In order to reduce the electromagnetic interference of the displacement sensor, twisted-pair shielded cables should be used to transmit analog signals. The shield of the cable should be grounded at both ends. If there is a point difference at both ends of the cable, the shield of the cable should be grounded at one point. Under normal circumstances, what should be grounded at both ends, and under what circumstances should it be grounded?
1: There is no potential difference between the grounding points at both ends, there will be a weak current due to the potential difference, so that the shielding layer actually becomes a grounding wire;
2: The shielded wire at both ends is grounded in the work site where high-frequency interference is more serious, and the line capacitance formed between the shield layer and the internal signal line is coupled to the signal circuit, which will seriously affect the signal misjudgment.
3: Various governors and PLC instructions have read that the shielded signal line must be single-ended grounded and the grounding should be on the controller side.
Single-end and both ends have defects:
The use of shielded transmission cables is a basic measure to reduce electromagnetic interference. In the past, some design requirements required that the shield of the signal transmission cable should be grounded at the grounding busbar of the control room, and should not be floated or repeatedly grounded. That is, single-ended grounding is used, but this type of grounding is flawed.
When only one end of the transmission cable shield is grounded and the other end is suspended, it can only prevent static induction and prevent the interference voltage induced by the change of magnetic field strength. In order to reduce the induced voltage on the core wire of the shielding layer, in the case where the technology of some weak electrical equipment requires that only one end of the shielding layer be grounded, a double-shielded cable with insulated layers should be used, and the outer shielding layer should be at least Ground connections should be made at both ends. In this way, the outer shield forms a loop with other conductors that are similarly grounded, inducing an electrical current, thus creating a magnetic flux that reduces the strength of the source magnetic field, thereby substantially canceling out the voltage induced when there is no outer shield.
Single ended grounded statement:
The basic principle of the anti-jamming function of the shielding layer is as follows: The interference source and the receiving end are equivalent to the two poles of the capacitor. One side of the voltage fluctuation will be sensed through the capacitor to the other end. Inserting a grounded intermediate layer (shield) destroys this equivalent capacitance and cuts off the interfering path.
The grounding at both ends will result in unequal potentials on both sides. When the potential is unequal, there will be a large current (earth current loop) causing the shield function to be damaged.
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Nickel-based alloy powders are commonly used in plasma transfer arc welding (PTAW) due to their excellent corrosion resistance, high temperature strength, and good weldability. These alloys are typically composed of nickel as the base metal, with various alloying elements added to enhance specific properties.
Some commonly used nickel-based alloy powders for PTAW include:
1. Inconel 625: This alloy powder is widely used for PTAW due to its high strength, excellent resistance to corrosion, and oxidation at elevated temperatures. It is commonly used in applications involving seawater, chemical processing, and aerospace industries.
2. Hastelloy X: This alloy powder is known for its high-temperature strength and oxidation resistance. It is commonly used in applications involving gas turbine engines, industrial furnace components, and chemical processing.
3. Monel 400: This alloy powder is known for its excellent resistance to corrosion, particularly in marine environments. It is commonly used in applications involving seawater, chemical processing, and oil refining.
4. Inconel 718: This alloy powder is known for its high strength, excellent resistance to corrosion, and good weldability. It is commonly used in applications involving aerospace, oil and gas, and nuclear industries.
5. Inconel 601: This alloy powder is known for its excellent resistance to high-temperature oxidation and corrosion. It is commonly used in applications involving heat treatment equipment, chemical processing, and power generation.
These nickel-based alloy powders can be used in PTAW processes to create high-quality welds with excellent mechanical properties and resistance to corrosion and high temperatures.
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