Descriptions of System Parameters

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Descriptions of System Parameters



NO

Descriptions

Range

Unit

Detail setting description

1

*Motion board base

address

[0~65535]


SERVO 4

Less than two piece card setting 800(320H)

More than three piece card setting 768(300H)

SERVO6

Setting 768(300H)

Embedded

Setting 512(200H)


Default value 800 (320H)

3

*I/O board base

address

[0~65535]

512

PIO2,PIO3,PIO5,Embedded all

setting is 512(200H)

5

*I/O board type

[0~7]

7

0:2PIO4+1PIO3(R1+HK)

1: HK + 3R1

2: HK + R2 + 2R1

3: 2R2 + 4R1

4: HK2 + R2 + 2R1

5: HK + R2 + 4PIO4

6: PIO5(disable matrix scan function )

7:PIO5(enable matrix scan function with HK)

9:Virtual IO card

9

*Servo board type

[0,5]


0:EMP2

1:SERVO4 NoAlarm 2:SVO4+ Alarm Normal Open 3:SVO4+Alarm Normal Close 4:EMP4

5:SERVO6

9:Virtual axle card

10

*SERVO 6 Alarm Type

[0,1]


0: Normal Open

1: Normal Close

Note: only for SERVO6 card

11

*Servo board clock

source

[0,2]


The clock pulse source:

0:from the SERVO card for the CNC.

1:Share the IPC Bus pulse for simulation software.

2.VIA(Clock come from mainborad )

13

*Number of servo boards

[0,4]


To set the number of servo boards.

15

I/O board digital filter type

[0,3]


The larger value for better filter effect of the noise, but also reduce

the sensitivity of the I/O Signal.

17

*Control precision

[1,3]

BLU

To set the resolution of the



NO

Descriptions

Range

Unit

Detail setting description


1:10um

2:um 3:0.1um



controller.

The selection of metric or imperial unit will not affect the Basic Length Unit (BLU) .

1: 0.01 mm,

0.01 deg,

0.001 inch;

2: 0.001 mm,

0.001 deg,

0.0001 inch;

3: 0.0001 mm,

0.0001 deg

0.00001 inch;

Set all parameters related to the BLU after the change of this parameter. Especially, the tool data need to be set again.

21~40

th


Servo channel no.

[0,20]


*Correspondent axis to the servo chanels on the servo board.

41~60

X axis motor

Command polarity

[0,1]


The definition of motor rotation direction to the machine movement.

0: Same

1: Reverse the direction.

61~80

ENCODER PULSE

[100,

pulse/rev

The resolution of the position

COUNT

2500000]

pulse/mm

sensor.

(Pulse/rev for encoder, Pulse/mm

for optical scale)

81~100

Encoder feedback

gain of the servo board.

[1,4]


For ENCODER, set all as 4.

101~120

Gain of the motor

velocity loop.

[1,8000]

RPM/V

The gain value of the motor

command. That is how many rpm for the motor rotation refer to the 1 DCV output.

121~160

Gear number at the

[1,


To set the gear parameters by these

ballscrew side.

999999999]

parameters.

Gear number at the

motor side.

161~180

Pitch of the

ballscrew

[1,1000000]

BLU

The lead for one turn of the

ballscrew.

181~200

Loop Gain of the

position loop

[1,3000]

1/sec

The larger this values are, the better

rigidity the system gets. However, too large value will cause the machine to resonance.

(the setting need to the same as setting of the driver position loop gain parameter)

201~220

Type of Position

Sensor

[0,1]


0:Encoder

1:Optical scale

2:No Position Sensor Feedback


NO

Descriptions

Range

Unit

Detail setting description

221~240

Type of servo axis

[0,5]


0:linear axis

1-5:Rotary axis

241~260

*The second sensor

input axis of dual feedback system refer to the machine axis.

[0,20]


To set the dual feedback (Optical

scale) refer to the machine axis.

261~280

The resolution of

second sensor for the dual feedback. (Pulse/mm)

[100,

2500000]

pulse/mm

The resolution of second sensor for

the dual feedback. (Pulse/mm) A/B frequency.

281~300

Type of the Radius

and Diameter display in axis.

[0,1]


0:Radius

1:Diameter

After change the setting all following parameters are set as the display. For example if the display is in diameter, then all the following values are also in

diameter

Zero offset Reference point Software travel limit

301~320

The feedback gain of

the second sensor in dual loop system.

[1,4]


All are set as 4 for encoder or

optical scale.

321~340

Name of the axis

[00100,10999]


To set the name of the axis

1st & 2nd number for axis Name display or not

00=>enable;

01=>disable;


3th number for the alpha of axis as following:

X=>1; Y=>2; Z=>3; A=>4; B=>5; C=>6; U=>7; V=>8; W=>9;


Last two number for low case number

Example

X2 setting is102, W23 setting is 923 X setting is 100

341~360

Division of position

command gain

[1,999999999]


Division of position command

gain


NO

Descriptions

Range

Unit

Detail setting description

361~380

Element of position

command gain

[1,999999999]


Element of position command gain

381~400

Servo driver control

mode

[0,2]


0: CW/CCW Position control mode

1: Voltage control mode

2: A/B Phase Position control mode

401

Acceleration and

deceleration time for cutting feedrate

[0,60000]

ms

Acceleration and deceleration time

for G01, G02, G03, G33. The larger the value, the smoother the movement is. But the accuracy will no reduced. The suggested value for CNC is 100.

402

S-curve time for

cutting

[0,60000]

ms

Version before 10.35 suggest

setting is 20

Version sfter 10.35 suggest setting is 150

404

Post-Acceleration

and

Post-deceleration time for cutting

[0,60000]

ms

This parameter is used to smoother

the movement, But the accuracy will reduced. The suggested value for CNC is 15-25.

405

Maximum cutting

feedrate

[0,3600000]

mm/min

deg/min

0.1 in/min

Set for the max cutting speed at

(G01, /G02/G03/G31/G33)

406

Corner refer Speed

[6,3600000]

mm/min


408

5mm Radius ARC

the most cutting feedrate

[6,3600000]

mm/min


409

Thread cutting

acceleration time

[0,60000]

ms

Acceleration and deceleration time

during helical cutting G33

410

MPG Movement

acceleration time

[10,60000]

ms

Setting MPG Movement acceleration

time(default Value 200)

411

Rapid Travel(G00)

type

[0,1]


G00 transverse type

0:Linear interpolation

1:All axes move in maximum speed independently.

413

Reserve local

coordinate after reset

[0,1]


Reset the work coordinate set by

G92 or G52 after reset

414

Reserve Workpiece Coordinate System

after reset

[0,2]


0:After Reset reserve to default (G54)

1:After Reset no reserve to default (G54)

2:After Reset or Turn-OFF no reserve to default (G54)

415

*Res. cur. tool length.

After reset/off (0:No;1:Yes)

[0,1]


0: for NO

1: for YES

417

Rigid tapping

acceleration/decelerati on gain

[0,4000]





NO

Descriptions

Range

Unit

Detail setting description

418

Rigid tapping velocity

gain

[0,4000]



419

Rigid tapping spindle

deceleration time

[0,60000]

ms


421~440

Axis cutting in-pos.

window(BLU)

[0,300000]

BLU

Performance of BLOCK ,to make

sure the accuracy , but too small

set , will effect the speed of process.

441~460

X axis rapid travel

(G00) acc. time

[0,60000]

ms

Set acceleration and deceleration

time of G00 or JOG ,suggest : G01 once above the acceleration and deceleration

461~480

X axis max. rapid

travel feedrate

[0,3600000]

mm/min

deg/min

0.1 in/min

The speed set of G00 , this accept

the interface of RAPID OVERRIDE setup (F0,25,50,100)

481~500

Rapid travel in-pos.

window

[0,300000]

BLU

The range of G00 IN POSITION

CHECK

501~520

Rapid travel F0

feedrate

[0,15000]

mm/min

deg/min

0.1 in/min

When G00 RAPID OVERRIDE set

to F0 , the speed of machine

521~540

JOG feedrate

[0,3600000]

mm/min

deg/min

0.1 in/min

Speed set of each axis of JOG ,

accept interface turned button of OVERIRDE

541~560

Axis Acceleration

and deceleration time for cutting feedrate

[0,60000]

ms

Setting the acceleration and

deceleration time of axis (G01/G02/G03/G31) ,system will use the parameter with Pr621~640 to calculatethe most Acceleration and deceleration.

561~580

axis loss pulse check

window

[50,300000]

0.001 mm

Controller in the motor stopped

will check the feedback position of motor and if loss pulse over the

range of parameter setif it’s over,

it will set the lost position alarm

581~600

Axis velocity feed

forward percentage

[0,200]



601~620

Axis Corner refer

Speed

[6,3600000]

mm/min


621~640

Axis Maximum

cutting feedrate

[0,3600000]

mm/min

deg/min

01. in/min

Cutting maximum cutting Feedrate

641~660

Axis S-curve time

for cutting

[0,60000]

ms


701~720

Axis group setting

[1,15]


Setting the axis group of every axis.

About the axis group control interface please refer to R520~R559 introduce.

Bit 0 1st axis group Bit 1 2nd axis group Bit 2 3th axis group


NO

Descriptions

Range

Unit

Detail setting description





Bit 3 4th axis group Example

Set 1 the axis belong to 1st axis group

Set 2 the axis belong to 2nd axis group

Set 3 the axis belong to 1st and 2nd axis group

Set 15 the axis belong to 1st 2nd 3th and 4th axis group

721~724

Axis group MST

channel No.

[1,4]


Setting axis group MST channel

No. Syntec controller offer 4 independent MST channel for CNC and PLC communicate. Different axis group can use the same channel.

1st MST channel PLC interface is C38/S30/S29/S54/S69 R1~R3

2nd~4th MST channel PLC interface please refer to R615~R626 introduce

731

CNC main axis

group

[1,4]


Assign CNC main system inclube

axis group No.

The axis group No. over this setting user can control by PLC. Please refer to R520~R559 introduce.


Set 1

only 1st axis group controlled by CNC main system($1) ,other axis group controlled by PLC interface

Set 2

1st & 2nd axis group controlled by CNC main system($1,$2) ,other axis group controlled by PLC

interface Set 3

1st 2nd & 3th axis group controlled by CNC main system

($1,$2,$3),other axis group

controlled by PLC interface Set 4

All axis group controlled by CNC main system ($1,$2,$3,$4)

~800

Reserved for system



Reserved

803

*Home Dog signal

(0:I/O; 1:Motion)

[0,1]


HOME DOG signal from the I/O

card , or Servo card , suggestion setting 0.

Note: only for EMP4 card


NO

Descriptions

Range

Unit

Detail setting description

821~840

Homing feedrate

[0,3600000]

mm/min

deg/min

0.1 in/min

Setting the feedrate to search the

HomeDog when axis is Home Back .

set to 1000 mm/min , if it’s okay , then set the speed to target vaule.

841~860

Homing 2nd low

travel feedrate

[0,360000]

mm/min

deg/min 01 in/min

Setting the feedrate to search the

index of Motor when axis is home back after leave the HomeDog .

At first ,suggestion set 1000 mm/min , if it’s okay , then set the speed to target vaule.

861~880

Homing direction

[0,1]


Setting the direction of axis to find

HomeDog; 0 is positive

1 is negative

881~900

Home offset

[-999999999,

+999999999]

BLU

Change the mechical coordiate

origin to the new position ,the parameter is the distance from the index of motor to new origin. This parameter usually use in setting the machine coordinate to one way range

921~940

Home dog polarity

(0:pos;1:neg)

[0,1]


Set HOME DOG polarity , the

normal write is NORMAL CLOSE

, but in the advance switch case is NORMAL OPEN

Note: only for EMP4 card

941~960

Home grid function

(0:OFF;1:ON)

[0,1]

0

When Home Dog position is too close to motor guide signal will effect the find origin is not exact

When it occur after finishing setting Home Dogplease open this performanceAfter it opened

finding origin will ignore the close guide signal automatically

961~980

Home search method

[0,1]


0:By HomeDog Sensor

1:By Reference index of Motor

~1200

Reserved for system



Reserved

1221~

Enable backlash

[0,1]


Backlash compensation enable or

1240

compensation

disable.

When backlash measure active ,

must disable backlash

compensation

1241~

Backlash amount

[0,

BLU

After backlash compensation start ,

1260

999999999]

according to this setup , do

backlash compensation

1301~

1320

Pitch error comp. type

[0,2]


0:No compensation

1:Unidirection 2:Bidirectiion

1321~

Pitch error comp.

[1000,

BLU

After interval compensation start ,


NO

Descriptions

Range

Unit

Detail setting description

1340

Interval

99999999]


according to this setup , set the

pitch of compensation

1341~

Table index for

[1~100]


After interval compensation start ,

1360

reference(home)

what number is mechanical origin

in table for compensation , suggest

50

1361~1380

axis pos. quad-peak

error comp.

[0,9999]

BLU

The compensation of quad-peak

between axis moving direction from negative to positive

1381~1400

axis quad-peak error

time constant(ms)

[0,60000]

ms


1401~1420

axis mechanical

comp. time

constant(ms)

[0,60000]

ms

The compensation of backlash and

pitch-err is exponent . This parameter is setting the time constant of exponent.

1421~1440

aixs max. static dual

error(BLU)

[100,100000]


Setting the limitation of Error

between Motor position and Liear scale position feedback

1441~1460

axis neg. quad-peak

error comp.(BLU)

[0,9999]

BLU

The compensation of quad-peak

between axis moving direction from positive to negative

1581

The time of Feed

forward comp.

[0,1000]

ms


1621~

spindles servo

[0,20]


If spindle is controlled by inverter

1630

channel no. or axis

control mode ,please setting the

no.

servo channel on the servo card.

If spindle is controlled by position

command mode or voltage

command control mode ,please

setting the axis number of system.

1631~

Spindle bias for

[-100000,

0.001 RPM

OFFSET quantity of main spindle

1640

zero speed

+100000]

origin

1641~

Spindle encoder

[0,1]


Clockwise and counterclockwise

1650

polarity(0:Pos;1:Neg)

setup of main spindle

1651~

Spindle encoder

[100,


ENCODER number of main

1660

resolution(pulse/rev)

2500000]

spindle

1661~

Spindle encoder

[1,4]


Frequency number of main spindle

1670

scaling factor

encoder is 4

1671~

1680

Spindle gain(RPM/V)

[1,8000]

RPM/V

Spindle revolutions gain setup ,in

frequency converter situation ,in principle ,system max RPM/axle card max output(+10V) ,EX: spindle max 4500RPM ,then this value set to 450

1681~

Spindle gear one gear

[1,


The wheel gear rate of main spindle

1700

number at screw side

999999999]

one gear

/Spindle gear one gear

number at motor side

1711~

1720

*Spindle pos. sensor

[0,1]


Spindle RPM is displayed by

encoder actual feeback value or not


NO

Descriptions

Range

Unit

Detail setting description


exist?(0:No;1:Yes)




1721~

1730

Spindle zero floating

speed(RPM)

[0,1000]

RPM

When main spindle inch moves

start , speed of main spindle ( low speed ) , the same as JOG and

AUTO ,it’s no limit from main

spindle lowest speed.

1731~

1740

Minimum spindle

speed(RPM)

[0,30000]

RPM

Minimum spindle speed in automatic and manual

1741~

1750

Speed for spindle

orientation stop(RPM)

[0,30000]

RPM

Main spindle location activeits

location speednot effect from limit of minimum spindle speed.

1751~

Spidnle S.O.S.

[-3600000,

0.001 deg

Main spindle location activethe

1760

reference offset

+3600000]

bias angle of located potionthis

angle is opposite to same cycle

signal main spindle encoderSo this

parameter must adjust when change

motorencoder or belt

1761~

1770

Spindle orientation

stop dec. time

[1,60000]

ms

Main spindle location active

deceleration time of location

1771~

Spindle home

[-360000,

0.001deg

Main spindle position origin

1780

reference offset

+360000]

opposite to bias of main spindle

encoder guide signal Let show

position of PLC R35 spindle

1781~

1790

Min. speed for spindle

orientation stop

[0,500]

RPM

Main spindle location active

minimum of location speedthis speed is not effected by main

spindle speed

1791~

1800

*Spindle motor type

[0,1]


Select motor type0 for frequency

motor1 for serve motor

1801

Maximum spindle

speed

[1,80000]

RPM


1811

Spindle encoder

mount location

[0,1]


(0:Spindle;1:Motor)

1901~

Spindle gear second

[1,


Gear rate of spindle second gear

1920

gear number at screw

999999999]

side

Spindle gear second

gear number at motor

side

1921~

Spindle gear third

[1,


Gear rate of spindle third gear

1940

gear number at screw

999999999]

side

Spindle gear third

gear number at motor

side

~2000

Reserved for system



Reserved


NO

Descriptions

Range

Unit

Detail setting description

2001

MPG 4th scaling

factor

[100,1000]

LIU

MPG manual (JOG) step at 4 LIU

of each pulse, LIU minimum input unitthis is effected by input of

metric and customary system

2003

MPG program

simulation from hand wheel No.

[1,3]


MPG program simulation from MPG

number

2021~

* MPG signal to

[0,20]


MPG opposite to what spindle of

2030

servo channel no.

serve spindle , usually set to last

2031~

MPG related

[0,6]


Set mapping coordinate when MPG

2040

axis(0:MLC;1~6:axes)

JOG

0 that opposite coordinate is

selected by MLC C16 ~ C19

1~6fixed mapping X, Y, Z, A, B,

C spindlethe relationship is not

effected by C16~ C19

2041~

MPG resolution

[100,


MPG resolution

2050

2500000]

2051~

2060

MPG scaling factor

[1,4]


MPG scaling factor , set to 4

2061~

2080

MPG gear number at

screw side

[1,

999999999]


Gear rate setup , input motor’s gear

number ,and screw side tooth number

~2400

Reserved for system



Reserved

2401~

Software travel limit

[-999999999,

BLU

Normal working range , setup steps

2440

+999999999]

1. find HOME 2. use MPG move to

OT slowly 3. when touch OT then

back 5mm ,use this position setup

for first stroke limit

~2800

Reserved for system



Reserved

2801~

2nd reference point

[-999999999,

BLU

2nd ~4th parameter point setup

2860

+999999999]

~3200

Reserved for system



Reversed

3201

*lathe convention

(0:No;1:C;2:A;3:B)

[0,1]


Set this system is lathe convention

or not(EX:: input caliber , threading)

3202

*I/O scan time

[100,5000]

0.001ms

I/O scan timenormal set for 2000

(2ms)

3203

*Interpolation time

interval

[500,

2000000]

0.001ms

Interpolation time interval ,normal

set for 2000 (2ms)

3204

*PLC scan time

[500,

2000000]

0.001ms

PLC scan time normal set for

10000 (10ms)

3205

*Function key

type(0:5 key;1:8 key)

[0,1]


Select function key type 5 key or 8

key

3207

*C/S interface

version number

[1,2]


  1. override is reality %

range:-200% ~ +200 % (industrial mechanical setup)

  1. override default steps



NO

Descriptions

Range

Unit

Detail setting description





range: 1-20

(lathe and miller setup)

3209

*Language setting

[0,3]


0:English

1:Trad. Chinese 2:location language 3:Simp. Chinese

3211

*Display type

[0,1]


0:Color

1:Mono

3213

*Removable Device

Name

[0,3]


0:A

1:B

2:D

3:Net

3215

*call sub-program when select the tool

[0,1]


0:no;1:call T0000

3217

*select the type of

control interface

[0,10]


0:PC Standard keyboard

(with C,S-Bit function)

1: 9CRT 900 type keyboard 8.4TFT 900 type keyboard and Embedded silica keyboard

2: 10.4TFT 900 type keyboard 3:Old 9CRT 900 type keyboard 4: 8.4"、 10.4TFT 940 type

keyboard

9:PC standard keyboard

3219

*select system mode

[0,4]


0: NO SRAM : all data and system program put in the same DOC C:



1: SRAM : user’s dynamic data and tool program put in SRAM, A:



user’s dynamic data put in A:\CNC\USER


tool program put in A:\CNC\NCFILES

Dialogue program put in A:\CNC\GNCFILES


2: HARDDISK : user’s dynamic data put in SRAM A: tool


program put in another hard disk D:(or second DOC)


user’s dynamic data put in A:\CNC\USER


tool program put in D:\CNC\NCFILES

Dialogue program put in D:\CNC\GNCFILES


NO

Descriptions

Range

Unit

Detail setting description






3: tool program put in another hard disk C:in order to consist the


older version that has hard disk

4:reversed

3221

Start marco one way

execute

[0,1]


0:disable1:enable

3223

System administer

[0,1]


0:disable1:enable

3225

Screen saver delay

time

[0,9999]

min

Set screen saver delay timeunit is

minute0 for disable

3227

Screen resolution

[0,1]


Set screen resolution

0: 640x480

1: 800x600

3229

Disable workpiece

coordinate setting screen display

[0,1]


0: enable1: disable

3230

Disable lathe tool

length setting screen display

[0,1]


0: enable1: disable

3231

**COM1 Remote

Device

[0,3]


0:Disable

1:FX2 HMI

2: Touch panel 3:FX2-V2 HMI

(This setting can read or write Register R0~R4095)

3232

**COM2 Remote

Device

[0,3]


0:Disable

1:FX2 HMI

2: Touch panel 3:FX2-V2 HMI

(This setting can read or write Register R0~R4095)

*3241

decimal point type

[0,1]


0:standard

1:pocket

3243

keyboard reset

process by PLC

[0,1]


0:by MMI

1:by PLC

3245

Max inc. value of

input for tool wear compen.(BLU)

[1,200000]

BLU


3247

Feedrate display

method

[0,1]


0: mm/min

1: m/min

*3251

*Touch Screen Type

[0,1]


0:

1:PenMount

*3252

*Touch Screen

Xmin side

[1~9999]



*3252

*Touch Screen

Xmax side

[1~9999]



*3252

*Touch Screen

Ymin side

[1~9999]



*3252

*Touch Screen

[1~9999]




NO

Descriptions

Range

Unit

Detail setting description


Ymax side




3401~

3600

MLC mode

Parameter




3601~3610

*register M code to

call marco



register M code to call marco

3801

feed tight couple

with spindle position under G95

[0,1]


0: G95 mode feed tight couple with

spindle command position

1: G95 mode feed tight couple with spindle encoder feedback position

3802

default feedrate

control mode

[0,2]


0:G64 normal cutting mode

1:G62 3-D surface cutting mode 2:G62.1 specific Field machine

control mode

3804

Part count M code

[1,999999]


Setting Workpiece cutting finish

counter M code number

3805

static dual feedback

error timeout

[2,60000]

ms


3807

Destination not on

arc check window

[1,1000]

BLU

The error of radius from start-point

to end-ponit

3809

*Are UVW inc.

command of XYZ axes(0:No;1:Yes)

[0,1]


0:UVW is UVW axis command

1:UVW is XYZ axis inc. command

3811

*Start address of

persist working global variable

[0~400]


0:@1~@400 data all reset after

power off

1~400:Start address of persist working global variable

EX:

setting 100 ,@100~@400 data will persist after power off

3813

*Number of

extended global varaibles

[0~20000]


Setting the number of extended global variables from @60000.

EX:

Setting 1000 ,extended global variables from @60000 to @60999

3815

Tool radius

compensation preview(0:No;1:Yes)

[0,1]


刀具半徑補償預看模式

0: normal mode

1: preview mode, G41/G42 enable from the nearest G00 or G01 block

3816

Tool length

compensation mode(0:Z;1:Single;2

:Multi)

[0,2]


0Only Z-Axis

1Single axis perpendicular to the cutting place

2: mutil axis perpendicular to the

cutting place

Note:Lathe system always setting 2 by system

3817

Fatal dual feedback

error(BLU)

[100,100000]


Dynamic check the error of Motor

and linear scale feedback position

3819

Overcut check mode

[0,2]


0:No check and No Alarm

1:Check and alarm



NO

Descriptions

Range

Unit

Detail setting description





2:Modify the path by system

3821

*1st coupling master

axis number

[0,20]



3822

*1st coupling slave

axis number

[0,20]



3823

*1st coupling master

axis ratio factor

[1,999999]



3824

*1st coupling slave

axis ratio factor

[-999999999,

999999999]



3825

*1st coupling

type(0:No;1:Mach;2: PSyn;3:Super;4:MSy n)

[0,4]


Axis coupling type:

0:No coupling 1:machical coupling

Coupling start from power on 2: PeerSynchronization coupling


3:Superimposition coupling 4:MasterSlaveSynchronization

coupling Note:

2~4 axis coupling if C46 on

3826

1st coupling couple

time(ms)

[0,60000]

ms


3827

1st coupling decouple time(ms)

[0,60000]

ms


3831

*Discharge

resolution(0.001us)

[1,999999999]

0.001us


3832

*Discharge ignition

delay

[1,999999999]



3841

Z+ contact surface

position(BLU)

[-999999999,

+999999999]

BLU


3842

Z- contact surface

position(BLU)

[-999999999,

+999999999]

BLU


3843

X+ contact surface

position(BLU)

[-999999999,

+999999999]

BLU


3844

X- contact surface

position(BLU)

[-999999999,

+999999999]

BLU


3851

tool break handler

program No.

0~999999


0:disable

System default break handler program is O99900(please setting

999000)

O999900

% @MACRO

G10 L1100 P1820 R0; // disable mute mode

#1=#1046; // backup programmed federate

#2=#1008; // backup G94/G95 mode

#3=#1004; // backup

G90/G91 mode

M#1054 S#1034; // turn on


NO

Descriptions

Range

Unit

Detail setting description





spindle

G54 P#1040; // restore workpiece coordinate number

G90 G00 X#1411 Y#1412; //

rapid move to programmed (x,y) G94 G01 Z#1413 F1000.; //

cutting move to programmed (z) by 1 m/min

G#3 G#2 F#1; //

restore G94/G95,G90/G91 mode, programmed federate

M99;

3861~3889

*2nd~4st axis

coupling setting parameter



Please refer Pr.3821

3943

Second exchange

code type

[0,2]


0: ASCII;

1: EIA;

2: ISO;

3944

COM1 control code

(0:no;1:DC2;2:DC4; 3:DC2&DC4)

[0,3]


0: no DC control code;

1: add DC2 to start of data; 2: add DC4 to end of data;

3: add DC2 to start of data and add DC4 to end of data;

3945

COM1 end-of-block

output code(0:EOB;1:CR& EOB)

[0,1]


0: EOB;

1:add CR before EOB

3946

COM1 DC3 control

code parity (0:off ; 1:on)

[0,1]


0: no;

1: yes

this parameter is meaningful when that is set to 2 in 3947

3947

COM2 flow control

mode



0: no;

1: CTS/RTS hardware mode; 2: Xon/Xoff software mode;

3948

COM2 parity check



0: no;

1: odd corresponding;

2: even corresponding;

3949

COM1 stop bit



1: 1 bit;

2: 2 bit;

~4000

Reserved for

coordinate system



Reserved

4001~

Reserved for CNC



Reserved

5000

developer’s custom

macro

Parameters

5001~

Reserved for



Reserved

6000

manufacturer’s

custom macro

Parameters

6001~

Reserved for new



Reserved

8000

parameter group



NO

Descriptions

Range

Unit

Detail setting description

8001~

Pitch error

[-999999,

BLU

Setup principle : 1. use HOME to

10000

compensate ,

999999]

be the compensation datum point 2.

compensation table

cancel pitch error compensation

setup 3. use Block Gauge or laser to

get the exactly inaccuracy(absolute)

4. mechanical coordinate is

positive , add 50 , 51 .,

mechanical coordinate is

negative ,add 49,48,475. after

finishing , restart compensation and

do one more , compensation effect

or not 6. when set one-way

compensation, only enter positive

compensation number 7. two-way

compensation usually use in laser

measurement 8. input is absolute

compensation , not absolute

inaccuracy (they are different from

a negative sign)

*that parameter effect when next reboot


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