Allicdata Part #: | PA3PPPA-ND |
Manufacturer Part#: |
PA3PPPA |
Price: | $ 269.58 |
Product Category: | Sensors, Transducers |
Manufacturer: | Carlo Gavazzi Inc. |
Short Description: | SEN PHT RETRO PLR 3M |
More Detail: | N/A |
DataSheet: | PA3PPPA Datasheet/PDF |
Quantity: | 1000 |
1 +: | $ 245.07000 |
Series: | -- |
Part Status: | Active |
Sensing Method: | Retroreflective, Polarized |
Sensing Distance: | 118.110" (3m) |
Voltage - Supply: | 10 V ~ 30 V |
Response Time: | 330µs, 660µs |
Output Configuration: | PNP |
Connection Method: | Cable |
Ingress Protection: | IP67 |
Cable Length: | 78.740" (2000.00mm) |
Light Source: | Infrared (660nm) |
Adjustment Type: | Adjustable, 20-Turn Potentiometer |
Operating Temperature: | -20°C ~ 60°C |
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PA3PPPA (Photoelectric Amplifier and Photovoltaic Power Amplifying) is a widely used optical sensor technology in industrial applications. It has been in use for decades and is considered to be one of the most reliable and cost-effective solutions for a wide variety of sensing applications. The technology is based on the principle of photovoltaic (PV) power, which is the conversion of light into electricity in an efficient and cost-effective manner. This article will explain the application field and working principle of PA3PPPA in industrial applications.
The most common application for PA3PPPA technology is in industrial photoelectric sensors. These sensors use light as a signal to monitor the presence or absence of an object, and to differentiate between various objects in a particular range of illumination. The sensors use a combination of photovoltaic and photoelectric amplifying technology to accurately monitor and detect objects in various levels of light. This combination of technologies provides a robust and reliable solution for monitoring and detecting objects in a variety of industrial applications such as machine safety, product inspection, and process control.
The working principle of the PA3PPPA optical sensor technology is based on the principle of photovoltaic power. The photovoltaic effect is based on the process of conversion of light into electricity. In this process, a photovoltaic cell acts as a transducer of light into electricity. The photovoltaic cell is composed of a semiconductor layered structure, with an n-type layer and a p-type layer. When light is shined on the cell, the electron-holes pairs (free electrons and holes) are created that travel through the layers. This creates an electric current.
The electrical current generated by the photovoltaic cell is then amplified and regulated by an electronic circuit called a photoelectric amplifier (PEA). The PEA will amplify the current and regulate it in order to provide an output that will be used by other devices. For example, the amplified output can be used to switch an output relay or to power an LED indicator light.
The PA3PPPA technology can be used in numerous applications due to its robust, cost-effectiveness, and reliability. It is an ideal solution for machine safety, product inspection, and process control, as it is capable of detecting objects in various levels of light. The technology can also be used in applications such as proximity sensors, motion detectors, and light curtains. Additionally, it is capable of providing accurate and reliable sensing data that can be used for feedback and decision-making.
In conclusion, the PA3PPPA technology is an efficient and cost-effective solution for monitoring, detecting, and sensing objects in various levels of light. Its accuracy, robustness, and cost-effectiveness make it a viable solution for numerous industrial applications. There are numerous advantages to using this technology, as it is easy to install and maintain, and provides reliable sensing data.
The specific data is subject to PDF, and the above content is for reference
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