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RDEncLas400G intelligent laser control module Read this manual before operation The content include of electric connections and operating steps Read the manual to operate the systems RDEncLas400G intelligent laser control module RuiDa Technology Co., Ltd Addr: floor,Technology Building,NO.,1057...
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RDEncLas400G intelligent laser control module COPYRIGHT All rights reserved.You may not reproduce, transmit, store in a retrieval system or adapt thispublication, in any form or by any means, without the prior written permissionof RuiDa, except as allowed under applicable copyright laws. We have identifiedwords that we consider as trademarks.
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RDEncLas400G intelligent laser control module CERTIFICATION DECLARATION The product has been certified by the CE (Commutate European) safety certification. It has passed the corresponding conformity assessment procedure and the manufacturer's declaration of conformity, in accordance with the relevant EU directive.
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RDEncLas400G intelligent laser control module SAFETY INFORMATION When using this system, please make sure the operation is correct and the usage is safe. Some signs or text will be used to remind you to pay attention to the dangerous matters and some important information.
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RDEncLas400G intelligent laser control module Sign in、Devanning、Examine cargo The product itself with plastic or metal shell, can protect the external electrical components from damage. The products are packed in foam bags and anti-static bags. If there is any external damage to the package, check the equipment and notify the carrier and carrier in writing of the damage.
RDEncLas400G intelligent laser control module Specifications Characteristics Min. Typ. Max. Unit PSP high width 0.01 50.00 PSP low width 0.01 50.00 PSV frequency 20.0 300.0 PSV resolution 100.0 Laser on delay 0.00 100.00 Laser off delay 0.00 100.00 Power for fiber laser Standby frequency 10.0...
RDEncLas400G intelligent laser control module 2.1 Electrical wiring diagram Sample 1: laser source is RF CO2 laser. Control pulse from motion controller are the feedback signals for calculation. This is shown as picture 2.1.1. Picture 2.1.1 electrical wiring diagram SHENZHEN RUIDA TECHNOLOGY...
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RDEncLas400G intelligent laser control module Sample 2: laser source is FIBER laser. AB signals from encoder are the feedback signals for calculation. This is shown as picture 2.1.2. Picture 2.1.2 electrical wiring diagram SHENZHEN RUIDA TECHNOLOGY...
RDEncLas400G intelligent laser control module 2.2 Universal output (CN1) The output definition is shown as table 2.1 Signal Definition Description Control the shutter or enable of laser. PIN1 OUT0 Shutter control output Open collector output. Able to drive relays Output alarm signal to motion controller.
RDEncLas400G intelligent laser control module 2.3 Universal input (CN2) LCM outputs laser gate signal in real time by detecting the laser control signals from the motion controllers. This is shown as picture 2.2. Active low is in default. But user can change the active level by change the parameter When a laser piercing is needed, there is another signal specialized for laser piercing.
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RDEncLas400G intelligent laser control module The input definition is shown as table 2.2. Signal Definition Description Connect to laser shutter control signals or enable signal from the motion controllers. Shutter control input Active low. OUT0 signal is synchronized with this input.
RDEncLas400G intelligent laser control module 2.4 Laser control interface (CN3, CN4) Laser control interface gives laser control signals that include of laser gate, PWM, FPS, and analog. With these signals, different laser sources can be supported such as UV laser, FIBER laser YAG laser, CO2 laser.
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RDEncLas400G intelligent laser control module Table 2.3 Definition for LCM laser control. Signal Definition Description CN3 connector Laser emission control signal. Active low. PIN1 LON_5V- Differential output. TTL level. Compatible with TIA/EIA-422-B. Laser emission control signal. Active high. PIN2 LON_5V+ Differential output.
RDEncLas400G intelligent laser control module (5) FPS signal level can be selected 5V or 24V (6)L_AN analog signal output scale can be selected from 0~5V to 0~10V 2.5 RS232 communication interface (CN4) RS232 communication interface is specialized for parameters configuration by software running on it.
RDEncLas400G intelligent laser control module 2.6 Power supply (CN5) Table 2.5 shows the definition of the power supply. Signal Definition Description PIN1 +24V +24V, > 2A PIN2 Referenced ground — PIN3 PGND Shield ground To the earth 2.7 Encoder or pulse input interface (CN6、CN7、CN8) LCM support AB quadrate encoder input or pulse+direction input.
RDEncLas400G intelligent laser control module 2.8 Analog input (CN9) LCM support analog input for analog voltage detecting. This interface gives much more flexible usage for users. The definition is shown in table 2.7. Table 2.7 Signal Definition Description PIN1 AGND...
RDEncLas400G intelligent laser control module 2.10 EtherCAT EtherCAT® is a registered trademark and patented technology, licensed by Beckhoff Automation GmbH, Germany. If RDEncLas400G do not support EtherCAT. Only RDEncLas400N support the EtherCAT. 2.11 USB interface USB interface is specialized for U disk. This interface is usually for firmware upgrading.
RDEncLas400G intelligent laser control module Section3 Wiring diagram for lasers CONTENTS: Wiring glass CO2 laser Wiring RF CO2 laser Wiring of FIBER laser Wiring of UV laser Wiring of YAG laser SHENZHEN RUIDA TECHNOLOGY...
RDEncLas400G intelligent laser control module 3.1 Glass CO2 laser Glass tube CO2 laser has 2 control inputs such as laser gate and laser power. Laser power is controlled by analog input. The scale of the analog input is from 0V to 5V. Picture 3.1 is the diagram for LCM connecting with glass tube CO2 laser.
RDEncLas400G intelligent laser control module PWM control the laser power of laser LASER POWER L_AN source and laser emission. L_AN only PWM_24V LASER ON control the peak pump current for laser source. Picture 3.3-1 LON_24V control the laser emission of...
RDEncLas400G intelligent laser control module 3.5 UV laser For UV laser, the most popular wiring of LCM and laser source are shown as picture 3.5-1, picture 3.5-2. UV laser source has only one control PWM_5V+ input. Laser emission is controlled.
RDEncLas400G intelligent laser control module 4.1 Preparation for use Correct wiring for use Make a correct conection among LCM and laser ource and motion controller. If something is not sure,please contact Ruida technology. Parameters configuration Before the laser source is connected to LCM, make sure the parameters have been configured correctly.
RDEncLas400G intelligent laser control module 4.2 Parameters configuration software Parameters configuration software set the parameters to LCM via RS232. users should set the correct parameters to LCM according to the laser source. Picture 4.2-1 shows main interface of the software. There are 7 items named setting, test, shutter off/on, laser para, power para, motion para, Load to file and load from file.
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RDEncLas400G intelligent laser control module Picture 4.2-2 Hardware test include of universal input and universal output. The inputs can display the external status of the hardware ports. Select the out ports and there will be logical ‘1’ or ’0’ to be output.
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RDEncLas400G intelligent laser control module Laser Para Laser parameters define the function of LCM according to the laser source. There are laser type and universal parameters. Different laser source has different parameters. Picture 4.2-1 Click the “Laser Para”, and then pop up the laser parameters setting dialog.
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RDEncLas400G intelligent laser control module For YAG laser. Parameters for first pulses -30.000—30.000(ms FPS delay killer For YAG laser. Parameters for first pulses FPS width 0.000-50.000(ms) killer LCM support several kinds of laser source. According to the laser source, the parameters should be set correctly.
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RDEncLas400G intelligent laser control module PSP, PSV and PSS mode should focus on different applications. For some CW laser such as tube glass CO2 laser. PSV mode may be suitable. But if the laser is pulse laser, PSP mode can get a better cutting result. So the laser mode is up to the laser type.
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RDEncLas400G intelligent laser control module LCM has 3 laser control modes. They are static laser power mode (PSS mode), power following with speed (PSV mode) and laser synchronized with pulse mode (PSP mode). In PSS mode, the laser power will not be changed whatever the speed is.
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RDEncLas400G intelligent laser control module When using the PSV or PSP mode to configure the P-V table, Please follow the steps: Test reference value To set laser mode as PSS, the motion controller with the maximum speed of V , and LCM with the maximum power of P .
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RDEncLas400G intelligent laser control module Motion parameters include of the signal type of speed and position feedback. There are 2 feedback signals that are used in LCM. One is the pulse of motor position control. Another is the quadrate feedback signals from rotary encoder or linear encoder. the resolution of the pulse or the encoder should be set.
RDEncLas400G intelligent laser control module 4.3 Trouble shooting Please refer to table 4.2-6 Fault Reason Solution Check the cable and the RS232 Please open RS232 do not connect to computer interface. Go to ‘setting’’RS232 COM firstly or the wiring failed setting’open...
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RDEncLas400G intelligent laser control module Finished the parameters configuration and function test, LCM can work normally. PSP and PSV mode can be applied to laser cutting to get a perfect result. Thank you for your selection of our production! All the copyright of this manual is owned by Ruida technology. Any person or company can not copy upload and send the manual without Ruida’s permission.