EP9307-CRZR Cirrus Logic Inc, EP9307-CRZR Datasheet - Page 6

EP9307-CRZR

Manufacturer Part Number

EP9307-CRZR

Description

IC Universal Platform ARM9 SOC Prcessor

Manufacturer

Cirrus Logic Inc

Series

EP9r

Datasheets

1.EP9307-CRZ.pdf (16 pages)

2.EP9307-CRZ.pdf (50 pages)

3.EP9307-CRZ.pdf (824 pages)

Specifications of EP9307-CRZR

Core Processor

ARM9

Core Size

16/32-Bit

Speed

200MHz

Connectivity

EBI/EMI, Ethernet, I²C, IrDA, Keypad/Touchscreen, SPI, UART/USART, USB

Peripherals

AC'97, DMA, I&sup2:S, LCD, LED, MaverickKey, POR, PWM, WDT

Number Of I /o

Program Memory Type

ROMless

Ram Size

32K x 8

Voltage - Supply (vcc/vdd)

1.65 V ~ 3.6 V

Data Converters

A/D 8x12b

Oscillator Type

External

Operating Temperature

0°C ~ 70°C

Package / Case

272-LFBGA

Processor Series

EP93xx

Core

ARM920T

Data Bus Width

32 bit

3rd Party Development Tools

MDK-ARM, RL-ARM, ULINK2

Development Tools By Supplier

EDB9307A-Z

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Program Memory Size

Lead Free Status / Rohs Status

Details

Other names

Q5809834A

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

EP9307-CRZR

Manufacturer:

Cirrus Logic Inc

Quantity:

10 000

Current page: 6 of 50
Download datasheet (390Kb)

EP9307

ARM9 SOC with Ethernet, USB, Display and Touchscreen

Processor Core - ARM920T

The ARM920T is a Harvard architecture processor with

separate 16 kbyte instruction and data caches with an 8-

word line length but a unified memory. The processor

utilizes a five-stage pipeline consisting of fetch, decode,

execute, memory and write stages. Key features include:

•

MaverickCrunch

The

coprocessor designed primarily to accelerate the math

processing required to rapidly encode digital audio

formats. It accelerates single- and double-precision

integer and floating point operations plus an integer

multiply-accumulate

considerably faster than the ARM920T's native MAC

instruction. The ARM920T coprocessor interface is

utilized thereby sharing its memory interface and

instruction stream. Hardware forwarding and interlock

allows the ARM to handle looping and addressing while

MaverickCrunch handles computation. Features include:

•

MaverickKey

MaverickKey unique hardware programmed IDs are a

solution to the growing concern over secure web content

and commerce. With Internet security playing an

important role in the delivery of digital media such as

books or music, traditional software methods are quickly

becoming unreliable. The MaverickKey unique IDs

ARM (32-bit) and Thumb (16-bit compressed)

instruction sets

32-bit Advanced Micro-Controller Bus Architecture

(AMBA)

16 kbyte Instruction Cache with lockdown

16 kbyte Data Cache (programmable write-through or

write-back) with lockdown

MMU for Linux

operating systems

Translation Look Aside Buffers with 64 Data and 64

Instruction Entries

Programmable Page Sizes of 1 Mbyte, 64 kbyte,

4 kbyte, and 1 kbyte

Independent lockdown of TLB Entries

IEEE-754 single and double precision floating point

32/64-bit integer

Add/multiply/compare

Integer MAC 32-bit input with 72-bit accumulate

Integer Shifts

Floating point to/from integer conversion

Sixteen 64-bit register files

Four 72-bit accumulators

MaverickCrunch

™

, Microsoft

Unique ID

™

(MAC)

Math Engine

Engine

Windows

instruction



CE and other

mixed-mode

that

provide OEMs with a method of utilizing specific

hardware IDs such as those assigned for SDMI (Secure

Digital Music Initiative) or any other authentication

mechanism.

Both a specific 32-bit ID as well as a 128-bit random ID

are programmed into the EP9307 through the use of

laser probing technology. These IDs can then be used to

match secure copyrighted content with the ID of the

target device the EP9307 is powering, and then deliver

the copyrighted information over a secure connection. In

addition, secure transactions can benefit by also

matching device IDs to server IDs. MaverickKey IDs

provide a level of hardware security required for today’s

Internet appliances.

General Purpose Memory Interface (SDRAM,

SRAM, ROM, FLASH)

The EP9307 features a unified memory address model

where all memory devices are accessed over a common

address/data bus. A separate internal port is dedicated to

the read-only Raster/LCD refresh engine, while the rest

of the memory accesses are performed via the Processor

bus. The SRAM memory controller supports 8, 16 and

32-bit devices and accommodates an internal boot ROM

concurrently with 32-bit SDRAM memory.

•

SDCLK

SDCLKEN

SDCSn[3:0]

RASn

CASn

SDWEn

CSn[7:6] and CSn[3:0]

AD[25:0]

DA[31:0]

DQMn[3:0]

WRn

RDn

WAITn

Table B. General Purpose Memory Interface Pin Assignments

1 to 4 banks of 32-bit, 100 MHz SDRAM

One internal port dedicated to the Raster/LCD

Refresh Engine (Read Only)

Address and data bus shared between SDRAM,

SRAM, ROM, and FLASH memory

NOR FLASH memory supported

Pin Mnemonic

SDRAM Write Enable

Chip Selects 7, 6, 3, 2, 1, 0

Data Bus 31-0

SDRAM Output Enables / Data Masks

SRAM Write Strobe

SDRAM Clock

SDRAM Clock Enable

SDRAM Chip Selects 3-0

SDRAM RAS

SDRAM CAS

Address Bus 25-0

SRAM Read/OE Strobe

SRAM Wait Input

Pin Description

DS667F2

EP9307-CRZR Cirrus Logic Inc, EP9307-CRZR Datasheet - Page 6

EP9307-CRZR

Specifications of EP9307-CRZR

Available stocks

Related parts for EP9307-CRZR