AT91SAM9M10 ATMEL Corporation, AT91SAM9M10 Datasheet

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AT91SAM9M10

Manufacturer Part Number
AT91SAM9M10
Description
At91 Arm Thumb-based Microcontrollers
Manufacturer
ATMEL Corporation
Datasheet

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Features
400 MHz ARM926EJ-S™ ARM® Thumb® Processor
Memories
Peripherals
System
I/O
Package
– 32 KBytes Data Cache, 32 KBytes Instruction Cache, MMU
– DDR2 Controller 4-bank DDR2/LPDDR, SDRAM/LPSDR
– External Bus Interface supporting 4-bank DDR2/LPDDR, SDRAM/LPSDR, Static
– One 64-KByte internal SRAM, single-cycle access at system speed or processor
– One 64-KByte internal ROM, embedding bootstrap routine
– Multi-format Video Decoder
– LCD Controller supporting STN and TFT displays up to 1280*860
– ITU-R BT. 601/656 Image Sensor Interface
– USB Device High Speed, USB Host High Speed and USB Host Full Speed with On-
– 10/100 Mbps Ethernet MAC Controller
– Two High Speed Memory Card Hosts (SDIO, SDCard, MMC)
– AC'97 controller
– Two Master/Slave Serial Peripheral Interfaces
– Two Three-channel 16-bit Timer/Counters
– Two Synchronous Serial Controllers (I2S mode)
– Four-channel 16-bit PWM Controller
– Two Two-wire Interfaces
– Four USARTs with ISO7816, IrDA, Manchester and SPI modes
– 8-channel 10-bit ADC with 4-wire Touch Screen support
– 133 MHz twelve 32-bit layer AHB Bus Matrix
– 37 DMA Channels
– Boot from NAND Flash, SDCard, DataFlash® or serial DataFlash
– Reset Controller with on-chip Power-on Reset
– Selectable 32768 Hz Low-power and 12 MHz Crystal Oscillators
– Internal Low-power 32 kHz RC Oscillator
– One PLL for the system and one 480 MHz PLL optimized for USB High Speed
– Two Programmable External Clock Signals
– Advanced Interrupt Controller and Debug Unit
– Periodic Interval Timer, Watchdog Timer, Real Time Timer and Real Time Clock
– Five 32-bit Parallel Input/Output Controllers
– 160 Programmable I/O Lines Multiplexed with up to Two Peripheral I/Os with
– 324-ball TFBGA, pitch 0.8 mm
Memories, CompactFlash
speed through TCM interface
Chip Transceiver
Schmitt trigger input
®
, SLC NAND Flash with ECC
AT91 ARM
Thumb-based
Microcontrollers
AT91SAM9M10
Preliminary
Summary
NOTE: This is a summary document.
The complete document is available on
the Atmel website at www.atmel.com.
6355AS–ATARM–06-Jan-10

Related parts for AT91SAM9M10

AT91SAM9M10 Summary of contents

Page 1

... Programmable I/O Lines Multiplexed with up to Two Peripheral I/Os with Schmitt trigger input • Package – 324-ball TFBGA, pitch 0.8 mm AT91 ARM Thumb-based Microcontrollers AT91SAM9M10 Preliminary Summary NOTE: This is a summary document. The complete document is available on the Atmel website at www.atmel.com. 6355AS–ATARM–06-Jan-10 ...

Page 2

... The AT91SAM9M10 supports the latest generation of DDR2 and NAND Flash memory inter- faces for program and data storage. An internal 133 MHz multi-layer bus architecture associated with 37 DMA channels, a dual external bus interface and distributed memory including a 64- KByte SRAM which can be configured as a tightly coupled memory (TCM) sustains the high bandwidth required by the processor and the high speed peripherals ...

Page 3

... Block Diagram Figure 2-1. AT91SAM9M10 Block Diagram 6355AS–ATARM–06-Jan-10 PIO AT91SAM9M10 3 ...

Page 4

... XOUT Main Oscillator Output XIN32 Slow Clock Oscillator Input XOUT32 Slow Clock Oscillator Output VBG Bias Voltage Reference for USB PCK0 - PCK1 Programmable Clock Output AT91SAM9M10 4 gives details on the signal names classified by peripheral. Active Type Level Power Supplies Power Power Power ...

Page 5

... Input Debug Unit - DBGU Input Output Advanced Interrupt Controller - AIC Input Input PIO Controller - PIOA- PIOB - PIOC - PIOD - PIOE I/O I/O AT91SAM9M10 Reference Voltage Comments Driven at 0V only. 0: The device is in backup mode VDDBU 1: The device is running (not in backup mode). Accept between 0V and VDDBU VDDBU ...

Page 6

... NWR0 - NWR3 Write Signal NRD Read Signal NWE Write Enable NBS0 - NBS3 Byte Mask Signal CFCE1 - CFCE2 CompactFlash Chip Enable CFOE CompactFlash Output Enable CFWE CompactFlash Write Enable CFIOR CompactFlash IO Read AT91SAM9M10 6 Active Reference Type Level (1) I/O (1) I/O (1) I/O I/O VDDIOM0 Output VDDIOM0 Output ...

Page 7

... Output Low Output Output Output High Speed Multimedia Card Interface - HSMCIx I/O I/O I/O I/O Output Input Output Input Synchronous Serial Controller - SSCx Output Input I/O I/O I/O I/O AT91SAM9M10 Reference Voltage Comments VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 VDDIOM1 (1) (1) ...

Page 8

... USB Host Port B High Speed Data - DFSDM USB Device Full Speed Data - DFSDP USB Device Full Speed Data + DHSDM USB Device High Speed Data - DHSDP USB Device High Speed Data + AT91SAM9M10 8 Active Type Level AC97 Controller - AC97C Input Output Output Input ...

Page 9

... LCD Controller - LCDC Output Output Output Output Output Output Output Output Touch Screen Analog-to-Digital Converter Analog Analog Analog AT91SAM9M10 Reference Voltage Comments (1) MII only, REFCK in RMII (1) MII only (1) (1) ETX0-ETX1 only in RMII (1) MII only (1) RXDV in MII, CRSDV in RMII ...

Page 10

... I/O lines default as inputs with pull-up resistors enabled, except those which are multiplexed with the External Bus Inter- face signals that require to be enabled as Peripheral at reset. This is explicitly indicated in the column “Reset State” of the peripheral multiplexing tables. AT91SAM9M10 10 Active Reference ...

Page 11

... Package and Pinout The AT91SAM9M10 is delivered in a 324-ball LFBGA package. 4.1 Mechanical Overview of the 324-ball LFBGA Package Figure 4-1 Figure 4-1. 6355AS–ATARM–06-Jan-10 shows the orientation of the 324-ball LFBGA Package Orientation of the 324-ball LFBGA Package ...

Page 12

... TFBGA Package Pinout Table 4-1. AT91SAM9M10 Pinout for 324-ball BGA Package Pin Signal Name Pin A1 PC27 E10 A2 PC28 E11 A3 PC25 E12 A4 PC20 E13 A5 PC12 E14 A6 PC7 E15 A7 PC5 E16 A8 PC0 E17 A9 NWR3/NBS3 E18 A10 NCS0 F1 A11 DQS0 F2 A12 RAS F3 A13 SDCK ...

Page 13

... Table 4-1. AT91SAM9M10 Pinout for 324-ball BGA Package (Continued) Pin Signal Name Pin C13 D10 H4 C14 D6 H5 C15 D2 H6 C16 GNDIOM H7 C17 A18 H8 C18 A12 H9 D1 XOUT32 H10 D2 PD20 H11 D3 GNDBU H12 D4 VDDBU H13 D5 PC24 H14 D6 PC18 H15 D7 PC13 H16 D8 PC6 H17 ...

Page 14

... Power Considerations 5.1 Power Supplies The AT91SAM9M10 has several types of power supply pins: • VDDCORE pins: Power the core, including the processor, the embedded memories and the peripherals; voltage ranges from 0.9V to 1.1V, 1.0V nominal. • VDDIOM0 pins: Power the DDR2/LPDDR I/O lines; voltage ranges between 1.65V and 1.95V (1.8V typical). • ...

Page 15

... Separate Address and Data Buses for both the 32-bit instruction interface and the – On Address and Data Buses, data can be 8-bit (Bytes), 16-bit (Half-words) or 32-bit • TCM Interface 6355AS–ATARM–06-Jan-10 each quarter of the page system flexibility 32-bit data interface (Words) AT91SAM9M10 15 ...

Page 16

... Allows Handling of Dynamic Exception Vectors 6.2.1 Matrix Masters The Bus Matrix of the AT91SAM9M10 manages Masters, thus each master can perform an access concurrently with others, depending on whether the slave it accesses is available. Each Master has its own decoder, which can be defined specifically for each master. In order to simplify the addressing, all the masters have the same decodings ...

Page 17

... UDP High Speed RAM LCD User Interface Video Decoder DDR Port 0 DDR Port 1 DDR Port 2 DDR Port 3 External Bus Interface Internal Peripherals Video Decoder is not enabled (VDEC_SEL=0) Video Decoder is enabled (VDEC_SEL=1), AT91SAM9M10 , the ARM instruction and data are DDR Port 0 is dedicated to the video 17 ...

Page 18

... DDR Port DDR Port DDR Port EBI X 7 Internal Periph. X AT91SAM9M10 18 Video Mode Configuration Video Decoder LCD + Post Processing DMA MATRIX AT91SAM9M10 Masters to Slaves Access with VDEC_SEL = & 5 USB Host PDC OHCI DMA ...

Page 19

... Acting as one AHB Bus Matrix Master • Allows data transfers from/to peripheral to/from any memory space without any intervention of the processor. • Next Pointer support, prevents strong real-time constraints on buffer management. 6355AS–ATARM–06-Jan-10 AT91SAM9M10 Masters to Slaves Access with VDEC_SEL = 1 (default & 5 ...

Page 20

... SSC1 SSC0 6.4 USB The AT91SAM9M10 features USB communication ports as follows: • 2 Ports USB Host full speed OHCI and High speed EHCI • 1 Device High speed USB Host Port A is directly connected to the first UTMI transceiver. The Host Port B is multiplexed with the USB device High speed and connected to the second UTMI port ...

Page 21

... SSC1 AC97C AC97C MCI1 6355AS–ATARM–06-Jan-10 USB Selection HS HS Transceiver Transceiver EHCI FS OHCI DMA DMA Channel Definition DMA Channel HW T/R interface Number TX/ TX/RX 13 AT91SAM9M10 EN_UDPHS 1 HS USB DMA 21 ...

Page 22

... Two Independent Registers: Debug Control Register and Debug Status Register – Test Access Port Accessible through JTAG Protocol – Debug Communications Channel • Debug Unit – Two-pin UART – Debug Communication Channel Interrupt Handling – Chip ID Register • IEEE1149.1 JTAG Boundary-scan on All Digital Pins. AT91SAM9M10 22 6355AS–ATARM–06-Jan-10 ...

Page 23

... Memories 6355AS–ATARM–06-Jan-10 AT91SAM9M10 23 ...

Page 24

... Figure 7-1. AT91SAM9M10 Memory Mapping Address Memory Space 0x0000 0000 Internal Memories 0x0FFF FFFF 0x1000 0000 EBI Chip Select 0 0x1FFF FFFF 0x2000 0000 EBI Chip Select 1/ DDR2SDRC1 Chip Select 0x2FFF FFFF 0x3000 0000 EBI Chip Select 2 0x3FFF FFFF 0x4000 0000 EBI Chip Select 3/ ...

Page 25

... Embedded Memories 7.2.1 Internal SRAM The AT91SAM9M10 product embeds a total of 64 Kbytes high-speed SRAM split in 4 blocks of 16 KBytes connected to one slave of the matrix. After reset and until the Remap Command is performed, the four SRAM blocks are contiguous and only accessible at address 0x00300000. ...

Page 26

... Note: All the memory blocks can always be seen at their specified base addresses that are not concerned by these parameters. The AT91SAM9M10 Bus Matrix manages a boot memory that depends on the level on the pin BMS at reset. The internal memory area mapped between address 0x0 and 0x000F FFFF is reserved to this effect ...

Page 27

... Reprogram the SMC setup, cycle, hold, mode timings registers for EBI CS0 to adapt them to the new clock • Switch the main clock to the new value 7.3 External Memories The AT91SAM9M10 features an External Bus Interface to interface to a wide range of external memories and to any parallel peripheral. 7.3.1 DDR2/LPDDR Interface • Integrates 4-ports DDR2/LPDDR controller that support: – ...

Page 28

... Self-refresh, Power-down and Deep Power Modes Supported • Power-up Initialization by Software • CAS Latency Supported • Reset function supported (DDR2) • Auto Precharge Command Not Used • On Die Termination not supported • OCD mode not supported AT91SAM9M10 28 Average Latency of Transactions support 6355AS–ATARM–06-Jan-10 ...

Page 29

... Tracking the accesses to a NAND Flash device by triggering on the corresponding chip select • Single bit error correction and 2-bit Random detection. • Automatic Hamming Code Calculation while writing – ECC value available in a register • Automatic Hamming Code Calculation while reading 6355AS–ATARM–06-Jan-10 Average Latency of Transactions) AT91SAM9M10 29 ...

Page 30

... Error Report, including error flag, correctable error flag and word address being detected erroneous – Support 8- or 16-bit NAND Flash devices with 512-, 1024-, 2048- or 4096-bytes pages AT91SAM9M10 30 6355AS–ATARM–06-Jan-10 ...

Page 31

... All the registers of the System Controller can be addressed from a single pointer by using the standard ARM instruction set, as the Load/Store instruction have an indexing mode of ±4 KB. Figure 8-1 on page 32 Figure 7-1 on page 24 peripherals. 6355AS–ATARM–06-Jan-10 shows the System Controller block diagram. shows the mapping of the User Interfaces of the System Controller AT91SAM9M10 31 ...

Page 32

... System Controller Block Diagram Figure 8-1. AT91SAM9M10 System Controller Block Diagram periph_irq[2..24] pit_irq rtt_irq wdt_irq dbgu_irq pmc_irq rstc_irq periph_nreset dbgu_rxd periph_nreset proc_nreset NRST VDDCORE POR VDDBU VDDBU POR backup_nreset backup_nreset SHDN WKUP RC OSC SLOW XIN32 CLOCK XOUT32 OSC XIN 12MHz MAIN OSC ...

Page 33

... MHz input, the only limitation being the lowest input frequency shall be higher or equal to 2 MHz. The USB Device and Host HS Clocks are provided by a the dedicated UTMI PLL (UPLL) embedded in the UTMI macro. 6355AS–ATARM–06-Jan-10 AT91SAM9M10 33 ...

Page 34

... Figure 8-2. 8.6 Slow Clock Selection The AT91SAM9M10 slow clock can be generated either by an external 32768Hz crystal or the on-chip RC oscillator. The 32768 Hz crystal oscillator can be bypassed, by setting the bit OSC32BYP, to accept an external slow clock on XIN32. The internal RC oscillator and the 32768 Hz oscillator can be enabled by setting to 1 respec- tively RCEN bit and OSC32EN bit in the system controller user interface ...

Page 35

... Enable the internal RC oscillator by setting the bit RCEN to 1. • Wait internal RC Startup Time for clock stabilization (software loop). 6355AS–ATARM–06-Jan-10 Slow Clock Clock Generator On Chip RC OSC Slow Clock XIN32 Oscillator XOUT32 AT91SAM9M10 RCEN Slow Clock SLCK OSCSEL OSC32EN OSC32BYP 35 ...

Page 36

... Standby Mode, mix of Idle and Backup Mode, peripheral running at low frequency, processor stopped waiting for an interrupt • Backup Mode, Main Power Supplies off, VDDBU powered by a battery AT91SAM9M10 36 DDR system clock is not available when Master Clock (MCK) equals Processor Clock (PCK). ...

Page 37

... Full Speed OHCI input clock is UPLLCK, USBDIV is 9 (division by 10) • System Input clock is UPLLCK, Prescaler is 2, PCK is 240 MHz • MDIV is ‘01’, MCK is 120 MHz • Only LP-DDR can be used 120 MHz 6355AS–ATARM–06-Jan-10 AT91SAM9M10 Power Management Controller Block Diagram USBS USBDIV+1 /1,/2 UPLLCK Prescaler /1,/2,/4, ...

Page 38

... Thirty-two individually maskable and vectored interrupt sources – Source 0 is reserved for the Fast Interrupt Input (FIQ) – Source 1 is reserved for system peripherals (PIT, RTT, PMC, DBGU, etc.) – Programmable Edge-triggered or Level-sensitive Internal Sources – Programmable Positive/Negative Edge-triggered or High/Low Level-sensitive AT91SAM9M10 38 Controller 6355AS–ATARM–06-Jan-10 ...

Page 39

... Debug Communication Channel Support – Offers visibility of and interrupt trigger from COMMRX and COMMTX signals from 8.15 Chip Identification The AT91SAM9M10 Chip ID is defined in the Debug Unit Chip ID Register and Debug Unit Chip ID Extension Register. • Chip ID: 0x819B05A2 • Ext ID: 0x00000002 • ...

Page 40

... Multi-drive option enables driving in open drain – Programmable pull up on each I/O line – Pin data status register, supplies visibility of the level on the pin at any time • Synchronous output, provides Set and Clear of several I/O lines in a single write AT91SAM9M10 40 6355AS–ATARM–06-Jan-10 ...

Page 41

... VDEC 31 AIC 6355AS–ATARM–06-Jan-10 Figure 7-1, the Peripherals are mapped in the upper 256 Mbytes of the address defines the Peripheral Identifiers of the AT91SAM9M10. A peripheral identifier is Peripheral Name Advanced Interrupt Controller System Controller Interrupt Parallel I/O Controller A, Parallel I/O Controller B Parallel I/O Controller C Parallel I/O Controller D/E ...

Page 42

... Peripheral ID. However, there is no clock control associated with these peripheral IDs. 9.4 Peripheral Signals Multiplexing on I/O Lines The AT91SAM9M10 features 5 PIO controllers, PIOA, PIOB, PIOC, PIOD and PIOE, which mul- tiplexes the I/O lines of the peripheral set. Each PIO Controller controls lines. Each line can be assigned to one of two peripheral functions The multiplexing tables in the following paragraphs define how the I/O lines of the peripherals A and B are multiplexed on the PIO Controllers. The two columns “ ...

Page 43

... ETX3 I/O VDDIOP0 ERX2 I/O VDDIOP0 ERX3 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 SCK3 I/O VDDIOP0 RTS3 I/O VDDIOP0 CTS3 I/O VDDIOP0 PWM3 I/O VDDIOP0 TIOB2 I/O VDDIOP0 ETXER I/O VDDIOP0 ERXCK I/O VDDIOP0 ECRS I/O VDDIOP0 ECOL I/O VDDIOP0 PCK0 I/O VDDIOP0 AT91SAM9M10 Function Comments 43 ...

Page 44

... TXD0 PB20 ISI_D0 PB21 ISI_D1 PB22 ISI_D2 PB23 ISI_D3 PB24 ISI_D4 PB25 ISI_D5 PB26 ISI_D6 PB27 ISI_D7 PB28 ISI_PCK PB29 ISI_VSYNC PB30 ISI_HSYNC PB31 ISI_MCK AT91SAM9M10 44 Reset Power Peripheral B State Supply I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 ISI_D8 I/O VDDIOP2 ...

Page 45

... A20 VDDIOM1 A21 VDDIOM1 A22 VDDIOM1 A23 VDDIOM1 A24 VDDIOM1 I/O VDDIOM1 RTS2 I/O VDDIOM1 TCLK2 I/O VDDIOM1 CTS2 I/O VDDIOM1 A25 VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 I/O VDDIOM1 AT91SAM9M10 Function Comments 45 ...

Page 46

... SPI1_NPCS3 PD20 TIOA0 PD21 TIOA1 PD22 TIOA2 PD23 TCLK0 PD24 SPI0_NPCS1 PD25 SPI0_NPCS2 PD26 PCK0 PD27 PCK1 PD28 TSADTRG PD29 TCLK1 PD30 TIOB0 PD31 TIOB1 AT91SAM9M10 46 Reset Power Peripheral B State Supply PWM3 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 I/O VDDIOP0 TIOA5 I/O VDDIOP0 ...

Page 47

... LCDD5 I/O VDDIOP1 LCDD6 I/O VDDIOP1 LCDD7 I/O VDDIOP1 LCDD10 I/O VDDIOP1 LCDD11 I/O VDDIOP1 LCDD12 I/O VDDIOP1 LCDD13 I/O VDDIOP1 LCDD14 I/O VDDIOP1 LCDD15 I/O VDDIOP1 LCDD18 I/O VDDIOP1 LCDD19 I/O VDDIOP1 LCDD20 I/O VDDIOP1 LCDD21 I/O VDDIOP1 LCDD22 I/O VDDIOP1 LCDD23 I/O VDDIOP1 I/O VDDIOP1 I/O VDDIOP1 I/O VDDIOP1 I/O VDDIOP1 I/O VDDIOP1 I/O VDDIOP1 PCK1 I/O VDDIOP1 AT91SAM9M10 Function Comments 47 ...

Page 48

... Asynchronous Mode stop bits in Synchronous Mode – Parity generation and error detection – Framing error detection, overrun error detection – MSB- or LSB-first AT91SAM9M10 48 peripherals Sensors and data per chip select ...

Page 49

... Variable sampling rate AC97 Codec Interface (48KHz and below) 10.6 Timer Counter (TC) • Three 16-bit Timer Counter Channels • Wide range of functions including: – Frequency Measurement – Event Counting – Interval Measurement – Pulse Generation 6355AS–ATARM–06-Jan-10 AT91SAM9M10 2 S, TDM Buses, Magnetic Card Reader,...) 49 ...

Page 50

... Root Hub Integrated with 2 Downstream USB Ports • Shared 10.10 USB High Speed Device Port (UDPHS) • USB V2.0 high-speed compliant, 480 MBits per second • Embedded USB V2.0 UTMI+ high-speed transceiver shared with UHP HS. AT91SAM9M10 50 Embedded USB Transceivers 6355AS–ATARM–06-Jan-10 ...

Page 51

... Automatic wakeup on trigger and back to sleep mode after conversions of all 10.13 Ethernet 10/100 MAC (EMAC) • Compatibility with IEEE Standard 802.3 • 10 and 100 MBits per second data throughput capability • Full- and half-duplex operations 6355AS–ATARM–06-Jan-10 enabled channels AT91SAM9M10 51 ...

Page 52

... User enabled auto-reloading of source, destination and control registers from initially – Auto-loading of source, destination and control registers from system memory at end – Unaligned system address to data transfer width supported in hardware • Channel Buffering AT91SAM9M10 52 lists transfer. Writing a stream of data into non-contiguous fields in system memory ...

Page 53

... Support for Software handshaking interface. Memory mapped registers can be used • Interrupt – Programmable Interrupt generation on DMA Transfer completion Block Transfer 6355AS–ATARM–06-Jan-10 to control the flow of a DMA transfer in place of a hardware handshaking interface completion, Single/Multiple transaction completion or Error condition AT91SAM9M10 53 ...

Page 54

... Mechanical Characteristics 11.1 Package Drawings Figure 11-1. 324-ball TFBGA Package Drawing AT91SAM9M10 54 6355AS–ATARM–06-Jan-10 ...

Page 55

... AT91SAM9M10 Ordering Information Table 12-1. AT91SAM9M10 Ordering Information Ordering Code AT91SAM9M10-CU 6355AS–ATARM–06-Jan-10 Package Package Type TFBGA324 Green AT91SAM9M10 Temperature Operating Range Industrial -40°C to 85°C 55 ...

Page 56

... Revision History Doc. Rev Comments 6355AS First issue AT91SAM9M10 56 Change Request Ref. 6355AS–ATARM–06-Jan-10 ...

Page 57

... Atmel Corporation. All rights reserved. Atmel®, Atmel logo and combinations thereof, DataFlash®, SAM-BA® and others are registered trademarks or trademarks of Atmel Corporation or its subsidiaries. ARM®, the ARMPowered® logo, Thumb® and others are the registered trademarks or trademarks of ARM Ltd. Windows® ...

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