| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Relay (2x) Electronics outputs (2x) |
Process display/ panel meters
Digital process displays, also called digital panel meters, are used for measuring and displaying standardized process signals and various sensor signals. Depending on the design, digital input / output channels and analog outputs are also available. Digital process displays with data logger function are also offered.... Read more
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| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Electronics outputs (2x) Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Electronics outputs (2x) Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Electronics outputs (2x) Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Relay (2x) not equipped |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Relay (2x) not equipped |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Relay (2x) not equipped |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped not equipped / as 2. Input standard signals |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped not equipped / as 2. Input standard signals |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Relay (2x) Electronics outputs (2x) |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Relay (2x) Electronics outputs (2x) |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Relay (2x) Electronics outputs (2x) |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped Electronics outputs (2x) |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | Electronics outputs (2x) Analog output 0/4..20 mA, 0/2..10 V |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped Electronics outputs (2x) |
| Switching current, max. | 20 mA |
| Switching voltage, max. | 10 V |
| Switching output | not equipped Electronics outputs (2x) |
Process indicators, also known as panel meters, play a crucial role in the industry. They are used to monitor and display important process variables such as temperature, pressure, flow rate or fill level in real time. Panel meters are used in various industries, including chemicals, pharmaceuticals, food and beverages, energy and mechanical engineering. They offer precise and reliable measurement of process parameters and thus enable efficient control and monitoring of production systems. the display devices are generally robust and suitable for use under extreme conditions. They can be used in potentially explosive environments or in areas with high temperatures or aggressive media. Some models have additional protection classes such as IP65 or IP67 to ensure safe use, and modern panel meters often offer advanced functions such as backlighting, alarm functions or data logging. This allows users to monitor the process parameters quickly and easily and intervene if necessary. All in all, process displays are indispensable tools in industry to ensure smooth and efficient production. They can be used to monitor process parameters in real time in order to detect and rectify potential problems at an early stage.
What are process indicators and panel meters and what are they used for?
Process displays are devices that display information about the current status of a process. They can come in various forms, such as a digital display, an analog scale or an LED display. Process indicators are used to display the current value of a physical parameter or a measured variable in a process, such as temperature, pressure, flow rate or fill level.
Panel meters are special measuring devices that are installed in devices or systems in industrial or technical applications. They are normally integrated directly into the process and measure one or more measured variables continuously or periodically. Built-in measuring devices can be temperature sensors, pressure transmitters or flow meters, for example. They are used to monitor the status of the process, record measurement data and, if necessary, make adjustments or controls in the system.
Panel meters are special measuring devices that are installed in devices or systems in industrial or technical applications. They are normally integrated directly into the process and measure one or more measured variables continuously or periodically. Built-in measuring devices can be temperature sensors, pressure transmitters or flow meters, for example. They are used to monitor the status of the process, record measurement data and, if necessary, make adjustments or controls in the system.
What types of process indicators and panel meters are there and how do they work?
There are various types of process indicators and panel meters that are used in industrial plants to monitor and control processes. Here are some examples:
1. Digital displays: This type of display shows the current measured value in digital form. You can display various units such as temperature, pressure, flow rate, etc. Digital displays use sensors to capture the measured value and then convert it into digital signals that are shown on the display.
2. Analog displays: Analog displays use pointers or bars to indicate the measured value. They are usually provided with a scale that represents the measuring range. Analog displays are often used for pressure and temperature measurements. They are based on mechanical or electronic sensors that record the measured value and convert it into a mechanical movement that moves the pointer.
3. Touchscreen displays: This type of display enables interactive operation and display of process data. They use a touch-sensitive screen on which various measured values and control options can be displayed. Touchscreen displays can be configured for different applications and often offer advanced features such as trend graphs, alarms and logging.
4. Built-in measuring devices: Panel meters are specially developed for installation in control cabinets or housings. They are compact and offer easy integration into existing systems. Panel meters can monitor various measured variables, such as temperature, humidity, pressure, flow rate, etc. They are often used in industrial processes to monitor the operating status and trigger alarms if certain limit values are exceeded.
The exact functionality of the process indicators and panel meters depends on the respective type and model. In general, sensors record the process variables, convert them into electrical signals and pass them on to the display or measuring device. The device then processes the signals and shows the measured value on the display. Depending on the model and configuration, process indicators and panel meters can also offer additional functions such as alarms, data logging and communication with other devices.
1. Digital displays: This type of display shows the current measured value in digital form. You can display various units such as temperature, pressure, flow rate, etc. Digital displays use sensors to capture the measured value and then convert it into digital signals that are shown on the display.
2. Analog displays: Analog displays use pointers or bars to indicate the measured value. They are usually provided with a scale that represents the measuring range. Analog displays are often used for pressure and temperature measurements. They are based on mechanical or electronic sensors that record the measured value and convert it into a mechanical movement that moves the pointer.
3. Touchscreen displays: This type of display enables interactive operation and display of process data. They use a touch-sensitive screen on which various measured values and control options can be displayed. Touchscreen displays can be configured for different applications and often offer advanced features such as trend graphs, alarms and logging.
4. Built-in measuring devices: Panel meters are specially developed for installation in control cabinets or housings. They are compact and offer easy integration into existing systems. Panel meters can monitor various measured variables, such as temperature, humidity, pressure, flow rate, etc. They are often used in industrial processes to monitor the operating status and trigger alarms if certain limit values are exceeded.
The exact functionality of the process indicators and panel meters depends on the respective type and model. In general, sensors record the process variables, convert them into electrical signals and pass them on to the display or measuring device. The device then processes the signals and shows the measured value on the display. Depending on the model and configuration, process indicators and panel meters can also offer additional functions such as alarms, data logging and communication with other devices.
What advantages do process displays and panel meters offer over other measuring instruments?
Process displays and panel meters offer various advantages over other measuring instruments:
1. Simple operation: Process displays and panel meters are generally easy to operate and do not require any special knowledge or training.
2. Compact design: These measuring instruments are generally compact and can be easily installed in existing systems or control panels.
3. Reliability: Process indicators and panel meters are often used for industrial applications and are therefore generally robust and reliable to withstand the demands of challenging environments.
4. Real-time measurements: These instruments provide real-time measurements, giving users accurate information about the ongoing process at all times.
5. Versatility: Process indicators and panel meters are available in different versions and can measure various parameters such as temperature, pressure, flow, level and much more.
6. Scalability: These measuring instruments can be integrated into system-wide monitoring systems to enable comprehensive measurement and control.
7. Cost efficiency: Process indicators and panel meters are often less expensive than other measuring instruments and still provide reliable and accurate measurement.
8. Ease of maintenance: These instruments generally require little maintenance and offer a long service life, resulting in lower maintenance costs.
Overall, process displays and panel meters offer a practical and reliable solution for monitoring and controlling processes in industrial applications.
1. Simple operation: Process displays and panel meters are generally easy to operate and do not require any special knowledge or training.
2. Compact design: These measuring instruments are generally compact and can be easily installed in existing systems or control panels.
3. Reliability: Process indicators and panel meters are often used for industrial applications and are therefore generally robust and reliable to withstand the demands of challenging environments.
4. Real-time measurements: These instruments provide real-time measurements, giving users accurate information about the ongoing process at all times.
5. Versatility: Process indicators and panel meters are available in different versions and can measure various parameters such as temperature, pressure, flow, level and much more.
6. Scalability: These measuring instruments can be integrated into system-wide monitoring systems to enable comprehensive measurement and control.
7. Cost efficiency: Process indicators and panel meters are often less expensive than other measuring instruments and still provide reliable and accurate measurement.
8. Ease of maintenance: These instruments generally require little maintenance and offer a long service life, resulting in lower maintenance costs.
Overall, process displays and panel meters offer a practical and reliable solution for monitoring and controlling processes in industrial applications.
How are process indicators and panel meters used in different industries?
Process indicators and panel meters are used in various industries to monitor and control different process variables. Here are some examples of how they are used in various industries:
1. Chemical industry: In the chemical industry, process indicators and panel meters are used to monitor parameters such as temperature, pressure, flow rate and fill level. This information is important to guarantee product quality and ensure that the processes run within the given specifications.
2. Food and beverage industry: In the food and beverage industry, process indicators and built-in measuring devices are used to monitor parameters such as temperature, pressure and flow rate. This is important to guarantee food safety and ensure that production processes run efficiently.
3. Energy generation: In the power generation industry, process indicators and panel meters are used to monitor parameters such as temperature, pressure, flow rate and power. This information is crucial to maximize the efficiency of the equipment and ensure that it meets the required standards.
4. Pharmaceutical industry: In the pharmaceutical industry, process indicators and panel meters are used to monitor parameters such as temperature, pressure, flow rate and fill level. This information is important to guarantee product quality and ensure that the manufacturing processes comply with strict regulatory requirements.
5. Automotive industry: In the automotive industry, process displays and built-in measuring devices are used to monitor parameters such as temperature, pressure, flow rate and speed. This information is important to ensure the reliability and performance of the vehicles.
Overall, process displays and panel meters are used in a variety of industries to monitor and control important process variables. They help to improve product quality, maximize process efficiency and ensure plant safety.
1. Chemical industry: In the chemical industry, process indicators and panel meters are used to monitor parameters such as temperature, pressure, flow rate and fill level. This information is important to guarantee product quality and ensure that the processes run within the given specifications.
2. Food and beverage industry: In the food and beverage industry, process indicators and built-in measuring devices are used to monitor parameters such as temperature, pressure and flow rate. This is important to guarantee food safety and ensure that production processes run efficiently.
3. Energy generation: In the power generation industry, process indicators and panel meters are used to monitor parameters such as temperature, pressure, flow rate and power. This information is crucial to maximize the efficiency of the equipment and ensure that it meets the required standards.
4. Pharmaceutical industry: In the pharmaceutical industry, process indicators and panel meters are used to monitor parameters such as temperature, pressure, flow rate and fill level. This information is important to guarantee product quality and ensure that the manufacturing processes comply with strict regulatory requirements.
5. Automotive industry: In the automotive industry, process displays and built-in measuring devices are used to monitor parameters such as temperature, pressure, flow rate and speed. This information is important to ensure the reliability and performance of the vehicles.
Overall, process displays and panel meters are used in a variety of industries to monitor and control important process variables. They help to improve product quality, maximize process efficiency and ensure plant safety.
Which important parameters can be measured and monitored with process displays and panel meters?
Various important parameters can be measured and monitored using process displays and built-in measuring devices. These include:
1. Temperature: Process indicators and panel meters can measure and monitor the temperature in various applications, e.g. in industrial processes, air conditioning systems or heating systems.
2. Pressure: With the help of pressure sensors, process indicators and built-in measuring devices can measure and monitor the pressure in various systems, e.g. in hydraulic systems, gas lines or pressure vessels.
3. Flow rate: Panel meters can measure and monitor the flow of liquids or gases in pipes or ducts. This is important in many industrial processes in order to control the material flow.
4. filling level: Process indicators and built-in measuring devices can measure and monitor the level of liquids or bulk goods in tanks, silos or containers. This is important to avoid overcrowding or vacancies.
5. pH value: Process indicators and panel meters can measure and monitor the pH value of liquids in chemical processes or in water analysis. This is important to control the quality of liquids.
6. Conductivity: Panel meters can measure and monitor the electrical conductivity of liquids. This is required in many applications, such as water treatment or the monitoring of chemical processes.
7. Humidity: With the help of humidity sensors, process displays and built-in measuring devices can measure and monitor the humidity in various applications, e.g. in air conditioning systems or warehouses.
8. Vibrations: Panel meters can measure and monitor vibrations in machines or systems. This is important for monitoring the condition of machines and detecting possible damage at an early stage.
These parameters can be measured and monitored in various industrial sectors such as the chemical, energy, food and pharmaceutical industries as well as in building automation and many other applications.
1. Temperature: Process indicators and panel meters can measure and monitor the temperature in various applications, e.g. in industrial processes, air conditioning systems or heating systems.
2. Pressure: With the help of pressure sensors, process indicators and built-in measuring devices can measure and monitor the pressure in various systems, e.g. in hydraulic systems, gas lines or pressure vessels.
3. Flow rate: Panel meters can measure and monitor the flow of liquids or gases in pipes or ducts. This is important in many industrial processes in order to control the material flow.
4. filling level: Process indicators and built-in measuring devices can measure and monitor the level of liquids or bulk goods in tanks, silos or containers. This is important to avoid overcrowding or vacancies.
5. pH value: Process indicators and panel meters can measure and monitor the pH value of liquids in chemical processes or in water analysis. This is important to control the quality of liquids.
6. Conductivity: Panel meters can measure and monitor the electrical conductivity of liquids. This is required in many applications, such as water treatment or the monitoring of chemical processes.
7. Humidity: With the help of humidity sensors, process displays and built-in measuring devices can measure and monitor the humidity in various applications, e.g. in air conditioning systems or warehouses.
8. Vibrations: Panel meters can measure and monitor vibrations in machines or systems. This is important for monitoring the condition of machines and detecting possible damage at an early stage.
These parameters can be measured and monitored in various industrial sectors such as the chemical, energy, food and pharmaceutical industries as well as in building automation and many other applications.
How are process displays and panel meters integrated into industrial automation systems?
Process displays and panel meters are integrated into industrial automation systems in various ways, depending on the specific requirements of the system.
1. Communication protocols: Most process displays and panel meters support various communication protocols such as Modbus, Profibus, Ethernet/IP, etc. These protocols enable communication between the devices and the higher-level automation system. By integrating these protocols, the process displays and built-in measuring devices can send and receive data to monitor and control the current status of the system.
2. Interfaces: Process displays and panel meters often have various interfaces such as digital inputs and outputs, analog inputs, relay outputs, etc. These interfaces enable direct connection to other devices in the automation system, such as sensors, actuators, controllers, etc. By integrating these interfaces, the process displays and built-in measuring devices can receive and control data from other devices.
3. Programmable logic controller (PLC): A PLC is a device that is frequently used in industrial automation systems to control various devices and components. Process displays and built-in measuring devices can be connected directly to a PLC to exchange data and send commands. The PLC can then interpret the received data and trigger corresponding actions. This integration enables comprehensive control and monitoring of the system.
4. Software platforms: Many industrial automation systems use special software platforms that offer various functions such as data visualization, alarm management, trend analysis, etc. Process displays and panel meters can be integrated into these software platforms to display and analyze their data. This enables comprehensive monitoring and control of the system.
The exact integration of process displays and built-in measuring devices in industrial automation systems depends on the specific requirements of the system. It is important to consider the compatibility of the devices and the supported communication protocols to ensure seamless integration.
1. Communication protocols: Most process displays and panel meters support various communication protocols such as Modbus, Profibus, Ethernet/IP, etc. These protocols enable communication between the devices and the higher-level automation system. By integrating these protocols, the process displays and built-in measuring devices can send and receive data to monitor and control the current status of the system.
2. Interfaces: Process displays and panel meters often have various interfaces such as digital inputs and outputs, analog inputs, relay outputs, etc. These interfaces enable direct connection to other devices in the automation system, such as sensors, actuators, controllers, etc. By integrating these interfaces, the process displays and built-in measuring devices can receive and control data from other devices.
3. Programmable logic controller (PLC): A PLC is a device that is frequently used in industrial automation systems to control various devices and components. Process displays and built-in measuring devices can be connected directly to a PLC to exchange data and send commands. The PLC can then interpret the received data and trigger corresponding actions. This integration enables comprehensive control and monitoring of the system.
4. Software platforms: Many industrial automation systems use special software platforms that offer various functions such as data visualization, alarm management, trend analysis, etc. Process displays and panel meters can be integrated into these software platforms to display and analyze their data. This enables comprehensive monitoring and control of the system.
The exact integration of process displays and built-in measuring devices in industrial automation systems depends on the specific requirements of the system. It is important to consider the compatibility of the devices and the supported communication protocols to ensure seamless integration.
What factors should be considered when selecting process indicators and panel meters?
Various factors should be taken into account when selecting process indicators and built-in measuring devices. These include:
1. Measured variable: Which physical quantity is to be measured, e.g. temperature, pressure, flow rate, level, etc.?
2. Accuracy: How accurate must the measured values be? This depends on the application and the requirements of the process.
3. Surroundings: In which environment is the measuring device used? For example, does it have to be explosion-proof or withstand high temperatures?
4. Display type: Should the measured variable be displayed in digital or analog form? Is a simple display or a graphical representation required?
5. Interfaces: Does the measuring device require interfaces such as 4-20 mA, RS485, Modbus or Ethernet to transfer the data to other systems?
6. Mounting type: Does the measuring device have to be mounted in a control panel, on a wall or in a switch cabinet?
7. Operation: How easy is it to operate the measuring device? Is there a menu navigation or a graphical user interface?
8. Robustness: Does the measuring device have to be particularly shock and vibration resistant? Is it used in a harsh environment?
9. Calibration: How easy is it to calibrate the measuring device? Is there an automatic calibration function?
10. Costs: Of course, cost also plays a role in the selection process. An appropriate price-performance ratio should be guaranteed.
These factors can vary depending on the application and individual requirements and should be taken into account when selecting process indicators and panel meters.
1. Measured variable: Which physical quantity is to be measured, e.g. temperature, pressure, flow rate, level, etc.?
2. Accuracy: How accurate must the measured values be? This depends on the application and the requirements of the process.
3. Surroundings: In which environment is the measuring device used? For example, does it have to be explosion-proof or withstand high temperatures?
4. Display type: Should the measured variable be displayed in digital or analog form? Is a simple display or a graphical representation required?
5. Interfaces: Does the measuring device require interfaces such as 4-20 mA, RS485, Modbus or Ethernet to transfer the data to other systems?
6. Mounting type: Does the measuring device have to be mounted in a control panel, on a wall or in a switch cabinet?
7. Operation: How easy is it to operate the measuring device? Is there a menu navigation or a graphical user interface?
8. Robustness: Does the measuring device have to be particularly shock and vibration resistant? Is it used in a harsh environment?
9. Calibration: How easy is it to calibrate the measuring device? Is there an automatic calibration function?
10. Costs: Of course, cost also plays a role in the selection process. An appropriate price-performance ratio should be guaranteed.
These factors can vary depending on the application and individual requirements and should be taken into account when selecting process indicators and panel meters.
How can process displays and built-in measuring devices contribute to increasing efficiency and quality control?
Process displays and built-in measuring devices can help to increase efficiency and quality control by providing real-time data about the ongoing process. This allows employees to better monitor and control the process to ensure that it runs efficiently and meets the required quality standards.
Here are some specific ways in which process indicators and built-in measuring devices can help increase efficiency and quality control:
1. Real-time monitoring: Process displays and built-in gauges show the current state of the process, including parameters such as temperature, pressure, speed, etc. Employees can monitor this data in real time and make immediate adjustments if necessary to improve efficiency and control quality.
2. Early warnings: Panel meters can trigger warnings and alarms if certain parameters are outside the acceptable range. This allows problems to be identified and rectified at an early stage before they lead to major quality problems or production downtime.
3. Automation: Built-in measuring devices can be integrated into automated systems to optimize the process and minimize human error. For example, they can automatically provide feedback to the control systems and make adjustments to maximize efficiency and ensure quality.
4. Data analysis: Process displays and panel meters can collect and store data over a longer period of time. This data can then be analyzed to identify trends and patterns that indicate inefficient processes or quality problems. Based on these findings, measures can be taken to further improve the process and control quality.
5. Documentation and traceability: Process displays and built-in measuring devices can facilitate the recording and documentation of process parameters. This enables complete traceability and facilitates compliance with quality standards and legal regulations.
Overall, process indicators and panel meters can help make the process more efficient and control quality by enabling real-time monitoring, early warnings, automation, data analysis and documentation.
Here are some specific ways in which process indicators and built-in measuring devices can help increase efficiency and quality control:
1. Real-time monitoring: Process displays and built-in gauges show the current state of the process, including parameters such as temperature, pressure, speed, etc. Employees can monitor this data in real time and make immediate adjustments if necessary to improve efficiency and control quality.
2. Early warnings: Panel meters can trigger warnings and alarms if certain parameters are outside the acceptable range. This allows problems to be identified and rectified at an early stage before they lead to major quality problems or production downtime.
3. Automation: Built-in measuring devices can be integrated into automated systems to optimize the process and minimize human error. For example, they can automatically provide feedback to the control systems and make adjustments to maximize efficiency and ensure quality.
4. Data analysis: Process displays and panel meters can collect and store data over a longer period of time. This data can then be analyzed to identify trends and patterns that indicate inefficient processes or quality problems. Based on these findings, measures can be taken to further improve the process and control quality.
5. Documentation and traceability: Process displays and built-in measuring devices can facilitate the recording and documentation of process parameters. This enables complete traceability and facilitates compliance with quality standards and legal regulations.
Overall, process indicators and panel meters can help make the process more efficient and control quality by enabling real-time monitoring, early warnings, automation, data analysis and documentation.