Description
Compression TA: RH916XG (supersedes P0916AA, P0916XG)
Input wiring: Input wiring should generally not be too long. But if the environmental interference is small and the voltage drop is not significant, the input wiring can be appropriately longer; The input/output lines cannot use the same cable, and the input/output lines should be separated; Try to connect to the input terminal in the form of normally open contacts as much as possible, so that the compiled ladder diagram is consistent with the relay schematic for easy reading.
Output connection: The output terminal wiring is divided into independent output and public output. In different groups, different types and voltage levels of output voltage can be used, but the output in the same group can only use the same type and voltage level of power supply. Due to the output components of the PLC being encapsulated on a printed circuit board and connected to terminals.
Terminals usually refer to connector contacts made of copper or other materials. Terminals are commonly used components for connecting electrical circuits, mainly serving as electrical connections and signal transmission between devices and components, components and cabinets, systems and subsystems, and striving to maintain signal distortion and energy loss between systems.
If the load connected to the output component is short circuited, the printed circuit board will be burned out. When using a relay output, the size of the inductive load it bears will affect the service life of the relay. Therefore, when using inductive loads, it is advisable to choose them reasonably or add isolation relays. The output load of PLC may cause interference, so measures should be taken to control it, such as the protection of DC output freewheeling tube and the resistance capacitance absorption circuit of AC output.
A transistor is a device composed of three layers of impurity semiconductors with three electrodes, so it is also known as a semiconductor transistor, crystal transistor, etc. It can be used for detection, rectification, amplification, switching, voltage stabilization, signal modulation, and many other functions.
Thyristor is the abbreviation of thyristor, also known as thyristor rectifier, formerly referred to as thyristor; In 1957, General Electric Company of the United States developed the world’s first thyristor product and commercialized it in 1958; Thyristor is a PNPN four layer semiconductor structure with three electrodes: anode, cathode, and gate; Thyristors have the characteristics of silicon rectifier devices and can operate under high voltage and high current conditions. Their working process can be controlled and are widely used in electronic circuits such as controllable rectification, AC voltage regulation, contactless electronic switches, inverters, and frequency converters.
Recommendation:
FC-PSU-UNI2450
FC-TSGAS-1624
FS-TSGAS-1624
FS-TSDO-0824
FX-USI-0002
FC-TSDI1624
FS-SDO-0824
FS-SDI-1624
FS-PSU-240516
TP-FPD214-100
FS-PDB-CPX05
FC-RUSIO-3224
FC-TSDI-1624C
FC-PDB-0824
FC-SDOL-0424
FC-TERM-0002
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