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| 1 features ? high sensitivity and high snr performance linear ccd 1024, 2048 or 4096 resolution with 10 m square pixels 512, 1024 or 2048 resolution with 14 m square pixels 100% aperture, built-in an ti-blooming, no lag cameralink data format (base configuration) high data rate up to 60 mpixels/s flexible and easy to operate via serial control lines: ? exposure time: 1 to 32 000 s ? analog gain: -2 db to 28 db by steps of 0.035 db ? digital gain: 0 db to 30 db ? output format: 8-, 10- or 12-bit data on one or two outputs ? offset (for contrast expansion) ? trigger mode: free-run or external trigger modes flat-field correction (lens and light non-uniformity and fpn and prnu correction) multi-camera synchronization single power supply: dc 12 to 24v very compact design: 56 x 60 x 39.4 mm (w, h, l) high reliability ? ce and fcc compliant c or f (nikon) t2 (m42 x 0.75) or m 42 x 1 mount adapter (lens not supplied) description this smarter m2 offers the best in lines can cameras, with an increasingly improved accuracy, versatility and easy implementatio n. the aviiva sm2 takes advantage of all the features that made the success of the aviiva m2, with additional flat-field correc- tion and contrast expansion functions . the same compact mechanical design incorporates all sensors, from 512 to 4096 pixels. atmel manages the entire manufac- turing process, from the sensor to the camera. the result is a camera able to operate in up to 12 bits, with dedicated electronics offering an excellent signal to noise ratio. the programmable settings let the user work at different integration times, gains and offsets. the external clock and trigger enable synchronization of several cameras. applications the performance and reliability of this ca mera make it well-suited for the most demanding industrial applications, from web inspection to document scanning, from surface inspection to metrology. cameralink ? linescan camera aviiva ? sm2 preliminary 5372a?image?03/04
2 aviiva tm sm2 [preliminary] 5372a?image?03/04 typical performances notes: 1. lsbs are given for a 12-bit configuration 2. nj/cm 2 measured on the sensor 3. camera?s front face temperature table 1. typical performances parameter value unit sensor characteristics at maximum pixel rate resolution 512 1024 2048 4096 pixels pixel size (square) 14 ? 14 10 14 10 ? 10 m m maximum line rate 98 53 28 14 khz anti-blooming x 150 ? radiometric performances (maximum pixel rate, tamb = 25c) output format 12 (also configurable in 8 or 10) bit spectral range 250 - 1100 nm linearity (g = 0) < 2 % gain range (step of 0.035 db) gmin -2 gnom 0 gmax 28 db peak response (1)(2) with 14 m pitch 10 m pitch 100 50 130 65 3250 1625 lsb/(nj/cm 2 ) lsb/(nj/cm 2 ) snr 66 64 36 db input rms noise with 14 m pitch 10 m pitch 18 37 pj/cm 2 pj/cm 2 prnu (pixel response non-uniformity) 3% ( 10% max) % mechanical and electrical interface size (w x h x l) 56 x 60 x 39.4 mm lens mount c, f, t2, m42 x 1 ? sensor alignment (see ?sensor alignment? on page 15) ? x,y = 50 ? ? z = 30 ? ? tilt z = 0-35 ? x,y = 0.2 m power supply dc, single 12 to 24v v power dissipation < 6.5 w operating temperature (3) 0 to 65 (non condensing) c storage temperature -40 to 75 (non condensing) c pixel 10x10 m pixel 14x14 m 0% 20% 40% 60% 80% 100% 200 400 600 800 1000 relative response (%) wavelength (nm) spectral response 3 aviiva tm sm2 [preliminary] 5372a?image?03/04 camera description figure 1. camera synoptic the camera is based on a two-tap linear ccd. therefore, two analog chains process the odd and even pixel outputs of t he linear sensor. the ccd signal processing encompasses the cor- related double sampling (cds), the dark level correction (dark pixel clamping), the gain (pga) and offset correction, and finally the analog-to-digital conversion in 12 bits. an fpga has been implemented for image processing (flat-field correction, dynamic selection and test pattern generation). note: pga stands for programmable gain array. the camera is powered by a single dc power supply from 12 to 24v. the functional interface (data and control) is provided with the cameralink ? interface. the camera uses the base configuration of the cameralink standard. note: dval = 1 and fval = 0 data can be delivered on two channels or on a single multiplexed channel. the data format can be configured in 8, 10 or 12 bits. the camera can be used with external triggers (trig1 and trig2 signals) in different trigger modes (see ?synchronization mode? on page 7). the camera can also be clocked externally, allowing system synchronization and /or multi-camera synchronization. the camera configuration and settings are done via a serial line, used for: gain and offset settings dynamic range data rate setting trigger mode setting: free-run or external trigger modes integration time setting: in free-run and external trigger mode linear ccd 2 taps ccd drivers even pixels analog chain pga, cds, adc 12-bit at 30 mpixels/s odd pixels analog chain pga, cds, adc 12-bit at 30 mpixels/s microcontroller cameralink tm transceiver tx rx power supplies dc power cameralink tm i/f sequencer controller data serial line trig1, trig2 strobe, lval clk_in image processing 4 aviiva tm sm2 [preliminary] 5372a?image?03/04 standard conformity the aviiva cameras have been tested using the following equipment: a shielded power supply cable a cameralink ? data transfer cable ref. 14b26-szlb-500-olc (3m ? ) a linear ac-dc power supply atmel recommends using the same configuration to ensure compliance with the following standards. ce conformity the aviiva cameras comply with the requirements of the emc (european) directive 89/336/cee (en 50081-2, en 61000-6-2). fcc conformity the aviiva cameras further comply with part 15 of the fcc rules, which states that: operation is subject to th e following two conditions: this device may not cause harmful interference, and this device must accept any interference received, including interference that may cause undesired operation. this equipment has been tested and found to comply with the limits for a class a digital device, pursuant to part 15 of the fcc rules. these limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial envi- ronment. this equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. operation of this equipm ent in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. warning : changes or modifications to this unit not expressly approved by the party responsi- ble for compliance could void the user's authority to operate this equipment. camera command and control the camera?s configuration is set through the serial interface. please refer to ?serial commu- nication? on page 11 for the serial line?s detailed protocol. 5 aviiva tm sm2 [preliminary] 5372a?image?03/04 table 2. camera command and control setting command parameter description global gain (1) g= -65 to 811 gain setting from -2 to 28 db (~0.035 db steps) even gain (1) a= 0 to 56 even pixels gain adjustment (odd ? even mismatch adjustment) odd gain (1) b= 0 to 56 odd pixels gain adjustment (odd ? even mismatch adjustment) number of outputs d= 0 1 one tap (odd and even data multiplexed) two taps data transfer (2) h= 0 1 2 3 4 5 6 external clock (data rate = 2 x external clock) (6) external clock (data rate = external clock) external clock (data rate = external clock/2) 2 x 10 mhz data rate (20 mhz in one tap) 2 x 15 mhz data rate (30 mhz in one tap) 2 x 20 mhz data rate (40 mhz in one tap) 2 x 30 mhz data rate (60 mhz in one tap) output format (3) s= 0 1 2 12-bit output data 10-bit output data 8-bit output data image source (4) t= 0 1 2 sensor row image test pattern sensor corrected image (flat-field correction enabled) configuration recall +c= 0 1 to 4 restore the default configuration restore the user configuration 1 to 4 configuration storage -c= 1 to 4 store the user configuration 1 to 4 fpn recall +f= 1 to 4 restore fpn fa ctors from the fpn bank 1 to 4 fpn storage -f= 1 to 4 store the active fpn factors in the fpn bank 1 to 4 prnu recall +p= 1 to 4 restore the prnu factors from the prnu bank 1 to 4 prnu storage -p= 1 to 4 store the active prnu factors in the prnu bank 1 to 4 integration time i= 1 to 32768 integration time (s) in free-run or external triggered mode trigger mode m= 1 2 3 4 free-run with integration time setting (see figure 2 on page 7) external trigger with integration ti me setting (see figure 3 on page 7) trigger and integration time controlled (see figure 4 on page 8) trigger and integration time controlled by two inputs (see figure 5 on page 8) even data offset (5) o= 0 to 255 even offset setting from 0 to 255 lsb odd data offset (5) p= 0 to 255 odd offset setting from 0 to 255 lsb contrast expansion q= r= -4096 to 4095 0 to 255 negative digital offset in lsb/12 bits digital gain x1 to x33 (0.125 steps) write fpn (9) wfp= send fpn values read fpn (10) rfp= read fpn values write prnu (9) wpr= send prnu values 6 aviiva tm sm2 [preliminary] 5372a?image?03/04 notes: 1. camera gain (db) = g x 0.0353. a and b gain values are set during manufacturing but can be adjusted if necessary. 2. the cameralink standard does not allow working below a 20 mhz clock frequency. 3. the pinout corresponding to this option is fu lly compatible with the cameralink standard. 4. the test pattern is useful fo r checking if the device is correctly interfaced. the user should see a jagged image of 256 pixe l steps. 5. the offset is set during manufacturing to balance both channels. the initial setting is about 130 lsb. in some cases, the user may have to change it (for example if the ambient temperature is very high). 6. to be used for multi-camera synchronisation. refer to figure 6 on page 9. 7. switch off all lights before starting the fpn (dark) calibration. it must be done before the prnu calibration. 8. place a white reference in front of the camera before starti ng the prnu (white light) calibr ation. the light level must be between half and full dynamic range. 9. parameter format: 7 aviiva tm sm2 [preliminary] 5372a?image?03/04 timing synchronization mode four different modes may be defined by the user. the trig1 and trig2 signals may be used to trigger external events and control the integration time. the master clock is either an exter- nal or internal clock. free run mode with integration time setting the integration and readout periods start autom atically and immediately after the previous period. the readout time depends on the number of pixels and the pixel rate. note: 1. the integration time is set by the serial line and should be higher than the readout time (oth- erwise it is adjusted to the readout time). figure 2. timing diagram triggered mode with integration time setting the integration period starts immediately after the rising edge of the trig1 input signal and is set by the serial line. this period is immediately followed by a readout period. the readout time depends on the number of pixels and the pixel rate. figure 3. timing diagram table 3. free run mode with integration time setting label description min typ max ti integration time duration (1) ? 32 ms tg consecutive integration period gap (at maximum frequency) ?6 s? tt integration period stop to readout start delay ? 1 s ? integration n readout n-1 readout n integration n+1 tt ti tg table 4. triggered mode with integration time setting label description min typ max ti integration time duration 1 s ? 32 ms td trig1 rising to integration period start delay ? <1 s ? tt integration period stop to readout start delay ? 1 s ? ts integration period stop to trig1 rising set-up time 4 s ? ? th trig1 hold time (high pulse duration) 0.1 s ? ? integration n integration n+1 readout n trig1 td th ts tt ti 8 aviiva tm sm2 [preliminary] 5372a?image?03/04 trigger and integration time controlled by one input the integration period starts im mediately after the falling edge of the trig1 input signal, stops immediately after the rising edge of trig1 input signal, and is immediately followed by a read- out period. the readout time depends on the number of pixels and the pixel rate. figure 4. timing diagram trigger and integration time controlled by two inputs the trig2 signal?s rising edge starts the integration period and the trig1 signal?s rising edge stops the integration period. this period is immediately followed by a readout period. figure 5. timing diagram table 5. trigger and integration time controlled by one input label description min typ max ti integration time duration 1 s ? ? td1 trig1 falling to integration period start delay ? 100 ns ? td2 trig1 rising to integration period stop delay ? 1.3 s ? tt integration period stop to readout start delay ? 1 s ? th trig1 hold time (high pulse duration) 0.1 s ? ? integration n readout n-1 readout n integration n+1 th ti tt td1 td2 trig1 table 6. trigger and integration time controlled by two inputs label description min typ max ti integration time duration 1 s ? ? td1 trig2 rising to integration period start delay ? 100 ns ? td2 trig1 rising to integration period stop delay ? 1.3 s ? tt integration period stop to read-out start delay ? 1 s ? th trig1 and trg2 hold time (high pulse duration) 0.1 s ? ? td1 td2 ti tt integration n integration n+1 readout n-1 readout n trig1 trig2 9 aviiva tm sm2 [preliminary] 5372a?image?03/04 output data timing this timing corresponds to the input data of t he ?chanel link? interface. the camera?s output data is not detailed here as it is fully compliant with the cameralink ? standard (serial high- speed interface). figure 6. timing diagram note: the clk_in input frequency must be in the range of 5 to 60 mhz. outside this range, the performances may be degraded. if multiple cameras are synchronized (more than one camera on one acquisition board): the ?master? camera provides data, strobe and lval signals to the acquisition board. the others only provide data. the external clock clk_in must be input on each camera to guarantee perfect data synchronisation. the trigger input(s) (trig1 and/or trig2) must be input on each camera. we recommend synchronization of the rising edg e of these signals on the clk_in falling edge. cables must be balanced between each camera (same quality and same length) to ensure perfect camera synchronisation. the clk_in frequency must be equal to the two ccd register frequencies. this means that the user should use h = 0. using h =1 or h = 2 clock modes provides lval jitters on the ?slave? camera. only ?trigged and integration time controlled? (m = 3 or m = 4) can be used. these modes ensure perfect initiation of each camera?s readout phase. table 7. output data timing label description min typ max tp input falling edge to output clock propagation delay ? 7 ns ? td strobe to synchronized signals delay -5 ns ? +5 ns tp td internal clock or clk_in clk_in (case h = 0) lva l strobe data first valid pixel last valid pixel 10 aviiva tm sm2 [preliminary] 5372a?image?03/04 electrical interface power supply it is recommended to insert a 1-amp fuse between the power supply and the camera. i = input, o = output, io = bi-directional signal, p = power/ground, nc = not connected camera control the cameralink interface provides four lvds signals dedicated to camera control (cc1 to cc4). on the aviiva, three of them are used to synchronize the camera on external events. i = input, o = output, io = bi-directional signal, p = power/ground, nc = not connected note: cc3 is not used. video data data and enable signals are provided on the cameralink interface . i = input, o = output, io = bi-directional signal, p = power/ground, nc = not connected notes: fval, as defined in the cameralink standard, is not used. fval is permanently tied to 0 (low) level. dval is not used. dval is permanently tied to 1 (high) level. in case of single output, the multiplexed data is output in place of the odd data. table 8. power supply signal name i/o type description pwr p ? dc power input: +12v to +24v (0.5v) gnd p ? electrical and mechanical ground table 9. camera control signal name i/o type description trig1 i rs644 cc1 ? synchronization input (refer to ?synchronization mode? on page 7) trig2 i rs644 cc2 ? start integration period in dual synchro mode (refer to ?synchronization mode? on page 7) clk_in i rs644 cc4 ? external clock for (multi-) camera synchronization (refer to ?synchronization mode? on page 7) table 10. video data signal name i/ o type description odd[11-0] o rs644 odd pixel data (refer to ?o utput data timing? on page 9), odd-00 = lsb, odd-11 = msb even[11-0] o rs644 even pixel data (refer to ?output data timing? on page 9), even-00 = lsb, even-11 = msb strobe o rs644 output data clock (refer to ?output data timing? on page 9), data valid on the rising edge lva l o rs644 line valid (refer to ?output data timing? on page 9), active high signal 11 aviiva tm sm2 [preliminary] 5372a?image?03/04 serial communication the cameralink interface provides two lvds signal pairs for communication between the camera and the frame grabber. this is an asynchronous serial communication based on the rs-232 protocol. the serial line?s configuration is: full duplex/without handshaking 9600 bauds, 8-bit data, no parity bit, 1 stop bit command syntax the valid syntax is ?s=n(cr)? with: s: command identification as per ?camera command and control? on page 4. n: setting value (cr): stands for ?carriage return? no space, nor tab may be inserted between s, =, n and (cr). example of a valid command: g = 3(cr): sets the camera to gain 3 (refer to ?camera command and control? on page 4 for exact value calculation) example of non valid commands: g = 3(cr): spaces g = 3(cr): g instead of g g = 1040(cr): 1040 is outside of range command processing all commands received by the camera are processed: if the command is valid: ? and if it is a write command, the setting is done ? and if it is a read command, the camera returns the data separated by (cr) ? the camera returns: >ok(cr) if the command is not valid: ? nothing happens ? the camera returns: >1 = out of range; >2 = syntax error; >4 = invalide command; others = internal error example: when receiving ?! = 3(cr)?? the camera returns its current settings: a = 0(cr); b = 0(cr); ....; >ok(cr) storage of the settings in eeprom the current settings must be saved in eeprom before the camera is switched off. the maxi- mum number of write cycles allo wed for eeprom is 100 000. table 11. serial communication signal name i/o type description sertfg o rs644 differential pair for serial communication to the frame grabber sertc i rs644 differential pair for serial communication from the frame grabber 12 aviiva tm sm2 [preliminary] 5372a?image?03/04 connector description all connectors are on the rear panel. note: cables for digital signals must be shielded twisted pairs. power supply camera connector type: hirose hr10a-7r-6pb (male). cable connector type: hirose hr10a-7p-6s (female). figure 7. receptacle viewed from rear face of camera cameralink connector a standard cameralink cable must be us ed to ensure full electrical compatibility. the camera connector type is mdr-26 (female) ref. 10226-2210ve. the cable connector type is a standard cameralink cable (3m - 14b26-szlb-x00-olc). table 12. power supply connector pinout signal pin signal pin pwr 1 gnd 4 pwr 2 gnd 5 pwr 3 gnd 6 1 2 3 6 5 4 table 13. cameralink connector pinout signal pin signal pin signal pin gnd 1 cc2+ 10 x3+ 19 x0- 2 cc3- 11 sertc- 20 x1- 3 cc4+ 12 sertfg+ 21 x2- 4 gnd 13 cc1+ 22 xclk- 5 gnd 14 cc2- 23 x3- 6 x0+ 15 cc3+ 24 sertc+ 7 x1+ 16 cc4- 25 sertfg- 8 x2+ 17 gnd 26 cc1- 9 xclk+ 18 13 aviiva tm sm2 [preliminary] 5372a?image?03/04 bit assignments the following bit assignments are compliant wit h the cameralink specification in the base configuration. in ?single-output? mode (multiplexed), data is output on the odd-xx bit. table 14. bit assignments when used with12-bit data (s = 0) bit ds90cr285 pin name bit ds90cr285 pin name bit ds90cr285 pin name bit ds90cr285 pin name odd-00 tx0 odd-07 tx5 even-02 tx19 even-09 tx14 odd-01 tx1 odd-08 tx7 even-03 tx20 even-10 tx10 odd-02 tx2 odd-09 tx8 even-04 tx21 even-11 tx11 odd-03 tx3 odd-10 tx9 even-05 tx22 strobe txclk odd-04 tx4 odd-11 tx12 even-06 tx16 lval tx24 odd-05 tx6 even-00 tx15 even-07 tx17 odd-06 tx27 even-01 tx18 even-08 tx13 table 15. bit assignments when used with 10-bit data (s = 1) bit ds90cr285 pin name bit ds90cr285 pin name bit ds90cr285 pin name bit ds90cr285 pin name odd-00 tx0 odd-07 tx5 even-02 tx19 even-09 tx14 odd-01 tx1 odd-08 tx7 even-03 tx20 nc tx10 odd-02 tx2 odd-09 tx8 even-04 tx21 nc tx11 odd-03 tx3 nc tx9 even-05 tx22 strobe txclk odd-04 tx4 nc tx12 even-06 tx16 lval tx24 odd-05 tx6 even-00 tx15 even-07 tx17 odd-06 tx27 even-01 tx18 even-08 tx13 table 16. bit assignments when used with 8-bit data (s = 2) bit ds90cr285 pin name bit ds90cr285 pin name bit ds90cr285 pin name bit ds90cr285 pin name odd-00 tx0 odd-07 tx5 nc tx19 even-05 tx14 odd-01 tx1 even-00 tx7 nc tx20 even-06 tx10 odd-02 tx2 even-01 tx8 nc tx21 even-07 tx11 odd-03 tx3 even-02 tx9 nc tx22 strobe txclk odd-04 tx4 even-03 tx12 nc tx16 lval tx24 odd-05 tx6 nc tx15 nc tx17 odd-06 tx27 nc tx18 even-04 tx13 14 aviiva tm sm2 [preliminary] 5372a?image?03/04 mechanical characteristics weight the camera?s typical weight (without lens nor lens adapter) is 220g or 7.7 ounces. dimensions the camera?s dimensions (without lens) are: 56 mm width 60 mm height 39.4 mm length figure 8. mechanical box drawing and dimensions mechanical mounting reference the front panel?s mechanical part is designed to support mounting of the camera. three sur- faces on this mechanical area are considered as mounting reference surfaces. this implies 15 15 6 39.4 12 4 x 2 holes m4 (on the 4 sides) 56 48 60 52 sensor 1 st pixel y = 30 0.05 ? 42 h7 ? 46 z = 10.3 0.03 optical sensor plane to front face 1 3 x m2.5 at 120 x = refer to "mechanical mounting reference" reference mounting plane reference mounting plane reference mounting plane mechanical reference point x axis y axis z axis x, y plan all dimensions in millimeters 4 x m3 15 aviiva tm sm2 [preliminary] 5372a?image?03/04 that the distance between these surfaces and the first active pixel are very precise (better than 50 m). sensor alignment figure 9. sensor alignment diagram table 17. mechanical mounting reference number of pixels 512 1024 2048 4096 x with 14 m sensor (nm) 24.416 20.832 13.664 ? x with 10 m sensor (nm) ? 22.880 17.760 7.520 y axis z axis x axis x, y plans x + ? x y + ? y z + ? z ? x, y mechanical reference point mechanical reference point active area active area center first pixel center ? tilt z 16 aviiva tm sm2 [preliminary] 5372a?image?03/04 mounting of lens (lens not supplied) the camera can be provided with three different lens adapters, corresponding to three differ- ent options. the user must select the appropriate adapter. the following table gives recommendations according to th e sensor size. note: 1. depends on lens quality. heat sink mounting in order to improve power dissipation, the camera can be delivered with a heat sink to be mounted by the user on the side faces of the camera. delivery of the heat sink is an option. table 18. lens mounting number of pixels 512/14 m 1024/10 m 1024/14 m 2048/10 m 2048/14 m 4096/10 m c mount ok ok ~ok (1) ~ok (1) not usable not usable f mount okokokokokok t2 (m42 x 0.75) mount ok ok ok ok ok ok m42 x 1 mount okokokokokok 17 aviiva tm sm2 [preliminary] 5372a?image?03/04 ordering code table 19. ordering code part number resolution pixels size description at71sm2cl1010-ba0 1k 10 m aviiva m2 cl 1010 AT71SM2CL2010-BA0 2k 10 m aviiva m2 cl 2010 at71sm2cl4010-ba0 4k 10 m aviiva m2 cl 4010 at71sm2cl0514-ba0 512 14 m aviiva m2 cl 0514 at71sm2cl1014-ba0 1k 14 m aviiva m2 cl 1014 at71sm2cl2014-ba0 2k 14 m aviiva m2 cl 2014 at71kfpaviva-aba ? ? f mount (nikon) at71kfpaviva-aka ? ? t2 mount (m42 x 0.75) at71kfpaviva-ada ? ? m42 x 1 mount at 7 1 k f pav i va - ac a ? ? c m o u n t at71kavivap2c0d3a0 ? ? cable kit: 10-meter power supply and 5-meter cameralink cables printed on recycled paper. 5372a?image?03/04 0m disclaimer: atmel corporation makes no warranty for the use of its products , other than those expressly contained in the company?s standar d warranty which is detailed in atmel?s terms and conditions locat ed on the company?s web site. the company assumes no responsibi lity for any errors which may appear in this document, reserves the right to change devices or specifications detailed herein at any time wi thout notice, and does not make any commitment to update the information contained her ein. no licenses to patents or other intellectual property of atmel are granted by the company in connection with the sale of atmel produc ts, expressly or by implication. atmel?s products are not aut horized for use as critical components in life support devices or systems. 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) 436-4314 microcontrollers 2325 orchard parkway san jose, ca 95131, usa tel: 1(408) 441-0311 fax: 1(408) 436-4314 la chantrerie bp 70602 44306 nantes cedex 3, france tel: (33) 2-40-18-18-18 fax: (33) 2-40-18-19-60 asic/assp/smart cards zone industrielle 13106 rousset cedex, france tel: (33) 4-42-53-60-00 fax: (33) 4-42-53-60-01 1150 east cheyenne mtn. blvd. colorado springs, co 80906, usa tel: 1(719) 576-3300 fax: 1(719) 540-1759 scottish enterprise technology park maxwell building east kilbride g75 0qr, scotland tel: (44) 1355-803-000 fax: (44) 1355-242-743 rf/automotive theresienstrasse 2 postfach 3535 74025 heilbronn, germany tel: (49) 71-31-67-0 fax: (49) 71-31-67-2340 1150 east cheyenne mtn. blvd. colorado springs, co 80906, usa tel: 1(719) 576-3300 fax: 1(719) 540-1759 biometrics/imagin g/hi-rel mpu/ high speed converters/rf datacom avenue de rochepleine bp 123 38521 saint-egreve cedex, france tel: (33) 4-76-58-30-00 fax: (33) 4-76-58-34-80 literature requests www.atmel.com/literature ? atmel corporation 2004 . all rights reserved. atmel ? and combinations thereof, are the registered trade- marks, and aviiva ? is the trademark of atmel corporation or its subsidiaries. 3m ? is a trademark of 3m. other terms and product names may be the trademarks of others. |
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