CDB49300 Cirrus Logic Inc, CDB49300 Datasheet - Page 23
CDB49300
Manufacturer Part Number
CDB49300
Description
Audio Modules & Development Tools Eval Bd Mult-Std Aud Decdr. DSP
Manufacturer
Cirrus Logic Inc
Datasheet
1.CS4924.pdf
(56 pages)
Specifications of CDB49300
Description/function
Audio A/D
Operating Supply Voltage
5 V
Product
Audio Modules
For Use With/related Products
CS49300
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
3.
Six typical connection diagrams have been
presented to illustrate using the device with the
different communication modes available. They
are as follows:
Figure 13: I
Figure 14: I
Figure 15: SPI Control
Figure 16: SPI Control with External Memory
Figure 17: Intel Parallel Control Mode
Figure 18: Motorola Parallel Control Mode
The following should be noted when viewing the
typical connection diagrams:
The pins are grouped functionally in each of the
typical connection diagrams. Please be aware that
the CS4923/4/5/6/7/8/9 symbol may appear
differently in each diagram.
The external memory interface is only supported
when a serial communication mode has been
chosen.
The typical connection diagrams demonstrate the
PLL being used (CLKSEL is pulled low). To
enable external CLKIN, CLKSEL should be pulled
high. The system designer must be aware that
certain software features may not be available if
external CLKIN is used as the DSP must run
slower when external CLKIN is used. The system
designer should also be aware of additional duty
cycle requirements when using external CLKIN
mode. It is highly suggested that the system
designer take advantage of the PLL and pull
CLKSEL low.
3.1 Multiplexed Pins
The CS4923/4/5/6/7/8/9 family of digital signal
processors (DSPs) incorporate a large amount of
flexibility into a 44 pin package. Because of the
high degree of integration, many of these pins are
internally multiplexed to serve multiple purposes.
DS262F2
TYPICAL CONNECTION
DIAGRAMS
2
2
C Control
C Control with External Memory
Some pins are designed to operate in one mode at
power up, and serve a different purpose when the
DSP is running. Other pins have functionality
which can be controlled by the application running
on the DSP. In order to better explain the behavior
of the part, the pins which are multiplexed have
been given multiple names. Each name is specific
to the pin’s operation in a particular mode.
An example of this would be the use of pin 20 in
one of the serial control modes. During the boot
period of the CS492X, pin 20 is called ABOOT.
ABOOT is sampled on the rising edge of RESET.
If ABOOT is high the host must download code to
the DSP. If ABOOT is low when sampled, the
CS492X goes into autoboot mode and loads itself
with code by generating addresses and reading data
on EMAD[7:0]. When the device has been loaded
with code and is running an application, however,
pin 20 is called INTREQ. INTREQ is an open drain
output used to inform the host that the DSP has an
outgoing message which should be read.
In this document, pins will be referred to by their
functionality. The section “Pin Descriptions” on
page 49 describes each pin of the CS492X and lists
all of its names. Please refer to the Pin Descriptions
section when exact pin numbers are in question.
The device has 12 general purpose input and output
(GPIO[11:0])
functionality. While in one of the parallel
communication modes (see section 6.2), these pins
are used
communication interface. While in one of the serial
host modes these pins are used to implement an
external memory interface. Alternatively while in
one of the serial host modes these pins could be
used for another general purpose if the application
code has been programmed to support the special
purpose. In this document the pins are referenced
by the name corresponding to their particular use.
Sometimes GPIO[11:0], or some subset thereof, is
used when referring to the pins in a general sense.
to implement
pins
CS4923/4/5/6/7/8/9
that
all
the parallel host
have
multiple
23
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