Allicdata Part #: | 16210-64800001000-ND |
Manufacturer Part#: |
162-10-648-00-001000 |
Price: | $ 18.45 |
Product Category: | Connectors, Interconnects |
Manufacturer: | Mill-Max Manufacturing Corp. |
Short Description: | HEADER OPEN SLOT 2LVL.600 48POS |
More Detail: | 48 Position DIP, DIL - Header Connector Slotted Go... |
DataSheet: | 162-10-648-00-001000 Datasheet/PDF |
Quantity: | 1000 |
56 +: | $ 16.60750 |
Series: | 162 |
Packaging: | Tube |
Part Status: | Active |
Connector Type: | DIP, DIL - Header |
Contact Type: | Slotted |
Number of Positions: | 48 |
Pitch: | 0.100" (2.54mm) |
Number of Rows: | 2 |
Row Spacing: | 0.600" (15.24mm) |
Mounting Type: | Through Hole |
Termination: | Wire Wrap |
Features: | -- |
Contact Finish: | Gold |
Contact Finish Thickness: | 10.0µin (0.25µm) |
Color: | Black |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
162-10-648-00-001000 Application Field and Working Principle
Introduction
A 162-10-648-00-001000 is a special type of rectangular connector, which is also known as headers, specialty pin headers or just headers. This type of rectangular connector is specially designed to be used in electrical and electronic applications. It is often used to connect circuit boards, printed circuit boards, cable harnesses, and systems.
Functionality
The 162-10-648-00-001000 is a type of a rectangular connector that can be used for multiple swit ching applications. To define these applications, one can look at the specific features of this type of connec tor. The 162-10-648-00-001000 is typically a two-pole male header that has been designed to work as part of an active circuit board assembly or a system. It has an area where mating terminals, such as a crimp or socket, can be attached. This makes the 162-10-648-00-001000 very useful in terms of providing electrical and/or electronic interconnections between the mating ends.
Applications
One of the most common applications of the 162-10-648-00-001000 is in the field of medical equipment. This type of rectangular connector is typically used in medical equipment to provide electrical and/or electronic connections between various components of the device. The main advantage of this type of connector is that it is very reliable and resistant to failure. It also has a high level of electrical insulation to protect against electric shock. The 162-10-648-00-001000 is also often used in electrical and mechanical devices such as electronic circuit testers, electrical circuit testers, and cable testers.
Working Principle
The 162-10-648-00-001000 is designed to provide electrical and/or electronic connections between the contact pins, sockets, and terminals. These connections are often referred to as “points of connection”, “switch contacts”, or just “contact points”. When a current is applied to the circuit, this causes a voltage drop across the contact points of the connector. This voltage drop causes heat to be generated, which will cause the voltage to increase. This increase in voltage will then cause the current to move from one contact point to another.
In order for the 162-10-648-00-001000 to operate properly, it must also have a certain amount of current flow through it in order to create the voltage drop. However, if the current is too high, then the voltage drop will also be too high and this can cause damage to the components that are connected to the connector. This is why it is important to ensure that the correct current is being used when using this type of connector.
Conclusion
In conclusion, the 162-10-648-00-001000 is a special type of rectangular connector which is specifically designed to be used in electrical and electronic applications. It is characterized by its two-pole male header which allows for the attachment of mating terminals for making electrical and electronic connections. This type of connector is often used in medical equipment, electric circuit testers, and cable testers. Finally, the 162-10-648-00-001000 works by allowing a current to flow through it and by generating a voltage drop across its contact points.
The specific data is subject to PDF, and the above content is for reference