OFC

2017 Optical Networking and Communication Conference & Exhibition

booth 1331. Location this year is LA Convention Center. Show dates March 21-23, 2017 Web site: ofcconference.org

 

Our business philosophy is simple and straightforward: “Work closely with our customers, produce high-quality technology, and keep costs down - every time.”

Malcolm D. Hill

President


Certified since March 2010

ISO Cert

 

 

Metallization

The next critical parameter the designer faces is the selection of metallization.  Solderability, solder types, solder hierarchy, circuit attach, skin depth, conductivity and thermal extremes of the design are all factors that must be considered in determining the proper metallization.  Metallization is the single largest factor in determining lead time and compatibility of processes.  Many organizations use the same metallization on every product because "that's how it's always been done."  Consultation with the sales engineer or factory regarding this parameter will always result in the optimum choice for your specific application.  Standard metallizations are TiW/Au, TiW/Ni/Au, TiW/Pd/Au and TiW/Cu/Ni/Au with TiW forming the main adhesion layer, Ni or Pd (optional) functioning as a barrier layer for solderable devices and Au or Cu as the main conductor.  Au can be fully sputtered or plated to various values of thickness to enhance skin depth and conductivity.  Resistor layers are deposited before adhesion layers due to post processing requirements.  TaN2 is the most common resistor material offering well established self-passivating characteristics. NiCr resistor films are available for those applications where minimum resistor change over temperature extremes is critical.  Various sheet resistance values are available depending on the resistor range for the overall design.

 

Metal Funtions and Typical Values

Function Materials Typical Values
Resistor
TaN, Tantalum Nitride 8 - 150 ohms/square (1)
NiCr, Nickel Chromium Alloy 25 - 300 ohms/square (1)
Adhesion
TaN, Tantalum Nitride 250 - 1000 Angstroms
NiCr, Nickel Chromium Alloy 250 - 1000 Angstroms
Cr, Chromium (4) 250 - 750 Angstroms
Ti, Titanium 500 - 1000 Angstroms
TiW, Titanium Tungsten Alloy 250 -750 Angstroms
Barrier
Cr, Chromium (4) 250 - 750 Angstroms
TiW, Titanium Tungsten Alloy 250 -750 Angstroms
Ni, Nickel (sputtered)(2)(4) 1000 - 2000 Angstroms
Ni, Nickel (plated)(4) 50 - 300 microinches
Pd, Palladium (3)(4) 1000 - 2000 Angstroms
Conductor
Aluminum (sputtered) 50 - 200 microinches
Copper 20 - 200 microinches
Gold 20 - 200 microinches
High Power
Conductors
Copper/Nickel/Au (3)(4) 500 - 3000 microinches
Gold (3) 400 - 800 microinches

1 - Post heat treatment
2 - Pure Nickel
3 - Limited minimum feature size
4 - Temperature limited due to metal diffusion



Plated Metals

Some designs need thicker conductors for skin depth requirements or to meet incorporated company standards. Sputtering these thicknesses can have a negative impact on cost, depositing precious metals and then etching the circuit features. Thick sputtered structures, that are subsequently chemically etched, undercut the patterned resist due to the isotropic nature of the process. This results in a cross-sectional profile that is more trapezoidal than square. Structures thicker than 100µ" benefit from selective plating as a means of creating the circuit. This processing method eliminates the negative attributes of an etch-back process. DITF offers in-house plating capability where thicker materials and sidewall control is critical.

 


Standard Metal Systems (RoHS Compliant)

Bondable Fine Lines High Solderable
Metal System
Au/Wire Al/Wire < .002" Power Pb
bearing
ROHS Au
Bearing
Y
N
N
Y
Y
Y
N
N
N
Y
Y
N
Y
N
Y
Y
Y
Y
Y
N
Y
N
N
Y
Y
N
Y
Y
Y
Y
Y
N
Y
Y
Y
Y
Y
N
N
N
Y
Y
N
Y
N
N
N
N
Y
N
Y
N
N
Y
Y
N
Y
Y
Y
Y
Y
N
N
Y
Y
N
Y
N
N
Y
Y
Y
Y
N
N
N
Y
Y
N
Y
N
Y
N
N
N
Y
N
N
N
N



Basic Conductors

Patterning - All circuit designs contain critical dimensions necessary for compliance and performance.  It is important to consider these when designing the circuit to not add unnecessary cost to the design.  Conductor tolerances of <0.001" require more costly tooling to ensure compliance.
 

Basic Conductor Standard Layout Guidelines

Feature Values and Tolerances Comments
.003"
Per side 20% Minimum Taper
.005"
Per side 20% Minimum Taper
.0004 minimum ± .0001"
Minimum space widths are a function of conductor thickness
.0004 minimum ± .0001"
Minimum line widths are a function of conductor thickness
.001" minimum
.003" preferred
.007" ± .005"
.006" typical radius, length 2 x material thickness
.005" minimum +25%/-50%
increase or decrease of design area
± .003"
± .001" by request
0 - .003"
 


Multi Layer Conductor Standard Layout Guidelines

Feature Values and Tolerances Comments
.003" Diameter
Ground signal ground up to 2 levels
.002" width .004" pitch
Ground signal ground up to 2 levels
.005"

 

West Coast Sales

Glen Steward

(510) 468-7341

gsteward@ditf.com

East Coast Sales

Tom Lavallee

(603) 845-3450

tpl@ditf.com

DITF - Interconnect Technology

(775) 782-1041

sales@ditf.com

2245 Meridian Blvd.
Minden , NV 89423