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KSD-TX-30LW-G

KSD-TX-30LW-G

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产品名称:航模连接器
电气特性:
额定电流:15A
信号针:1A
耐电压:500V DC
接触电阻≤1.2mΩ
绝缘电阻≥2000MΩ2
瞬时电流::&A1min<80C 30A
温升:15A 4h<60C
爬电距离:1.5mm
产品符合:ROHS
品牌:科斯达开关KSDKG
产地:中国东莞


在航模(航空模型)中,连接器是至关重要的组成部分,它们负责将电源、信号和数据在各个组件之间传递。以下是使用航模连接器时的一些注意事项及应用场景:
注意事项
1.连接器类型选择:
选择合适的连接器类型(如JR、XT60、Deans等),确保其适用于你的航模系统(电机、电调、接收机等)。

2.接线稳固:
确保连接器插头和插座稳固连接,避免因震动或移动导致接触不良。

3.绝缘处理:
使用热缩管或绝缘胶带对连接处进行处理,以防止短路或信号干扰。

4.避免拉扯:
不要用力拉扯连接线,保持连接部分松弛,防止损坏连接器或电线。

5.定期检查:
定期检查连接器的接触情况,清理灰尘和氧化物,确保良好接触。

6.适当匹配电流:
确保连接器能够承受流经的电流,避免过载导致连接器过热或损坏。

7.连接方向:
注意连接器的插入方向,避免反向插入造成损坏。

8.防水处理(如果适用):
在水上航模等环境中使用时,考虑到防水措施,如使用防水连接器或涂抹防水胶。

应用场景
1.电池连接:
航模的电池通常使用特定类型的连接器(如XT60、Deans等)与电调连接,确保电源供给稳定。

2.信号传输:
接收机与电调、伺服之间的连接需要使用合适的信号连接器,确保控制信号的准确传递。

3.飞控系统:
飞行控制器与其他传感器(如GPS、陀螺仪)的连接使用专用连接器,确保数据传输顺畅。

4.结构件间连接:
在分体设计的航模中,如可拆卸的机翼或尾翼部分,常用连接器进行结构件之间的电气连接。

5.灯光系统:
航模上的LED灯光系统需要连接器来连接电源和控制信号,以实现不同的灯光效果。
通过遵循以上注意事项并在适当的应用场景中使用连接器,可以有效提高航模的性能和可靠性。


航模连接器的特点主要包括以下几点:
1.轻量化:航模对重量有严格要求,连接器通常采用轻质材料,如塑料或铝合金,以减少整体重量。

2.高强度和耐用性:航模在飞行过程中面临较大的机械应力,连接器需具备足够的强度,能够承受震动和冲击。

3.抗腐蚀性:由于航模在不同环境条件下使用,连接器多采用耐腐蚀材料或表面处理,以抵御湿气和化学物质的侵蚀。

4.良好的导电性:连接器的金属触点通常采用高导电性材料(如铜镀金),确保电流传输稳定,减少信号损耗。

5.可靠的连接性:连接器设计需确保插拔简单,同时能稳固连接,防止在高强度飞行中发生松动。

6.防水防尘功能:部分航模连接器具备防水防尘设计,以增加在恶劣环境下的适用性。

7.多种类型和规格:根据不同的需求,航模连接器有多种形式,如插头、插座、束线接口等,适用于不同的电气连接需求。



Product Name: Model Aircraft Connector
Electrical characteristics:
Rated current: 15A
Signal needle: 1A
Voltage endurance: 500V DC
Contact resistance ≤ 1.2m Ω
Insulation resistance ≥ 2000M Ω 2
Instantaneous current:&A1min<80C 30A
Temperature rise: 15A 4h<60C
Creepage distance: 1.5mm
Product compliance: ROHS
Brand: Coaster Switch KSDKG
Origin: Dongguan, China


In aviation models, connectors are crucial components that are responsible for transmitting power, signals, and data between various components. Here are some precautions and application scenarios when using model airplane connectors:
matters needing attention
1. Selection of connector type:
Choose the appropriate connector type (such as JR, XT60, Deans, etc.) to ensure it is suitable for your model aircraft system (motor, ESC, receiver, etc.).

2. Stable wiring:
Ensure that the connector plug and socket are securely connected to avoid poor contact caused by vibration or movement.

3. Insulation treatment:
Use heat shrink tubing or insulating tape to treat the connection to prevent short circuits or signal interference.

4. Avoid pulling:
Do not pull the connecting wire forcefully, keep the connection part loose, and prevent damage to the connector or wire.

5. Regular inspection:
Regularly check the contact condition of the connector, clean dust and oxides, and ensure good contact.

6. Properly match current:
Ensure that the connector can withstand the current flowing through it and avoid overloading that may cause overheating or damage to the connector.

7. Connection direction:
Pay attention to the insertion direction of the connector to avoid damage caused by reverse insertion.

8. Waterproof treatment (if applicable):
When used in environments such as water models, consider waterproof measures such as using waterproof connectors or applying waterproof glue.

Application scenarios
1. Battery connection:
The batteries of model aircraft are usually connected to the ESC using specific types of connectors (such as XT60, Deans, etc.) to ensure stable power supply.

2. Signal transmission:
The connection between the receiver, ESC, and servo requires the use of appropriate signal connectors to ensure accurate transmission of control signals.

3. Flight Control System:
The connection between the flight controller and other sensors (such as GPS and gyroscope) uses dedicated connectors to ensure smooth data transmission.

4. Connections between structural components:
In modular designs, such as detachable wing or tail sections, connectors are commonly used for electrical connections between structural components.

5. Lighting system:
The LED lighting system on the model airplane requires connectors to connect power and control signals to achieve different lighting effects.
By following the above precautions and using connectors in appropriate application scenarios, the performance and reliability of model aircraft can be effectively improved.


The characteristics of model airplane connectors mainly include the following:
1. Lightweight: Model aircraft have strict requirements for weight, and connectors are usually made of lightweight materials such as plastic or aluminum alloy to reduce overall weight.

2. High strength and durability: Model aircraft face significant mechanical stress during flight, and connectors need to have sufficient strength to withstand vibrations and impacts.

3. Corrosion resistance: Due to the use of model aircraft in different environmental conditions, connectors are often made of corrosion-resistant materials or surface treatments to resist the erosion of moisture and chemicals.

4. Good conductivity: The metal contacts of connectors are usually made of highly conductive materials (such as copper gold plating) to ensure stable current transmission and reduce signal loss.

5. Reliable connectivity: The connector design should ensure easy insertion and removal, while also ensuring a stable connection to prevent loosening during high-intensity flight.

6. Waterproof and dustproof function: Some model airplane connectors have waterproof and dustproof designs to increase their applicability in harsh environments.

7. Multiple types and specifications: According to different needs, model airplane connectors come in various forms, such as plugs, sockets, and cable connectors, which are suitable for different electrical connection requirements.
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