- ADG is a proprietary, long-lasting, high-temperature (>150°C) alloy coating that resists Sn contamination.
- ADG coating exhibits minimal mechanical wear even after extreme cycles.
- ADG outperforms Standard Gold in Test, Burn-In, Programming, and Environmental Testing.
- ADG has superior Wear Resistance compared to Standard Gold.
- The Coefficient of Friction (μk) for ADG is extremely low, which means the coating resists mechanical wear.
- μk 0.89 Gold Probe on Gold Test Plate
- μk 0.38 ADG-coated Probe on Gold Test Plate
- μk 1.13 Gold Probe on Pb-Free (Sn-coated) Test Plate
- μk 0.57 ADG-coated Probe on Pb-Free (Sn-coated) Test Plate
- ADG has extremely low Surface Porosity, ten times (10x) less than Standard Hard Gold
- Sn does not easily transfer to the surface of ADG, so Probes and Contacts stay clean longer. Whereas, Sn readily attaches to Standard Gold surfaces, especially in the presence of heat, pressure, shear, or voltage potential.
Two plates prepared for testing:
- Plate #1 – a Cu base, plated with Nickel and Hard Gold
- Plate #2 – a Cu Base, plated with Nickel and ADG
Both test plates were evenly coated with Sn and exposed to 155ºC for 24 hours and the quantity of Sn diffused into the surface measured.
- Sn diffused into Plate #1 = 4.8mg ±0.5mg (Standard Gold)
- Sn diffused into Plate #2 = 0.0mg ±0.5mg (ADG-coated)
- ADG Contact Resistance is equivalent to Standard Hard Gold. Most alternatives to Gold require the OEM to make painful design/engineering trade-offs. ADG does not have negative trade-offs.
- Surface Smoothness: ADG is smoother than Standard Gold. This decreases Sn accumulation at contact mating points.
- Ductility: ADG has 50% greater ductility than Standard Hard Gold. This eliminates micro-cracks and allows for crimping or other assembly operations.
- ADG is proven to improve Spring-Probe performance. As seen in the following chart, ADG significantly improved First Pass Yield. The Standard Gold socket was cleaned four times during the production run, while the ADG socket was only cleaned once.
