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preliminary this is a product that has fixed target specifications but are ramtron international corporation subject to change pending characterization results. 1850 ramtron drive, colorado springs, co 80921 (800) 545 - fram, (719) 481 - 7000 http://www.ramtron.com rev. 1.4 may 2011 page 1 of 2 4 wm7 1004 / wm71008 / WM71016 4/8 / 16kbit secure f - ram memor y with gen - 2 rfid access description the wm71 0 xx is a rfid transponder ic with nonvolatile memory employing an advanced ferroelectric process. a ferroelectric random access memory , or f - ram , is nonvolatile and performs reads and writes like a ram. it provide s reliable data retention for 20 years while eliminating the complexities, overhead, and system level reliability problems caused by eeprom and other nonvolatile me mories. unlike eeprom?s, the wm710xx write operations are z ero p ower C there is no power or speed premium paid for executing writes into the wm710xx as compared to read power and speed . operation of the memory is fully symmetric: it has an equivalent re ad and write range . t he wm7 10xx ?s rfid interface is compa t ible with the epc class - 1 generation - 2 uhf rfid protocol for communications at 860 mhz C 960 mhz, version 1.2.0 specification for rfid air interface. the wm710xx is a two chip configuration offered in various forms: standard ic package or wafer s . all specifications discussed herein are applicable to the combined chipset operation. figure 1. system block diagram features 4/8/ 16 kbit ferroelectric nonvolatile ram ? organized as 256/512/ 1024 x 16 bits ? very high read/write e ndurance (> 10 1 4 ) ? 20 - year data retention ? gamma s ta bility demonstrated to > 30 k gy ? symmetric read/write o peration ? advanced high - reliability ferroelectric process interface and security features ? epc class 1 gen2 ( iso18000 - 6c ) rfid compatible interface (revision 1.2.0) ? 192 - bit memory: 96 - bit electronic product code? (epc), 32 - bit access password, 32 - bit kill password, 64 - bit tid memory (factory programmed and locked) ? inventory, read, write and erase features ? kill c ommand ? block permalock c ommand ? access c ommand ? uhf carrier frequencies from 860 mhz to 960 mhz ism band , ask demodulati on ? tag - to - reader link frequencies u p to 640kbps ? reader - to - tag asymptotical transmission rates up to 128kbps ? supports fm0 and mms data encoding formats custom features ? stored address pointer to improve data write speed ? stored address pointer lock ? block write c ommand ? variable user memory block s ize s upport ultra low power operation ? memory read/w rite s ensitivity : < - 6 d b m ( typ. ) industry standard configuration s ? industrial temperature - 40 ? c to +85 ? c ? b umped w afers ? 8 - pin udfn wm71 016 rfid tag with f - ram rfid reader (class - 1 gen - 2) www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 2 of 24 pin configuration ( u dfn package) top view (pcb layout) 3.0 mm 3.0 mm body, 0.65 mm pad pitch pin description pin name pin number type description a nt+, ant - 7 , 8 i nput rfid antenna. connect to external rfid antenna termina ls. n c 1 , 2, 3, 4 , 5, 6 - there is no internal connection. 8 7 6 5 1 2 3 4 n c a n t - a n t + n c n c n c n c n c www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 3 of 24 f unctional descriptio n the wm7 10xx is a non - volatile memory device with an industry standard uhf rfid interface that enables processing data in and out of memory as a generic passive rfid transponder. unlike ot her transponder ic s, the wm7 10xx transponder ic contains high density symmetric read/write f - ram memory that enables unique applications of an rfid solution. when combined with an appropriate antenna design, wm7 10xx will power up with energy harvested directly from the rf field. following an internally generated reset state, the ic configures itself according to pre - programmed configuration settings that were stored in f - ram non - volatile memory at wafer probe, packaged parts te st, or end unit transponder personalization at end - user depot. configuration settings are read out of memory and applied prior to enabling data transmission in or out of memory. as specified in the gen2 standard, the chip receives and processes commands transmitted by the rfid interrogator (reader). all required and most optional commands are supported. in addition to these, wm7 10xx supports a number of custom commands that take advantage of f - ram?s unique ultra low power and symmetrical characteristics . referring to figure 2 , the transponder ic?s consist of an rfid interface, c ontrol and authentication logic, f - ram memory, and power management unit. the external antenna is connected directly to the rfid interface where the rf signal is rectified with high efficiency schottky diode based rectifier. the rectified voltage is mult iplied up within the schottky array and then regulated to supply power to on - chip resources. also included in the rfid interface is a modulator/demodulator that detects incoming signals and modulates the input impedance to enable backscattering of retur ned signals. the control and authentication logic processes commands to enable access in and out of f - ram memory. figure 2. block diagram power management rfid interface control and authentication logic f - ram array (16kb) external mcu (optional) www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 4 of 24 memory map wm7 10xx ?s memory is partitioned according to the logical and ph ysical mapping shown in table 1 below . table 1: memory map dspi address gen - 2 memory bank gen - 2 address word pointer (ebv8) description 0x000 reserved 0x000 0x00 kill password[31:16] 0x001 reserved 0x001 0x01 kill password[15:0] 0x002 reserved 0x002 0x02 access password[31:16] 0x003 reserved 0x003 0x03 access password[15:0] 0x004 epc 0x000 0x00 crc 0x005 epc 0x001 0x01 pc 0x006 epc 0x002 0x02 epc - word 0 (msw) 0x007 epc 0x003 0x03 epc - word 1 0x008 epc 0x004 0x04 epc - word 2 0x009 epc 0x005 0x05 epc - word 3 0x00a epc 0x006 0x06 epc - word 4 0x00b epc 0x007 0x07 epc - word 5 (lsw) 0x00c epc 0x008 0x08 epc - read memory 0x00d epc 0x009 0x09 epc - read memory 0x00e service 0x00a 0x0a reserved 0x00f service 0x00b 0x0b reserved 0x010 tid 0x000 0x00 tid - word 0: x e201 0x011 tid 0x001 0x01 tid - word 1: x 6216 0x012 tid 0x002 0x02 tid - word 2: serial #1 0x013 tid 0x003 0x03 tid - word 3: serial #2 0x014 user 0x000 0x00 reserved 0x015 user 0x001 0x01 rfu 0x016 user 0x002 0x02 control/status register 0x017 user 0x003 0x03 working stored address register 0x018 user 0x004 0x04 0x019 user 0x005 0x05 0x01a user 0x006 0x06 user memory - start 0x01b user 0x007 0x07 0x0fe user 0x0ea 0x816a 0x0ff user 0x0eb 0x816b 0x100 user 0x0ec 0x816c 0x101 user 0x0ed 0x816d 0x1fe user 0x1ea 0x836a 0x1ff user 0x1eb 0x836b 0x200 user 0x1ec 0x836c 0x201 user 0x1ed 0x836d 0x3ba user 0x3a6 0x8726 0x3bb user 0x3a7 0x8727 16k memory: end (blk_size = 1 word/block) 0x3bc user 0x3a8 0x8728 0x3bd user 0x3a9 0x8729 0x3be user 0x3aa 0x872a www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 5 of 24 dspi address gen - 2 memory bank gen - 2 address word pointer (ebv8) description 0x3da user 0x3c6 0x8746 0x3db user 0x3c7 0x8747 16k memory: end (blk_size = 2 words/block) 0x3dc user 0x3c8 0x8748 0x3dd user 0x3c9 0x8749 0x3de user 0x3ca 0x874a 0x3ea user 0x3d6 0x8756 0x3eb user 0x3d7 0x8757 16k memory: end (blk_size = 4 words/block) 0x3ec user 0x3d8 0x8758 0x3ed user 0x3d9 0x8759 0x3ee user 0x3da 0x875a 0x3f3 user 0x3df 0x875f 16k memory: end (blk_size = 8 words/block) 0x3f4 user 0x3e0 0x8760 0x3f5 user 0x3e1 0x8761 0x3f6 user 0x3e2 0x8762 0x3f7 user 0x3e3 0x8763 16k memory: end (blk_size = 16 words/block) 0x3f8 user 0x3e4 0x8764 0x3f9 user 0x3e5 0x8765 16k memory: end (blk_size = 32 words/block) 0x3fa user 0x3e6 0x8766 0x3fb user 0x3e7 0x8767 (blk_size > 32 words/block) 0x3fc user 0x3e8 0x8768 reserved 0x3fd user 0x3e9 0x8769 reserved 0x3fe user 0x3ea 0x876a reserved 0x3ff user 0x3eb 0x876b reserved gen2 wm7 10 xx memory banks the rfid memory banks reside in ramtron?s non - volatile f - ram memory. f - ram brings many benefits to the wm7 10xx . the first benefit is the size of the memory itself C up to 16k - bit, most of which is available in the user memory bank. f - ram?s impact on the gen2 protocol is most dramatically seen when writing to wm7 10xx memory. unlike eeprom memory, no charge pump or memory soak time is required to write to wm7 10xx memory , re sulting in zero time and zero power penalties . the write cycle is completed immediately, allowing an interrogator to continue writing additional data to memory with no time penalty incurred due to the memory itself. a comparison between f - ram and eeprom memories is shown in figure 3 . the figure shows the minimum number of gen2 instructions required to perform a select, inventory, and access sequence of commands t o write a data word to memory. the same interrogator command sequence is transmitted to the wm7 10xx and a n eeprom - based rfid. the effect of the eeprom time penalty is shown within the context of the protocol. www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 6 of 24 figure 3. gen2 memory write cycle comparison: f - ram vs. eeprom memories reserved: kill password : the kill password provides a mechanism to permanently disable the wm7 10xx rfid from responding to any and all gen2 interrogator commands. the mandatory kill command can be issued by a rfid interrogator in eith er the open or secured states. the wm7 10xx is permanently killed through a four - instruction sequence of reqrn and kill commands as detailed in the gen2 standard. the kill password is a 32 - bit value stored as 2 16 - bit data wo rds in reserved memory. the most significant kill password is stored in reserved memory bank address 0x00 with the least significant word stored in reserved memory bank address 0x01. the kill function can be permanently disabled by setting both kill pass word words to 0x0000, and permanently locking the kill password in the reserved memory bank. once the kill password has been set, it should be permanently locked using the lock command. the wm7 10xx is shipped from the factory with the k ill password memor y unlocked. reserved: access password : the access password provides a security mechanism to prevent unauthorized rfid interrogators from writing to wm7 10xx memory. non - zero access passwords require the wm7 10xx be placed in the secured state prior to wr iting to it. this is accomplished through four consecutive reqrn and access commands as described in the gen2 standard. an access password with a value of zero requires no authentication prior to writing to wm7 10xx memory. the access password is a 32 - bi t value stored as 2 16 - bit data words in reserved memory. the most significant access password is stored in reserved memory bank address 0x02 with the least significant word stored in reserved memory bank address 0x03. once the access password has been s et, it should be permanently locked using the lock command. the wm7 10xx is shipped from the factory with the access password memory unlocked. epc memory bank : the epc memory bank accommodates 8 words: 1 protocol control (pc) word, a 6 - word (96 - bit) memory space for an epc identifier, and a 1 - word crc. the crc word is calculated as part of the wm7 10xx power - on initialization routine and written into the epc memo ry bank address 0x00. the pc and 6 - word epc identifier are completely programmable. the protocol control field is shown in figure 4 . i n t e r r o g a t o r t a g m a x a r i a s w r i t e c y c l e q u r y ( 2 4 0 u ) s e l e c t ( 3 8 5 u ) a c k ( 1 7 5 u ) r e q r n ( 3 4 5 u ) e p c ( 2 2 8 u ) w r i t e ( 4 9 5 u ) r n ( 5 3 u ) h a n d l e ( 7 8 u ) w r _ o k ( 8 0 u ) r e q r n ( 3 4 5 u ) r n 1 6 ( 7 8 u ) e e p r o m w r i t e d e l a y ! c h a r g e p u m p & e e s o a k t i m e e e p r o m - b a s e d w r i t e c y c l e 4 m s www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 7 of 24 figure 4. epc protocol control word the five most significant bits of the pc indicates the size of the epc identifier in words C for a 96 - bit (6 - word) epc identifier, the pc should be programmed to 0b0011_0xxx_xxxx_xxxx. the len parameter of the pc word may not be greater than 0b00110 C a len parameter of 0b00000 has an epc identifier length of zero words resulting in only the pc and crc words when wm7 10xx is acknowledged. the umi bit (user memory identifier) is asserted to a logic one by wm7 10xx and mapped to bit 10 of the pc word. in the event the host write s a logic zero to the umi bit, the memory location will be written with a logic zero, however the backscattered epc identifier will assert the umi bit to a logic one which is also used in the calculation of t he crc. wm7 10xx does not support extended protocol control and should be written with a logic zero. pc word b its 8 down to 0 of the pc word are factory - initialized to zero . the wm7 10xx is shipped from the factory with the epc memory bank unlocked. tid memory bank : the tid memory bank consists of 4 words (64 bits), and is defined as shown in table 2 . the tid memory bank is permanently locked at the factory and obeys the iso/iec 15963 numbering convention. table 2: tid memory bank fields figure 5. tid memory bank fields bit field value (hex) description 00 h C 07 h e2 iso/iec 15963 class - identifier 08 h C 13 h 016 mask - designer identifier (mdid) C ramtron international 14 h C 1f h 216 tag model number 20 h C 3f h 32 - bit unique identifier 0 0 1 1 0 0 0 0 0 0 0 0 0 0 0 1 d e f a u l t n u m b e r i n g s y s t e m i d e n t i f i e r n s i t y p e e x t e n d e d p r o t o c o l c o n t r o l u s e r m e m o r y i d e n t i f i e r e p c i d e n t i f i e r w o r d l e n g t h l e n n s i x p c n t u m i 1 5 1 1 9 1 0 8 7 0 b i t p r o t o c o l c o n t r o l w o r d c l a s s i d e n t i f i e r m d i d [ 1 1 : 4 ] m d i d [ 3 : 0 ] t m n [ 1 1 : 0 ] i d [ 3 1 : 1 6 ] i d [ 1 5 : 0 ] 0 7 8 1 5 1 6 2 0 3 1 3 2 4 7 4 8 6 3 1 9 www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 8 of 24 user memory bank : the user memory bank comprises two special - function control words, factory - reserved words, and up to 993 available memory locations. refer to table 1 for detail on the wm7 10xx memory structure. the user memory bank may be com pletely locked through the lock command. wm7 10xx also supports the blockpermalock command providing the ability to lock contiguous words of user memory, with word block sizes as small as a single word up to a maximum block size of 128 words. the user memo ry bank ships from the factory completely unlocked. www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 9 of 24 tag - to - reader data encoding the wm7 10xx supports both encoding formats defined in the gen2 standard: ? fm0 baseband (fm0) ? miller modulation of a subcarrier (mms) data encoding is performed in the wm7 10xx as described in the gen2 standard. a fm0 data symbol is transmitted with period t which is defined by the tag - to - reader link frequency. the difference between a logic 0 and a logic 1 is defined by an additional mid - bit transition for a logic 0 as shown b elow in figure 6 . data encoding using miller modulation of a subcarrier (mms) is further defined by a rate parameter m that defines the number of link frequency cy cles per data bit: 2, 4, or 8, resulting in data encoding defined as mms2, mms4, or mms8 respectively. mms data encoding results in a phase inversion of the sub - carrier frequency when one of the following conditions occurs: ? at the mid - bit of a logic 1 dat a bit, or ? at the bit - boundary of two consecutive logic 0s. the following set of four figures depicts the data bit values 00, 01, 10 and 11 for fm0 and mms data encoding formats. the same link frequency is shown for all cases, however the mms parameter m lengthens the baseband bit period by 2, 4, or 8 as shown in figure 7 , figure 8 , and figure 9 . figure 6. fm0 data encoding figure 7. mms2 data encoding figure 8. mms4 data encoding figure 9. mms8 data encoding 0 t 2 t 1 1 1 0 0 1 0 0 0 2 t 4 t 1 1 1 0 0 1 0 0 1 1 1 0 0 1 0 0 0 4 t 8 t 1 1 1 0 0 1 0 0 0 8 t 1 6 t www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 10 of 24 control / status register accessing the unique f eatures of wm7 10xx is accomplished through the control/status register in f - ram non - volatile memory. the register is located at physical address 0x016 or user memory address 0x002. the control/status word register is organized as shown in table 3: below . care should be exercised when writing the control/status register word if it is to remain unlocked. figure 10. control/sta tus register table 3: control/ status word register bit mnemonic function initial value 15 lock memory locking of this register. lock permalock description 0 0 register unlocked 0 1 register permanently unlocked 1 0 register writeable only from the secured state 1 1 register permanently locked 0 14 permalock 0 13 rfu reserved for future use 0 12 rfu reserved for future use 0 11 rfu reserved for future use 0 10 rfu reserved for future use 0 9 rfu reserved for future use 0 8 rfu reserved for future use 0 7 blkwren enables use of the custom command blockwrite. 1 6 blksiz [2] user memory block size. blksiz[2:0] # words blksiz[2:0] # words 000 1 100 16 001 2 101 32 010 4 110 64 011 8 111 128 1 5 blksiz [1] 1 4 blksiz [0] 0 3 wrpstat indicates if the working stored address has wrapped . logic state description 0 wrapping has not occurred 1 wrapping has occurred at least once 0 2 wrpen enables wrapping of the working stor ed address when it reaches the t op of l ogical m emory . logic state description 0 disable memory wrapping 1 enable memory wrapping. 0 1 autolock enable automatic locking of all user memory between the start of user memory and the working s tored a ddress register. logic state description 0 auto - lock disabled 1 auto - lock enabled 0 0 autoincr enable the working s tored a ddress word to a uto - increment when performing an unaddressed write cycle. logic state description 0 disable auto - increment of stored address register 1 enable auto - increment of stored address register 0 l c k p l c k r f u b w e n b l k s i z w r p w r p e n a l c k a i n c www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 11 of 24 upon power up, wm7 10xx?s control logic reads the c ontrol /status word out of memory and configures itself accordingly. user applications may ch ange the c ontrol w ord as needed providing the register has not been permanently locked. the control/status word may be read by the application at any time. register locking : the lock and permalock control bits are implemented in a similar manner as locking bits used for gen2 memory bank locking with the exception that the lock control bits are i ncorporated into the register they are locking. as such, attention needs to be pla ced on how the contents of the c ontrol/ s tatus word are written when the register is not completely unlocked. table 4: control/status word locking lock perma - lock description 0 0 re gister unlocked. all control bits, including the lock and permalock bits can be written to from the open or secured states. 0 1 register permanently unlocked. all control bits can be written from the open or secured states. the lock and permalock bits must be set to logic values 0 and 1 respectively when writing the control/status word. 1 0 register locked. all control bits can be written to only from the secured state. the register cannot be written to in the open state. the lock and permalock bits must be set to logic values 1 and 0 respectively when writing the control/status word. 1 1 register permanently locked. the register cannot be written in any circumstance. block write enable : the blkwren control bit enables usage of the wm7 10xx custom command blockwrite. the blkwren parameter is internally updated during power - on wm7 10xx initialization. in the event the host application toggles the state of blkwren, a wm7 10xx power cycle is required to reflect the change. block size : the 3 b lksiz[2:0] control bits adjust the user memory block sizes as shown in table 5 : . this provides the rfid application the ultimate flexibility in de termining a balance between the user memory requirements and the granularity of the number of user memory words per block. for the WM71016, t he larger the granularity of the block size, the greater amount of available user memory; block size has no effect on wm71004 or wm71008 memory. the effect of the block size on available user memory is shown in table 1 . the total number of user memory words available as a function of the block size is shown in table 5 below . it is of utmost importance that the 3 - bi t block size is not modified once set, which would result in corruption of block permalock status bits. table 5: available user memory memory blksiz words/block free user memory (words) 4k xxx x 230 8k xxx x 486 16k 000 1 931 16k 001 2 963 16k 010 4 979 16k 011 8 987 16k 100 16 991 16k 101 32 993 16k 110 64 993 16k 110 128 993 wrap status : the wrpstat status bit is asserted to a logic one when the following conditions are true: (a) wrpen =1 , autoincr=1 and autolock=0, (b) the contents of the working stored address register address the last user memory location, and (c) an unaddressed write command is received . the wr p stat can be cleared by the rfid interrogator by writing a logic zero to the wr p stat bit. www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 12 of 24 wrap enable : asserting the wrpen control bit to a logic one enables the user memory wrapping feature. the wrap enable feature allows the stored address pointer to wrap back to the factory - set initial stored address value of 0x006. in this manner, the wm7 10xx memory acts as a circular buffer. clearing the wrpen control bit disables wrapping resulting in a write - once memory. in this case, when the w orking s tored a ddress reaches the end of user memory, no additional unaddressed write cycles will be possible. the wrpen and autolock control bits are mutually exclusive C only one of the two control bits may be asserted at any given time. auto lock enable : asserting the autolock control bit to a logic one enables memory locking of the user memory span between the start of user memory and the w orking s tored a ddress. the autolock and wrpen control bits are mutually exclusive C only one of the two control bits may be asserted at any given time. the automatic locking feature can only be used when autoincr is asserte d to a logic one. auto increment : asserting autoincr control bit to a logic one enables the working s tored a ddress increment function. upon receiving an unaddressed write cycle, the wm 710xx increments the pointer stored in the working stored address regi ster to point to the next free memory location then writes the cover - coded data word to the respective memory location . this functionality removes any requirement for a rfid interrogator to determine where free user memory is located and manipulating the memory pointer itself. working stored address to better utilize the f - ram?s fast write capability, memory has been architected using an optional w orking s tored a ddress register . the stored address function enables automation of the storage of large block s of user data, such as pe digree or tracking information. this feature enables a rfid interrogator the ability to use a standard gen2 write command using a designated address of 0x3fff ( 0xff7f ebv - formatted ) as a redirect pointer to use the contents of the w orking s tored a ddress register C this is referred to as an unaddressed write (unaddr_write) . the w orking s tored a ddress is a user memory address pointer addressing the last unaddressed memory write cycle as shown in figure 12 bel ow . the w orking s tored a ddress is a read/write register located in user memory, address 0x00 3 . it may be manually up dated by simply writing to user memory address 0x003 or automatically increment when the autoincr control bit in the control/status register is asserted to a logic one and an unaddress ed write command is received. figure 11. working stored address register table 6: working stored address C bit definitions bit mnemonic function initial value 15 lock memory locking of this register. lock permalock description 0 0 register unlocked 0 1 register permanently unlocked 1 0 register writeable only from the secured state 1 1 register permanently locked 0 14 permalock 0 13 :11 rfu reserved for future use 0 10 initen when asserted to a logic 1, sets the contents of the initial stored address register with the value defined in the 10 - bit address field in bits 9 through 0 written to this register using a gen2 write instruction. 0 9 :0 addr working stored address pointer 006 l c k i n i t e n r f u a d d r [ 9 : 0 ] p l c k www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 13 of 24 working stored address pointer gen - 2 memory bank gen - 2 address description reserved 0x000 - 0x003 reserved - passwords memory unavailable epc 0x000 - 0x009 epc service 0x00a reserved service 0x00b reserved tid 0x000 - 0x003 tid user 0x000 reserved user 0x001 rfu user 0x002 control/status register user 0x003 working stored address register: 0x0006 user 0x004 user 0x005 ? ? user 0x006 user memory - start available memory user 0x007 user 0x008 user user user memory - end figure 12. user memory bank: working stored address register the syntax for an unaddressed write command is shown in error! reference source not found. . a ll protocol equirements governing implementation of a write command also apply to the unaddr_write command. figure 13. unaddressed write syntax upon reception of a valid unaddr_write command, the wm710xx examines the state of the autoincr control bit: autoincr=0 : the 16 - bit data word cover - coded in the unaddressed write instruction is written to the memory address stored in the working stored address register. the contents of the working stored address register remain unaltered. to avoid the memory being over - written, the working stored address register must be manually updated. autoincr=1 : the working stored address register is incremented by one, followed by the 16 - bit data word being written to me mory. the contents of the working stored address register will reflect the memory address just written to. a single unaddressed write cycle is shown in figure 14 with the autoincr control bit set to a logic one. the working stored address has an initial value of 0x0006 as shown in figure 12. an unaddressed write cycle (with autoincr=1) increments the address pointer to 0x0007 followed by a write cycle to the wm710xx memory resulting in data word data 0 being written to user memory address 0x007. figure 1 5 depicts an additional seven discrete unaddressed write cycles (reqrn command for cover - coding not shown). prior to unaddressed write commands, the working stored address has a memory address of addr n . an unaddressed write command with data payload data n is written to addr n+1 ; the following unaddressed write command with data payload data n+1 is written to addr n+2 , and so on. upon completion of the final unaddressed write command, the memory pointer contents of the working stored address will be addr n+8 , reflecting the memory address of the last unaddressed write cycle. in this manner, the rfid interrogator does not have to read the memory contents to discern the next available memory location. this substantially reduces the time required in the rf fiel d yielding greater throughput of a population of tags . the working stored address pointer will be factory - initialized to the start of user memory then managed by the memory controller or the host application as required. w r i t e ( 0 x c 3 ) m e m b a n k ( 0 b 1 1 ) w o r d p t r ( 0 x f 7 f f ) 1 6 - b i t d a t a ( c o v e r - c o d e d ) ( 0 x n n n n ) h a n d l e ( 0 x h h h h ) c r c - 1 6 ( 0 x c c c c ) www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 14 of 24 working stored address pointer gen - 2 memory bank gen - 2 address description reserved 0x000 - 0x003 reserved - passwords memory unavailable epc 0x000 - 0x009 epc service 0x00a reserved service 0x00b reserved tid 0x000 - 0x003 tid user 0x000 reserved user 0x001 rfu user 0x002 control/status register user 0x003 working stored address register: 0x0007 user 0x004 user 0x005 ? user 0x006 user memory - start available memory ? ? user 0x007 unaddr_write: data0 user 0x008 user user user memory - end figure 14. single unaddressed write cycle, autoincr=1 working stored address pointer gen - 2 memory bank gen - 2 address description reserved 0x000 - 0x003 reserved - passwords memory unavailable epc 0x000 - 0x009 epc service 0x00a reserved service 0x00b reserved tid 0x000 - 0x003 tid user 0x000 reserved user 0x001 rfu user 0x002 control/status register user 0x003 working stored address register: 0x000e user 0x004 user 0x005 ? user 0x006 user memory - start available memory ? user 0x007 unaddr_write: data0 ? user 0x008 unaddr_write: data1 user 0x009 unaddr_write: data2 user 0x00a unaddr_write: data3 user 0x00b unaddr_write: data4 user 0x00c unaddr_write: data5 user 0x00d unaddr_write: data6 ? ? user 0x00e unaddr_write: data7 user 0x00f user 0x010 user 0x011 user memory - end figure 15. multiple unaddressed write cycles, autoincr=1 www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 15 of 24 initial stored addre ss the initial stored address is a preset address pointer that is loaded into the working stored address when a memory wrap occurs after an unaddressed write command is executed. a memory wrap only occurs if the wrpen control bit is asserted to a logic one and the autolock control bit is cleared to a logic zero in the control/status register and the working stored address points to the last free memory location in the user memory bank (last memory location depends on the set block size). the contents of the initial stored address may be altered by setting the initen bit to a logic one through a gen2 write cycle to the working stored address register C refer to table 6 above. when the initen control bit is set during a write cycle, the contents of the working stored address regist er in user memory 0x003 are not affected. use of an initial stored address register provides flexibility when using the wrap enable feature of wm710xx . it may be set to the start of user memory, allowing the entire user memory bank to be utilized. altern atively, it may be set to a higher memory address within the user memory bank. this mechanism would provide for a static user memory bank and a dynamic user memory bank as shown in figure 16 below . in the example shown in figure 16 , the working stored address points to address 0x3f8 after having written user_log_data[ n ] w ith an unaddressed write command. the subsequent unaddressed write cycle will increment (wrap) the working stored address to the value defined by the initial stored address , defined in this example as 0x000a, and write the value user_log_data[ n +1] to user memory bank 0x00a, over - writing the previous data contents user_log_data[0]. in the example shown, four memory locations are used for static memory, or memory that will not be over - written when a wrap condition has occurred. www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 16 of 24 working stored address poi nter gen - 2 memory bank gen - 2 address description reserved 0x000 - 0x003 reserved - passwords memory unavailable epc 0x000 - 0x009 epc service 0x00a reserved service 0x00b reserved tid 0x000 - 0x003 tid user 0x000 reserved user 0x001 rfu user 0x002 control/status register user 0x003 working stored address register: 0x03f8 user 0x004 user 0x005 ? user 0x006 user_static_data0 static ? user 0x007 user_static_data1 ? user 0x008 user_static_data2 user 0x009 user_static_data3 initial stored address user 0x00a user_log_data[0], user_log_data[ n +1] dynamic user 0x00b user_log_data[1] user 0x00c user 0x00d ? user 0x00e user 0x00f user 0x010 user 0x011 user 0x3f7 user_log_data[ n - 1] ? ? user 0x3f8 user_log_data[ n ] figure 16. initial stored address example C block size = 128 words/block the initial stored address is factory - initialized with a value of 0x0006 (user memory bank address 0x006). www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 17 of 24 supported commands the wm7 10xx supports the following select, inventory, and access commands as described in the epcglobal class 1 generation 2 uhf rf id specification . please refer to the r eferenced document for detailed descriptions of these commands. ? select ? query ? queryadjust ? queryrep ? ack ? nak ? req_rn ? read ? write ? kill ? lock ? access ? blockwrite * ? blockpermalock maxarias gen2 custom command: bloc kwrite the wm 710xx supports a customized version of the blockwrite command to support unique features within the device. the blockwrite command optional feature is enabled by asserting the blkwren control bit in the control/status register to a logic one, after which the wm7 10xx will require a power cycle to initialize itself. to support other features within the wm7 10xx , the blockwrite command uses the address stored in the w orking s tored a ddress register. the address pointer passed in the blockwrite command is the physical ad dress 0x3 f ff (ebv formatted address = 0xf7ff) , representing the same address used for unaddressed write cycles . a single blockwrite command carries a maximum data payload of 127 words . blockwrite commands with data payloads greater than 127 words may opt ionally be written to unlocked memory, however the wm7 10xx will not acknowledge the blockwrite command with a success message. in this event, the host interrogator may perform one or more read cycles to verify user memory data contents. prior to transmit ting a blockwrite command, the interrogator must set the w orking s tored a ddress register through a standard gen2 write command. the blockwrite command is shown in figure 17 below . figure 17. block write syntax blockwrite commands do not support the auto - increment feature used for unaddr_write commands. as such, the w orking s tored a ddress must be manually updated by the host interrogator and will not be altered by a blockwrite command . when using the streaming capabilities of the blockwrite command, care should be taken to consider the logic state of the autoincr control bit. as w ith unaddr_write commands, the w orking s tored a ddress register is incremented prior to writing data to memory when autoincr=1 affecti ng the first user memory ad dress written to. figure 18 shows an 8 - word blockwrite command with autoincr=0; figure 19 shows a blockwrite command with autoincr=1. in the respective figures, when autoincr=0, data is written starting at the address defined by the working stored address register C 0x006; when autoincr=1, data is written starting at the next free address defined by the contents of the working stored addre ss incremented by one, or 0x007. it is important b l k w r i t e ( 0 x c 7 ) m e m b a n k ( 0 b 1 1 ) w o r d p t r ( 0 x f 7 f f ) d a t a ( x n n 1 6 - b i t d a t a ) h a n d l e ( 0 x h h h h ) c r c - 1 6 ( 0 x c c c c ) w o r d c n t ( 0 x n n ) www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 18 of 24 to note that in both cases, the value stored in the working stored address register does not change for a blockwrite command C in the example shown, it remains at a value of 0x006 . working stored address pointer gen - 2 memory bank gen - 2 address description reserved 0x000 - 0x003 reserved - passwords memory unavailable epc 0x000 - 0x009 epc service 0x00a reserved service 0x00b reserved tid 0x000 - 0x003 tid user 0x000 reserved user 0x001 rfu user 0x002 control/status register user 0x003 working stored address register: 0x0006 user 0x004 user 0x005 ? ? user 0x006 blkwrite: data0 available memory ? user 0x007 blkwrite: data1 ? user 0x008 blkwrite: data2 user 0x009 blkwrite: data3 user 0x00a blkwrite: data4 user 0x00b blkwrite: data5 user 0x00c blkwrite: data6 user 0x00d blkwrite: data7 ? user 0x00e user 0x00f user memory - end figure 18. blockwrite command: autoincr=0 working stored address pointer gen - 2 memory bank gen - 2 address description reserved 0x000 - 0x003 reserved - passwords memory unavailable epc 0x000 - 0x009 epc service 0x00a reserved service 0x00b reserved tid 0x000 - 0x003 tid user 0x000 reserved user 0x001 rfu user 0x002 control/status register user 0x003 working stored address register: 0x0006 user 0x004 user 0x005 ? ? user 0x006 user memory - start available memory ? user 0x007 blkwrite: data0 ? user 0x008 blkwrite: data1 user 0x009 blkwrite: data2 user 0x00a blkwrite: data3 user 0x00b blkwrite: data4 user 0x00c blkwrite: data5 user 0x00d blkwrite: data6 ? user 0x00e blkwrite: data7 user 0x00f user memory - end figure 19. blockwrite command: autoincr=1 www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 19 of 24 specifications wm7 10xx ?s rfid interface conforms to the specification for rfid air interface epc class - 1 generation - 2 uhf rfid protocol for communications at 860 mhz C 960 mhz, version 1.2.0 . options and exceptions are noted here: state persistence requirements wm7 10xx features i nfinite state retention for s1, s2, s3, and sl state f lags. state flag s0 has no persistence and will always return to state ?a? upon a power cycle. electrical specifica tions a bsolute m aximu m r atings symbol description ratings v in voltage on ant+ with respect to ant - - 1.0v to +4.5v t stg storage temperature - 55 ? c to + 125 ? c t op operating temperature - 40 o c to +85 o c t lead lead temperature (soldering, 10 seconds) 260 ? c v esd electrostatic discharge voltage - human body model (jedec std jesd22 - a114 - b) - charged device model (jedec std jesd22 - c101 - a) - machine model (jedec std jesd22 - a115 - a) 500v 1kv 50v me memory endurance: read or write or erase 1x10 1 4 rf exp rf exposure +10dbm ( 800 ~ 1000 mhz ) package moisture sensitivity level msl - 2 stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only, and the functional operation of the device at these or any other conditions above those listed in the operational section of this specification is not implied. exposure to absolute maximum ratings conditions for extended periods may affect device reliabil ity. rf operating characteristics ( t a = - 40 ? c to + 85 ? c unless otherwise specified) symbol parameter min typ max units notes s r read sensitivity - 6 dbm s w write sensitivity - 6 dbm f r max sustainable read rate @ s r 640 k bits/s 1 f w max sustainable write rate @ s w 160 k bits/s 1 t st power - on time 1.0 1.5 ms ??? change in m odulator r eflection c oefficient tbd tbd z in input impedance @ f in =915 mhz 63 C j 199 ohms 2 note: 1. actual read & write speeds are constrained by the epc class 1 gen2 data communication standard. 2. z in is measured at s r /s w . www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 20 of 24 user memory block si ze definition x 0 0 0 x 0 0 1 x 0 0 2 x 0 0 3 x 0 0 4 x 0 0 5 x 0 0 6 x 0 0 7 x 0 0 8 x 0 0 9 x 0 0 a x 0 0 b x 0 0 c x 0 0 d x 0 0 e x 0 0 f x 0 1 0 x 0 1 1 b l k : 0 b l k : 1 b l k _ s i z = 1 1 1 b l k : 0 b l k _ s i z = 1 1 0 b l k : 0 b l k : 1 b l k _ s i z = 1 0 1 b l k : 0 b l k : 1 b l k _ s i z = 1 0 0 b l k : 0 b l k : 1 b l k : 2 . . . b l k _ s i z = 0 1 1 b l k : 0 b l k : 1 b l k : 2 b l k : 3 b l k : 4 . . . b l k _ s i z = 0 1 0 b l k : 0 b l k : 1 b l k : 2 b l k : 3 b l k : 4 b l k : 5 b l k : 6 b l k : 7 b l k : 8 . . . b l k _ s i z = 0 0 1 b l k : 0 b l k : 1 b l k : 2 b l k : 3 b l k : 4 b l k : 5 b l k : 6 b l k : 7 b l k : 8 b l k : 9 b l k : 1 0 b l k : 1 1 b l k : 1 2 b l k : 1 3 b l k : 1 4 b l k : 1 5 b l k : 1 6 b l k : 1 7 b l k _ s i z = 0 0 0 . . . u s e r m e m o r y a d d r e s s x 0 1 3 x 0 1 2 x 0 1 4 x 0 1 7 x 0 1 8 x 0 1 f x 0 2 0 x 0 3 f x 0 4 0 x 0 7 f x 0 8 0 x 0 f f x 1 0 0 . . . . . . . . . . . . . . . . . . b l k : 1 . . . . . . . . . . . . www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 21 of 24 specification & comp liance summary refer to epc tm radio - frequency identity protocols class - 1 generation - 2 uhf rfid protocol for communications at 860mhz - 960mhz version 1.2.0 for all critical rfid specifications. link to specifications page: http://www.epcglobalus.org/standards/epcglobalspecifications/tabid/335/default.aspx www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 22 of 24 mechanical drawings 8 - pin u dfn (3.0 mm x 3.0 mm body, 0.65 mm pad pitch) note: all dimensions in millimeters . c are must be taken to ensure pcb traces and vias are not placed within the exposed metal pad area. u dfn p ackage m arking s cheme for b ody s ize 3 mm x 3 mm legend: xxxxxxx= base part number (wm 7 1 0 04 , wm71008, WM71016) llllllll= lot code r=revision, p=package (d=dfn), n=split designator (numeric) ric=ramtron int?l corp, yy=year, ww=work week example: wm7 1 0 04 , green u dfn - 8 package, lot 0411702 , rev b., year 2010, work week 12 wm71004 0411702 bd1 ric1012 xxxxxxxx llllllll rpn ricyyww www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 23 of 24 ordering information note: contact ramtron for other ordering options, i.e. bumped die. product description delivery & moq wm71004 - 6 - dg tr 8 - pin udfn with 4kb memory tape & reel C 3000 units wm71008 - 6 - dg tr 8 - pin udfn with 8kb memory tape & reel C 3000 units WM71016 - 6 - dg tr 8 - pin udfn with 16kb memory tape & reel C 3000 units www.datasheet.co.kr datasheet pdf - http://www..net/
wm710xx C secure f - ram with gen - 2 rfid rev. 1.4 may 2011 page 24 of 24 revision history revision date summary 0.1 12/12/2008 initial release. 0 .2 3/ 8 /2010 documentation updates . 1.0 3/12 /2010 changed to preliminary status. 1.1 8/23/2010 changed read/write sensitivity specs. 1.2 9/7/2010 changed input impedance and test frequency. 1.3 4/14/2011 documentation updates and clarifications. 1.4 5/25/2011 modified memory map table on p. 5 ( changed line entr ies for dspi address 0x 3fa C www.datasheet.co.kr datasheet pdf - http://www..net/

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