EP7312-IBZ Cirrus Logic Inc, EP7312-IBZ Datasheet - Page 6

EP7312-IBZ

Manufacturer Part Number

EP7312-IBZ

Description

IC ARM720T MCU 74MHZ 256-PBGA

Manufacturer

Cirrus Logic Inc

Series

EP7r

Datasheets

1.EP7312-CBZ.pdf (64 pages)

2.EP7312-IVZ.pdf (54 pages)

Specifications of EP7312-IBZ

Core Size

32-Bit

Core Processor

ARM7

Speed

74MHz

Connectivity

Codec, DAI, EBI/EMI, IrDA, Keypad, SPI/Microwire1, UART/USART

Peripherals

LCD, LED, MaverickKey, PWM

Number Of I /o

Program Memory Type

ROMless

Ram Size

56K x 8

Voltage - Supply (vcc/vdd)

2.3 V ~ 2.7 V

Oscillator Type

External

Operating Temperature

-40°C ~ 85°C

Package / Case

256-BGA

Controller Family/series

(ARM7)

No. Of I/o's

Ram Memory Size

48KB

Cpu Speed

74MHz

No. Of Timers

No. Of Pwm Channels

Digital Ic Case Style

BGA

Embedded Interface Type

SSI, UART

Rohs Compliant

Yes

Processor Series

EP73xx

Core

ARM720T

Data Bus Width

32 bit

3rd Party Development Tools

MDK-ARM, RL-ARM, ULINK2

Development Tools By Supplier

EDB7312

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1209 - KIT DEVELOPMENT EP73XX ARM7

Eeprom Size

Program Memory Size

Data Converters

Lead Free Status / Rohs Status

Details

Other names

598-1242

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

EP7312-IBZ

Manufacturer:

CIRRUS

Quantity:

Company:

BOSTOCK HK LIMITED

Part Number:

EP7312-IBZ

Manufacturer:

Cirrus Logic Inc

Quantity:

10 000

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EP7312

High-Performance, Low-Power System on Chip

Description of the EP7312’s Components, Functionality, and Interfaces

The following sections describe the EP7312 in more detail.

Processor Core - ARM720T

The EP7312 incorporates an ARM 32-bit RISC micro

controller that controls a wide range of on-chip peripherals.

The processor utilizes a three-stage pipeline consisting of

fetch, decode and execute stages. Key features include:

•

Power Management

The EP7312 is designed for ultra-low-power operation. Its core

operates at only 2.5 V, while its I/O has an operation range of

2.5 V–3.3 V. The device has three basic power states:

Table 1

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 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.

BATOK

nEXTPWR

nPWRFL

nBATCHG

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

sets

Enhanced MMU for Microsoft Windows CE and other

operating systems

8 KB of 4-way set-associative cache.

Translation Look Aside Buffers with 64 Translated Entries

Pin Mnemonic

• Operating — This state is the full performance state.

• Idle — This state is the same as the Operating State,

• Standby — This state is equivalent to the computer

shows the power management pin assignments.

Table 1. Power Management Pin Assignments

All the clocks and peripheral logic are enabled.

except the CPU clock is halted while waiting for an

event such as a key press.

being switched off (no display), and the main

oscillator shut down. An event such as a key press

can wake-up the processor.

™

Unique ID

I/O

Battery ok input

External power supply sense

input

Power fail sense input

Battery changed sense input

Pin Description

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

programmed into the EP7312 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

EP7312 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.

Memory Interfaces

There are two main external memory interfaces. The first one

programmable wait-state timings and includes burst-mode

capability, with six chip selects decoding six 256 MB sections

of addressable space. For maximum flexibility, each bank can

be specified to be 8-, 16-, or 32-bits wide. This allows the use

of 8-bit-wide boot ROM options to minimize overall system

cost. The on-chip boot ROM can be used in product

manufacturing to serially download system code into system

FLASH memory. To further minimize system memory

requirements and cost, the ARM Thumb instruction set is

supported, providing for the use of high-speed 32-bit

operations in 16-bit op-codes and yielding industry-leading

code density. shows the Static Memory Interface pin

assignments.

nCS[5:0]

A[27:0]

D[31:0]

nMOE/nSDCAS

nMWE/nSDWE

HALFWORD

WORD

WRITE/nSDRAS

Note:

the

Pin Mnemonic

Table 2. Static Memory Interface Pin Assignments

ROM/SRAM/FLASH-style

Pins are multiplexed. See

more information.

(Note)

I/O

Table 19 on page 11

Chip select out

Address output

Data I/O

ROM expansion OP enable

ROM expansion write enable

Halfword access select

output

Word access select output

Transfer direction

Pin Description

interface

for

that

DS508F1

has

EP7312-IBZ Cirrus Logic Inc, EP7312-IBZ Datasheet - Page 6

EP7312-IBZ

Specifications of EP7312-IBZ

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