AT91SAM9G45-EKES Atmel, AT91SAM9G45-EKES Datasheet - Page 784

AT91SAM9G45-EKES

Manufacturer Part Number

AT91SAM9G45-EKES

Description

KIT EVAL FOR AT91SAM9G45

Manufacturer

Atmel

Series

AT91SAM Smart ARMr

Type

MCUr

Datasheets

1.AT91SAM9G45-EKES.pdf (56 pages)

2.AT91SAM9G45-EKES.pdf (1218 pages)

3.AT91SAM9G45-EKES.pdf (66 pages)

Specifications of AT91SAM9G45-EKES

Contents

Board

Processor To Be Evaluated

SAM9G45

Data Bus Width

32 bit

Interface Type

I2C, SPI, UART

Maximum Operating Temperature

+ 50 C

Minimum Operating Temperature

- 10 C

Operating Supply Voltage

1.8 V to 3.3 V

For Use With/related Products

AT91SAM9G45

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

Q4626953

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36.9

6438F–ATARM–21-Jun-10

SD/SDIO Card Operation

The High Speed MultiMedia Card Interface allows processing of SD Memory (Secure Digital

Memory Card) and SDIO (SD Input Output) Card commands.

SD/SDIO cards are based on the Multi Media Card (MMC) format, but are physically slightly

thicker and feature higher data transfer rates, a lock switch on the side to prevent accidental

overwriting and security features. The physical form factor, pin assignment and data transfer

protocol are forward-compatible with the High Speed MultiMedia Card with some additions. SD

slots can actually be used for more than flash memory cards. Devices that support SDIO can

use small devices designed for the SD form factor, such as GPS receivers, Wi-Fi or Bluetooth

adapters, modems, barcode readers, IrDA adapters, FM radio tuners, RFID readers, digital cam-

eras and more.

SD/SDIO is covered by numerous patents and trademarks, and licensing is only available

through the Secure Digital Card Association.

The SD/SDIO Card communication is based on a 9-pin interface (Clock, Command, 4 x Data

and 3 x Power lines). The communication protocol is defined as a part of this specification. The

main difference between the SD/SDIO Card and the High Speed MultiMedia Card is the initial-

ization process.

5. Poll CBTC[x] bit in the DMAC_EBCISR Register.

6. If a new list of buffers shall be transferred repeat step 7. Check and handle HSMCI

7. Poll FIFOEMPTY field in the HSMCI_SR.

8. Send The STOP_TRANSMISSION command writing the HSMCI_ARG then the

9. Wait for XFRDONE in HSMCI_SR register.

h. Program LLI_W(n).DMAC_CFGx register for channel x with the following field’s

k. Program DMAC_DSCRx register for channel x with the address of LLI_W(0).

errors.

HSMCI_CMDR.

–DST_DSCR is set to TRUE. (descriptor fetch is disabled for the DST)

–DIF and SIF are set with their respective layer ID. If SIF is different from DIF, the

values:

–FIFOCFG defines the watermark of the DMA channel FIFO.

–DST_REP is set to zero. Address are contiguous.

–SRC_H2SEL is set to true to enable hardware handshaking on the destination.

–SRC_PER is programmed with the hardware handshaking ID of the targeted

Program LLI_W(n).DMAC_DSCRx with the address of LLI_W(n+1) descriptor. And

set the DSCRx_IF to the AHB Layer ID. This operation actually links descriptors

together. If LLI_W(n) is the last descriptor then LLI_W(n).DMAC_DSCRx points to

Program DMAC_CTRLBx register for channel x with 0. its content is updated with

the LLI Fetch operation.

Enable Channel x writing one to DMAC_CHER[x]. The DMAC is ready and waiting

for request.

DMA Controller is able to prefetch data and write HSMCI simultaneously.

HSMCI Host Controller.

AT91SAM9G45

784

AT91SAM9G45-EKES Atmel, AT91SAM9G45-EKES Datasheet - Page 784

AT91SAM9G45-EKES

Specifications of AT91SAM9G45-EKES

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