High frequency measurements and simulations on wire-bonded modules on the sequential build-up boards (SBU's)

Abstract

This paper gives results from HF measurements and simulation of sequential build-up boards (SBU). An HF test pattern was designed to investigate SBU HF properties. SBUs were supplied by four manufacturers. The test SBUs contained patterns for crosstalk, impedance matching, stray capacitance and wire bonding. The boards had a double-sided FR-4 core with two built-up layers on each side, but the HF test board was only on one side. Test patterns were located in layers five and six. Two line spacings between signal and victim tracks of 50 /spl mu/m and 100 /spl mu/m were considered. S-parameters were measured on a network analyser in the 45 MHz-10 GHz range. In time domain test, near-end and far-end responses were measured. Simulations used P-SPICE, HP MDS and a 2D finite difference program. Impedance measurements and simulations were performed in layers five and six with conductor widths for 50 /spl Omega/ and 55 /spl Omega/ characteristic impedances. Line widths ranged from 40-65 /spl mu/m in layer five and 150-200 /spl mu/m in layer six. Reference tracks were designed to estimate conductor and dielectric loss. In the wire-bonding test, two interconnect types were assessed: a solder joint and an isotropically conductive adhesive joint (ICA). A Si test chip was used for wire-bonding on the SBU-board. Crosstalk measurements and simulations agreed closely over 45 MHz-10 GHz. Small differences between the three dielectrics were obtained, and dielectric loss is a limiting factor in the HF range. For a test pattern length of 30 mm, the HF limit (-3 dB transmission loss), was 2-3 GHz in layer six and 3-4 GHz in layer five. Measured characteristic impedances ranged from 44-63 /spl Omega/.