This document lists 10 frequency settings ranging from 7.5Hz to 2400Hz. The settings are numbered from 0 to 9 and include common frequencies such as 10Hz, 25Hz, 50Hz, 60Hz, 150Hz, 300Hz, 600Hz, and 960Hz with the highest setting at 2400Hz.
The document discusses Lua scripting capabilities for edge calculation on We-Con Vbox devices. It provides examples of importing, exporting, synchronizing, and debugging Lua scripts. Specific examples demonstrated include transferring data between addresses, arithmetic operations, and sending short messages based on input conditions. Supported Vbox models for edge calculation using Lua are listed.
The document describes two series of industrial IoT solutions from WECON TECHNOLOGY CO., LTD: the V-BOX E Series and V-BOX S Series. The V-BOX E Series includes basic models with 1 COM port and Ethernet connectivity as well as models with additional 2G, 4G, or WiFi connectivity. The V-BOX S Series includes models with up to 3 COM ports, 1-3 Ethernet ports, WiFi/4G connectivity, and remote access via VPN or scripting capabilities. Both series operate on the Linux OS and include features such as alarm monitoring, data recording, remote updates and backups.
Este documento presenta las especificaciones técnicas de tres modelos de paneles industriales fabricados por WECON Technology Co., Ltd: WPC-170403A, WPC-190403A y WPC-211609A. Los modelos varían en tamaño de pantalla (17, 19 y 21.5 pulgadas), resolución (1280x1024 y 1920x1080) y dimensiones. Todos son resistentes al agua, polvo e interferencias y soportan temperaturas de -10 ° C a 50 ° C. Incluyen procesadores Intel Celeron J1900, memoria de
The document provides specifications for various I/O modules from Wecon Technology including weighing modules, analog input/output modules, pulse output modules, temperature modules, digital I/O modules. The modules vary in the number of channels, resolution, supported signals and functions. Key specifications listed include operating voltage and current, signal types, accuracy, speed, temperature ranges, and certifications.
This document describes several programmable logic controller models from WECON TECHNOLOGY CO., LTD. including the LX3VM 1212M/1412M, LX3VM 1616M/2416M, and LX3VM 2424M/3624M. The controllers have AC or DC power supply options, transistor or relay output modes, input/output channels ranging from 12 to 36, support for ladder logic programming, and serial communication interfaces. They are designed to operate between 0-55 degrees Celsius with shock and electrical noise immunities.
The document describes several models of programmable logic controllers from WECON TECHNOLOGY CO., LTD. including the LX3VE 1212M/1412M, LX3VE 1616M/2416M, and LX3VE 2424M/3624M. The PLCs have AC and DC power supply options, transistor and relay output modes, adjustable I/O configurations between 12-36 inputs and 12-24 outputs, and support ladder logic programming. Key specifications include scan times below 0.1ms, 32KB of memory, and compliance with industrial standards for noise immunity and temperature ranges.
The document describes the specifications of several models of programmable logic controllers from WECON Technology Co. including the LX3VP series. The LX3VP series PLCs have various I/O and module options, run in a round scan or interrupt mode, support ladder and instruction list programming, and have features such as high speed pulse output, external interrupts, timers, and serial communication ports. The PLCs operate between 0-55°C and meet EMC immunity standards.
The document describes several programmable logic controller models from WECON TECHNOLOGY CO., LTD. including their specifications. The models have varying numbers of digital and analog inputs/outputs. They can operate with either AC or DC power supplies and support programming via serial cables. Key features include relay and transistor output types, high speed pulse outputs, interrupt functions, and immunity to electrical noise.
The document discusses Lua scripting capabilities for edge calculation on We-Con Vbox devices. It provides examples of importing, exporting, synchronizing, and debugging Lua scripts. Specific examples demonstrated include transferring data between addresses, arithmetic operations, and sending short messages based on input conditions. Supported Vbox models for edge calculation using Lua are listed.
The document describes two series of industrial IoT solutions from WECON TECHNOLOGY CO., LTD: the V-BOX E Series and V-BOX S Series. The V-BOX E Series includes basic models with 1 COM port and Ethernet connectivity as well as models with additional 2G, 4G, or WiFi connectivity. The V-BOX S Series includes models with up to 3 COM ports, 1-3 Ethernet ports, WiFi/4G connectivity, and remote access via VPN or scripting capabilities. Both series operate on the Linux OS and include features such as alarm monitoring, data recording, remote updates and backups.
Este documento presenta las especificaciones técnicas de tres modelos de paneles industriales fabricados por WECON Technology Co., Ltd: WPC-170403A, WPC-190403A y WPC-211609A. Los modelos varían en tamaño de pantalla (17, 19 y 21.5 pulgadas), resolución (1280x1024 y 1920x1080) y dimensiones. Todos son resistentes al agua, polvo e interferencias y soportan temperaturas de -10 ° C a 50 ° C. Incluyen procesadores Intel Celeron J1900, memoria de
The document provides specifications for various I/O modules from Wecon Technology including weighing modules, analog input/output modules, pulse output modules, temperature modules, digital I/O modules. The modules vary in the number of channels, resolution, supported signals and functions. Key specifications listed include operating voltage and current, signal types, accuracy, speed, temperature ranges, and certifications.
This document describes several programmable logic controller models from WECON TECHNOLOGY CO., LTD. including the LX3VM 1212M/1412M, LX3VM 1616M/2416M, and LX3VM 2424M/3624M. The controllers have AC or DC power supply options, transistor or relay output modes, input/output channels ranging from 12 to 36, support for ladder logic programming, and serial communication interfaces. They are designed to operate between 0-55 degrees Celsius with shock and electrical noise immunities.
The document describes several models of programmable logic controllers from WECON TECHNOLOGY CO., LTD. including the LX3VE 1212M/1412M, LX3VE 1616M/2416M, and LX3VE 2424M/3624M. The PLCs have AC and DC power supply options, transistor and relay output modes, adjustable I/O configurations between 12-36 inputs and 12-24 outputs, and support ladder logic programming. Key specifications include scan times below 0.1ms, 32KB of memory, and compliance with industrial standards for noise immunity and temperature ranges.
The document describes the specifications of several models of programmable logic controllers from WECON Technology Co. including the LX3VP series. The LX3VP series PLCs have various I/O and module options, run in a round scan or interrupt mode, support ladder and instruction list programming, and have features such as high speed pulse output, external interrupts, timers, and serial communication ports. The PLCs operate between 0-55°C and meet EMC immunity standards.
The document describes several programmable logic controller models from WECON TECHNOLOGY CO., LTD. including their specifications. The models have varying numbers of digital and analog inputs/outputs. They can operate with either AC or DC power supplies and support programming via serial cables. Key features include relay and transistor output types, high speed pulse outputs, interrupt functions, and immunity to electrical noise.
The document discusses the results of a study on the impact of COVID-19 lockdowns on air pollution. Researchers analyzed data from dozens of countries and found that lockdowns led to an average decline of nearly 30% in nitrogen dioxide levels across major cities. However, they also observed that the reductions in air pollution were temporary and that levels began to rise again as restrictions eased and human activity increased.
The document provides instructions for using the V-BOX Web application. It describes the basic functions and configuration of the application. The basic functions include user registration, password retrieval, and login. It also explains how to configure V-BOX parameters such as access password, connection settings, and update time. Additionally, it outlines how to add and manage V-BOX devices, communication ports, monitoring points, user accounts and alarm settings within the V-BOX Web interface.
The document provides information about WECON's remote access system for HMIs, including its Smart App and Cloud platform. The key points are:
1) The WECON remote access system allows users to remotely access HMIs through a network using just one cable, without complex network settings.
2) The Smart App allows users to register accounts, add devices, purchase remote access packages, and remotely view and manage devices.
3) The Cloud platform provides similar remote access and device management functions for both individual users and agencies managing multiple users.
This document provides answers to frequently asked questions about WECON's PI series of industrial touch panel PCs. It covers topics such as available operating systems, included support, the PI Studio software for project development, communication ports, functions like data recording and alarms, differences from the LEVI series, and calibrating touch screens.
The document summarizes the WECON LX Series PLC products released between 2012-2017. It provides details on the various PLC CPU models including the LX3V, LX3VP, LX3VE, and LX3VM. It also describes the expansion modules, BD modules, naming rules, features, and differences between the CPU series. Examples are given of the LX3V PLC being used in riveting machine and particle packing machine automation applications.
Introduction of Wecon HMI PI Series 2017Lily Zheng
This document discusses Wecon's PI Series HMI products. It provides an overview of the PI3000, PI8000, and PI9000 series models, which range from 4.3 to 15 inch displays. The PI3000 is powered by a Cortex A8 CPU and supports protocols like Siemens and Omron. The PI8000 has more ports and memory and adds remote access features. The top-of-the-line PI9000 uses an Android operating system and supports cloud monitoring. Examples are given showing applications in smart homes, charging stations, and industrial machinery to demonstrate how the HMIs can be used across different industries.
This document provides information on industrial Android tablet PCs produced by WECON Technology Co., Ltd. including specifications for 3MM and 10MM panel models. The tablets are intended for applications in automation, home control, and business offices. They have VESA, wall, desktop, or embedded installation and an IP65 waterproof front panel. Key specs listed are LCD size and resolution, processor, RAM, storage, ports, and optional accessories. Contact information is provided at the end for sales and technical support representatives.
The document compares four PLC models: LX3V, LX3VP, LX3VE, and LX3VM. LX3VP adds N:N networking and improves pulse output frequency and ladder capacity over LX3V. LX3VE expands on LX3VP with additions like S-type acceleration/deceleration, jitter pulse support, and E-CAM functions. LX3VM is similar to LX3VE but also includes circle interpolation functionality.
Project in textile industry with Wecon HMI and PLCLily Zheng
A textile industry customer uses a Wecon 37 HMI and 37 PLC along with Yaskawa variable frequency drives to control a process. The main status screen provides access to configurations and graphics. It includes a data input area for up to 26 configurable multispeed conditions. The system graphically interprets states based on fulfillment of conditions and interacts with conditioning parameters protected by password. A subsystem handles variable variables to facilitate the application implementation in a hidden and password protected manner. The developed application is capable of evaluating mechanical position from an encoder, performing ramps based on user-defined conditions, and sending data to the inverters for acceleration and deceleration control.
This case uses “ZRST” to reset many device(for example:traffic lights).Because PLC steps capacity is limited.ZRST can reset many device to save capacity.
The document summarizes the 7 key steps in the production process for an HMI device:
1) Mainboard processing including circuit board production and testing
2) Parts detection to ensure components work properly
3) Applying a protective conformal coating to the circuit board
4) Device assembly including connecting parts and testing functions
5) Normal temperature aging to check for issues over time
6) Packaging including setup, labeling, and quality checks
7) Final quality sampling inspections on randomly selected devices before warehousing
Chapter 3 Easy Programming Makes Better ProjectLily Zheng
1) The document discusses programming techniques for PLC and HMI systems, emphasizing accuracy, readability, and safety.
2) It recommends using floating point formats for all data, distinguishing display colors, and performing calculations with multiplication first for accuracy. Complex calculations are best done in HMI scripting.
3) Programming should address safety mechanisms like emergency stops first, followed by manual mode controls and settings, then automatic mode using clear instructions like DECO for future modifications.
Chapter 2 The Easier Programming, the Better ProjectLily Zheng
The document discusses best practices for device planning in projects to make programming easier to understand and avoid conflicts, recommending allocating specific registers like D0-D10 for HMI, D20-D99 for communication, and separating storage for different axes in multi-axis control systems, with examples of register ranges to allocate for different functions. It also recommends using techniques like adding remarks to registers to indicate their usage, planning addresses in an Excel table for import, and organizing device allocation like managing a warehouse to separate functions into certain register ranges for easy tracking.
The document discusses improving programming of PLCs and HMIs to reduce bugs and ensure equipment runs properly. It recommends logically allocating inputs and outputs together by function and reserving addresses for high-speed counting. Emergency stops and switches should use closed and open contacts in programming for safety. Current signals are preferred over voltage for analog inputs due to better interference resistance. Analog control is also better than communication for third party devices due to faster response.
The document discusses the results of a study on the impact of COVID-19 lockdowns on air pollution. Researchers analyzed data from dozens of countries and found that lockdowns led to an average decline of nearly 30% in nitrogen dioxide levels across major cities. However, they also observed that the reductions in air pollution were temporary and that levels began to rise again as restrictions eased and human activity increased.
The document provides instructions for using the V-BOX Web application. It describes the basic functions and configuration of the application. The basic functions include user registration, password retrieval, and login. It also explains how to configure V-BOX parameters such as access password, connection settings, and update time. Additionally, it outlines how to add and manage V-BOX devices, communication ports, monitoring points, user accounts and alarm settings within the V-BOX Web interface.
The document provides information about WECON's remote access system for HMIs, including its Smart App and Cloud platform. The key points are:
1) The WECON remote access system allows users to remotely access HMIs through a network using just one cable, without complex network settings.
2) The Smart App allows users to register accounts, add devices, purchase remote access packages, and remotely view and manage devices.
3) The Cloud platform provides similar remote access and device management functions for both individual users and agencies managing multiple users.
This document provides answers to frequently asked questions about WECON's PI series of industrial touch panel PCs. It covers topics such as available operating systems, included support, the PI Studio software for project development, communication ports, functions like data recording and alarms, differences from the LEVI series, and calibrating touch screens.
The document summarizes the WECON LX Series PLC products released between 2012-2017. It provides details on the various PLC CPU models including the LX3V, LX3VP, LX3VE, and LX3VM. It also describes the expansion modules, BD modules, naming rules, features, and differences between the CPU series. Examples are given of the LX3V PLC being used in riveting machine and particle packing machine automation applications.
Introduction of Wecon HMI PI Series 2017Lily Zheng
This document discusses Wecon's PI Series HMI products. It provides an overview of the PI3000, PI8000, and PI9000 series models, which range from 4.3 to 15 inch displays. The PI3000 is powered by a Cortex A8 CPU and supports protocols like Siemens and Omron. The PI8000 has more ports and memory and adds remote access features. The top-of-the-line PI9000 uses an Android operating system and supports cloud monitoring. Examples are given showing applications in smart homes, charging stations, and industrial machinery to demonstrate how the HMIs can be used across different industries.
This document provides information on industrial Android tablet PCs produced by WECON Technology Co., Ltd. including specifications for 3MM and 10MM panel models. The tablets are intended for applications in automation, home control, and business offices. They have VESA, wall, desktop, or embedded installation and an IP65 waterproof front panel. Key specs listed are LCD size and resolution, processor, RAM, storage, ports, and optional accessories. Contact information is provided at the end for sales and technical support representatives.
The document compares four PLC models: LX3V, LX3VP, LX3VE, and LX3VM. LX3VP adds N:N networking and improves pulse output frequency and ladder capacity over LX3V. LX3VE expands on LX3VP with additions like S-type acceleration/deceleration, jitter pulse support, and E-CAM functions. LX3VM is similar to LX3VE but also includes circle interpolation functionality.
Project in textile industry with Wecon HMI and PLCLily Zheng
A textile industry customer uses a Wecon 37 HMI and 37 PLC along with Yaskawa variable frequency drives to control a process. The main status screen provides access to configurations and graphics. It includes a data input area for up to 26 configurable multispeed conditions. The system graphically interprets states based on fulfillment of conditions and interacts with conditioning parameters protected by password. A subsystem handles variable variables to facilitate the application implementation in a hidden and password protected manner. The developed application is capable of evaluating mechanical position from an encoder, performing ramps based on user-defined conditions, and sending data to the inverters for acceleration and deceleration control.
This case uses “ZRST” to reset many device(for example:traffic lights).Because PLC steps capacity is limited.ZRST can reset many device to save capacity.
The document summarizes the 7 key steps in the production process for an HMI device:
1) Mainboard processing including circuit board production and testing
2) Parts detection to ensure components work properly
3) Applying a protective conformal coating to the circuit board
4) Device assembly including connecting parts and testing functions
5) Normal temperature aging to check for issues over time
6) Packaging including setup, labeling, and quality checks
7) Final quality sampling inspections on randomly selected devices before warehousing
Chapter 3 Easy Programming Makes Better ProjectLily Zheng
1) The document discusses programming techniques for PLC and HMI systems, emphasizing accuracy, readability, and safety.
2) It recommends using floating point formats for all data, distinguishing display colors, and performing calculations with multiplication first for accuracy. Complex calculations are best done in HMI scripting.
3) Programming should address safety mechanisms like emergency stops first, followed by manual mode controls and settings, then automatic mode using clear instructions like DECO for future modifications.
Chapter 2 The Easier Programming, the Better ProjectLily Zheng
The document discusses best practices for device planning in projects to make programming easier to understand and avoid conflicts, recommending allocating specific registers like D0-D10 for HMI, D20-D99 for communication, and separating storage for different axes in multi-axis control systems, with examples of register ranges to allocate for different functions. It also recommends using techniques like adding remarks to registers to indicate their usage, planning addresses in an Excel table for import, and organizing device allocation like managing a warehouse to separate functions into certain register ranges for easy tracking.
The document discusses improving programming of PLCs and HMIs to reduce bugs and ensure equipment runs properly. It recommends logically allocating inputs and outputs together by function and reserving addresses for high-speed counting. Emergency stops and switches should use closed and open contacts in programming for safety. Current signals are preferred over voltage for analog inputs due to better interference resistance. Analog control is also better than communication for third party devices due to faster response.
What Could Be Behind Your Mercedes Sprinter's Power Loss on Uphill RoadsSprinter Gurus
Unlock the secrets behind your Mercedes Sprinter's uphill power loss with our comprehensive presentation. From fuel filter blockages to turbocharger troubles, we uncover the culprits and empower you to reclaim your vehicle's peak performance. Conquer every ascent with confidence and ensure a thrilling journey every time.
Welcome to ASP Cranes, your trusted partner for crane solutions in Raipur, Chhattisgarh! With years of experience and a commitment to excellence, we offer a comprehensive range of crane services tailored to meet your lifting and material handling needs.
At ASP Cranes, we understand the importance of reliable and efficient crane operations in various industries, from construction and manufacturing to logistics and infrastructure development. That's why we strive to deliver top-notch solutions that enhance productivity, safety, and cost-effectiveness for our clients.
Our services include:
Crane Rental: Whether you need a crawler crane for heavy lifting or a hydraulic crane for versatile operations, we have a diverse fleet of well-maintained cranes available for rent. Our rental options are flexible and can be customized to suit your project requirements.
Crane Sales: Looking to invest in a crane for your business? We offer a wide selection of new and used cranes from leading manufacturers, ensuring you find the perfect equipment to match your needs and budget.
Crane Maintenance and Repair: To ensure optimal performance and safety, regular maintenance and timely repairs are essential for cranes. Our team of skilled technicians provides comprehensive maintenance and repair services to keep your equipment running smoothly and minimize downtime.
Crane Operator Training: Proper training is crucial for safe and efficient crane operation. We offer specialized training programs conducted by certified instructors to equip operators with the skills and knowledge they need to handle cranes effectively.
Custom Solutions: We understand that every project is unique, which is why we offer custom crane solutions tailored to your specific requirements. Whether you need modifications, attachments, or specialized equipment, we can design and implement solutions that meet your needs.
At ASP Cranes, customer satisfaction is our top priority. We are dedicated to delivering reliable, cost-effective, and innovative crane solutions that exceed expectations. Contact us today to learn more about our services and how we can support your project in Raipur, Chhattisgarh, and beyond. Let ASP Cranes be your trusted partner for all your crane needs!
The Octavia range embodies the design trend of the Škoda brand: a fusion of
aesthetics, safety and practicality. Whether you see the car as a whole or step
closer and explore its unique features, the Octavia range radiates with the
harmony of functionality and emotion
Fleet management these days is next to impossible without connected vehicle solutions. Why? Well, fleet trackers and accompanying connected vehicle management solutions tend to offer quite a few hard-to-ignore benefits to fleet managers and businesses alike. Let’s check them out!