Board Level Shielding - MULTIZONE

MULTIZONE is a two-piece welded construction frame, combining many single shields into one multi-cavity shield with a single cover. These shields provide unparalleled design flexibility while reducing overall cost, weight and minimizing board spare requirements. MULTIZONE deliver exceptional inter-cavity isolation and superior shielding performance for the most challenging applications.

 

 

 

 

 

Features

  • PCB Interface Options

    3G offer a variety of through-hole and surface mount attachment methods to securely bond the board level shield to the circuit board. Locating pins are placed on the bottom of the shield frame and mate to holes on the PCB. Locating pins are required for wave solder application but are also recommended for surface mount applications.

    Alignment Pins

    Through-Hole Pin

    Pin w/Standoff

    Castellation Edge

    Knife Edge

  • Standard Pin Sizes

    Standard Pin Configurations

    Locating Pin

    W

    L

    Recommended PCB Hole

    T1 0.032” (0.81 mm) 0.045” (1.14 mm) 0.035” (0.89 mm)
    T2 0.045” (1.14 mm) 0.057” (1.45 mm) 0.050” (1.27 mm)
    T3 0.045” (1.14 mm) 0.085” (2.16 mm) 0.050” (1.27 mm)
    T4 0.045” (1.14 mm) 0.110” (2.79 mm) 0.050” (1.27 mm)
    T5 0.020” (0.51 mm) 0.025” (0.64 mm) 0.023” (0.58 mm)
    T6 0.045” (1.14 mm) 0.135” (3.43 mm) 0.050” (1.27 mm)
    T7 0.060” (1.52 mm) 0.160” (4.06 mm) 0.065” (1.65 mm)
    T8 0.030” (0.76 mm) 0.110” (2.79 mm) 0.033” (0.84 mm)
    T9 0.025” (0.64 mm) 0.020” (0.51 mm) 0.028” (0.71 mm)
    T10 0.040” (1.02 mm) 0.057” (1.45 mm) 0.045” (1.14 mm)
    T11 0.045” (1.14 mm) 0.098” (2.49 mm) 0.050” (1.27 mm)
    T12 0.025” (0.64 mm) 0.045” (1.14 mm) 0.028” (0.71 mm)

    Standard Through Hole Pins w/Standoff

    Locating Pin

    W

    L

    Recommended PCB Hole

    T1S 0.032” (0.81 mm) 0.045” (1.14 mm) 0.035” (0.89 mm)
    T2S 0.045” (1.14 mm) 0.057” (1.45 mm) 0.100” (2.54 mm)
    T3S 0.045” (1.14 mm) 0.085” (2.16 mm) 0.050” (1.27 mm)
    T4S 0.045” (1.14 mm) 0.110” (2.79 mm) 0.050” (1.27 mm)
    T5S 0.020” (0.51 mm) 0.025” (0.64 mm) 0.023” (0.58 mm)
    T6S 0.045” (1.14 mm) 0.135” (3.43 mm) 0.050” (1.27 mm)
    T7S 0.060” (1.52 mm) 0.160” (4.06 mm) 0.065” (1.65 mm)
    T8S 0.030” (0.76 mm) 0.110” (2.79 mm) 0.033” (0.84 mm)
    T9S 0.025” (0.64 mm) 0.020” (0.51 mm) 0.028” (0.71 mm)
    T10S 0.040” (1.02 mm) 0.057” (1.45 mm) 0.045” (1.14 mm)
    T11S 0.045” (1.14 mm) 0.098” (2.49 mm) 0.050” (1.27 mm)
    T12S 0.025” (0.64 mm) 0.045” (1.14 mm) 0.028” (0.71 mm)

    * Additional pin sizes are available upon request. Please consult 3G’s engineering team for assistance.

  • Tuning Holes and Trace Reliefs

    Additional Standard Design Features.

    Tuning Holes

    Trace Relief

  • Ventilation Holes

    Ventilation holes can be added to any shield cover or frame wall. 3G’s standard vent hole pattern uses an 0.100” diameter holes, but they are available in 0.080”, 0.060”, 0.040” diameter holes and the patterns can be varied to meet the customer’s requirement.

    Ventilation Holes

  • Additional Features

    Connector Staking

    Emboss

    Countersinks

    Thermal Pads

  • Cover Retention Options

    There are two distinct cover retention methods offered by 3G. Both cover styles offer superior cover to shield frame retention while offer excellent grounding and shielding performance.

    Dimple Retention Cover

    Segmented Finger Cover

  • Internal Wall Isolation Techniques

    When designing MULTIZONE board level shields that utilize a single cover, cross talk between cavities is a major concern. There is very little positive grounding between the cover and the internal walls of the shield frame. Complex MULTIZONE shield geometries used in higher frequency applications will require more attention to inner wall isolation or cross talk mitigation strategies. The following internal wall isolation techniques can be implemented to address the most demanding shielding requirements.

    Ground Tabs

    Ground Tabs w/Twist Tabs

    Conductive Gaskets

    Conductive Finger Stock

Material Selection Guide

The vast majority of board level shields are manufactured using Tin Plated Steel (Indoor Environments) or Nickel Silver (Harsh Environments). 3G builds millions of board level shields per year, and has the purchasing power to ensure the necessary raw materials are always in stock and available. Board level shields are also available in less common materials such as beryllium copper, phosphor bronze, copper, brass, stainless steel and mu-metal.


 

Material Available thicknesses Recommended use
Tin Plated steel 0.008”(0.2mm) Recommended for indoor environments where corrosion is not an issue.
  0.012” (0.3mm)
  0.016” (0.4mm)
  0.025” (0.6mm)
Nickel Silver 0.008” (0.2mm) Recommended for outdoor, military application where corrosion resistance is required.
  0.012” (0.3mm)
  0.016” (0.4mm)
  0.025” (0.6mm)
MuMetals 0.01” (0.25mm) Recommended for magnetic shielding.
  0.025” (0.6mm)
Stainless Steel 0.008” (0.2mm) Recommended for non-shielding, mechanical components.
  0.012” (0.3mm)
  0.016” (0.4mm)
Phosphor Bronze 0.005” (0.125mm) Recommended for products that require spring type functionality.
  0.008” (0.2mm)
Berrylium Copper 0.005” (0.125mm) Recommended for products that require spring type functionality and resistance to thermal relaxation.
  0.008 (0.2mm)
Copper 0.008” (0.2mm) Recommended for components used for heat transfer.
  0.012” (0.3mm)
  0.016” (0.4mm)
  0.025” (0.6mm)