SAM9G10 Atmel Corporation, SAM9G10 Datasheet - Page 613

SAM9G10

Manufacturer Part Number

SAM9G10

Description

Manufacturer

Atmel Corporation

Datasheets

1.SAM9261.pdf (1274 pages)

2.SAM9261.pdf (43 pages)

3.SAM9G10.pdf (750 pages)

4.SAM9G10.pdf (39 pages)

Specifications of SAM9G10

Flash (kbytes)

0 Kbytes

Pin Count

217

Max. Operating Frequency

266 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

Sd / Emmc

Graphic Lcd

Yes

Video Decoder

Camera Interface

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

Operating Voltage (vcc)

1.08 to 1.32

Fpu

Mpu / Mmu

No/Yes

Timers

Output Compare Channels

Input Capture Channels

32khz Rtc

Yes

Calibrated Rc Oscillator

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34.8

11053B–ATARM–22-Sep-11

High Speed MultiMediaCard Operations

Figure 34-6. SD Card Bus Connections with One Slot

Note:

When the HSMCI is configured to operate with SD memory cards, the width of the data bus can

be selected in the HSMCI_SDCR register. Clearing the SDCBUS bit in this register means that

the width is one bit; setting it means that the width is four bits. In the case of High Speed Multi-

Media cards, only the data line 0 is used. The other data lines can be used as independent

PIOs.

After a power-on reset, the cards are initialized by a special message-based High Speed Multi-

MediaCard bus protocol. Each message is represented by one of the following tokens:

Card addressing is implemented using a session address assigned during the initialization

phase by the bus controller to all currently connected cards. Their unique CID number identifies

individual cards.

The structure of commands, responses and data blocks is described in the High Speed MultiMe-

dia-Card System Specification. See also

High Speed MultiMediaCard bus data transfers are composed of these tokens.

There are different types of operations. Addressed operations always contain a command and a

response token. In addition, some operations have a data token; the others transfer their infor-

mation directly within the command or response structure. In this case, no data token is present

in an operation. The bits on the DAT and the CMD lines are transferred synchronous to the clock

HSMCI Clock.

Two types of data transfer commands are defined:

• Command: A command is a token that starts an operation. A command is sent from the host

• Response: A response is a token which is sent from an addressed card or (synchronously)

• Data: Data can be transferred from the card to the host or vice versa. Data is transferred via

• Sequential commands: These commands initiate a continuous data stream. They are

either to a single card (addressed command) or to all connected cards (broadcast

command). A command is transferred serially on the CMD line.

from all connected cards to the host as an answer to a previously received command. A

response is transferred serially on the CMD line.

the data line.

terminated only when a stop command follows on the CMD line. This mode reduces the

command overhead to an absolute minimum.

When several HSMCI (x HSMCI) are embedded in a product, MCCK refers to HSMCIx_CK,

MCCDA to HSMCIx_CDA MCDAy to HSMCIx_DAy.

MCDA0 - MCDA3

MCCDA

MCCK

Table 34-6 on page

614.

SD CARD

SAM9G35

613

SAM9G10 Atmel Corporation, SAM9G10 Datasheet - Page 613

SAM9G10

Specifications of SAM9G10

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