EP9302-CQZ Cirrus Logic Inc, EP9302-CQZ Datasheet - Page 612

EP9302-CQZ

Manufacturer Part Number

EP9302-CQZ

Description

IC ARM9 SOC PROCESSOR 208LQFP

Manufacturer

Cirrus Logic Inc

Series

EP9r

Datasheets

1.EP9307-CRZ.pdf (824 pages)

2.EP9302-IQZ.pdf (42 pages)

3.EP9302-IQZ.pdf (4 pages)

4.EP9302-IQZ.pdf (40 pages)

Specifications of EP9302-CQZ

Program Memory Type

ROMless

Package / Case

208-LQFP

Core Processor

ARM9

Core Size

16/32-Bit

Speed

200MHz

Connectivity

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

Peripherals

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

Number Of I /o

Ram Size

32K x 8

Voltage - Supply (vcc/vdd)

1.65 V ~ 3.6 V

Data Converters

A/D 5x12b

Oscillator Type

External

Operating Temperature

0°C ~ 70°C

Processor Series

EP93xx

Core

ARM920T

Data Bus Width

32 bit

Data Ram Size

16 bit

Interface Type

USB, USART, SPI

Maximum Clock Frequency

200 MHz

Number Of Programmable I/os

Mounting Style

SMD/SMT

3rd Party Development Tools

MDK-ARM, RL-ARM, ULINK2

Development Tools By Supplier

EDB9302A-Z

Controller Family/series

(ARM9)

No. Of I/o's

Ram Memory Size

16MB

Cpu Speed

200MHz

No. Of Timers

Embedded Interface Type

AC97, I2S, SPI, UART, USB

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1132 - KIT DEVELOPMENT EP9302 ARM9

Eeprom Size

Program Memory Size

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

598-1137

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17-16

17.5.1.2.1 Address Field

17.5.1.2.2 Control Field

17.5.1.2.3 Data Field

17.5.1.2.4 CRC Field

IrDA

EP93xx User’s Guide

The preamble, start and stop flags are a mixture of symbols which contain either 0, 1, or 2

pulses within the four time slots. Symbols with 0 and 2 pulses are used to construct flags

since they represent invalid data bit pairings (one pulse required per symbol to represent one

of four bit pairs). The preamble contains sixteen repeated transmissions of the four symbols:

1000 0000 1010 1000, the start flag contains one transmission of eight symbols: 0000 1100

0000 1100 0110 0000 0110 0000 and the stop flag contains one transmission of eight

symbols: 0000 1100 0000 1100 0000 0110 0000 0110. The address, control, data and CRC-

32 all use the standard 4PPM DDs described above.

The 8 bit address field is used by a transmitter to target a select group of receivers when

multiple stations are connected to the same set of serial lines. The address allows up to 255

stations to be uniquely addressed (00000000b to 11111110b). The global address

(11111111b) is use to broadcast messages to all stations. Serial port 1 contains an 8 bit

control bit to enable/disable the address match function. Note that the address of received

frames is stored in the receive buffer along with normal data and that it is transmitted and

received starting with its LSB and ending with its MSB.

The IPC control field is 8 bits and is optional (as defined by the user). The FIR does not

provide any hardware decode support for the control byte, but instead treats all bytes

between the address and the CRC as data. Note that the control field is transmitted and

received starting with its LSB and ending with its MSB.

The data field can be any length which is a multiple of 8 bits, from 0 to 2045 bytes. The user

determines the data field length according to the application requirements and transmission

characteristics of the target system. Usually a length is selected which maximizes the amount

of data which can be transmitted per frame, while allowing the CRC checker to be able to

consistently detect all errors during transmission. Note that the serial port does not contain

any hardware which restricts the maximum amount of data transmitted or received. It is up to

the user to maintain these limits. If a data field which is not a multiple of 8 bits is received an

abort is signalled. Also note that each byte within the data field is transmitted and received

starting with its LSB and ending with its MSB.

The FIR uses the established 32 bit cyclical redundancy check (CRC-32) to detect bit errors

which occur during transmission. A 32 bit CRC is computed using the address, control and

data fields and is included in each frame. A separate CRC generator is implemented in both

the transmit and receive logic. The transmitter calculates a CRC while data is actively

transmitted byte shifting each byte transmitted through its serial shifter LSB first, then places

the inverse of the resultant 32 bit value at the end of each frame before the flag is transmitted.

In a similar manner, the receiver also calculates a CRC for each received data frame and

compares the calculated CRC to the expected CRC value contained within the end of each

received frame. If the calculated value does not match the expected value, an interrupt is

DS785UM1

EP9302-CQZ Cirrus Logic Inc, EP9302-CQZ Datasheet - Page 612

EP9302-CQZ

Specifications of EP9302-CQZ

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