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LCD Touch Panels - HMI Panel
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HMI5070L
7.0" Advanced HMI, 1 Ethernet Port, 1 USB Port, 2 Serial Ports, Class I Div 2, Light Grey
Maple Systems
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HMI5120XL
12.1" Advanced HMI, 1 Ethernet Port, 2 USB Ports, 2 Serial Ports, Dark Grey
Maple Systems
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HMI5150XL
15.0" Advanced HMI, 1 Ethernet Port, 2 USB Ports, 2 Serial Ports, Dark Grey, Aluminum Enclosure
Maple Systems
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NYE2A-20S11-09WR1300
NYE Series Industrial Panel PC
Omron
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NB10W-TW01B-V1
NB Series Touch-Screen HMIs for OEM
Omron
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TX805-P3CV01
TX800 HMI/PLC Product Series, 5″ Display — CODESYS V3 PLC with TARGET and WEB VISU, High-Quality Metal Housing and Glass Front with a Capacitive Touch, 5 TFT wide screen color display, LED backlight, 800 x 480 pixel resolution, 64 K colors, Capacitive touchscreen with glass front, 2 separated RJ45 Ethernet ports with 10/100 Mbit, 1 serial interface (RS232, RS485, RS422), 1 USB host port, 1 SD card slot, 1 expansion module slot, "
Turck
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6AV6647-0AK11-3AX0
SIMATIC HMI KTP400 Basic Color PN, Basic Panel, Key/touch operation, 4" widescreen TFT display, 256 colors, PROFINET interface, configurable from WinCC Basic V11 SP2/ STEP 7 Basic V11 SP2, contains open-source software, which is provided free of charge se
Siemens
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6AV6647-0AG11-3AX0
SIMATIC HMI TP1500 Basic Color PN, Basic Panel, Touch operation, 15" TFT display, 256 colors, PROFINET interface, configurable as of WinCC flexible 2008 SP2 Compact/ WinCC Basic V10.5/ STEP 7 Basic V10.5, contains open-source software, which is provided f
Siemens
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6AV6647-0AB11-3AX0
SIMATIC HMI KTP600 Basic mono PN, Basic Panel, Key/touch operation, 6" STN display, 4 gray levels, PROFINET interface, configurable as of WinCC flexible 2008 SP2 Compact/ WinCC Basic V10.5/ STEP 7 Basic V10.5, contains open-source software, which is provi
Siemens
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TX710-P3CV01
TX710-P3CV01 Turck - TX710-P3CV01 TX700 HMI/PLC Series, 10 Display - CODESYS V3 PLC with TARGET and WEB VISU, High-Quality Metal Housing and Glass Front with a Capacitive Touch"
Turck
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574411
Operator unit CDPX-X-A-W-7 7" operator unit, wide touchscreen. Depth: 47 mm, Height: 147 mm, Length: 187 mm, Max. front panel thickness: 4 mm, Real-time clock: Yes
Festo
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574412
Operator unit CDPX-X-A-S-10 10" operator unit, touchscreen. Depth: 56 mm, Height: 232 mm, Length: 287 mm, Max. front panel thickness: 4 mm, Real-time clock: Yes
Festo
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CMT3072
7” HMI 1024x600 16.2M-color HMI 1GHz RISC CPU Dual Ethernet, Built-in EA 2.0
Weintek
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HMI5070B
7.0" Basic HMI, 1 Ethernet Port, 1 USB Port, 1 Serial Port
Maple Systems
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HMI5121P
12.1\" Advanced HMI, 1 Ethernet Port, 2 USB Ports, 2 Serial Ports, CANBus, Dark Grey, Aluminum Enclosure
Maple Systems
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6AV6647-0AA11-3AX0
SIMATIC HMI KTP400 Basic mono PN, Basic Panel, Key/touch operation, 4" STN display, 4 gray levels, PROFINET interface, configurable as of WinCC flexible 2008 SP2 Compact/ WinCC Basic V10.5/ STEP 7 Basic V10.5, contains open-source software, which is provi
Siemens
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6AG1123-2MA03-2AX0
SIPLUS HMI KTP1200 Basic DP -10...+50°C with conformal coating based on 6AV2123-2MA03-0AX0 . Key/touch "operation, ""12"""" TFT display," 65536 colors PROFIBUS interface, configurable as of WinCC Basic V13/ STEP 7 Basic V13, contains open source software,
Siemens
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6AG1124-2DC01-4AX0
SIPLUS HMI KTP400 Comfort for medial exposure with conformal coating based on 6AV2124-2DC01-0AX0
Siemens
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6AV2128-3GB36-0AX0
SIMATIC HMI MTP700, Unified Comfort Panel, neutral, touch operation, 7" widescreen TFT display, 16 million colors, PROFINET interface, configurable from WinCC Unified Comfort V16, contains open-source software, which is provided free of charge See enclose
Siemens
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6AV2128-3MB36-0AX0
SIMATIC HMI MTP1200, Unified Comfort Panel, neutral, touch operation, 12.1" widescreen TFT display, 16 million colors, PROFINET interface, configurable from WinCC Unified Comfort V16, contains open-source software, which is provided free of charge See enc
Siemens
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LCD Touch Panels - HMI Panel
General Guide & Overview
LCD Touch Panels, also known as Human Machine Interface (HMI) panels, have become increasingly prevalent in various industries. These intuitive devices revolutionize the way operators interact with machines, providing a user-friendly interface for control and monitoring. They combine visual feedback with touch inputs, creating an intuitive and efficient user experience.
The advantages of HMI touch screen panels include enhanced user experience, improved efficiency, real-time data visualization, flexibility and customization, and easy integration and communication with other systems and machinery. When choosing HMI touch screen panels, factors to consider include environmental considerations, screen size and resolution, touch technology, connectivity options, and software and programming capabilities.
Proper installation and maintenance are crucial for optimal performance, and guidelines such as proper mounting, calibration, cleaning, and firmware updates should be followed.
How Does an HMI Work?
An HMI (Human Machine Interface) enables users to communicate with a PLC (Programmable Logic Controller) through a graphical interface, typically a touchscreen. This technology has a rich history, evolving from batch interfaces to command-line interfaces and ultimately graphical user interfaces.
The HMI receives commands from the user, which it then translates into machine-readable code. Additionally, it receives feedback data from the connected PLC and presents it on the screen in real-time. This provides users with a seamless way to monitor and control machine operations.
The advantages of using an HMI are numerous. Firstly, HMIs are designed to be user-friendly, allowing operators to interact with machines effortlessly. They offer real-time feedback, providing instant updates on machine status and performance. HMIs also have alarm capabilities, allowing users to receive notifications when predefined thresholds or conditions are met.
Additionally, one of the key advantages of an HMI is its ability to modify system operations without the need for complex reprogramming. Operators can make changes to parameters, setpoints, or even entire processes directly through the HMI interface, saving time and streamlining workflow.
HMIs come in various types, each serving specific purposes in industrial settings. Some common HMI types include pushbutton replacers, which replace traditional physical pushbuttons with virtual buttons on the touchscreen. Data handlers are HMIs used for data entry and monitoring, while overseers provide a broader view of the entire system's operation.
The properties of an HMI include its processors, memory capabilities, and various physical features such as screen size, resolution, and touch technology. When selecting an HMI, it is important to consider its compatibility with the system, ease of use, and specific application requirements.
Environmental Considerations
When deploying an HMI, environmental factors must be taken into account. The operating conditions, including temperature, humidity, and exposure to dust or moisture, can impact the performance and longevity of the HMI. It is important to select an HMI that is designed to withstand the specific environmental conditions of the intended application.
Software and Programming
HMIs often come with dedicated programming software that enables users to create and customize the graphical interface. This software allows for the configuration of screens, buttons, alarms, and data logging, among other functionalities. An HMI's programming capabilities play a crucial role in its usability and adaptability to different systems and processes.
Wiring and Integration with PLC
Proper wiring between the HMI and the PLC is essential for smooth communication and operation. The HMI and the PLC need to be connected using appropriate communication protocols to ensure compatibility and reliable data transfer. Cooperating seamlessly, the HMI and the PLC form an integrated system that enables efficient process control and monitoring.
Troubleshooting and Glossary
Like any technology, HMIs may encounter issues that require troubleshooting. Familiarity with common problems and their solutions can help operators quickly resolve any issues and minimize downtime. Additionally, a glossary of HMI terms can assist users in understanding the specific vocabulary and terminology associated with this technology.
FAQ
What is an HMI?
An HMI, or Human Machine Interface, is a device that allows operators to interact with machines through a user-friendly interface for control and monitoring.
What are the advantages of HMI touch screen panels?
HMI touch screen panels offer enhanced user experience, improved efficiency, real-time data visualization, flexibility and customization, and easy integration and communication with other systems and machinery.
What factors should be considered when choosing HMI touch screen panels?
Factors to consider include environmental considerations, screen size and resolution, touch technology, connectivity options, and software and programming capabilities.
How does an HMI work?
An HMI works by allowing users to communicate with a Programmable Logic Controller (PLC) through a graphical interface, typically a touchscreen. It translates user commands into machine-readable code and presents feedback data from the PLC on the screen.
What are the advantages of an HMI?
The advantages of an HMI include its user-friendliness, real-time feedback, alarm capabilities, system modification without reprogramming, and customizability.
What are the different types of HMIs?
Different types of HMIs include pushbutton replacers, data handlers, and overseers, each serving specific purposes.
What properties should be considered when selecting an HMI?
Properties to consider include processors, memory capabilities, and various physical features.
What factors should be considered when selecting an HMI?
Factors to consider include compatibility with the system, ease of use, and specific application requirements.