PVC Terminals
PVC terminals are electrical components for wire connection, the core structure of which is a metal component embedded in an insulating material (e.g. PVC) with wire sockets and fastening screws at both ends. Reliable connection of the wires is realized by means of threaded crimping or shrinking of the cable ties, which can be quickly disassembled without welding.
PVC Terminal and Connector Products
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Original price was: $10.$9Current price is: $9.
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Original price was: $10.$9Current price is: $9.
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PVC Terminal and Connector FAQs
In what applications can PVC insulated terminals be used?
The terminals are small in volume. This ensures that, in complex circuit environments, electronic products are in stable operation. At the same time, it effectively prevents issues like short circuits. These products impose strict requirements on the size and performance of connecting components as electronic products feature compact internal spaces. In the electronic device manufacturing industry, in the production of consumer electronics such as mobile phones and tablets, PVC insulated shoulder-back male-female plug terminals are widely used.
PVC insulated shoulder-back male-female plug terminals, with their robust structure and reliable connection performance, guarantee that automotive electronic devices work normally under various working conditions. Because during vehicle operation, they need to withstand harsh environments such as high temperatures and vibration. PVC insulated shoulder-back male-female plug terminals ensure comfortable experience and safe driving. With numerous sensors, controllers, and other components, the electrical systems within vehicles are complex. Therefore, PVC insulated shoulder-back male-female plug terminals play a critical role in automotive electronic systems.
It is easy to install PVC insulated shoulder-back male-female plug terminals. This can greatly improve production efficiency and enable electrical connections. Automated production lines in factories have a large number of electrical devices. Therefore, connecting components need to have highly maintenance characteristics and efficient installation features. These terminals are equally indispensable in the field of industrial automation equipment. Moreover, during equipment servicing, their user-friendly plug-and-play design makes it convenient for the replacement of faulty components by maintenance personnel.
What are the advantages of PVC insulated terminals
Excellent performance. With the metal parts of the terminal tightly encapsulated in the PVC material, it can significantly reduce the risk of electrical faults such as leakage and short circuits, as it effectively blocks the intrusion of dust, moisture, and other contaminants. The metal parts of the terminal are equal to a robust “protective suit” for electric current. PVC insulated terminals excel in insulation in terms of their advantages. These terminals maintain reliability and circuit safety even in dusty workshops and humid industrial environments.
Sound mechanical strength. PVC insulated terminals, though small in size, are with sound compression resistance and remarkable toughness. This attribute enable it to reduce downtime caused by loose connections, especially in machinery subject to electrical devices and frequent vibrations. During wire connections, PVC insulated terminals can ensure stable fixation of conductors, bend without deformation or breakage, withstand moderate pulling. Therefore, they have sound mechanical strength.
Excellent compatibility. PVC insulated terminals are compatible with a wide range of cable specifications and wire. This universality enhances project efficiency and save engineers valuable time in selecting components. Because, PVC insulated terminals can offer a seamless and secure fit even for ow-voltage and delicate wires, as well as high-currents and thick-core cables. So PVC insulated terminals are excellent in compatibility.
Low cost. PVC insulated terminals have relatively significant value. As their production cost is low, they can reduce enterprises purchasing cost while ensuring performance.
How do PVC insulated terminals perform under high voltage conditions?
As common connection elements, PVC insulated connecting terminals draw significant attention for their performance under high voltage. In high voltage system, the stability of the overall system hinges on the reliability of every part.
Even exposed in high voltage for a long time, PVC insulated terminals can still maintain the safety of the electrical connection. They can not be beaten down and they can still be in high level. This
Attributes PVC insulated terminals’ high performance.Because under high voltage, these terminals can ensure the smooth transmission of the current per projected path and effectively prevent the leakage of current.
PVC insulated terminals have excellent structural design as they are designed with dedication and they have stable connecting structure. The internal metal conductors can withstand high current load under high voltage because they are made of sound materials and have sound mechanical strength and conductivity. The connection between the wire and terminal is stable and tight. This ensures that even under high voltage, they can not loose. With tight connection, partial discharge and overheating can be avoided and contact resistance can be reduced. Sometimes, partial discharge and overheating can impact its reliability by gradually impairing terminals under high voltage environment. However, PVC insulated terminals can effectively avoid these problems.
Besides, with certain characteristics of enduring environment, PVC insulated terminals can still maintain sound performance even the high voltage system is in complicate environment such as humidity and high temperature. PVC materials can effectively prevent water intrusion, thus enduring structural stability and insulated performance even in high temperature environment. They can ensure that the machine can work in a stable and reliable condition for a long time and avoid the reduction of insulation performance due to moisture.
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