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| MODEL: | |
|---|---|
| Quantity: | |
5264
DLL
Specification:
replace 5264 2.5mm 4pin 5pin housing connector,molex 5264 2.5mm 4pin 5pin housing connector
| Rated Voltage: | 250V AC,DC |
| Rated current: | 3A AC,DC |
| Contact resistance: | 20MΩ max |
| Insulation Resistance: | 1000MΩ min |
| Withstand Voltage: | 1000V AC/minute |
| Temperature: | -25℃~+85℃ |
Material:
| Housing: | (Nylon)UL94-V0(2) |
| Terminal: | Phosphor Bronze,Tin Plated |
| Wafer: | (Nylon)UL94-V0(2) |
Drawing:
Application
Material Selection:
The connectors are typically made from materials with high electrical conductivity. For example, the contacts within the connector are often made of copper alloys. Copper is renowned for its excellent conductivity properties, allowing for efficient transfer of electrical current.
The choice of copper alloys ensures a low resistance path for the flow of electricity. This is crucial in applications where even a small amount of resistance can lead to power losses or signal degradation.
Contact Design:
The design of the contacts is optimized for maximum conductivity. They are often precision-machined to ensure a tight and consistent connection with the mating pins. This reduces the contact resistance and enhances the overall conductivity of the connection.
The contacts may also have features such as spring-loaded mechanisms or wiping actions. These designs help to maintain a clean and reliable electrical contact over time, even with repeated insertions and removals.
replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector
Specification:
replace 5264 2.5mm 4pin 5pin housing connector,molex 5264 2.5mm 4pin 5pin housing connector
| Rated Voltage: | 250V AC,DC |
| Rated current: | 3A AC,DC |
| Contact resistance: | 20MΩ max |
| Insulation Resistance: | 1000MΩ min |
| Withstand Voltage: | 1000V AC/minute |
| Temperature: | -25℃~+85℃ |
Material:
| Housing: | (Nylon)UL94-V0(2) |
| Terminal: | Phosphor Bronze,Tin Plated |
| Wafer: | (Nylon)UL94-V0(2) |
Drawing:
Application
Material Selection:
The connectors are typically made from materials with high electrical conductivity. For example, the contacts within the connector are often made of copper alloys. Copper is renowned for its excellent conductivity properties, allowing for efficient transfer of electrical current.
The choice of copper alloys ensures a low resistance path for the flow of electricity. This is crucial in applications where even a small amount of resistance can lead to power losses or signal degradation.
Contact Design:
The design of the contacts is optimized for maximum conductivity. They are often precision-machined to ensure a tight and consistent connection with the mating pins. This reduces the contact resistance and enhances the overall conductivity of the connection.
The contacts may also have features such as spring-loaded mechanisms or wiping actions. These designs help to maintain a clean and reliable electrical contact over time, even with repeated insertions and removals.
replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector replace molex 5264 5264-04 5264-05 2.5mm 4pin 5pin housing connector
