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QUE 1 Please enter the machine number (1 - 99) --> HLP 1 HLP 1 HLP 1Specify the machine number for this option file. The option file HLP 1will be named uncl01.pnn, where nn is the value you enter. HLP 1Enter PF3 to exit. HLP 1 QUE 2 Enter the option file number to read(0 = defaults)--> HLP 2 HLP 2Enter 0 to select the Postprocessor default values. To read an HLP 2existing option file, enter that file number (1 to 99). HLP 2Enter PF3 to exit. HLP 2 HLP 2 QUE 3 Enter the category number (99 to Exit) --> HLP 3Enter the number of the category you want to access. Once you have HLP 3selected a category, you can press Enter to accept the highlighted HLP 3value on that menu. To return to the Main Menu, press one of the HLP 3F1, F2 or F3 keys, as shown at the bottom of all subsequent HLP 3menu screens. Remember that F1 and F2 save your changes, while F3 HLP 3does not. QUE 4 Do you want to SAVE this option file ? [Y/N <Y>] --> HLP 4Answer "YES" to save the option file created during this session HLP 4and to overwrite any previous versions of this option file. Answer HLP 4"NO" to discard all changes made in this session and if a previous HLP 4version of this option file exists, it will be left unchanged. All HLP 4saved option files are written to the current directory. HLP 4 QUE 5 Smallest programmable unit (axes resolution) is --> HLP 5Your answer to this question determines how the Postprocessor will HLP 5round off any dimension related values. For lathes that utilize HLP 5diameter values for cross slide positioning, your answer should HLP 5indicate the smallest incremental motion that the slide can make. HLP 5 HLP 5Example: .0002 on the diameter implies .0001 slide motion. QUE 6 The maximum departure allowed per motion block is --> HLP 6This parameter establishes the maximum departure allowed in a HLP 6single block of motion data. Any programmed motion that exceeds HLP 6this limit will be automatically segmented into multiple motion HLP 6records. This option requires that incremental mode be available. HLP 6 HLP 6Refer also to the Postprocessor command MCHTOL QUE 7 Is this machine tool a Vertical Turret Lathe ? --> HLP 7For horizontal lathes, APT X is normally converted to Lathe Z and HLP 7APT Y to Lathe X. If the VTL option is selected, APT X will be HLP 7output as Lathe X and APT Y as Lathe Z. HLP 7 HLP 7If you choose to do so, this option will allow you to run the same HLP 7part on either horizontal or vertical machines with no changes. QUE 8 Does this machine have dual turrets ? --> HLP 8 HLP 8 HLP 8If this machine tool has two turrets, the Postprocessor will HLP 8adjust for the dimensional offset between the two. For machines HLP 8having two turrets, YES (or Y) is the proper response. HLP 8 QUE 9 Is the primary turret the REAR turret ? --> HLP 9This parameter indicates which turret is to be the "primary" one. HLP 9On machine tools with position register preset functions, this HLP 9option has less influence on the output produced. A more obvious HLP 9circumstance would be a machine that operates in absolute mode HLP 9only. In this case all dimension codes would be output relative HLP 9to the "primary" turret and offset to the "secondary" one. QUE 10 Are both turrets mounted on the same slide ? --> HLP 10This question should be answered YES (or Y) if both turrets are HLP 10mounted on the same cross slide. In this case, the Postprocessor HLP 10will automatically adjust for the offset between the turret ref- HLP 10erence points. NO indicates that the turrets can move independent HLP 10of each other, implying that there are actually four controllable HLP 10(programmable) axes. QUE 11 The X-axis (machine coordinate sys) multiplier is --> HLP 11This field may have one of four possible settings that influence HLP 11CL Data to machine coordinate system conversions. HLP 11 1 : The sign of the X value is the same as its CL value HLP 11 2 : The machine interprets X values as diametric dimensions HLP 11 -1 : The sign of the X value is the opposite of its CL value HLP 11 -2 : X values are diametric and the sign is opposite of the CL QUE 12 Shall this Postprocessor perform limit checking ? --> HLP 12 HLP 12To enable axis limit checking, this parameter should be set to YES HLP 12(or Y). The Postprocessor will output a warning when the limits HLP 12are violated. Output will still be produced, and the warning will HLP 12appear in the generated list file with the offending motion block. HLP 12 QUE 13 Home position for X-axis (output via GOHOME stmt) --> HLP 13The Postprocessor command GOHOME will output a motion block that HLP 13drives the current turret to the machine X dimension entered here. HLP 13 HLP 13This feature can be used for machines that have a fixed home posi- HLP 13tion, or as an option available to the part programmer for those HLP 13machines that do not have a fixed home position. QUE 14 Home position for Z-axis (output via GOHOME stmt) --> HLP 14The Postprocessor command GOHOME will output a motion block that HLP 14drives the current turret to the machine Z dimension entered here. HLP 14 HLP 14This feature can be used for machines that have a fixed home posi- HLP 14tion, or as an option available to the part programmer for those HLP 14machines that do not have a fixed home position. QUE 15 Home position for U-axis (output via GOHOME stmt) --> HLP 15The Postprocessor command GOHOME will output a motion block that HLP 15drives the current turret to the machine U dimension entered here. HLP 15 HLP 15This feature can be used for machines that have a fixed home posi- HLP 15tion, or as an option available to the part programmer for those HLP 15machines that do not have a fixed home position. QUE 16 Home position for W-axis (output via GOHOME stmt) --> HLP 16The Postprocessor command GOHOME will output a motion block that HLP 16drives the current turret to the machine W dimension entered here. HLP 16 HLP 16This feature can be used for machines that have a fixed home posi- HLP 16tion, or as an option available to the part programmer for those HLP 16machines that do not have a fixed home position. QUE 17 Enter the negative X-axis slide travel limit --> HLP 17The Postprocessor converts part coordinate data into the machine HLP 17coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 17motion commands resulting in a position beyond the machine limit HLP 17set by this parameter will be flagged with a WARNING in the veri- HLP 17fication listing. Keep in mind that axis position preset codes HLP 17(eg. G92) modify the machine coordinate system. QUE 18 Enter the negative Z-axis slide travel limit --> HLP 18The Postprocessor converts part coordinate data into the machine HLP 18coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 18motion commands resulting in a position beyond the machine limit HLP 18set by this parameter will be flagged with a WARNING in the veri- HLP 18fication listing. Keep in mind that axis position preset codes HLP 18(eg. G92) modify the machine coordinate system. QUE 19 Enter the negative U-axis slide travel limit --> HLP 19The Postprocessor converts part coordinate data into the machine HLP 19coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 19motion commands resulting in a position beyond the machine limit HLP 19set by this parameter will be flagged with a WARNING in the veri- HLP 19fication listing. Keep in mind that axis position preset codes HLP 19(eg. G92) modify the machine coordinate system. QUE 20 Enter the negative W-axis slide travel limit --> HLP 20The Postprocessor converts part coordinate data into the machine HLP 20coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 20motion commands resulting in a position beyond the machine limit HLP 20set by this parameter will be flagged with a WARNING in the veri- HLP 20fication listing. Keep in mind that axis position preset codes HLP 20(eg. G92) modify the machine coordinate system. QUE 21 Enter the positive X-axis slide travel limit --> HLP 21The Postprocessor converts part coordinate data into the machine HLP 21coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 21motion commands resulting in a position beyond the machine limit HLP 21set by this parameter will be flagged with a WARNING in the veri- HLP 21fication listing. Keep in mind that axis position preset codes HLP 21(eg. G92) modify the machine coordinate system. QUE 22 Enter the positive Z-axis slide travel limit --> HLP 22The Postprocessor converts part coordinate data into the machine HLP 22coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 22motion commands resulting in a position beyond the machine limit HLP 22set by this parameter will be flagged with a WARNING in the veri- HLP 22fication listing. Keep in mind that axis position preset codes HLP 22(eg. G92) modify the machine coordinate system. QUE 23 Enter the positive U-axis slide travel limit --> HLP 23The Postprocessor converts part coordinate data into the machine HLP 23coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 23motion commands resulting in a position beyond the machine limit HLP 23set by this parameter will be flagged with a WARNING in the veri- HLP 23fication listing. Keep in mind that axis position preset codes HLP 23(eg. G92) modify the machine coordinate system. QUE 24 Enter the positive W-axis slide travel limit --> HLP 24The Postprocessor converts part coordinate data into the machine HLP 24coordinate system, adjusting for the tool gauge lengths, etc. Any HLP 24motion commands resulting in a position beyond the machine limit HLP 24set by this parameter will be flagged with a WARNING in the veri- HLP 24fication listing. Keep in mind that axis position preset codes HLP 24(eg. G92) modify the machine coordinate system. QUE 25 In APT-X, the turret separation dimension is --> HLP 25In terms of APT-X, the distance between the turret reference HLP 25points must be entered here. The turret reference points are HLP 25usually either the center of the turret (the location about which HLP 25it rotates) or some COMMON point on the turret from which the HLP 25gauge lengths are measured. HLP 25 QUE 26 In APT-Y, the turret separation dimension is --> HLP 26In terms of APT-Y, the distance between the turret reference HLP 26points must be entered here. The turret reference points are HLP 26usually either the center of the turret (the location about which HLP 26it rotates) or some COMMON point on the turret from which the HLP 26gauge lengths are measured. HLP 26 QUE 27 Enter the maximum sequence number allowed --> HLP 27The Postprocessor will allow the maximum sequence number to be set HLP 27independent of the format (number of digits) within the sequence HLP 27number field. For example, some CNC contollers have a 5 digit HLP 27sequence number field but will allow a maximum number of 32767 HLP 27(rather than a maximum of 99999 as implied by the number of digits HLP 27allowed). QUE 28 Enter the number desired for the first data block --> HLP 28This value indicates the desired sequence number for the first HLP 28block of machine control data. In effect it indicates the value at HLP 28which the sequence numbers should start. This parameter is used HLP 28only to determine how to output the first sequence number and is HLP 28not related to the next field, which is the increment between HLP 28sequence numbers. See also Postprocessor command SEQNO. QUE 29 The sequence numbers should be incremented by --> HLP 29This parameter allows you to specify the desired increment between HLP 29the sequence numbers on the machine control data blocks. A value HLP 29of 1 would produce N0025, N0026, etc. A value of 5 would produce HLP 29N0025, N0030. Some CNC controllers require that sequence numbers HLP 29begin with 1 and increment by 1 as a function of the way the data HLP 29is stored locally. See also Postprocessor command SEQNO. QUE 30 The address of the optional alignment block is --> HLP 30Many controllers allow the use of a special sequence number ad- HLP 30dress for the purpose of locating "restart" blocks within a given HLP 30tape or program. The Postprocessor command SEQNO/NEXT signals the HLP 30Postprocessor that the next output record should contain a HLP 30sequence number with the address specified here. Following blocks HLP 30will revert to the previous sequence number address. QUE 31 Enter the option for INSERT/PPRINT sequence number--> HLP 31Some controllers require that operator information blocks MUST HLP 31have a sequence number, others require that they CANNOT. HLP 31The available options are: 0 - SEQNO on INSERT and PPRINT HLP 31 1 - No SEQNO on INSERT or PPRINT HLP 31 2 - SEQNO on INSERT only HLP 31 3 - SEQNO on PPRINT only QUE 32 Preparatory code for axes positioning (non-feed) --> HLP 32This parameter is the numeric value associated with preparatory HLP 32codes which invoke the "positioning" mode(G00). If you choose to HLP 32do so, you may influence the way the machine operates with this HLP 32parameter. For example, by setting this parameter to "01" and HLP 32specifying a particular F code for RAPID on the Feedrate Panel, HLP 32RAPID motion would be output as G01__F300 motion blocks. QUE 33 Preparatory code for linear interpolation --> HLP 33 HLP 33 HLP 33This is the numeric value associated with the preparatory code for HLP 33linear interpolation. Generally, linear interpolation is invoked HLP 33by a G01 block. If this particular machine tool does not require HLP 33a prep code for linear interpolation, enter NR (not required). QUE 34 Prep. code for clockwise circular interpolation --> HLP 34Enter the NUMERIC VALUE associated with the preparatory code for HLP 34clockwise interpolation. If a preparatory code is not required by HLP 34this controller, respond with "NR" . This response does not turn HLP 34off circular interpolation, it only suppresses the output of the HLP 34preparatory code. If this machine is not capable of circular HLP 34interpolation at all, respond with "NA". QUE 35 Prep. code for counter clockwise circular interp. --> HLP 35Enter the NUMERIC VALUE associated with the preparatory code for HLP 35counterclockwise interpolation. If a prep code is not required by HLP 35this controller, respond with "NR" . This response does not turn HLP 35off circular interpolation, it only suppresses the output of the HLP 35preparatory code. If this machine is not capable of circular HLP 35interpolation at all, repond with "NA". QUE 36 Preparatory code for dwell --> HLP 36 HLP 36This is the parameter that indicates the numeric value for the HLP 36dwell preparatory code. If no preparatory code is required for a HLP 36dwell function on this machine tool, NR (not required) is the HLP 36appropriate response to this question. HLP 36 QUE 37 Preparatory code for constant lead threading --> HLP 37This parameter sets the numeric value associated with the Prep. HLP 37code for constant lead threading (commonly G33). If this machine HLP 37does not require a Prep. code for threading operations, the proper HLP 37response is NR (not required). If this machine cannot perform HLP 37threading operations at all, NA (not applicable) is the proper HLP 37response. QUE 38 Prep. code for increasing lead threading --> HLP 38This parameter sets the numeric value associated with the Prep. HLP 38code for cutting increasing lead threads. If this machine is not HLP 38capable of this type of threading, the proper response is NA (not HLP 38applicable). HLP 38 HLP 38See also the Postprocessor command PITCH/t,INCR QUE 39 Prep. code for decreasing lead threading --> HLP 39This parameter sets the numeric value associated with the Prep. HLP 39code for cutting decreasing lead threads. If this machine is not HLP 39capable of this type of threading, the proper response is NA (not HLP 39applicable). HLP 39 HLP 39See also the Postprocessor command PITCH/t,DECR QUE 40 Preparatory code for Inch measurement mode --> HLP 40 HLP 40This parameter sets the numeric value associated with the Prep. HLP 40code enabling the inch measurement mode (often G70). If no Prep. HLP 40code is required for inch mode operation, NR (not required) is the HLP 40proper response. If inch mode operation is not available on this HLP 40machine, NA (not applicable) is the proper response. QUE 41 Preparatory code for Metric measurement mode --> HLP 41 HLP 41This parameter sets the numeric value associated with the Prep. HLP 41code enabling the metric measurement mode (often G71). If no Prep. HLP 41code is required for metric mode operation, NR (not required) is HLP 41the proper response. If metric mode operation is not available on HLP 41this machine, NA (not applicable) is the proper response. QUE 42 Preparatory code for Absolute positioning mode --> HLP 42 HLP 42This parameter sets the numeric value associated with the Prep. HLP 42code enabling the absolute positioning mode (often G90). If no HLP 42Prep. code is required for absolute mode, the proper response is HLP 42NR (not required). If this machine positions in the incremental HLP 42mode only, NA (not applicable) is the proper response. QUE 43 Preparatory code for Incremental positioning mode --> HLP 43 HLP 43This parameter sets the numeric value associated with the Prep. HLP 43code enabling the incremental positioning mode (often G91). If no HLP 43Prep. code is required for incremental mode, the proper response HLP 43is NR (not required). If this machine positions in the absolute HLP 43mode only, NA (not applicable) is the proper response. QUE 44 Preparatory code for axes position preset --> HLP 44This parameter sets the numeric value associated with the Prep. HLP 44that activates the position register preset function (often G92). HLP 44If this function is not available on this machine, NA (not ap- HLP 44plicable) is the proper response. HLP 44 HLP 44See also the Postprocessor command SET/START QUE 45 Preparatory code for Inverse time feedrate mode --> HLP 45Via the Postprocessor command MODE/INVERS, the Postprocessor can HLP 45be shifted into the inverse time feedrate mode (this can be set HLP 45as the default also). This parameter sets the numeric value as- HLP 45sociated with the Prep. code required to enable the inverse time HLP 45feedrate mode (often G93). You may enter NR if the Prep. code is HLP 45not required or NA if not applicable. QUE 46 Prep. code for Units/min (IPM/MMPM) feedrate mode --> HLP 46This parameter sets the numeric value associated with the Prep. HLP 46code that invokes the units per minute feedrate mode (IPM or MMPM) HLP 46if available. Enter NR if no Prep. code is required for UPM mode HLP 46operation or NA if this machine cannot operate in the UPM mode. HLP 46 HLP 46See also the Postprocessor command FEDRAT QUE 47 Prep. code for Units/rev (IPR/MMPR) feedrate mode --> HLP 47This parameter sets the numeric value associated with the Prep. HLP 47code that invokes the units per revolution feedrate mode (IPR or HLP 47MMPR) if available. Enter NR if no Prep. code is required for UPR HLP 47mode operation or NA if this machine cannot operate in this mode. HLP 47 HLP 47See also the Postprocessor command FEDRAT QUE 48 Preparatory code for direct RPM spindle mode --> HLP 48If this machine has the ability to control the spindle speed via HLP 48direct RPM S codes, and a Prep. code is required to invoke the RPM HLP 48mode of operation, you should enter the numeric value for the Prep HLP 48code here. NR (not required) will suppress the Prep. code. You HLP 48still have the ability to program the machine with SPINDL/_,RPM HLP 48commands. QUE 49 Prep. code for constant surface speed spindle mode--> HLP 49The spindle speed may be programmed via Constant Surface Speed HLP 49programming even if CSS is not available on the controller. The HLP 49parameter entered here is the numeric value associated with the HLP 49Prep. code that invokes CSS (or SMM) on the controller. Entry of HLP 49NA here indicates that CSS will be handled in the Postprocessor HLP 49rather than on the controller via a Prep. code (often G96). QUE 50 Are multiple prep. codes allowed in one block? --> HLP 50 HLP 50 HLP 50Answer Y if your controller will accept more than one preparatory HLP 50code in a single tape block. HLP 50 HLP 50 QUE 51 Are positioning preparatory codes modal ? --> HLP 51 HLP 51For some controllers, the positioning prep codes must be repeated HLP 51with the axis values, even when the last move was made under rapid HLP 51traverse. Note that this option does not make the RAPID command HLP 51modal in a part program. HLP 51 QUE 52 The preparatory code for CLW interpolation is --> HLP 52Enter the NUMERIC VALUE associated with the preparatory code for HLP 52clockwise interpolation. If a preparatory code is not required by HLP 52this controller, respond with "NR" . This response does not turn HLP 52off circular interpolation, it only suppresses the output of the HLP 52preparatory code. If this machine is not capable of circular HLP 52interpolation at all, respond with "NA". QUE 53 The preparatory code for CCLW interpolation is --> HLP 53Enter the NUMERIC VALUE associated with the preparatory code for HLP 53counterclockwise interpolation. If a prep code is not required by HLP 53this controller, respond with "NR" . This response does not turn HLP 53off circular interpolation, it only suppresses the output of the HLP 53preparatory code. If this machine is not capable of circular HLP 53interpolation at all, repond with "NA". QUE 54 Adjust feedrate for true radial velocity ? --> HLP 54During circular interpolation, the velocity of the cutting edge of HLP 54the tool is not the same as the velocity of the center of the tool HLP 54radius. For example, a .20 tool radius driven around a .005 corner HLP 54at 10 IPM would actually result in a tangential velocity of much HLP 54less than 10 IPM. Programmed feedrates can be automatically HLP 54adjusted to correct this condition. QUE 55 Are the Prep. codes modal in circular interp. --> HLP 55 HLP 55Some controllers require that circular preparatory codes be output HLP 55on each block. Others retain the current prep code as "modal". HLP 55Modal codes are output only when their value changes, not on every HLP 55block. HLP 55 QUE 56 Are the X/Z codes modal in circular interpolation --> HLP 56 HLP 56Some controllers require that the axis motion registers be output HLP 56on each circular interpolation block. Others retain the current HLP 56values as "modal". Modal codes are output only when their value HLP 56changes, not on every block. HLP 56 QUE 57 Enter the maximum radius allowed --> HLP 57Generally, the maximum radius allowed for circular interpolation HLP 57is less than a full field of "9"s in the dimension field locating HLP 57the radius center. For example, even though the format of the IJK HLP 57registers may imply a maximum value of 99.9999, the actual limit HLP 57may be only 32.7676. Any circular motion encountered that exceeds HLP 57this value will automatically be output via linear approximation. QUE 58 Enter the maximum degrees allowed per block --> HLP 58When processing circular data, the Postprocessor will break the HLP 58motion into individual blocks at each quadrant crossing (this is HLP 58the default). You may optionally specify the maximum number of HLP 58degrees allowable for each circular block, regardless of quadrant HLP 58crossings(1-360). Enter 0 to select the default 90 degree quadrant HLP 58output. QUE 59 Is radius programming (vs. I/K) required ? --> HLP 59Circular interpolation blocks may represent the radius or radius HLP 59center in one of two ways. Two registers may be used to locate HLP 59the radius center relative to the tool tip or a single is utilized HLP 59containing the actual radius for the circular motion. If this HLP 59machine requires a single register, RADIUS PROGRAMMING should be HLP 59selected, otherwise ARC OFFSET programming should be selected. QUE 60 Enter the contents of I/K in absolute mode --> HLP 60In ABSOLUTE mode, the contents of the IJK registers in circular HLP 60interpolation can be output in one of four possible ways: HLP 60 1 = Delta arc offset distances (unsigned) HLP 60 2 = Distance from center to start point (signed) HLP 60 3 = Distance from start point to center (signed) HLP 60 4 = Absolute coordinates of radius center QUE 61 Enter the contents of I/K in incremental mode --> HLP 61In INCREMENTAL mode, the contents of the IJK registers in circular HLP 61interpolation can be output in one of three possible ways: HLP 61 HLP 61 1 = Delta arc offset distances (unsigned) HLP 61 2 = Distance from center to start point (signed) HLP 61 3 = Distance from start point to center (signed) QUE 62 Should the I/K codes be output when zero ? --> HLP 62 HLP 62 HLP 62Some controllers assume the IJK registers are zero if they do not HLP 62appear in a circular block. Other controllers require that the IJK HLP 62values be in the circular block even when the value is zero. HLP 62 QUE 63 Are the I/K codes modal ? --> HLP 63 HLP 63Some controllers require that the arc offset registers be output HLP 63on each circular interpolation block. Others retain the current HLP 63values as "modal". Modal codes are output only when their value HLP 63changes, not on every block. HLP 63 QUE 64 What is the letter address of the Radius register --> HLP 64 HLP 64This parameter sets the letter address for the register that HLP 64contains the radius value during circular interpolation. HLP 64 HLP 64See also Postprocessor command PLABEL/OPTION,33 HLP 64 QUE 65 Are the radius codes modal ? --> HLP 65 HLP 65Some controllers require that the register containing the radius HLP 65be output on each circular interpolation block. Others retain the HLP 65current value as "modal". Modal codes are output only when their HLP 65value changes, not on every block. HLP 65 QUE 66 Enter the rapid positioning velocity in units/min.--> HLP 66This parameter establishes the positioning velocity of the machine HLP 66for the purposes of calculating cycle times and verifying the HLP 66integrity of rapid moves made under inverse time feedrate mode. HLP 66 HLP 66Note that this is the actual velocity of the machine tool, not the HLP 66rapid traverse feedrate code (which may not be the same). QUE 67 Enter the rapid feed code register address --> HLP 67On some controllers, the address of the register containing the HLP 67feedrate code is not the same as that of the normal feedrate HLP 67register (eg F20.0 for feed mode vs. E8 for rapid mode). This HLP 67parameter is used to indicate the address of the rapid feedrate HLP 67register. Note that G00 could invoke rapid without need for this HLP 67parameter being set to "G". QUE 68 Enter the special rapid feed code value --> HLP 68 HLP 68In some cases, a "special" feed code is required to indicate rapid HLP 68traverse (often F8, F9 or F0). If this machine requires a code HLP 68such as this, enter the numeric value of the code here. You will HLP 68be prompted later for the format(s) of this special feed code for HLP 68rapid positioning. QUE 69 Enter the special format for rapid codes (Inch) --> HLP 69Enter the format of the special feed code number for rapid HLP 69traverse positioning. Many machines have a feed register formatted HLP 69as F3.2 (resulting in a Fnnn.nn format) for feedrate mode but HLP 69require a "special" F8 code to invoke rapid traverse. In this HLP 69example, the correct entry would be 10 (1 digit left and no digits HLP 69right of implied decimal point.) For F99, format would be 20. QUE 70 Enter the special format for rapid codes (Metric) --> HLP 70Enter the format of the special feed code number for rapid HLP 70traverse positioning. Many machines have a feed register formatted HLP 70as F3.2 (resulting in a Fnnn.nn format) for feedrate mode but HLP 70require a "special" F8 code to invoke rapid traverse. In this HLP 70example, the correct entry would be 10 (1 digit left and no digits HLP 70right of implied decimal point.) For F99, format would be 20. QUE 71 The minimum distance required for rapid is ? --> HLP 71 HLP 71Many machine manufacturers and maintenance departments recommend HLP 71that very short rapid traverse moves not be programmed. The value HLP 71entered here will be the lower dimensional limit allowed for rapid HLP 71motion. Any motion programmed at rapid below this limit will be HLP 71reduced to the feedrate you provide in the next prompt. QUE 72 Feedrate in IPM or MMPM for rapid < min. distance --> HLP 72You should now enter the feedrate (velocity, not coded number) to HLP 72which you want all short (as described previously) rapid traverse HLP 72programmed moves reduced. Input this velocity in units per minute HLP 72as the Postprocessor will automatically convert this to units per HLP 72revolution if that is the current feed mode for the programmed HLP 72motion. See also Postprocessor command FEDRAT/__,RAPTO QUE 73 G-code required for rapid feedrate --> HLP 73Some machines cannot make rapid traverse moves while in the UPR HLP 73feedrate mode. Your response to this question with a G code (in HLP 73lieu of NR) will cause the Postprocessor to automatically shift HLP 73into the mode you specify before making any rapid moves. After HLP 73the rapid move is completed, the Postprocessor will shift back HLP 73into the feedrate mode in effect prior to the traverse move. QUE 74 Is the positioning prep code modal ? --> HLP 74 HLP 74For some controllers, the positioning prep codes must be repeated HLP 74with the axis values, even when the last move was made under rapid HLP 74traverse. Note that this option does not make the RAPID command HLP 74modal in a part program. HLP 74 QUE 75 If one is required, enter the Prep. code for dwell--> HLP 75If this machine requires a specific Prep. code (eg G04) on dwell HLP 75blocks, enter that code here. If the dwell code goes in a special HLP 75register (indicating that a particular Prep. code is not required) HLP 75then the response to this question may be NA (not applicable). HLP 75 HLP 75 QUE 76 Enter the letter address of the dwell register --> HLP 76This parameter sets the register that will contain the dwell code. HLP 76 HLP 76The response of NA (not applicable) to this question will suppress HLP 76the output of a dwell value, but it does not suppress the possible HLP 76output of a Prep. code. For example, if G04 initiates a 2 second HLP 76dwell automatically, this question might be answered NA. QUE 77 Enter the format of the dwell register in IPM --> HLP 77Enter the format of the dwell register for the IPM mode. HLP 77 HLP 77Your response should be a 2 digit number. The first digit sets HLP 77the number of digits to the left of the implied decimal point; the HLP 77second sets the number of digits to the right. HLP 77 Example: 21 represents the format nn.n (03.5) seconds QUE 78 Enter the format of the dwell register in MMPM --> HLP 78Enter the format of the dwell register for the MMPM mode. HLP 78 HLP 78Your response should be a 2 digit number. The first digit sets HLP 78the number of digits to the left of the implied decimal point; the HLP 78second sets the number of digits to the right. HLP 78 Example: 21 represents the format nn.n (03.5) seconds QUE 79 Enter the smallest allowable value in IPM or MMPM --> HLP 79 HLP 79 HLP 79In seconds, enter the shortest dwell time acceptable to this HLP 79machine tool while in the UPM feed mode. HLP 79 HLP 79 QUE 80 Enter the largest allowable value in IPM or MMPM --> HLP 80 HLP 80 HLP 80In seconds, enter the longest dwell time acceptable to this HLP 80machine tool while in the UPM feed mode. HLP 80 HLP 80 QUE 81 Enter the format of the dwell register in IPR --> HLP 81Enter the format of the dwell register for the IPR mode. HLP 81Your response should be a 2 digit number. The first digit sets the HLP 81number of digits to the left of the implied decimal point; the HLP 81second sets the number of digits to the right. HLP 81Enter NA to output the dwell in seconds. The Postprocessor will HLP 81convert the delay from revolutions to seconds for you. QUE 82 Enter the format of the dwell register in MMPR --> HLP 82Enter the format of the dwell register for the MMPR mode. HLP 82Your response should be a 2 digit number. The first digit sets HLP 82the number of digits to the left of the implied decimal point; the HLP 82second sets the number of digits to the right. HLP 82Enter NA to output the dwell in seconds. The Postprocessor will HLP 82convert the delay from revolutions to seconds for you. QUE 83 Enter the smallest allowable value in IPR or MMPR --> HLP 83 HLP 83 HLP 83In revolutions, enter the smallest amount of dwell acceptable to HLP 83the machine in the UPR mode. HLP 83 HLP 83 QUE 84 Enter the largest allowable value in IPR or MMPR --> HLP 84 HLP 84 HLP 84In revolutions, enter the largest amount of dwell acceptable to HLP 84the machine in the UPR mode. HLP 84 HLP 84 QUE 85 Enter the dwell time REQUIRED for a turret index --> HLP 85Some turning centers require a dwell to allow the turret index HLP 85interlock to take effect. If this machine requires that a HLP 85specific dwell be associated with every turret index, the time HLP 85required, IN SECONDS, should be entered here. The Postprocessor HLP 85will automatically convert seconds to the correct number of HLP 85revolutions if required. QUE 86 Enter the feed mode required for turret index --> HLP 86If this machine REQUIRES that a specific feedrate mode be in HLP 86effect prior to indexing the turret, this parameter is used to HLP 86indicate so. This parameter should be the numeric value associated HLP 86with the Prep. code establishing the correct UPM or UPR feed mode HLP 86PRIOR to a turret index. Enter NA if this machine does not need HLP 86to be in a specific feedrate mode prior to indexing the turret. QUE 87 Is direct RPM available on this machine ? --> HLP 87 HLP 87For your controller if the letter address "S" followed by a number HLP 87such as S200 sets the spindle speed to 200 RPM at the machine tool HLP 87then enter YES. If 200 RPM is specified as a code S01 by a table HLP 87lookup, then enter NO. HLP 87 QUE 88 Enter the number of spindle ranges available --> HLP 88This parameter establishes the number of spindle speed ranges HLP 88available. HLP 88 HLP 88Note that the miscellaneous codes associated with spindle range HLP 88changes, etc. are established on the "Auxiliary Functions Menu". HLP 88 QUE 89 Enter the desired default range --> HLP 89The Postprocessor will automatically default the spindle speed HLP 89range to the one entered here. This default establishes what HLP 89range to select only if there is no "RANGE,n" couplet on the HLP 89SPINDL command. The "RANGE" utilized by the SPINDL command is HLP 89modal and need not be entered unless changing. HLP 89 See also the Postprocessor command SPINDL/... QUE 90 CSFM option available on the control ? --> HLP 90If CSFM is not available on your control, the Postprocessor can HLP 90simulate it by segmenting the motion. If you have specified that HLP 90your control uses direct RPM, this feature will cause the Post- HLP 90processor to create a spindle lookup table based on the minimum HLP 90and maximum spindle values you supply. This will cause speeds to HLP 90be adjusted to the nearest table value when in RPM mode. QUE 91 Preparatory code that establishes RPM mode --> HLP 91 HLP 91With both direct RPM and Constant Surface Speed programming modes HLP 91available, the Postprocessor must be able to output the proper HLP 91preparatory codes to initiate each. This parameter specifies the HLP 91value associated with the Prep. code that establishes the direct HLP 91RPM spindle speed programming mode. QUE 92 Preparatory code that establishes CSS mode --> HLP 92Enter the preparatory code for establishing the Constant Surface HLP 92Speed (SFM or SMM) mode. Note that the address and format of the HLP 92radius register as well as the spindle speed restraint register HLP 92are established on the "Tape Formats Menu". The miscellaneous HLP 92codes associated with range changes and spindle rotation HLP 92direction are established on the "Auxiliary Functions Menu". QUE 93 Output SFM blocks for circular motions ? --> HLP 93 HLP 93When CSFM is not available, the Postprocessor will segment the HLP 93circular moves and change speeds to maintain a constant cutting HLP 93feed. You can override this feature by entering "NO". HLP 93 HLP 93 QUE 94 Enter the minimum speed available in range one --> HLP 94Enter the upper/lower limit for this range at the prompt. Keep HLP 94in mind that you may influence the way the Postprocessor selects HLP 94ranges and/or establishes shift points by the way you indicate HLP 94speed overlaps in adjacent ranges. By adjusting what the Post- HLP 94processor knows as the maximum or minimum speeds in adjacent HLP 94ranges, you may ensure that maximum torque is available. QUE 95 Enter the maximum speed avaliable in range one --> HLP 95Enter the upper/lower limit for this range at the prompt. Keep HLP 95in mind that you may influence the way the Postprocessor selects HLP 95ranges and/or establishes shift points by the way you indicate HLP 95speed overlaps in adjacent ranges. By adjusting what the Post- HLP 95processor knows as the maximum or minimum speeds in adjacent HLP 95ranges, you may ensure that maximum torque is available. QUE 96 Enter the minimum speed available in range two --> HLP 96Enter the upper/lower limit for this range at the prompt. Keep HLP 96in mind that you may influence the way the Postprocessor selects HLP 96ranges and/or establishes shift points by the way you indicate HLP 96speed overlaps in adjacent ranges. By adjusting what the Post- HLP 96processor knows as the maximum or minimum speeds in adjacent HLP 96ranges, you may ensure that maximum torque is available. QUE 97 Enter the maximum speed avaliable in range two --> HLP 97Enter the upper/lower limit for this range at the prompt. Keep HLP 97in mind that you may influence the way the Postprocessor selects HLP 97ranges and/or establishes shift points by the way you indicate HLP 97speed overlaps in adjacent ranges. By adjusting what the Post- HLP 97processor knows as the maximum or minimum speeds in adjacent HLP 97ranges, you may ensure that maximum torque is available. QUE 98 Enter the minimum speed available in range three --> HLP 98Enter the upper/lower limit for this range at the prompt. Keep HLP 98in mind that you may influence the way the Postprocessor selects HLP 98ranges and/or establishes shift points by the way you indicate HLP 98speed overlaps in adjacent ranges. By adjusting what the Post- HLP 98processor knows as the maximum or minimum speeds in adjacent HLP 98ranges, you may ensure that maximum torque is available. QUE 99 Enter the maximum speed avaliable in range three --> HLP 99Enter the upper/lower limit for this range at the prompt. Keep HLP 99in mind that you may influence the way the Postprocessor selects HLP 99ranges and/or establishes shift points by the way you indicate HLP 99speed overlaps in adjacent ranges. By adjusting what the Post- HLP 99processor knows as the maximum or minimum speeds in adjacent HLP 99ranges, you may ensure that maximum torque is available. QUE100 Enter the minimum speed available in range four --> HLP100Enter the upper/lower limit for this range at the prompt. Keep HLP100in mind that you may influence the way the Postprocessor selects HLP100ranges and/or establishes shift points by the way you indicate HLP100speed overlaps in adjacent ranges. By adjusting what the Post- HLP100processor knows as the maximum or minimum speeds in adjacent HLP100ranges, you may ensure that maximum torque is available. QUE101 Enter the maximum speed avaliable in range four --> HLP101Enter the upper/lower limit for this range at the prompt. Keep HLP101in mind that you may influence the way the Postprocessor selects HLP101ranges and/or establishes shift points by the way you indicate HLP101speed overlaps in adjacent ranges. By adjusting what the Post- HLP101processor knows as the maximum or minimum speeds in adjacent HLP101ranges, you may ensure that maximum torque is available. QUE102 Enter the minimum speed available in range five --> HLP102Enter the upper/lower limit for this range at the prompt. Keep HLP102in mind that you may influence the way the Postprocessor selects HLP102ranges and/or establishes shift points by the way you indicate HLP102speed overlaps in adjacent ranges. By adjusting what the Post- HLP102processor knows as the maximum or minimum speeds in adjacent HLP102ranges, you may ensure that maximum torque is available. QUE103 Enter the maximum speed avaliable in range five --> HLP103Enter the upper/lower limit for this range at the prompt. Keep HLP103in mind that you may influence the way the Postprocessor selects HLP103ranges and/or establishes shift points by the way you indicate HLP103speed overlaps in adjacent ranges. By adjusting what the Post- HLP103processor knows as the maximum or minimum speeds in adjacent HLP103ranges, you may ensure that maximum torque is available. QUE104 Enter the minimum speed available in range six --> HLP104Enter the upper/lower limit for this range at the prompt. Keep HLP104in mind that you may influence the way the Postprocessor selects HLP104ranges and/or establishes shift points by the way you indicate HLP104speed overlaps in adjacent ranges. By adjusting what the Post- HLP104processor knows as the maximum or minimum speeds in adjacent HLP104ranges, you may ensure that maximum torque is available. QUE105 Enter the maximum speed avaliable in range six --> HLP105Enter the upper/lower limit for this range at the prompt. Keep HLP105in mind that you may influence the way the Postprocessor selects HLP105ranges and/or establishes shift points by the way you indicate HLP105speed overlaps in adjacent ranges. By adjusting what the Post- HLP105processor knows as the maximum or minimum speeds in adjacent HLP105ranges, you may ensure that maximum torque is available. QUE106 Enter the number of spindle codes in range one --> HLP106Enter the number of speeds for this range at the prompt. Keep HLP106in mind that you may influence the way the Postprocessor selects HLP106ranges and/or establishes shift points by the way you indicate HLP106speed overlaps in adjacent ranges. By adjusting what the Post- HLP106processor knows as the maximum or minimum speeds in adjacent HLP106ranges, you may ensure that maximum torque is available. QUE107 Enter the number of spindle codes in range two --> HLP107Enter the number of speeds for this range at the prompt. Keep HLP107in mind that you may influence the way the Postprocessor selects HLP107ranges and/or establishes shift points by the way you indicate HLP107speed overlaps in adjacent ranges. By adjusting what the Post- HLP107processor knows as the maximum or minimum speeds in adjacent HLP107ranges, you may ensure that maximum torque is available. QUE108 Enter the number of spindle codes in range three --> HLP108Enter the number of speeds for this range at the prompt. Keep HLP108in mind that you may influence the way the Postprocessor selects HLP108ranges and/or establishes shift points by the way you indicate HLP108speed overlaps in adjacent ranges. By adjusting what the Post- HLP108processor knows as the maximum or minimum speeds in adjacent HLP108ranges, you may ensure that maximum torque is available. QUE109 Enter the number of spindle codes in range four --> HLP109Enter the number of speeds for this range at the prompt. Keep HLP109in mind that you may influence the way the Postprocessor selects HLP109ranges and/or establishes shift points by the way you indicate HLP109speed overlaps in adjacent ranges. By adjusting what the Post- HLP109processor knows as the maximum or minimum speeds in adjacent HLP109ranges, you may ensure that maximum torque is available. QUE110 Enter the number of spindle codes in range five --> HLP110Enter the number of speeds for this range at the prompt. Keep HLP110in mind that you may influence the way the Postprocessor selects HLP110ranges and/or establishes shift points by the way you indicate HLP110speed overlaps in adjacent ranges. By adjusting what the Post- HLP110processor knows as the maximum or minimum speeds in adjacent HLP110ranges, you may ensure that maximum torque is available. QUE111 Enter the number of spindle codes in range six --> HLP111Enter the number of speeds for this range at the prompt. Keep HLP111in mind that you may influence the way the Postprocessor selects HLP111ranges and/or establishes shift points by the way you indicate HLP111speed overlaps in adjacent ranges. By adjusting what the Post- HLP111processor knows as the maximum or minimum speeds in adjacent HLP111ranges, you may ensure that maximum torque is available. QUE112 Enter the spindle SPEED required --> HLP112Enter the speed/code value for this range at the prompt. Keep HLP112in mind that you may influence the way the Postprocessor selects HLP112ranges and/or establishes shift points by the way you indicate HLP112speed overlaps in adjacent ranges. By adjusting what the Post- HLP112processor knows as the maximum or minimum speeds in adjacent HLP112ranges, you may ensure that maximum torque is available. QUE113 Enter the spindle CODE required --> HLP113Enter the speed/code value for this range at the prompt. Keep HLP113in mind that you may influence the way the Postprocessor selects HLP113ranges and/or establishes shift points by the way you indicate HLP113speed overlaps in adjacent ranges. By adjusting what the Post- HLP113processor knows as the maximum or minimum speeds in adjacent HLP113ranges, you may ensure that maximum torque is available. QUE114 Preparatory code that establishes UPM mode --> HLP114Generally, UPM mode (either IPM or MMPM) of feedrate programming HLP114is established by the output of a Prep. code (often G94). Enter HLP114the numeric value of the code that establishes UPM for this HLP114machine. If neither IPM or MMPM are available on this machine, NA HLP114indicates to the Postprocessor to convert all FEDRAT/-UPM commands HLP114into the resultant UPR, based on spindle speed. QUE115 Enter the format of the feedrate register in IPM --> HLP115Machines that are both Inch/Metric and UPM/UPR switchable often HLP115have different feedrate register formats for each combination. HLP115Enter the format as a two digit number, the first indicating the HLP115number of digits to the left of the implied decimal point, the HLP115second the number of digits to the right (example: a format input HLP115as "32" establishes a Fnnn.nn register - dec. pt. implied). QUE116 Enter the format of the feedrate register in MMPM --> HLP116Machines that are both Inch/Metric and UPM/UPR switchable often HLP116have different feedrate register formats for each combination. HLP116Enter the format as a two digit number, the first indicating the HLP116number of digits to the left of the implied decimal point, the HLP116second the number of digits to the right (example: a format input HLP116as "32" establishes a Fnnn.nn register - dec. pt. implied). QUE117 Enter the slowest feedrate allowable in UPM mode --> HLP117 HLP117Machines that are both Inch/Metric and UPM/UPR switchable often HLP117have different feedrate limitations for each combination. Enter HLP117the appropriate maximum or minimum allowable feedrate for the mode HLP117combination indicated. Keep in mind that these limits may result HLP117in different velocities depending on the mode combination. QUE118 Enter the fastest feedrate allowable in UPM mode --> HLP118 HLP118Machines that are both Inch/Metric and UPM/UPR switchable often HLP118have different feedrate limitations for each combination. Enter HLP118the appropriate maximum or minimum allowable feedrate for the mode HLP118combination indicated. Keep in mind that these limits may result HLP118in different velocities depending on the mode combination. QUE119 Preparatory code that establishes UPR mode --> HLP119Generally, UPR mode (either IPR or MMPR) of feedrate programming HLP119is established by the output of a Prep. code (often G95). Enter HLP119the numeric value of the code that establishes UPR for this HLP119machine. If neither IPR or MMPR are available on this machine, NA HLP119indicates to the Postprocessor to convert all FEDRAT/-UPR commands HLP119into the resultant UPM, based on spindle speed. QUE120 Enter the format of the feedrate register in IPR --> HLP120Machines that are both Inch/Metric and UPM/UPR switchable often HLP120have different feedrate register formats for each combination. HLP120Enter the format as a two digit number, the first indicating the HLP120number of digits to the left of the implied decimal point, the HLP120second the number of digits to the right (example: a format input HLP120as "32" establishes a Fnnn.nn register - dec. pt. implied). QUE121 Enter the format of the feedrate register in MMPR --> HLP121Machines that are both Inch/Metric and UPM/UPR switchable often HLP121have different feedrate register formats for each combination. HLP121Enter the format as a two digit number, the first indicating the HLP121number of digits to the left of the implied decimal point, the HLP121second the number of digits to the right (example: a format input HLP121as "32" establishes a Fnnn.nn register - dec. pt. implied). QUE122 Enter the slowest feedrate allowable in UPR mode --> HLP122 HLP122Machines that are both Inch/Metric and UPM/UPR switchable often HLP122have different feedrate limitations for each combination. Enter HLP122the appropriate maximum or minimum allowable feedrate for the mode HLP122combination indicated. Keep in mind that these limits may result HLP122in different velocities depending on the mode combination. QUE123 Enter the fastest feedrate allowable in UPR mode --> HLP123 HLP123Machines that are both Inch/Metric and UPM/UPR switchable often HLP123have different feedrate limitations for each combination. Enter HLP123the appropriate maximum or minimum allowable feedrate for the mode HLP123combination indicated. Keep in mind that these limits may result HLP123in different velocities depending on the mode combination. QUE124 Enter the Prep. code that establishes Inverse Time--> HLP124Generally, Inverse Time feedrate programming is established by the HLP124output of a Prep. code (often G93). If desired/required, enter HLP124this code now. Should this machine have only inverse time feed- HLP124available, you should have responded "NA" to both UPM and UPR Prep HLP124code questions. Regardless of the modes available, the Post- HLP124processor will accept FEDRAT commands with UPM & UPR modifiers. QUE125 Inverse Time feed code format for Inch mode is --> HLP125Machines that are both Inch/Metric and UPM/UPR switchable often HLP125have different feedrate register formats for each combination. HLP125Enter the format as a two digit number, the first indicating the HLP125number of digits to the left of the implied decimal point, the HLP125second the number of digits to the right (example: a format input HLP125as "32" establishes a Fnnn.nn register - dec. pt. implied). QUE126 Inverse Time feed code format for Metric mode is --> HLP126Machines that are both Inch/Metric and UPM/UPR switchable often HLP126have different feedrate register formats for each combination. HLP126Enter the format as a two digit number, the first indicating the HLP126number of digits to the left of the implied decimal point, the HLP126second the number of digits to the right (example: a format input HLP126as "32" establishes a Fnnn.nn register - dec. pt. implied). QUE127 Enter the smallest allowable Inverse Time code --> HLP127 HLP127Machines that are both Inch/Metric and UPM/UPR switchable often HLP127have different feedrate limitations for each combination. Enter HLP127the appropriate maximum or minimum allowable feedrate for the mode HLP127combination indicated. Keep in mind that these limits may result HLP127in different velocities depending on the mode combination. QUE128 Enter the largest allowable Inverse Time code --> HLP128 HLP128Machines that are both Inch/Metric and UPM/UPR switchable often HLP128have different feedrate limitations for each combination. Enter HLP128the appropriate maximum or minimum allowable feedrate for the mode HLP128combination indicated. Keep in mind that these limits may result HLP128in different velocities depending on the mode combination. QUE129 Enter the desired default feedrate mode Prep. code--> HLP129Enter the default feedrate mode desired. The mode you select HLP129can be used to override the actual default on the machine tool if HLP129desired. You may specify that the code entered here is output at HLP129the beginning of each program, effectively resetting the "normal" HLP129mode of the control. Respond to the prompt with the numeric value HLP129associated with the desired Prep. code. QUE130 The misc. code for feedrate override enable is --> HLP130Most machines provide the operator with a feedrate override HLP130control function. Normally, this function can be enabled and dis- HLP130abled via miscellaneous codes in the control data (often M50 and HLP130M51). Enter the code that ENABLES the operator feedrate override HLP130control (ALLOWS the operator to slow down programmed feedrates). HLP130See also Postprocessor command FEDRAT/... QUE131 The misc. code for feedrate override disable is --> HLP131Most machines provide the operator with a feedrate override HLP131control function. Normally, this function can be enabled and dis- HLP131abled via miscellaneous codes in the control data (often M50 and HLP131M51). Enter the code that DISABLES the operator feedrate override HLP131control (DOES NOT ALLOW the operator to override programmed HLP131feedrates). See also Postprocessor command FEDRAT/... QUE132 The title (for listing/directory display - 66 chars.): HLP132Enter the title you want to use as a heading for this option file. HLP132You can use a maximum of 66 characters. HLP132 HLP132 HLP132 HLP132 QUE133 Type of "Verification print" in list file --> HLP133Enter the value that describes the type of verification print: HLP133 0 - do not generate verification print HLP133 1 - generate modal verification print HLP133 2 - generate non-modal verification print HLP13311 - generate modal verification print and CL point (xyz) HLP13312 - generate non-modal verification print and CL point (xyz) QUE134 Should the X axis verification be shown as dia. ? --> HLP134Normally the machine X axis dimensions shown in the verification HLP134listing are presented as radii (Spindle CL to tool tip). This HLP134option allows you to specify the verification data be output HLP134as part diameters (modified by tool nose radius). Selection of HLP134this option does not imply that the control data (punch file) HLP134is modified - this data controlled via "Mach/Controller Spec Menu" QUE135 Should the heading appear on every page of listing--> HLP135 HLP135Enter Yes to have the heading appear on every page of the section HLP135four output the list file produced. Enter No to have the heading HLP135appear only on the first page of the section four output. HLP135 HLP135 QUE136 Print tape image in list file file ? --> HLP136The Postprocessor can either print the tape image exactly as it HLP136appears in the punch file or else it can format the output. HLP136Enter Yes if you require the tape image to be printed in the list HLP136file. HLP136Enter No if you require a formatted version of the tape image to HLP136be printed in the list file. QUE137 Suppress output of ALL WARNINGS to list file ? --> HLP137There may be instances when you want to suppress all warnings in HLP137the list file. For example, warnings are produced if you exceed HLP137the slide travel limits of the machine tool. If you do not want to HLP137have these warnings printed to the list file, enter Yes. If you do HLP137want these warnings to be printed, enter No. HLP137 QUE138 Suppress MAJOR WORD WARNINGS on list file ? --> HLP138There may be instances when you want to suppress all major word HLP138warnings in the list file. For example, assume that the clfile HLP138contains the SET command for G92 output. Machine 1 has the preset HLP138option (G92), but machine 2 does not. The Postprocessor would HLP138produce a warning in the list file for machine number 2, although HLP138it would not output a G92. QUE139 Preparatory code for constant lead threading --> HLP139This parameter sets the numeric value associated with the Prep. HLP139code for constant lead threading (commonly G33). If this machine HLP139does not require a Prep. code for threading operations, the proper HLP139response is NR (not required). If this machine cannot perform HLP139threading operations at all, NA (not applicable) is the proper HLP139response. QUE140 Prep. code for increasing lead threading --> HLP140This parameter sets the numeric value associated with the Prep. HLP140code for cutting increasing lead threads. If this machine is not HLP140capable of this type of threading, the proper response is NA (not HLP140applicable). HLP140 HLP140See also the Postprocessor command PITCH/t,INCR QUE141 Prep. code for decreasing lead threading --> HLP141This parameter sets the numeric value associated with the Prep. HLP141code for cutting decreasing lead threads. If this machine is not HLP141capable of this type of threading, the proper response is NA (not HLP141applicable). HLP141 HLP141See also the Postprocessor command PITCH/t,DECR QUE142 Should PITCH/n be interpreted as lead (not TPI) --> HLP142The Postprocessor will set the specification of thread lead as HLP142either threads per inch or as actual lead (displacement per HLP142revolution). Although in the U.S. lead is often specified as TPI, HLP142in Metric it is not usually desirable to state the number of HLP142threads per millimeter. A response of Y (YES) indicates that the HLP142Postprocessor should expect PITCH to contain actual lead. QUE143 Enter the programmable resolution for threading --> HLP143When the threading encoder is engaged, the programmable resolution HLP143(location of the implied decimal point) of the register containing HLP143the lead value (normally I or K) usually changes. Enter the HLP143resolution available during the thread mode. This parameter is HLP143used for rounding the lead value for maximum accuracy. Most HLP143machines accept lead to the accuracy of .00001 (inch). QUE144 Enter the format of the lead register in INCH --> HLP144This parameter adjusts the format of the register containing the HLP144the thread lead (often the I or K register). As the resolution HLP144can change during threading, so can the location of the implied HLP144decimal point. Enter a two digit number. The first indicates the HLP144number of digits to the left and the second the number of digits HLP144to the right of the decimal point. (ex 15 -> 0.00001). QUE145 Enter for format of the lead register in METRIC --> HLP145This parameter adjusts the format of the register containing the HLP145the thread lead (often the I or K register). As the resolution HLP145can change during threading, so can the location of the implied HLP145decimal point. Enter a two digit number. The first indicates the HLP145number of digits to the left and the second the number of digits HLP145to the right of the decimal point. (ex 15 -> 0.00001). QUE146 Enter the auxiliary code for machine STOP --> HLP146 HLP146The Postprocessor commands STOP, OPSTOP, END and REWIND generally HLP146generate the M-codes M00, M01, M02 and M30, respectively. If for HLP146any reason this machine requires different codes, or if you would HLP146like to modify these codes for compatibility/portability reasons, HLP146enter the desired auxiliary code at the prompt. QUE147 Enter the auxiliary code for machine OPSTOP --> HLP147 HLP147The Postprocessor commands STOP, OPSTOP, END and REWIND generally HLP147generate the M-codes M00, M01, M02 and M30, respectively. If for HLP147any reason this machine requires different codes, or if you would HLP147like to modify these codes for compatibility/portability reasons, HLP147enter the desired auxiliary code at the prompt. QUE148 Enter the auxiliary code for machine END of PROG.--> HLP148 HLP148The Postprocessor commands STOP, OPSTOP, END and REWIND generally HLP148generate the M-codes M00, M01, M02 and M30, respectively. If for HLP148any reason this machine requires different codes, or if you would HLP148like to modify these codes for compatibility/portability reasons, HLP148enter the desired auxiliary code at the prompt. QUE149 Enter the auxiliary code for program REWIND --> HLP149 HLP149The Postprocessor commands STOP, OPSTOP, END and REWIND generally HLP149generate the M-codes M00, M01, M02 and M30, respectively. If for HLP149any reason this machine requires different codes, or if you would HLP149like to modify these codes for compatibility/portability reasons, HLP149enter the desired auxiliary code at the prompt. QUE150 Enter the auxiliary code for SPINDLE on CLW --> HLP150The Postprocessor command SPINDL, when augmented by CLW or CCLW, HLP150will output the auxiliary code (M-code) you specify here. HLP150In addition, SPINDL/ON can be issued at any time to reinstate the HLP150current range, direction, speed, etc. The SPINDL/ON default asked HLP150for here is used to establish the direction should a SPINDL/ON HLP150command be encountered before the direction is set. QUE151 Enter the auxiliary code for SPINDLE on CCLW --> HLP151The Postprocessor command SPINDL, when augmented by CLW or CCLW, HLP151will output the auxiliary code (M-code) you specify here. HLP151In addition, SPINDL/ON can be issued at any time to reinstate the HLP151current range, direction, speed, etc. The SPINDL/ON default asked HLP151for here is used to establish the direction should a SPINDL/ON HLP151command be encountered before the direction is set. QUE152 Enter the code for SPINDLE/ON default direction --> HLP152The Postprocessor command SPINDL, when augmented by CLW or CCLW, HLP152will output the auxiliary code (M-code) you specify here. HLP152In addition, SPINDL/ON can be issued at any time to reinstate the HLP152current range, direction, speed, etc. The SPINDL/ON default asked HLP152for here is used to establish the direction should a SPINDL/ON HLP152command be encountered before the direction is set. QUE153 Enter the auxiliary code for SPINDLE off --> HLP153 HLP153Many machines allow the spindle to be stopped in two different HLP153manners: a simple stop, or a stop with a special orientation to HLP153facilitate part or fixture loading. You may enter these codes at HLP153the prompt. HLP153 See also the Postprocessor command SPINDL QUE154 Enter the auxiliary code for SPINDLE off,ORIENT --> HLP154 HLP154Many machines allow the spindle to be stopped in two different HLP154manners: a simple stop, or a stop with a special orientation to HLP154facilitate part or fixture loading. You may enter these codes at HLP154the prompt. HLP154 See also the Postprocessor command SPINDL QUE155 Enter the auxiliary code for CSS lockout --> HLP155 HLP155The Postprocessor automatically outputs the CSS lock and unlock HLP155codes for rapid moves while in CSS spindle control. Use of the HLP155LOCK,ON or LOCK,OFF options on the SPINDL command will also put HLP155these codes out. Enter the codes that disable (lock) or enable HLP155(unlock) the spindle CSS control based on X axis motion. QUE156 Enter the auxiliary code for CSS enable --> HLP156 HLP156The Postprocessor automatically outputs the CSS lock and unlock HLP156codes for rapid moves while in CSS spindle control. Use of the HLP156LOCK,ON or LOCK,OFF options on the SPINDL command will also put HLP156these codes out. Enter the codes that disable (lock) or enable HLP156(unlock) the spindle CSS control based on X axis motion. QUE157 Enter the auxiliary code for COOLANT/MIST --> HLP157 HLP157You may enter the codes that you desire to be output by the HLP157various forms of the COOLNT command. Enter the code at the prompt HLP157associated with the Postprocessor command required. HLP157 HLP157 See also the Postprocessor commands SPINDL and COOLNT QUE158 Enter the auxiliary code for COOLANT/FLOOD --> HLP158 HLP158You may enter the codes that you desire to be output by the HLP158various forms of the COOLNT command. Enter the code at the prompt HLP158associated with the Postprocessor command required. HLP158 HLP158 See also the Postprocessor commands SPINDL and COOLNT QUE159 Enter the code for COOLANT/ON default (MIST-FLOOD)--> HLP159 HLP159You may enter the codes that you desire to be output by the HLP159various forms of the COOLNT command. Enter the code at the prompt HLP159associated with the Postprocessor command required. HLP159 HLP159 See also the Postprocessor commands SPINDL and COOLNT QUE160 Enter the auxiliary code for COOLANT/OFF --> HLP160 HLP160You may enter the codes that you desire to be output by the HLP160various forms of the COOLNT command. Enter the code at the prompt HLP160associated with the Postprocessor command required. HLP160 HLP160 See also the Postprocessor commands SPINDL and COOLNT QUE161 Enter the auxiliary code for CLW turret index --> HLP161If required and/or available, the Postprocessor will output the HLP161codes indicating turret index direction. Indicate the codes for HLP161CLW and CCLW direction at the prompt. If this machine will HLP161automatically take the "shortest path" to the next turret called HLP161for, it may be appropriate to respond with NA (not applicable) to HLP161this prompt. QUE162 Enter the auxiliary code for CCLW turret index --> HLP162If required and/or available, the Postprocessor will output the HLP162codes indicating turret index direction. Indicate the codes for HLP162CLW and CCLW direction at the prompt. If this machine will HLP162automatically take the "shortest path" to the next turret called HLP162for, it may be appropriate to respond with NA (not applicable) to HLP162this prompt. QUE163 Enter the code for default direction (CLW/CCLW) --> HLP163If required and/or available, the Postprocessor will output the HLP163codes indicating turret index direction. Indicate the codes for HLP163CLW and CCLW direction at the prompt. If this machine will HLP163automatically take the "shortest path" to the next turret called HLP163for, it may be appropriate to respond with NA (not applicable) to HLP163this prompt. QUE164 Enter the code for feedrate override enable --> HLP164Most machines provide the operator with a feedrate override HLP164control function. Normally, this function can be enabled and dis- HLP164abled via miscellaneous codes in the control data (often M50 and HLP164M51). Enter the code that ENABLES the operator feedrate override HLP164control (eg ALLOWS the operator to slow down programmed programmed HLP164feedrates). See also Postprocessor command FEDRAT/... QUE165 Enter the code for feedrate override disable --> HLP165Most machines provide the operator with a feedrate override HLP165control function. Normally, this function can be enabled and dis- HLP165abled via miscellaneous codes in the control data (often M50 and HLP165M51). Enter the code that DISABLES the operator feedrate override HLP165control (eg DOES NOT ALLOW the operator to override programmed HLP165feedrates). See also Postprocessor command FEDRAT/... QUE166 Are multiple M-codes allowed in one block --> HLP166 HLP166 HLP166Respond Y (YES) to this question if this machine can act on HLP166multiple miscellaneous codes in the same block of control data. HLP166 HLP166 QUE167 Enter the code to select spindle range 1 --> HLP167 HLP167 HLP167 HLP167If this machine requires a special miscellaneous code for changing HLP167ranges, enter the appropriate code for the designated range. HLP167 QUE168 Enter the code to select spindle range 2 --> HLP168 HLP168 HLP168 HLP168If this machine requires a special miscellaneous code for changing HLP168ranges, enter the appropriate code for the designated range. HLP168 QUE169 Enter the code to select spindle range 3 --> HLP169 HLP169 HLP169 HLP169If this machine requires a special miscellaneous code for changing HLP169ranges, enter the appropriate code for the designated range. HLP169 QUE170 Enter the code to select spindle range 4 --> HLP170 HLP170 HLP170 HLP170If this machine requires a special miscellaneous code for changing HLP170ranges, enter the appropriate code for the designated range. HLP170 QUE171 Enter the code to select spindle range 5 --> HLP171 HLP171 HLP171 HLP171If this machine requires a special miscellaneous code for changing HLP171ranges, enter the appropriate code for the designated range. HLP171 QUE172 Enter the code to select spindle range 6 --> HLP172 HLP172 HLP172 HLP172If this machine requires a special miscellaneous code for changing HLP172ranges, enter the appropriate code for the designated range. HLP172 QUE173 Enter the letter address for the sequence number --> HLP173The letter address of each register may be changed by entering the HLP173the desired new address. Entry of NA (not applicable) disables HLP173the output of the ENTIRE REGISTER. For the purpose of establishing HLP173the order in which these registers appear in each block, the ad- HLP173dresses are displayed even though they will not appear in the HLP173output if "tab sequential" format is selected. QUE174 Enter the letter address for the Prep. codes --> HLP174The letter address of each register may be changed by entering the HLP174the desired new address. Entry of NA (not applicable) disables HLP174the output of the ENTIRE REGISTER. For the purpose of establishing HLP174the order in which these registers appear in each block, the ad- HLP174dresses are displayed even though they will not appear in the HLP174output if "tab sequential" format is selected. QUE175 Enter the letter address for X motion register --> HLP175The letter address of each register may be changed by entering the HLP175the desired new address. Entry of NA (not applicable) disables HLP175the output of the ENTIRE REGISTER. For the purpose of establishing HLP175the order in which these registers appear in each block, the ad- HLP175dresses are displayed even though they will not appear in the HLP175output if "tab sequential" format is selected. QUE176 Enter the letter address for Z motion register --> HLP176The letter address of each register may be changed by entering the HLP176the desired new address. Entry of NA (not applicable) disables HLP176the output of the ENTIRE REGISTER. For the purpose of establishing HLP176the order in which these registers appear in each block, the ad- HLP176dresses are displayed even though they will not appear in the HLP176output if "tab sequential" format is selected. QUE177 Enter the address of the X arc offset register --> HLP177The letter address of each register may be changed by entering the HLP177the desired new address. Entry of NA (not applicable) disables HLP177the output of the ENTIRE REGISTER. For the purpose of establishing HLP177the order in which these registers appear in each block, the ad- HLP177dresses are displayed even though they will not appear in the HLP177output if "tab sequential" format is selected. QUE178 Enter the address of the Z arc offset register --> HLP178The letter address of each register may be changed by entering the HLP178the desired new address. Entry of NA (not applicable) disables HLP178the output of the ENTIRE REGISTER. For the purpose of establishing HLP178the order in which these registers appear in each block, the ad- HLP178dresses are displayed even though they will not appear in the HLP178output if "tab sequential" format is selected. QUE179 Enter the radius address used for CSS spindle code--> HLP179The letter address of each register may be changed by entering the HLP179the desired new address. Entry of NA (not applicable) disables HLP179the output of the ENTIRE REGISTER. For the purpose of establishing HLP179the order in which these registers appear in each block, the ad- HLP179dresses are displayed even though they will not appear in the HLP179output if "tab sequential" format is selected. QUE180 Enter the letter address for the feedrate register--> HLP180The letter address of each register may be changed by entering the HLP180the desired new address. Entry of NA (not applicable) disables HLP180the output of the ENTIRE REGISTER. For the purpose of establishing HLP180the order in which these registers appear in each block, the ad- HLP180dresses are displayed even though they will not appear in the HLP180output if "tab sequential" format is selected. QUE181 Enter the address of the spindle speed register --> HLP181The letter address of each register may be changed by entering the HLP181the desired new address. Entry of NA (not applicable) disables HLP181the output of the ENTIRE REGISTER. For the purpose of establishing HLP181the order in which these registers appear in each block, the ad- HLP181dresses are displayed even though they will not appear in the HLP181output if "tab sequential" format is selected. QUE182 Enter the address of the turret register --> HLP182The letter address of each register may be changed by entering the HLP182the desired new address. Entry of NA (not applicable) disables HLP182the output of the ENTIRE REGISTER. For the purpose of establishing HLP182the order in which these registers appear in each block, the ad- HLP182dresses are displayed even though they will not appear in the HLP182output if "tab sequential" format is selected. QUE183 Enter the address of the auxiliary function reg. --> HLP183The letter address of each register may be changed by entering the HLP183the desired new address. Entry of NA (not applicable) disables HLP183the output of the ENTIRE REGISTER. For the purpose of establishing HLP183the order in which these registers appear in each block, the ad- HLP183dresses are displayed even though they will not appear in the HLP183output if "tab sequential" format is selected. QUE184 Enter new order if reqd - <C/R> to accept above order HLP184To modify the order in which these registers are assembled in each HLP184output block, the register addresses must be entered in the new HLP184sequence. ALL ADDRESSES MUST BE ENTERED. If "tab sequential" has HLP184been selected (in lieu of "letter address") as the tape format, HLP184the ADDRESSES will not appear in the output, only the register HLP184contents. ENTER ANY ADDITIONAL ADDRESSES HERE! QUE185 Enter the FORMAT code for the indicated register --> HLP185______The characters in the code have the following meaning_______ HLP185 1st | 2nd | 3rd | 4th HLP185 | | | HLP185 INCH | INCH | METRIC | METRIC HLP185 # of digits to | # of digits to | # of digits to | # of digits to HLP185 left of dec. | right of dec. | left of dec. | right of dec. QUE186 Enter the 4 DIGIT SPEC code for this register --> HLP186______The characters in the code have the following meaning_______ HLP186 1st | 2nd | 3rd | 4th HLP186 | | | HLP186 Leading Zeros | Trailing Zeros | Plus Sign | Decimal Point HLP186 0 = not reqd | 0 = not reqd | 0 = not reqd | 0 = not reqd HLP186 1 = required | 1 = required | 1 = required | 1 = required QUE187 TURRET/CENTER is in effect at start of program --> HLP187Motion records in the CLFILE are adjusted by the specified gauge HLP187lengths and are output as tool tip coordinates. The Postprocessor HLP187command TURRET/CENTER cancels gauge length compensation to output HLP187turret reference coordinates until another turret command is pro- HLP187cessed. This option selects the default condition prior to the HLP187initial TURRET statement in the CLFILE. QUE188 Output preset blocks before T code --> HLP188The automatic preset blocks can be output BEFORE or AFTER the HLP188T-code block which indexes the turret. The order is significant on HLP188some machine tools. The sequence may determine whether the offsets HLP188are applied immediately or with the next motion block. HLP188 HLP188 QUE189 Enter the multiplier required for the T-code --> HLP189The output of the T-code is usually the face position followed by HLP189the offset register. The T-code is normally calculated by the HLP189following formula: HLP189T = Face position * M + offset number HLP189 HLP189Please enter the value of M. QUE190 Output cycle times with tool changes ? --> HLP190The Postprocessor will keep track of the individual cycle times of HLP190each tool, and will optionally output the current cycle time with HLP190each tool change. These times may not be accurate representations HLP190of actual machine times due to axis acceleration and deceleration HLP190and pauses the machine tool may make that the Postprocessor is not HLP190aware of. QUE191 Enter the value for PLABEL/OPTION 1 --> HLP191 Value Function HLP191 ----- -------------------------------------------------------- HLP191 0 do not punch tab characters HLP191 1 punch tab characters HLP191 2 insert a blank before each regiter address HLP191 ----- -------------------------------------------------------- QUE192 Enter the value for PLABEL/OPTION 2 --> HLP192 Value Function HLP192 ----- -------------------------------------------------------- HLP192 0 do not generate verification print HLP1921 or 11 generate modal verification print HLP1922 or 12 generate non-modal verification print HLP192 For 11 & 12, print also includes input CL point (xyz) QUE193 Enter the value for PLABEL/OPTION 3 --> HLP193 Value Function HLP193 ----- -------------------------------------------------------- HLP193 1 or 11 inch input / inch output 1-4 Inch Option File HLP193 2 or 12 metric input / inch output 11-14 Metric Option File HLP193 3 or 13 metric input / metric output HLP193 4 or 14 inch input / metric output QUE194 Enter the value for PLABEL/OPTION 4 --> HLP194 Value Function HLP194 ----- -------------------------------------------------------- HLP194 0 do not print page heading HLP194 1 print page heading HLP194 ----- -------------------------------------------------------- HLP194 QUE195 Enter the value for PLABEL/OPTION 5 --> HLP195 Value Function HLP195 ----- -------------------------------------------------------- HLP195 0 unpack punch output with one block per line HLP195 1 pack punch output into 72 columns HLP195 ----- -------------------------------------------------------- HLP195 QUE196 Enter the value for PLABEL/OPTION 6 --> HLP196 Value Function HLP196 ----- -------------------------------------------------------- HLP196 0 do not suppress warning messages HLP196 1 suppress warning messages HLP196 ----- -------------------------------------------------------- HLP196 QUE197 Enter the value for PLABEL/OPTION 7 --> HLP197 Value Function HLP197 ----- -------------------------------------------------------- HLP197 0 do not punch man readable PARTNO HLP197 1 punch man readable PARTNO HLP197 ----- -------------------------------------------------------- HLP197 QUE198 Enter the value for PLABEL/OPTION 8 --> HLP198 Value Function HLP198 ----- -------------------------------------------------------- HLP198 0 do not punch rewind stop code HLP198 1 punch rewind stop code at the start HLP198 2 punch rewind stop code at the start and end HLP198 3 punch rewind stop at the end QUE199 Enter the value for PLABEL/OPTION 9 --> HLP199 Value Function HLP199 ----- -------------------------------------------------------- HLP199 nn where nn is the decimal ASCII code of the character HLP199 desired. HLP199 ----- -------------------------------------------------------- HLP199 QUE200 Enter the value for PLABEL/OPTION 10 --> HLP200 Value Function HLP200 ----- -------------------------------------------------------- HLP200 nn where nn is the decimal ASCII code of the character HLP200 desired. HLP200 ----- -------------------------------------------------------- HLP200 QUE201 Enter the value for PLABEL/OPTION 11 --> HLP201 Value Function HLP201 ----- -------------------------------------------------------- HLP201 nn where nn is the decimal ASCII code of the character HLP201 desired. HLP201 ----- -------------------------------------------------------- HLP201 QUE202 Enter the value for PLABEL/OPTION 12 --> HLP202 Value Function HLP202 ----- -------------------------------------------------------- HLP202 nn where nn is the decimal ASCII code of the character HLP202 desired. HLP202 ----- -------------------------------------------------------- HLP202 QUE203 Enter the value for PLABEL/OPTION 13 --> HLP203 Value Function HLP203 ----- -------------------------------------------------------- HLP203 nn where nn is the decimal ASCII code of the character HLP203 desired. HLP203 ----- -------------------------------------------------------- HLP203 QUE204 Enter the value for PLABEL/OPTION 14 --> HLP204 Value Function HLP204 ----- -------------------------------------------------------- HLP204 nn where nn is the decimal ASCII code of the character HLP204 desired. HLP204 ----- -------------------------------------------------------- HLP204 QUE205 Enter the value for PLABEL/OPTION 15 --> HLP205 Value Function HLP205 ----- -------------------------------------------------------- HLP205 nn where nn is the decimal ASCII code of the character HLP205 desired. HLP205 ----- -------------------------------------------------------- HLP205 QUE206 Enter the value for PLABEL/OPTION 16 --> HLP206 Value Function HLP206 ----- -------------------------------------------------------- HLP206 nn where nn is the decimal ASCII code of the character HLP206 desired. HLP206 ----- -------------------------------------------------------- HLP206 QUE207 Enter the value for PLABEL/OPTION 17 --> HLP207 Value Function HLP207 ----- -------------------------------------------------------- HLP207 0 output EOB character to tape HLP207 1 do not output EOB character to tape HLP207 ----- -------------------------------------------------------- HLP207 QUE208 Enter the value for PLABEL/OPTION 18 --> HLP208 Value Function HLP208 ----- -------------------------------------------------------- HLP208 0 output redundant F-code after rapid move HLP208 1 do not output redundant F-code after rapid move HLP208 ----- -------------------------------------------------------- HLP208 QUE209 Enter the value for PLABEL/OPTION 19 --> HLP209 Value Function HLP209 ----- -------------------------------------------------------- HLP209 0 do not check axis limits HLP209 1 check axis limits HLP209 ----- -------------------------------------------------------- HLP209 QUE210 Enter the value for PLABEL/OPTION 20 --> HLP210 Value Function HLP210 ----- -------------------------------------------------------- HLP210 0 output warning for illegal major words HLP210 1 do not output warning for illegal major words HLP210 ----- -------------------------------------------------------- HLP210 QUE211 Enter the value for PLABEL/OPTION 21 --> HLP211 Value Function HLP211 ----- -------------------------------------------------------- HLP211 0 punch integer registers per individual specification HLP211 nnnn punch ALL integer registers per this specification HLP211 ----- -------------------------------------------------------- HLP211 QUE212 Enter the value for PLABEL/OPTION 22 --> HLP212 Value Function HLP212 ----- -------------------------------------------------------- HLP212 0 punch decimal registers per individual specification HLP212 nnnn punch ALL decimal registers per this specification HLP212 ----- -------------------------------------------------------- HLP212 QUE213 Enter the value for PLABEL/OPTION 23 --> HLP213In ABSOLUTE mode, the contents of the IJK registers in circular HLP213interpolation can be output in one of four possible ways: HLP213 1 = Delta arc offset distances (unsigned) HLP213 2 = Distance from center to start point (signed) HLP213 3 = Distance from start point to center (signed) HLP213 4 = Absolute coordinates of radius center QUE214 Enter the value for PLABEL/OPTION 24 --> HLP214In INCREMENTAL mode, the contents of the IJK registers in circular HLP214interpolation can be output in one of three possible ways: HLP214 HLP214 1 = Delta arc offset distances (unsigned) HLP214 2 = Distance from center to start point (signed) HLP214 3 = Distance from start point to center (signed) QUE215 Enter the value for PLABEL/OPTION 25 --> HLP215 Value Function HLP215 ----- -------------------------------------------------------- HLP215 0 do not accept MULTAX CL file HLP215 1 accept MULTAX CL file, ignore tool axis vector HLP215 ----- -------------------------------------------------------- HLP215 QUE216 Enter the value for PLABEL/OPTION 26 --> HLP216 Value Function HLP216 ----- -------------------------------------------------------- HLP216 0 do not output identical point HLP216 1 output identical point HLP216 ----- -------------------------------------------------------- HLP216 QUE217 Enter the value for PLABEL/OPTION 27 --> HLP217 Value Function HLP217 ----- -------------------------------------------------------- HLP217 0 do not output circular IK when zero HLP217 1 output circular IK when zero HLP217 ----- -------------------------------------------------------- HLP217 QUE218 Enter the value for PLABEL/OPTION 28 --> HLP218 Value Function HLP218 ----- -------------------------------------------------------- HLP218 1 input is an INTERCIM APT CL file HLP218 2 input is an IBM APT CL file HLP218 ----- -------------------------------------------------------- HLP218 QUE219 Enter the value for PLABEL/OPTION 29 --> HLP219 Value Function HLP219 ----- -------------------------------------------------------- HLP219 0 do not adjust feedrate for circles HLP219 1 adjust feedrate for circles HLP219 ----- -------------------------------------------------------- HLP219 QUE220 Enter the value for PLABEL/OPTION 30 --> HLP220 Value Function HLP220 ----- -------------------------------------------------------- HLP220 0 output sequence numbers for both INSERT and PPRINT HLP220 1 do not output sequence numbers for INSERT nor PPRINT HLP220 2 output sequence numbers for INSERT only HLP220 3 output sequence numbers for PPRINT only QUE221 Enter the value for PLABEL/OPTION 31 --> HLP221 Value Function HLP221 ----- -------------------------------------------------------- HLP221 0 print the tape image HLP221 1 print the edited tape image HLP221 ----- -------------------------------------------------------- HLP221 QUE222 Enter the value for PLABEL/OPTION 32 --> HLP222 Value Function HLP222 ----- -------------------------------------------------------- HLP222 0 output RAPID in current mode HLP222 nn switch to mode (nn) to output RAPID HLP222 ----- -------------------------------------------------------- HLP222 QUE223 Enter the value for PLABEL/OPTION 33 --> HLP223 Value Function HLP223 ----- -------------------------------------------------------- HLP223 0 use circle arc length for inverse time feedrate (UPM/L) HLP223 1 use circle radius for inverse time feedrate (UPM/R) HLP223 ----- -------------------------------------------------------- HLP223 QUE224 Enter the value for PLABEL/OPTION 34 --> HLP224 Value Function HLP224 ----- -------------------------------------------------------- HLP224 0 do not allow multiple preparatory codes HLP224 1 allow multiple preparatory codes HLP224 ----- -------------------------------------------------------- HLP224 QUE225 Enter the value for PLABEL/OPTION 35 --> HLP225 Value Function HLP225 ----- -------------------------------------------------------- HLP225 0 do not allow multiple auxiliary codes HLP225 1 allow multiple auxiliary codes HLP225 ----- -------------------------------------------------------- HLP225 QUE226 Enter the value for PLABEL/OPTION 36 --> HLP226 Value Function HLP226 ----- -------------------------------------------------------- HLP226 0 do not output tool times to list file HLP226 1 output tool times to list file HLP226 2 output tool and block times to list file HLP226 QUE227 Enter the value for PLABEL/OPTION 50 --> HLP227 Value Function HLP227 ----- -------------------------------------------------------- HLP227 0 PITCH/t is threads per unit HLP227 1 PITCH/t is direct lead HLP227 ----- -------------------------------------------------------- HLP227 QUE228 Enter the value for PLABEL/OPTION 51 --> HLP228 Value Function HLP228 ----- -------------------------------------------------------- HLP228 0 print verification X in radius HLP228 1 print verification X in diameter HLP228 ----- -------------------------------------------------------- HLP228 QUE229 Enter the value for PLABEL/OPTION 52 --> HLP229 Value Function HLP229 ----- -------------------------------------------------------- HLP229 0 primary turret default per specification HLP229 148 primary turret is the FRONT turret HLP229 149 primary turret is the REAR turret HLP229 QUE230 Enter the value for PLABEL/OPTION 53 --> HLP230 Value Function HLP230 ----- -------------------------------------------------------- HLP230 1 horizontal: CL X = Lathe Z and CL Y = Lathe X HLP230 2 vertical : CL X = Lathe X and CL Y = Lathe Z HLP230 ----- -------------------------------------------------------- HLP230 QUE231 Enter the value for PLABEL/OPTION 54 --> HLP231 Value Function HLP231 ----- -------------------------------------------------------- HLP231 0 output axis preset block after T code HLP231 1 output axis preset block before T code HLP231 ----- -------------------------------------------------------- HLP231 QUE232 PLABEL/OPTION 70 is reserved for future options --> HLP232 Value Function HLP232 ----- -------------------------------------------------------- HLP232 HLP232 HLP232 ----- -------------------------------------------------------- HLP232 QUE233 PLABEL/OPTION 71 is reserved for future options --> HLP233 Value Function HLP233 ----- -------------------------------------------------------- HLP233 HLP233 HLP233 ----- -------------------------------------------------------- HLP233 QUE234 PLABEL/OPTION 72 is reserved for future options --> HLP234 Value Function HLP234 ----- -------------------------------------------------------- HLP234 HLP234 HLP234 ----- -------------------------------------------------------- HLP234 QUE235 PLABEL/OPTION 73 is reserved for future options --> HLP235 Value Function HLP235 ----- -------------------------------------------------------- HLP235 HLP235 HLP235 ----- -------------------------------------------------------- HLP235 QUE236 PLABEL/OPTION 74 is reserved for future options --> HLP236 Value Function HLP236 ----- -------------------------------------------------------- HLP236 HLP236 HLP236 ----- -------------------------------------------------------- HLP236 QUE237 PLABEL/OPTION 75 is reserved for future options --> HLP237 Value Function HLP237 ----- -------------------------------------------------------- HLP237 HLP237 HLP237 ----- -------------------------------------------------------- HLP237 QUE238 PLABEL/OPTION 76 is reserved for future options --> HLP238 Value Function HLP238 ----- -------------------------------------------------------- HLP238 HLP238 HLP238 ----- -------------------------------------------------------- HLP238 QUE239 PLABEL/OPTION 77 is reserved for future options --> HLP239 Value Function HLP239 ----- -------------------------------------------------------- HLP239 HLP239 HLP239 ----- -------------------------------------------------------- HLP239 QUE240 Enter the value for PLABEL/OPTION 90 --> HLP240 Value Function HLP240 ----- -------------------------------------------------------- HLP240 0 print APT input statement (IAPT only) HLP240 1 do not print APT input statement (IAPT only) HLP240 ----- -------------------------------------------------------- HLP240 QUE241 Enter the value for PLABEL/OPTION 91 --> HLP241 Value Function HLP241 ----- -------------------------------------------------------- HLP241 0 word address format required HLP241 1 fixed field format required HLP241 2 tab sequential format required HLP241 3 fixed field with all addresses output QUE242 Enter the value for PLABEL/OPTION 92 --> HLP242 Value Function HLP242 ----- -------------------------------------------------------- HLP242 71 RAPID preparatory code is modal HLP242 72 RAPID preparatory code is non-modal HLP242 ----- -------------------------------------------------------- HLP242 QUE243 Enter the value for PLABEL/OPTION 93 --> HLP243 Value Function HLP243 ----- -------------------------------------------------------- HLP243 0 use default circular interpolation HLP243 nnn number of degrees per circular block HLP243 ----- -------------------------------------------------------- HLP243 QUE244 Enter the value for PLABEL/OPTION 94 --> HLP244 Value Function HLP244 ----- -------------------------------------------------------- HLP244 0 output IK for circles HLP244 1 output R for circles HLP244 ----- -------------------------------------------------------- HLP244 QUE245 Enter the INTCOM location to be set --> HLP245 HLP245 HLP245This screen allows you to make "last minute" changes to variables HLP245that are set by the option file generator. HLP245 HLP245 QUE246 Enter the value to be loaded --> HLP246 HLP246 HLP246This screen allows you to make "last minute" changes to variables HLP246that are set by the option file generator. HLP246 HLP246 QUE247 Enter the RELCOM location to be set --> HLP247 HLP247 HLP247This screen allows you to make "last minute" changes to variables HLP247that are set by the option file generator. HLP247 HLP247 QUE248 Enter the value to be loaded --> HLP248 HLP248 HLP248This screen allows you to make "last minute" changes to variables HLP248that are set by the option file generator. HLP248 HLP248 QUE249 Enter the 4 DIGIT attribute code for this section --> HLP249______The characters in the code have the following meaning_______ HLP249 1st | 2nd | 3rd | 4th HLP249 | | | HLP249 Bold | Underscore | Blink | Reverse Video HLP249 0 = not reqd | 0 = not reqd | 0 = not reqd | 0 = not reqd HLP249 1 = required | 1 = required | 1 = required | 1 = required QUE250 Which menu display do you wish to use ? (1/2) --> HLP250 HLP250 HLP250The option file generator menu can be displayed one of two ways. HLP250The default display is 1. Enter 2 to select the alternate display. HLP250 HLP250 QUE251 Output preset blocks for Turret change ? --> HLP251 HLP251The preset blocks can be output by the Postprocessor automatically HLP251for each turret change to adjust for the specified gage lengths. HLP251 HLP251 HLP251 QUE252 Enter the value for PLABEL/OPTION 38 --> HLP252 Value Function HLP252 ----- -------------------------------------------------------- HLP252 0 disable MODE/MILL-TURN (non-merging Postprocessor) HLP252 1 enable MODE/MILL-TURN commands (merging Postprocessor) HLP252 ----- -------------------------------------------------------- HLP252 QUE253 Enter the value for PLABEL/OPTION 95 --> HLP253 Value Function HLP253 ----- -------------------------------------------------------- HLP253 0 default start up info HLP253 1 suppress start up G-codes HLP253 2 suppress ASCII PARTNO at start up HLP253 3 suppress G-codes and ASCII PARTNO at start up QUE254 Enter the value for PLABEL/OPTION 96 --> HLP254 Value Function HLP254 ----- -------------------------------------------------------- HLP254 0 insert header line into tape image (VAX only) HLP254 1 omit header line from tape image (VAX only) HLP254 ----- -------------------------------------------------------- HLP254 QUE255 Enter the number of lines per page --> HLP255 HLP255This value controls the maximum number of lines per page for the HLP255list file. HLP255 HLP255 HLP255 QUE256 How many units of leader at start of tape image --> HLP256 HLP256Enter the number of units of leader you require at the beginning HLP256of the tape image. HLP256 HLP256 HLP256 QUE257 Output Man-readable PARTNO to tape image ? --> HLP257 HLP257If you require a Man-readable PARTNO to be output to the tape HLP257image, enter Yes. HLP257If you do not require one, answer No. HLP257 HLP257 QUE258 Output Tape-readable PARTNO to tape image ? --> HLP258 HLP258If you require a Tape-readable PARTNO to be output to the tape HLP258image, enter Yes. HLP258If you do not require one, answer No. HLP258 HLP258 QUE259 Output EOB character ? --> HLP259 HLP259If you require an EOB character at the end of each block in the HLP259tape image, answer Yes. HLP259If you do not require one, answer No. HLP259 HLP259 QUE260 Output Rewind Stop Code at start of tape image ? --> HLP260 HLP260If you require a Rewind Stop Code to be output at the beginning of HLP260the tape image, answer Yes. HLP260If you do not require one, answer No. HLP260 HLP260 QUE261 Insert header line into tape image ? --> HLP261 HLP261This question is only applicable to the VAX. HLP261 HLP261If you require the header line to be in your tape image, enter HLP261Yes. If you do not require the header line, answer No. HLP261 QUE262 Enter The Default Inch / Metric Mode --> HLP262 HLP262This sets the Inch / Metric mode at startup. Note that the HLP262Preparatory Code associated with this mode will be output to the HLP262tape image only if you answer Yes to the next question. HLP262 HLP262 QUE263 Output Inch/Metric Preparatory Code at startup ? --> HLP263If you require the Preparatory Code associated with Inch/Metric HLP263mode to be output to the tape image at startup, enter Yes. HLP263 HLP263If you do not require the Preparatory Code associated with HLP263Inch/Metric mode to be output to the tape image at startup, enter HLP263No. QUE264 Enter The Default ABS / INCR Mode --> HLP264 HLP264This sets the absolute / incremental mode at startup. Note that HLP264the Preparatory Code associated with this mode will be output to HLP264the tape image only if you answer Yes to the next question. HLP264 HLP264 QUE265 Output ABS/INCR Preparatory Code at startup ? --> HLP265If you require the Preparatory Code associated with absolute or HLP265incremental mode to be output to the tape image at startup, enter HLP265Yes. HLP265If you do not require the Preparatory Code associated with HLP265absolute or incremental mode to be output to the tape image at HLP265startup, enter No. QUE266 Enter The Default Feedrate Mode --> HLP266 HLP266This sets the Feedrate mode at startup. Note that the Preparatory HLP266Code associated with this mode will be output to the tape image HLP266only if you answer Yes to the next question. HLP266 HLP266 QUE267 Output Feedrate Preparatory Code at startup ? --> HLP267If you require the Preparatory Code associated with Feedrate HLP267mode to be output to the tape image at startup, enter Yes. HLP267 HLP267If you do not require the Preparatory Code associated with HLP267Feedrate mode to be output to the tape image at startup, enter HLP267No. QUE268 How many units of trailer at end of tape image ? --> HLP268 HLP268Enter the number of units of trailer you require at the end of HLP268the tape image. HLP268 HLP268 HLP268 QUE269 Output Rewind Stop Code at end of tape image ? --> HLP269 HLP269If you require a Rewind Stop Code to be output at the end of the HLP269tape image, answer Yes. HLP269If you do not require one, answer No. HLP269 HLP269 QUE270 Enter the value for PLABEL/OPTION 60 --> HLP270 Value Function HLP270 ----- -------------------------------------------------------- HLP270 0 MODE/INCR[,OFF] empties previous A-Z HLP270 1 MODE/INCR[,OFF] empties previous XYZABC only HLP270 ----- -------------------------------------------------------- HLP270 QUE271 Enter the value for PLABEL/OPTION 61 --> HLP271 Value Function HLP271 ----- -------------------------------------------------------- HLP271 0 POSTN/IN-OUT loads A-Z and verification A-Z HLP271 1 POSTN/IN-OUT loads A-Z only. Verification is not loaded HLP271 ----- -------------------------------------------------------- HLP271 QUE272 Enter the value for PLABEL/OPTION 62 --> HLP272 Value Function HLP272 ----- -------------------------------------------------------- HLP272 0 DELAY/t outputs verification dwell time HLP272 1 DELAY/t suppresses verification dwell time HLP272 ----- -------------------------------------------------------- HLP272 QUE273 Enter the value for PLABEL/OPTION 56 --> HLP273 Value Function HLP273 ----- -------------------------------------------------------- HLP273 0 Allow zero to be output in thread lead register HLP273 1 Do not output zero in thread lead register HLP273 ----- -------------------------------------------------------- HLP273 QUE274 Use I/K registers as threading registers --> HLP274 HLP274If your controller uses the I and K registers for threading, you HLP274should answer Yes. HLP274If your controller requires only one address for threading answer HLP274No. HLP274 QUE275 Enter the address for threading --> HLP275 HLP275If your controller only uses one register for threading enter it HLP275here. If two registers are required you need to use the I/K HLP275registers as your threading registers. HLP275 HLP275 QUE276 DNC format? (Y/N) --> HLP276If you answer Yes to this question, these values are set: HLP276* Units of leader: 0 HLP276* Units of trailer: 0 HLP276* Tape-readable PARTNO: No HLP276* Man-readable PARTNO: No HLP276* Tape image header: No QUE277 Enter the value for PLABEL/OPTION 97 --> HLP277 Value Function HLP277 ----- -------------------------------------------------------- HLP277 0 Normal source verification in list file HLP277 1 Suppress CL and input verification HLP277 2 Suppress CL verification HLP277 3 Suppress input verification QUE278 Enter the value for PLABEL/OPTION 98 --> HLP278 Value Function HLP278 ----- -------------------------------------------------------- HLP278 0 Normal absolute verification output in list file HLP278 1 Use tape formats for absolute verification output HLP278 2 Use verification formats for verification output HLP2781nn / 2nn As above but start verification output in column nn QUE279 Enter the value for PLABEL/OPTION 99 --> HLP279 Value Function HLP279 ----- -------------------------------------------------------- HLP279 0 Use normal rewind stop code at end of tape HLP279 nn Rewind stop code at end of tape will be IASCII(nn) HLP279 ----- -------------------------------------------------------- HLP279 QUE280 Enter the value for PLABEL/OPTION 57 --> HLP280 Value Function HLP280 ----- -------------------------------------------------------- HLP280 0 Verification output has same sign as tape output HLP280 1 Verification output has same sign as input HLP280 ----- -------------------------------------------------------- HLP280 QUE281 Alias strings --> HLP281If you wish to enter an alias string for any of the addresses HLP281you have set up, enter yes and upon exiting this panel you will HLP281be able to enter an alias string for each address in the HLP281Postprocessor. The alias string can contain upto eight ASCII HLP281characters that will be output instead of the address associated HLP281with them. QUE282 Alias for this address --> HLP282Enter the string you wish to be output for every occurrence of the HLP282given address. You may enter upto eight ASCII characters HLP282 HLP282 HLP282 HLP282 QUE283 Enter the value for PLABEL/OPTION 39 --> HLP283 Value Function HLP283 ----- -------------------------------------------------------- HLP283 0 Suppress blanks in INSERT statement HLP283 1 Output blanks in INSERT statement HLP283 ----- -------------------------------------------------------- HLP283 QUE284 Enter the value for PLABEL/OPTION 63 --> HLP284 Value Function HLP284 ----- -------------------------------------------------------- HLP284 0 do not allow blanks in punch file from alias option HLP284 nn IASCII(nn) is used to represent blank in alias option HLP284 ----- -------------------------------------------------------- HLP284 QUE285 Enter the value for PLABEL/OPTION 58 --> HLP285 Value Function HLP285 ----- -------------------------------------------------------- HLP285 0 thread lead registers are non-modal HLP285 1 thread lead registers are modal HLP285 ----- -------------------------------------------------------- HLP285 QUE286 Enter the value for PLABEL/OPTION 37 --> HLP286 Value Function HLP286 ----- -------------------------------------------------------- HLP286 0 normal Postprocessor output HLP286 1 Postprocessor is in simulation mode with no output HLP286 ----- -------------------------------------------------------- HLP286 QUE287 PLABEL/OPTION 40 is reserved for future options --> HLP287 Value Function HLP287 ----- -------------------------------------------------------- HLP287 HLP287 HLP287 ----- -------------------------------------------------------- HLP287 QUE288 PLABEL/OPTION 41 is reserved for future options --> HLP288 Value Function HLP288 ----- -------------------------------------------------------- HLP288 HLP288 HLP288 ----- -------------------------------------------------------- HLP288 QUE289 PLABEL/OPTION 42 is reserved for future options --> HLP289 Value Function HLP289 ----- -------------------------------------------------------- HLP289 HLP289 HLP289 ----- -------------------------------------------------------- HLP289 QUE290 PLABEL/OPTION 43 is reserved for future options --> HLP290 Value Function HLP290 ----- -------------------------------------------------------- HLP290 HLP290 HLP290 ----- -------------------------------------------------------- HLP290 QUE291 PLABEL/OPTION 44 is reserved for future options --> HLP291 Value Function HLP291 ----- -------------------------------------------------------- HLP291 HLP291 HLP291 ----- -------------------------------------------------------- HLP291 QUE292 PLABEL/OPTION 45 is reserved for future options --> HLP292 Value Function HLP292 ----- -------------------------------------------------------- HLP292 HLP292 HLP292 ----- -------------------------------------------------------- HLP292 QUE293 PLABEL/OPTION 46 is reserved for future options --> HLP293 Value Function HLP293 ----- -------------------------------------------------------- HLP293 HLP293 HLP293 ----- -------------------------------------------------------- HLP293 QUE294 PLABEL/OPTION 47 is reserved for future options --> HLP294 Value Function HLP294 ----- -------------------------------------------------------- HLP294 HLP294 HLP294 ----- -------------------------------------------------------- HLP294 QUE295 PLABEL/OPTION 48 is reserved for future options --> HLP295 Value Function HLP295 ----- -------------------------------------------------------- HLP295 HLP295 HLP295 ----- -------------------------------------------------------- HLP295 QUE296 Enter the value for PLABEL/OPTION 49 --> HLP296 Value Function HLP296 ----- -------------------------------------------------------- HLP296 0 do not correct for last cl point not being on true arc HLP296 1 output linear move if last cl point is not on true arc HLP296 2 make correction to radius, skipping linear move at end HLP296 ----- -------------------------------------------------------- QUE297 Enter the value for PLABEL/OPTION 55 --> HLP297 Value Function HLP297 ----- -------------------------------------------------------- HLP297 0 setting for 2 axis lathe HLP297 1 no merging to take place for 2+2 lathe HLP297 2/12 software merging for 2+2 lathe / list merged clfile HLP297 3/13 controller does merging for 2+2 lathe/list merged clfile QUE298 Enter the value for PLABEL/OPTION 59 --> HLP298 Value Function HLP298 ----- -------------------------------------------------------- HLP298 0 change XZ to UW for secondary turret on 2+2 lathes HLP298 1 do not change XZ to UW on 2+2 lathes HLP298 ----- -------------------------------------------------------- HLP298 QUE299 Enter the value for PLABEL/OPTION 64 --> HLP299 Value Function HLP299 ----- -------------------------------------------------------- HLP299 0 G and M codes cannot be greater than 2 digits HLP299 1 G and M codes can be greater than 2 digits HLP299 ----- -------------------------------------------------------- HLP299 QUE300 PLABEL/OPTION 65 is reserved for future options --> HLP300 Value Function HLP300 ----- -------------------------------------------------------- HLP300 HLP300 HLP300 ----- -------------------------------------------------------- HLP300 QUE301 PLABEL/OPTION 66 is reserved for future options --> HLP301 Value Function HLP301 ----- -------------------------------------------------------- HLP301 HLP301 HLP301 ----- -------------------------------------------------------- HLP301 QUE302 PLABEL/OPTION 67 is reserved for future options --> HLP302 Value Function HLP302 ----- -------------------------------------------------------- HLP302 HLP302 HLP302 ----- -------------------------------------------------------- HLP302 QUE303 PLABEL/OPTION 68 is reserved for future options --> HLP303 Value Function HLP303 ----- -------------------------------------------------------- HLP303 HLP303 HLP303 ----- -------------------------------------------------------- HLP303 QUE304 PLABEL/OPTION 69 is reserved for future options --> HLP304 Value Function HLP304 ----- -------------------------------------------------------- HLP304 HLP304 HLP304 ----- -------------------------------------------------------- HLP304 QUE305 PLABEL/OPTION 70 is reserved for future options --> HLP305 Value Function HLP305 ----- -------------------------------------------------------- HLP305 HLP305 HLP305 ----- -------------------------------------------------------- HLP305 QUE306 PLABEL/OPTION 71 is reserved for future options --> HLP306 Value Function HLP306 ----- -------------------------------------------------------- HLP306 HLP306 HLP306 ----- -------------------------------------------------------- HLP306 QUE307 PLABEL/OPTION 72 is reserved for future options --> HLP307 Value Function HLP307 ----- -------------------------------------------------------- HLP307 HLP307 HLP307 ----- -------------------------------------------------------- HLP307 QUE308 PLABEL/OPTION 73 is reserved for future options --> HLP308 Value Function HLP308 ----- -------------------------------------------------------- HLP308 HLP308 HLP308 ----- -------------------------------------------------------- HLP308 QUE309 PLABEL/OPTION 74 is reserved for future options --> HLP309 Value Function HLP309 ----- -------------------------------------------------------- HLP309 HLP309 HLP309 ----- -------------------------------------------------------- HLP309 QUE310 PLABEL/OPTION 75 is reserved for future options --> HLP310 Value Function HLP310 ----- -------------------------------------------------------- HLP310 HLP310 HLP310 ----- -------------------------------------------------------- HLP310 QUE311 PLABEL/OPTION 76 is reserved for future options --> HLP311 Value Function HLP311 ----- -------------------------------------------------------- HLP311 HLP311 HLP311 ----- -------------------------------------------------------- HLP311 QUE312 PLABEL/OPTION 77 is reserved for future options --> HLP312 Value Function HLP312 ----- -------------------------------------------------------- HLP312 HLP312 HLP312 ----- -------------------------------------------------------- HLP312 QUE313 PLABEL/OPTION 78 is reserved for future options --> HLP313 Value Function HLP313 ----- -------------------------------------------------------- HLP313 HLP313 HLP313 ----- -------------------------------------------------------- HLP313 QUE314 PLABEL/OPTION 79 is reserved for future options --> HLP314 Value Function HLP314 ----- -------------------------------------------------------- HLP314 HLP314 HLP314 ----- -------------------------------------------------------- HLP314 QUE315 PLABEL/OPTION 80 is reserved for future options --> HLP315 Value Function HLP315 ----- -------------------------------------------------------- HLP315 HLP315 HLP315 ----- -------------------------------------------------------- HLP315 QUE316 PLABEL/OPTION 81 is reserved for future options --> HLP316 Value Function HLP316 ----- -------------------------------------------------------- HLP316 HLP316 HLP316 ----- -------------------------------------------------------- HLP316 QUE317 PLABEL/OPTION 82 is reserved for future options --> HLP317 Value Function HLP317 ----- -------------------------------------------------------- HLP317 HLP317 HLP317 ----- -------------------------------------------------------- HLP317 QUE318 PLABEL/OPTION 83 is reserved for future options --> HLP318 Value Function HLP318 ----- -------------------------------------------------------- HLP318 HLP318 HLP318 ----- -------------------------------------------------------- HLP318 QUE319 PLABEL/OPTION 84 is reserved for future options --> HLP319 Value Function HLP319 ----- -------------------------------------------------------- HLP319 HLP319 HLP319 ----- -------------------------------------------------------- HLP319 QUE320 PLABEL/OPTION 85 is reserved for future options --> HLP320 Value Function HLP320 ----- -------------------------------------------------------- HLP320 HLP320 HLP320 ----- -------------------------------------------------------- HLP320 QUE321 PLABEL/OPTION 86 is reserved for future options --> HLP321 Value Function HLP321 ----- -------------------------------------------------------- HLP321 HLP321 HLP321 ----- -------------------------------------------------------- HLP321 QUE322 Enter the value for PLABEL/OPTION 87 --> HLP322 Value Function HLP322 ----- -------------------------------------------------------- HLP322 0 Do not print input statements to the list file HLP322 1 print input statements to the list file HLP322 ----- -------------------------------------------------------- HLP322 QUE323 Enter the value for PLABEL/OPTION 88 --> HLP323 Value Function HLP323 ----- -------------------------------------------------------- HLP323 0 Motion registers will be treated as modal. HLP323 1 Motion registers will be treated as non-modal. HLP323 ----- -------------------------------------------------------- HLP323 QUE324 PLABEL/OPTION 89 is reserved for future options --> HLP324 Value Function HLP324 ----- -------------------------------------------------------- HLP324 HLP324 HLP324 ----- -------------------------------------------------------- HLP324 QUE325 Merging option --> HLP325Enter the value that describes the merging option you require: HLP325 HLP3251 - No merging takes place HLP3252 - Postprocessor performs merging with GH or UW codes HLP3253 - Machine controller performs merging with P or similar codes HLP325 QUE326 Print merged clfile ? --> HLP326Enter Yes if you require a listing of the merged clfile. This file HLP326is listed before the Postprocessor verification print and can be HLP326used to verify merging motion. HLP326Enter No if you do not require a listing of the merged clfile. HLP326 HLP326 QUE327 Set KSYM alias addresses ? --> HLP327Enter yes if you wish to set an alias string of upto 8 ASCII HLP327characters for any of the characters in the KSYM array. The KSYM HLP327array is used to store characters that have a special significance HLP327to the controller. eg you can output MSG for the control out HLP327character "(". HLP327 QUE328 Alias for end of block character --> HLP328Enter the string you wish to be output instead of the end of block HLP328character. You may enter upto eight ASCII characters. See PLABEL HLP328option 63 if you need blank characters to be part of the alias. HLP328 HLP328 HLP328 QUE329 Alias for leader character --> HLP329Enter the string you wish to be output instead of the leader HLP329character. You may enter upto eight ASCII characters. See PLABEL HLP329option 63 if you need blank characters to be part of the alias. HLP329 HLP329 HLP329 QUE330 Alias for rewind stop code character --> HLP330Enter the string you wish to be output instead of the rewind HLP330stop code character. You may enter upto eight ASCII characters. HLP330See PLABEL option 63 if you need blank characters to be part of HLP330the alias. HLP330 HLP330 QUE331 Alias for block delete character --> HLP331Enter the string you wish to be output instead of the block HLP331delete character. You may enter upto eight ASCII characters. See HLP331PLABEL option 63 if you need blank characters to be part of the HLP331alias. HLP331 HLP331 QUE332 Alias for tab character --> HLP332Enter the string you wish to be output instead of the tab HLP332character. You may enter upto eight ASCII characters. See PLABEL HLP332option 63 if you need blank characters to be part of the alias. HLP332 HLP332 HLP332 QUE333 Alias for control out character --> HLP333Enter the string you wish to be output instead of the control HLP333out character. You may enter upto eight ASCII characters. See HLP333PLABEL option 63 if you need blank characters to be part of the HLP333alias. HLP333 HLP333 QUE334 Alias for control in character --> HLP334Enter the string you wish to be output instead of the control HLP334in character. You may enter upto eight ASCII characters. See HLP334PLABEL option 63 if you need blank characters to be part of the HLP334alias. HLP334 HLP334 QUE335 Alias for alignment block character --> HLP335Enter the string you wish to be output instead of the alignment HLP335block character. You may enter upto eight ASCII characters. HLP335See PLABEL option 63 if you need blank characters to be part of HLP335the alias. HLP335 HLP335 QUE336 Enter the category number (99 to Exit) --> HLP336Enter the number of the category you want to access. Once you have HLP336selected a category, you can press Enter to accept the highlighted HLP336value on that menu. To return to the Main Menu, press one of the HLP336PF1, PF2 or PF3 keys, as shown at the bottom of all subsequent HLP336menu screens. Remember that PF1 and PF2 save your changes, while HLP336PF3 does not. QUE337 Enter a value to select a default Machine Tool --> HLP337The Option File you are creating can be initialized to one of HLP337several default configurations. Enter the value associated with HLP337a default Machine Tool. Enter "0" for the standard default values. HLP337The configurations are representative of several different Machine HLP337Tools and are only intended as an aid in building your post- HLP337processor. QUE338 Please enter the machine number (1 - 99) --> HLP338 HLP338 HLP338Specify the machine number for this option file. The option file HLP338will be named uncl01.pnn, where nn is the value you enter. HLP338Enter F3 to exit. HLP338 QUE339 Enter the option file number to read(0 = defaults)--> HLP339 HLP339Enter 0 to select the Postprocessor default values. To read an HLP339existing option file, enter that file number (1 to 99). HLP339Enter F3 to exit. HLP339 HLP339 QUE340 Enter the option file number to be modified. --> HLP340Specify the machine number of an existing Postprocessor that you HLP340want to modify. HLP340Enter 0 to create a new Postprocessor. HLP340Enter PF1 to proceed to the next menu. HLP340Enter PF3 to exit from the Option File Generator. HLP340 QUE341 Enter the option file number to be modified. --> HLP341Specify the machine number of an existing Postprocessor that you HLP341want to modify. HLP341Enter 0 to create a new Postprocessor. HLP341Enter F1 to proceed to the next menu. HLP341Enter F3 to exit from the Option File Generator. HLP341 QUE342 HLP342 HLP342 HLP342 HLP342 HLP342 HLP342 QUE343 HLP343 HLP343 HLP343 HLP343 HLP343 HLP343 QUE344 HLP344 HLP344 HLP344 HLP344 HLP344 HLP344 QUE345 HLP345 HLP345 HLP345 HLP345 HLP345 HLP345 QUE346 HLP346 HLP346 HLP346 HLP346 HLP346 HLP346 QUE347 HLP347 HLP347 HLP347 HLP347 HLP347 HLP347 QUE348 HLP348 HLP348 HLP348 HLP348 HLP348 HLP348 QUE349 HLP349 HLP349 HLP349 HLP349 HLP349 HLP349 QUE350 HLP350 HLP350 HLP350 HLP350 HLP350 HLP350 SCN 1=========================== Main Menu ============================ SCN 1 SCN 11. Machine Tool Type 9. Feedrates 17. Unused SCN 12. Tape File Format 10. Dwell Parameters 18. Unused SCN 13. List File Format 11. Spindle Codes 19. Unused SCN 14. Sequence Numbers 12. Threading Formats 20. Unused SCN 15. Preparatory Codes 13. Turret Index 21. Unused SCN 16. Auxiliary Codes 14. Start-up Defaults 22. Common Variables SCN 17. Circular Codes 15. PLABEL Options 23. FIL SCN 18. Rapid Motions 16. Unused 24. Save file now SCN 1 SCN 1 SCN 1================================================================== SCN 2==================== Machine Tool Specs Menu ===================== SCN 2 SCN 2Resolution Max departure SCN 2VTL Dual turrets SCN 2 SCN 2 SCN 2X-axis multiplier Check limits SCN 2 SCN 2 X Z SCN 2Home SCN 2 SCN 2 SCN 2================================================================== SCN 3==================== Machine Tool Specs Menu ===================== SCN 3 SCN 3Resolution Max departure SCN 3VTL Dual turrets SCN 3 SCN 3 SCN 3X-axis multiplier Check limits SCN 3 SCN 3 X Z SCN 3Home SCN 3Min SCN 3Max SCN 3================================================================== SCN 4==================== Machine Tool Specs Menu ===================== SCN 4 SCN 4Resolution Max departure SCN 4VTL Dual turrets SCN 4Primary Same slide SCN 4APTx distance APTy distance SCN 4X-axis multiplier Check limits SCN 4 SCN 4 X Z SCN 4Home SCN 4 SCN 4 SCN 4================================================================== SCN 5==================== Machine Tool Specs Menu ===================== SCN 5 SCN 5Resolution Max departure SCN 5VTL Dual turrets SCN 5Primary Same slide SCN 5Merging option Print merged clfile SCN 5X-axis multiplier Check limits SCN 5 SCN 5 X Z U W SCN 5Home SCN 5 SCN 5 SCN 5================================================================== SCN 6==================== Machine Tool Specs Menu ===================== SCN 6 SCN 6Resolution Max departure SCN 6VTL Dual turrets SCN 6Primary Same slide SCN 6APTx distance APTy distance SCN 6X-axis multiplier Check limits SCN 6 SCN 6 X Z SCN 6Home SCN 6Min SCN 6Max SCN 6================================================================== SCN 7==================== Machine Tool Specs Menu ===================== SCN 7 SCN 7Resolution Max departure SCN 7VTL Dual turrets SCN 7Primary Same slide SCN 7Merging option Print merged clfile SCN 7X-axis multiplier Check limits SCN 7 SCN 7 X Z U W SCN 7Home SCN 7Min SCN 7Max SCN 7================================================================== SCN 8===================== Sequence Numbers Menu ====================== SCN 8 SCN 8 SCN 8 Maximum SCN 8 Start SCN 8 Increment SCN 8 Alignment block SCN 8 Option SCN 8 SCN 8 SCN 8 SCN 8 SCN 8================================================================== SCN 9===================== Preparatory Codes Menu ===================== SCN 9 SCN 9 Linear SCN 9 Inch mode SCN 9 Metric mode SCN 9 Absolute mode SCN 9 Incremental mode SCN 9 Axes preset SCN 9 SCN 9 Multiple codes SCN 9 SCN 9 SCN 9================================================================== SCN 10====================== Circular Codes Menu ======================= SCN 10 SCN 10Clockwise prep code Maximum degrees per block SCN 10Counterclockwise prep code Circle center located by: SCN 10True radial feedrate calc. Abs mode I/K: SCN 10Prep codes modal Inc mode I/K: SCN 10XYZ codes modal IJK output when zero SCN 10Maximum radius IJK codes modal SCN 10 SCN 10 SCN 10 SCN 10 SCN 10================================================================== SCN 11====================== Circular Codes Menu ======================= SCN 11 SCN 11Clockwise prep code Maximum degrees per block SCN 11Counterclockwise prep code Circle center located by: SCN 11True radial feedrate calc. Radius register address SCN 11Prep codes modal Radius code modal SCN 11XYZ codes modal SCN 11Maximum radius SCN 11 SCN 11 SCN 11 SCN 11 SCN 11================================================================== SCN 12======================= Rapid Motions Menu ======================= SCN 12 SCN 12 Positioning code Minimum distance SCN 12 Prep code modal Feedrate below min. SCN 12 SCN 12 Rapid address Velocity SCN 12 Rapid value Feed mode prep code SCN 12 Inch format SCN 12 Metric format SCN 12 SCN 12 SCN 12 SCN 12================================================================== SCN 13===================== Dwell Parameters Menu ====================== SCN 13 SCN 13G-code SCN 13Letter address SCN 13 ___UPM____ ___UPR____ SCN 13Inch format SCN 13Metric format SCN 13Minimum SCN 13Maximum SCN 13 SCN 13Dwell for turret index SCN 13UPM Mode required for turret index SCN 13================================================================== SCN 14======================= Spindle Codes Menu ======================= SCN 14 SCN 14 Direct RPM Clockwise code SCN 14 No. of ranges Counter-clockwise code SCN 14 Default range Default rotation code SCN 14 CSFM available Stop code SCN 14 RPM prep code Orient code SCN 14 SFM prep code Lock code SCN 14 Segment circles Unlock code SCN 14 SCN 14 SCN 14 SCN 14================================================================== SCN 15======================= Spindle Codes Menu ======================= SCN 15 Direct RPM SCN 15 SCN 15Range SCN 15 SCN 15Minimum SCN 15 SCN 15Maximum SCN 15 SCN 15 SCN 15 SCN 15 SCN 15================================================================== SCN 16======================= Spindle Codes Menu ======================= SCN 16 Indirect RPM SCN 16 SCN 16Range SCN 16 SCN 16No. of speeds SCN 16 SCN 16 SCN 16 SCN 16 SCN 16 SCN 16 SCN 16================================================================== SCN 17================ Spindle Code Table Range No 1 =================== SCN 17Table entry Speed Code SCN 17 SCN 17 SCN 17 SCN 17 SCN 17 SCN 17 SCN 17 SCN 17 SCN 17 SCN 17 SCN 17================================================================== SCN 18==================== Feedrate Parameters Menu ==================== SCN 18 SCN 18 UPM UPR Inverse time SCN 18G-code SCN 18Inch format SCN 18Metric format SCN 18Minimum SCN 18Maximum SCN 18 SCN 18Enable feed override Disable feed override SCN 18 SCN 18 SCN 18================================================================== SCN 19===================== List File Format Menu ====================== SCN 19 SCN 19Title SCN 19 SCN 19Verification print Print tape image SCN 19Verification X in dia. Suppress all warnings SCN 19Number of lines Suppress major word warnings SCN 19Page heading SCN 19 SCN 19 SCN 19 SCN 19 SCN 19================================================================== SCN 20===================== Threading Formats Menu ===================== SCN 20 SCN 20Prep code constant lead Resolution SCN 20Prep code increasing lead I/K registers SCN 20Prep code decreasing lead SCN 20 Inch format SCN 20Pitch value = direct lead Metric format SCN 20 SCN 20 SCN 20 SCN 20 SCN 20 SCN 20================================================================== SCN 21=================== Auxiliary Functions Menu ===================== SCN 21 SCN 21STOP Coolant mist SCN 21OPSTOP Coolant flood SCN 21END Coolant on SCN 21REWIND Coolant off SCN 21 SCN 21 Multiple codes allowed SCN 21 SCN 21 Range 1 Range 2 Range 3 Range 4 Range 5 Range 6 SCN 21 SCN 21 SCN 21================================================================== SCN 22===================== Tape File Format Menu ====================== SCN 22 SCN 22Sequence number Radius register for CSFM SCN 22Preparatory functions Feedrate SCN 22X-axis Spindle SCN 22Z-axis Turret SCN 22X-axis arc Auxiliary functions SCN 22Z-axis arc Alias addresses SCN 22 SCN 22Order : SCN 22 SCN 22 SCN 22================================================================== SCN 23===================== Tape File Format Menu ====================== SCN 23Register SCN 23Format SCN 23Spec SCN 23 SCN 23Register SCN 23Format SCN 23Spec SCN 23 SCN 23Register SCN 23Format SCN 23Spec SCN 23================================================================== SCN 24===================== Turret Index Menu ========================== SCN 24 SCN 24 TURRET/CENTER at start Clockwise code SCN 24 Counter-clockwise code SCN 24 Axis preset with T-code Default direction code SCN 24 Axis preset before T-code SCN 24 SCN 24 Face position multiplier SCN 24 Cycle times w/TURRET index SCN 24 SCN 24 SCN 24 SCN 24================================================================== SCN 25====================== PLABEL Options Menu ======================= SCN 25Option Value Option Value Option Value SCN 25 01 10 19 SCN 25 02 11 20 SCN 25 03 12 21 SCN 25 04 13 22 SCN 25 05 14 23 SCN 25 06 15 24 SCN 25 07 16 25 SCN 25 08 17 26 SCN 25 09 18 27 SCN 25 SCN 25================================================================== SCN 26====================== PLABEL Options Menu ======================= SCN 26Option Value Option Value Option Value SCN 26 28 37 46 SCN 26 29 38 47 SCN 26 30 39 48 SCN 26 31 40 49 SCN 26 32 41 50 SCN 26 33 42 51 SCN 26 34 43 52 SCN 26 35 44 53 SCN 26 36 45 54 SCN 26 SCN 26================================================================== SCN 27================== Set Common Variables Menu ===================== SCN 27 SCN 27 SCN 27 INTCOM( ) = SCN 27 SCN 27 RELCOM( ) = SCN 27 SCN 27 SCN 27 SCN 27 SCN 27 SCN 27 SCN 27================================================================== SCN 28===================== Threading Formats Menu ===================== SCN 28 SCN 28Prep code constant lead Resolution SCN 28Prep code increasing lead I/K registers SCN 28Prep code decreasing lead Threading address SCN 28 Inch format SCN 28Pitch value = direct lead Metric format SCN 28 SCN 28 SCN 28 SCN 28 SCN 28 SCN 28================================================================== SCN 29===================== Start-up Defaults Menu ===================== SCN 29 SCN 29 DNC format Rewind stop code SCN 29 Rewind stop code SCN 29 Units of leader SCN 29 Units of trailer EOB character SCN 29 SCN 29 Tape-readable PARTNO Tape image header SCN 29 Man-readable PARTNO SCN 29 SCN 29 SCN 29 SCN 29================================================================== SCN 30===================== Start-up Defaults Menu ===================== SCN 30 SCN 30 DNC format SCN 30 SCN 30 Rewind stop code SCN 30 Rewind stop code SCN 30 SCN 30 EOB character SCN 30 SCN 30 SCN 30 SCN 30 SCN 30================================================================== SCN 31===================== Start Up Defaults Menu ==================== SCN 31 SCN 31 SCN 31 Default Inch/Metric mode Output G Code SCN 31 SCN 31 Default ABS/INCR mode Output G Code SCN 31 SCN 31 Default Feedrate mode Output G Code SCN 31 SCN 31 SCN 31 SCN 31 SCN 31================================================================== SCN 32===================== Alias Address Menu ======================== SCN 32 SCN 32 SCN 32 SCN 32 SCN 32 SCN 32 SCN 32 SCN 32 SCN 32 SCN 32 SCN 32 SCN 32================================================================== SCN 33====================== PLABEL Options Menu ======================= SCN 33Option Value Option Value Option Value SCN 33 55 64 73 SCN 33 56 65 74 SCN 33 57 66 75 SCN 33 58 67 76 SCN 33 59 68 77 SCN 33 60 69 78 SCN 33 61 70 79 SCN 33 62 71 80 SCN 33 63 72 81 SCN 33 SCN 33================================================================== SCN 34====================== PLABEL Options Menu ======================= SCN 34Option Value Option Value SCN 34 82 91 SCN 34 83 92 SCN 34 84 93 SCN 34 85 94 SCN 34 86 95 SCN 34 87 96 SCN 34 88 97 SCN 34 89 98 SCN 34 90 99 SCN 34 SCN 34================================================================== SCN 35======================= KSYM Aliases Menu ======================== SCN 35 SCN 35End of block alias Tab alias SCN 35 SCN 35Leader alias Control out alias SCN 35 SCN 35Rewind stop alias Control in alias SCN 35 SCN 35Block delete alias Alignment block alias SCN 35 SCN 35 SCN 35 SCN 35================================================================== SCN 36=========================== Main Menu ============================ SCN 36 SCN 36 1. Machine Tool Type 9. Feedrates SCN 36 2. Tape File Format 10. Dwell Parameters SCN 36 3. List File Format 11. Spindle Codes SCN 36 4. Sequence Numbers 12. Threading Formats SCN 36 5. Preparatory Codes 13. Turret Index SCN 36 6. Auxiliary Codes 14. Start-up Defaults SCN 36 7. Circular Codes 15. PLABEL Options SCN 36 8. Rapid Motions SCN 36 SCN 36 SCN 36================================================================== SCN 37=================== Machine Tool Defaults Menu =================== SCN 37 SCN 37 SCN 37 SCN 37 SCN 37 SCN 37 SCN 37 SCN 37 SCN 37 SCN 37 SCN 37 SCN 37================================================================== SCN 38============== Postprocessors in Current Directory =============== SCN 38 SCN 38 SCN 38 SCN 38 SCN 38 SCN 38 SCN 38 SCN 38 SCN 38 SCN 38 SCN 38 SCN 38================================================================== SCN 39================= Postprocessors in UNC$LIBRARY ================== SCN 39 SCN 39 SCN 39 SCN 39 SCN 39 SCN 39 SCN 39 SCN 39 SCN 39 SCN 39 SCN 39 SCN 39==================================================================