| Rated voltage/ operating voltage max. | 60 V |
| Current | 4 A |
| Alignment plug connection Page 1 | straight |
Industrial cables, assembled
2,461 - 2,480
| Rated voltage/ operating voltage max. | 60 V |
| Current | 4 A |
| Alignment plug connection Page 1 | straight |
| Rated voltage/ operating voltage max. | 60 V |
| Current | 4 A |
| Alignment plug connection Page 1 | straight |
| Rated voltage/ operating voltage max. | 60 V |
| Current | 4 A |
| Alignment plug connection Page 1 | straight |
| Rated voltage/ operating voltage max. | 60 V |
| Current | 4 A |
| Alignment plug connection Page 1 | straight |
| Rated voltage/ operating voltage max. | 60 V |
| Current | 4 A |
| Alignment plug connection Page 1 | straight |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 60 V |
| Current | 4 A |
| Cable cross section | 0.34 mm² |
| Rated voltage/ operating voltage max. | 30 V |
| Current | 4 A |
Industrial cable, assembled: The optimal solution for reliable connections
Industrial cables have become an indispensable part of modern production processes. They serve as connecting elements for the transmission of signals, data and energy in industry. To ensure reliable and interference-free data transmission, the assembly of industrial cables is a crucial step.
Assembled industrial cables are characterized by their high quality and flexibility. They are individually adapted to the requirements of the respective application area and thus offer optimum transmission properties. Professional fabrication ensures a robust and reliable connection that can withstand the demanding conditions in the industry.
Various components are taken into account when assembling industrial cables. These include plugs, sockets, protective sheaths and cable lugs. These components are mounted precisely on the cable and ensure a secure connection. In addition, different shielding and insulation can be used to further optimize the transmission properties. Interference can be minimized by individually adapting the packaging to the specific requirements of the application area.
A major advantage of assembled industrial cables is their flexibility. By choosing the right components and assembling them to fit exactly, they can be adapted to almost any application. This allows for easy installation and saves time and money. In addition, assembled industrial cables can be quickly replaced or extended as needed without the need for complete rewiring.
The use of ready-made industrial cables also offers the advantage of high transmission reliability. Professional assembly ensures a reliable connection that works even under difficult conditions. This is especially important in environments with vibrations, temperature fluctuations or humidity. Assembled industrial cables are therefore the ideal solution for applications in automation technology, robotics or mechanical and plant engineering.
In summary, assembled industrial cables are the optimal solution for reliable connections in industry. Due to the individual adaptation to the specific requirements, they offer high transmission reliability and flexibility. Professional fabrication ensures a robust connection that can withstand the demanding conditions in the industry. With assembled industrial cables, companies can ensure efficient and reliable production processes and thus secure their success in the long term.
Industrial cables have become an indispensable part of modern production processes. They serve as connecting elements for the transmission of signals, data and energy in industry. To ensure reliable and interference-free data transmission, the assembly of industrial cables is a crucial step.
Assembled industrial cables are characterized by their high quality and flexibility. They are individually adapted to the requirements of the respective application area and thus offer optimum transmission properties. Professional fabrication ensures a robust and reliable connection that can withstand the demanding conditions in the industry.
Various components are taken into account when assembling industrial cables. These include plugs, sockets, protective sheaths and cable lugs. These components are mounted precisely on the cable and ensure a secure connection. In addition, different shielding and insulation can be used to further optimize the transmission properties. Interference can be minimized by individually adapting the packaging to the specific requirements of the application area.
A major advantage of assembled industrial cables is their flexibility. By choosing the right components and assembling them to fit exactly, they can be adapted to almost any application. This allows for easy installation and saves time and money. In addition, assembled industrial cables can be quickly replaced or extended as needed without the need for complete rewiring.
The use of ready-made industrial cables also offers the advantage of high transmission reliability. Professional assembly ensures a reliable connection that works even under difficult conditions. This is especially important in environments with vibrations, temperature fluctuations or humidity. Assembled industrial cables are therefore the ideal solution for applications in automation technology, robotics or mechanical and plant engineering.
In summary, assembled industrial cables are the optimal solution for reliable connections in industry. Due to the individual adaptation to the specific requirements, they offer high transmission reliability and flexibility. Professional fabrication ensures a robust connection that can withstand the demanding conditions in the industry. With assembled industrial cables, companies can ensure efficient and reliable production processes and thus secure their success in the long term.
What are pre-assembled industrial cables and what are they used for?
Pre-assembled industrial cables are specially manufactured cables that are pre-assembled for use in industrial applications. This means that they are already fitted with plugs or connections and are supplied ready to use.
These cables are used in various industrial sectors, such as automation technology, the manufacturing industry, power generation and distribution, measurement technology and many other applications. They are used to establish electrical connections between different devices, machines or components and to ensure reliable transmission of signals or data.
Pre-assembled industrial cables are available in different versions, depending on the specific requirements of the application. For example, they can include Ethernet cables for data transmission, sensor and actuator cables for connecting sensors and actuators, bus and fieldbus system cables for communication in industrial networks or high-voltage cables for power transmission.
These cables are used in various industrial sectors, such as automation technology, the manufacturing industry, power generation and distribution, measurement technology and many other applications. They are used to establish electrical connections between different devices, machines or components and to ensure reliable transmission of signals or data.
Pre-assembled industrial cables are available in different versions, depending on the specific requirements of the application. For example, they can include Ethernet cables for data transmission, sensor and actuator cables for connecting sensors and actuators, bus and fieldbus system cables for communication in industrial networks or high-voltage cables for power transmission.
What different types of prefabricated industrial cables are there?
There are different types of prefabricated industrial cables, which can have different attributes depending on the application and requirements. Here are some examples:
1. Control and data lines: These cables are used for the transmission of control and signal currents as well as for data transmission in industrial systems. They can have different conductor and shielding types to ensure reliable signal transmission.
2. Power cable: These cables are used for the transmission of electricity in industrial plants. They can have different cross-sections and insulation materials in order to meet the current transmission requirements.
3. Sensor and actuator cables: These cables are used to connect sensors and actuators in industrial systems. They can have special attributes such as high flexibility and good EMC compatibility.
4. Ethernet cable: These cables are used for data transmission in industrial networks. They can have different categories such as Cat5e, Cat6 or Cat7 to enable different transmission speeds and ranges.
5. Cable harnesses: Cable harnesses are customized cable constructions that consist of several preassembled cables and are used for complex industrial applications. They can contain different cable types and lengths to create an optimum connection.
This list is not exhaustive and there are many other types of prefabricated industrial cables that have been developed for specific requirements. It is important to select the right type of cable for the application to ensure a secure and reliable connection.
1. Control and data lines: These cables are used for the transmission of control and signal currents as well as for data transmission in industrial systems. They can have different conductor and shielding types to ensure reliable signal transmission.
2. Power cable: These cables are used for the transmission of electricity in industrial plants. They can have different cross-sections and insulation materials in order to meet the current transmission requirements.
3. Sensor and actuator cables: These cables are used to connect sensors and actuators in industrial systems. They can have special attributes such as high flexibility and good EMC compatibility.
4. Ethernet cable: These cables are used for data transmission in industrial networks. They can have different categories such as Cat5e, Cat6 or Cat7 to enable different transmission speeds and ranges.
5. Cable harnesses: Cable harnesses are customized cable constructions that consist of several preassembled cables and are used for complex industrial applications. They can contain different cable types and lengths to create an optimum connection.
This list is not exhaustive and there are many other types of prefabricated industrial cables that have been developed for specific requirements. It is important to select the right type of cable for the application to ensure a secure and reliable connection.
How are pre-assembled industrial cables manufactured and what materials are used?
Pre-assembled industrial cables are usually manufactured in specialized factories or workshops. The process involves several steps, including
1. Selection of the cable: Depending on the application and requirements, different cable types are selected, e.g. copper cable, fiber optic cable or coaxial cable.
2. Cutting and stripping: The cable is cut to the desired length and the outer insulation is removed at the ends to expose the copper wires or glass fibers.
3. Assembling the connectors: The appropriate plugs or connections are installed at the cable ends as required. This can be done by soldering, crimping or other connection techniques.
4. Shielding: In some cases, cables are provided with additional shielding to reduce electromagnetic interference. This can be achieved by attaching a metallic foil or braid around the cable.
5. Testing and quality control: Every pre-assembled cable is tested for functionality and quality to ensure that it meets the specifications.
The materials used in the manufacture of pre-assembled industrial cables vary depending on the cable type and application. The most frequently used materials include
- Copper: Copper conductors are used in many cables because they have good electrical conductivity.
- Plastics: The outer insulation of the cables is usually made of PVC (polyvinyl chloride) or other plastics that offer good insulation properties.
- Metallic shielding: In some cables, a metallic shield is used to minimize electromagnetic interference. Materials such as aluminum or copper foil as well as braids made of copper wire can be used.
- Plugs and connections: The plugs and connections are typically made of metal alloys such as copper or brass.
- Adhesives and adhesive tapes: Adhesives or adhesive tapes are often used when installing the plugs and connections to ensure a secure connection.
It is important to note that the exact materials and manufacturing methods may vary depending on the manufacturer and cable specification.
1. Selection of the cable: Depending on the application and requirements, different cable types are selected, e.g. copper cable, fiber optic cable or coaxial cable.
2. Cutting and stripping: The cable is cut to the desired length and the outer insulation is removed at the ends to expose the copper wires or glass fibers.
3. Assembling the connectors: The appropriate plugs or connections are installed at the cable ends as required. This can be done by soldering, crimping or other connection techniques.
4. Shielding: In some cases, cables are provided with additional shielding to reduce electromagnetic interference. This can be achieved by attaching a metallic foil or braid around the cable.
5. Testing and quality control: Every pre-assembled cable is tested for functionality and quality to ensure that it meets the specifications.
The materials used in the manufacture of pre-assembled industrial cables vary depending on the cable type and application. The most frequently used materials include
- Copper: Copper conductors are used in many cables because they have good electrical conductivity.
- Plastics: The outer insulation of the cables is usually made of PVC (polyvinyl chloride) or other plastics that offer good insulation properties.
- Metallic shielding: In some cables, a metallic shield is used to minimize electromagnetic interference. Materials such as aluminum or copper foil as well as braids made of copper wire can be used.
- Plugs and connections: The plugs and connections are typically made of metal alloys such as copper or brass.
- Adhesives and adhesive tapes: Adhesives or adhesive tapes are often used when installing the plugs and connections to ensure a secure connection.
It is important to note that the exact materials and manufacturing methods may vary depending on the manufacturer and cable specification.
What are the advantages of prefabricated industrial cables compared to non-prefabricated cables?
Pre-assembled industrial cables offer several advantages compared to non-assembled cables:
1. Time saving: Pre-assembled cables are already installed and can be used immediately. They save time as they no longer need to be assembled.
2. Reliability: Pre-assembled cables are usually manufactured in specialized production facilities and are subject to strict quality controls. As a result, they are often more reliable and have a longer service life than non-assembled cables.
3. Error reduction: Professional assembly minimizes the risk of errors and installation problems. This improves safety and prevents possible malfunctions or failures in industrial applications.
4. Plug-and-play: Pre-assembled cables are usually fitted with plugs or connectors that can be connected directly to the corresponding devices. This eliminates the tedious attachment of plugs or soldering of connections.
5. Flexibility: Pre-assembled cables can be adapted to the specific requirements of an application. Different lengths, plug types and protective measures can be selected according to requirements.
6. Cleanliness: Cable assembly enables neat and tidy cabling, as excess cable ends and messy connections can be avoided.
All in all, pre-assembled industrial cables offer a reliable, time-saving and professional solution for cabling requirements in industrial environments.
1. Time saving: Pre-assembled cables are already installed and can be used immediately. They save time as they no longer need to be assembled.
2. Reliability: Pre-assembled cables are usually manufactured in specialized production facilities and are subject to strict quality controls. As a result, they are often more reliable and have a longer service life than non-assembled cables.
3. Error reduction: Professional assembly minimizes the risk of errors and installation problems. This improves safety and prevents possible malfunctions or failures in industrial applications.
4. Plug-and-play: Pre-assembled cables are usually fitted with plugs or connectors that can be connected directly to the corresponding devices. This eliminates the tedious attachment of plugs or soldering of connections.
5. Flexibility: Pre-assembled cables can be adapted to the specific requirements of an application. Different lengths, plug types and protective measures can be selected according to requirements.
6. Cleanliness: Cable assembly enables neat and tidy cabling, as excess cable ends and messy connections can be avoided.
All in all, pre-assembled industrial cables offer a reliable, time-saving and professional solution for cabling requirements in industrial environments.
What special requirements should be taken into account when selecting and assembling industrial cables?
The following special requirements should be taken into account when selecting and assembling industrial cables:
1. Operating environment: Industrial cables must meet the specific requirements of the operating environment. This includes, for example, protection against moisture, heat, cold, chemicals, vibrations or electromagnetic interference.
2. Electrical attributes: The electrical attributes of the cable must meet the requirements of the application. These include conductivity, resistance, insulation strength and shielding against electromagnetic interference.
3. Mechanical load capacity: Industrial cables must be mechanically resilient in order to meet the requirements of the application. For example, they must be able to withstand tensile forces, bending loads or mechanical vibrations.
4. Flexibility: Depending on the application and installation, industrial cables must be flexible to enable easy laying and handling.
5. Packaging: The assembly of the industrial cables, i.e. the attachment of plugs or connectors, must meet the requirements of the application. For example, the correct plug types, contacts and protection classes must be taken into account.
6. Norms and standards: When selecting and assembling industrial cables, the relevant norms and standards should be observed to ensure a safe and reliable connection.
In summary, when selecting and assembling industrial cables, it is important to consider the specific requirements of the application, such as the operating environment, the electrical attributes, the mechanical load capacity, the flexibility, the assembly and the applicable norms and standards.
1. Operating environment: Industrial cables must meet the specific requirements of the operating environment. This includes, for example, protection against moisture, heat, cold, chemicals, vibrations or electromagnetic interference.
2. Electrical attributes: The electrical attributes of the cable must meet the requirements of the application. These include conductivity, resistance, insulation strength and shielding against electromagnetic interference.
3. Mechanical load capacity: Industrial cables must be mechanically resilient in order to meet the requirements of the application. For example, they must be able to withstand tensile forces, bending loads or mechanical vibrations.
4. Flexibility: Depending on the application and installation, industrial cables must be flexible to enable easy laying and handling.
5. Packaging: The assembly of the industrial cables, i.e. the attachment of plugs or connectors, must meet the requirements of the application. For example, the correct plug types, contacts and protection classes must be taken into account.
6. Norms and standards: When selecting and assembling industrial cables, the relevant norms and standards should be observed to ensure a safe and reliable connection.
In summary, when selecting and assembling industrial cables, it is important to consider the specific requirements of the application, such as the operating environment, the electrical attributes, the mechanical load capacity, the flexibility, the assembly and the applicable norms and standards.
What tests and certifications are required for pre-assembled industrial cables?
The tests and certifications required for pre-assembled industrial cables may vary depending on the application and industry. However, here are some common tests and certifications that may be relevant for pre-assembled industrial cables:
1. Electrical tests: This includes tests such as continuity testing, insulation testing, high-voltage testing, capacitance measurement and short-circuit testing to ensure that the electrical attributes of the cable meet the requirements.
2. Mechanical tests: This includes tensile strength testing, bending testing, impact testing and abrasion testing to ensure that the cable can withstand mechanical loads.
3. Environmental tests: These tests include moisture/corrosion resistance, temperature resistance, UV resistance and chemical resistance to ensure that the cable can withstand the environmental conditions in which it will be used.
4. EMC tests: Electromagnetic compatibility tests are carried out to ensure that the cable does not cause electromagnetic interference or is insensitive to such interference.
5. Certifications: Depending on the application, various certifications may be required, such as UL certification (for the North American market), CE marking (for the European market) or RoHS conformity (for the restriction of hazardous substances).
It is important to note that specific testing and certification requirements may depend on national and international standards as well as customer requirements. It is recommended to check the requirements of the specific industry and application to ensure that all required tests and certifications are met.
1. Electrical tests: This includes tests such as continuity testing, insulation testing, high-voltage testing, capacitance measurement and short-circuit testing to ensure that the electrical attributes of the cable meet the requirements.
2. Mechanical tests: This includes tensile strength testing, bending testing, impact testing and abrasion testing to ensure that the cable can withstand mechanical loads.
3. Environmental tests: These tests include moisture/corrosion resistance, temperature resistance, UV resistance and chemical resistance to ensure that the cable can withstand the environmental conditions in which it will be used.
4. EMC tests: Electromagnetic compatibility tests are carried out to ensure that the cable does not cause electromagnetic interference or is insensitive to such interference.
5. Certifications: Depending on the application, various certifications may be required, such as UL certification (for the North American market), CE marking (for the European market) or RoHS conformity (for the restriction of hazardous substances).
It is important to note that specific testing and certification requirements may depend on national and international standards as well as customer requirements. It is recommended to check the requirements of the specific industry and application to ensure that all required tests and certifications are met.
What role do pre-assembled industrial cables play in Industry 0 and networked production?
Pre-assembled industrial cables play an important role in Industry 4.0 and networked production. They serve as connecting elements between different devices, sensors and machines in a production environment.
These cables enable the transmission of data, signals and energy between the various components of a networked production system. They ensure that communication functions smoothly and that data can be exchanged in real time.
In addition, pre-assembled industrial cables also offer the advantage of easy installation and maintenance. They are usually prefabricated and can be connected directly to the corresponding devices. This saves time and money when wiring and commissioning a production plant.
In summary, pre-assembled industrial cables play a central role in Industry 4.0 and networked production, as they enable communication and data exchange between the various components and ensure an efficient and reliable connection.
These cables enable the transmission of data, signals and energy between the various components of a networked production system. They ensure that communication functions smoothly and that data can be exchanged in real time.
In addition, pre-assembled industrial cables also offer the advantage of easy installation and maintenance. They are usually prefabricated and can be connected directly to the corresponding devices. This saves time and money when wiring and commissioning a production plant.
In summary, pre-assembled industrial cables play a central role in Industry 4.0 and networked production, as they enable communication and data exchange between the various components and ensure an efficient and reliable connection.
What are the current trends and developments in prefabricated industrial cables?
Some of the current trends and developments in prefabricated industrial cables are:
1. Cable miniaturization: The demand for smaller and lighter cables is increasing as companies look for solutions to save space and increase flexibility in their applications.
2. Higher data transfer rates: With the advent of Industry 4.0 and the Internet of Things, the demand for cables that can support high data transmission speeds is increasing. Manufacturers are therefore developing cables with higher frequency bandwidths and improved shielding properties.
3. Robustness and durability: Industrial cables must be used in demanding environments where they have to withstand vibrations, temperature fluctuations, chemicals and other stresses. Manufacturers are working to develop cables with improved mechanical and chemical attributes to ensure longer life and reliable performance.
4. Flexibility and flexural strength: The flexibility of cables is of crucial importance in many applications, especially in moving machines or robots. Manufacturers develop cables with special materials and constructions to ensure high bending strength and flexibility without compromising the electrical attributes.
5. Environmental friendliness: With the increasing importance of sustainability and environmental protection, companies are looking for environmentally friendly cable options. Manufacturers are developing cables with lower energy consumption, recyclable materials and environmentally friendly production processes.
6. Use of high-performance materials: The increasing demands on the performance of industrial applications require the use of high-performance materials such as glass fiber, Teflon or special polymers. These materials offer improved signal integrity, low attenuation and high temperature resistance.
7. Automated assembly: The demand for faster and more cost-effective solutions for cable assembly is growing. Automated packaging machines are being developed to optimize the packaging process and increase productivity.
These trends and developments help to ensure that pre-assembled industrial cables meet the requirements of modern industrial applications and enable reliable and efficient data transmission.
1. Cable miniaturization: The demand for smaller and lighter cables is increasing as companies look for solutions to save space and increase flexibility in their applications.
2. Higher data transfer rates: With the advent of Industry 4.0 and the Internet of Things, the demand for cables that can support high data transmission speeds is increasing. Manufacturers are therefore developing cables with higher frequency bandwidths and improved shielding properties.
3. Robustness and durability: Industrial cables must be used in demanding environments where they have to withstand vibrations, temperature fluctuations, chemicals and other stresses. Manufacturers are working to develop cables with improved mechanical and chemical attributes to ensure longer life and reliable performance.
4. Flexibility and flexural strength: The flexibility of cables is of crucial importance in many applications, especially in moving machines or robots. Manufacturers develop cables with special materials and constructions to ensure high bending strength and flexibility without compromising the electrical attributes.
5. Environmental friendliness: With the increasing importance of sustainability and environmental protection, companies are looking for environmentally friendly cable options. Manufacturers are developing cables with lower energy consumption, recyclable materials and environmentally friendly production processes.
6. Use of high-performance materials: The increasing demands on the performance of industrial applications require the use of high-performance materials such as glass fiber, Teflon or special polymers. These materials offer improved signal integrity, low attenuation and high temperature resistance.
7. Automated assembly: The demand for faster and more cost-effective solutions for cable assembly is growing. Automated packaging machines are being developed to optimize the packaging process and increase productivity.
These trends and developments help to ensure that pre-assembled industrial cables meet the requirements of modern industrial applications and enable reliable and efficient data transmission.