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features ? contactless power supply ? contactless read/write data transmission ? radio frequency f rf from 100khz to 150khz ? 128-bit eeprom user memory: 16 bytes (8 bits each) ? 8-bit configuration memory ? high q-antenna to lerance due to built-in options ? applications ? animal id, waste management, industrial identification ? iso/iec 11784/785 compatibility ?fdx-a ?fdx-b ? on-chip trimmed antenna capacitor ? 330pf 3% ? 250pf 3% ? mega pads 200m 400m ? mega pads 200m 400m with 25m go ld bumps for dire ct coil bonding ? other options: ? direct access mode ? otp functionality 1. description the atmel ? ATA5575M2 is a contactless read/write identification ic (idic?) for appli- cations in the 100-khz to 150-khz frequency band. a single coil connected to the chip serves as the ic's power supply and bi -directional communication interface. this antenna coil together with the chip form a transponder or tag. the on-chip 128-bit user eeprom (16 bytes with 8 bits each) can be read and writ- ten byte-wise from a base station (reader). data is transmitted from the idic (uplink) using load modulation. this is achieved by damping the rf field with a resistive load between the two terminals coil 1 and coil 2. the ic receives and decodes serial base station commands (downlink), which are encoded as 100% amplitude-modulated (ook) pulse-interval-encoded bit streams. the atmel ATA5575M2 is an eeprom-based circuit. it is optimized for maximum read range. programming is also possible but the write range is limited. the typical animal id application confo rming to iso11784/85 is read-only and oper- ates at 134.2khz. the atmel ATA5575M2 thus has to be locked after programming the animal-specific code. read/write lf rfid idic 100khz to 150khz atmel ATA5575M2 preliminary 9217b?rfid?05/11 www.datasheet.co.kr datasheet pdf - http://www..net/
2 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 2. system block diagram figure 2-1. rfid system using atmel ? ATA5575M2 tag 3. atmel ATA5575M2 - functional blocks figure 3-1. block diagram d a t a re a der or b as e s t a tion atmel ata5575 power tr a n s ponder coil interf a ce controller memory memory (1 3 6- b it eeprom) mod u l a tor an a log front end d a t a -r a te gener a tor write decoder por coil 2 coil 1 controller te s t logic hv gener a tor inp u t regi s ter mode regi s ter www.datasheet.co.kr datasheet pdf - http://www..net/
3 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 4. analog front end (afe) the afe includes all circuits which are connected directly to the coil terminals. the afe gen- erates the ic power supply and handles bi-d irectional data communication with the reader. the afe consists of the following blocks: ? rectifier to generate a dc supply voltage from the ac coil voltage ? clock extractor ? switchable load between coil 1 and coil 2 for data transmission from tag to the reader ? field-gap detector for data transmission from the base station to the tag ? esd protection circuitry 4.1 data rate generator the data rate of the atmel ATA5575M2 is programmable to operate at rf/50 (fdx-a mode) and rf/32 (fdx-b mode). 4.2 write decoder the write decoder detects the write gaps and verifies the validity of the data stream according to the atmel ? downlink protocol (pulse-interval encoding). 4.3 hv generator this on-chip charge pump circuit generates the high voltage required for programming the eeprom. 4.4 dc supply power is supplied externally to the idic via the two coil connections. the ic rectifies and reg- ulates this rf source and uses it to generate its supply voltage. 4.5 power-on reset (por) the power-on reset circuit blocks the voltage supp ly to the idic until an acceptable voltage threshold has been reached. this, in turn, triggers the default initialization delay sequence. during this configuration period of 98 field clocks, the ATA5575M2 is initialized with the config- uration data stored in eeprom byte 16. 4.6 clock extraction the clock extraction circuit uses the external rf signal as its internal clock source. 4.7 controller the control logic module executes the following functions: ? load mode register with configuration data from eeprom byte 16 after power-on and during reading ? controls each eeprom memory read/wri te access and handles data protection ? handle downlink command decoding, detecting protocol violations and error conditions www.datasheet.co.kr datasheet pdf - http://www..net/
4 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 4.8 mode register the mode register maintains a readable shadow copy of the configuration data held in byte 16 of the eeprom. it is continually refreshed during read mode and (re-)loaded after every por event or reset command. depending on the version, upon leaving the atmel ? factory site, the configuration data is pre-programmed according to table 10-1 on page 18 and table 10-4 on page 20 . 4.9 modulator the modulator encodes th e serialized eeprom data for tran smission to a tag reader or base station. two types of encoding are implemented: differential biphase and fsk. 4.10 memory the memory is a 136-bit eeprom arranged in 17 bytes of 8 bits each. programming takes place on a byte basis meaning a complete byte is programmed with a single command. byte 16 contains the mode/configuration data which is otherwise not transmitted during regu- lar-read operations. a special combination of bits in byte 16 (see table 5-1 on page 5 ) locks the whole memory. once locked, the memory (including byte 16 itself) is not reprogrammable through the rf field again. figure 4-1. memory map 1??????....?????.8 configuration data byte 16 user data byte 15 user data byte 14 user data byte 13 user data byte 12 user data byte 11 user data byte 10 user data byte 9 user data byte 8 user data byte 7 user data byte 6 user data byte 5 user data byte 4 user data byte 3 user data byte 2 user data byte 1 user data byte 0 8 bits not transmitted www.datasheet.co.kr datasheet pdf - http://www..net/
5 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 5. operating the atmel ATA5575M2 5.1 configuration the atmel ? ATA5575M2 is mainly designed for iso11784/11785 applications. it supports fdx-a and fdx-b mode (see also figure 7-1 on page 14 for the structure of a fdx-b tele- gram typically used for animal id applications). the configuration register, byte 16, enables the customer to configure the chip according to the individual application. in delivery state the default configuration is me mory reprogrammable, read user data in diff. biphase rf/32 and id length 128 bit which leads to the byte value '00001001b'. 5.1.1 lock-bits the lock bits of the configuration register are the bits 1 to 5 of the configuration byte and are able to prevent the whole memory of the atmel ATA5575M2 from reprogramming. as long as the lock bits are set to '00000b' th e memory is alterable and the device can be pro- grammed by the customer. in this case the atmel ATA5575M2 sends out dummy data (all digits set to '0' in the programmed modulation scheme; see section 5.3.3 ?dummy data? on page 7 ) after reset. if the lock bits are set to '00001b' the memory is still alterable but in difference to the first option the atmel ATA5575M2 sends out the programmed user data in the modulation scheme defined with bit 7. by setting the lock bits to '01101b' the whole memory is locked and cannot be altered. after reset the atmel ATA5575M2 enters regular-read mode and sends out the programmed user data in the configured way. all other combinations of bit 1 - bit 5 are not defined and may lead to malfunction of the ic. table 5-1. atmel ATA5575M2: byte 16 co nfiguration register mapping 12345678 0 id length 0 64 bits (96 bits for fsk2 rf/50 coding (2) ) 1 128 bits 1) modulation 0 differential bi-phase rf/32 (1) 1 fsk2 rf/50 (2) fixed ?0? lock-bits 00001memory reprogrammable 01101memory locked - otherwise - unassigned bit 6 must always be at '0', ot herwise a malfun ction will appear notes: 1. setting for iso 11785 fdx-b 2. setting for iso 11785 fdx-a www.datasheet.co.kr datasheet pdf - http://www..net/
6 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 5.1.2 modulation the modulator consists of data encoders for the following types of modulation. 5.1.3 id length the atmel ? ATA5575M2 offers settings for different id lengths. if bit 8 of byte 16 is set to '1', the id length is 128 bits. depending on the modulation scheme, resetting bit 8 of byte 16 to '0' leads either to the id length of 64 bit with diff erential bi-phase coding or to the id length of 96 bit with fsk2 coding respectively. 5.2 animal id and traceability during atmel?s production process the atme l ATA5575M2 will be pre- configuered in the iso11784/11785 fdx-b mode and a unique id (uid) will be stored in the user memory. the unique id consists of atmel?s production information like lot number, wafer number, and die-on-wafer number. with these data each chip can be traced and concurrently each chip has its own unique id for identification purposes (1) . for iso11784/11785 fdx-b telegrams please refer to section 7. ?examples for programming the ATA5575M2? on page 14 . section 10.2 ?ATA5575M2 configuration on delivery? on page 18 describes how the unique id is formed based on atmel production information. note: 1. please note that this traceability data is only for production control and does not conform with any iso, national or other regulations. 5.3 tag-to-reader communication (uplink) immediately after entering the reader field, generating the internal supply voltage and the ana- log por, in the delivery state the tag cycles its data stored in eeprom by load modulation according to the configuration setting. this resistive load modulation can be detected at the reader device. 5.3.1 regular-read mode in regular-read mode data from the memory is transmitted in series, starting with byte 0, bit 1, up to the last byte, bit 8. last byte is defined in bit 8 of byte 16, id length. when the last bit of the last byte (defined by id length) has been read, data transmission restarts with byte 0, bit 1. the device enters regular-read mode in delivery state (lock bits set to '00001b' or set to '01101b'; please refer to section 5.1.1 ?lock-bits? on page 5 ). last byte is 15, when id length = 1 (128 bit). for differential bi-phase modulation, the last byte is 7 when id length = 0 (64 bits) is chosen. for fsk2 rf/50 modulation, the last byte is 11 when id length = 0 (96 bits) is chosen. every time the atmel ATA5575M2 enters regular or byte read mode, the first bit transmitted is a logical '0'. the data stream starts with bit 1 of byte 0 or bit 1 of the addressed byte. table 5-2. atmel ATA5575M2: types of modulation symbol direct data output encoding fsk2 rf/50 fsk/10 ? fsk/ 8 0 = rf/10 1 = rf/8 differential bi-phase transition at each bit start 0 creates an additional mid-bit change www.datasheet.co.kr datasheet pdf - http://www..net/
7 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] figure 5-1. examples of different id length settings 5.3.2 byte-read mode with the direct access command, only the addressed byte is read repetitively. this mode is called byte-read mode. direct access is enter ed by transmitting the opc ode ('10'), a single 0 bit, and the requested 5-bit byte address. 5.3.3 dummy data the dummy data are a predefined bit sequence of all bits set to value '0'. this sequence is read out instead of the data stored in the user memory if the lock bits are set to '00000b'. 5.4 reader-to-tag communication (downlink) data is transmitted to the tag by interrupting the rf field with short field gaps (on-off keying) according to the atmel ? ata5577 fixed-bit-length protocol (downlink mode). the duration of these field gaps is, for example, 100s. the ti me between two gaps encodes the 0/1 informa- tion to be transmitted (pulse interval encodin g). the time between two gaps is nominally 25 field clocks for a 0 and 58 field clocks for a 1. when there is no gap for more than 64 field clocks after a previous gap, the atmel ATA5575M2 exits the downlink mode. the tag starts with the command execution if the correct number of bits were received. if an error condition occurs, the atmel ATA5575M2 does not continue command execution and enters read mode depending on the setting of the lock bits. the initial gap is referred to as the start gap. this triggers reader-to-tag communication. the start gap may need to be longer than subsequent gaps - so-called write gaps - in order to be detected reliably. a start gap is accepted at any time after the mode register has been loaded ( 1ms). figure 5-2. start of reader-to-tag communication (downlink) 0 lo a ding b yte 16 byte 6 byte 7 byte 1 byte 0 byte 0 0 id length = ? 0 ? with diff. bi-ph as e coding id length = ? 0 ? with f s k2 coding lo a ding b yte 16 byte 10 byte 11 byte 1 byte 0 byte 0 0 lo a ding b yte 16 byte 14 byte 15 byte 1 byte 0 byte 0 id length = ? 1 ? write mode re a d mode s g a p w g a p www.datasheet.co.kr datasheet pdf - http://www..net/
8 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] all absolute times assume t c = 1/f c = 8s (f c = 125khz) 5.4.1 downlink data protocol the atmel ? ATA5575M2 expects to receive a dual bit opcode as a part of a reader command sequence. there are three valid opcodes and overall five different commands (please refer to figure 5-4 on page 9 ): ? the reset opcode '00' star ts an initialization cycle ? a single '10' opcode (read id) leads to readi ng the id out of the eeprom memory. this is suitable to check the programmed user data if the memory is not locked already. the opcode '10' precedes all downlink operations for writing data into the eeprom ? the opcode '11' reads the upper bytes when id length (bit 8 of byte 16) is set to '0' if id length is set to '1' opcode '11' is the same than opcode '10' ?the write byte requires the opcode '10', a '0' bit, 8 data bits and the 5-bit address (16 bits total) ?for direct access , the opcode '10', a '0' bit and a 5-bit address (8 bits total), is required note: the data bits are read in the same order as written. figure 5-3. complete write sequence table 5-3. downlink data decoding scheme parameter remark symbol min. typ. max. unit start gap s gap 81550t c write gap w gap 81020t c write data coding (gap separation) 0 data d 0 18 25 33 t c 1 data d 1 50 58 65 t c note: all absolute times are given under the assumption t c = 1/f c = 8s (f c = 125khz) write mode re a d mode re a d mode progr a mming byte a ddre ss byte d a t a s t a rt g a p config u r a tion lo a ding por opcode ? 0 ? www.datasheet.co.kr datasheet pdf - http://www..net/
9 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 5.5 programming when all necessary information has been received by the ATA5575M2, programming may proceed. there is a clock delay between the end of the writing sequence and the start of programming. typical programming time is 5.6ms. this cycle in cludes a data verification read to grant secure and correct programming. after programming is successfully executed, the ATA5575M2 enters byte-read mode, transmitting the byte just programmed. if the command sequence is validated, the new data is programmed into the eeprom memory. each programming cycle consists of four cons ecutive steps: erase byte, erase verification (data = 0), programming, programming verification (corresponding data bits = 1). figure 5-5. coil voltage after programming a byte figure 5-4. ATA5575M2 command formats op write byte1001 data 84 addr 0 direct access 1 0 0 4 addr 0 read id 1 0 read upper bytes 1 1 reset command 0 0 re a d progr a mmed memory b yte re a d id re a d id 5.6 m s (reg u l a r re a d mode) (byte re a d mode) progr a mming a nd d a t a verific a tion write d a t a to t a g v coil 1 - coil 2 www.datasheet.co.kr datasheet pdf - http://www..net/
10 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 6. error handling several error conditions can be detected to ensure that only valid bits are programmed into the eeprom. there are two error types whic h result into two different actions. 6.1 errors during command sequence the following detectable errors could occur when sending a command sequence to the atmel ? ATA5575M2: ? the wrong number of field clocks between two gaps (i.e., not a valid 1 or 0 pulse stream) ? the number of bits received in the command sequence is incorrect table 6-1. bit counts of command sequences command number of bits write byte 16 direct access 8 read id 2 read upper bytes 2 reset command 2 www.datasheet.co.kr datasheet pdf - http://www..net/
11 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 6.2 errors before/duri ng programming of eeprom if the command sequence was received successful ly, the following errors may still prevent programming: ? the lock bits of the memory are already set ? if the memory is locked, progra mming is not possible. the atmel ? ATA5575M2 enters byte-read mode, continuously transmitting the currently addressed byte. ? if a data verification error is detected after programming of an executed data byte, the tag will stop modulation (modulation defeat) until a new command is transmitted. figure 6-1. atmel ? ATA5575M2 functional diagram byte-read mode progr a m a nd verify write check write protection check n u m b er of b it s comm a nd decode s t a rt g a p write op(1p) re s et mod u l a tion defe a t f a il d a t a = u nch a nged f a il d a t a = u nch a nged g a p comm a nd mode re a d id s et-up mode s power-on re s et re g ular-read mode / read dummy data ok d a t a verific a tion f a iled d a t a = new read id read upper byte s op (00) g a p op(10) re a d id op(11) re a d u pper b yte s op(10) direct a cce ss www.datasheet.co.kr datasheet pdf - http://www..net/
12 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] figure 6-2. example of differential bi-phase coding with data rate rf/32 rf-field mod u l a tor s ign a l d a t a s tre a m 1 16 fc 16 fc d a t a r a te = bi-ph as e coded 64 field clock s (fc) 0 0 1 1 0 1 1 1 1 1 16 17 1 3 2 17 16 3 2 3 2 16 3 2 17 16 3 2 17 16 3 2 17 16 www.datasheet.co.kr datasheet pdf - http://www..net/
13 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] figure 6-3. example of fsk2 coding with data rate rf/50, subcarrier f 0 = rf/10, f 1 =rf/8 rf-field mod u l a tor s ign a l d a t a s tre a m 1 0 0 1 1 0 10 1 8 d a t a r a t e = 50 f i el d c lo ck s ( f c ) 1 f 0 = rf/10, f 1 = rf/ 8 www.datasheet.co.kr datasheet pdf - http://www..net/
14 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 7. examples for programming the ATA5575M2 animal id is a typical application with iso11784/11785. the following describes the data structure of an fdx-b telegram and a flow for programming ATA5575M2 using sample data. figure 7-1. ATA5575M2: structure of the iso 11785 fdx-b telegram notes: ? except for the header, every 8 bits are followed by one control bit (1), to prevent the header from recurring. ? all data is transmitted lsb first. ? country codes are defined in iso 3166 ? the bits reserved for future use (rfu) are all set to 0. ? if the data block flag is not set, the trailer bits are all set to 0. ? crc is performed on the 64-bit identification code without the control bits. the generator polynomial is p(x) = x 16 +x 12 +x 5 + 1. reverse crc-ccitt (0x 8 408) is used. the data stream is lsb first. example data for programming atmel ATA5575M2 in fdx-b mode: ?animal flag: 1 ?rfu: 0 ? data block flag: 0 ? country code: 999 ? unique number: 123456789 ? trailer: 0 he a der identific a tion code crc tr a iler 11 8 x ( 8 +1) 2 x ( 8 +1) 3 x ( 8 +1) bit s 1 ... ... ... 11 12 83 20 ... ... 8 4 101 102 12 8 11 b fixed 00000000001 l s bm s b m s b l s b anim a l fl a g rfu 7 b rfu 7 b co u ntry code 8b d a t a block fl a g co u ntry code 2 b uni qu e n u m b er 6 b uni qu e n u m b er 8b uni qu e n u m b er 8b uni qu e n u m b er 8b uni qu e n u m b er 8b 83 12 20 rfu 14 b co u ntry code 10 b uni qu e n u m b er 38b control b it '1' control b it '1' control b it '1' control b it '1' control b it '1' control b it '1' control b it '1' control b it '1' 64 b identific a tion code + 8b 16 b crc +2 b 24 b tr a iler a ll '0' + 3b control b it '1' bit no. bit no. ... ... l s bm s b www.datasheet.co.kr datasheet pdf - http://www..net/
15 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] table 7-1. atmel ? ATA5575M2: programming with fdx-b example data base station atmel ATA5575M2 field on for t = 5ms por and regular-read mode command 00 reset command 10 0 0000 1001 10000 programming byte 16 with ?09h? (fdx-b mode, memory reprogrammable) command 10 0 0000 0000 00000 programming byte 0 with ?00h? command 10 0 0011 0101 00001 programming byte 1 with ?35h? command 10 0 0001 1011 00010 programming byte 2 with ?1bh? command 10 0 0011 1110 00011 programming byte 3 with ?3eh? command 10 0 1101 0111 00100 programming byte 4 with ?d7h? command 10 0 1000 0010 00101 programming byte 5 with ?82h? command 10 0 0000 0111 00110 programming byte 6 with ?07h? command 10 0 1001 1111 00111 programming byte 7 with ?9fh? command 10 0 1000 0000 01000 programming byte 8 with ?80h? command 10 0 0100 0000 01001 programming byte 9 with ?40h? command 10 0 0110 1110 01010 programming byte 10 with ?6eh? command 10 0 1001 1000 01011 programming byte 11 with ?98h? command 10 0 1010 1000 01100 programming byte 12 with ?a8h? command 10 0 0000 0100 01101 programming byte 13 with ?04h? command 10 0 0000 0010 01110 programming byte 14 with ?02h? command 10 0 0000 0001 01111 programming byte 15 with ?01h? command 10 read id field on for t = 50ms read and verify fdx-b data send fdx-b data command 10 0 0110 1001 10000 programming byte 16 with ?69h? (fdx-b mode, memory locked) command 00 reset field on for t = 50ms read and verify fdx-b data send fdx-b data www.datasheet.co.kr datasheet pdf - http://www..net/
16 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 8. absolute maximum ratings stresses beyond those listed under ?absolute maximum ratings? may cause permanent damage to the device. this is a stress rating only and functional operation of the device at these or any other conditions beyond t hose indicated in the operational sections of this specification is not implied. exposure to absolute maximum rati ng conditions for extended periods may affect device reliability . parameters symbol value unit maximum dc current into coil1/coil2 i coil 20 ma maximum ac current into coil1/coil2 f = 125khz i coil p 20 ma power dissipation (dice) (free-air condition, time of application: 1s) p tot 100 mw electrostatic discharge maximum to ansi/esd-stm5.1-2001 standard (hbm) v max 2000 v operating ambient temperature range t amb ?40 to +85 c storage temperature range t stg ?40 to +150 c note: for data retention please refer to section 9. ?electrical characteristics? on page 16 . 9. electrical characteristics t amb = +25c; f coil = 125khz; unless otherwise specified no. parameters test conditions symbol min. typ. max. unit type* 1 rf frequency range f rf 100 125 150 khz 2.1 supply current (without current consumed by the external lc tank circuit) t amb = 25c (1) i dd 1.5 3 a t 2.2 read ? full temperature range 25aq 2.3 programming ? full temperature range 25 a q 3.1 coil voltage (ac supply) read mode and write command 2) v coil pp 6v clamp vq 3.2 program eeprom (2) 16 v clamp vq 4 start-up time v coil pp = 6v t startup 1.1 ms q 5.1 clamp 3ma current into coil1/2 v pp 15 18 21 v t 5.2 20ma current into coil1/2 v pp 17 20 24 v t 6.1 modulation parameters 3ma current into coil1/2 and modulation on v pp 234vt 6.2 20ma current into coil1/2 and modulation on v pp 4.5 5 8.5 v t 6.3 thermal stability of modulation parameter v p /t amb ?1 mv/c q 7.1 clock detection level v coil pp = 8v v clkdet 400 550 750 mv t 7.2 gap detection level v coil pp = 8v v gapdet med 400 550 750 mv t *) type means: t: directly or indirectly tested during produ ction; q: guaranteed based on initial product qualification data notes: 1. i dd measurement setup: eeprom programmed to 00 ... 000 (erase all); chip in modulation defeat. 2. current into coil1/coil2 is limited to 10ma. 3. since the eeprom performance is influenced by assembly pr ocesses, atmel cannot confirm the parameters for -ddw (tested die on unsawn wafer) delivery. 4. see section 10. ?ordering information? on page 18 . www.datasheet.co.kr datasheet pdf - http://www..net/
17 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 8 programming time from last command gap to re-enter read mode (64 + 648 internal clocks) t prog 55.76mst 9 endurance erase all/write all (3) n cycle 100000 cycles q 10.1 data retention top = 55c (3) t retention 10 20 50 years q 10.2 top = 150c (3) t retention 96 hrs t 10.3 top = 250c (3) t retention 24 hrs q 11.1 resonance capacitor mask option (4) v coil pp = 1v c r 320 330 340 pf t 11.2 242 250 258 9. electrical characteristics (continued) t amb = +25c; f coil = 125khz; unless otherwise specified no. parameters test conditions symbol min. typ. max. unit type* *) type means: t: directly or indirectly tested during produ ction; q: guaranteed based on initial product qualification data notes: 1. i dd measurement setup: eeprom programmed to 00 ... 000 (erase all); chip in modulation defeat. 2. current into coil1/coil2 is limited to 10ma. 3. since the eeprom performance is influenced by assembly pr ocesses, atmel cannot confirm the parameters for -ddw (tested die on unsawn wafer) delivery. 4. see section 10. ?ordering information? on page 18 . www.datasheet.co.kr datasheet pdf - http://www..net/
18 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 10. ordering information 10.1 available order codes atmel ATA5575M2330-ddb atmel ATA5575M2330-dbb new order codes will be created by customer re quest if order quantitie s exceed 250k pieces. 10.2 ATA5575M2 configuration on delivery on delivery atmel?s prod uction information is stored in eeprom with the fdx-b data struc- ture as described in figure 7-1 on page 14 . the user data contains atmel?s lot and production information as described in table 10-2 . with 38 bits, 12 decimals in the range from 0 to 274 877 906 943 can be formed. the following atmel production information is stored within these 12 decimal places. ATA5575M2 ccc -xxx package drawing ddb 6? sawn wafer on foil with ring, thickness 150m (approx. 6mil) figure 11-1 on page 21 dbb 6? sawn wafer on foil with ring and gold bumps 25m, thickness 150m (approx. 6mil) figure 11-2 on page 22 dbn die on sticky tape with gold bumps 25m, thickness 280m sticky tape: 3m 7419 figure 11-3 on page 23 on-chip capacity value in pf 250 (planned) 330 table 10-1. ATA5575M2: configuration on delivery byte address value comment user data byte 0 to byte 15 0b 0 0000 to 0b 0 1111 variable data unique id within a fdx-b telegram configuration (byte 16) 0b 1 0000 0x 09 send fdx-b telegram with user data byte 0 to byte 15 table 10-2. atmel ATA5575M2: meaning of the digit s of unique number in delivery state decimal 11 10, 9 8 7 6 5, 4, 3, 2 1, 0 denotation header cid icr y q nnnn wafer# range [dec] 1 (fixed) 1-99 0-9 0-9 1-4 0-9999 1-25 for example 1 04 0 9 1 0164 12 www.datasheet.co.kr datasheet pdf - http://www..net/
19 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] notes: ? first decimal header is always fixed at ?1? ? cid denotes the chip id and is set to ?4? for atmel ? ATA5575M2 ? icr stands for the revision and/or foundry version of the ic ? yqnnnn gives the atmel lot information ? y: alphanumeric 0, ?, 9 ? q: characters f, g, h and j - are transformed to 1, ?, 4 ? nnnn: alphanumeric consecutive number 0, ?, 9999 ? wafer# describes a lot's wafer numbers; alphanumeric 1, ?, 25 the unique number will then calculated to: unique number = header*10 11 + cid*10 9 + icr*10 8 + y*10 7 + q*10 6 + nnnn*10 2 + wafer# for the example given in table 10-2 on page 18 the unique number is 104 091 016 412 with the 24 trailer bits 8 decimals in the range 0 to 16 777 216 can be established. the follow- ing atmel ? production information is stored within these 8 decimal places. notes: ? the first 3 decimals of the header are always fixed: '111' ? die on wafer (dw): consecutive number of die on wafer: 1 to 99 999 the trailer is then calculated to: trailer = header*10 5 + dw with the example given in table 10-3 the trailer is 11 109 127 table 10-3. atmel ATA5575M2: meaning of the digits of trailer bits in delivery state decimal 7, 6, 5 4, 3, 2, 1, 0 denotation header die-on-wafer no. (dw) range [dec] 111 (fixed) 0 to 99 999 for example 111 09 127 www.datasheet.co.kr datasheet pdf - http://www..net/
20 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 10.2.1 ATA5575M2 example for memory content on delivery the following describes an example of the memory content after atmel? ? s production. ?cid: 4 ? icr: '00b' ? lot number: 9f0164 ? wafer number: 12 ? die on wafer: 9.127 unique number = 1 10 11 + 4 10 9 + 0 10 8 + 9 10 7 + 1 10 6 + 0164 10 2 + 12 = 104 091 016 412 trailer = 111 10 5 + 9,127 = 11 109 127 with the sample data above the fdx-b telegram fields are: ? animal flag ( 1 bit) = ?1b? fixed ? rfu (14 bit) = ?00 0000 0000 0000b? fixed ? data block flag (1 bit) = ?0b? fixed ? country code (10 bit) = 999 (= '11 1110 0111b') fixed ? unique number (38 bit) = 104 091 016 412 ? crc (16 bit) = 39 505 ? trailer (24 bit) = 11 109 127 table 10-4. ATA5575M2: example of memory content on delivery byte# 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 meaning header header / unique number unique number unique number unique number unique number unique number / country code country code data block flag / rfu rfu rfu / animal flag / crc crc crc / tr a i l e r trailer trailer trailer confi- guration value [hex]0027 73bb94f237 9f 804071559f07072b09 www.datasheet.co.kr datasheet pdf - http://www..net/
21 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 11. package information figure 11-1. 6? wafer on foil with ring title drawing no. rev. packa g e drawin g contact: p a ck a gedr a wing s @ a tmel.com 9.920-6716.01-4 3 ata5575myxxx-ddb dimen s ion s 1 33 0 1 2 250 33 0 2 250 option y option xxx 01/1 8 /11 20:1 die dimen s ion s dimen s ion s in mm s pecific a tion s a ccording to din technic a l dr a wing s orient a tion on fr a me ? 227.7 212 ? 194.5 ? 150 212 8 7.5 8 6.5 w a fer ata5575myxxx-ddb 6" w a fer fr a me, pl as tic thickne ss 2.5mm uv t a pe adwill d176 l ab el: qty: w a fer no: lot no: prod: ata5575myxxx-ddb 59.5 6 3 .6 4b b a ? 3 a 0.15 0.012 0.966 0.402 0.4 (0.0 8 ) 0. 3 26 0.04 45 (0.0 8 ) 0.21 0.2 0.946 c2 c1 www.datasheet.co.kr datasheet pdf - http://www..net/
22 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] figure 11-2. 6? wafer on foil with rin g and gold bumps 25m title drawing no. rev. packa g e drawin g contact: p a ck a gedr a wing s @ a tmel.com 9.920-6716.02-4 3 ata5575myxxx-dbb dimen s ion s 01/1 8 /11 20:1 die dimen s ion s dimen s ion s in mm s pecific a tion s a ccording to din technic a l dr a wing s orient a tion on fr a me ? 227.7 212 ? 194.5 ? 150 212 8 7.5 8 6.5 w a fer ata5575myxxx-ddb 6" w a fer fr a me, pl as tic thickne ss 2.5mm uv t a pe adwill d176 l ab el: qty: w a fer no: lot no: prod: ata5575myxxx-ddb 59.5 6 3 .6 4b b a ? 3 a 0.966 0.402 0.4 (0.0 8 ) 0. 3 26 0.04 45 (0.0 8 ) 0.21 0.2 0.946 c2 c1 0.155 0.014 0.025 0.005 0.15 0.012 0.175 0.017 (a u bu mp) 0.005 0.002 (bcb co a ting) 1 33 0 1 2 250 33 0 2 250 option y option xxx www.datasheet.co.kr datasheet pdf - http://www..net/
23 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] figure 11-3. die on sticky tape with gold bumps 25m title drawing no. rev. packa g e drawin g contact: p a ck a gedr a wing s @ a tmel.com 9. 8 00-5109.01-4 2 ata5575myxxx-dbn dimen s ion s 01/1 8 /11 s pecific a tion s a ccording to din technic a l dr a wing s 20:1 die dimen s ion s (0.0 8 ) c2 c1 0.946 0.21 0.2 (0.0 8 ) 0.4 0.402 0.966 (bcb co a ting) 0.2 8 5 0.01 3 5 0.005 0.0015 (a u bu mp) 0.025 0.005 0. 3 05 0.017 0.2 8 0.012 8 0.1 8 .4 reel ? 1 8 0 0. 3 26 0.04 45 gl u e 2mm min. 0.15 a a direction of u nwinded t a pe yellow tr a n s l u cent t a pe ?? x ?? ?? x ?? s pecific a tion s ticky t a pe dimen s ion s in mm l ab el a cc. ?? p a ck a ging a nd p a cking s pec. ?? 1 33 0 1 2 250 33 0 2 250 option y option xxx www.datasheet.co.kr datasheet pdf - http://www..net/
24 9217b?rfid?05/11 atmel ATA5575M2 [preliminary] 12. revision history please note that the following page numbers referred to in this section refer to the specific revision mentioned, not to this document. revision no. history 9217b-rfid-05/11 ? section 1 ?description? on page 1 changed ? section 4 ?analog front end (afe) on pages 3 to 4 changed ? section 5 ?operating the atmel ATA5575M2? on pages 5 to 9 changed ? section 6.2 errors before/during programming of eeprom? on page 11 changed ? section 8 ?absolute maximum ratings? on page 16 changed ? section 9 ?electrical characteristics? on page 16 changed ? section 10.2 ?atmel ATA5575M2 configuration on delivery? on pages 18 to 19 changed www.datasheet.co.kr datasheet pdf - http://www..net/
atmel corporation 2325 orchard parkway san jose, ca 95131 usa tel: (+1)(408) 441-0311 fax: (+1)(408) 487-2600 atmel asia limited unit 01-5 & 16, 19/f bea tower, millennium city 5 418 kwun tong road kwun tong, kowloon hong kong tel: (+852) 2245-6100 fax: (+852) 2722-1369 atmel munich gmbh business campus parkring 4 d-85748 garching b. munich germany tel: (+49) 89-31970-0 fax: (+49) 89-3194621 atmel 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 ? 2011 atmel corporation. all rights reserved. / rev.: 9217b?rfid?05/11 atmel ? , atmel logo and combinations thereof, idic ? and others are registered trademarks or trademarks of atmel corporation or its subsidiaries. other terms and product names may be trademarks of others. disclaimer: the information in this document is provided in con nection with atmel products. no license, express or implied, by estoppel or otherwise, to any intellec- tual property right is granted by this document or in connection with the sale of atmel products. except as set forth in the at mel terms and conditions of sales located on the atmel website, atmel assumes no liability whatsoever and disclaims any express, implied or statutory 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, consequential, punitive, special or incidental damages (including, without limitation, damages for lo ss and profits, business interruption, or loss of information) arising out of the use or inabil ity to use this document, even if atmel has been advised of the possibility of such damages. at mel makes no representations or warranties with respect to the accura cy or completeness of the contents of this document and reserv es the right to make changes to specifications and products descriptions at any time without not ice. atmel does not make any commitment to update the informati on contained herein. unless specif- ically provided otherwise, atmel produc ts are not suitable for, and shall not be used in, automotive applications. atmel produc ts are not intended, authorized, or war- ranted for use as components in applicatio ns intended to support or sustain life. www.datasheet.co.kr datasheet pdf - http://www..net/

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