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Images
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Mfr.Part #
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In Stock
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Manufacturer
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Description
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Package
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CA0161B22613012 | 4567 | Amphenol Tuchel Industrial | CBL 7POS FMALE TO WIRE 42.7' | Bulk |
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CA 091 70 0007 | 4243 | Amphenol Tuchel Industrial | CBL 8POS MALE TO WIRE 10' | Bulk |
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108-0058 | 942 | Everki | CBL 4POS FMALE TO FMALE 311.7' | Retail Package |
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CA 091 70 0010 | 7719 | Amphenol Tuchel Industrial | CBL 5POS MALE TO WIRE 10' | Bulk |
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SD-PME02B-FFTBR-C7A-6FT | 5795 | Adam Tech | CBL 2POS FMALE TO WIRE 6' | Bag |
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CA 091 71 0011 | 7461 | Amphenol Tuchel Industrial | CBL 6POS FMALE TO WIRE 10' | Bulk |
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CA 016 71 0001 | 9991 | Amphenol Tuchel Industrial | CBL 4POS FMALE TO WIRE 10' | Bulk |
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CA 091 71 0001 | 6783 | Amphenol Tuchel Industrial | CBL 2POS FMALE TO WIRE 10' | Bulk |
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CA 091 70 0005 | 2156 | Amphenol Tuchel Industrial | CBL 6POS MALE TO WIRE 10' | Bulk |
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CA 091 70 0003 | 516 | Amphenol Tuchel Industrial | CBL 4POS MALE TO WIRE 10' | Bulk |
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CA 091 71 0006 | 846 | Amphenol Tuchel Industrial | CBL 7POS FMALE TO WIRE 10' | Bulk |
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CA 091 70 0009 | 1256 | Amphenol Tuchel Industrial | CBL 4POS MALE TO WIRE 10' | Bulk |
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CA 091 71 0003 | 7461 | Amphenol Tuchel Industrial | CBL 4POS FMALE TO WIRE 10' | Bulk |
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IPM12-A5-FRAMRA-3.0 | 7586 | Sure-Seal | CBL 5POS MALE TO FMALE 9.84' | Box |
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CA 091 70 0008 | 5258 | Amphenol Tuchel Industrial | CBL 3POS MALE TO WIRE 10' | Bulk |
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IPM12-A4-FRAM-3.0 | 9830 | Sure-Seal | CBL 4POS MALE TO FMALE 9.84' | Box |
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CA 091 71 0002 | 2177 | Amphenol Tuchel Industrial | CBL 3POS FMALE TO WIRE 10' | Bulk |
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IPM12-A8-FRAM-3.0 | 5397 | Sure-Seal | CBL 8POS MALE TO FMALE 9.84' | Box |
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CA 091 70 0012 | 5067 | Amphenol Tuchel Industrial | CBL 8POS MALE TO WIRE 10' | Bulk |
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IPM-M5A4F-FL | 3623 | Sure-Seal | CBL 4POS FMALE TO WIRE 1.64' | Box |
Circular Cable Assemblies
Circular Cable Assemblies are a special type of cable assembly in the field of electronic interconnection, designed for harsh environments and complex scenarios.
1. What are the Structural Design of Circular Cable Assemblies?
The circular connector shell supports high-density contact arrangement, especially in miniaturized design, it can still maintain the stability of multi-pin configuration.
The connector gender (male/female) is decoupled from the shell gender, with high design flexibility to meet customized needs.
The cable diameter covers 0-26 AWG, which is suitable for different current and signal transmission needs.
2. What are Circular Cable Assemblies Used for?
Military and Shipbuilding: Certified by MIL standards, resistant to extreme temperatures, vibration, humidity, and electromagnetic interference, suitable for shipborne equipment, field communications, and other scenarios.
Industrial Equipment: Used for signal and power transmission with high-reliability requirements such as factory automation and robot control.
Aerospace: Meet the needs of lightweight, radiation resistance, and high sealing.
3. What are the Advantages of Circular Cable Assemblies?
Withstand Voltage and Durability: Package size and material selection directly affect to withstand voltage levels, and large packages can support higher voltage environments.
Signal Integrity: Reduce signal attenuation and crosstalk through shielding design and high-quality insulation materials (such as nylon and metal oxide film).
Fast Deployment: Modular design supports plug-and-play and reduces the complexity of on-site installation.
4. Typical Manufacturers of Circular Cable Assemblies
Electro Standards: Provides MIL standard circular custom cable assemblies that support multi-pin arrangement and miniaturized design.
Molex: Produces high-density interconnect solutions such as Mini-LC fiber optic assemblies to meet the needs of miniaturized equipment.
5. How to Choose Circular Cable Assemblies?
Choose products that meet IP ratings or MIL certifications based on the working environment (temperature, humidity, vibration).
In high-density scenarios, parameters such as pin spacing and contact resistance are prioritized to ensure long-term stability.
Such components play a key role in complex system integration and require balancing performance, cost, and reliability based on specific scenarios.