EP7312_05 Datasheet, PDF(9/64 Page) Cirrus Logic – High-performance, Low-power, System-on-chip with SDRAM & Enhanced with SDRAM & Enhanced

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EP7312_05 Datasheet, PDF (9/64 Pages) Cirrus Logic – High-performance, Low-power, System-on-chip with SDRAM & Enhanced with SDRAM & Enhanced

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EP7312

High-Performance, Low-Power System on Chip

strobes for each keyboard column signal. The pins of Port A,

when configured as inputs, can be selectively OR'ed together

to provide a keyboard interrupt that is capable of waking the

system from a STANDBY or IDLE state. The Keypad

Interface has these features:

â¢ Column outputs can be individually set high with the

remaining bits left at high-impedance

â¢ Column outputs can be driven all-low, all-high, or all-high-

impedance

â¢ Keyboard interrupt driven by OR'ing together all Port A

bits

â¢ Keyboard interrupt can be used to wake up the system

â¢ 8Ã8 keyboard matrix usable with no external logic, extra

keys can be added with minimal glue logic

Table 10 shows the Keypad Interface Pin Assignments.

Table 10. Keypad Interface Pin Assignments

Pin Mnemonic

I/O

Pin Description

COL[7:0]

Keyboard scanner column drive

Interrupt Controller

When unexpected events arise during the execution of a

program (i.e., interrupt or memory fault) an exception is

usually generated. When these exceptions occur at the same

time, a fixed priority system determines the order in which

they are handled. The EP7312 interrupt controller has two

interrupt types: interrupt request (IRQ) and fast interrupt

request (FIQ). The interrupt controller has the ability to control

interrupts from 22 different FIQ and IRQ sources. The

Interrupt controller has these features:

â¢ Supports 22 interrupts from a variety of sources (such as

UARTs, SSI1, and key matrix.)

â¢ Routes interrupt sources to the ARM720Tâs IRQ or FIQ

(Fast IRQ) inputs

â¢ Five dedicated off-chip interrupt lines operate as level

sensitive interrupts

Table 11 shows the interrupt controller pin assignments.

Real-Time Clock

The EP7312 contains a 32-bit Real Time Clock (RTC) that can

be written to and read from in the same manner as the timer

counters. It also contains a 32-bit output match register which

can be programmed to generate an interrupt.

â¢ Driven by an external 32.768 kHz crystal oscillator

Table 12 shows the Real-Time Clock pin assignments.

Table 12. Real-Time Clock Pin Assignments

Pin Mnemonic

Pin Description

RTCIN

RTCOUT

VDDRTC

VSSRTC

Real-Time Clock Oscillator Input

Real-Time Clock Oscillator Output

Real-Time Clock Oscillator Power

Real-Time Clock Oscillator Ground

PLL and Clocking

The EP7312 processor and peripheral clocks have these

features:

â¢ Processor and peripheral clocks operate from a single

3.6864 MHz crystal or external 13 MHz clock

â¢ Programmable clock speeds allow the peripheral bus to run

at 18 MHz when the processor is set to 18 MHz and at

36 MHz when the processor is set to 36, 49 or 74 MHz, and

at 45 MHz when the processor is set to 90 MHz.

Table 13 shows the PLL and clocking pin assignments.

Table 13. PLL and Clocking Pin Assignments

Pin Mnemonic

Pin Description

MOSCIN

MOSCOUT

VDDOSC

VSSOSC

Main Oscillator Input

Main Oscillator Output

Main Oscillator Power

Main Oscillator Ground

Table 11. Interrupt Controller Pin Assignments

Pin Mnemonic

I/O

Pin Description

nEINT[2:1]

EINT[3]

nEXTFIQ

nMEDCHG/nBROM

(Note)

I External interrupt

I External Fast Interrupt input

I Media change interrupt input

Note: Pins are multiplexed. See Table 19 on page 11 for

more information.

DS508F1

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