UMC4
Contents
1. 4 4 LED Status D1 D8 Color Descriptions Red Executing status Keep light while function is normal Red Light flashing while data is transferring Red UMC4 is initializing please wait Yellow Reserved Red Reserved Green Ready to use Red Power in Green USB connected with computer 25 UMC4 5 UMCA SPI Board SPI G3 G4 5 1 Appearance UMC4_B_SPI SPI Enable Align 0 Bit 0 Bit 1 Bit 2 Bit 3 Bit 5 G3 SeedTemp Base Temp Pre Amp Power Amp 64 Monitor Laser Temp Alarm System Fault G3 Beamcollimator Reserved Power Supply Fault Laser Ready G4 Beam delivery Laser deactivated Laser emission Laserison Descriptions SPI Laser port connect with SPI laser one on one with SCSI 68Pin cable RS232 port connect with computer RS232 Serial port for SPI laser software mode control Default not available SPI RS232 SPI Estop SPI Status 26 UMC4 5 2 Pin Assignment 5 2 1 J4 J7 Laser extend connector Connector Descriptions SPI_RS232_RX SPI_RS232_TX Estop Dry connect input Let GND short circuit will get Estop signal Seed laser temperature fault Base plate temperature fault Pre amplifier current fault Power amplifier current fault GND 5V Beam collimator fault Reserved fault indicator Laser Ready no fault Power Supply Fault2. P2 12 P4 8 Start P2 13 P4 9 STOP Commoun Cathode Figure Switch Open Start Stop action Een R VCC5V 114148 100 Switch 9 C 4 1 15 2 2 12 4 8 Start 1 2 135 P4 9 5 2 1 4 R Tk Y 2 3 3 9 4 Extenstion Pulse Direction CW CCW Select Motion output Pulse Dir or CW CCW Enable Multi Start While in automation mode multiple start marking signal trigger is allowed 3 9 5 Signal Polarity Enable Active Low Setting Start Stop drive phase with P2 P4 Check for reverse Setting TTL signal with P2 Check for reverse Setting photo couple phase with P4 Check for reverse Selecting FPK or R05 Out Applies Old Card IP1 2 1 The new card changed JP1setting Setting Limit with INS IN4 Check for Limite InPosition with IN2 Setting motion with Selecting X Y gt Z axis By default the axis 22 UMC4 4 Others 4 1 Clock UMC4 is equipped with clock counter capable to mark current date and time 4 1 1 Hardware Configuration a 97 is needed to connect with 1 5V 5V battery Without battery the current date and time will be erased as long as UMC4 been cut off power b Lifetime of Carbon zinc battery is approximated 3 years Note Even UMC4 is plug in the power the battery is still consumed by minimum current 777 nu 3 4 1 2 Software Configura
3. i 1 SHIN 1 mmm H T NINN 1 1 1 1 1 1 1 Bala gt H Alaa lt gt MP H i xem 1 1 Hals gt gt 2 gt 0 59 g SENSOR peg ee premere ee 1 1 H 1 1 MEL i 1 i p 7 O 1 H 0 1 o 1 1 5 a 1 i 1 m wow i g 1 1 1 1 UN RRR H BER Sen 1 1 VM MR 1 xs gt mmm mimm H T gt gt gt H T oO D RU gt x min 1 Bala z H 1 1 gt gt gt gt 1 H o 1 H 1 1 xaj xw o 1 i 1 5 Jp i n 1 Power 0V SENSOR 7 3 2 2 Common Anode Sensor PNP JF6 PC817 UMC 4 B Mo tion JF5 gt 1kQ AK T Vo MR m mlm mim Z S S AK N az ala ala 2 H AJA Alam Z S S A K M N Alan GND Power 0V SENSOR 42 UMC4 7 3 3 Encoder Signal Connection Different Signal i Connection UMC 4 Mo Encode
4. SoftStartLevel3 D285 Unsigned Short SoftStartLevel4 D286 Unsigned Short SoftStartLevel5 D287 Unsigned Short SoftStartLevel6 D288 Unsigned Short SoftStartLevel7 D289 Unsigned Short SoftStartLevel8 D290 Unsigned Short SoftStartLevel9 D291 52 Unsigned Short UMC4 SoftStartLevel10 Unsigned Short SoftStartLevel11 Unsigned Short SoftStartLevel12 Unsigned Short SoftStartLevel13 Unsigned Short SoftStartLevel14 Unsigned Short SoftStartLevel15 Unsigned Short ROS nit Unsigned Long RO5Interval Unsigned Long RO5Levelo Unsigned Short RO5Levelt Unsigned Short RO5Level2 Unsigned Short RO5Level3 Unsigned Short RO5Level4 Unsigned Short RO5Level5 Unsigned Short RO5Level6 Unsigned Short RO5Level7 Unsigned Short RO5Level8 Unsigned Short RO5Level9 Unsigned Short RO5Level10 Unsigned Short RO5Level11 Unsigned Short RO5Level12 Unsigned Short RO5Level13 Unsigned Short RO5Level14 Unsigned Short RO5Level15 Unsigned Short IPG Setting Unsigned Short Setting Unsigned Short YAG Setting Unsigned Short SPI Setting Unsigned Short SPI Align Off Delay Unsigned Long SPI Enable Delay Unsigned Long 53 UMC4 08000 08255 0x0e00 Name Name Type Power 08000 Unsigned Short Simmer Current 08001 Unsigned Short HalfPeriod D8002 Unsigned Long Duty width D800
5. 11 23 24 2 1 2 P2 LASER CONNECTOR Laser Control Port 15 pin Female Connector i Descriptions 2 Analog Power Current Analog Out2 Frequency GND Laser PWM 1 Power Frequency Laser2 FPK or R05 1 LO Laser On Off L1 Leading Light On Off L2 Shutter L3 CW select L4 Lamp On Off L5 Start power saving mode START Dry connect input Let Pin12 amp Pin15 short circuit will get START signal STOP Dry connect input Let Pin13 amp Pin15 short circuit will get STOP signal 5V 1A GND 1 The output signal of Laser1 and Laser2 depend on the selected laser control mode 15 14 13 99 A o Mode RO5 Modulation Pulse 1 Q Switch signal Q Switch signal Modulation Pulse 2 First Pulse Killer Analog out R05 UMC4 2 1 3 P3 RS232 PLC Communication Port 9 pin Connector Descriptions 2 1 4 VO CONNECTOR Rotary Encoder and I O Port 26 pin Connector Descriptions Encoder A Encoder A Encoder B Encoder B Pulse CW 1 Pulse CW 1 Directions CCW 1 Direction CCW 1 Home Home Pre View On Pre View On 5V 1A OPTO IN5 System On START Dry connect input Let Pin8 amp 18
6. First Padding 7 56 Unsigned Short Last Padding 0 UMC4 Unsigned Short Last Padding 1 Unsigned Short Last Padding 2 Unsigned Short Last Padding 3 Unsigned Short Last Padding 4 Unsigned Short Last Padding 5 Unsigned Short Last Padding 6 Unsigned Short Last Padding 7 Unsigned Short Size Scale X Unsigned Long Size Scale Y Unsigned Long SpacingMode Unsigned Short TxtMode Unsigned Short First Padding Num Unsigned Short Last Padding Num Unsigned Short RECT_SHOW Unsigned Short RECT_Width Unsigned Short RECT_Height Unsigned Short RECT_UpSpace Unsigned Short RECT_DownSpace Unsigned Short RECT_LeftSpace Unsigned Short RECT_RightSpace Unsigned Short ARC_SHOW Unsigned Short ARC_DISTYPE Unsigned Long ARC_LINESPACE Long ARC_DISVALUE Long ARC_BASEANGLE Long ARC_BLTYPE Unsigned Short ARC_NEGARRAY Unsigned Short ARC_CENTERX Unsigned Short ARC_CENTERY Unsigned Short ARC_RADIUS 57 Unsigned Long File Reg 0x59 0x68 UMC4 CO C199 0x0a00 OxOb8f Addr Name Name Type 0 00 File Addr CO Unsigned Long OxAA04 File Name C2 Char 16 OxAA14 File Length Unsigned Long OxAA18 CharTb Addr Unsigned Lon
7. 0 1 56 MaxValue_Digital11 Unsigned Short 0x1X58 MaxValue_Digital12 Unsigned Short 0x1X5a MaxValue_Digital13 Unsigned Short 0x1X5c MaxValue Digital14 Unsigned Short 0 1 5 MaxValue_Digital15 Unsigned Short 0x1X60 CurValue DigitalO Unsigned Short 0 1 62 CurValue_Digital1 Unsigned Short 0x1 X64 CurValue_Digital2 Unsigned Short 0x1 X66 CurValue_Digital3 Unsigned Short 0x1 X68 CurValue_Digital4 Unsigned Short 0 1 CurValue Digital5 Unsigned Short 0x1X6c CurValue_Digital6 Unsigned Short 0x1X6e CurValue_Digital7 Unsigned Short 0x1X70 CurValue_Digital8 Unsigned Short 0x1X72 CurValue_Digital9 Unsigned Short 0 1 74 CurValue_Digital10 Unsigned Short 0x1X76 CurValue_Digital11 Unsigned Short 0x1X78 CurValue_Digital12 Unsigned Short 0 1 7 CurValue_Digital13 Unsigned Short 0 1 7 CurValue_Digital14 Unsigned Short 0 1 7 CurValue_Digital15 Unsigned Short 0x1X80 First Padding 0 Unsigned Short 0x1X82 First Padding 1 Unsigned Short 0x1X84 First Padding 2 Unsigned Short 0x1 X86 First Padding 3 Unsigned Short 0x1X88 First Padding 4 Unsigned Short 0 1 8 First Padding 5 Unsigned Short 0 1 8 First Padding 6 Unsigned Short 0 1 8
8. 4 B Motion SPI Nam Pin Descriptions LED SCSI68Pin SPI G3 SPI G4 N External Pulse Trigger Laser Emission Gate Pulsed CW Mode select State Select bit 0 State Select bit 1 State Select bit 2 State Select bit 3 State Select bit 4 State Select bit 5 Global Enable Alignment laser enable Seed laser temperature fault Base plate temperature fault Pre amplifier current fault Power amplifier current fault Beam collimator fault Reserved fault indicator Laser Ready no fault Pulse_trigger_h Laser_emission_gate_h Laser_Pulse_CW_h DI 0 DI 2 DI 3 DI 4 DI 5 Laser enable h Pilot laser enable h Monitor Laser temperature Alarm System fault Beam delivery Laser deactivated Laser is on Power Supply Fault Laser emission warning 38 UMC4 7 2 7 2 UMC4 Motion IPG IPG Pin D SUB 25 Descriptions Sync Guide E Power Setting DO Power Setting D1 Power Setting D2 Power Setting D3 Power Setting D4 Power Setting D5 Power Setting D6 Power Setting D7 Latch Laser alarms status Laser alarms status Laser alarms status Laser alarms status 39 UMC4 7 2 8 D20 D46 Motion LED Status Descriptions Descriptions Pulse X Positive Limit Z Direction X Negative Limit Z Pulse Y Home Z Direction Y InPosition Z Pulse Z Encoder AX Direction Z Encoder BX Positive Limit X Encoder ZX Negative Limit X
9. Setting D 1 XY Data Swap Starti Signal P4 Reverse X Mirror Stopi Signal P4 Reverse Y Mirror Start2 Signal P2 Reverse 2 Mirror Stop2 Signal P2 Reverse XY Lines Exchange LaserON Signal Reverse DAC Setting 1 PWM Signal Reverse DACI C 05V Signal Reverse 0 10V Program Ready Signal Reverse 5 Marking Ready Signal Reverse CO Marking End Signal Reverse Input Sensor Type ROS Startl common anode Busy Signal Reverse common cathode FILE SEL Motion Sensor 4 common anode Mark Busy LaserON Busy common cathode axis eR xyz Start2 common anode Le EUR P2 common cathode Card ID Define Stop2 7 common anade B common cathode 1 Information Pulse Direction CW CCW Hardware Flag Enable Multi Start Hardware Version on 3 9 1 Scanner alignment Set P1 XY2 100 XY Data Swap Exchanging X and Y coordinate will not affect correction file X Mirror Y Mirror Z Mirror X and Y Z Mirror XY Lines Exchange X and Y output exchange 21 UMC4 3 9 2 DAC Setting Set P2 Analog Out Voltage Select DAC1 amp DAC2 as 0 5V or 0 10V 3 9 3 Input Sensor Type Set P2 P4 Start Stop Common Anode Figure Switch Close Start Stop LOW action prea E eee ie EEE ER erie ts ae cima eae
10. 3 8 1 Connect with general buttons R LL4148 100 Switch A 2 AAA 1 2 2 12 P4 8 Start 2 13 4 9 5 1 21 R K Ya 2 gt lt OO Serre o 10o o2 Note Please set Common Cathode for HWConfig Please refer to 3 8 HWConfig Setting Description 3 8 2 Connect with sensors a For Common Cathode Sensor NPN short circuit the sensor output with GND VCC5V P2 12 P4 8 Start 2 13 9 5 4 R LL4148 100 Switch A4 wt o o Please set Common Cathode for HWConfig Please refer to 3 8 HWConfig Setting Description 19 UMC4 b For Common Anode Sensor PNP short circuit the sensor output with Vcc D R LL4148 100 Switch AZA 1002 2 12 P4 8 Start 2 13 P4 9 STOP 52 lt gt e e Power 0V Note Please set Common Cathode for HWConfig Please refer to 3 8 HWConfig Setting Description 3 8 3 Input TTL signal gt D 5 OC 2 12 P4 8 Start 2 13 P4 9 STOP 1 2 1 1k 2 Note Please set Common Cathode for HWConfig Please refer to 3 8 HWConfig Setting Description A e gt O ol 20 UMC4 3 9 HWConfig Setting Description File Address C Program Files MM SA Drivers UMC4 HWConfig exe x HWConfig UMC4 Scanner alignment
11. 38 7 2 7D1 D19LASERLEDSTATUSDESCRIPT ONS 38 7 2 8D20 D46MOTONLEDSTATUS tentet 40 7 3 CABLE 41 7 3 1 PULSE DIRECTION SIGNAL CONNECTION 41 7 3 2 CONNECT WITH SENSORS 42 7 3 3 ENCODER SIGNAL 43 7 3 4 TTL SIGNAL CONNECTION JF1 2 43 7 3 5 SPI STATUS SIGNAL CONNECTION J6 47 44 Rel liste 45 8 1 DRIVERS SETTING IM NL IU DLL 45 8 2 CABLE CONNECTION e 45 QiUSING RS 232 E 46 9 1 WHAT IS 5 232 46 9 2 SETTING TO USE RS 232 TO CONTROL 1 46 APPENDIX1 VARIOUS LASER SETTING 47 TYPE 14 CO2 47 TYPE2 YAG 15 2 3 MODE 48 TYPE ROS MODE 49 APPENDIX2 HOW TO CONNECT WITH PLC csscssscesscesecesecesecescceseceseceseceseceseceseceseceseeeseeesesenes 50 APPENDIX3 PLC ADDRESS DEFINITION 2 51 UMC4 1 Introduction UMC4 is a high performance USB interface card designed for Laser Marking System The card supports digital galvo motor compatible with XY2 100 protocol and through DA2 16 daught
12. Long 0x5850 Preview Matrix 3 Long 0x5854 PreLoadFile Unsigned Long 0x5858 Device Name 51 Char 16 UMC4 D256 D511 0 1200 Ox13ff Name Name Type SPI ENABLE OUT D256 Unsigned Short SPI CW OUT D257 Unsigned Short SPI ALIGN OUT D258 Unsigned Short SPI WAVEFORM OUTO D259 Unsigned Short SPI WAVEFORM OUT1 D260 Unsigned Short SPI WAVEFORM OUT2 D261 Unsigned Short SPI WAVEFORM OUT3 D262 Unsigned Short SPI WAVEFORM OUT4 D263 Unsigned Short SPI WAVEFORM OUT5 D264 Unsigned Short IPG POWER OUTO D265 Unsigned Short IPG POWER OUT1 D266 Unsigned Short IPG_POWER_OUT2 D267 Unsigned Short IPG_POWER_OUT3 D268 Unsigned Short IPG_POWER_OUT4 D269 Unsigned Short IPG POWER OUT5 D270 Unsigned Short IPG_POWER_OUT6 D271 Unsigned Short IPG POWER OUT7 D272 Unsigned Short IPG LATCH OUT D273 Unsigned Short IPG MO OUT D274 Unsigned Short IPG GUIDE OUT D275 Unsigned Short LATCH TIME D276 Unsigned Long IPG MO DELAY D278 Unsigned Long SoftStartMode D280 Unsigned Short SoftStartNum D281 Unsigned Short SoftStartLevelO D282 Unsigned Short SoftStartLevel1 D283 Unsigned Short SoftStartLevel2 D284 Unsigned Short
13. 4 5 215 2 3 7 10 11 12 13 14 5 36 OOOO OD OO OOO O00 DO 2 Output 1 4 Output3 6 Output 5 8 Output 7 10 Output 9 12 Output 11 14 Output 13 16 Output 15 18 GND 20 Do Not Connect UMC4 7 2 5 J4 J7 Laser extend connector 7 2 5 1 UMC4 B Motion SPI Connector Descriptions SPI_RS232_RX SPI_RS232_TX Estop Dry connect input Let GND short circuit will get Estop signal Seed laser temperature fault Base plate temperature fault Pre amplifier current fault Power amplifier current fault GND 5V Beam collimator fault Reserved fault indicator Laser Ready no fault Power Supply Fault GND 5V 7 2 5 2 UMC4 B Motion IPG Connector Description Estop Dry connect input Short with GND to trigger IPG Pin 11 IPG Pin 12 IPG Pin 16 IPG Pin 21 37 UMC4 7 2 6 JF4 JF6 Sensor Control Port Terminal Block Name Descriptions LPX LPY LPZ Positive Limit X Y Z LPX LPY LPZ Positive Limit 2 LNX LNY gt LNZ Negative Limit X Y 2 LNX LNY LNZ Negative Limit 2 HZ Home X Y 2 HX HY gt HZ Home 2 IX IY IZ InPosition X Y gt 2 IX gt IY IZ InPosition X Y 2 7 2 7 D1 D19 Laser LED Status Descriptions 7 2 7 1
14. GND 5V 27 UMC4 5 3 LED Status LED SCSI 68Pin D1 7 Global Enable Laser enable D2 6 Alignment laser enable Pilot laser enable D3 Seed laser temperature fault Monitor D4 Base plate temperature fault Laser temperature D5 Pre amplifier current fault Alarm D6 10 Power amplifier current fault System fault D7 11 Beam collimator fault Beam delivery D8 12 Reserved fault indicator Laser deactivated D9 14 Laser Ready no fault Laser is on D10 16 Power Supply Fault Laser emission warning 28 UMC4 6 UMCA IPG Board Type D D1 Also apply for Raycus and JPT Laser 6 1 Appearance UMC4_B_IPG Laser On Guide Light mo Latch B B 0 D2 D3 06 0 5 0 INI IN2 IN3 INA Pin 12 Pin 16 Pin 21 Pin 11 8 0 Descriptions IPG Laser port connect with IPG laser one on one with D sub 25Pin cable IPG E Stop Dry connect input IPG Status TTL Output 29 UMC4 6 2 Pin Assignment 6 2 1 J4 J5 Laser extend connector Connector Description Estop Dry connect input Short with GND to trigger IPG Pin 11 IPG Pin 12 IPG Pin 16 IPG Pin 21 6 3 LED Status D1 20 PWM gt 30 UMC4 IPG_Fiber cfg For IPG Laser IPG_Fiber_RS232 cfg For RS232 control IPG Laser IPG_GLPM cfg For IPG GLPM Laser IPG_YLP_B cfg For IPG YLP B Laser IPG_YLPM cfg For IPG YLPM Laser r
15. ON LASER ON H 15 GND LASER ON L 10 LAMP LD ON H 15 GND LD ONL While use OMRON Fiber cfg connection is according to following definition PC RS232 D SUB 9M OMRON D SUB 9F RX Receive TX Transmit TX Transmit RX Receive GND GND OMRON D SUB 9F TX Transmit RX Receive RX Receive TX Transmit GND GND UMC4 9 Using RS 232 9 1 What is RS 232 RS 232 is a kind of serial port Common type RS 232 connector is 9 pin D Sub Some kinds of laser types needed to control by RS 232 port for tuning laser parameter such as power percentage frequency etc 9 2 Setting to use RS 232 to control laser Take SPI G4 HS laser controlled by RS 232 as example After user has executed MarkingMate DM exe chosen UMCA at Driver Name column and picked SPI fiber RS232 G4 HS cfg at Mode column to apply the setting by clicking OK The location of cfg file is MarkingMate Drivers UMC4 cfg Refer to the following picture r File Language Driver Name OMRON Fiber DIRCTRL cfg OMRON Fiber cfg Duplicate OK Open the given file by favorite text editor There should be two instructions under ENV sector such as RS232 1 RS232 1 means control laser by RS 232 XXX within means the using Com Port number Default value is 1 which means using C
16. Unsigned Short 0x1X20 InitValue DigitalO Unsigned Short 0x1X22 InitValue_Digital1 Unsigned Short 0x1 X24 InitValue_Digital2 Unsigned Short 0x1X26 InitValue_Digital3 Unsigned Short 0x1X28 InitValue_Digital4 Unsigned Short 0 1 2 InitValue_Digital5 Unsigned Short 0x1 X2c InitValue Digital6 Unsigned Short 0 1 2 InitValue_Digital7 Unsigned Short 0x1 X30 InitValue_Digital8 Unsigned Short 0x1X32 InitValue_Digital9 Unsigned Short 0x1X34 InitValue_Digital10 Unsigned Short 0x1X36 InitValue_Digital11 Unsigned Short 0x1X38 InitValue_Digital12 Unsigned Short 0 1 InitValue_Digital13 Unsigned Short 0x1X3c InitValue_Digital14 Unsigned Short 0 1 InitValue_Digital15 Unsigned Short 0x1X40 MaxValue_DigitalO Unsigned Short 0x1X42 MaxValue_Digital1 Unsigned Short 0 1 44 MaxValue_Digital2 55 Unsigned Short 0 1 46 MaxValue_Digital3 UMC4 Unsigned Short 0x1X48 Digital4 Unsigned Short 0x1X4a MaxValue_Digital5 Unsigned Short 0x1 X4c MaxValue Digital6 Unsigned Short 0 1 4 MaxValue_Digital7 Unsigned Short 0x1X50 MaxValue_Digital8 Unsigned Short 0x1X52 MaxValue Digital9 Unsigned Short 0x1X54 MaxValue_Digital10 Unsigned Short
17. 4 Unsigned Long FPK D8006 Unsigned Long FPKLeadTime D8008 Unsigned Long Jump Speed D8010 Unsigned Long Mark Speed D8012 Unsigned Long LaserON Delay D8014 Long LaserOFF Delay D8016 Unsigned Long Jump Delay D8018 Unsigned Long Poly Delay D8020 Unsigned Long Mark Delay D8022 Unsigned Long OffsetX D8024 Short OffsetY D8025 Short Matrix 0 D8026 Long Matrix 1 D8028 Long Matrix 2 D8030 Long Matrix 3 D8032 Long Waveform D8034 Unsigned Short CW Mode D8035 Unsigned Short Wobble Frequency D8036 Unsigned Long Wobble Amp D8038 Unsigned Long Spot Time D8040 Unsigned Long 54 AutoTxt Reg UMC4 TO T255 0 0800 0x09ff Addr Name Addr Name 0x1 X00 Map Table TO Unsigned Short 0x1X02 Digital T1 Unsigned Short 0 1 04 Unsigned Short 0x1 X06 Increase T3 Short 0x1X08 Repeat 4 Unsigned Long 0x1 X0c Interval_x T6 Unsigned Short 0x1X0e Interval_y T7 Unsigned Short 0x1X10 TxtDirType T8 Unsigned Short 0x1X12 BasedZero 9 Unsigned Short 0x1X14 Padding Unsigned Short 0x1X16 TimeType Unsigned Short 0x1X18 Separate Unsigned Short 0 1 1 Year character Unsigned Short 0 1 1 Month character Unsigned Short 0 1 1 Week Day character
18. C4 Motor Driver Common Cathode 1 1 54 3 mise kt TTL Connection puse 1 1 1 1 P4 4 Direction Direction 1 GND GND 1 1 1 15 UMC4 3 4 Axis Control Signal Connection 3 4 1 Common Cathode Sensor NPN Out P4 15 R PC817 1 1 1 GND Power OV 16 UMC4 3 5 TTL Signal Connection TTL signal is connected by one to one as below UMC4 USER Signal Signal GND GND Different Signal Encoder Connection Encoder Ad Encoder At Encoder A Encoder A Encoder gt Encoder Bt Encoder B Encoder B GND GND 17 UMC4 3 7 Photo Couple Signal Connection 3 7 1 OPTO IN Connection ee DM e Power 5V 24V UMC4 USER OPTO isolator b elk Pin7 16 17 255 26 R1 1k 1 2W 1 1 INI IN5 1 4_ d 3 2 Pin24 GND 2 28 2 17 PC817 i power UMCA OPGO GND 3 7 2 Out Connection Um eU Power 5V 24V EI USER Relay Imax 50mA 1 1 UMC4 19 V 1 1 R1 1k 1 2 Pin20 21 22 gt 23 0011 0014 2 RELAY SPDT 1 i va 1 1 il 1 3 Pin24 GND PC817 UMC4 OPGO GND E i Power DV cil e imei m e iki PS The Max current for Relay is 50 mA 18 UMC4 3 8 START amp STOP Signal Connection
19. Encoder AY Home X Encoder BY InPosition X Encoder ZY Positive Limit Y Encoder AZ Negative Limit Y Encoder BZ Home Y Encoder ZZ InPosition Y 40 UMC4 7 3 Cable Connection 7 3 1 Pulse Direction Signal Connection According to the different types of Motor Driver there are three ways of connection between Motor Driver and Motion s P2 P4 connectors 7 3 1 1 Different Signal Step Servo 4 Motion Different Signal Connection Motor Driver 5V Pulse Pulse Pulse Pulse Dir Dir Dir GND GND 7 3 1 2 Common Anode TTL UMC4_B Motion common anode Step Servo Connection Motor Driver 5V i 5 Pulse Pulse Dir pir 7 3 1 3 Common Cathode TTL UMC4 Motion common cathode Step Servo TTL Connection Motor Driver Pulse Pulse Dir Dir GND 71 41 UMC4 7 3 2 Connect with sensors 7 3 2 1 Common Cathode Sensor NPN xz DLL a ee e e il 1 1 1 1 1 1 ior H 1 9 7 O gt an 5 i 1 O 1 1 5 a H H 1 m wow i 1 S i lt O 1 1 D LR RRA 1 1 VM oM 1
20. OM port 1 to control laser Manually change this value to assign other port if necessary SPI fiber RS232 G4 HS Notepad File Edit Format View Help correction File correct cor SUPPORT_CW 1 variable Polygon 1 COMPORT 1 46 UMC4 Appendix1 Various Laser Setting Modes TYPE 1 CO2 Mode Vector Output LASERON LASER1 LASER2 Start of Vector Start Point Delay End of Vector End Point Delay Standby Output Period Period Power Standby Pulse Width Time 47 UMC4 YAG 1 2 3 Mode Start of Vector Vector 20 gt gt a Output Start Point End Point Delay LASERON Q Switch Q Switch Period Pulse Width 1 1 Switch FirstPulseKiller YAG 1 Length LASER2 FirstPulseKiller Q Switch Q Switch Period Pulse Width LASER1 4 i Q Switch FirstPulseKiller YAG 2 Length sk LASER2 FirstPulseKiller FPK Q Switch Q Switch Delay Period Pulse Width LASER1 Q Switch FirstPulseKiller Length FirstPulseKiller 48 UMC4 3 R05 Mode End of Vector Vector Output End Point Delay Q Switch Pulse Width ADJUSTIN Time 49 UMC4 Appendix2 How to Connect with PLC UMC4 provides a RS232 P3 port for PLC connection PLC communication protocol is Mitsubish
21. T 2 4 16 DO NOT CONNECT 16 4 CHAN2 SYNC 15 e 5 G CHANI CLOCK 14 2 SYNC 9 aox UMC4P1 is corresponding to digital galvanometer D SUB25Pin User could easily connect them by 25 pin 1 to 1 cable however if using type 1 galvanometer user has to wire to power source from the cable For the power source User has to wire all pins them which means has to wire 3 pins of the VCC 3 pins of the VCC and 3 pins of the GND Only wire to 1 pin of VCC 1 pin of VCC or 1 pin of GND is forbidden 14 UMC4 3 3 Pulse Direction Signal Connection According to the different types of Motor Driver there are three ways of connection between Motor Driver and UMC4 s P4 connectors 3 3 1 Differential Signal UMCA Motor Driver Different Signal 1 i P4 3 Pulse Rt Pulset 1 1 1 1 i 1 i 1 1 4 13 Pulse R 1 Pulse 1 1 1 1 1 1 P4 4 Direction Directiont 1 1 1 i P4 14 Direction Rd Direction 3 1 1 1 1 1 UMCA Motor Driver Different Signal 1 1 Connection P4 3 Pulse Pulse 1 H 1 1 i i 1 1 P4 13 Pulse R 1 Pulse 1 1 1 1 1 1 4 4 Direction Directiont 1 i i 4 14 Direction Rd Direction UM
22. THROUGH PLC HUMAN MACHINE INTERFACE eene 25 4 33 2THROUGHEXTERNAL W O e 25 4 4 LED STATUS D DB nennen ene neuen enden ce nee niea ecu sinant 25 5 4 B SPI BoaRD SPI G3 26 D APPEARANCE MR 26 5 2 PIN ASSIGNMENT uito ai 27 5 2 1 J4 J7 LASEREXTENDCONNECTOR tentent nnn 27 5 3 LED STATUS 28 6 UMCA B BOARD TYPE D 01 ALSO APPLY FOR RAYCUS AND JPT 29 6 1 APPEARANCE anne ee 29 6 2 PIN ASSIGNMENT 2 a2 een 30 6 2 1 J4 J5 LASER EXTEND 0000 tenente 30 6 3 LED STATUS MA 30 7 UMCA B MOT ON 32 pis sb 32 7 1 1 UMC4 B MOTION SPI SPI G3 G4 sss 32 7 1 2 B MOTION IPG IPG TYPE D D1 eene 33 7 2 ASSIGNMENT cocinas fta DR DE 34 7 2 1 P1 LASER CONTROL 34 7 2 2 P2 PA CONTROL PORT aa a akn erre Lr EE 34 7 2 3 INPUT TTL INPUT 35 7 2 4 JF2 OUTPUT TTL OUTPUT enne 36 7 2 5 J4 J7 LASEREXTENDCONNECTOR tenete nnne 37 7 2 6 JF4 JF6 SENSOR CONTROL PORT TERMINAL
23. UMC4 UMC4 User Manual Version 20150320 UMC4 Table of Content 1 INTRODUCTION neme sek 4 T SPECIFICATION 4 1 2 APPEABANDE era 5 1 3 LAYOUT In RIO D IURIS KR K 6 EPI ie 7 2 1 LASER CONTROL CONNECTOR 7 2 1 1 P1 SCANHEAD XY2 100 INTERFACE 7 2 1 2 P2 LASER CONNECTOR LASER CONTROL PORT esee 7 2 1 3 RS232 PLC COMMUNICATION PORT 8 2 1 4 CONNECTOR ROTARY ENCODER AND I O 8 3 INSTALLATION AND CABLE 4 senes ntn stn 9 3 1 xp WB vIDo rc 9 3 2 XY2 100 DIGITAL 00 iesene eiat 14 3 3 PULSE DIRECTION SIGNAL 15 3 3 1 DIFFERENTIAL 15 3 33 2COMMONANODET L ee 15 3 3 3 COMMON 15 3 4 AXIS CONTROL SIGNAL 16 3 4 1 COMMON CATHODE 16 3 4 2 COMMON ANODE 16 3 5 SIGNAL CONNECTION ciscsscsscisssceacdetser
24. ale connector RS232 PLC control port D SUB 9 Pin female connector Connector Rotary Encoder and I O port D SUB 15 Pin 2 row female connector Power 5V 3A power USB USB port Expansion Connector Expansion Connector port 1 Battery Connector External battery port for timer 1 5V 5V J12 SD Card SD Card port J14 RS232 OMRON Laser RS232 D1 D8 LED Status lights JP1 BOT FPK RO 1 2 Close FPK 2 3Close R05 x 1 Caution DO NOT mistake connecting to J4 J5 and J6 Expansion Connector ports for wrong connection may cause the board damaged x 2 Please refer to 8 OMRON Laser UMC4 2 Pin Assignment 2 1 Laser Control Connector 2 1 1 P1 SCANHEAD XY2 100 Interface Port 25 pin Female Connector Pin Descriptions 1 14 Differential Out CLOCK 2 15 Differential Out SYNC 13 12 11 GND 3 16 Differential Out CHAN1 10 DO NOT CONNECT GND GND DO NOT CONNECT STATUS1 DO NOT CONNECT STATUS optional CHAN3 CHAN2 CHAN1 SYNC CLOCK 4 17 Differential Out 2 DO NOT CONNECT STATUS 5 18 Differential Out optional 2 1 6 19 Differential STATUS SYNC CLOCK 8 21 Differential In STATUS BUoaoJovosaNWu Bu 00000000000 0 000000000
25. aycus cfg For Raycus Laser JPT YDFLP 10 20 cfg For JPT YDFLP 10 20 Laser JPT YDFLP 20 DP1 S cfg For JPT YDFLP 20 DP1 Laser JPT YDFLP 20 DP1 S L cfg For JPT YDFLP 20 DP1 S Laser JPT YDFLP 20 PRO 5 L cfg For JPT YDFLP 20 PRO S Laser 31 UMC4 7 UMC4_B Motion 7 1 Appearance 7 1 1 4 B Motion SPI SPI G3 G4 PWM ges 0 0 Ww Pin8 PY DY AY BY X 9 mm i B ge 11 12 Bit4 14 ae 16 ge Align LaserOn 1 6 D 0 D 0 D JF5 D D D D D 0 www elogic com tw Descriptions P1 SPI Laser port connect with SPI laser one on one with SCSI 68Pin cable P2 P4 D SUB 15F X Y Z Motion Encoder connector JF3 Terminal Block 2Pin 5V and OV JF4 JF5 JF6 Terminal Block 8Pin Sensor Input J4 SPI RS232 J5 SPI Estop SPI Status 32 UMC4 7 1 2 UMC4_B_Motion_IPG IPG D D1 5V LPX LPX LNX LNX JF4 HX IX LPZ LPZ LNZ LNZ uz F6 HZ 17 z H UMCA B Motion IPG www elogic comtw LPY LNY LNY IY Descriptions IPG Laser port connect with IPG laser one with D sub 25Pin cable P2 4 D SUB 15F X gt Z Motion Encoder connector JF3 Terminal Block 2Pin 5V and OV JF4 gt JF5 JF6 Terminal Block 8Pin Sen
26. er board can control analog galvo motor precisely UMC4 built in full offline marking functions could access up to 16 files each file contains up to 8 sets auto text and 8 kinds of fonts Through I O signal or PLC human machine interface users could easily choose the file and start marking The card also features complete rotary and mark on fly functions Besides it provides a variety of expanded boards for all kinds of connection requirements 1 1 Specification Built in DSP marking computing do not occupy computer CPU time Support one XY2 100 digital control signal output 10 cycle update galvo motor position PPK 5 first pulse suppression Two 10 bits analog control signals PWM maximum output frequency is 10MHz minimum pulse width is 0 08us Support offline marking could access 16 files each contains 8 sets auto text and 8 kinds of fonts One RS232 Communication Port for PLC communication Support one encoder input for mark on fly function Support 1 way pulse direction or CW CCW step servo motor control signals the maximum output frequency is 2MHz Contain expansion connectors for connecting with a variety of daughter boards Support Windows XP Vista Windows 7 UMC4 1 2 Appearance UMC4 1 3 LAYOUT Purpose Descriptions Scan head Main marking port D SUB 25 Pin female connector Laser Connector Laser control and analog output port D SUB 15 Pin 3 row fem
27. f03c Cor Offset 2 C203 Oxf040 Cor Scale X 1 C204 Oxf044 Cor Scale X 2 C205 0xf048 Cor Scale Y 1 C206 Oxf04c Cor Scale Y 2 C207 0 50 0 1 208 0 54 Cor Matrix 0 2 C209 Oxf058 Cor Matrix 1 1 C210 0 05 Cor Matrix 2 2 C211 Oxf060 Cor Matrix 3 1 C212 Oxf064 Cor Matrix 3 2 C213 Oxf068 Cor Matrix 4 1 C214 0 Cor Matrix 4 2 C215 59
28. g OxAA1c CharTb Length Unsigned Long OxAA20 MarkData Addr Unsigned Long OxAA24 MarkData Length Unsigned Long OxAA28 Layer Param Num Unsigned Short OxAA2a AutoTxt Param Num Unsigned Short OxAA2c CharTb Num Unsigned Short OxAA2e TempData Unsigned Short MaxWorkCnt Unsigned Long 0 4 WorkCnt Unsigned Long 0 8 MarkTime Unsigned Long OxAA3c comment 58 Char 64 UMC4 Special Reg C160 C199 0x0b40 0x0b8f Addr Name Name Type Oxf000 Hardware Config C160 Unsigned Long Oxf004 Program Config C162 Unsigned Long Oxf008 IP Version C164 Unsigned Long Oxf00c Execute Register C166 Unsigned Long 0xf010 Current File C168 Unsigned Short 0 012 DataTime Status C169 Unsigned Short Oxf014 DataTime Sec C170 Unsigned Short 0 016 DataTime Min C171 Unsigned Short 0xf018 DataTime Hour C172 Unsigned Short DataTime day C173 Unsigned Short 0 01 DataTime Week Day C174 Unsigned Short Oxf01e DataTime Month C175 Unsigned Short 0 020 DataTime Year C176 Unsigned Short 0 022 TempData C177 Unsigned Short 0 024 PLC File Sel C178 Unsigned Long 0xf028 PLC Layer Sel C180 Unsigned Long Oxf02c PLC Autotxt Sel C182 Unsigned Long 0xf030 Cor Offset X 1 C200 Oxf034 Cor Offset X 2 C201 Oxf038 Cor Offset Y 1 C202 Ox
29. hipset Family USB Universal Host Controller 3837 gt Intel R 5 Series 3400 Series Chipset Family USB Universal Host Controller 3838 Intel R 5 Series 3400 Series Chipset Family USB Universal Host Controller 3B3B 2 5 Series Chipset Family USB Universal Host Controller 3B3E es 3400 Series Chipset Family USB Universal Host Controller md 3 H USB Root Hub USB Root Hub USB Root Hub USB Root Hub USB Root Hub MED Nank Uk 13 UMC4 3 2 XY2 100 Digital Scanner Currently common seen digital galvanometer could divide into the following 2 types 3 2 1 1 With one D SUB 25Pin connector DIGITAL POWER IN 25 pin female D SUB connector 25 ie ER GND 24 11 GND IDEEN 10 4 vcc DO NOT CONNECT 2 9 vec DO NOT CONNECT 20 E PONOT CONNECT STATUS 19 DO NOT CONNECT 18 i Banner 2 17 O Eu ENTE Hon 3 1 0 SYNC a Ua DIGITAL IN POWER IN 25 pin female D SUB connector 9 pin male D SUB connector 13 DO NOT CONNECT DO CONNECT 25 e 12 DO CONNECT vce 6 e 4 AE GND 23 Je 2 11 GND GND 7 Gap DO NOT CONNECT 22 10 DO NOT CONNECT GND 81192110 DO NOT CONNECT 21 9 DO NOT CONNECT ONG ivc DO NOT CONNECT 20 8 DO CONNECT STATUS 0 00 NOT CONNEC
30. i FX series RS232 communication parameters Baud 115200 BPS Parity Check Even Data Bit Stop Bit Flow Control UMC4 Appendix3 PLC Address definition table System Reg 0255 0x1000 0x11 ff Addr Name Name Type 0x5800 PWM Mode DO Unsigned Short 0 5802 Laser Mode D1 Unsigned Short 0x5804 Test Execute D2 Unsigned Short 0x5806 FLASH Update D3 Unsigned Short 0x5808 Standby Half Period D4 Unsigned Long 0 580 Standby Width D6 Unsigned Long 0x5810 CorTable D8 Unsigned Short 0x5812 FLY_MODE_X D9 Unsigned Short 0x5814 FLY_MODE_Y Unsigned Short 0x5816 FLY 2 Unsigned Short 0x5818 FLY_VALUE_X Long 0 581 FLY_VALUE_Y Long 0x5820 FLY_VALUE_Z Long 0x5824 FLY DELAY X Unsigned Long 0x5828 FLY DELAY Y Unsigned Long 0x582c FLY DELAY Z Unsigned Long 0x5830 Laser Test HPeriod Unsigned Long 0x5834 Laser Test PWidth Unsigned Long 0x5838 Laser Test Power Unsigned Short 0x583a Preview File Unsigned Short 0x583c Preview Speed Unsigned Long 0x5840 Preview Offset X Short 0x5842 Preview Offset Y Short 0x5844 Preview Matrix 0 Long 0x5848 Preview Matrix 1 Long 0x584c Preview Matrix 2
31. ow and contact the software vendor for software that has passed Windows Logo testing Continue Anyway STOP Installation UMC4 After the installation completed you could plug in power of UMC4 and connect to computer via USB cable Normally Windows system will appear a message Found New Hardware UMC4 USB LASER MARKING CONTROL CARD 12 Found New Hardware UMC4 USB LASER MARKING CONTROL CARD TA 5 0 9 9 24 AM This wizard helps you install software for UMC4 USB Device If your hardware came with an installation CD gt or floppy disk insert it now What do you want the wizard to do Install the software automatically Recommended Install from a list or specific location Advanced Click Next to continue fe Wait for wizard searching the driver 10 UMC4 Found New Hardware Wizard Please wait while the wizard searches e UMC4 LISB Device Cancel After system founded UMCA Driver please press Continue Anyway Hardware Installation The software you are installing for this hardware UMC4 USB Device has not passed Windows Logo testing to verify its compatibility with Windows Tell me why this testing is important Continuing your installation of this software may impair or destabilize the correct operation of your system either immediately or in the future Microsoft strongly recommends that you stop thi
32. put 4 General Digital Input 5 7 General Digital Input 6 General Digital Input 7 General Digital Input 8 mw Input 0 10 General Digital Input 9 Input 2 11 General Digital Input Input 4 10 Input 6 12 General Digital Input Input 8 11 Input 10 13 General Digital 1 eneral Digital Input Input 14 GND 14 General Digital Input 5 13 15 General Digital Input Start 14 16 General Digital Input E Stop 15 Wem ve Jane epe zo oo Net Connect Input 1 Input 3 Input 5 Input 7 Input 9 Input 11 Input 13 Input 15 GND Do Not Connect DOODOOO SSL 35 UMC4 7 2 4 JF2 OUTPUT TTL Output Port As for the output of TTL when an output is set as inactive in the software the output voltage is OV When an output is set as active in the software the output voltage is 5V The pin assignment of JF2 connector is compatible to the general purpose relay output boards such as PCLD 885 of Advantech Co Ltd or the DB 16R of ICPDAS Co Lid Using these kinds of daughter boards can isolate external power and drive the peripheral devices more powerfully it provides benefits of protection and easy cable connections Name Descriptions 20 pin Connector General Digital Output 0 we o m Output
33. r B Encoder At Encoder A Encoder Bt Encoder B GND GND 7 3 4 TTL Signal Connection JF1 JF2 User 4 B Motion Signal Signal END GND 43 UMC4 7 3 5 SPI STATUS Signal Connection J6 J7 7 3 5 1 Use internal power UMC4 B Motion SPI i User l 5V i 1 4 1k l 3 i 17 E 26 1 46 2 46 3 gt 6 4 21 2 47 1 J7 2 J7 8 J7 4 i i SPI 63 64 1 017 3 2 26 5 J7 5 817 d TL 7 3 5 2 Use external power UMC4 B Motion SPI User I VCGSV 5V i o S 4 7k 017 4 1 i i 1k 2 bs 3 i 17 J6 1 gt 6 2 J6 3 gt 6 4 21 2 47 1 47 2 473 174 SPI 63 64 1 U17 PS SPI suggest external power is 5 and series connect to 4 7 Please refer to SPI User s manual 44 UMC4 8 OMRON Laser 8 1 Drivers Setting OMRON Fiber cfg OMRON RS232 connect to computer COM port OMRON Fiber DIRCTRL cfg OMRON RS232 connect to UMCA Port File Language Driver Name IPG_Fiber cfg IPG_YLPM cfg _ Fiber LST cfg OMRON _Fiber DIRCTRL OMRON Fiber cfg ROS cfg a Edit Duplicate Fibe Cancel v 8 2 Cable Connection UMCA P2 D SUB 15M HIGH DENSITY OMRON Port D SUB 15M 6 LASER
34. s installation now and contact the hardware vendor for software that has passed Windows Logo testing Continue Anyway STOP Installation After driver installed please press Finish 11 UMC4 Found New Hardware Wizard Completing the Found New Hardware Wizard The wizard has finished installing the software for UMC4 USB Device Click Finish to close the wizard Cance When the message Your new hardware is installed and ready to use appeared you could use UMC4 now 12 Found New Hardware x Your new hardware is installed and ready to use If UMC4 installed properly you could see the UMC4 device information appeared in Device Manager as below 12 UMC4 Device Manager DE Fie Action Help gt m ELOGIC B9BS09FB Computer Disk drives Display adapters DVD CD ROM drives Human Interface Devices IDE ATA ATAPI controllers gt Keyboards Mice and other pointing devices Monitors Bg Network adapters 88 PMC2 Drivers Ports COM amp LPT SM Processors Sound video and game controllers System devices 2 Universal Serial Bus controllers Gc Feitian ROCKEY4 c Intel R 5 Series 3400 Series Chipset Family USB Enhanced Host Controller 3834 gt Intel R 5 Series 3400 Series Chipset Family USB Enhanced Host Controller 3B3C c Intel R 5 Series 3400 Series Chipset Family USB Universal Host Controller 3836 c Intel R 5 Series 3400 Series C
35. short circuit will get START signal STOP Dry connect input Let 9 amp 18 short circuit will get STOP signal IN1 Input of File Selection OPTO IN2 Input of File Selection InPosition IN3 Input of File Selection Limit INA Input of File Selection Limit GND V 5 24V Input OUT1 Program Ready OUT Mark Ready OPTO OUTS Mark End OUT4 Mark Busy Busy 1 OPTO GND OV Input Pin24 amp Pin18 open circtui Please refer to 3 9 HWConfig Setting Description UMC4 3 Installation and Cable Connection 3 1 UMC4 Installation If your computer is not installed MM SA software yet please install the MM SA first During MM SA installation system will run UMC4 USB Driver Setup automatically iis UMC4 USB Driver Setup Installing Execute E DOCUME 1 ELOGIC 1 ELOYLOCALS 1 Temp wWwIN32 wdatldr While UMC4 USB Driver Setup is executing please press Continue Anyway button This step may need to repeat 3 times Software Installation A The software you are installing has not passed Windows Logo testing to verify its compatibility with Windows Tell me why this testing is important Continuing your installation of this software may impair or destabilize the correct operation of your system either immediately or in the future Microsoft strongly recommends that you stop this installation n
36. sor Input J4 IPG E Stop Dry connect input J5 IPG Status TTL Output 33 UMC4 7 2 Pin Assignment 7 2 1 P1 Laser Control Connector Reference SPI G3 G4 User Manual or IPG Type D D1 User Manual Connect with laser one on one with cable 7 2 2 P2 P4 Control Port 15 pin Female Connector i Descriptions O 5V Encoder Z Encoder 2 8 Do Not Connect 7 Do Not Connect 6 Pulse 5 Direction Do Not Connect 15 Pulse 14 Direction 13 Encoder A 12 4 Encoder Direction Direction Encoder B 1 1 3 Encoder B Encoder Z 10 2 2 Pulse Pulse GND 9 1 Undefined Encoder B Encoder B Encoder A Encoder 34 UMC4 7 2 3 JF1 INPUT TTL Input Port When there is no any connection to TTL input the program receives 0 value while if input OV the program will read 0 if input 5V the program will read 1 You must consider about the noise issue The pin assignment of JF1 connector is compatible to the general purpose input daughter boards such as PCLD 782 of Advantech Ltd or the DB 16P of ICPDAS Co Ltd Using these kinds of daughter boards can isolate power source while provide protection and easy cable connections Name Descriptions 20 pin Connector General Digital Input 0 General Digital input 1 3 General Digital Input2 General Digital Input 3 5 General Digital In
37. sscesneonvdapconssecvevnsseassensibcssenes enevardeassensedasncnstayven 17 3 6 ENCODER SIGNAL 17 3 7 PHOTO COUPLE SIGNAL CONNECTION 18 3 7 1 IN CONNECT ON 18 3 7 2 QUT CONNECTION nte ERREUR AER 18 3 8 START 8 STOP SIGNAL 19 3 8 1 CONNECTWITHGENERALBUTTONS nnn 19 3 8 2 CONNECT WITH ener tete nnns 19 3 8 3 INPUT TTL SIGNAL cernit g san a daa dura aaa 20 3 9 HWCONFIG SETTING eee entente teens trennen enero nonus 21 3 9 1 SCANNER ALIGNMENT SET P1 2 100 21 3 9 2 DAC SETTING SET P2 ANALOG OUT VOLTAGE 22 3 9 3 INPUT SENSOR TYPE SET P2 PA START 22 3 9 4 EXTENSTION ci terr ttd ret read RR RT RERO 22 3 9 5 SIGNAL POLARITY ENABLE ACTIVE 22 Ar OTHERS 23 CLOCK MM PT 23 4 1 1 HARDWARE 23 4 1 2 SOFTWARE CONFIGURATION TIME 23 4 2OFFLINE MARKING SIGNAL TIME 24 4 3 FILE SELECTION FOR OFF LINE MARKING sscscscessecescsseeescesesceeeseceeesceessceecseseeetscees 25 4 3 1
38. tion Time Reflash a Date and time will be updated to computer s current time when MM SA is executing b Could be configured through PLC human machine interface 23 UMC4 4 20 Marking Signal Time Series system on In Program Ready 0 Out Mark Ready Out Start In Mark Busy Out Busy Out Pre View On In Stop In Mark End Out Exit Exec Dialog Active Exec Dialog Active MMSA System Off Name IN OUT i Definition System On IN Stand alone marking standby Program Ready System standby Mark Ready Mark standby Mark End Mark complete Busy Laser busy Mark Busy System busy Start External trigger start Stop External trigger stop Pre View On External trigger mark preview 24 UMC4 4 3 File Selection for Off line Marking 4 3 1 Through PLC Human Machine Interface Using the human machine interface of PLC users could select file and set basic marking parameters 4 3 2 Through External I O 2 File Name 2 e z 5 File Name 01 09 02 10 03 11 04 12 05 13 06 14 07 15 amp amp amp Je amp amp amp o amp amp 2 0 e gt Sener gt 08 16
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