coordinates ( ENd PT ) : X=40.000, Y=20.000 enter End point's coordinate ( ENd PT ) next step SC-103 SC-103 End PT ENd PT DIGITAL COUNTER DIGITAL COUNTER 0.000 40.000...
  • Page 67 step 8 : enter Max. Cut between interpolated points ( MAX CUT ) MAX CUT = 0.3 mm enter Max. Cut ( MAX CUT ) R R R R SC-103 SC-103 MAX CUT DIGITAL COUNTER MAX CUT DIGITAL COUNTER cal sin cal sin 0.000 0.300...
  • Page 68 If the operator wants to verify if the SC-100’s R calculation is correct , or wants to temporarily exit the R function cycle ( swap to normal XYZ display ). The procedure is as follows :. temporarily return to presently in R cycle XYZ coordinate display temporarily swap to normal SC-102...
  • Page 69 - 61 -...
  • Page 70 function : The R function of SC-100 has been designed to machine simple ARC, We have discovered and concluded from our years of experience in DRO, that in over 95% of cases, our customer only use the SC-100 to machine extremely simple ARC.
  • Page 71 The operation procedures of Simplified R are as follows set the Z dial to zero positions the tool at the ARC starting point enter into Simplified R function SC-103 DIGITAL COUNTER cal sin ½ inch Made in Taiwan Following parameters needed to enter into SC-100 for ARC machining : XY plane R 1.
  • Page 72 X (+ positive direction) Example : Tool diameter = 6mm Y (+ positive direction) To machine the copper electrode as shown which has an ARCof Z (+ positive direction) R = 200 mm using a Two Axis SC-100 R=200 Because SC-100’s XZ/YZ can only machine an arc which is less than 90 degrees, it is necessary to divide this arc machining into two parts.
  • Page 73 Simplified R 8 preset R type select preset R type ( TYPE 1-8 TYPE 1-8 step 2 : For the first part select preset R type 2 (TYPE = 2 ) select R type ( TYPE 1-8 ) next step SC-103 SC-103 TYPE 1-8...
  • Page 74 step 5 : enter Z increment per step machining SC-100 provides two options on the Z increment per step machining. The operator can enter their selection on the smooth R function. Option 1 : Fixed Z step ( Z STEP ) Under this option, the Z increment per step machining is fixed, since the ARC's curvature varies with their Z position, the operator has to use their experience to select different Z STEP increment during the ARC machining to get the optimal, fastest machining...
  • Page 75 During the XZ or YZ plane R machining, it is necessary to carefully position the Z axis to obtain a precise Z position. As, there is no Z axis in the two axis SC-102, and, in order that the operator can easily guide and position the Z axis during the ARC machining, the SC-102 uses the unused axis display to display the Z dial turn number and Z dial reading.
  • Page 76 If the operator wants to verify if SC-100’s Simplified R calculation is correct, or wants to temporarily exit the R function cycle ( swap to normal XYZ display ), The procedure is as follows : temporarily return to presently in R cycle XYZ coordinate display temporarily swap to normal SC-102...
  • Page 77 Y (+ positive direction) X (+ positive direction) Machine this XY plane R by interpolated points drilling along the ARC curvature Example : Z (+ positive direction) Tool Diameter = 6mm To machine an XY plane R using 2 Axis SC-100 Step increment = 0.3 mm R = 80 mm...
  • Page 78 select preset R type ( TYPE 1-8 step 2 : 8 preset R type Simplified R TYPE 1-8 select preset R type 3 (TYPE = 3 ) R = 80 mm select R type ( TYPE 1-8 ) next step SC-103 SC-103 TYPE 1-8...
  • Page 79 step 5 : select tool compensation direction ( R+TOOL ) R+TOOL cal sin select ( R+TOOL ) next step R+TOOL cal sin ( R-TOOL ) R-TOOL cal sin step 6 : enter Max. Cut between interpolated points ( MAX CUT ) MAX CUT = 0.3 mm enter Max.
  • Page 80 move the machine to display = 0.000 SC-103 next R point DIGITAL COUNTER 0.000 cal sin 0.000 ½ inch Made in Taiwan 2 = interploated point No.2 move the machine to display = 0.000 SC-103 last R point DIGITAL COUNTER 0.000 cal sin 0.000...
  • Page 81 X (+ positive direction) Example : Y (+ positive direction) Tool diameter = 6mm R=200 To machine the copper electrode as shown which has an ARC of Z (+ positive direction) R = 200 mm using a Two Axis SC-102 Because SC-102’s XZ/YZ can only machine an arc which is less than 90 degrees, it is necessary to divide this...
  • Page 82 select preset R type ( TYPE 1-8 step 2 : Simplified R 8 preset R type TYPE 1-8 For the first part select preset R type 6 (TYPE = 6 ) select R type ( TYPE 1-8 ) next step SC-103 SC-103 TYPE 1-8...
  • Page 83 step 5 : enter Z increment per step machining SC-100 provides two options on the Z increment per step machining. Operator can make their selection on the smooth R function. Option 1 : Fixed Z step ( Z STEP ) Under this option, the Z increment per step machining is fixed, since the ARC's curvature varies with the Z position, the operator has to use their experience to select different Z STEP increment during the ARC machining to get the optimal, fast machining...
  • Page 84 During the XZ or YZ plane R machining, it is necessary to carefully position the Z axis to obtain a precise Z position. As, there is no Z axis in the two axis SC-102, and, in order that the operator can easily guide and position the Z axis during the ARC machining, the SC-102 uses the unused axis display to display the Z dial turn number and Z dial reading.
  • Page 85 If the operator wants to verify if the SC-100’s Simplified R calculation is correct, or wants to temporarily exit the R function cycle ( swap to normal XYZ display ). The procedure is as follows : temporarily return to presently in R cycle XYZ coordinate display temporarily swap to normal SC-102...
  • Page 87 - 79 -...
  • Page 89 function : Because plastic material shrinks during cooling after the the plastic injection process, therefore, when making a mould for plastic injection, the dimensions of the mould cavity have to be expanded or reduced according to a "shrink factor", ie for normal ABS material, the "shrink factor"...
  • Page 90 2. Shrinkage Calculations SC-100 provides a very easy-to-use shrinkage function, and allows the operator to easily calculate the expanded or reduced dimensions. It is normally used in a case where incomplete shrinkage calculation have been made, ie some dimensions have been forgotten to be marked onto the drawing. Using the SC-100 during the machining process, the operator can calculate the shrinkage dimensions directly with the readout.
  • Page 91 3. Shrinkage Compensation When the operator is familiar with the shrinkage function of SC-100, instead of calculating all the shrink dimensions and marking them onto the drawing, the operator can use the shrinkage compensation features of the SC-100 which actually expand or reduce all display dimension acccording to the multiples of the shrink factor, thereby, the need to calculate all the working dimensions one by one.
  • Page 92 When the SC-100 is in shrink compensation mode, if the operator wants to return to normal real dimension display. press Currently in "shrink" normal real dimension compensation mode display SC-103 return to normal display SC-103 -SHRINK DIGITAL COUNTER DIGITAL COUNTER 100.500 100.000 cal sin...
  • Page 93 Example : To drill the following holes in the plastic injection mould Because the plastic material shrinks when it cools down after the plastic injection process, the dimensions of the holes in the mould have to be expanded according to the shrink factor. Normally, the operator has to calculate all the expanded dimensions prior to the machining, but with SC-100, the operator can use SC-100’s "shrink...
  • Page 94 When the SC-100 is in shrink compensation mode, if the operator wants to return to normal real dimension display. press Currently in "shrink" normal real dimension display compensation mode SC-103 SC-103 return to normal display -SHRINK DIGITAL COUNTER DIGITAL COUNTER 100.500 100.000 cal sin...
  • Page 95 Parameters Setup SC-100 Parameters Setup SC-103 DIGITAL COUNTER WATING---- cal sin SC-103 DIGITAL COUNTER 6 SETUP 11111111 cal sin 11111111 ½ inch Made in Taiwan 11111111 ½ inch Made in Taiwan Z DIAL ......regarding the milling process, set up the dialing ring parameter and define the turning route of axis Z dialing ring.
  • Page 96 Parameters Setup Reset display's original parameter (RESET) SC-103 DIGITAL COUNTER WATING---- cal sin ½ inch Made in Taiwan When the DRO is under the impact of abnormal voltage, or user's improper operation that cause parameter setting in error, it needs to default simple working parameters by resetting them to default value from memory.
  • Page 97 Parameters Setup Set up new parameters in display (SETUP) When DRO-change IC is under the impact of abnormal voltage or improper operation, which cause the default disturbed; or user wants to change production process and needs to modify the default value, it needs to set up DRO and reset function values in memory.
  • Page 98 Parameters Setup The first layer functions are, in turn, defined as below: Z DIAL ......regarding the milling process, set up the dialing ring parameter and define the turning route of axis Z dialing ring. DIAL INC ...... regarding the arc machining, input z-increment value. BAUD SET ....
  • Page 99 Parameters Setup Press to enter into the dialing ring increment. SC-103 SC-103 Z DIAL DIAL INC DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin ½ ½ inch inch Made in Taiwan Made in Taiwan Press to enter the setup function; assume the setup is “0.02”. SC-103 SC-103 DIAL INC...
  • Page 100 Parameters Setup Press to select the correct baud speed from 1200/2400/4800/9600/19200/57600. SC-103 SC-103 BAUD SET BAUD SET DIGITAL COUNTER DIGITAL COUNTER 9600 19200 cal sin cal sin ½ ½ inch inch Made in Taiwan Made in Taiwan After baud speed is selected, press to end up this setting function.
  • Page 101 Parameters Setup Directly press to change over OFF or ON. SC-103 SC-103 BEEP ON BEEP OFF DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin ½ ½ inch inch Made in Taiwan Made in Taiwan Press and move to “RESOLUTE” SC-103 SC-103 BEEP OFF RESOLUTE...
  • Page 102 Parameters Setup Press to switch to the correct resolution value from 0.01/0.005/0.002/0.001/ 0.0005/0.0002/0.0001. SC-103 SC-103 RESOLUTE RESOLUTE DIGITAL COUNTER DIGITAL COUNTER 0.005 0.001 cal sin cal sin ½ ½ inch inch Made in Taiwan Made in Taiwan Press to end up this axis's setup SC-103 SC-103 RESOLUTE...
  • Page 103 Parameters Setup While selecting “LINEAR P” , press to enter the linear compensation process. SC-103 SC-103 LINEAR P SD VALUE DIGITAL COUNTER DIGITAL COUNTER 100.000 cal sin cal sin 100.000 100.000 ½ ½ inch inch Made in Taiwan Made in Taiwan Press the axis under compensation.
  • Page 104 Parameters Setup Press to switch to “NL ERROR” (nonlinear compensation). SC-103 SC-103 LINEAR P NL ERROR DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin ½ ½ inch inch Made in Taiwan Made in Taiwan Press to enter the nonlinear compensation setup. SC-103 SC-103 NL ERROR...
  • Page 105 Parameters Setup Input CP START SC-103 CP PITCH DIGITAL COUNTER Next step 1.000 cal sin ½ inch Made in Taiwan Input CP STEP SC-103 CP STEP DIGITAL COUNTER Next step 1.000 cal sin ½ inch Made in Taiwan After entering the “Point 1” Input the measuring result.
  • Page 106 Parameters Setup Press to move the “DIRECT” (direction setup). SC-103 SC-103 CP ERROR DIRECT DIGITAL COUNTER DIGITAL COUNTER cal sin cal sin ½ ½ inch inch Made in Taiwan Made in Taiwan Press to enter direction setup mode. “0” means in positive direction whereas “1” means the negative direction.
  • Page 107 Easson SC-100 Easson SC-200 Milling Multi-function Standard Easson SC-300 Easson SC-400 Lathe Grinding Easson SC-500 Easson SC-600 2D Measuring...

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