| Allicdata Part #: | DP12H1212A22.5F-ND |
| Manufacturer Part#: |
DP12H1212A22.5F |
| Price: | $ 0.87 |
| Product Category: | Sensors, Transducers |
| Manufacturer: | TE Connectivity Alcoswitch Switches |
| Short Description: | DP12 HOR 12P 12DET 22.5F B 5MM |
| More Detail: | N/A |
| DataSheet: |  DP12H1212A22.5F Datasheet/PDF |
| Quantity: | 1000 |
| 1000 +: | $ 0.78597 |
Specifications
| Series: | * |
| Part Status: | Active |
Description
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Introduction
Encoders have become one of the most important tools used in sensing and motion control applications. The type of encoder being discussed in this paper is the DP12H1212A22.5F encoder, its application field and working principle, which is a key component of microcontroller-based motion control systems. Types of Encoders
Encoders come in a variety of shapes and sizes with different input and output types. Some encoders are designed to be used in a single axis, while other encoders can be used in multiple axes. Encoders can be divided into two broad categories: absolute encoders and incremental encoders.Absolute Encoders
Absolute encoders work by assigning a unique code to each position and transmitting the code when the position changes. This type of encoder provides precise positioning information, as it is not affected by fluctuations in the power supply or environmental conditions. Incremental Encoders
Incremental encoders work by tracking the position of a rotating shaft and pulse the output when the shaft moves. This type of encoder does not provide absolute positioning information, but can be used for relative positioning tasks.DP12H1212A22.5F Application Field
The DP12H1212A22.5F encoder is a compact, absolute, single-axis encoder that is used for applications such as positioning, velocity control, or monitoring. It is designed to measure linear or rotational motion in robotic arms, automated production systems, and servo motor systems.DP12H1212A22.5F Working Principle
The DP12H1212A22.5F encoder works by using a 12-bit absolute range which is converted into two quadrature signals with 12.5 cycles per revolution. The encoder produces an output signal which is proportional to the position of the shaft when activated.A magnetic field is used to detect the position of a shaft in combination with an optical or infrared sensor. These sensors detect the magnetic field generated by two magnetic rings attached to the shaft. As the shaft rotates, the sensors detect and transmit the position of the shaft. The output from the encoders are two square wave signals. These signals are in phase with each other and have a specific alignment in relation to the shaft. The signals consist of two channels, which are referred to as quadrature signals. The first signal is an “A” signal and the second signal is a “B” signal. The “A” signal is the leading signal and the “B” signal is the trailing signal.Conclusion
In conclusion, the DP12H1212A22.5F encoder is an absolute encoder that can be used for a variety of motion control applications. It works by using two quadrature signals that are generated by a magnetic field and an optical or infrared sensor. This type of encoder is highly precise and is capable of producing reliable, accurate output signals.
Encoders have become one of the most important tools used in sensing and motion control applications. The type of encoder being discussed in this paper is the DP12H1212A22.5F encoder, its application field and working principle, which is a key component of microcontroller-based motion control systems. Types of Encoders
Encoders come in a variety of shapes and sizes with different input and output types. Some encoders are designed to be used in a single axis, while other encoders can be used in multiple axes. Encoders can be divided into two broad categories: absolute encoders and incremental encoders.Absolute Encoders
Absolute encoders work by assigning a unique code to each position and transmitting the code when the position changes. This type of encoder provides precise positioning information, as it is not affected by fluctuations in the power supply or environmental conditions. Incremental Encoders
Incremental encoders work by tracking the position of a rotating shaft and pulse the output when the shaft moves. This type of encoder does not provide absolute positioning information, but can be used for relative positioning tasks.DP12H1212A22.5F Application Field
The DP12H1212A22.5F encoder is a compact, absolute, single-axis encoder that is used for applications such as positioning, velocity control, or monitoring. It is designed to measure linear or rotational motion in robotic arms, automated production systems, and servo motor systems.DP12H1212A22.5F Working Principle
The DP12H1212A22.5F encoder works by using a 12-bit absolute range which is converted into two quadrature signals with 12.5 cycles per revolution. The encoder produces an output signal which is proportional to the position of the shaft when activated.A magnetic field is used to detect the position of a shaft in combination with an optical or infrared sensor. These sensors detect the magnetic field generated by two magnetic rings attached to the shaft. As the shaft rotates, the sensors detect and transmit the position of the shaft. The output from the encoders are two square wave signals. These signals are in phase with each other and have a specific alignment in relation to the shaft. The signals consist of two channels, which are referred to as quadrature signals. The first signal is an “A” signal and the second signal is a “B” signal. The “A” signal is the leading signal and the “B” signal is the trailing signal.Conclusion
In conclusion, the DP12H1212A22.5F encoder is an absolute encoder that can be used for a variety of motion control applications. It works by using two quadrature signals that are generated by a magnetic field and an optical or infrared sensor. This type of encoder is highly precise and is capable of producing reliable, accurate output signals.
The specific data is subject to PDF, and the above content is for reference
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