310-87-163-41-001101 Allicdata Electronics
Allicdata Part #:

310-87-163-41-001101-ND

Manufacturer Part#:

310-87-163-41-001101

Price: $ 1.88
Product Category:

Connectors, Interconnects

Manufacturer: Preci-Dip
Short Description: PCB CONN SOLDER TAIL
More Detail: 63 Position Socket Connector 0.100" (2.54mm) Throu...
DataSheet: 310-87-163-41-001101 datasheet310-87-163-41-001101 Datasheet/PDF
Quantity: 1000
190 +: $ 1.70846
Stock 1000Can Ship Immediately
$ 1.88
Specifications
Insulation Color: Black
Contact Finish Thickness - Post: --
Contact Material: Beryllium Copper
Contact Shape: Circular
Insulation Material: Polycyclohexylenedimethylene Terephthalate (PCT), Polyester, Glass Filled
Applications: --
Voltage Rating: --
Current Rating: 3A
Features: --
Ingress Protection: --
Mated Stacking Heights: --
Contact Finish - Post: Tin
Material Flammability Rating: UL94 V-0
Operating Temperature: -55°C ~ 125°C
Contact Length - Post: 0.125" (3.18mm)
Insulation Height: 0.165" (4.20mm)
Series: 310
Contact Finish Thickness - Mating: Flash
Contact Finish - Mating: Gold
Fastening Type: Push-Pull
Termination: Solder
Mounting Type: Through Hole
Row Spacing - Mating: --
Number of Rows: 1
Pitch - Mating: 0.100" (2.54mm)
Number of Positions Loaded: All
Number of Positions: 63
Style: Board to Board
Contact Type: Female Socket
Connector Type: Socket
Part Status: Active
Packaging: Bulk 
Description

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Rectangular Connectors - Headers, Receptacles, Female Sockets are components used for connecting two pieces of equipment or multiple components to create a complete and functioning electrical system. The 310-87-163-41-001101 application field and working principle may include the following:

Termination Style

The 310-87-163-41-001101 supports two types of termination styles for both conventional and guide-style receptacles. For the traditional Headers, Receptacles, and Female Sockets, the standard style of connection is through through-hole connections, with two rows of pins on each side. The guide-style headers, receptacles, and female sockets support two types of connections: IDC (Insulation Displacement Connector) and solder connections. Using the IDC style, a simple tool aligned with the pins of the female socket will ensure that the terminal blades are properly and completely connected.

Components

The components of the 310-87-163-41-001101 can include a metal housing (frame) and contacts, which provide insulation and contact to both the signal and power pins. The metal housing can also serve as the mounting points for the connector to the PCB. In addition, some versions of the connector may include an alignment key or dummy pins to prevent incorrect mating.

Power Rated Connectors

Power-Rated connectors are rated for different currents and voltages per pin. The amount of power delivered by the 310-87-163-41-001101 header, receptacle, and female socket depends on the number of contacts and the size of the contacts. Smaller contacts can handle lower currents and voltages, whereas larger contacts can handle higher currents and voltages. If the system requires more power, then higher power-rated connectors should be used.

Connection Types

The different components of the header, receptacle, and female socket can be connected in different ways. Through-hole connections are the most common connection type, but other connection types are also available. Connectors that are designed for low voltage applications may also include crimp-style connections or spring-loaded contacts. These connections are easier to connect but may not be able to handle as high of a power rating as through-hole connections.

Cable Connections

The 310-87-163-41-001101 header, receptacle, and female socket can be used with a variety of types of cables. The cable type will depend on the application and power requirements. Coaxial cables can be used for higher power transfer because of their ability to handle large currents. Twisted-pair cables are also commonly used since they provide better shielding and can reduce interference. Flat ribbon cables are also available, but these are not suitable for high-power applications.

Signal Integrity and EMI/RFI

For applications that require high-quality signal transmission, an appropriate shield must be used along with the 310-87-163-41-001101. The shielding material will depend on the application and the amount of interference or noise that needs to be reduced. Additionally, special EMI/RFI shields may be used to reduce the amount of electromagnetic interference and radio frequency interference.

Ruggedization

Depending on the application, the 310-87-163-41-001101 may need to be designed with additional wiring protection, additional shielding, and increased ruggedness. Special features such as strain reliefs, ruggedized shells, and integrated soldered lanyards are all features available on some connectors. These features help to reduce the risk of damage due to impacts or vibration, and they also help to reduce the risk of damage due to wiring faults.

Reliability, Testability, and Performance

In addition to the mechanical design features mentioned above, the 310-87-163-41-001101 should also be designed with extra consideration given to the electrical and systematic performance of the connector. For applications that require a reliable and high-performing connection, special features such as test points, I/O performance monitoring, and surge suppressors may be added. These features help to ensure that the connection is robust and reliable even in the harshest environments.

Conclusion

The 310-87-163-41-001101 application field and working principle is an important aspect of the overall design of a connector. Connectors must have the proper termination style, components, power ratings, connection types, and cable connections for reliable and safe performance. Additionally, the connector must be designed to have a high signal integrity and EMI/RFI protection, and also be designed for rugged and reliable performance. By taking all these factors into consideration, the connector should provide the required performance in the application.

The specific data is subject to PDF, and the above content is for reference

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