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LM73 2.7v, sot-23, 11-to-14 bit digital temperature sensor with 2-wire interface general description the LM73 is an integrated, digital-output temperature sensor featuring an incremental delta-sigma adc with a two-wire interface that is compatible with the smbus and i 2 c ? inter- faces. the host can query the LM73 at any time to read temperature. available in a 6-pin sot-23 package, the LM73 occupies very little board area while operating over a wide temperature range (-40?c to 150?c) and providing 1.0?c accuracy from -10?c to 80?c. the user can optimize be- tween the conversion time and the sensitivity of the LM73 by programming it to report temperature in any of four different resolutions. defaulting to 11-bit mode (0.25?c/lsb), the LM73 measures temperature in a maximum time of 14 ms, making it ideal for applications that require temperature data very soon after power-up. in its maximum resolution, 14-bit mode (0.03125?c/lsb), the LM73 is optimized to sense very small changes in temperature. a single multi-level address line selects one of three unique device addresses. an open-drain alert output goes active when the temperature exceeds a programmable limit. both the data and clock lines are filtered for excellent noise toler- ance and reliable communication. additionally, a time-out feature on the clock and data lines causes the LM73 to automatically reset these lines if either is held low for an extended time, thus exiting any bus lock-up condition without processor intervention. applications n portable electronics n notebook computers n automotive n system thermal management n office electronics key specifications j supply voltage 2.7v to 5.5v j supply current operating 320 a (typ) 495 a (max) shutdown 8 a (max) 1.9 a (typ) j temperature ?10?c to 80?c 1.0?c (max) accuracy ?25?c to 115?c 1.5?c (max) ?40?c to 150?c 2.0?c (max) j resolution 0.25?c to 0.03125?c j conversion time 11-bit (0.25?c) 14 ms (max) 14-bit (0.03125?c) 112 ms (max) features n single address pin offers choice of three selectable addresses per version for a total of six possible addresses. n smbus and i 2 c-compatible two-wire interface n supports 400 khz operation n shutdown mode with one-shot feature available for very low average power consumption n programmable digital temperature resolution from 11 bits to 14 bits. n fast conversion rate ideal for quick power up and measuring rapidly changing temperature n open-drain alert output pin goes active when temperature is above a programmed temperature limit n very stable, low-noise digital ouput. n ul recognized component typical application 20147803 i 2 c is a registered trademark of philips electronics n.v. corporation july 2006 LM73 2.7v, sot-23, 11-to-14 bit digital temperature sensor with 2-wire interface ? 2006 national semiconductor corporation ds201478 www.national.com
simplified block diagram 20147801 connection diagram sot23-6 20147802 top view LM73 www.national.com 2
ordering information part number package marking ns package number transport media smbus device address address pin device address LM73cimk-0 t730 mk06a (thin sot23-6) 1000 units on tape and reel float ground v dd 1001 000 1001 001 1001 010 LM73cimkx-0 t730 mk06a (thin sot23-6) 3000 units on tape and reel float ground v dd 1001 000 1001 001 1001 010 LM73cimk-1 t731 mk06a (thin sot23-6) 1000 units on tape and reel float ground v dd 1001 100 1001 101 1001 110 LM73cimkx-1 t731 mk06a (thin sot23-6) 3000 units on tape and reel float ground v dd 1001 100 1001 101 1001 110 note 1: available in rohs-compliant packages. more details at www.national.com. pin descriptions label pin # type equivalent circuit function addr 1 logic input, three levels address select input: one of three device addresses is selected by connecting to ground, left floating, or connecting to v dd . gnd 2 ground ground v dd 3 power supply voltage smbclk 4 cmos logic input serial clock: smbus clock signal. operates up to 400 khz. low-pass filtered. alert 5 open-drain output digital output which goes active whenever the measured temperature exceeds a programmable temperature limit. smbdat 6 open-drain input/output serial data: smbus bi-directional data signal used to transfer serial data synchronous to the smbclk. low-pass filtered. LM73 www.national.com 3
absolute maximum ratings (note 2) supply voltage ?0.3 v to 6.0 v voltage at any pin ?0.3 v to (v dd + 0.5 v) input current at any pin (note 3) 5ma storage temperature ?65?c to +150?c esd susceptibility (note 5) human body model 2000 v machine model 200 v soldering process must comply with national semiconductor?s reflow temperature profile specifications. refer to www.national.com/packaging. (note 4) operating ratings (note 2) specified temperature range t min t a t max -40?c t a +150?c supply voltage range (v dd ) +2.7v to +5.5v temperature-to-digital converter characteristics unless otherwise noted, these specifications apply for v dd = 2.7v to 5.5v. boldface limits apply for t a =t j =t min to t max ; all other limits t a =t j = +25?c, unless otherwise noted. t a is the ambient temperature. t j is the junction temperature. parameter conditions typical limits units (note 6) (note 7) (limit) accuracy (note 8) v dd = 2.7v to v dd = 4.5v t a = ?10?c to 80?c 1.0 ?c (max) t a = ?25?c to 115?c 1.5 ?c (max) t a = ?40?c to 150?c 2.0 ?c (max) v dd > 4.5v to v dd = 5.5v t a = ?10?c to 80?c 1.5 ?c (max) t a = ?25?c to 115?c 2.0 ?c (max) t a = ?40?c to 150?c 2.5 ?c (max) resolution res1 bit = 0, res0 bit = 0 11 bits 0.25 ?c/lsb res1 bit = 0, res0 bit = 1 12 bits 0.125 ?c/lsb res1 bit = 1, res0 bit = 0 13 bits 0.0625 ?c/lsb res1 bit = 1, res0 bit = 1 14 bits 0.03125 ?c/lsb temperature conversion time (note 9) res1 bit = 0, res0 bit = 0 10.1 14 ms (max) res1 bit = 0, res0 bit = 1 20.2 28 ms (max) res1 bit = 1, res0 bit = 0 40.4 56 ms (max) res1 bit = 1, res0 bit = 1 80.8 112 ms (max) quiescent current continuous conversion mode, smbus inactive 320 495 a (max) shutdown, bus-idle timers on 120 175 a (max) shutdown, bus-idle timers off 1.9 8 a (max) power-on reset threshold measured on v dd input, falling edge 0.9 v (min) LM73 www.national.com 4
logic electrical characteristics digital dc characteristics unless otherwise noted, these specifications apply for v dd = 2.7v to 5.5v. boldface limits apply for t a =t j =t min to t max ; all other limits t a =t j = +25?c, unless otherwise noted. t a is the ambient temperature. t j is the junction temperature. symbol parameter conditions typical limits units (note 6) (note 7) (limit) smbdat, smbclk inputs v ih logical ?1? input voltage 0.7*v dd v (min) v il logical ?0? input voltage 0.3*v dd v (max) v in;hyst smbdat and smbclk digital input hysteresis 0.07*v dd v i ih logical ?1? input current v in =v dd 0.01 2 a (max) i il logical ?0? input current v in = 0 v ?0.01 ?2 a (max) c in input capacitance 5 pf smbdat, alert outputs i oh high level output current v oh =v dd 0.01 2 a (max) v ol smbus low level output voltage i ol =3ma 0.4 v (max) address input v ih;address address pin high input voltage v dd minus 0.100 v (min) v il;address address pin low input voltage 0.100 v (max) i ih; address address pin high input current v in =v dd 0.01 2 a (max) i il;address address pin low input current v in = 0 v ?0.01 ?2 a (max) smbus digital switching characteristics unless otherwise noted, these specifications apply for v dd = +2.7 v to +5.5 v, c l (load capacitance) on output lines = 400 pf. boldface limits apply for t a =t j =t min to t max ; all other limits t a =t j = +25?c, unless otherwise noted. symbol parameter conditions typical limits units (note 6) (note 7) (limit) f smb smbus clock frequency 400 100 khz (max) hz (min) t low smbus clock low time 300 ns (min) t high smbus clock high time 300 ns (min) t f;smbo output fall time (note 10) c l = 400 pf i pull-up 3ma 250 ns (max) t timeout smbdat and smbclk time low for reset of serial interface (note 11) 15 45 ms (min) ms (max) t su;dat data in setup time to smbclk high 100 ns (min) t hd;dati data hold time: data in stable after smbclk low 0 ns (min) t hd;dato data hold time: data out stable after smbclk low 30 ns (min) t hd;sta start condition smbdat low to smbclk low (start condition hold before the first clock falling edge) 60 ns (min) t su;sto stop condition smbclk high to smbdat low (stop condition setup) 50 ns (min) t su;sta smbus repeated start-condition setup time, smbclk high to smbdat low 50 ns (min) t buf smbus free time between stop and start conditions 1.2 s (min) t por power-on reset time (note 12) 1 ms (max) LM73 www.national.com 5
smbus communication 20147809 note 2: absolute maximum ratings indicate limits beyond which damage to the device may occur. dc and ac electrical specifications do not apply when operating the device beyond its rated operating conditions. note 3: when the input voltage (v i ) at any pin exceeds the power supplies (v i < gnd or v i > v dd ), the current at that pin should be limited to 5 ma. note 4: reflow temperature profiles are different for lead-free and non-lead-free packages. note 5: human body model, 100 pf discharged through a 1.5 k ? resistor. machine model, 200 pf discharged directly into each pin. note 6: typicals are at t a = 25?c and represent most likely parametric norm. note 7: limits are guaranteed to national?s aoql (average outgoing quality level). note 8: local temperature accuracy does not include the effects of self-heating. the rise in temperature due to self-heating is the product of the internal po wer dissipation of the LM73 and the thermal resistance. note 9: this specification is provided only to indicate how often temperature data is updated. the LM73 can be read at any time without regard to conversion sta te (and will yield last conversion result). note 10: the output fall time is measured from (v il;max - 0.15v) to (v ih;min + 0.15v). note 11: holding the smbdat and/or smbclk lines low for a time interval greater than t timeout will reset the LM73?s smbus state machine, setting smbdat and smbclk pins to a high impedance state. note 12: represents the time from v dd reaching the power-on-reset level to the LM73 communications being functional. after an additional time equal to one temperature conversion time, valid temperature will be available in the temperature register. note 13: a write to an invalid pointer address is not allowed. if the master writes an invalid address to the pointer register, (1) the LM73 will not acknowledge t he address and (2) the pointer register will continue to contain the last value stored in it. LM73 www.national.com 6
typical performance characteristics accuracy vs. temperature operating current vs. temperature 20147820 20147821 shutdown current vs.temperature typical output noise 20147822 20147823 LM73 www.national.com 7
1.0 functional description the LM73 is a digital temperature sensor that senses the temperature of its die using a sigma-delta analog-to-digital converter and stores the temperature in the temperature register. the LM73?s 2-wire serial interface is compatible with smbus 2.0 and i 2 c. please see the smbus 2.0 speci- fication for a detailed description of the differences between the i 2 c bus and smbus. the temperature resolution is programmable, allowing the host system to select the optimal configuration between sensitivity and conversion time. the LM73 can be placed in shutdown to minimize power consumption when tempera- ture data is not required. while in shutdown, a 1-shot con- version mode allows system control of the conversion rate for ultimate flexibility. the LM73 features the following registers. see section 2.0 for a complete list of the pointer address, content, and reset state of each register. 1. pointer register 2. temperature register 3. configuration register 4. t high register 5. t low register 6. control/status register 7. identification register 1.1 power-on reset the power-on reset (por) state is the point at which the supply voltage rises above the power-on reset threshold (specified in the electrical specifications table), generating an internal reset. each of the registers contains a defined value upon por and this data remains there until any of the following occurs: 1. the first temperature conversion is completed, causing the temperature register and various status bits to be updated internally, depending on the value of the mea- sured temperature 2. the master writes different data to any r/w bits 3. the LM73 is powered down 1.2 one-shot conversion the LM73 features a one-shot conversion bit, which is used to initiate a single conversion and comparison cycle when the LM73 is in shutdown mode. while the LM73 is in shut- down mode, writing a "1" to the one-shot bit in the configu- ration register will cause the LM73 to perform a single temperature conversion and update the temperature regis- ter and the affected status bits. operating the LM73 in this one-shot mode allows for extremely low average-power con- sumption, making it ideal for low-power applications. when the one-shot bit is set, the LM73 initiates a tempera- ture conversion. after this initiation, but before the comple- tion of the conversion and resultant register updates, the LM73 is in a "one-shot" state. during this state, the data available (dav) flag in the control/status register is "0" and the temperature register contains the value 8000h (-256?c). all other registers contain the data that was present before initiating the one-shot conversion. after the temperature measurement is complete, the dav flag will be set to "1" and the temperature register will contain the result- ant measured temperature. 1.3 temperature data format the resolution of the temperature data and the size of the data word are user-selectable through bits res1 and res0 in the control/status register. by default, the LM73 tem- perature stores the measured temperature in an 11-bit (10 bits plus sign) word with one least significant bit (lsb) equal to 0.25?c. the maximum word size is 14 bits (13-bits plus sign) with a resolution of 0.03125 ?c/lsb. control bit data format res1 res0 word size resolution 0 0 11 bits 0.25 ?c/lsb 0 1 12 bits 0.125 ?c/lsb 1 0 13 bits 0.0625 ?c/lsb 1 1 14 bits 0.03125 ?c/lsb the temperature data is reported in 2?s complement format. the word is stored in the 16-bit temperature register and is left justified in this register. unused temperature-data bits are always reported as "0". 11-bit (10-bit plus sign) temperature digital output binary hex +150?c 0100 1011 0000 0000 4b00h +25?c 0000 1100 1000 0000 0c80h +1?c 0000 0000 1000 0000 0080h +0.25?c 0000 0000 0010 0000 0020h 0?c 0000 0000 0000 0000 0000h ?0.25?c 1111 1111 1110 0000 ffe0h ?1?c 1111 1111 1000 0000 ff80h ?25?c 1111 0011 1000 0000 f380h ?40?c 1110 1100 0000 0000 ec00h 12-bit (11-bit plus sign) temperature digital output binary hex +150?c 0100 1011 0000 0000 4b00h +25?c 0000 1100 1000 0000 0c80h +1?c 0000 0000 1000 0000 0080h +0.125?c 0000 0000 0001 0000 0010h 0?c 0000 0000 0000 0000 0000h ?0.125?c 1111 1111 1111 0000 fff0h ?1?c 1111 1111 1000 0000 ff80h ?25?c 1111 0011 1000 0000 f380h ?40?c 1110 1100 0000 0000 ec00h LM73 www.national.com 8
1.0 functional description (continued) 13-bit (12-bit plus sign) temperature digital output binary hex +150?c 0100 1011 0000 0000 4b00h +25?c 0000 1100 1000 0000 0c80h +1?c 0000 0000 1000 0000 0080h +0.0625?c 0000 0000 0000 1000 0008h 0?c 0000 0000 0000 0000 0000h ?0.0625?c 1111 1111 1111 1000 fff8h ?1?c 1111 1111 1000 0000 ff80h ?25?c 1111 0011 1000 0000 f380h ?40?c 1110 1100 0000 0000 ec00h 14-bit (13-bit plus sign) temperature digital output binary hex +150?c 0100 1011 0000 0000 4b00h +25?c 0000 1100 1000 0000 0c80h +1?c 0000 0000 1000 0000 0080h +0.03125?c 0000 0000 0000 0100 0004h 0?c 0000 0000 0000 0000 0000h ?0.03125?c 1111 1111 1111 1100 fffch ?1?c 1111 1111 1000 0000 ff80h ?25?c 1111 0011 1000 0000 f380h ?40?c 1110 1100 0000 0000 ec00h 1.4 smbus interface the LM73 operates as a slave on the smbus. the smbdat line is bidirectional. the smbclk line is is an input only. the LM73 never drives the smbclk line and it does not support clock stretching. the LM73 uses a 7-bit slave address. it is available in two versions. each version can be configured for one of three unique slave addresses, for a total of six unique address. part number address pin device address LM73-0 float ground v dd 1001 000 1001 001 1001 010 LM73-1 float ground v dd 1001 100 1001 101 1001 110 the smbdat output is an open-drain output and does not have internal pull-ups. a ?high? level will not be observed on this pin until pull-up current is provided by some external source, typically a pull-up resistor. choice of resistor value depends on many system factors but, in general, the pull-up resistor should be as large as possible without effecting the smbus desired data rate. this will minimize any internal temperature reading errors due to internal heating of the LM73. the LM73 features an integrated low-pass filter on both the smbclk and the smbdat line. these filters increase com- munications reliability in noisy environments. if either the smbclk or smbdat line is held low for a time greater than t timeout (see logic electrical characteristics for the value of t timeout ), the LM73 state machine will reset to the smbus idle state, releasing the data line. once the smbdat is released high, the master may initiate an smbus start. 1.5 alert function the alert output is an over-temperature indicator. at the end of every temperature conversion, the measured tem- perature is compared to the value in the t high register. if the measured temperature exceeds the value stored in t high , the alert output goes active (see figure figure 1 ). this over-temperature condition will also cause the alrt- _stat bit in the control/status register to change value (this bit mirrors the logic level of the alert pin). the alert pin and the alrt_stat bit are cleared when any of the following occur: 1. the measured temperature falls below the value stored in the t low register 2. a "1" is written to the alert reset bit in the configura- tion register 3. the master resets it through an smbus alert response address (ara) procedure if alert has been cleared by the master writing a "1" to the alert reset bit, while the measured temperature still ex- ceeds the t high setpoint, alert will go active again after the completion of the next temperature conversion. each temperature reading is associated with a temperature high (thi) and a temperature low (tlow) flag in the control/status register. a digital comparison determines whether that reading is above the t high setpoint or below the t low setpoint. if so, the corresponding flag is set. all digital comparisons to the t high , and t low values are based on an 11-bit temperature comparison. regardless of the resolution setting of the LM73, the lower three temperature lsbs will not affect the state of the alert output, thi flag, and tlow flag. LM73 www.national.com 9
1.0 functional description (continued) 1.6 communicating with the LM73 the data registers in the LM73 are selected by the pointer register. at power-up the pointer register is set to ?00h?, the location for the temperature register. the pointer register latches the last location it was set to. note that all pointer register bits are decoded; any incorrect pointer values will not be acknowledged and will not be stored in the pointer register (note 13). a write to the LM73 will always include the address byte and the pointer byte. a read from the LM73 can take place either of two ways: 1. if the location latched in the pointer register is correct (that is, the pointer register is pre-set prior to the read), then the read can simply consist of an address byte, followed by retrieving the data byte. most of the time it is expected that the pointer register will point to tempera- ture registers because that will be the data most fre- quently read from the LM73. 2. if the pointer register needs to be set, then an address byte, pointer byte, repeat start, and another address byte will accomplish a read. the data byte is read out of the LM73 by the most significant bit first. at the end of a read, the LM73 can accept either an acknowledge or no acknowledge bit from the master. no acknowledge is typically used as a signal to the slave that the master has read its last byte. 20147816 figure 1. alert temperature response cleared when temperature crosses t low 20147817 figure 2. alert temperature response cleared by writing a "1" to the alert reset bit. LM73 www.national.com 10
1.0 functional description (continued) 20147810 (a) typical read from a 2-byte register with preset pointer 20147811 (b) typical pointer set followed by immediate read of a 2-byte register 20147812 (c) typical read from a 1-byte register with preset pointer 20147813 (d) typical pointer set followed by immediate read of a 1-byte register. figure 3. reading from the LM73 LM73 www.national.com 11
1.0 functional description (continued) 20147814 (a) typical 1-byte write 20147815 (b) typical 2-byte write figure 4. writing to the LM73 LM73 www.national.com 12
2.0 LM73 registers the LM73?s internal registers are selected by the pointer register. the pointer register latches the last location that it was set to. the pointer register and all internal registers are described below. all registers reset at device power up. 2.1 pointer register the diagram below shows the pointer register, the six internal registers to which it points, and their associated pointer addresses. 20147807 p7 p6 p5 p4 p3 p2 p1 p0 00000 register select bits name description 7:3 not used must write zeros only. 2:0 register select pointer address. points to desired register. see table below. p2 p1 p0 register (note 13) 0 0 0 temperature 0 0 1 configuration 010 t high 011 t low 1 0 0 control / status 1 1 1 identification LM73 www.national.com 13
2.0 LM73 registers (continued) 2.2 temperature data register pointer address 00h (read only) reset state: 7ffch (+255.96875?c) one-shot state: 8000h (-256?c) d15 d14 d13 d12 d11 d10 d9 d8 sign 128?c 64?c 32?c 16?c 8?c 4?c 2?c d7 d6 d5 d4 d3 d2 d1 d0 1?c 0.5?c 0.25?c 0.125?c 0.0625?c 0.03125?c reserved reserved bits name description 15:2 temperature data represents the temperature that was measured by the most recent temperature conversion. on power-up, this data is invalid until the data available (dav) bit in the control/status register is high (after the completion of the first temperature conversion). the resolution is user-progammable from 11-bit resolution (0.25?c/lsb) through 14-bit resolution (0.03125?c/lsb). the desired resolution is programmed with bits 5 and 6 of the control/status register. 1:0 not used return zeros upon read. 2.3 configuration register pointer address 01h (r/w) reset state: 40h d7 d6 d5 d4 d3 d2 d1 d0 pd reserved alrt en alrt pol alrt rst one shot reserved bits name description 7 full power down writin ga1to this bit puts the LM73 in shutdown mode for power conservation. writing a 0 puts the LM73 into normal mode. 6 reserved user must write onl ya1to this bit 5 alert enable a 0 in this location enables the alert output . a 1 disables it. this bit also controls the alert status bit (the control/status register, bit 3) since that bit reflects the state of the alert pin. 4 alert polarity when set to 1, the alert pin and alert status bit are active-high. when 0, it is active-low. 3 alert reset writin ga1to this bit resets the alert pin and the alert status bit. it will always be 0 when read. 2 one shot when in shutdown mode (bit 7 is 1), initiates a single temperature conversion and update of the temperature register with new temperature data. has no effect when in continuous conversion mode (i.e., when bit 7 is 0). always return s a 0 when read. 1:0 reserved user must write onl ya0to these bits. 2.4 t high upper-limit register pointer address 02h (r/w) reset state: 7fe0h (+255.75?c) d15 d14 d13 d12 d11 d10 d9 d8 sign 128?c 64?c 32?c 16?c 8?c 4?c 2?c d7 d6 d5 d4 d3 d2 d1 d0 1?c 0.5?c 0.25?c reserved bits name description 15:5 upper-limit temperature if the measured temperature that is stored in this register exceeds this user-programmable upper temperature limit, the alert pin will go active and the thigh flag in the control/status register will be set to 1. two?s complement format. 4:0 reserved returns zeros upon read. recommend writing zeros only in these bits. LM73 www.national.com 14
2.0 LM73 registers (continued) 2.5 t low lower-limit register pointer address 03h (r/w) reset state: 8000h (?256?c) d15 d14 d13 d12 d11 d10 d9 d8 sign 128?c 64?c 32?c 16?c 8?c 4?c 2?c d7 d6 d5 d4 d3 d2 d1 d0 1?c 0.5?c 0.25?c reserved bits name description 15:5 lower-limit temperature if the measured temperature that is stored in the temperature register falls below this user-programmable lower temperature limit, the alert pin will be deactivated and the t low flag in the control/status register will be set to 1. two?s complement format. 4:0 reserved returns zeros upon read. recommend writing zeros only in these bits. 2.6 control/status register pointer address 04h (r/w) reset state: 08h d7 d6 d5 d4 d3 d2 d1 d0 to_dis res1 res0 reserved alrt_stat thi tlow dav bits name description 7 time-out disable disable the time-out feature on the smbdat and smbclk lines if set to 1. setting this bit turns off the bus-idle timers, enabling the LM73 to operate at lowest shutdown current. 6:5 temperature resolution selects one of four user-programmable temperature data resolutions 00: 0.25?c/lsb, 11-bit word (10 bits plus sign) 01: 0.125?c/lsb, 12-bit word (11 bits plus sign) 10: 0.0625?c/lsb, 13-bit word (12 bits plus sign) 11: 0.03125?c/lsb, 14-bit word (13 bits plus sign) 4 reserved always returns zero when read. recommend customer write zero only. 3 alert pin status value is 0 when alert output is low. value is 1 when alert output is high. the alert output is reset under any of the following conditions: (1) cleared by writin ga1tothe alert reset bit in the configuration register, (2) measured temperature falls below the t low limit, or (3) cleared via the ara sequence. recommend customer write zero only. 2 temperature high flag bit is set to 1 when the measured temperature exceeds the t high limit stored in the programmable t high register. flag is reset to 0 when both of the following conditions are met: (1) measured temperature no longer exceeds the programmed t high limit and (2) upon reading the control/status register. if the temperature is not longer above the t high limit, this status bit remains set until it is read by the master so that the system can check the history of what caused the alert output to go active. this bit is not cleared after every read if the measured temperature is still above the t high limit. 1 temperature low flag bit is set to 1 when the measured temperature falls below the t low limit stored in the programmable t low register. flag is reset to 0 when both of the following conditions are met: (1) measured temperature is no longer below the programmed t low limit and (2) upon reading the control/status register. if the temperature is no longer below the t low limit, the status bit remains set until it is read by the master so that the system can check the history of what cause the alert output to go active. this bit is not cleared after every read if temperature is still below t low limit. 0 data available flag this bit is 0 when the LM73 is in the process of converting a new temperature. it is 1 when the conversion is done. after initiating a temperature conversion while operating in the one-shot mode, this status bit can be monitored to indicate when the conversion is done. after triggering the one-shot conversion, the data in the temperature register is invalid until this bit is high (that is, after completion of the conversion). on power-up, the LM73 is in continuous conversion mode; while in continuous conversion mode (the default mode after power-on reset) this bit will always be high. recommend customer write zero only. LM73 www.national.com 15
2.0 LM73 registers (continued) 2.7 identification register pointer address 07h (read only) reset state: 0190h d15 d14 d13 d12 d11 d10 d9 d8 00000001 d7 d6 d5 d4 d3 d2 d1 d0 10010000 bits name description 15:8 manufacturer identification byte always returns 01h to uniquely identify the manufacturer as national semiconductor corporation. 7:4 product identification nibble always returns 9h to uniquely identify this part as the LM73 temperature sensor. 3:0 die revision step nibble always returns 0h to uniquely identify the revision as level zero. LM73 www.national.com 16
3.0 application hints 3.1 thermal path considerations to get the expected results when measuring temperature with an integrated circuit temperature sensor like the LM73, it is important to understand that the sensor measures its own die temperature. for the LM73, the best thermal path between the die and the outside world is through the LM73?s pins. in the sot23 package, all the pins on the LM73 will have an equal effect on the die temperature. because the pins represent a good thermal path to the LM73 die, the LM73 will provide an accurate measurement of the tempera- ture of the printed circuit board on which it is mounted. there is a less efficient thermal path between the plastic package and the LM73 die. if the ambient air temperature is signifi- cantly different from the printed circuit board temperature, it will have a small effect on the measured temperature. 3.2 output considerations: tight accuracy, resolution and low noise the LM73 is well suited for applications that require tight temperature measurement accuracy. in many applications, the low temperature error can mean better system perfor- mance and, by eliminating a system calibration step, lower production cost. with digital resolution as fine as 0.03125 ?c/lsb, the LM73 senses and reports very small changes in its temperature, making it ideal for applications where temperature sensitivity is important. for example, the LM73 enables the system to quickly identify the direction of temperature change, allowing the processor to take compensating action before the sys- tem reaches a critical temperature. the LM73 has very low output noise, typically 0.015?c rms, which makes it ideal for applications where stable thermal compensation is a priority. for example, in a temperature- compensated oscillator application, the very small deviation in successive temperature readings translates to a stable frequency output from the oscillator. LM73 www.national.com 17
physical dimensions inches (millimeters) unless otherwise noted 6-lead thin-sot23, order number LM73cimk or LM73cimkx ns package number mk06a national does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and national reserves the right at any time without notice to change said circuitry and specifications. for the most current product information visit us at www.national.com. life support policy national?s products are not authorized for use as critical components in life support devices or systems without the express written approval of the president and general counsel of national semiconductor corporation. as used herein: 1. life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 2. a critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. banned substance compliance national semiconductor follows the provisions of the product stewardship guide for customers (csp-9-111c2) and banned substances and materials of interest specification (csp-9-111s2) for regulatory environmental compliance. details may be found at: www.national.com/quality/green. lead free products are rohs compliant. national semiconductor americas customer support center email: new.feedback@nsc.com tel: 1-800-272-9959 national semiconductor europe customer support center fax: +49 (0) 180-530 85 86 email: europe.support@nsc.com deutsch tel: +49 (0) 69 9508 6208 english tel: +44 (0) 870 24 0 2171 fran?ais tel: +33 (0) 1 41 91 8790 national semiconductor asia pacific customer support center email: ap.support@nsc.com national semiconductor japan customer support center fax: 81-3-5639-7507 email: jpn.feedback@nsc.com tel: 81-3-5639-7560 www.national.com LM73 2.7v, sot-23, 11-to-14 bit digital temperature sensor with 2-wire interface

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