Xilinx Zynq-7000 Design Manual page 35

Excessive noise at a certain frequency indicates a frequency where the PDS impedance is
too high for the device's transient current demands. Using this information, the designer
can modify the PDS to accommodate the transient current at the specific frequency. This is
accomplished by either adding capacitors with effective frequencies close to the noise
frequency or otherwise lowering the PDS impedance at the critical frequency.
The noise spectrum measurement should be taken in the same manner as the peak-to-peak
noise measurement, directly underneath the device, or at a static I/O driven High or Low. A
spectrum analyzer takes its measurements using a 50Ω cable instead of an active probe.
• A good method attaches the measurement cable through a coaxial connector tapped
into the power and ground planes close to the device. This is not available in most
cases.
• Another method attaches the measurement cable at the lands of a decoupling
capacitor in the vicinity of the device that has been removed. The cable's center
conductor and shield are soldered directly to the capacitor lands. Alternatively, a probe
station with 50Ω RF probes can be used to touch the decoupling capacitor lands.
To protect the spectrum analyzer's sensitive front-end circuitry, add a DC blocking capacitor
or attenuator in line. This isolates the spectrum analyzer from the device supply voltage.
Figure 3-10 is an example of a noise spectrum measurement of the V
noise, with multiple I/O sending patterns at 100 MHz.
Zynq-7000 PCB Design Guide
UG933 (v1.8) November 7, 2014
Chapter 3: Power Distribution System
www.xilinx.com
power-supply
CCO
35
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