ds28el15 deepcover secure authenticator with 1-wire sha-256 and 512-bit user eeprom general description deepcover k embedded security solutions cloak sensi - tive data under multiple layers of advanced physical security to provide the industry?s most secure key stor - age possible. the deepcover secure authenticator (ds28el15) combines crypto-strong bidirectional secure challenge-and-response authentication functionality with an implementation based on the fips 180-3-specified secure hash algorithm (sha-256). a 512-bit user- programmable eeprom array provides nonvolatile stor - age of application data. additional protected memory holds a read-protected secret for sha-256 operations and settings for memory protection control. each device has its own guaranteed unique 64-bit rom identification number (rom id) that is factory programmed into the chip. this unique rom id is used as a fundamental input parameter for cryptographic operations and also serves as an electronic serial number within the application. a bidirectional security model enables two-way authen - tication between a host system and slave-embedded ds28el15. slave-to-host authentication is used by a host system to securely validate that an attached or embed - ded ds28el15 is authentic. host-to-slave authentication is used to protect ds28el15 user memory from being modified by a nonauthentic host. the ds28el15 commu - nicates over the single-contact 1-wire m bus at overdrive speed. the communication follows the 1-wire protocol with the rom id acting as node address in the case of a multidevice 1-wire network. applications authentication of consumablessecure feature control features s symmetric-key-based bidirectional secure authentication model based on sha-256 s strong authentication with a high-bit-count user-programmable secret and input challenge s 512 bits of user eeprom partitioned into two pages of 256 bits s user-programmable and irreversible eeprom protection modes including authentication, write and read protect, and otp/eprom emulation s unique factory-programmed, 64-bit identification number s single-contact 1-wire interface s operating range: 1.8v 5%, -40c to +85c s 8kv hbm esd protection (typ) s 6-pin tdfn-ep package typical application circuit 219-0021; rev 0; 12/12 ordering information appears at end of data sheet. 1-wire is a registered trademark and deepcover is a trademark of maxim integrated products, inc. for related parts and recommended products to use with this part, refer to: www.maximintegrated.com/ds28el15.related sda v cc scl slp zi o r p r p = 820 maximum i 2 c bus capacitance 400pf 1.8v 1-wire line c (i 2 c port) ds24l65 ds28el15 for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim integrated?s website at www.maximintegrated.com. abridged data sheet downloaded from: http:///
ds28el15 deepcover secure authenticator with 1-wire sha-256 and 512-bit user eeprom 2 maxim integrated io voltage range to gnd .................................... -0.5v to +4.0v io sink current ................................................................... 20ma operating temperature range .......................... -40 n c to +85 n c junction temperature ..................................................... +150 n c storage temperature range ............................ -55 n c to +125 n c lead temperature (soldering, 10s) ................................ +300 n c soldering temperature (reflow) ...................................... +260 n c absolute maximum ratingsstresses beyond those listed under ?absolute maximum ratings? may cause permanent damage to the device. these are stress ratings only, and functional opera - tion of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. electrical characteristics (t a = -40 n c to +85 n c, unless otherwise noted.) (note 1) parameter symbol conditions min typ max units io pin: general data1-wire pullup voltage v pup (note 2) 1.71 1.89 v 1-wire pullup resistance r pup v pup = 1.8v q 5% (note 3) 300 750 i input capacitance c io (notes 4, 5) 1500 pf input load current i l io pin at v pup 5 19.5 f a high-to-low switching threshold v tl (notes 6, 7) 0.65 x v pup v input low voltage v il (notes 2, 8) 0.3 v low-to-high switching threshold v th (notes 6, 9) 0.75 x v pup v switching hysteresis v hy (notes 6, 10) 0.3 v output low voltage v ol i ol = 4ma (note 11) 0.4 v recovery time t rec r pup = 750 i (notes 2, 12) 5 f s time slot duration t slot (notes 2, 13) 13 f s io pin: 1-wire reset, presence-detect cyclereset low time t rstl (note 2) 48 80 f s reset high time t rsth (note 14) 48 f s presence-detect sample time t msp (notes 2, 15) 8 10 f s io pin: 1-wire writewrite-zero low time t w0l (notes 2, 16) 8 16 f s write-one low time t w1l (notes 2, 16) 1 2 f s io pin: 1-wire readread low time t rl (notes 2, 17) 1 2 - d f s read sample time t msr (notes 2, 17) t rl + d 2 f s eepromprogramming current i prog v pup = 1.89v (notes 5, 18) 1 ma programming time for a 32-bit segment or page protection t prd (note 19) 10 ms programming time for the secret t prs refer to the full data sheet. ms abridged data sheet downloaded from: http:///
ds28el15 deepcover secure authenticator with 1-wire sha-256 and 512-bit user eeprom 3 maxim integrated note 1: limits are 100% production tested at t a = +25c and/or t a = +85c. limits over the operating temperature range and relevant supply voltage range are guaranteed by design and characterization. typical values are not guaranteed. note 2: system requirement. note 3: maximum allowable pullup resistance is a function of the number of 1-wire devices in the system and 1-wire recovery times. the specified value here applies to systems with only one device and with the minimum 1-wire recovery times. note 4: typical value represents the internal parasite capacitance when v pup is first applied. once the parasite capacitance is charged, it does not affect normal communication. note 5: guaranteed by design and/or characterization only. not production tested. note 6: v tl , v th , and v hy are a function of the internal supply voltage, which is a function of v pup , r pup , 1-wire timing, and capacitive loading on io. lower v pup , higher r pup , shorter t rec , and heavier capacitive loading all lead to lower values of v tl , v th , and v hy . note 7: voltage below which, during a falling edge on io, a logic 0 is detected. note 8: the voltage on io must be less than or equal to v il(max) at all times the master is driving io to a logic 0 level. note 9: voltage above which, during a rising edge on io, a logic 1 is detected. note 10: after v th is crossed during a rising edge on io, the voltage on io must drop by at least v hy to be detected as logic 0. note 11: the i-v characteristic is linear for voltages less than 1v. note 12: applies to a single device attached to a 1-wire line. note 13: defines maximum possible bit rate. equal to 1/(t w0l(min) + t rec(min) ). note 14: an additional reset or communication sequence cannot begin until the reset high time has expired. note 15: interval after t rstl during which a bus master can read a logic 0 on io if there is a ds28el15 present. the power-up presence detect pulse could be outside this interval. see the typical operating characteristics for details. note 16: in figure 11 represents the time required for the pullup circuitry to pull the voltage on io up from v il to v th . the actual maximum duration for the master to pull the line low is t w1l(max) + t f - and t w0l(max) + t f - , respectively. note 17: d in figure 11 represents the time required for the pullup circuitry to pull the voltage on io up from v il to the input-high threshold of the bus master. the actual maximum duration for the master to pull the line low is t rl(max) + t f . note 18: current drawn from io during the eeprom programming interval or sha-256 computation. the pullup circuit on io during the programming and computation interval should be such that the voltage at io is greater than or equal to v pup(min) . a low-impedance bypass of r pup activated during programming and computation is the recommended way to meet this requirement. note 19: refer to the full data sheet. note 20: refer to the full data sheet. note 21: write-cycle endurance is tested in compliance with jesd47g. note 22: not 100% production tested; guaranteed by reliability monitor sampling. note 23: data retention is tested in compliance with jesd47g. note 24: guaranteed by 100% production test at elevated temperature for a shorter time; equivalence of this production test to the - data sheet limit at operating temperature range is established by reliability testing. note 25: eeprom writes can become nonfunctional after the data-retention time is exceeded. long-term storage at elevated tem - peratures is not recommended. electrical characteristics ( continued) (t a = -40 n c to +85 n c, unless otherwise noted.) (note 1) parameter symbol conditions min typ max units write/erase cycling endurance n cy t a = +85 n c (notes 21, 22) 100k ? data retention t dr t a = +85 n c (notes 23, 24, 25) 10 years sha-256 enginecomputation current i csha refer to the full data sheet. ma computation time t csha ms abridged data sheet downloaded from: http:///
ds28el15 deepcover secure authenticator with 1-wire sha-256 and 512-bit user eeprom 4 maxim integrated electrical characteristics ( continued) (t a = -40 n c to +85 n c, unless otherwise noted.) (note 1) note 26: refer to the full data sheet. pin configuration pin description typical operating characteristics (v pup = 1.71v, v il = 0.3v) pin name function 1, 4, 5, 6 n.c. not connected 2 io 1-wire bus interface. open-drain signal that requires an external pullup resistor. 3 gnd ground reference ? ep exposed pad. solder evenly to the board?s ground plane for proper operation. refer to application note 3273: exposed pads: a brief introduction for additional information. 16 n.c. n.c. 25 io n.c. 34 gnd n.c. tdfn-ep (3mm 3mm) top view ds28el15 28l15 ymrrf + *ep *exposed pad power-up time ds28el15 toc01 temperature (c) time (ms) 80 60 0 20 40 -20 20 40 60 80 100 120 0 -40 abridged data sheet downloaded from: http:///
ds28el15 deepcover secure authenticator with 1-wire sha-256 and 512-bit user eeprom 42 maxim integrated ordering information + denotes a lead(pb)-free/rohs-compliant package. t = tape and reel.*ep = exposed pad. package information for the latest package outline information and land patterns (foot - prints), go to www.maximintegrated.com/packages . note that a ?+?, ?#?, or ?-? in the package code indicates rohs status only. package drawings may show a different suffix character, but the drawing pertains to the package regardless of rohs status. note to readers: this document is an abridged version of the full data sheet. additional device information is available only in the full version of the data sheet. to request the full data sheet, go to www.maximintegrated.com/ds28el15 and click on request full data sheet . part temp range pin-package ds28el15q+t -40 n c to +85 n c 6 tdfn-ep* (2.5k pcs) package type package code outline no. land pattern no. 6 tdfn-ep t633+2 21-0137 90-0058 abridged data sheet downloaded from: http:///
ds28el15 deepcover secure authenticator with 1-wire sha-256 and 512-bit user eeprom maxim integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim integrated product. no circuit patent licenses are implied. maxim integrated reserves the right to change the circuitry and specifications without notice at any time. the parametric values (min and max limits) shown in the electrical characteristics table are guaranteed. other parametric values quoted in this data sheet are provided for guidance. maxim integrated 160 rio robles, san jose, ca 95134 usa 1-408-601-1000 43 ? 2013 maxim integrated products, inc. maxim integrated and the maxim integrated logo are trademarks of maxim integrated products, inc. revision history revision number revision date description pages changed 0 12/12 initial release ? abridged data sheet downloaded from: http:///
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