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 | waterproof dc 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) | 7 |
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 waterproof dc 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.
2.About waterproof dc power connector production capacity
The production capacity of power connectors depends on the type of connector and the manufacturer. Generally, the production capacity of power connectors is determined by the number of machines and the number of workers available. The production capacity of a single machine is usually limited to a few thousand pieces per day. However, with the help of automation, the production capacity of a single machine can be increased to several hundred thousand pieces per day.
3.What kind of material is commonly used for making waterproof dc power connectors?
We focus on innovation and continuous improvement to maintain a competitive advantage. Power connectors are typically made from metals such as copper, aluminum, and brass, as well as plastics such as nylon and polycarbonate.
4.Can a waterproof dc power connector handle high temperature and vibration?
Our mission is to provide customers with the best solutions for waterproof dc power connector. Yes, power connectors are designed to handle high temperatures and vibrations. They are typically made of materials such as stainless steel, aluminum, and brass, which are all resistant to high temperatures and vibrations.
5.How does impedance affect the performance of a waterproof dc power connector?
As one of the waterproof dc power connector market leaders, we are known for innovation and reliability. Impedance affects the performance of a power connector by limiting the amount of current that can flow through the connector. If the impedance is too high, the connector will not be able to handle the amount of current needed to power the device. If the impedance is too low, the connector will be overloaded and may cause damage to the device.
6.What is the difference between a straight and a right-angle waterproof dc power connector?
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.
7.What are the main safety features of a waterproof dc 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.
8.What is a waterproof dc power connector?
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.
9.Do waterproof dc power connectors have a maximum number of mating cycles?
As one of the top waterproof dc power connector manufacturers in China, we take this very seriously. Yes, power connectors typically have a maximum number of mating cycles. This number can vary depending on the type of connector and the manufacturer, but is typically between 500 and 1000 cycles.
10.About waterproof dc power connector raw material procurement system
The Power Connector Raw Material Procurement System is a software solution designed to streamline the procurement process for power connector raw materials. It provides a centralized platform for suppliers to submit bids, and for buyers to compare and select the best option. The system also includes features such as automated order tracking, inventory management, and supplier performance tracking. This system helps to reduce costs, improve efficiency, and ensure that the best quality materials are purchased.
11.How do you ensure proper polarity when using a waterproof dc power connector?
We continuously upgrade our skills and knowledge to adapt to changing waterproof dc power connector market needs. 1. Check the polarity markings on the connector and the power source. 2. Make sure the positive and negative terminals are connected correctly. 3. Use the correct type of connector for the power source. 4. Use a multimeter to test the polarity of the connection. 5. Use a polarized connector to ensure proper polarity.
12.Are there any environmentally-friendly options for waterproof dc power connectors?
Our company has many years of waterproof dc power connector experience and expertise. Yes, there are several environmentally-friendly options for power connectors. These include connectors made from recycled materials, connectors with low-impact manufacturing processes, and connectors with low-emission designs. Additionally, some connectors are designed to be more energy efficient, reducing the amount of energy used during operation.
13.Are there any specific considerations when using waterproof dc power connectors for industrial applications?
As one of the waterproof dc power connector market leaders, we are known for innovation and reliability. Yes, there are several considerations when using power connectors for industrial applications. These include: 1. Ensuring the connectors are rated for the voltage and current requirements of the application. 2. Ensuring the connectors are rated for the environmental conditions of the application. 3. Ensuring the connectors are compatible with the mating connectors used in the application. 4. Ensuring the connectors are designed to meet the safety requirements of the application. 5. Ensuring the connectors are designed to meet the durability requirements of the application. 6. Ensuring the connectors are designed to meet the EMI/RFI requirements of the application.
14.How do you prevent the pins on a waterproof dc power connector from getting damaged?
We focus on our customers' needs and strive to meet their expectations, so we take this very seriously. 1. Inspect the pins for any damage before connecting the power connector. 2. Make sure the pins are aligned correctly before connecting the power connector. 3. Use a connector with a locking mechanism to ensure the pins stay in place. 4. Use a connector with a dust cover to protect the pins from dirt and debris. 5. Use a connector with a strain relief to reduce the stress on the pins. 6. Use a connector with a flexible cable to reduce the strain on the pins. 7. Use a connector with a protective sleeve to reduce the risk of pin damage. 8. Use a connector with a protective cap to reduce the risk of pin damage. 9. Use a connector with a protective shield to reduce the risk of pin damage. 10. Handle the connector with care to avoid any accidental damage to the pins.
15.Can waterproof dc power connectors be used for high-power applications?
We focus on teamwork and communication to achieve common goals, We attach great importance to this detail. Yes, power connectors can be used for high-power applications. However, it is important to select the right type of connector for the application, as some connectors are not designed to handle high power levels.
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