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| note: this is a summary document. the complete document is available on the atmel website at www.atmel.com. features ? incorporates the arm7tdmi ? arm ? thumb ? processor core ? high-performance 32-bit risc architecture ? high-density 16-bit instruction set ? leader in mips/watt ? embeddedice ? 8k bytes on-chip sram ? 32-bit data bus ? single-clock cycle access fully-programmable external bus interface (ebi) ? maximum external address space of 64m bytes ? up to 8 chip selects ? software programmable 8/16-bit external databus 8-level priority, individually maska ble, vectored interrupt controller ? 4 external interrupts, including a high -priority low-latency interrupt request 32 programmable i/o lines 3-channel 16-bit timer/counter ? 3 external clock inputs ? 2 multi-purpose i/o pins per channel 2 usarts ? 2 dedicated peripheral data cont roller (pdc) channels per usart programmable watchdog timer advanced power-saving features ? cpu and peripheral can be deactivated individually fully static operation: ? 0 hz to 40 mhz internal frequency range at 3.0v, 85 c 1.8v to 3.6v operating range -40 c to +85 c temperature range available in a 100-lead lqfp package (green) 1. description the at91m40800 microcontroller is a member of the atmel at91 16/32-bit microcon- troller family, which is based on the arm7tdmi processor core. this processor has a high-performance 32-bit risc architecture with a high-density 16-bit instruction set and very low power consumption. in addition, a large number of internally banked reg- isters result in very fast exception handling, making the device ideal for real-time control applications. the at91m40800 microcontroller features a direct connection to off-chip memory, including flash, through the fully-progra mmable external bus interface (ebi). an eight-level priority vectored interrupt controller, in conjunction with the peripheral data controller, significantly improves the real-time performance of the device. the device is manufactured using atmel?s high-density cmos technology. by com- bining the arm7tdmi processor core with on-chip high-speed memory and a wide range of peripheral functions on a monolithic chip, the at91m40800 is a powerful microcontroller that offers a flexible, cost-effective solution to many compute-intensive embedded control applications. at91 arm thumb microcontrollers at91m40800 summary 1348fs?atarm?13-apr-06
2 1348fs?atarm?13-apr-06 at91m40800 2. pin configuration figure 2-1. at91m40800 pinout (top view) p21/txd1/ntri p20/sck1 p19 p18 p17 p16 p15/rxd0 p14/txd0 p13/sck0 p12/fiq gnd p11/irq2 p10/irq1 vdd vdd p9/irq0 p8/tiob2 p7/tioa2 p6/tclk2 p5/tiob1 p4/tioa1 p3/tclk1 gnd gnd p2/tiob0 p1/tioa0 p0/tclk0 d15 d14 d13 d12 vdd d11 d10 d9 d8 d7 d6 d5 gnd d4 d3 d2 d1 d0 p31/a23/cs4 p30/a22/cs5 vdd vdd p29/a21/cs6 p22/rxd1 nwr1/nub gnd nrst nwdovf vdd mcki p23 p24/bms p25/mcko gnd gnd tms tdo tck nrd/noe nwr0/nwe vdd vdd nwait ncs0 ncs1 p26/ncs2 p27/ncs3 a0/nlb a1 a2 a2 a3 a4 a5 a6 a7 vdd a8 a9 a10 a11 a12 a13 a14 gnd gnd a15 a16 a17 a18 a19 p28/a20/cs7 gnd 1 25 100-lead tqfp 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1 16 17 18 19 20 21 22 23 24 26 50 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 75 51 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 100 76 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 tdi 3 1348fs?atarm?13-apr-06 at91m40800 3. pin description table 3-1. at91m40800 pin description module name function type active level comments ebi a0 - a23 address bus output ? all valid after reset d0 - d15 data bus i/o ? ncs0 - ncs3 chip select output low cs4 - cs7 chip select output high a23 - a20 after reset nwr0 lower byte 0 write signal output low used in byte write option nwr1 upper byte 1 write signal output low used in byte write option nrd read signal output low used in byte write option nwe write enable output low used in byte select option noe output enable output low use d in byte select option nub upper byte select output low used in byte select option nlb lower byte select output lo w used in byte select option nwait wait input input low bms boot mode select input ? sampled during reset aic fiq fast interrupt request input ? pio-controlled after reset irq0 - irq2 external interrupt request input ? pio-controlled after reset tc tclk0 - tclk2 timer external clock input ? pio-controlled after reset tioa0 - tioa2 multipurpose timer i/o pin a i/o ? pio-controlled after reset tiob0 - tiob2 multipurpose timer i/o pin b i/o ? pio-controlled after reset usart sck0 - sck1 external serial clock i/o ? pio-controlled after reset txd0 - txd1 transmit data output output ? pio-controlled after reset rxd0 - rxd1 receive data input input ? pio-controlled after reset pio p0 - p31 parallel io line i/o ? wd nwdovf watchdog overflow output low open-drain clock mcki master clock input input ? schmidt trigger mcko master clock output output ? reset nrst hardware reset input input low schmidt trigger ntri tri-state mode select input low sampled during reset ice tms test mode select input ? schmidt trigger, internal pull-up tdi test data input input ? schmidt trigger, internal pull-up tdo test data output output ? tck test clock input ? schmidt trigger, internal pull-up power vdd power power ? gnd ground ground ? 4 1348fs?atarm?13-apr-06 at91m40800 4. block diagram figure 4-1. at91m40800 arm7tdmi core embedded ice reset ebi: external bus interface asb controller clock aic: advanced interrupt controller amba bridge ebi user interface tc: timer counter tc0 tc1 tc2 usart0 usart1 2 pdc channels 2 pdc channels pio: parallel i/o controller ps: power saving chip id wd: watchdog timer apb asb p i o p i o nrst d0-d15 a1-a19 a0/nlb nrd/noe nwr0/nwe nwr1/nub nwait ncs0 ncs1 p26/ncs2 p27/ncs3 p28/a20/cs7 p29/a21/cs6 p30/a22/cs5 p31/a23/cs4 p0/tclk0 p3/tclk1 p6/tclk2 p1/tioa0 p2/tiob0 p4/tioa1 p5/tiob1 p7/tioa2 p8/tiob2 nwdovf tms tdo tdi tck mcki p25/mcko p12/fiq p9/irq0 p10/irq1 p11/irq2 p13/sck0 p14/txd0 p15/rxd0 p20/sck1 p21/txd1/ntri p22/rxd1 p16 p17 p18 p19 p23 p24/bms 8k-byte ram 5 1348fs?atarm?13-apr-06 at91m40800 5. architectural overview the at91m40800 microcontroller integrates an arm7tdmi with embedded ice interface, memories and peripherals. the architecture cons ists of two main buses, the advanced system bus (asb) and the advanced peripheral bus (apb). designe d for maximum performance and controlled by the memory controller, the asb in terfaces the arm7tdmi processor with the on- chip 32-bit memories, the external bus interface (ebi) and the amba ? bridge. the amba bridge drives the apb, which is designed for accesses to on-chip peripherals and optimized for low power consumption. the at91m40800 microcontroller implements the ice port of the arm7tdmi processor on ded- icated pins, offering a complete, low cost and easy-to-use debug solution for target debugging. 5.1 memories the at91m40800 microcontroller embeds up to 8k bytes of internal sram. the internal mem- ory is directly connected to the 32-bit data bus and is single-cycle accessible. the at91m40800 microcontroller features an extern al bus interface (ebi), which enables con- nection of external memories and application-specific peripherals. the ebi supports 8- or 16-bit devices and can use two 8-bit devices to emulate a single 16-bit device. the ebi implements the early read protocol, enabling faster memory accesses than standard memory interfaces. 5.2 peripherals the at91m40800 microcontrollers integrate severa l peripherals, which are classified as system or user peripherals. all on-chip peripherals are 32-bit accessible by the amba bridge, and can be programmed with a minimum number of instructions. the peripheral register set is composed of control, mode, data, status and enable/disable/status registers. an on-chip peripheral data controller (pdc) transfers data between the on-chip usarts and on- and off-chip memories address space without processor intervention. most importantly, the pdc removes the processor interrupt handling overhead, making it possible to transfer up to 64k contiguous bytes without reprogramming the start address, thus increasing the perfor- mance of the microcontroller, and reducing the power consumption. 5.2.1 system peripherals the external bus interface (ebi) controls the external memory or peripheral devices via an 8- or 16-bit databus and is programmed through the apb. each chip select line has its own program- ming register. the power-saving (ps) module implements the idle mode (arm7tdmi core clock stopped until the next interrupt) and enables the user to adapt the power consumption of the microcontroller to application requirements (independent peripheral clock control). the advanced interrupt controller (aic) controls the internal interrupt sources from the internal peripherals and the four external interrupt lines (including the fiq), to provide an interrupt and/or fast interrupt request to the arm7tdmi. it integrates an 8-level priority controller and, using the auto-vectoring feature, reduces the interrupt latency time. the parallel input/output controller (pio) controls up to 32 i/o lines. it enables the user to select specific pins for on-chip peripheral input/output functions, and general-purpose input/out- put signal pins. the pio controller can be programmed to detect an interrupt on a signal change from each line. 6 1348fs?atarm?13-apr-06 at91m40800 the watchdog (wd) can be used to prevent system lock-up if the software becomes trapped in a deadlock. the special function (sf) module integrates the chip id, the reset status and the protect registers. 5.2.2 user peripherals two usarts, independently configurable, enable communication at a high baud rate in syn- chronous or asynchronous mode. the format includes start, stop and parity bits and up to 8 data bits. each usart also features a timeout and a time guard regi ster, facilitating the use of the two dedicated peripheral data controller (pdc) channels. the 3-channel, 16-bit timer counter (tc) is highly-programmable and supports capture or waveform modes. each tc channel can be programmed to measure or generate different kinds of waves, and can detect and control two input/ output signals. the tc has also three external clock signals. 6. associated documentation the at91m40800 is part of the at91x40 series microcontrollers , a member of the atmel at91 16/32-bit microcontroller family which is based on t he arm7tdmi processor core. table 6-1 contains details of associated documentation for further reference. table 6-1. associated documentation product information document title at91m40800 internal architecture of processor arm/thumb inst ruction sets embedded in-circuit-emulator arm7tdmi (thumb) datasheet external memory interface mapping peripheral operations peripheral user interfaces at91x40 series datasheet dc characteristics power consumption thermal and reliability considerations ac characteristics at91m40800 electrical characteristics product overview ordering information packaging information soldering profile at91m40800 summary datasheet (this document) 7 1348fs?atarm?13-apr-06 at91m40800 7. product overview 7.1 power supply the at91m40800 microcontroller has a unique type of power supply pin ? vdd. the vdd pin supplies the i/o pads and the device core. the supported voltage range on v dd is 1.8v to 3.6v. 7.2 input/output considerations the at91m40800 microcontroller i/o pads are 5v-tolerant, enabling them to interface with external 5v devices without any additional compone nts. thus, the devices accept 5v (3v) on the inputs even if powered at 3v (2v). for further information, refer to the ?at91m40800 electrical characteristics? datasheet. after the reset, the peripheral i/os are initiali zed as inputs to provide the user with maximum flexibility. it is recommended that in any application phase, th e inputs to the at91m40800 micro- controller be held at valid logic levels to minimize the power consumption. 7.3 master clock the at91m40800 microcontroller has a fully static design and works on the master clock (mck), provided on the mcki pin from an external source. the master clock is also provided as an output of the device on the pin mcko, which is multi- plexed with a general-purpose i/o line. while nrst is active, mcko remains low. after the reset, the mcko is valid and outputs an image of the mck signal. the pio controller must be programmed to use this pin as standard i/o line. 7.4 reset reset restores the default states of the user interface registers (defined in the user interface of each peripheral), and forces the arm7tdmi to perform the next instruction fetch from address zero. except for the program counter the arm7tdmi registers do not have defined reset states. 7.4.1 nrst pin nrst is active low-level input. it is asserted asynchronously, but exit from reset is synchronized internally to the mck. the signal presented on mcki must be active within the specification for a minimum of 10 clock cycles up to the rising edge of nrst, to ensure correct operation. the first processor fetch occurs 80 clock cycles after the rising edge of nrst. 7.4.2 watchdog reset the watchdog can be programmed to generate an internal reset. in this case, the reset has the same effect as the nrst pin assertion, but the pins bms and ntri are not sampled. boot mode and tri-state mode are not updated. if the nrst pin is asserted and the watchdog triggers the internal reset, the nrst pin has priority. 7.5 emulation functions 7.5.1 tri-state mode the at91m40800 microcontroller provides a tr i-state mode, which is used for debug purposes. this enables the connection of an emulator probe to an application board without having to des- older the device from the target board. in tri-state mode, all the output pin drivers of the at91m40800 microcontroller is disabled. 8 1348fs?atarm?13-apr-06 at91m40800 to enter tri-state mode, the pin ntri must be held low during the last 10 clock cycles before the rising edge of nrst. for normal operation the pin ntri must be held high during reset by a resistor of up to 400k ohm. ntri is multiplexed with i/o line p21 and usart1 serial data transmit line txd1. standard rs232 drivers generally contain internal 400k ohm pull-up resistors. if txd1 is con- nected to a device not including this pull-up, the user must make sure that a high level is tied on ntri while nrst is asserted. 7.5.2 jtag/ice debug arm standard embedded in-circuit emulation is supported via the jtag/ice port. the pins tdi, tdo, tck and tms are dedicated to this debug function and can be connected to a host computer via the external ice interface. in ice debug mode, the arm7tdmi core responds wi th a non-jtag chip id that identifies the microcontroller. this is not fully ieee ? 1149.1 compliant. 7.6 memory controller the arm7tdmi processor address space is 4g bytes. the memory controller decodes the internal 32-bit address bus and defines three address spaces: internal memories in the four lowest megabytes middle space reserved for the external devices (memory or peripherals) controlled by the ebi internal peripherals in the four highest megabytes in any of these address spaces, the arm7tdmi operates in little-endian mode only. 7.6.1 internal memories the at91m40800 microcontroller integrates 8k bytes of internal sram. all internal memories are 32 bits wide and single-clock cycle accessible. byte (8-bit), half-word (16-bit) or word (32-bit) accesses are supported and are executed within one cycle. fetching thumb or arm instruc- tions is supported and internal memory can store twice as many thumb instructions as arm ones. the sram is mapped at address 0x0 (after the remap command), allowing arm7tdmi excep- tion vectors between 0x0 and 0x20 to be modified by the software. the rest of the bank can be used for stack allocation (to speed up context saving and restoring) or as data and program stor- age for critical algorithms. 7.6.2 boot mode select the arm reset vector is at address 0x0. after the nrst line is released, the arm7tdmi exe- cutes the instruction stored at this address. this means that this address must be mapped in nonvolatile memory after the reset. the input level on the bms pin during the last 10 clock cycles before the rising edge of the nrst selects the type of boot memory (see table 7-1 ). 9 1348fs?atarm?13-apr-06 at91m40800 the pin bms is multiplexed with the i/o line p24 that can be programmed after reset like any standard pio line. 7.6.3 remap command the arm vectors (reset, abort, data abort, pr efetch abort, undefined instruction, interrupt, fast interrupt) are mapped from address 0x0 to address 0x20. in order to allow these vectors to be redefined dynamically by the software, the at91m40800 microcontroller uses a remap com- mand that enables switching between the boot memory and the internal primary sram bank addresses. the remap command is accessible through the ebi user interface, by writing one in rcb of ebi_rcr (remap control register). performing a remap command is mandatory if access to the other external devices (connected to chip-selects 1 to 7) is required. the remap operation can only be changed back by an internal reset or an nrst assertion. 7.6.4 abort control the abort signal providing a data abort or a prefetch abort exception to the arm7tdmi is asserted when accessing an undefined address in the ebi address space. no abort is generated when reading the internal memory or by accessing the internal peripher- als, whether the address is defined or not. 7.6.5 external bus interface the external bus interface handles the acce sses between addresses 0x0040 0000 and 0xffc0 0000. it generates the signals that control access to the external devices, and can be configured from eight 1-mbyte banks up to four 16-mbyte banks. it supports byte-, half-word- and word- aligned accesses. for each of these banks, the user can program: number of wait states number of data float times (wait time after the access is finished to prevent any bus contention in case the device is too long in releasing the bus) data bus-width (8-bit or 16-bit). with a 16-bit wide data bus, the user can program the ebi to control one 16-bit device (byte access select mode) or two 8-bit devices in parallel that emulate a 16-bit memory (byte write access mode). the external bus interface features also the early read protocol, configurable for all the devices, that significantly reduce s access time requirements on an external device in the case of single-clock cycle access. table 7-1. boot mode select bms boot memory 1 external 8-bit memory on ncs0 0 external 16-bit memory on ncs0 10 1348fs?atarm?13-apr-06 at91m40800 8. peripherals the at91m40800 microcontroller peripherals are connected to the 32-bit wide advanced peripheral bus. peripheral registers are only word accessible ? byte and half-word accesses are not supported. if a byte or a half-word access is attempted, the memory controller automatically masks the lowest address bits and generates an word access. each peripheral has a 16-kbyte address space allocated (the aic only has a 4-kbyte address space). 8.1 peripheral registers the following registers are common to all peripherals: control register ? write only register that triggers a command when a one is written to the corresponding position at the appropriate address. writing a zero has no effect. mode register ? read/write register that defines the configuration of the peripheral. usually has a value of 0x0 after a reset. data registers ? read and/or write register that enables the exchange of data between the processor and the peripheral. status register ? read only register that returns the status of the peripheral. enable/disable/status registers are shadow command registers. writing a one in the enable register sets the corresponding bit in the st atus register. writing a one in the disable register resets the corresponding bit and the result can be read in the status register. writing a bit to zero has no effect. this register access method maximizes the efficiency of bit manipulation, and enables modification of a register with a single non-interruptible instruction, replacing the costly read-modify-write operation. unused bits in the peripheral registers are shown as ??? and must be written at 0 for upward compatibility. these bits read 0. 8.2 peripheral in terrupt control the interrupt control of each peripheral is contro lled from the status register using the interrupt mask. the status register bits are anded to their corresponding interrupt mask bits and the result is then ored to generate the interrupt source signal to the advanced interrupt controller. the interrupt mask is read in the interrupt mask register and is modified with the interrupt enable register and the interrupt disable regi ster. the enable/disable/status (or mask) makes it possible to enable or disabl e peripheral interrupt sources with a non-interruptible single instruction. this eliminates the need for interrupt masking at the aic or core level in real-time and multi-tasking systems. 8.3 peripheral data controller the at91m40800 microcontroller has a 4-channel pdc dedicated to the two on-chip usarts. one pdc channel is dedicated to the receiver and one to the transmitter of each usart. the user interface of a pdc channel is integrated in the memory space of each usart. it con- tains a 32-bit address pointer register (rpr or tpr) and a 16-bit transfer counter register (rcr or tcr). when the programmed number of transfers are performed, a status bit indicating the end of transfer is set in the usart status register and an interrupt can be generated. 11 1348fs?atarm?13-apr-06 at91m40800 8.4 system peripherals 8.4.1 ps: power-saving the power-saving feature optimizes power consumption, enabling the software to stop the arm7tdmi clock (idle mode), restarting it when the module receives an interrupt (or reset). it also enables on-chip peripheral clocks to be ena bled and disabled individually, matching power consumption and application need. 8.4.2 aic: advanced interrupt controller the advanced interrupt controller has an 8-level priority, individually maskable, vectored inter- rupt controller, and drives the nirq and nfiq pins of the arm7tdmi from: the external fast interrupt line (fiq) the three external interrupt request lines (irq0 - irq2) the interrupt signals from the on-chip peripherals. the aic is largely programmable offering maximum flexibility, and its vectoring features reduce the real-time overhead in handling interrupts. the aic also features a spurious vector, which reduces spurious interrupt handling to a mini- mum, and a protect mode that facilitates the debug capabilities. 8.4.3 pio: parallel i/o controller the at91m40800 microcontroller has 32 programmable i/o lines. six pins are dedicated as general-purpose i/o pins. other i/o lines are multip lexed with an external signal of a peripheral to optimize the use of available package pins. the pio controller enables generation of an inter- rupt on input change and insertion of a simple input glitch filter on any of the pio pins. 8.4.4 wd: watchdog the watchdog is built around a 16-bit counter and is used to prevent system lock-up if the soft- ware becomes trapped in a deadlock. it can generate an internal reset or interrupt, or assert an active level on the dedicated pin nwdovf. all programming registers are password-protected to prevent unintentional programming. 8.4.5 sf: special function the at91m40800 microcontroller provides registers that implement the following special functions. chip identification reset status protect mode 12 1348fs?atarm?13-apr-06 at91m40800 8.5 user peripherals 8.5.1 usart: universal synchronous/asynchronous receiver transmitter the at91m40800 microcontroller provides two identical, full-duplex, universal synchro- nous/asynchronous receiver/transmitters. each usart has its own baud rate generator, and two dedicated peripheral data controller channels. the data format includes a start bit, up to 8 data bits, an optional programmable parity bit and up to 2 stop bits. the usart also features a receiv er timeout register, facilitating variable length frame support when it is working with the pdc, and a time guard register, used when interfacing with slow remote equipment. 8.5.2 tc: timer counter the at91m40800 microcontroller features a timer counter block that includes three identical 16-bit timer counter channels. each channel can be independently programmed to perform a wide range of functions including frequency m easurement, event counting, interval measure- ment, pulse generation, delay timing and pulse width modulation. the timer counter can be used in capture or waveform mode, and all three counter channels can be started simultaneously and chained together. 13 1348fs?atarm?13-apr-06 at91m40800 9. packaging information figure 9-1. 100-lead lqfp package drawing pin 1 aaa bbb cc 1 ddd 2 3 s l1 r1 r2 0.25 ccc 1 table 9-1. common dimensions (mm) symbol min nom max c0.09 0.2 c1 0.09 0.16 l 0.45 0.6 0.75 l1 1.00 ref r2 0.08 0.2 r1 0.08 14 1348fs?atarm?13-apr-06 at91m40800 s0.2 q0 3.5 7 10 2 11 12 13 3 11 12 13 a 1.6 a1 0.05 0.15 a2 1.35 1.4 1.45 tolerances of form and position aaa 0.2 bbb 0.2 table 9-1. common dimensions (mm) table 9-2. lead count dimensions (mm) pin count d/e bsc d1/e1 bsc bb1 e bsc ccc ddd min nom max min nom max 100 16.0 14.0 0.17 0.22 0.27 0.17 0.2 0.23 0.50 0.10 0.06 table 9-3. device and 100-lead lqfp package maximum weight 707 mg 15 1348fs?atarm?13-apr-06 at91m40800 10. soldering profile table 10-1 gives the recommended soldering profile from j-std-020c. note: the package is certified to be backward compatible with pb/sn soldering profile. a maximum of three reflow passes is allowed per component. table 10-1. soldering profile green compliant package profile feature green package average ramp-up rate (217c to peak) 3 c/sec. max. preheat temperature 175c 25c 180 sec. max. temperature maintained above 217c 60 sec. to 150 sec. time within 5 c of actual peak temperature 20 sec. to 40 sec. peak temperature range 260 c ramp-down rate 6 c/sec. max. time 25 c to peak temperature 8 min. max. 16 1348fs?atarm?13-apr-06 at91m40800 11. ordering information table 11-1. ordering information ordering code package package type operation range AT91M40800-33AU lqfp100 green industrial (-40 c to 85 c) 17 1348fs?atarm?13-apr-06 at91m40800 12. revision history table 12-1. revision history version comments change request ref. 1348as first issue dec-99 1348bs apr-00 1348cs may-00 1348ds reformatted added information to section internal memories on page 9. change in table 4 on page 14 added table 7, package weight, on page 16 added section soldering profile on page 17 1348es corrected product name in table 6-1 on page 6 . 04-185 updated package name to lqfp throughout. updated table 11-1, ?ordering information,? on page 16 and ?soldering profile? on page 15 with details on green and rohs-compliant packages. 05-331 1348fs removed information on qfp leaded package in section 10. ?soldering profile? on page 15 and in section 11. ?ordering in formation? on page 16 . 2598 disclaimer: the information in this document is provided in connection with atmel products. no license, express or implied, by estoppel or otherwise, to any intellectual property right is granted by this document or in connection with the sale of atmel products. except as set forth in atmel?s terms and condi- tions of sale located on atmel? s web site, atmel assumes no liability whatsoever and disclaims any express, implied or statutor y warranty relating to its products including, but not limited to, the implied warranty of merchantability, fitness for a particu lar purpose, or non-infringement. in no event shall atmel be liable for any direct, indirect, conseque ntial, punitive, special or i nciden- tal damages (including, without limitation, damages for loss of profits, business interruption, or loss of information) arising out of the use or inability to use this document, even if at mel has been advised of the possibility of such damages. atmel makes no representations or warranties with respect to the accuracy or co mpleteness of the contents of this document and reserves the rig ht to make changes to specifications and product descriptions at any time without notice. atmel does not make any commitment to update the information contained her ein. unless specifically provided otherwise, atmel products are not suitable for, and shall not be used in, automotive applications. atmel?s products are not int ended, authorized, or warranted for use as components in applications in tended to support or sustain life. atmel corporation atmel operations 2325 orchard parkway san jose, ca 95131, usa tel: 1(408) 441-0311 fax: 1(408) 487-2600 regional headquarters europe atmel sarl route des arsenaux 41 case postale 80 ch-1705 fribourg switzerland tel: (41) 26-426-5555 fax: (41) 26-426-5500 asia room 1219 chinachem golden plaza 77 mody road tsimshatsui east kowloon hong kong tel: (852) 2721-9778 fax: (852) 2722-1369 japan 9f, tonetsu shinkawa bldg. 1-24-8 shinkawa chuo-ku, tokyo 104-0033 japan tel: (81) 3-3523-3551 fax: (81) 3-3523-7581 memory 2325 orchard parkway san jose, ca 95131, usa tel: 1(408) 441-0311 fax: 1(408) 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