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TDA3MV_17 Datasheet, PDF (189/256 Pages) Texas Instruments – SoC for Advanced Driver Assistance Systems (ADAS) 15mm Package (ABF) Silicon Revision 2.0 | |||
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TDA3MV, TDA3MA
TDA3LX, TDA3LA
SPRS964C â JUNE 2016 â REVISED JULY 2017
⢠Max PCB Impedance (Z) vs Frequency (F) budget between Deviceâs power inputs and PMICâs output
power filter node including ground return is determined by applying the Frequency Domain Target
Impedance Method to determine the PCBâs maximum frequency of interest (Fpcb). Ideally a properly
designed and decoupled PDN will exhibit smoothly increasing Z vs. F curve. There are 2 general
regions of interest as can be seen in Figure 8-14.
â 1st area is from DC (0Hz) up to Fpmic (typ a few 100 kHz) where a PMICâs transient response
characteristic (i.e. Switching Freq, Compensation Loop BW) dominate. A PDNâs Z is typically very
low due to power filtering & bulk capacitor values when PDN has very low trace resistance (i.e.
good Reff performance). The goal is to maintain a smoothly increasing Z that is less than Zt1 over
this low frequency range. This will ensure that a max transient current event will not cause a
voltage drop more than the PMICâs current step response can support (typ 3%).
â 2nd area is from Fpmic up to Fpcb (typ 20-100MHz) where a PCBâs inherent characteristics (i.e.
parasitic capacitance, planar spreading inductances) dominate. A PDNâs Z will naturally increase
with frequency. At frequencies between Fpmic up to Fpcb, the goal is to maintain a smoothly
increasing Z to be less than Zt2. This will ensue that the high frequency content of a max transient
current event will not cause a voltage drop to be more than 5% of the min supply voltage.
Figure 8-14. PDNâs Target impedance
1.Voltage Rail Drop includes regulation accuracy, voltage distribution drops, and all dynamic events
such as transient noise, AC ripple, voltage dips etc.
Copyright © 2016â2017, Texas Instruments Incorporated
Applications, Implementation, and Layout 189
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