SAM9260 Atmel Corporation, SAM9260 Datasheet - Page 27

SAM9260

Manufacturer Part Number

SAM9260

Description

Manufacturer

Atmel Corporation

Datasheets

1.M40800.pdf (284 pages)

2.M40800.pdf (153 pages)

3.SAM9260.pdf (290 pages)

4.SAM9260.pdf (802 pages)

5.SAM9260.pdf (47 pages)

Specifications of SAM9260

Flash (kbytes)

0 Kbytes

Pin Count

217

Max. Operating Frequency

210 MHz

Cpu

ARM926

Hardware Qtouch Acquisition

Max I/o Pins

Ext Interrupts

Usb Transceiver

Usb Speed

Full Speed

Usb Interface

Host, Device

Spi

Twi (i2c)

Uart

Ssc

Ethernet

Sd / Emmc

Graphic Lcd

Video Decoder

Camera Interface

Yes

Adc Channels

Adc Resolution (bits)

Adc Speed (ksps)

312

Resistive Touch Screen

Temp. Sensor

Crypto Engine

Sram (kbytes)

Self Program Memory

External Bus Interface

Dram Memory

sdram

Nand Interface

Yes

Picopower

Temp. Range (deg C)

-40 to 85

I/o Supply Class

1.8/3.3

Fpu

Mpu / Mmu

No / Yes

Timers

Output Compare Channels

Input Capture Channels

32khz Rtc

Yes

Calibrated Rc Oscillator

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Read Protocols

Standard Read Protocol

Early Read Protocol

Early Read Wait State

1354D–ATARM–08/02

The EBI provides two alternative protocols for external memory read access: standard

and early read. The difference between the two protocols lies in the timing of the NRD

(read cycle) waveform.

The protocol is selected by the DRP field in EBI_MCR (Memory Control Register) and is

valid for all memory devices. Standard read protocol is the default protocol after reset.

Note:

Standard read protocol implements a read cycle in which NRD and NWE are similar.

Both are active during the second half of the clock cycle. The first half of the clock cycle

allows time to ensure completion of the previous access as well as the output of address

and NCS before the read cycle begins.

During a standard read protocol, external memory access, NCS is set low and ADDR is

valid at the beginning of the access while NRD goes low only in the second half of the

master clock cycle to avoid bus conflict (see Figure 14). NWE is the same in both proto-

cols. NWE always goes low in the second half of the master clock cycle (see Figure 15).

Early read protocol provides more time for a read access from the memory by asserting

NRD at the beginning of the clock cycle. In the case of successive read cycles in the

same memory, NRD remains active continuously. Since a read cycle normally limits the

speed of operation of the external memory system, early read protocol can allow a

faster clock frequency to be used. However, an extra wait state is required in some

cases to avoid contentions on the external bus.

In early read protocol, an early read wait state is automatically inserted when an exter-

nal write cycle is followed by a read cycle to allow time for the write cycle to end before

the subsequent read cycle begins (see Figure 16). This wait state is generated in addi-

tion to any other programmed wait states (i.e. data float wait).

No wait state is added when a read cycle is followed by a write cycle, between consecu-

tive accesses of the same type or between external and internal memory accesses.

Early read wait states affect the external bus only. They do not affect internal bus timing.

Figure 14. Standard Read Protocol

In the following waveforms and descriptions, NRD represents NRD and NOE since the

two signals have the same waveform. Likewise, NWE represents NWE, NWR0 and

NWR1 unless NWR0 and NWR1 are otherwise represented. ADDR represents A0 - A23

and/or A1 - A23.

ADDR

MCKI

NWE

NCS

NRD

AT91X40 Series

SAM9260 Atmel Corporation, SAM9260 Datasheet - Page 27

SAM9260

Specifications of SAM9260

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