Telecommunications Manufacturing

Precision components and assemblies for telecom infrastructure and RF systems — routed in-house or through certified Canadian partners.

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ISO 9001:2015

Made in Canada

40+

Years of Experience

5K+

Satisfied Customers

Overview

Telecommunications infrastructure demands tight-tolerance machining and signal-grade finishing. Pearson Manufacturing supports these programs with a hybrid fulfillment model — routing work to the best-fit path (in-house or via vetted Canadian partners) while keeping QA, documentation, and communication under one roof.

Quick Specs

Standards

ISO 9001:2015 (by facility); RoHS/REACH awareness; internal QMS coordination

Typical Tolerance

Machined ±0.01–0.05 mm (±0.0004–0.002″) on RF features; tighter by review

Materials

6061/6063/6082 Al, 5052/5005 sheet, OFHC/C101 Cu, Brass, 304/316 SS, 17-4PH, PEEK/PTFE/Acetal

Finishes

Chem-film (Alodine), anodize/hardcoat, passivation, electroless nickel; conductive/EMI coatings (by routing)

Surface Roughness

Signal-path faces typically ≤0.8–1.6 µm Ra as specified

Documentation

CoC, material/heat certs, plating certs; inspection data and serialization on request

Files Accepted

STEP/IGES, DXF (profiles), PDF with GD&T, plating masks, gasket callouts

Testing

CMM/optical, flatness/runout; RF test fixture coordination and leak/fit checks

Workstream	Best For	Speed	Notes
Prototype RF	Trials, filter blocks, housings	Fast	Quick-turn + iterative DFM; flexible finish options
Production RF	Waveguides, split housings	Medium	Jigs/fixtures, serialization, plating build control
Racks & Panels	Chassis, trays, brackets	Medium	Sheet-metal efficiency; PEM hardware & labeling
Field Mounts	Masts, frames, shelters	Fast	Outdoor coatings + gasketing, sealed hardware

Capabilities We Provide Access To

CNC milling/turning of RF waveguides, filter/cavity blocks, and connector housings
Copper/brass machining for signal paths; aluminum split-housing alignment with dowels
Sheet-metal racks, panels, brackets, and cable trays with PEM hardware installation
Precision turning for antenna mounts, hubs, and coax/adaptor hardware
Weldment fabrication for outdoor frames, cabinets, and shelter accessories
Gasket grooves, O-ring seals (AS568), and EMI/grounding features
Laser marking/engraving, serialization, and panel graphics
Kitted assembly, torque specs, and functional/mechanical fit checks

DFM & RF Tips

Account for plating/anodize build on RF bores and sealing faces; specify mask areas for threads/fits.
Use dowel pins and matched split lines for cavity housings to maintain path alignment and seal integrity.
Call out product-contact or signal-path surface finish (e.g., ≤0.8 µm Ra) and any post-finish lapping needs.
Define gasket or O-ring specs (material/durometer) and groove dimensions to IP/NEMA targets.
Prefer generous bend radii and common hole patterns in sheet-metal to reduce cost and improve EMC continuity.
Identify critical datums for connector centerlines and antenna interfaces; specify TIR/runout where needed.

We’ll review your model/drawing, finish masks, gasket specs, and inspection list, then confirm achievable specs and the right routing (in-house or partner) before kickoff.

Why Partner with Pearson?

Hybrid routing: in-house builds or certified Canadian partners under one QA umbrella
RF-aware machining/finishing guidance to protect signal integrity
Repeatable fixtures and serialization for production change parts
Consolidated documentation: certs, inspection, and plating records
Coordinated logistics and labeled kitting for fast builds and installs

Equipment Used In-House or By Our Partners

5-axis CNC mills and multi-axis lathes with small-tool capability
Swiss/deep-hole turning (by routing) and precision drill/tap centers
Sheet-metal lasers, press brakes, PEM insertion & fixture tables
TIG welding cells and modular fabrication tables for frames
Anodize, chem-film, electroless nickel (by routing); EMI coatings
CMMs, optical inspection, and custom RF test fixture development

Typical Telecom Applications

RF waveguides, filter/cavity housings, and antenna connector blocks
Rackmount chassis, faceplates, card guides, and internal trays
Coaxial flanges, adaptor brackets, clamps, and strain-relief hardware
Outdoor frames, masts, cabinets, and sealed shelter accessories
Signal conditioning and power distribution enclosure parts
Calibration fixtures, alignment plates, and test jigs

Telecom FAQs

Is all telecom work completed in-house?

We operate a hybrid model: some components are built at our Ontario facility, others via vetted Canadian partners. Pearson manages quoting, QA, finishing, assembly, and logistics end-to-end.

Can you meet RF tolerance and finish specs?

Yes — we routinely hold tight tolerances on microwave paths and can provide CMM/optical reports, flatness/runout checks, and finish certificates as required.

Which finishes do you support for telecom?

Chem-film (Alodine), anodize/hardcoat, passivation, and electroless nickel are common. We can coordinate conductive/EMI coatings and masking for threads/fits.

Do you build racks and sheet-metal assemblies?

Yes. We fabricate panels, trays, and bracketry with PEM fasteners, labeling, and kitted hardware for rapid integration.

How should I scope my RFQ?

Include CAD + PDF with GD&T, material/finish, masked areas, surface roughness targets, gasket/O-ring specs, inspection list, and schedule. Start your telecom quote — include materials, finish masks, surface roughness, gasket specs, inspection list, and schedule.