Power needs must be assessed early in the design phase to assure that
there are enough layers and area to provide sufficient power to the BGA balls that
require power. Because most of the BGA power pins are located in the center of the BGA
area, the path the current travels traverses a myriad of vias in the BGA area. The space
between vias can conservatively carry about 0.05A per mil of trace width (for 0.5 oz
copper). The trace width between vias is defined by the pitch of the vias (usually the
same as the pitch of the BGA), the via drill diameter, and drill-to-copper specification
as defined by the fabrication house. The following figure shows how to calculate the
amount of current that can pass through each via channel. Ensure that the power planes
are wide enough and encompassing enough to supply the needed amperage to the BGA power
balls. The following equation can be used to calculate the current per channel:
Figure 1. Power Delivery within BGA Area (0.5 oz Copper)
The following table shows current per channel values for 0.8 mm and 1.0 mm
pitch devices. Because of the very fine pitch of 0.5 mm devices, it is not possible to
route in-between standard vias. Micro-vias under the BGA pads are recommended for 0.5 mm
devices in order to reach the power planes
| 0.8 mm Pitch | 0.92 mm Pitch | 1.0 mm Pitch | |
|---|---|---|---|
| Via Pitch | 31.40 mil | 36.22 mil | 39.37 mil |
| Via Drill Diameter | 10 mil | 10 mil | 10 mil |
| Drill to Copper Specification 1 | 8 mil | 8 mil | 8 mil |
| Amps per Unit Trace Width (ATW), 0.5 oz Cu | 0.05 A | 0.05 A | 0.05 A |
| Amps per Unit Trace Width (ATW), 1.0 oz Cu | 0.075 A | 0.075 A | 0.075 A |
| Current per Channel, 0.5 oz Cu | 0.27 A | 0.51 A | 0.67 A |
| Current per Channel, 1.0 oz Cu | 0.41 A | 0.77 A | 1.00 A |
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