Double-Ended Cable
22 Products| Product Name | Poles | Coding | Gender | Direction | IP | LED |
|---|---|---|---|---|---|---|
| 3 | A | Male/Female | Y/Straight | IP65 | No | |
| 3 | A | Male/Female | Y/Straight | IP65 | No | |
| 4 | A | Male/Female | Y/Straight | IP65 | No | |
| 3 | A | Male/Female | Straight/Straight | IP65 | No | |
| 4 | A | Male/Female | Straight/Straight | IP65 | No | |
| 3 | A | Male/Female | Straight/90 | IP65 | No | |
| 4 | A | Male/Female | Straight/90 | IP65 | No | |
| 3 | A | Male/Female | Straight/90 | IP65 | No | |
| 4 | A | Male/Female | Straight | IP65 | No | |
| 5 | A | Male/Female | Straight/Straight | IP65 | No | |
| 6 | B | Male/Female | Straight/Straight | IP65 | No | |
| 8 | B | Male/Female | Straight/Straight | IP65 | No | |
| 3 | A | Male/Female | Straight/Straight | IP65 | No | |
| 4 | A | Male/Female | Straight/Straight | IP65 | No | |
| 3 | A | Male/Female | Straight/90 | IP65 | No | |
| 4 | A | Male/Female | Straight/90 | IP65 | No | |
| 3 | A | Male/Female | Straight/90 | IP65 | No | |
| 4 | A | Male/Female | Straight/90 | IP65 | No | |
| 3 | A | Male/Female | Straight/Straight | IP65 | No | |
| 4 | A | Male/Female | Straight/Straight | IP65 | No |
Technical Guide: Double-Ended Cable
Selection criteria and engineering considerations for your application.
Application & Compatibility
M8 double-ended cable connectors are pre-assembled cordsets with M8 interfaces on both ends, used to connect field devices quickly and consistently in industrial automation. They are commonly selected for sensor and actuator wiring, compact I/O blocks, valve manifolds, small drives, and distributed control points where space is limited and fast replacement is important. Compared with field-wireable terminations, molded double-ended cables reduce assembly variability and help maintain stable electrical and environmental performance over the machine lifecycle.
Product Range
For M8 interfaces, the relevant dimensional and mating standard is IEC 61076-2-104. In mixed connector architectures, engineers often pair M8 device-level links with M12 trunk or network connections, where M12 interfaces are typically aligned with IEC 61076-2-101. Using standardized interfaces supports interoperability across sensors, cables, and control hardware from different vendors, provided coding and pin assignment are matched correctly.
Configuration Options
This category includes A-coded and B-coded options, with pole counts of 3, 4, 5, 6, and 8 to support different signal and power requirements. A-coding is widely used for general sensor/actuator signals, while B-coding is typically chosen for specific communication or control wiring schemes that require mechanical keying to prevent mismating. Available gender formats include male and female connector ends, enabling extension links, device-to-junction runs, and controller-side transitions without field termination.
Selection Criteria
Configuration flexibility is important when routing in tight enclosures and moving machine sections. Available direction combinations such as straight, straight/90, straight/straight, and Y/straight help reduce bend stress, improve cable management, and maintain minimum bend radius at connection points. Pole count and orientation should be selected together with electrical load, pin map, and installation constraints.
Environmental Protection
For environmental durability, M8 double-ended cordsets are typically specified with ingress protection such as IP67 or IP68 when fully mated; suitability for coolant, oil mist, vibration, and washdown should be confirmed per product datasheet and application conditions. When selecting a cordset, verify mating cycle requirements, shielding needs, conductor size, jacket material, and total cable length to control voltage drop and signal integrity. A structured selection process improves uptime, simplifies maintenance, and reduces commissioning errors in automated equipment.
Frequently Asked Questions
What is the difference between A-coded and B-coded M8 connectors, and how do I choose? + −
A-coded M8 connectors are the default choice for many sensor and actuator circuits, while B-coded M8 connectors are used where a different keying pattern is needed for specific signal or communication assignments. The coding prevents incorrect mating between incompatible circuits. Selection should be based on the device port coding, required pinout, and system documentation. Do not select by pole count alone; always match coding, pin assignment, and electrical function to avoid wiring faults.
When do I need a shielded M8 double-ended cable for industrial automation? + −
Use shielded M8 cordsets when the signal is sensitive to electromagnetic noise or when cables run near VFD motor lines, contactors, servo power, or high-current conductors. Shielding is especially important for higher-speed communication, encoder feedback, and low-level analog signals. For simple discrete sensors in low-noise environments, unshielded may be acceptable. Ensure shield termination strategy is defined (single-point or multi-point grounding) and consistent with your EMC plan and control cabinet grounding design.
What IP rating should I specify for M8 cordsets in wet or dusty environments? + −
For most machine environments with splashing water and dust, IP67 when fully mated is a common baseline. In harsher conditions, including frequent washdown or prolonged moisture exposure, consider IP68-rated variants if supported by the connector design and installation method. Always verify whether the rating applies only in the mated condition and confirm compatible sealing on both connector sides. IP performance also depends on correct torque, clean seals, and avoiding cable jacket damage.
How do I select the right M8 cable length without causing voltage drop or signal issues? + −
Start with current draw, supply voltage tolerance at the device, and conductor resistance per meter. Calculate round-trip voltage drop for power pins and check against device minimum voltage requirements. For communication or fast switching signals, consider attenuation, capacitance, and noise pickup as length increases. Choose the shortest practical length that supports routing and service loops, and avoid tightly bundled runs near power cables. For critical links, validate with commissioning measurements under full load.
Can I mix M8 and M12 connectors in one machine design? + −
Yes. Many machines use M8 for compact field devices and M12 for higher pin-count, power, or network backbone connections. Keep standards and compatibility clear: M8 interfaces follow IEC 61076-2-104, while many M12 interfaces align with IEC 61076-2-101. Mixing is common, but each interface must match coding, pole count, and pinout at every connection point. Document adapter use carefully and verify IP rating continuity across transitions to avoid weak points in the installation.