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 | edison power connector |
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) | 4 |
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 edison power connector quality system
A power connector quality system is a set of processes and procedures that are used to ensure the quality of power connectors. This system includes the design, manufacture, testing, and maintenance of power connectors. It also includes the inspection and certification of power connectors to ensure they meet the required standards. The system also includes the tracking and monitoring of power connector performance over time. The system should also include the development of corrective action plans to address any issues that arise.
2.Are there any options for waterproof or dustproof edison power connectors?
As one of the top edison power connector manufacturers in China, we take this very seriously. Yes, there are several options for waterproof and dustproof power connectors. These include IP67 rated connectors, which are designed to be waterproof and dustproof, as well as waterproof and dustproof cable glands, which are designed to protect cables from water and dust. Additionally, there are several types of waterproof and dustproof junction boxes, which are designed to protect electrical connections from water and dust.
3.About edison power connector origin
The origin of power connectors can be traced back to the early days of electricity. In the late 19th century, the first electrical connectors were developed to connect electrical devices to power sources. These connectors were made of metal and were designed to be inserted into a socket. Over time, the design of power connectors has evolved to include a variety of shapes and sizes to accommodate different types of electrical devices. Today, power connectors are used in a wide range of applications, from consumer electronics to industrial machinery.
4.What are the main safety features of a edison power connector?
We focus on innovation and continuous improvement to maintain a competitive advantage. 1. Insulation: Power connectors should be insulated to prevent electric shock and short circuits. 2. Grounding: Power connectors should be grounded to protect against electric shock and reduce the risk of fire. 3. Overload Protection: Power connectors should be designed to prevent overloads and protect against damage to the device. 4. Overvoltage Protection: Power connectors should be designed to prevent overvoltage and protect against damage to the device. 5. Short Circuit Protection: Power connectors should be designed to prevent short circuits and protect against damage to the device. 6. Surge Protection: Power connectors should be designed to protect against power surges and protect against damage to the device.
5.How do you choose the right edison power connector for a specific application?
We have established a good reputation and reliable partnerships within the edison power connector industry. 1. Consider the current and voltage requirements of the application. 2. Determine the type of power connector that is compatible with the application. 3. Consider the environmental conditions in which the power connector will be used. 4. Consider the size and shape of the power connector. 5. Consider the cost of the power connector. 6. Consider the availability of the power connector. 7. Consider the safety features of the power connector.
6.Does the size and configuration of a edison power connector affect its performance?
We are a professional edison power connector 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.
7.About edison power connector 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.
8.Is there a risk of electrical shock when handling edison power connectors?
We focus on teamwork and communication to achieve common goals, We attach great importance to this detail. Yes, there is a risk of electrical shock when handling power connectors. It is important to make sure that all power connectors are properly insulated and that all safety precautions are taken when handling them.
9.Can edison power connectors be used in high vibration environments, such as in airplanes or trains?
Yes, power connectors can be used in high vibration environments, such as in airplanes or trains. However, it is important to use connectors that are designed to withstand the vibration and shock of the environment. Specialized connectors, such as those with locking mechanisms, are available to ensure a secure connection in these environments.
10.How does the operating temperature range affect the performance of a edison power connector?
The operating temperature range of a power connector affects its performance in several ways. Higher temperatures can cause the connector to become brittle and more prone to cracking or breaking. Higher temperatures can also cause the connector to expand, which can lead to poor contact between the connector and the mating part. Lower temperatures can cause the connector to become stiff and difficult to insert or remove. Additionally, lower temperatures can cause the connector to become brittle and more prone to cracking or breaking.
11.What is the maximum number of pins available for edison power connectors?
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.
12.Can edison power connectors be used for both AC and DC power?
We have established a good reputation and reliable partnerships within the edison power connector industry. No, power connectors are designed to be used for either AC or DC power, but not both.
13.How do you ensure proper insulation and protection against electrical hazards when using a edison power connector?
1. Use the correct type of power connector for the application. 2. Inspect the power connector for any signs of damage before use. 3. Ensure that the power connector is properly rated for the voltage and current of the application. 4. Use a surge protector or other protective device to protect against electrical surges. 5. Use a ground fault circuit interrupter (GFCI) to protect against electrical shock. 6. Use a power cord with a strain relief to prevent the power connector from becoming loose. 7. Use a power connector with a built-in fuse or circuit breaker to protect against overloads. 8. Make sure the power connector is properly secured to the device or outlet. 9. Use a power connector with a built-in insulation sleeve to protect against electrical hazards.
Tag:4 pin power connector,8-pin power connector,24 pin atx main power connector