SAM9M10 Atmel Corporation, SAM9M10 Datasheet - Page 388

SAM9M10

Manufacturer Part Number

SAM9M10

Description

Manufacturer

Atmel Corporation

Datasheets

1.M40800.pdf (284 pages)

2.SAM9261.pdf (248 pages)

3.SAM9M10.pdf (59 pages)

4.SAM9M10.pdf (1398 pages)

Specifications of SAM9M10

Flash (kbytes)

0 Kbytes

Pin Count

324

Max. Operating Frequency

400 MHz

Cpu

ARM926

Hardware Qtouch Acquisition

Max I/o Pins

160

Ext Interrupts

160

Usb Transceiver

Usb Speed

Hi-Speed

Usb Interface

Host, Device

Spi

Twi (i2c)

Uart

Lin

Ssc

Ethernet

Sd / Emmc

Graphic Lcd

Yes

Video Decoder

Yes

Camera Interface

Yes

Adc Channels

Adc Resolution (bits)

Adc Speed (ksps)

440

Resistive Touch Screen

Yes

Temp. Sensor

Crypto Engine

Sram (kbytes)

Self Program Memory

External Bus Interface

Dram Memory

DDR2/LPDDR, SDRAM/LPSDR

Nand Interface

Yes

Picopower

Temp. Range (deg C)

-40 to 85

I/o Supply Class

1.8/3.3

Operating Voltage (vcc)

0.9 to 1.1

Fpu

Mpu / Mmu

No / Yes

Timers

Output Compare Channels

Input Capture Channels

Pwm Channels

32khz Rtc

Yes

Calibrated Rc Oscillator

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28.7.3.8

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SAM9M10

Transfer Size

SPI Direct Access Memory Controller (DMAC)

ever the SPI still controls the number of bits (8 to16) to be transferred through MISO and MOSI

lines with the chip select configuration registers. This is not the optimal means in term of mem-

ory size for the buffers, but it provides a very effective means to exchange data with several

peripherals without any intervention of the processor.

Depending on the data size to transmit, from 8 to 16 bits, the PDC manages automatically the

type of pointer's size it has to point to. The PDC will perform the following transfer size depend-

ing on the mode and number of bits per data.

Fixed Mode:

Variable Mode:

In variable Mode, PDC Pointer Address = Address +4 bytes and PDC Counter = Counter - 1 for

8 to 16-bit transfer size. When using the PDC, the TDRE and RDRF flags are handled by the

PDC, thus the user’s application does not have to check those bits. Only End of RX Buffer

(ENDRX), End of TX Buffer (ENDTX), Buffer Full (RXBUFF), TX Buffer Empty (TXBUFE) are

significant. For further details about the Peripheral DMA Controller and user interface, refer to

the PDC section of the product datasheet.

In both fixed and variable mode the Direct Memory Access Controller (DMAC) can be used to

reduce processor overhead.

The Fixed Peripheral Selection allows buffer transfers with a single peripheral. Using the DMAC

is an optimal means, as the size of the data transfer between the memory and the SPI is either 8

bits or 16 bits. However, changing the peripheral selection requires the Mode Register to be

reprogrammed.

The Variable Peripheral Selection allows buffer transfers with multiple peripherals without repro-

gramming the Mode Register. Data written in SPI_TDR is 32 bits wide and defines the real data

to be transmitted and the peripheral it is destined to. Using the DMAC in this mode requires 32-

bit wide buffers, with the data in the LSBs and the PCS and LASTXFER fields in the MSBs, how-

ever the SPI still controls the number of bits (8 to16) to be transferred through MISO and MOSI

lines with the chip select configuration registers. This is not the optimal means in term of mem-

ory size for the buffers, but it provides a very effective means to exchange data with several

peripherals without any intervention of the processor.

• 8-bit Data:

• 8-bit to 16-bit Data:

Byte transfer,

PDC Pointer Address = Address + 1 byte,

PDC Counter = Counter - 1

2 bytes transfer. n-bit data transfer with don’t care data (MSB) filled with 0’s,

PDC Pointer Address = Address + 2 bytes,

PDC Counter = Counter - 1

6355D–ATARM–7-Sep-11

SAM9M10 Atmel Corporation, SAM9M10 Datasheet - Page 388

SAM9M10

Specifications of SAM9M10

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