Laser Marking Controller
Contents
1. 31 6 7 8 9 29 MC 1 Laser Marking Controller e SPI Fiber HWI cfg When you choose the driver of SPI_Fiber_HWL cfe the pin assignments of MC1 and SPI G3 Laser are as below MC1 CN1 20 pins SPI G3 Laser 68 pins SPI break out board Pin I O Type Signal Description Pin No Description Pin No No Name 1 O POO 2 O PO1 3 O PO2 4 O PO3 5 O PO4 6 O PO5 Pulsed CW Mode pin 21 User Pulse N CW H J7 pin 11 Select_High 7 O PO6 Global pin 7 User Global EN H J7 pin 5 Enable_High 8 6 PO7 Alignment Laser pin 6 User PU Laser EN H J7 pin 3 Enable_High 9 O PO8 State Select BitO pin 17 User CFG_0 J2 pin 1 10 O PO9 State Select Bit 1 pin 18 User_CFG_1 J2 pin 2 11 0 PO10 State Select Bit2 pin 19 User_CFG_2 J2 pin 3 12 O PO11 State Select Bit3 pin 20 User CFG_3 J2 pin 4 13 0 PO12 State Select BI A pin 51 User CEG A J2 pin 5 14 O PO13 State Select Bit5 pin 52 User CFG_5 J2 pin 6 15 O PO14 State Select Bit6 pin 53 16 O PO15 State Select Bit7 pin 54 17 Power GND Ground pin 40 N C 41 55 56 18 Power GND Ground pin 40 N C 41 55 56 19 Power 5V 20 N C 30 MC 1 Laser Marking Controller MC1 CN2 20 pins SPI G3 Laser 68 pins SPI b2. Power GND Ground 19 Power E BV 5V supply protected by fuse Max 100mA output current 20 N C Not connected CN1 and CN2 provide 16 bit output and 16 bit input Each output is able to soutce sink up to 24mA All output ports are initialized to low after power up reset CN2 16 bit Digital Input Port wD 4 00000000009 0 00 0 0 HH ee e ZER CN1 is a 16 bit digital port of 20 pin connector providing 16 bits inputs The input value is sampled with commands read_io_port get_io_status list_jump_cond and list_call_cond Pin WO Type Signal Name Description Comment No 1 PIO Bit 0 of input value 2 PI Bit 1 of input value 3 Pl2 Bit 2 of input value 4 PIS Bit 3 of input value 5 Pl4 Bit 4 of input value 6 PIS Bit 5 of input value 7 PI6 Bit 6 of input value 8 PI7 Bit 7 of input value MC 1 Laser Marking Controller 9 PI8 Bit 8 of input value 10 PI9 Bit 9 of input value 11 PI10 Bit 10 of input value 12 HI Bit 11 of input value 13 Pli2 Bit 12 of input value 14 PI13 Bit 13 of input value 15 DI A Bit 14 of input value 16 PI15 Bit 15 of input value 17 Power GND Ground 18 Power GND Ground 19 Power E BV DV supply protected by fuse Max 100mA output current 20 N C Not connected Pins 1 to 16 are internally pulled low
3. 13 I PI 2 Laser Laser Emission Warming J1 pin 8 Emission pin 16 Warming 14 PI13 Monitor pin 3 Monitor J1 pin 2 15 I PIA Laser i Laser Temperature J1 pin 4 pin 8 Temperature 16 PI15 Laser Is On pin 14 Laser Is On J1 pin 9 17 Power GND 18 Power GND GND_D pin 48 GND_D J3 pin 1 19 Power F_5V 20 NIC MC1 P2 9 pins SPI G4 Laser 68 pins SPI break out board Pin I O Signal Name Description Pin No Description Pin No No Type 1 O AO1 Al_1 ext power pin A J3 control 65 pin 7 2 Power GD pin GND_A J3 abana 31 pin 6 3 Power GD Laser Emission ipin N C Gate Low 39 47 4 O LASER_PWM Pulse _trigger_h a Pulse_Trigger_H Bos 5 JO LAGER ON Laser emission Laser emission J3 gate_h pee gate_h pin 2 6 O AO2 Al_2 extsimmer pin Al 2 J3 control 64 pin 8 7 Power GND 8 Power DN 9 Power LASER FPS 33 MC 1 Laser Marking Controller CFG Descriptions ENV LaserMode 1 PWM Delay 0 MaxPower 100 MinFrequency 0 1 MaxFrequency 60 MarkEnd_Out 0 EndDelay 0 Shutter_Out 0 Lamp_Out 0 Align_Out 0 Variable Polygon 1 Get Object Info 0 J 1 COQ2 2 YAG1 3 YAG2 4 YAG3 Unit us YAG Mode range O 100 default 100 Percentage of the power output default 100 range gt 0 default 0 1 Minimum frequency set by UI range gt 0 default 60 Maximum frequency set by Ul range 0 17 default O Port no
4. of MarkEnd signal 0 no output signal 1 16 port no of CN1 OUT1 OUT16 17 means equal to the RGM_RDY port range gt 0 default 0 Lasting time of the MarkEnd signal Unit ms range 0 16 default O Port no of Shutter ON OFF signal 0 Disable Shutter Out 1 16 port no of CN1 OUT1 OUT16 range 0 16 default O Port no of Lamp ON OFF signal 0 Disable Lamp Out 1 16 port no of CN1 OUT1 OUT16 range 0 16 default O Port no of Align light pilot light ON OFF signal 0 Disable Align light Out 1 16 CNT OUT1 OUT16 port range 0 1 default 1 Enable polygon delay depending on included angle 0 disable 1 enable range 0 1 default O Support Get Object Information mechanism the mechanism is now controlled by AP ignore it 34 MC 1 Laser Marking Controller Enable SoftStart 0 Lock Start Signal 0 FPS 10 Mark On Fly 0 HT I O Config 0 range 0 1 default O Enable SoftStart for CO2 mode 0 disable 1 enable range 0 1 default O get_start_signal command can Query the Start Signal after MarkEnd and lock the signal only special made AP support it Disabled when Mark On Fly 1 FPS signal value for YAG Laser Unit 1 us range 0 1 default O Enable off line marking 0 disable 1 enable When enabled the Lock Start Signa
5. Input 8 or Output 8 17 18 Close MC1 Input 9 or Output 9 19 20 Close MC1 Input 10 or Output 10 21 22 Close MC1 Input 11 or Output 11 23 24 Close MC1 Input 12 or Output 12 25 26 Close MC1 Input 13 or Output 13 27 28 Close MC1 Input 14 or Output 14 29 30 Close MC1 Input 15 or Output 15 31 32 Close MC1 Input 16 or Output 16 Default Settings P1 Pulse gt MC1 Output 16 P1 Direction gt MC1 Output 15 Limit1 gt MC1 Input 16 Limit1 gt MC1 Input 15 Homel gt MC1 Input 14 InPosition1 gt MC1 Input 13 P2 Pulse gt MC1 Output 14 P2 Direction gt MC1 Output 13 Limit2 gt MC1 Input 12 Limit2 gt MC1 Input 11 Home2 gt MC1 Input 10 InPosition2 gt MC1 Input 9 Input Circuit Diagram R5 LH BE ik a Gen 2 ba a 3 Limit gt RS LU lt 1k Na ans 2 q 3 Limit gt 7 R11 tu 4 ik EN 2 b L 3 Home L_ gt s 5i77 SE R23 ANA uy 4 1k a eee 2 3 InPosition _ gt s a7q 20 Cable Wirings Proprietary Mode Internal Power In this mode D A receiver consumes powers from Marking Controller No external power is required A 1 to 1 wiring is in this case MC 1 Laser Marking Controller Controller Side P1 Description DA Side P5 Pin_ Signal Name Signal Name _ Pin 1 12V 12V power to D A 12V 1 2 DSTATUS Status input from D A DSTATUS 2 3 DATA X Chann
6. Jack 16 bit Output port 16 bit Input Port CN3 Encoder Input BRO MB 1104 2IPJIIVT ASA YNO Won yoyms psoy Y TAS MC 1 Laser Marking Controller D A Receiver Connectors Layout Offset Gain Adj Adj CN7 J External DA X iE Power DA Y MC IF H Port CIE Output Port Polarities 6 1 4 O Output Ports Pull ups MC 1 Laser Marking Controller MC 1 Connector Pin Assignments and Signal Descriptions P1 D A Board Interface Port D A board interface are a high density D SUB connector providing digital control signals to DAC board Pin I O Type Signal Name Description Comment No 1 Power 12V 12V power to D A 2 DSTATUS Status input from D A 3 O DATA_X Channel 1 data stream to D A 4 O DSYNC Synchronization signal to D A 5 O DCLK Clock signal to D A 6 Power O 12V 12V power to D A 7 DSTATUS Status input from D A 8 O DATA _X Channel 1 data stream to D A 9 O DSYNC Synchronization signal to D A 10 O DCLK Clock signal to D A 11 Power GND Ground 12 Power GND Ground 13 Power 5V 5V power to D A 14 Power GND Ground Short JP5 1 to JP5 3 O DATA_Y Channel 2 data stream to D A Short JP5 5 to JP5 3 15 Power GND Ground Short JP5 2 to JP5 4 O DATA_Y Channel 2 data stream to D A Short JP5 6 to JP5 4 Caution D The default settings are JP5 1 to JP5 3 and JP5 2 to JP5 4 i e Pin 14 and pin
7. MARK_RDY signal See D2 4 O MARK_RDY Emitter of MARK_RDY signal JP3 3 4 5 Power GND Ground 6 l EI START_A Input of EL START signal See D3 7 El START_B Input of El_ START signal JP3 5 6 8 El STOP A Input of El STOP signal See D4 9 l EIL STOP B Input of EI STOP signal JP3 7 8 The PGM_RDY signal is updated with commands set_pgm_state and set_pgm_state_list P4 USB Port P4 is a USB device port of USB B type connector providing connection to USB host CN1 16 bit Digital Output Port 4 060000 e e ZER 060000090 CN1 is a 16 bit digital port of 20 pin connector providing 16 bits outputs The output value is updated with commands write_io_port write_io_port_list set_io_cond_list and clear_io_cond_list MC 1 Laser Marking Controller Pin I O Type Signal Name Description Comment No 1 O POO Bit O of output value 2 O PO1 Bit 1 of output value 3 O PO2 Bit 2 of output value 4 O PO3 Bit 3 of output value 5 O PO4 Bit 4 of output value 6 O PO5 Bit 5 of output value 7 O PO6 Bit 6 of output value 8 O PO7 Bit 7 of output value 9 O PO8 Bit 8 of output value 10 O PO9 Bit 9 of output value 11 O PO10 Bit 10 of output value 12 O PO11 Bit 11 of output value 13 O PO12 Bit 12 of output value 14 O PO13 Bit 13 of output value 15 O PO14 Bit 14 of output value 16 O PO15 Bit 15 of output value 17 Power GND Ground 18
8. Power Test x Driver Name MC 1 YAG 1 SPI_Fiber Version 4 4 11 OnLine Maximum Speed 5000 000 mmer LO Test Apply MC1 SPI Laser Pin Assignments O SPI_Fiber cfg MC 1 Laser Marking Controller SPI Fiber Laser G3 Setting E C CWM Mode SS 3 Query Status QS Alarm Flag System Alarm Beam Delivery Alarm Temperature Alarm Interlock Closed Laser Not Reay Laser Output Requested Disable Laser Temperatures Status Value 0101010101010101 Enable Laser Waveform No SW SS Duty Factor 0 1000 SF Stand by Current 0 100 SH Query Alarm QA Alarm Value Laser Not Responding Interlock Open Seed laser diode temperature fault 3 ct Static 800 30 Static When you choose the driver of SPI_Fiber cfg the pin assignments of MC1 and SPI G3 Laser are as below MC1 P2 9 pins SPI G3 Laser 68 pins Pin No WO Type Signal Name Description Pin No 1 O AO1 2 Power GND Ground pin 31 3 Power GND Laser Emission Gate Low pin 39 47 4 O LASER_PWM 5 0 LASER_ON Laser Emission Gate High pin 5 6 O AO2 7 Power GND 8 Power 5V 9 O LASER_FPS PC RS232 port 9 pins SPI G3 Laser 68 pins Pin No 1 O Type Signal Name Description Pin No 1 2 TX RS 232_TX pin 25 3 RX RS 232_RX pin 26 4 5 GND Ground pin
9. also determined by software HWConfig exe under the directory of C Program Files MarkingMate Drivers MC1 the output swing is set to 0 5V or 0 10V e MC 1 Configuration 2 0 D A setting D A range 0 10 XY2 100 Transfer Protocol e D A 1 initial value 0V E START signal Active Low DiA 2 initial value py Aa ioe PIO Output Initial Value Check High l Ol 0 5 09 f 0 13 f 02 f 06 f 0 10 f 0 14 0 3 f 0 J 0 11 J 0 15 f 04 fF 08 f 0 12 T 0 16 12 MC 1 Laser Marking Controller Note AO1 and AO2 can t be set to different ranges System Status LED Outputs The System Status LEDs give visual indications of various system health status Connector Pin Status Description No twinkling USB cable is not connected to PC Diane blinking Data transfer is occurring on USB faster blinking CN6 1 g speed means more data D ee steady on or MC 1 out of control steady off Red Steady off 5V power is not applied or not high enough ENS S D9 steady on 5V power is applied slow blinking DSP load is low CN6 3 Green fast blinking _ DSP load is high D7 steady on or MC 1 out of control steady off CN6 4 Ground EN 1 E Di Green Orange Red Caution The LEDs used here present around 2V voltage drops when turned on 13 MC 1 Laser Marking Controller Interfacing to XY2 100 D A Board When MC2 is
10. board which can be a foreign D A board or a D A receiver board in XY2 100 Mode with proper DB25 converter Controller Side P1 Description DA Side DB25 Pin Signal Name Signal Name Pin 1 412V Not Connected 2 DSTATUS Status input from D A DSTATUS 19 3 DATA X Channel 1 data stream to D A CHANNEL1 16 4 _ DSYNC Synchronization signal to D A DSYNC 15 5 DCLK Clock signal to D A DCLK 14 6 12V Not Connected 7__ DSTATUS Status input from D A DSTATUS 6 8 DATA X Channel 1 data stream to D A CHANNEL1 12 9 DSYNC Synchronization signal to D A DSYNC 2 10 DCLK Clock signal to D A DCLK 1 11 GND Ground GND 11 23 24 12 GND Ground GND 11 23 24 13 5V Not Connected 14 DATA_Y Channel 1 data stream to Controller CHANNEL2 17 15 DATA Y Channel 1 data stream to Controller CHANNEL2 4 MC1 L XY2 100 Cable The diagram of MC1 L XY2 100 cable MC1 Side 15Pin male MC1 L XY2 100 DCLK Scan Head Side 25Pin male red black red DCLK DSYNC DATA X 1 ies SP GD GP GP GP GP Ep 1 22 DATA Xt DATA Y DATA Y Power Supply 9Pin male MC 1 Laser Marking Controller IPG Laser IPG Laser Program Settings If you want to use MarkingMate software to control IPG Laser you have to the right program settings fi
11. 15 serve as ground connections When the controller is used to drive a XY2 100 interface DA board connect JP5 5 to JP5 3 and JP5 6 to JP5 4 i e P14 and pin 15 serve as Y channel connection Under such case P3 and pin 9 serve as X channel and firmware setting should be adjusted accordingly pin 2 4 close pin 1 3 close MC 1 Laser Marking Controller P2 Analog Output Laser Control Port Analog Output Laser Control port is a D SUB female connector providing 2 analog outputs and 3 digital outputs to control laser power and frequency Pin MO Type Signal Name Description Comment No 1 O AC DAC 1 output 10 bit resolution 0 10V 2 Power GND Analog ground of AO1 AO2 signals 3 Power GND Ground of LASER_ON LASER_PWM LASER_FPS and 5V supply 4 O LASER_PWM Programmable pulse width signal 24mA driving capability 5 O LAGER ON Laser on off gate signal 124mA driving capability 6 O AO2 DAC 2 output 10 bit resolution 0 10V 7 Power GND Analog ground of AO1 AOQ2 signals 8 Power 5V 5V supply Limited under 500mA 9 O LASER EDS First pulse suppression signal 24mA driving capability Laser control timing diagram CO2 Start Of End Of Mark Mark Line i LASER_ON LASER_PWM aser On O Stand By Period ra Bei Stand By Pulse Width Q Switch Period Q Switch Pulse Width Le L Laser Off Delay MC 1 Lase
12. H TOE AER EE A EAA E ATE E eis eB Se ete ERATE 15 D A RECEIVER CONNECTOR PIN ASSIGNMENTS AND SIGNAL DESCRIPTIONS ssssccsssssccssssseeees 16 P5 CONTROLLER INTERFACE PORT he nreorears et e e aTe EE Er E EEOSE SEE EE EEE E E EE EE eei 16 CN7 EXTERNAL POWER CONNPCTOR 17 CNB DARK dest ce da ed 17 ENIZDA EE 17 DAD aia EE nd dd tt ERA EA A e da 18 VR1 GAIN ADJUSTMENT EE 18 VR2 OFFSET ADJUSTMENT A a 18 ENT0 6 1 14 O PORTS A E REER dt tddi 18 JP8 OUTPUT PORT POLARITY BETTINGEN 18 JP13 OUTPUT PORT PULE UPS cia 18 MEL Be MOTION BOARD ai sivcsccssssucssssssecosedesvossescesdscesesssusscdsssebecssvecussseutatessuseessusdssesesvesssssoudssussdecsssscbecessves euuecssese 19 TA OUT EE 19 P1 amp P2 PIN ASSIGNMENTS cococcccccnonononononononononononononononono nono nono nono nono nn E EEE EEE EE EOE OEE EEEE EEEE ESE E Eet 19 JUMPER SETTINGS ad 20 DEFAULT SETTINGS a dad 20 INPUT CIRCUIT DIAGRAM e EE coasted deals cian 20 CABLE WIRINGS siississscseseisevecsssensecsesossevsvonsssesuvcesosscvessosescessvbstsosscunssouscbasssssedesssUesinossssedsssscessssenteesescsseniveessosduvenson s 21 PROPRIETARY MODE INTERNAL POWER 21 PROPRIETARY MODE EXTERNAL POWER see 21 XY2 100 MODE MC 1 CONTROLLER RIDE 22 MG TELEX Y 2 100 CABLE Ita a deca 22 MAA sbavecesevacecasivavessssbicesessoasesaesbessusadeisseveed cdensecesdesaaebadendiaadvuetsesadesaaseadecsssbaaeeeess 23 IPG LASER PROGRAM SETTINGS tii 23 MC 1 IPG LASER PIN ASSIGNMEN
13. MC 1 Laser Marking Controller User Manual Version 2 5 2012 06 19 Table of Content MCL CONNECTORS LAYOUT dicescscilesctsssscestesscscsescocdesessedsscdencdvssaccbesesteestouseses suse bees cossescbasessvesasesesessecstesecdsseesbesenss 3 D A RECEIVER CONNECTORS LAYOUT isssssssccssssessssssecsscosoessssscaseoesecasessseessessseassedbensssnbess saveteeasdensacsiasezeoeseeeesees 4 MC 1 CONNECTOR PIN ASSIGNMENTS AND SIGNAL DESCRIPTIONG sccccssssscscsssccssssscccsssececssscesees 5 BD BOARD INTEREACE BORNE EE EE RES 5 P2 ANALOG OUTPUT LASER CONTROL Por 6 P3 PROGRAM STATUS EXTERNAL TRIGGERS Pop 8 PA SB e KEE 8 CN1I 16 BIT DIGITAT OUTPUT PORT ene Besos ease steve coke ck a E 8 CN2 16 BIT DIGITAL INPUT PORT EE 9 CN3 X POSITION ENCODER POR NEE 10 CNA DSP TNTEREACE PORT TTT 10 JUMPER SETTINGS sseccsscosssceictussssssovnccssssvesssiescecesbebiesssesesesunsessesssieeseseseshsssesscesesees covessodeiedsossuvecsdbesseessbabveessinasesesseess 11 LASER SIGNAL POLARITY SETTINGS sees ee eee 11 EXTERNAL TRIGGER INPUTS AND LEDS s 11 PROGRAM STATUS OUTPUTS ANDLEIDS rtrt trete ere ete ere e e e erore ere rerererere 12 LH RD DAC OUTPUT EEEE a a EA A A EN N H 12 SYSTEM STATUS LED OUTPUTS 0 ccccccccccccecececececececececececececececececececececececececececececececececececececececececececececececececececececece 13 INTERFACING TO XY2 100 D A Boapn tettre tte etere e e ere ere ere ere ere rerererere 14 D A A E A NA ST ESY A A
14. O PO3 5 O PO4 6 O PO5 7 O PO6 8 O PO7 9 O PO8 10 O PO9 11 O PO10 12 O PO11 13 0 PO12 X Axis PULSE 14 0 PO13 X Axis DIRECTION 15 0 PO14 Y Axis PULSE 16 O PO15 Y Axis DIRECTION 17 Power GND GROUND 25 MC 1 Laser Marking Controller PULSE amp DIRECTION 18 Power GND GROUND PULSE amp DIRECTION 19 Power 5V 20 N C MC1 CN2 20 pins XY Table Pin No O type Signal Name Description Pin No 1 l PIO X Axis Limit 2 l PIH X Axis Limit 3 l PI2 Y Axis Limit 4 l PIS Y Axis Limit 5 l DA X Axis In Position 6 l PI5 X Axis In Home 7 l PI6 Y Axis In Position 8 l PI7 Y Axis In Home 9 PI8 10 PI9 11 PI10 12 DI 13 Pli2 14 PI13 15 PI14 16 PI15 17 Power GND GROUND In Position In Home Limit 18 Power GND GROUND In Position In Home Limit 19 Power E BV 20 N C MC1 IPG Board The MC1 IPG Board order number MC1 B IPG is used to connect MC1 and IPG laser easily Its layout and connecting diagram are as below 26 MC 1 Laser Marking Controller MC1 IPG 1 5 MC1_CNI OUT e 000 1 107 0mm MC1_CN2 OUT MCi_CN2 IN 6666666668 6666666668 MC1 IPG TOP SILKSCREEN 2008 09 06 9 Pin cable if need be Z MC1 IPG I Q IPG 25 Pin cable 20 Pin cable IPG Laser 27 MC 1 Laser Mark
15. P is filtered Open mam EI START is an isolated input JP3 5 Close ma El START Bis pulled up default Open mm EI STOP is an isolated input JP3 7 8 Close ma El STOP Bis pulled up default Two LEDs D3 and D4 give visual indication of EL START and El_STOP signals to facilitate program wiring debugging 1N5817 5V Q 470 10K JP3 6 JP3 8 P3 6 EL START A JP3 5 JP3 7 P3 8 EI STOP A oe 10K 4 y y JP2 2 JP2 4 1K 0 tu JP2 1 JP2 3 D3 Red P3 7 El START B D4 Green P3 9 EI STOP B Vv N 11 MC 1 Laser Marking Controller Program Status Outputs and LEDs Program Status output signals can be programmed with following jumper pins Jumper Pin Status Description No JP1 9 10 Open mm PGM_RDY and MARK BDY are active HIGH default Close m_m PGM_RDY and MARK_RDY are active LOW Open mm PGM_RDY is an isolated input default Close le wl PGM_RDY is pulled up Open mm MARK_RDY is an isolated input default Close m_m MARK_RDY is pulled up JP3 1 2 JP3 3 4 Two LEDs D1 and D2 give visual indication of PGM_RDY and MARK_RDY signals to facilitate program debugging 1N5817 PGM_RDY MARK_BUSY JP3 2 JP3 4 H P3 1 JP3 3 i P3 1 PGM_RDY i P3 3 MARK BUSY i i i P3 2 PGM_RDY P3 4 MARK BUSY GND GND 10 bit DAC Output The output range is
16. POWER 5V EMStop pin 23 20 N C MC1 P2 9 pins IPG Laser 25 pins Pin No I O Type Signal Name Description Pin No 1 O AO1 2 POWER GND Ground pin 14 pin 10 3 POWER GND 4 O LASER_PWM Pulse Repetition Rate pin 20 5 O LASER ON Laser Modulation input pin 19 6 O AQ2 7 POWER GND 8 POWER 5V EMStop pin 23 9 O LASER_FPS O ID Fiber_check cfg When you select the IPG_Fiber_check cfg the system will check the status of IPG laser Therefore in addition to the above connections you need more connections as listed as below 24 MC 1 Laser Marking Controller MC1 CN2 20 pins IPG Laser 25 pins Pin No I O Type Signal Name Description Pin No 1 I PIO 2 I DI 3 I PI2 4 I PI3 5 I PI4 6 I PI5 7 I PI6 8 I PI7 9 I PI8 10 I PI9 11 I PI10 12 I PI11 Alarm Status pin 16 13 I PI12 Alarm Status pin 21 14 I PI13 Alarm Status pin 11 Only for Type D 15 I PI14 16 I PI15 17 POWER GND 18 POWER GND 19 POWER F_5V 20 N C O IPG_Fiber_XYTable cfg IPG_Fiber_XYTable CHK cfg The pin assignments of MC1 and IPG laser please refer to the above descriptions While the connections between MC1 and XY Table is as below MC1 CN1 20 pins XY Table Pin No VO type Signal Name Description Pin No 1 O POO 2 O PO1 3 O PO2 4
17. Power GND round 3 O CMD Negative output to driver board CN9 DA Y This is Y axis DA output port The output voltage range can be 3V 5V and 10V depending on factory setting Differential output is provided for better noise immunity Pin VO Type Signal Description Comment No Name 1 O CMD Positive output to driver board 17 MC 1 Laser Marking Controller 2 Power GND Ground 3 O CMD Negative output to driver board DA XY As the DA receiver is integrated into a system box The DA X amp DA Y terminals will be connected to a D Type male 9 PIN connector The pin assignment is as following O 4 1 DA xX CMD DA Y CMD 6 2 Guo N A 7 Gi k O 3 DA X CMD MAANI 4 DA Y CMD WA 911 O JS GND Pin No I O Type Signal Name Description Comment 1 Output DA X CMD _ DA X Positive output to driver board 2 Power GND Ground 3 Output DA X CMD _ DA X Negative output to driver board 4 Output DA Y CMD _ DA Y Positive output to driver board 5 Power GND Ground 6 Output DA Y CMD DA Y Negative output to driver board 7 N A 8 N A 9 N A VR1 Gain Adjustment This is a trimmer for adjusting maximum voltage swing on both X axis and Y axis DA outputs VR2 Offset Adjustment This is an offset null trimmer for both X axis and Y axis DA outputs CN 10 6 1 4 O Ports These ports are res
18. SPI G4 Laser are as below MC1 CN1 20 pins SPI G4 Laser 68 pins SPI break out board Pin VO Signal Description Pin No Description Pin No No Type Name 1 O POO 2 O PO1 3 O PO2 4 O PO3 5 O PO4 6 O POR Pulsed CW Mode Laser Pulse ON H J2 pin 7 Select High pin 21 7 O PO6 Global e Laser Enable H J2 pin 1 Enable High pin 7 8 O PO7 Alignment Laser Pilot_Laser_Enable_H J2 pin 5 Enable High pies 9 O PO8 State Select BitO pin 17 DI_O J6 pin 2 10 O PO9 State Select Bit1 pin 18 DI_1 J6 pin 3 11 O PO10 State Select Bit2 pin 19 DI_2 J6 pin 4 12 O PO11 State Select Bit3 pin 20 DI_3 J6 pin 5 13 O PO12 State Select Bit 4 pin 51 DI_4 J6 pin 6 14 O PO13 State Select Bit5 pin 52 DI_5 J6 pin 7 15 O PO14 State Select Bit6 pin 53 16 O PO15 State Select Bit 7 pin 54 17 Power GND Ground pin 40 N C 41 55 56 18 Power GND Ground pin 40 N C 41 55 56 19 Power 5V 20 NC 32 MC 1 Laser Marking Controller MC1 CN2 20 pins SPI G4 Laser 68 pins SPI break out board Pin O Signal Description Pin No Description Pin No No Type Name 1 PIO 2 PI 3 PI2 4 PI3 5 Pl4 6 DIS 7 PIG 8 PI7 9 PI8 10 l PI9 11 l PI10 12 BI Beam Delivery pin 11 Beam Delivery J1 pin 5
19. TS diia 23 MET IPG BOARD 5 Sa A A A E oto eal 26 SPI LASER AAA 28 SPI LASER PROGRAM SETTINGS ccccccececececececececececececececececececececececececececececececscecececscececececececececececececececececeeececesecs 28 MC1 SPI LASER PIN ASSIONMENTS ttt ttt ttt tte e e ere ere ere erete erore rererererere 29 CFG DESCRIPTIONS trsssscssssevesisssnccscesnscevsvonssoesuscesoodsaeassosescessubetsossetulsotendadsssseceessesiooesiecsescscecsesunsissesescesisvessssdscesoess 34 CONFIG EXE DESCRIPTIONS wesicccsessedscstueccdessscccssnsccesoswaccs ENNEN ENEE degen d et eege degen 37 SYSTEM SETTINGS A ii 37 AXIS CONTROL SETTINGS ie A hae E dE SE E 39 POWER SETTINGS Age ves ee SA A AE BARRED RRS 41 HWCONFIG EXE DESCRIPTIONS iisrcisrssisescsissecicsssiriscsss rrsct siredttt r dtt s r s tsi r dts sires ttini n Sri Nir a 43 MC 1 Laser Marking Controller MC 1 Connectors Layout P1 P2 DAC board AO Laser IF Port Control Port P2 4 P3 Program Status Ext Triggers Port P3 W FO nu monuu 1633 KIK C1 CT C LLL LL H JPS TTT itt rm B TTT 000000000 m JP2 Y D L LG si D Y O O 635500 F Com un AL OTT MODO AO ODIA odo 000 A Ra a food Gta E m O E ON E 868 Coma 4 III e L Luut 0000000000 0000000000 O O O Ol O Ol 1104 d I gen vd oo 2 O SW O ji CN1 CN2 5V DC
20. el 1 data stream to D A DATA X 3 A DSYNC Synchronization signal to D A DSYNC 4 5 DCLK Clock signal to D A DCLK 5 6 12V 12V power to D A 12V 6 7 DSTATUS Status input from D A DSTATUS 7 8 DATA_X Channel 1 data stream to D A DATA_X 8 9 DSYNC Synchronization signal to D A DSYNC 9 10 DCLK Clock signal to D A DCLK 10 11 GND Ground GND 11 12 GND Ground GND 12 13 IDN 5V power to D A 5V 13 14 GND Ground GND 14 15 GND Ground GND 15 Proprietary Mode External Power In this mode D A receiver consumes powers from external power supplies No common ground is needed CN7 is used to supply powers Controller Side P1 Description DA Side P5 Pin_ Signal Name Signal Name _ Pin 1 12V Not Connected 2 DSTATUS Status input from D A DSTATUS 2 3 DATA X Channel 1 data stream to D A DATA X 3 A DSYNC Synchronization signal to D A DSYNC 4 5 DCLK Clock signal to D A DCLK 5 6 12V Not Connected 7 _ DSTATUS Status input from D A DSTATUS 7 8 IDATA X Channel 1 data stream to D A DATA X 8 9 DSYNC Synchronization signal to D A DSYNC 9 10 DCLK Clock signal to D A DCLK 10 11 GND Ground GND 11 12 GND Ground GND 12 13 IDN Not Connected 14 GND Not Connected 15 GND Not Connected 21 MC 1 Laser Marking Controller XY2 100 Mode MC 1 Controller Side In this mode D A receiver is configured to driver a XY2 100 compliant D A
21. erved to control galvometer drivers Details will be defined JP8 Output Port Polarity Settings TBD JP13 Output Port Pull ups TBD 18 MC 1 Laser Marking Controller MCl1_B_ Motion Bo LAYOUT ard L 1 e a ZZ SR P R Pulsel ec IL egegegegeaoggeeeg 14444444 HAS DO no Po NHH sve Direction Direction 3 HHHH a vrseeescesdoococos SE a e Limitt mn L2 9esgesesgdibesesgeeg es 115 0mm PO AA H Dh k TTT TTT ef kB S TT Ze THEHR TILL n y TT lt BAE HET Position InPosition2 B BE III TIO Y L 1 np eeeceesdeccocecos 66666 O 2 sa ue fa O Le go ef Se Se S w 8 O DLL T oo E MCL CM 66666666 666669666 e P1 amp P2 Pin Assignments DO NOT CONNECT 15 Pulse 14 Direction 13 Encoder A 12 Encoder B 11 DO NOT CONNECT 10 GND 9 MC1_B_MOTION O 19 8 DO NOT CONNECT 7 DO NOT CONNECT 6 Pulse 5 Direction 4 Encoder A 3 Encoder B 2 DO NOT CONNECT 1 5V MC 1 Laser Marking Controller Jumper Settings Jumper Description 1 2 Close MC1 Input 1 or Output 1 3 4 Close MC1 Input 2 or Output 2 5 6 Close MC1 Input 3 or Output 3 7 8 Close MC1 Input 4 or Output 4 9 10 Close MC1 Input 5 or Output 5 11 12 Close MC1 Input 6 or Output 6 13 14 Close MC1 Input 7 or Output 7 15 16 Close MC1
22. ht signal port 0 5 us IPG duty cycle 0 1 us 0 9 us 36 MC 1 Laser Marking Controller Config exe Descriptions Config exe is a driver program installed in the directory of C Program Files MarkingMate Drivers MC1 This program is used to do more settings of MC 1 controller Please see the descriptions below to learn how to do the settings System Settings Double click the Config exe program will see the dialogue box as below de Parameters Setting Y1 5 System Axis Control Power Setting Config file standard_co2 cfg Correction file working ctf Laser Mode C02 vw CO2 stand by signal Frequency 5 KHz T Enable Off line Mark Puls Width 10 O lus Enable Variable Polyline Delay Mark End Signal Enable l PGM_RDY Signal Reverse Use PGM_RDY Signal Softstart Setting OUT Port U T Enable Mark On Fly Enable Softstart Period Time IR ae Level L Em T Extemal Start Signal Auto Recycle Software Lock Start Signal Enable Delay sec Enable Get Object Information First Pulse Suppress 10 us Laser Mode Select CO2 Yag1 Yag2 or Yag3 from the pull down menu Enable Off line Mark Enable the off line mark function Enable Variable Polyline Delay Enable polyline delay function Enable Mark On Fly Enable mark on fly function PGM_RDY Signal Reverse Reverse the Program Ready signal 37 MC 1 Laser Marking Controller Softstart Setting Enable Softstart Enable
23. ing Controller SPI Laser SPI Laser Program Settings If you want to use MarkingMate software to control SPI Laser you have to the right program settings first please follow the below steps 1 Execute the program DM exe under the directory of C Program Files MarkingMate a dialogue box will be displayed as below Choose the MC1 of Driver Name and choose the Mode of SPI_Fiber cfg or SPI_Fiber_HWL cfg and then click OK button The differences between these two modes are that SPL _Fiber_ cfg will use RS 232 port to control the I Os while the SPL _Fiber_HWLcfg will control the I Os through the hardware pin connections DryManager File Language Driver Name Edit Duplicate O_YAG PCNCIO_YAG_XYTABLE 2 Enter the MarkingMate software go to the Driver page of the Property Table and click the Laser Setting button then you will see a dialogue box as below for SPI laser setting roperty Table System Work Area Driver Global Power Test SPI Fiber Laser OH WI Driver Waveform No 0 63 0 Name MC 1 YAG 1 SPI_Fiber_H WI Version Y4411 OnLine Stand by Current 0 O 100 5 30 Laser System Status Maximum Speed 5000 000 mmker Eemer Roady LOW Temperature Fault LOW IM Test Seed Temperature Status LOW Power Supply Status LOW Beam Collimator Status LOW Apply i i Cancel 28 Property Table System Work Area Driver Global
24. it Switches Active High Set active high Limit port IN Port number of Limit signal Limit port IN Port number of Limit signal Enable Software Limit Enable software control limit switch Limit Pulse Count Count number of Limit signal Limit Pulse Count Count number of Limit signal 40 MC 1 Laser Marking Controller Power Settings Click the label of Power Setting will see the dialogue box as below de Parameters Setting Y1 5 System Axis Control Power Setting Power Control Setting 401 Step Power jo Warm up power 70 0 Warn up delay 1 000 sec Warm up keep times 2 000 sec Standby power 20 0 Standby power delay 1 000 sec Work power 500 Work power delay 1 000 sec Power on delay 0 300 sec Power on waiting 0 000 sec Mark End Power f 1 000 Mark End Delay 7 00 sec Enable Power Control Enable power control settings Step Power Step power change ratio Warm up power Warm up power Warm up delay Warm up delay time sec Warm up keep time Warm up keep time sec Standby power Standby power Standby power delay Standby power delay time sec Work power Work power initial value Work power delay Work power initial value delay time sec Power on delay Power on delay time sec 41 MC 1 Laser Marking Controller Power on waiting Time period from power on to stable sec Mark End P
25. l will be ignored range 0 1 default O Planning as PGM RDY or Rdy for Start Signal 0 planning as PGM RDY signal 1 planning as Rdy for Start signal PGM RDY Signal Reverse 0 range 0 1 default 0 STAND BY Period Time 2000 Pulse Width 10 SOFTSTART Level 1 0 Level 2 0 Level 3 0 Level 4 0 Level 5 0 Level 6 0 Level 7 0 Level 8 0 Enable PGM RDY signal reverse 0 PGM RDY signal is active high 1 PGM RDY signal is active low range 0 65535 default 2000 Period time of CO2 Laser s PWM signal on Stand by Unit 0 1 us range 0 65535 gt default 10 Pulse width of CO2 Laser s PWM signal on Stand by Unit 0 1 us range 0 100 percentage value of the 16 points before Laser ON 35 MC 1 Laser Marking Controller Level 9 0 Level 10 0 Level 11 Level 1 Level 1 Level 1 Level 1 Level 1 G G OW DP IL ow i ot ow l GC C9 G GO GO O IPG MO Job Start 0 IFL BitO 1 Bit1 2 Bit2 3 Bit3 4 Bit4 5 Bit5 6 Bit6 7 Bit7 8 Latch 9 Laser Status 10 Aim Laser 11 Duty Cycle 5 range 0 1 default O Enable the MO signal of IPG Laser before marking 0 disable 1 enable IPG Laser pin no description range 1 16 IPG Power Setting 0 FFH DO LSB D7 signal port range 1 16 power data latch signal port Master Oscillator signal port Align light pilot lig
26. nd Signal Descriptions P5 Controller Interface Port MC1 interface is a slim high density D SUB connector providing digital control signals to Marking Controller board D A receiver board may work in either XY2 100 mode or proptietaty mode according to factory settings When D A receiver is configured to XY2 100 mode any controllers with XY2 100 interface nay drive D A receiver board as long as the cable is properly assembled Pin I O Type Signal Name Description Comment No 1 Power 12V 12V power from Controller 2 O DSTATUS Status output to Controller 3 DATA_X Channel 1 data stream from Controller 4 DSYNC Synchronization signal from Controller 5 DCLK Clock signal from Controller 6 Power 12V 12V power from Controller 7 O DSTATUS Status output to Controller 8 DATA_X Channel data stream from Controller 9 l DSYNC Synchronization signal from Controller 10 DCLK __ Clock signal from Controller 11 Power GND Ground 12 Power GND Ground 13 Power 5V 5V power from Controller 14 Power GND Ground Default factory setting DATA_Y Channel 2 data stream from XY2 100 mode Controller 15 Power GND Ground Default factory setting l DATA_Y Channel 2 data stream from XY2 100 mode Controller Caution These pins are wired with corresponding power pins of CN7 If external powers are used to power D A receiver board DO NOT wire these
27. ower Mark end power Mark End Delay Mark end power delay time sec Power Setti s ng 100 Warm up keep time Power on delay at ASTR power Idle Time Main AP confia ini Work power Pog E Pop SPD SPD Standby Power Standby Power 0 gt time Laser Laser Exit Exic Program Program Program Active Exic Exic on Laser on Laser Dialog End Start Ready Dialog Marking off off Object 1 Drives Conf a ini EE L Up Delay Ten mE sec POD Power On Delay WarmUpPower 1 00 WPD Work Power Delay WarmUpDelay 10 sec SPD Standby Power Delay StandbyPower 30 StandbyPowerDelay 0 sec PowerOnDelay 0 sec WorkPowerDelay 0 sec WorkPower 0 42 MC 1 Laser Marking Controller HWConfig exe Descriptions HWConfig exe is another driver program installed in the directory of C Program Files MarkingMate Drivers MC1 This program is used for setting laser signal transferring protocol and the D A output signals Please see the descriptions below to learn how to do the settings 1 Transfer Protocol setting The default setting of MC 1 is using standard protocol analog signal If users want to use XY2 100 transfer protocol you have to set the JP5 jumper as the description on page 14 first and then execute this program to change the protocol to XY2 100 Transfer Protocol 2 D A setting The output range of D A signals i e AO1 and AO2 of P2 connector can be set a
28. pins in the cable to Controller otherwise permanent damages may occur in the D A board and Controller board Also refer to Cable Diagrams for details 16 MC 1 Laser Marking Controller Caution These pins are wired to ground during factory time by default If XY2 100 mode is required contact your dealer for special configuration Also refer to Cable Diagrams for details CN7 External Power Connector If the data cable connecting Marking Controller and D A receiver board is longer then 3m you may need to use external power for D A receiver instead of using Controller s internal power for better performance 5V 12V and 12V are required on the D A receiver board Pin VO Type Signal Description Limits Comment No Name 1 Power GND Ground 2 Power 12V_ 12V power to D A 12 0V 13 2V 3 Power 12V 12V power to D A 12 0V 13 2V 4 Power GND Ground 5 Power LBV 5V power to D A 4 5V 7V Caution Performance impairment may occur when voltages are lower than the limits or permanent damages may occur when voltages are higher than the limits CN8 DA X This is X axis DA output port The output voltage range can be 3V 5V and 10V depending on factory setting Differential output is provided for better noise immunity Pin WO Type Signal Description Comment No Name 1 O CMD Positive output to driver board 2
29. r Marking Controller Laser control timing diagram YAG1 YAG2 YAG3 End Of Mark Start Of Mark Mark Line Laser On Laser Off Delay Delay gt LASER_FPS first pulse suppress LASER_ON Q Switch Q Switch 1 Period Pulse Width I a gt gt e LASER_PWM Q Switch iFirst Pulse Suppress I YAG 1 Length LASER_FPS first pulse Suppress d O Switch Q Switch Period Pulse Width Lat gt e LASER_PWM Q Switch YAG2 hi eae LASER_FPS first pulse Suppress Q Switch Q Switch i Period Pulse Width 1 a Pl a lt lt 10 us LASER_PWM Q Switch YAG3 s ean lt gt LASER_FPS first pulse Suppress Q Switch Q SwiteH Period Pulse Width a gt ar pwm delay time LASER_PWM Q Switch YAG3 set_laser_mode_ex S Erg MC 1 Laser Marking Controller P3 Program Status External Triggers Port Program Status External Triggers port is a D SUB male connector providing 2 digital outputs and 2 digital inputs to control program execution Pin MO Type Signal Name Description Comment LED light No 1 O PGM_RDY Collector of PGM_RDY signal See D1 2 O PGM_RDY Emitter of PGM_RDY signal JP3 1 2 3 O MARK_RDY Collector of
30. reak out board Pin O Signal Description Pin No Description Pin No No Type Name 1 PIO 2 PH 3 Pl2 4 PI3 5 Pl4 6 PI5 7 NI 8 PI7 9 PI8 10 PI9 11 PI10 12 l PI11 Beam Collimator pin 11 User BDO Fault_N J11 Fault pin 7 13 l Pli2 Power Supply pin 16 User DRV PWR MON N J11 Fault pin 10 14 l PI13 Seed Laser pin 3 User Seed Temp_Fault_N J11 Temperature pin 3 Fault 15 l PI14 Base Plate pin 8 User_Base_Temp_Fault_N J11 Temperature pin 4 Fault 16 l PIS Laser Ready pin 14 User_Laser_Ready J11 pin 9 17 Power GND 18 Power GND GND_ISOD pin 48 OV_ISO D J11 pin 1 19 Power F_5V Pull up resistors 4 7kR DV IO J11 on inputs pin 12 20 NC MC1 P2 9 pins SPI G3 Laser 68 pins SPI break out board Pin O Signal Name Description Pin No Description Pin No No Type 1 0 AO1 Power Amp pin 65 User_PWR_MOD_IN J6 Active State pin 7 Current Set Point 2 Power GND Ground pin 31 UV Analogue J6 pin 1 3 Power GND Laser Emission pin N C Gate_Low 39 47 4 O LASER_PWM External Pulse pin 13 User_EXT_TRIG_H J7 Trigger_High pin 7 5 O LAGER ON Laser Emission pin 5 User_Laser_Out_EN H J7 Gate_High pin 1 6 O AO2 Power_Amp pin 64 User PWR BIAS IN J6 Simmer State pin 6 Current Set Point 7 Power GND 8 Power 5V 9 Power LASER EDS 31 MC 1 Laser Marking Controller When you choose the driver of SPI_Fiber_HWI_G4 cfg the pin assignments of MC1 and
31. rst please follow the below steps Execute the program DM exe under the directory of C Program Files MarkingMate a dialogue box will be displayed as below Choose the MC1 of Driver Name and choose the Mode of IPG_Fiber cfg or IPG_Fiber_check cfg and then click OK button The differences between these two modes are that IPG_Fiber_check cfg will check the machine status while the other one will not DryManager File Language Driver Name Duplicate Y PCNCIO YAG_XYTABLE QMark MC1 IPG Laser Pin Assignments e IPG_Fiber cfg The pin assignments of MC1 and IPG Laser will be different according to the drivers you selected When you choose the driver of IPG_Fiber cfg the pin assignments of MC and IPG Laser ate as below 23 MC 1 Laser Marking Controller MCL CN1 20 pins IPG Laser 25 pins Pin No I O Type Signal Name Description Pin No 1 O POO Laser Power bit1 pin 1 2 O PO1 Laser Power bit2 pin 2 3 O PO2 Laser Power bit3 pin 3 4 O PO3 Laser Power bit4 pin 4 5 O PO4 Laser Power bit5 pin 5 6 O PO5 Laser Power bit6 pin 6 7 O PO6 Laser Power bit7 pin 7 8 O PO7 Laser Power bit8 pin 8 9 O PO8 Latches power setting pin 9 10 O PO9 Master Oscillator pin 18 11 O PO10 Guide Laser pin 22 12 O PO11 13 O PO12 14 O PO13 15 O PO14 16 O PO15 17 POWER GND Ground pin 14 18 POWER GND 19
32. s 0 10V or 0 5V The default setting is 0 10V And the initial values of D A 1 and D A 2 are OV users can select different values they want 3 PIO Output Initial Value setting The initial value of PIO output signal i e 16 bit output of CN1 can be set as high or low separately Checked means high 4 START and STOP signal setting The START and STOP signals can be set as active high or active low separately Checked means active low 5 When all settings are done you have to click the Write button for finishing the setting And more important is to restart the MC 1 controller to make all setting to go into effect e MC 1 Configuration 2 0 D A setting D A range 0 10Y sl XY2 100 Transfer Protocol y D A 1 initial value OV zl 7 START signal Active Low ebe ov FT sto signal Active Low PIO Output Initial Value Check High 0i 105 09 f 0 13 O2 06 f 010 f O 14 k f OF J O11 f 0 15 04 08 f 012 T O16 43
33. ses port OUT fo Direction port OUT 0 In Position port IN fo In Home port IN 0 Enable Limit Switches jw Active High Limit port IN fo Limit port IN fo T Enable Software Limit Limit 6 Pulse Count fo Limit Pulse Count fo Cancel Enable Enable Rotary Axis settings Pulse port OUT Port number of Pulse signal Direction port OUT Port number of Direction signal In Position port IN Port number of In Position signal In Home port IN Port number of In Home signal 39 MC 1 Laser Marking Controller X Axis Definition Enable Enable X Axis settings Pulse port OUT Port number of Pulse signal Direction port OUT Port number of Direction signal In Position port IN Port number of In Position signal In Home port IN Port number of In Home signal Enable Limit Switches Enable Limit Switches Active High Set active high Limit port IN Port number of Limit signal Limit port IN Port number of Limit signal Enable Software Limit Enable software control limit switch Limit Pulse Count Count number of Limit signal Limit Pulse Count Count number of Limit signal Y Axis Definition Enable Enable Y Axis settings Pulse port OUT Port number of Pulse signal Direction port OUT Port number of Direction signal In Position port IN Port number of In Position signal In Home port IN Port number of In Home signal Enable Limit Switches Enable Lim
34. software control function Level Adjust the power level from 0 to 100 from pulse 1 to pulse 16 separately Auto Recycle Enable Enable auto recycle function Delay The delay time between each cycle sec First Pulse Suppress The suppress time of the first pulse us CO2 stand by signal Frequency The frequency of CO2 laser KHz Pulse Width The pulse width of CO2 laser 0 1us Mark End Signal Enable Enable Mark End signal Use PGM_RDY Signal Use the Program Ready signal OUT Port The port number of the signal Period Time The remain time of the signal ms External Start Signal Enable external start signal Software Lock Start Signal Enable software lock start signal Enable Get Object Information Enable get object information 38 MC 1 Laser Marking Controller Axis Control Settings Click the label of Axis Control will see the dialogue box as below de Parameters Setting CNL ai Rotary Axis Definition System Axis Control Power Setting Rotary Axis definition jw Enable Pulses port OUT 16 Direction port OUT 15 In Position port IN 16 In Home port IN j15 X Axis definition Enable Pulses port OUT fo Direction port OUT fo In Position port IN o In Home port IN fo Enable Limit Switches Iw Active High Limit port IN o Limit port IN fo Enable Software Limit Limit Pulse Count o Limit Pulse Count 0 Y Axis definition Enable Pul
35. used to drive XY2 100 interface the following steps are necessary 1 On JP5 short pin 3 to pin 5 and short pin 4 to pin 6 Pin 4 6 close Pin 3 5 close 2 Go to the directory of C Program Files MarkingMate Drivers MC1 run the HWConfig exe program to select XY2 100 transfer protocol type as below d MC 1 Configuration 2 0 D A setting D A range 0 107 KY2 100 Transfer Protocol y D A 1 initial value OV Y T START signal Active Low D A 2 initial value Joy SHH PIO Output Initial Value Check High pF Ol F O5 F 09 J 0 13 f 02 fF 06 f O 10 T 0 14 0 3 Qet f 0 11 0 15 f 04 fF O8 f 0 12 0 16 3 Assembly the cable of High Density DB 15 connector to DB 25 connector as the following table by yourself or purchase this cable from us the order no MC1 L XY2 100 Please refer to page 18 for the pin assignments 14 MC 1 Laser Marking Controller D A Receiver Settings 1 Select ou tput range Output ranges JP1 lesse ssl JP25 il 3V 5V 10V 2 Interface to XY2 100 controller Interface type Default use proprietary interface 0 Use XY2 100 CPLD programming Cable should not be wired for pin 1 6 11 12 13 of P5 interface Need special order for different O Close U El P UI III BI JP18 A JP24 Ja MC 1 Laser Marking Controller D A Receiver Connector Pin Assignments a
36. with 47K resistors CN3 X Y Position Encoder Port Support for mark_on_fly feature Pin No UO Type Signal Name Description Comment 1 Power GND Ground 2 Power GND Ground 3 X A Encoder X A 4 l X A Encoder X A 5 X B Encoder X B 6 X B Encoder X B 7 Y A Encoder Y A 8 Y A Encoder Y A 9 Y B Encoder Y B 10 l Y B Encoder Y B 11 Power GND Ground 12 Power GND Ground The encoder inputs EncoderX and EncoderY are designed for a pair of standardized differential signals RS 422 each CN4 DSP Interface Port Interface port to on board DSP reserved for future expansion 10 MC 1 Laser Marking Controller Jumper Settings The first pin of each pin header is marked with symbol Ich Laser Signal Polarity Settings Jumper Pin Status Description No Open LASER_ON is active HIGH default JP1 1 2 E A Close m_m LASER_ONis active LOW Open mm LAGER PWM is active HIGH default TPI 13 4 Close cml LASER PWM is active LOW Open mm LAGER _FPS is active HIGH default HPT Sl Giese LASER FPS is active LOW H External Trigger Inputs and LEDs External triggers signals can be programmed with following jumper pins Jumper Pin Status Description No Open mm El START is not filtered default E Close m_m El_ START is filtered Open mm EI STOP is not filtered default le Close m_m El_ STO
Download Pdf Manuals
Related Search