Techni-Tool
Small Precision Tools
Small Precision Tools

Small Precision Tools 2005416 Wire Bonding Capillary, Gold, 16mm, .0065" Tip dia, SBN Series

Our Part #758IE6350

Condition:New

Mfr Part #2005416

Small Precision Tools 2005416
Small Precision Tools
Small Precision Tools

Small Precision Tools 2005416 Wire Bonding Capillary, Gold, 16mm, .0065" Tip dia, SBN Series

Our Part #758IE6350

Condition:New

Mfr Part #2005416

$73.10EACH
Qty:Price:Savings
1$73.10
10$70.91Save 3%
20$69.45Save 5%
50$65.79Save 10%
100$64.33Save 12%
  • For deep access applications VBN, VR=6350MIC, MD=1067. Provides vertical clearance between adjacent high loop profile and die edge
  • Fine matte tip finish provides better stitch adhesion and ensures smoother exit of wire during looping
  • Alumina Zirconia properties: Hardness (HV1) 2000; Grain size µm <0.9; Density g/cm³ 4.25

Small Precision Tools utilizes a state-of-the-art Ceramic Injection Molding (CIM) technology in the creation of its wire bonding capillaries, which meets tight tolerances. The Molded Slimline Bottle capillaries (SBN) series is intended for fine-pitch application for Bond Pad Pitch (BPP) 125µm up to as fine as 70µm. The integration of the new AZ composite material into Slimline Bottleneck (SBN) capillary has set a new milestone in the micro-packaging technology for application of ultra-fine pitch bonding. The higher strength SBN-AZ configuration is offered with T 110µm.

BrandSmall Precision Tools
AngleFace Angle: 8 degrees / Main Taper Angle: 20 degrees
Application MethodBall Bonding
DiameterTool Diameter: 1.587mm (.0625”) / Chamfer Diameter: 58 µm (.0023")
FinishMatte
Hole Diameter35 µm (.0014")
MaterialAlumina Zirconia Composite
NoteSmall Precision Tools order ID: SBNS-35HE-AZM-1/16-16MM 20MTA VBN VR=6350MIC MD=1067 MIC=IE28
SeriesSBN Series
Tip Diameter165 µm (.0065")
Tip StyleFine Pitch with 10 degree Slimline Bottleneck (for T 165 µm)
Tool Length16mm = .630"
$73.10EACH
Qty:Price:Savings
1$73.10
10$70.91Save 3%
20$69.45Save 5%
50$65.79Save 10%
100$64.33Save 12%