XNE-1SWIRE Capacitive touch screen and resistive touch screen

XNE-1SWIRE Capacitive touch screen and resistive touch screen

Brand: EATON

model: XNE-1SWIRE
The main features of a touch screen include:

Easy to operate: Users can directly operate on the screen without using a keyboard or mouse.

Intuitive: Through a graphical interface, users can intuitively understand the operation content and results.

Multifunctional: Touchscreens can integrate multiple functions such as display, input, control, etc., making devices more compact and efficient.

Aesthetics: The appearance of the touch screen is beautiful and can enhance the overall image of the device.

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  • Email:sauldcsplc@outlook.com
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Description

XNE-1SWIRE Capacitive touch screen and resistive touch screen

XNE-1SWIRE Product Introduction
  • 32-bit DSP digital control mode
  • Low vibration, low noise, low power consumption
  • Maximum output current 3A/phase
  • Adopting CAN bus and supporting standard CANopen communication protocol, it can load up to 127 devices
  • Supports three modes: protocol position control, speed control, and periodic position control
  • Current setting, subdivision, motor start stop control, and real-time monitoring of motor operation can be achieved through the bus
  • 2-channel optoelectronic isolation programmable input interface
XNE-1SWIRE has a small size, high cost-effectiveness, convenient networking, and simple wiring. It can be widely used in industries such as textile machinery, laser processing machinery,
medical equipment, various types of robots, robotic arms, automated production lines, and various CNC machine tools.
The XNE-1SWIRE series servo drive is a universal servo drive.
Can be used in conjunction with various PLCs, CNCs, motion controllers, and computer boards,
Or it can be combined with XVS-440-10MPI-1-1U series drivers to form a multi axis control system through the DBUS bus.
It has the characteristics of high positioning accuracy, fast response, high reliability, and simple use.
Product features:
The servo motor encoder can be selected with 20BIT, 17BIT resolution, and comes standard with 2500 wires.
The pulse input frequency can reach 4MPPS. The speed frequency should reach 1200Hz. Overload can reach three times.
Customized parameter factory settings enable the servo system to be “plug and play”.
Enhanced vibration suppression function improves the system”s responsiveness.
Inertia automatic identification, after identification, most of the parameter settings can reach the optimal state.
Built in 24V power supply, built-in 1.2K resistor, no series resistor for upper computer position command, more convenient for on-site application.

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Mobile phone: 18350224834
 
E-mail: sauldcsplc@outlook.com
 
WhatsApp:+86 18350224834

3.2 Machine learningAs the functionality of distributed computing tools such as Spark MLLib (http://spark.apache.org/mllib) and SparkR (http://spark.apache.org/docs/latest/index.html) increases, it becomes It is easier to implement distributed and online machine learning models, such as support vector machines, gradient boosting trees and decision trees for large amounts of data. Test the impact of different machine parameters and process measurements on overall product quality, from correlation analysis to analysis of variance and chi-square hypothesis testing to help determine the impact of individual measurements on product quality. This design trains some classification and regression models that can distinguish parts that pass quality control from parts that do not. The trained models can be used to infer decision rules. According to the highest purity rule, purity is defined as Nb/N, where N is the number of products that satisfy the rule and Nb is the total number of defective or bad parts that satisfy the rule.Although these models can identify linear and nonlinear relationships between variables, they do not represent causal relationships. Causality is critical to determining the true root cause, using Bayesian causal models to infer causality across all data.3.3 VisualizationA visualization platform for collecting big data is crucial. The main challenge faced by engineers is not having a clear and comprehensive overview of the complete manufacturing process. Such an overview will help them make decisions and assess their status before any adverse events occur. Descriptive analytics uses tools such as Tableau (www.tableau.com) and Microsoft BI (https://powerbi.microsoft.com/en-us) to help achieve this. Descriptive analysis includes many views such as histograms, bivariate plots, and correlation plots. In addition to visual statistical descriptions, a clear visual interface should be provided for all predictive models. All measurements affecting specific quality parameters can be visualized and the data on the backend can be filtered by time.

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