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mic841/842 comparator with 1.25% reference and adjustable hysteresis teeny is a trademark of micrel, inc . micrel inc. ? 2180 fortune drive ? san jose, ca 95131 ? usa ? tel +1 (408) 944 - 0800 ? fax + 1 (408) 474 - 1000 ? http://www.micrel.com july 24, 2015 revision 5.0 general description the mic841 and mic842 are micro - power , precision - voltage comparators with an on - chip voltage reference. both devices are intended for voltage monitoring applications. external resistors are used to set the voltage monitor threshold. when the threshold is crossed, the outputs switch polarity. the mic842 incorporates a voltage reference and comparator with fixed internal hysteresis; two external resistors are used to se t the switching threshold voltage. the mic841 provides a similar function with user adjustable hysteresis; this part requires three external resistors to set the upper and lower thresholds (the difference between the threshold voltages being the hysteresi s voltage). both the mic841 and mic842 are available with push - pull or open - drain output stage. the push - pull output stage is configured either active high or active low; the open - drain output stage is only configured active low . supply current is extremel y low (1.5a, typical), making it ideal for portable applications. the mic841/2 is supplied in micrels teeny ? 5- pin sc - 70 , 6 - pin 1.6mm 1.6mm thin dfn (mic841), and 4 - pin 1.2mm 1.6mm thin dfn (mic842) packages . datasheets and support documentation are available on micrels web site at : www.micrel.com . features ? 1.5v to 5.5v operating range ? 1.5a typical supply current ? 1.25% voltage threshold accuracy ? 10na maximum input leakage current over temperature ? 10s propaga tion delay ? externally adjustable hysteresis (mic841) ? internal 20mv hysteresis (mic842) ? output options ? push - pull, active high ? push - pull, active low ? open drain, active low ? open drain output can be pulled to 6v regardless of v dd ? immune to brief input transients ? teeny 5- pin sc - 70 package ? 6- pin 1.6mm 1.6mm tdfn (mic841) ? 4- pin 1.2mm 1.6mm tdfn (mic842) applications ? smart phones ? pdas ? precision battery monitoring ? battery chargers typical application threshold detection with adjustable hysteresis threshold detector with internal fixed hysteresis downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 2 revision 5.0 ordering information part number marking hysteresis adjustment output stage output function temperature range pb- free package mic841hyc5 b 13 external push pull active low C 40c to +85c ? sc- 70 -5 mic841hymt bh external push pull active low C 40c to +85c ? 1.6mm 1.6mm tdfn mic841lyc5 b 14 external push pull active high C 40c to +85c ? sc- 70 -5 mic841lymt bl external push pull active high C 40c to +85c ? 1.6mm 1.6mm tdfn mic841nyc5 b 15 external open drain active low C 40c to +85c ? sc- 70 -5 mic841nymt bn external open drain active low C 40c to +85c ? 1.6mm 1.6mm tdfn mic842hyc5 b 16 internal push pull active low C 40c to +85c ? sc- 70 -5 mic842hymt hb internal push pull active low C 40c to +85c ? 1.2mm 1.6mm tdfn mic842lyc5 b 17 internal push pull active high C 40c to +85c ? sc- 70 -5 mic842lymt hl internal push pull active high C 40c to +85c ? 1.2mm 1.6mm tdfn mic842nyc5 b 18 internal open drain active low C 40c to +85c ? sc- 70 -5 mic842nymt hn internal open drain active low C 40c to +85c ? 1.2mm 1.6mm tdfn downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 3 revision 5.0 pin configurations mic841 sc- 70 - 5 (cs) (top view) mic841 6- pin 1.6mm 1.6mm tdfn (mt) (top view) mic842 sc- 70 - 5 (cs) (top view) mic842 4- pin 1.2mm 1.6mm tdfn (mt) (top view) mic841 pin description pin number sc- 70 pin number tdfn pin name pin function 1 3 hth high threshold input. hth and lth monitor external voltages. 2 2 gnd ground. 3 1 lth low threshold input. lth and hth monitor external voltages. 4 6 out (h version) active - low push - pull output. out asserts low when v lth < v ref . out remains low until v hth > v ref . out (l version) active - high push - pull o utput. out asserts high when v lth < v ref . out remains high until v hth > v ref . out (n version) active - low, open - drain output. out asserts low when v lth < v ref . out remains low until v hth > v ref . 5 4 vdd power supply input ? 5 nc no connect. not internally c onnected ? ep epad heatsink pad. connect to gnd for best thermal performance. mic842 pin description pin number sc- 70 pin number tdfn pin name pin function 1 3 inp threshold input. inp monitors an external voltage. 2 2 gnd ground 3 ? nc no connect. not internally connected. 4 1 out (h version) active - low, push - pull output. out asserts low when v inp < v ref . out remains low until v inp > (v ref + v hyst ). out (l version) active - high, push - pull output. out asserts high when v inp < v ref . out remains high until v inp > (v ref + v hyst ). out (n version) active - low, open - drain output. out asserts low when v inp < v ref . out remains low until v inp > (v ref + v hyst ). 5 4 vdd power supply input ? ep epad heatsink pad. connect to gnd for best thermal performance. downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 4 revision 5.0 absolute maximum ratings ( 1 ) supply voltage (v dd ) ....................................... C 0.3v to +7v input voltage (v inp, v lth, v ltl ) ....................................... +7v output current (i out ) ................................................. 20ma storage temperature (t s ) ........................ C 65c to +150c junction temperature (t j ) ...................................... + 150c esd rating (3) .................................................................. 1kv operating ratings ( 2 ) supply voltage (v dd ) ................................... +1.5v to +5.5v input voltage (v inp v lth, v ltl ) ................................ 0 v to 6v v out (h and l versions) ............................................... v dd v out (n version) ............................................................. 6v ambient temperature range (t a ) ............. C 40c to +85c package thermal resistance sc - 70 - 5 ( ja ) ............................................... 256.5 c/w 6- pin 1.6mm 1.6mm tdfn ............................. 92 c/w 4- pin 1.2mm 1.6mm tdfn ........................... 173 c/w electrical characteristics ( 4 ) 1.5 v v dd 5.5v; t a = +25c, bold values indicate C 40c t a +85c, unless noted. symbol parameter condition min . typ . max . units i dd supply current output not asserted 1.5 3 a i inp input leakage current 0.005 10 na v ref reference voltage 0 c to 85 c 1.225 1.240 1.256 v C 40 c to 85 c 1.219 1.240 1.261 v hyst hysteresis voltage (5) mic842 only 8 20 35 mv t d propagation delay v inp = 1.352v to 1.128v 12 50 s v inp = 1.143v to 1.367v 8 50 v out (6) output voltage - low i sink = 1.6ma, v dd 1.6v 0.05 0.3 v i sink = 100 a, v dd 1.2v 0.005 0.4 output voltage - high i source = 500 a, v dd 1.6v 0.99v dd v i source = 50 a, v dd 1.2v 0.99v dd notes: 1. exceeding the absolute maximum rating may damage the device. 2. the device is not guaranteed to function outside its operating rating. 3. devices are esd sensitive. handling precautions recommended. human body model, 1.5k ? in series with 100pf. 4. specification for packaged product only. 5. v hth = v ref + v hyst . 6. v dd operating range is 1.5v to 5.5v. output is guaranteed to be de - asserted down to v dd = 1.2v. downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 5 revision 5.0 block diagrams ( 7 ) note: 7. sc - 70 package pin numbers shown. downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 6 revision 5.0 application information output the mic841n and mic842n outputs are an open - drain mosfet, so most applications will require a pull - up resistor. the value of the resistor should not be too large or leakage effects may dominate. 470k is the maximum recommended value. note that the output of n version may be pulled up as high as 6v regardless of the ics supply voltage. the h and l versions of the mic841 and mic842 have a push - pull output stage, with a diode clamped to vdd. thus, the maximum output voltage of the h and l versions is v dd (see electrical characteristics ). when working with large resistors on the input to the devices, a small amount of leakage current can cause voltage offsets that degrade system accuracy. the maximum recommended total resistance from v in to ground is 3m. the accuracy of the resistors can be chosen based upon the accuracy required by the system. the inputs may be subjected to voltages as high as 6v steady - state without adverse effects of any kind regardless of the ics supply voltage. this applies even if the supply voltage is zero. this permits the situation in which the ics supply is turned off, but voltage i s still present on the inputs (see electrical characteristics ). programming the mic841 thresholds the low - voltage threshold is calculated using equation 1 : v in(lo) = v ref ?? ? ?? ? + + + 3r 2 r 3r 2r 1r eq. 1 the high - voltage threshold is calculated using equation 2: v in(hi) = v ref ?? ? ?? ? + + 3r 3r 2r 1r eq. 2 w here, for both equations: v ref = 1.240v in order to provide the additional criteria needed to solve for the resistor values, the resistors can be selected such that they have a given total value, that is, r1 + r2 + r3 = r total . a value such as 1m ? for r total is a reasonable value because it draws minimum current but has no significant effect on accuracy. figure 1 . mic841 example circuit once the desired trip points are determined, set the v in(hi) threshold first. for example, use a total of 1m ? = r1 + r2 + r3. for a typical single - cell lithium ion battery, 3.6v is a good high threshold because at 3.6v the battery is moderately charged. solving for r3: v in(hi) = 3.6v = 1.24v ?? ? ?? ? ? 3r m1 eq. 3 where: r3 = 344k ? once r3 is determined, the equation for v in(lo) can be used to determine r2. a single lithium - ion cell, for example, should not be discharged below 2.5v. many applications limit the drain to 3.1v. downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 7 revision 5.0 using 3.1v for the v in(lo) threshold allows calculation of th e two remaining resistor values: v in(lo) = 3.1v = 1.24v ?? ? ?? ? ? + ? k 344 2r m1 eq. 4 where: r2 = 56k ? r1 = 1m ? ? r2 ? r3 r1 = 600k ? the accuracy of the resistors can be chosen based upon the accuracy required by the system. figure 2 . output response and hysteresis programming the mic842 thresholds the voltage threshold is calculated using equation 5 : v in(lo) = v ref ?? ? ?? ? + 2r 2r 1r eq. 5 where: v ref = 1.240v figure 3 . mic842 example circuit in order to provide the additional criteria needed to solve for the resistor values, the resistors can be selected such that they have a given total value, that is, r1 + r2 = r total . a value such as 1m for r total is a reasonable value because it draws minimum current but has no significant effect on accuracy. input transients the mic841/2 is inherently immune to very short negative - going glitches. very brief transients may exceed the v in(lo) threshold without tripping the output. as shown in figure 4 , the narrower the transient, the deeper the threshold overdrive that will be ignored by the mic841/2. the graph represents the typical allowable transient duration for a given amount of threshold overdrive that will not generate an output. figure 4 . input transient response v in out v in ( lo ) 0v 0v v in ( hi ) out 0v h and n versions l version v hysterisis downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 8 revision 5.0 package information ( 8 ) and recommended landing patterns 5- pin sc - 70 (c5) note: 8. package information is correct as of the publication date. for updates and most current information, go to www.micrel.com . downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 9 revision 5.0 package information ( 8 ) and recommended landing patterns (continued) 6- pin 1.6mm 1.6mm tdfn (mt) downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 10 revision 5.0 package information ( 8 ) and recommended landing patterns (continued) 4- pin 1.2mm 1.6mm tdfn (mt) downloaded from: http:///
micrel, inc. mic841/842 july 24, 2015 11 revision 5.0 micrel, inc. 2180 fortune drive san jose, ca 95131 usa tel +1 (408) 944 - 0800 fax +1 (408) 474 - 1000 web http://www.micrel.com micrel, inc. is a leading global manufacturer of ic solutions for the worldwide high performanc e linear and power, lan, and t iming & communications mar kets. the companys products include advanced mixed - signal, analog & power semiconductors; high - performance communication, clock management, mems - based clock oscillators & crystal - less clock generators, ethernet switches, and physical layer transceiver ics. company customers include leading manufacturers of enterprise, consumer, industrial, mobile, telecommunicati ons, automotive, and computer produ cts. corporation headquarters and state - of - the - art waf er fabrication facilities are located in san jose, ca, with regional sales and support offices and advanced technology design centers situated throughout the americas, europe, and asia. additionally, the company maintains an extensive network of distribut ors and reps worldwide. micrel makes no representations or warranties with respect to the accuracy or com pleteness of the inf ormation furnished in this data sheet. this information is not intended as a warranty and micrel does not assume responsibility for its use. micrel reserves the right to change circuitry, specifications and descriptions at any time without notice. no license, whether express, implied, arising by estoppel or otherwise, to any intellectual property rights is granted by this document. e xcept as provided in micrels terms and conditions of sale for such products, micrel assume s no liability whatsoever, and micrel disclaims any express or implied warranty relating to the sale and/or use of micr el products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright , or other intellectual property right. micrel products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product can reasonably be expected to result in personal injury. life support devices or systems are devices or systems that (a) are inte nded for surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury to the user. a purchasers use or sale of micrel products for use in life support appliances, devices or systems is a purchasers own risk and purchaser agrees to fully indemnify micrel for any damages resulting from such use or sale. ? 20 12 micrel, incorporated. downloaded from: http:///

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