AT91SAM9263B-CU Atmel, AT91SAM9263B-CU Datasheet - Page 385

AT91SAM9263B-CU

Manufacturer Part Number

AT91SAM9263B-CU

Description

IC ARM9 MCU 200 MHZ 324-TFBGA

Manufacturer

Atmel

Series

AT91SAMr

Datasheets

1.AT91SAM9263B-CU.pdf (51 pages)

2.AT91SAM9263B-CU.pdf (1110 pages)

Specifications of AT91SAM9263B-CU

Core Processor

ARM9

Core Size

16/32-Bit

Speed

240MHz

Connectivity

CAN, Ethernet, I²C, MMC, SPI, SSC, UART/USART, USB

Peripherals

AC'97, LCD, POR, PWM, WDT

Number Of I /o

160

Program Memory Size

128KB (128K x 8)

Program Memory Type

ROM

Ram Size

128K x 8

Voltage - Supply (vcc/vdd)

1.08 V ~ 1.32 V

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

324-TFBGA

Processor Series

AT91SAMx

Core

ARM926EJ-S

Data Bus Width

32 bit

Data Ram Size

96 KB

Interface Type

2-Wire, EBI, I2S, MCI, SPI, USART

Maximum Clock Frequency

200 MHz

Number Of Programmable I/os

160

Number Of Timers

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

3rd Party Development Tools

JTRACE-ARM-2M, MDK-ARM, RL-ARM, ULINK2

Development Tools By Supplier

AT91SAM-ICE, AT91-ISP, AT91SAM9263-EK

Minimum Operating Temperature

- 40 C

Package

324TFBGA

Device Core

ARM926EJ-S

Family Name

91S

Maximum Speed

200 MHz

Operating Supply Voltage

1.8|2.5|3.3 V

Controller Family/series

AT91SAM9xxx

No. Of I/o's

160

Ram Memory Size

96KB

Cpu Speed

240MHz

No. Of Timers

Rohs Compliant

Yes

For Use With

AT91SAM9263-EK - KIT EVAL FOR AT91SAM9263AT91SAM-ICE - EMULATOR FOR AT91 ARM7/ARM9

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Data Converters

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

Q3735625

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Current page: 385 of 1110
Download datasheet (17Mb)

6249H–ATARM–27-Jul-09

It is assumed that:

When nIRQ is asserted, if the bit “I” of CPSR is 0, the sequence is as follows:

Note:

1. The Advanced Interrupt Controller has been programmed, AIC_SVR registers are

2. The instruction at the ARM interrupt exception vector address is required to work with

1. The CPSR is stored in SPSR_irq, the current value of the Program Counter is loaded in

2. The ARM core enters Interrupt mode, if it has not already done so.

3. When the instruction loaded at address 0x18 is executed, the program counter is

4. The previous step has the effect of branching to the corresponding interrupt service

5. Further interrupts can then be unmasked by clearing the “I” bit in CPSR, allowing re-

6. The interrupt handler can then proceed as required, saving the registers that will be

7. The “I” bit in CPSR must be set in order to mask interrupts before exiting to ensure that

8. The End of Interrupt Command Register (AIC_EOICR) must be written in order to indi-

LDR PC, [PC, # -&F20]

loaded with corresponding interrupt service routine addresses and interrupts are

enabled.

the vectoring

the Interrupt link register (R14_irq) and the Program Counter (R15) is loaded with 0x18.

In the following cycle during fetch at address 0x1C, the ARM core adjusts R14_irq, dec-

rementing it by four.

loaded with the value read in AIC_IVR. Reading the AIC_IVR has the following effects:

– Sets the current interrupt to be the pending and enabled interrupt with the highest

– De-asserts the nIRQ line on the processor. Even if vectoring is not used, AIC_IVR

– Automatically clears the interrupt, if it has been programmed to be edge-triggered.

– Pushes the current level and the current interrupt number on to the stack.

– Returns the value written in the AIC_SVR corresponding to the current interrupt.

routine. This should start by saving the link register (R14_irq) and SPSR_IRQ. The link

the program counter at the end of the interrupt. For example, the instruction SUB PC,

LR, #4 may be used.

assertion of the nIRQ to be taken into account by the core. This can happen if an inter-

rupt with a higher priority than the current interrupt occurs.

used and restoring them at the end. During this phase, an interrupt of higher priority

than the current level will restart the sequence from step 1.

the interrupt is completed in an orderly manner.

cate to the AIC that the current interrupt is finished. This causes the current level to be

popped from the stack, restoring the previous current level if one exists on the stack. If

another interrupt is pending, with lower or equal priority than the old current level but

with higher priority than the new current level, the nIRQ line is re-asserted, but the inter-

rupt sequence does not immediately start because the “I” bit is set in the core.

SPSR_irq is restored. Finally, the saved value of the link register is restored directly into

the PC. This has the effect of returning from the interrupt to whatever was being exe-

cuted before, and of loading the CPSR with the stored SPSR, masking or unmasking

the interrupts depending on the state saved in SPSR_irq.

priority. The current level is the priority level of the current interrupt.

must be read in order to de-assert nIRQ.

If the interrupt is programmed to be level sensitive, the source of the interrupt must be cleared dur-

ing this phase.

AT91SAM9263

385

AT91SAM9263B-CU Atmel, AT91SAM9263B-CU Datasheet - Page 385

AT91SAM9263B-CU

Specifications of AT91SAM9263B-CU

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