User Manual
DS506F2 Copyright Cirrus Logic, Inc. 2011
(All Rights Reserved) 7
EP7311
High-Performance, Low-Power System on Chip
The second is the programmable 16- or 32-bit-wide SDRAM
interface that allows direct connection of up to two banks of
SDRAM, totaling 512 Mb. To assure the lowest possible power
consumption, the EP7311 supports self-refresh SDRAMs,
which are placed in a low-power state by the device when it
enters the low-power Standby State.
Note: 1. Pins A[27:13] map to DRA[0:14] respectively.
(i.e. A[27}/DRA[0}, A[26}/DRA[1], etc.) This is to
balance the load for large memory systems.
2. Pins are multiplexed. See Table S on page 11 for
more information.
Digital Audio Capability
The EP7311 uses its powerful 32-bit RISC processing engine
to implement audio decompression algorithms in software. The
nature of the on-board RISC processor, and the availability of
efficient C-compilers and other software development tools,
ensures that a wide range of audio decompression algorithms
can easily be ported to and run on the EP7311
Universal Asynchronous
Receiver/Transmitters (UARTs)
The EP7311 includes two 16550-type UARTs for RS-232
serial communications, both of which have two 16-byte FIFOs
for receiving and transmitting data. The UARTs support bit
rates up to 115.2 kbps. An IrDA SIR protocol encoder/decoder
can be optionally switched into the RX/TX signals to/from
UART 1 to enable these signals to drive an infrared
communication interface directly.
Multimedia Codec Port (MCP)
The Multimedia Codec Port provides access to an audio codec,
a telecom codec, a touchscreen interface, four general purpose
analog-to-digital converter inputs, and ten programmable
digital I/O lines.
Note: See Table R on page 11 for information on pin
multiplexes.
Pin Mnemonic I/O Pin Description
SDCLK O SDRAM clock output
SDCKE O SDRAM clock enable output
nSDCS[1:0] O SDRAM chip select out
WRITE/nSDRAS (Note 2) O SDRAM RAS signal output
nMOE/nSDCAS (Note 2) O SDRAM CAS control signal
nMWE/nSDWE (Note 2) O
SDRAM write enable control
signal
A[27:15]/DRA[0:12] (Note 1) O SDRAM address
A[14:13]/DRA[12:14] O SDRAM internal bank select
PD[7:6]/SDQM[1:0] (Note 2) I/O SDRAM byte lane mask
SDQM[3:2] O SDRAM byte lane mask
D[31:0] I/O Data I/O
Table C. SDRAM Interface Pin Assignments
Pin Mnemonic I/O Pin Description
TXD[1] O UART 1 transmit
RXD[1] I UART 1 receive
CTS I UART 1 clear to send
DCD I UART 1 data carrier detect
DSR I UART 1 data set ready
TXD[2] O UART 2 transmit
RXD[2] I UART 2 receive
LEDDRV O Infrared LED drive output
PHDIN I Photo diode input
Table D. Universal Asynchronous Receiver/Transmitters Pin
Assignments
Pin Mnemonic I/O Pin Description
SIBCLK O Serial bit clock
SIBDOUT O Serial data out
SIBDIN I Serial data in
SIBSYNC O Sample clock
Table E. MCP Interface Pin Assignments