50-Core 0.15mm² Shielded Cable
Signal Control Without Interference in Dense Wiring Environments
A failed signal in a multi-axis control system doesn’t announce itself politely. It triggers costly downtime, inconsistent machine cycles, and hours of root-cause tracing through cable looms that weren’t built to reject cross-talk. The problem is rarely the controller. It’s the electrical noise bleeding across poorly shielded conductors packed too tightly inside a single jacket.
The 50-Core 0.15mm² Shielded Cable removes that variable. By combining high-density conductor grouping with a continuous shielding layer, it keeps low-voltage control signals coherent across long runs and crowded cable trays. For machine builders and panel engineers, that means fewer rework hours on site, more predictable commissioning windows, and a cabling solution that stays out of the troubleshooting reports.
Core Design Details That Shift Project Economics
50-Core Configuration – One Cable, One Pull
Routing individual wire pairs through conduits multiplies installation time, labour cost, and the probability of mis-termination. Grouping 50 colour-coded conductors under a single jacket collapses a full function block into one cable. Terminate once. Label once. Move to the next sub-panel. The time recovery alone covers the BOM premium within the first few cabinets.
Fully Shielded Construction – Signal Integrity Under Load
Surrounding the core bundle with an aluminium/polyester foil or tinned-copper braid creates a low-impedance drain path for EMI and RFI. This keeps analogue sensor readings stable and prevents false triggering on digital I/O lines even when the cable shares a tray with variable-frequency drive wiring. Fewer signal errors mean fewer service call-outs and less risk of warranty-claim investigations on commissioned equipment.
0.15mm² Conductor Cross-Section – Right-Sized for Control Circuits
Over-specifying conductor area adds weight, cost, and stiffness without any measurable gain on low-current signal loops. The 0.15mm² cross-section keeps copper content lean while delivering ample conductivity for 4–20 mA loops, thermocouple extensions, and low-power PLC I/O. Cable diameter stays compact, so cable management inside 19-inch racks and junction boxes stays clean.
Fine-Strand Conductor Construction – Bending Without Breaking
Static-rated solid conductors fail early when routed through hinged control panels or subjected to vibration. A fine-strand (class 5 or similar) build maintains cross-sectional continuity through repeated flexing, which extends the mean time between panel rebuilds and lowers the long-term replacement spend across a fleet of machinery.
Sequentially Marked Cores – Termination Accuracy at Speed
Every conductor carries a durable printed number along its full length, not just a surface inkjet that rubs off during stripping. Panel wiremen terminate faster because they don’t have to ring out each conductor. Termination errors drop. That directly compresses the per-cabinet assembly hours and de-risks jobs that rely on short-staffed panel shops.
Technical Specifications & Dimensions
| Parameter | Value |
|---|---|
| Number of cores | 50 |
| Conductor cross-section | 0.15 mm² |
| Shielding | Yes (foil, braid, or both – configuration options available) |
| Detailed dimensional drawings, insulation material, voltage rating, and temperature range are provided in the full datasheet – request your copy below. |
Industry Applications & Scenario Validation
Industrial Automation & Panel Wiring
Connects PLC I/O cards to terminal blocks inside control cabinets where dense wiring invites crosstalk; the shield layer averts ghost signals that would otherwise halt production lines.Test & Measurement Racks
Links data acquisition modules to sensors and strain gauges; the 0.15mm² conductor size matches the low current draw while the multi-core count reduces individual cable clutter inside rack enclosures.Railway Signalling & Trackside Cabinets
Carries interlocking and point-machine status signals where electromagnetic interference from overhead catenary lines is non-negotiable; shielded construction maintains signal fidelity in safety-critical circuits.Building Management Systems (BMS)
Feeds damper actuators, valve controllers, and temperature probes across large floor plates; a single 50-core pull replaces multiple conduit runs, shortening the first-fix electrical schedule on multi-storey projects.Medical Diagnostic Equipment
Routes low-voltage control and sensor signals inside imaging or patient-monitoring enclosures where stray EMI can distort measurements; shielding and compact cross-section meet the space constraints inside mobile cart systems.
International Compliance & QA Standards
Our supply chain routinely delivers 50-core shielded cables with supporting documentation aligned to these standards. Specific part numbers can be matched to the certification package your project demands.
- ✅ IEC 60332-1 – Flame propagation resistance on a single vertical wire (available for LSZH or PVC sheathing compounds)
- ✅ IEC 61034 – Smoke density measurement for low-smoke, halogen-free variants
- ✅ EN 50288-7 – Multi-element metallic cables for instrumentation and control, applied to relevant screened constructions
- ✅ CE Marking – Declared under applicable EU directives upon final assembly and jacketing specification
- ✅ RoHS & REACH – Bill-of-materials verification confirms restricted-substance thresholds are met
- ✅ ISO 9001 – QMS certification held by manufacturing facility; audit records available for supply-chain qualification reviews
FAQ
1. Does the 0.15mm² cross-section support 24V DC control signals over distances exceeding 50 metres?
Yes, for low-current signals below approximately 1A, voltage drop over 50–75 metres stays within acceptable limits for most 24V DC digital inputs. For longer runs or higher current draw on power circuits, a larger cross-section is recommended. We can supply a voltage-drop calculation worksheet when you request the datasheet.
2. Can you supply this cable with colour-coded conductors according to our internal panel wiring standard?
Colour coding and sequential numbering are standard, but alternative core identification schemes (letter codes, customer-specific colour sequences) can be arranged at the production batch level. Lead time typically extends by 10–12 working days. Minimum order quantities apply for fully custom colour maps.
3. What is the typical manufacturing lead time for 5,000 metres of 50-core shielded cable to a port in Southeast Asia or Rotterdam?
For standard PVC-jacketed variants, plan for 4–6 weeks ex-works plus ocean freight transit. LSZH or special compound jackets may move the schedule to 6–8 weeks. We warehouse fast-mover inventories at bonded storage in Europe and Singapore for repeat order cycles; please confirm your destination port for an exact CIF quotation and partial-shipment schedule.
Get the Full Datasheet & Sample Length
Selecting a multi-core shielded cable based on a product page summary is sensible. Checking every dimension, insulation resistance value, and bending radius against your panel layout drawings is what closes the procurement decision.
Request the complete datasheet and a 2-metre sample section today.
Email: [cable.datasheets@your-domain.com]
Phone: [+1 555 128 9346]
Or complete the form below and we’ll send the documentation within one business day.