PCK953BD Просмотр технического описания (PDF) - NXP Semiconductors.
Номер в каталоге
Компоненты Описание
производитель
PCK953BD Datasheet PDF : 15 Pages
| |||
NXP Semiconductors
PCK953
20 MHz to 125 MHz PECL input, 9 CMOS output, 3.3 V PLL clock driver
11. Application information
11.1 Power supply filtering
The PCK953 is a mixed analog/digital product and as such it exhibits some sensitivities
that would not necessarily be seen on a fully digital product. Analog circuitry is naturally
susceptible to random noise, especially if this noise is seen on the power supply pins. The
PCK953 provides separate power supplies for the output buffers (VCCO) and the
phase-locked loop (VCCA) of the device. The purpose of this design technique is to try to
isolate the high switching noise digital outputs from the relatively sensitive internal analog
phase-locked loop. In a controlled environment such as an evaluation board, this level of
isolation is sufficient. However, in a digital system environment where it is more difficult to
minimize noise on the power supplies, a second level of isolation may be required. The
simplest form of isolation is a power supply filter on the VCCA pin for the PCK953.
Figure 3 illustrates a typical power supply filter scheme. The PCK953 is most susceptible
to noise with spectral content in the 1 kHz to 1 MHz range. Therefore, the filter should be
designed to target this range. The key parameter that needs to be met in the final filter
design is the DC voltage drop that will be seen between the VCC supply and the VCCA pin
of the PCK953. The current sourced though the VCCA pin is typically 15 mA (20 mA
maximum), assuming that a minimum of 3.0 V must be maintained on the VCCA pin,
very little DC voltage drop can be tolerated when a 3.3 V VCC supply is used. The resistor
shown in Figure 3 must have a resistance of 10 Ω to 15 Ω to meet the voltage drop
criteria. The RC filter pictured will provide a broadband filter with approximately 100 : 1
attenuation for noise whose spectral content is above 20 kHz. As the noise frequency
crosses the series resonant point of an individual capacitor, its overall impedance begins
to look inductive, and thus increases with increasing frequency. The parallel capacitor
combination shown ensures that a low impedance path to ground exists for frequencies
well above the bandwidth of the PLL. It is recommended that the user start with an 8 Ω to
10 Ω resistor to avoid potential VCC drop problems, and only move to the higher value
resistors when a higher level of attenuation is shown to be needed.
Although the PCK953 has several design features to minimize the susceptibility to power
supply noise (isolated power and grounds and fully differential PLL) there still may be
applications in which overall performance is being degraded due to system power supply
noise. The power supply filter schemes discussed in this section should be adequate to
eliminate power supply noise related problems in most designs.
PCK953_5
Product data sheet
3.3 V
PCK953
VCCA
Rs = 5 Ω to 15 Ω
0.01 µF
22 µF
VCC
0.01 µF
Fig 3. Power supply filter
002aae139
Rev. 05 — 9 October 2008
© NXP B.V. 2008. All rights reserved.
6 of 15
Share Link: 