feature: Input voltage: maximum 220V, minimum 110V Output voltage: generally 5V or 12V Input current: Varies according to output voltage and load power Output power: depends on load capacity and output voltage Working frequency: generally 50Hz or 60Hz Advantage: 1. Versatility: Combination AC-DC and split power options are available, and the module can be configured to fit most designs 2. Convenient and flexible: easy to maintain and replace. 3. Safe and reliable: waterproof, dustproof and durable, 4. Quick connection: plug-in connection, can be quickly connected and disconnected, convenient for daily use 5. Multiple interface options: such as circular connectors, square connectors, threaded connectors, etc.
Specifications
Component Type | power connector for graphics card |
Gender | Header/Receptacle |
Header Pin Pattern (Left to Right) | Power/Signal |
Number of Contacts (Power) | 4 |
Number of Rows (Power) | 1 |
Number of Contacts (Signal) | $keyworrd{12} |
Number of Rows (Signal) | 5 |
Termination Style | Solder To Board |
Orientation | Right Angle |
Pitch (Power) | 6.35mm (0.250in) |
Pitch Signal) | 2.54mm (0.100in) |
Current Rating | $keyworrd{13}A max. for One Powered Contact |
Resistance (Power Contact) | Maximum for mated pair is 2mΩ |
Resistance (Signal Contact) | Maximum for mated pair is 20mΩ |
Dielectric Withstanding Voltage | $keyworrd{14}V DC for power ; $keyworrd{15}V DC for signal contacts |
Durability (Mating cycles) | $keyworrd{16} Mating Cycles |
Operating Temperature Range | -$keyworrd{13}°C to +125°C |
Material Housing | PPA, glass fiber reinforce, UL94V-0 |
Plating Contact area | 0.76μm (29.921μin) Gold |
ail Plating (Signal) | 1.98μm (78μin) Tin |
Tail Plating (Power) | 1.98μm (78μin) Tin |
Guide Feature | Guide Pin Pocket |
Packaging | Cartons or Tray |
1.About power connector for graphics card MOQ
The MOQ for power connectors will depend on the type of connector and the supplier. Generally, the MOQ for power connectors is between 500 and 1000 pieces. However, some suppliers may offer lower MOQs depending on the type of connector and the quantity required.
2.About the scale of power connector for graphics card factory
The scale of a power connector factory depends on the size of the market it serves and the type of products it produces. For example, a factory that produces high-end power connectors for the aerospace industry may require a larger scale of production than a factory that produces basic power connectors for consumer electronics. The size of the factory may also depend on the number of employees and the amount of equipment and machinery needed to produce the connectors.
3.Are there any special considerations when using power connector for graphics cards in high altitude environments?
We are a professional power connector for graphics card company dedicated to providing high quality products and services. Yes, there are several special considerations when using power connectors in high altitude environments. These include: using connectors with a higher current rating, using connectors with a higher voltage rating, using connectors with a higher temperature rating, using connectors with a higher insulation resistance rating, and using connectors with a higher dielectric strength rating. Additionally, it is important to ensure that the connectors are properly sealed to prevent moisture from entering the connection.
4.What is the typical voltage and current rating for power connector for graphics cards?
power connector for graphics card is not a product only, but also can help you comes to money-making. The typical voltage and current rating for power connectors depends on the type of connector being used. For example, a standard IEC 60320 C13 connector is rated for 10A at 250V.
5.What is the expected lifespan of a power connector for graphics card?
We continuously upgrade our skills and knowledge to adapt to changing power connector for graphics card market needs. The expected lifespan of a power connector depends on the type of connector and the environment in which it is used. Generally, power connectors are designed to last for many years, but in some cases, they may need to be replaced after a few years of use.
6.What is the maximum number of pins available for power connector for graphics cards?
We have established long-term and stable partnerships with our suppliers, so we have great advantages in price and cost and quality assurance. The maximum number of pins available for power connectors depends on the type of connector being used. For example, the ATX power connector used in most desktop computers has 24 pins, while the Molex connector used in many older computers has 4 pins.
7.How important is proper grounding for power connector for graphics cards?
As one of the top power connector for graphics card manufacturers in China, we take this very seriously. Proper grounding for power connectors is extremely important. It helps to protect against electric shock, reduce interference, and ensure that the electrical system is functioning properly. Without proper grounding, the power connectors can become damaged or cause a fire hazard.
8.What is the difference between a straight and a right-angle power connector for graphics card?
We maintain a certain amount of R&D investment every year and continuously improve operational efficiency to provide better services to our cooperative customers. A straight power connector is a type of connector that has two straight sides that are parallel to each other. This type of connector is typically used to connect two devices that are close together. A right-angle power connector is a type of connector that has two sides that are perpendicular to each other. This type of connector is typically used to connect two devices that are farther apart.
9.How do you select the appropriate locking mechanism for a power connector for graphics card?
1. Consider the application: The type of locking mechanism you choose should be based on the application and the environment in which the power connector will be used. For example, if the connector will be used in a harsh environment, you may want to choose a locking mechanism that is more robust and resistant to corrosion. 2. Consider the size: The size of the power connector should also be taken into account when selecting a locking mechanism. If the connector is too small, then a locking mechanism that is too large may not fit. 3. Consider the cost: The cost of the locking mechanism should also be taken into account when selecting the appropriate locking mechanism for a power connector. If the cost is too high, then it may not be feasible to use the locking mechanism. 4. Consider the safety: The safety of the power connector should also be taken into account when selecting the appropriate locking mechanism. If the locking mechanism is not secure enough, then it could lead to accidental disconnection of the power connector.
10.Does the size and configuration of a power connector for graphics card affect its performance?
We are a professional power connector for graphics card company dedicated to providing high quality products and services. Yes, the size and configuration of a power connector can affect its performance. The size of the connector determines the amount of current it can handle, and the configuration of the connector affects the amount of power it can deliver. For example, a larger connector can handle more current than a smaller one, and a connector with more pins can deliver more power than one with fewer pins.
11.What types of power connector for graphics cards are available in the market?
Our power connector for graphics card products undergo strict quality control to ensure customer satisfaction. 1. Molex Connectors 2. ATX Connectors 3. SATA Connectors 4. PCIe Connectors 5. 4-Pin Connectors 6. 6-Pin Connectors 7. 8-Pin Connectors 8. 10-Pin Connectors 9. 12-Pin Connectors 10. 24-Pin Connectors
12.Is there a specific sequence for connecting and disconnecting a power connector for graphics card?
As one of the power connector for graphics card market leaders, we are known for innovation and reliability. Yes, there is a specific sequence for connecting and disconnecting a power connector. The sequence is as follows: 1. Disconnect the power source from the device. 2. Disconnect the power connector from the device. 3. Inspect the power connector for any damage or corrosion. 4. Connect the power connector to the device. 5. Reconnect the power source to the device. 6. Test the device to ensure proper operation.
13.What is a power connector for graphics card?
We focus on innovation and continuous improvement to maintain a competitive advantage. A power connector is a type of electrical connector used to connect a power supply to a device. It is typically used to provide power to electronic devices such as computers, printers, and other electronic equipment. Power connectors come in a variety of shapes and sizes, and are designed to fit specific power requirements.
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