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MC145480DW 数据表(PDF) 9 Page - Motorola, Inc

部件名 MC145480DW
功能描述  5V PCM CODEC-FILTER
Download  24 Pages
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制造商  MOTOROLA [Motorola, Inc]
网页  http://www.freescale.com
标志 MOTOROLA - Motorola, Inc

MC145480DW 数据表(HTML) 9 Page - Motorola, Inc

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MC145480
MOTOROLA
9
PC BOARD MOUNTING
It is recommended that the device be soldered to the PC
board for optimum noise performance. If the device is to be
used in a socket, it should be placed in a low parasitic pin
inductance (generally, low–profile) socket.
POWER SUPPLY, GROUND, AND NOISE
CONSIDERATIONS
This device is intended to be used in switching applica-
tions which often require plugging the PC board into a rack
with power applied. This is known as ‘‘hot–rack insertion.’’ In
these applications care should be taken to limit the voltage
on any pin from going positive of the VDD pins, or negative of
the VSS pins. One method is to extend the ground and power
contacts of the PCB connector. The device has input protec-
tion on all pins and may source or sink a limited amount of
current without damage. Current limiting may be accom-
plished by series resistors between the signal pins and the
connector contacts.
The most important considerations for PCB layout deal
with noise. This includes noise on the power supply, noise
generated by the digital circuitry on the device, and cross
coupling digital or radio frequency signals into the audio sig-
nals of this device. The best way to prevent noise is to:
1. Keep digital signals as far away from audio signals as
possible.
2. Keep radio frequency signals as far away from the audio
signals as possible.
3. Use short, low inductance traces for the audio circuitry
to reduce inductive, capacitive, and radio frequency
noise sensitivities.
4. Use short, low inductance traces for digital and RF
circuitry to reduce inductive, capacitive, and radio
frequency radiated noise.
5. Bypass capacitors should be connected from the VDD
and VAG pins to VSS with minimal trace length. Ceramic
monolithic capacitors of about 0.1
µF are acceptable to
decouple the device from its own noise. The VDD
capacitor helps supply the instantaneous currents of the
digital circuitry in addition to decoupling the noise which
may be generated by other sections of the device or
other circuitry on the power supply. The VAG decoupling
capacitor helps to reduce the impedance of the VAG pin
to VSS at frequencies above the bandwidth of the VAG
generator, which reduces the susceptibility to RF noise.
6. Use a short, wide, low inductance trace to connect the
VSS ground pin to the power supply ground. The VSS pin
is the digital ground and the most negative power supply
pin for the analog circuitry. All analog signal processing
is referenced to the VAG pin, but because digital and RF
circuitry will probably be powered by this same ground,
care must be taken to minimize high frequency noise in
the VSS trace. Depending on the application, a double–
sided PCB with a VSS ground plane connecting all of the
digital and analog VSS pins together would be a good
grounding method. A multilayer PC board with a ground
plane connecting all of the digital and analog VSS pins
together would be the optimal ground configuration.
These methods will result in the lowest resistance and
the lowest inductance in the ground circuit. This is
important to reduce voltage spikes in the ground circuit
resulting from the high speed digital current spikes. The
magnitude of digitally induced voltage spikes may be
hundreds of times larger than the analog signal the
device is required to digitize.
7. Use a short, wide, low inductance trace to connect the
VDD power supply pin to the 5 V power supply.
Depending on the application, a double–sided PCB with
VDD bypass capacitors to the VSS ground plane, as
described above, may complete the low impedance
coupling for the power supply. For a multilayer PC board
with a power plane, connecting all of the VDD pins to the
power plane would be the optimal power distribution
method. The integrated circuit layout and packaging
considerations for the 5 V VDD power circuit are
essentially the same as for the VSS ground circuit.
8. The VAG pin is the reference for all analog signal
processing. In some applications the audio signal to be
digitized may be referenced to the VSS ground. To
reduce the susceptibility to noise at the input of the ADC
section, the three–terminal op amp may be used in a
differential to single–ended circuit to provide level
conversion from the VSS ground to the VAG ground with
noise cancellation. The op amp may be used for more
than 35 dB of gain in microphone interface circuits, which
will require a compact layout with minimum trace lengths
as well as isolation from noise sources. It is recom-
mended that the layout be as symmetrical as possible to
avoid any imbalances which would reduce the noise
cancelling benefits of this differential op amp circuit.
Refer to the application schematics for examples of this
circuitry.
If possible, reference audio signals to the VAG pin
instead of to the VSS pin. Handset receivers and tele-
phone line interface circuits using transformers may be
audio signal referenced completely to the VAG pin. Re-
fer to the application schematics for examples of this
circuitry. The VAG pin cannot be used for ESD or line
protection.
9. For applications using multiple MC145480 PCM Codec–
Filters, the VAG pins cannot be tied together. The VAG
pins are capable of sourcing and sinking current and will
each be driving the node, which will result in large
contention currents, crosstalk susceptibilities, and in-
creased noise.
10. The MC145480 is fabricated with advanced high–speed
CMOS technology that is capable of responding to noise
pulses on the clock pins of 1 ns or less. It should be noted
that noise pulses of such short duration may not be seen
with oscilloscopes that have less bandwidth than
600 MHz. The most often encountered sources of clock
noise spikes are inductive or capacitive coupling of
high–speed logic signals, and ground bounce. The best
solution for addressing clock spikes from coupling is to
separate the traces and use short low inductance PC
board traces. To address ground bounce problems, all
integrated circuits should have high frequency bypass
capacitors directly across their power supply pins, with
low inductance traces for ground and power supply. A
less than optimum solution may be to limit the bandwidth
of the trace by adding series resistance and/or capaci-
tance at the input pin.


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