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  $iboofm7pmubhf%fufdupst 4fsjft 169 2 (fofsbm%ftdsjqujpo 'fbuvsft "qqmjdbujpot 7 */ 7 */ 7 %&5 7 44 7 */ 7 %&5 3 3l
7 %&5 $.04 7 %&5 /di0qfoesbjo 5zqjdbm"qqmjdbujpo$jsdvju 5zqjdbm1fsgpsnbodf $ibsbdufsjtujd supply current vs. input voltage memory battery back-up circuitry microprocessor reset circuits power failure detection system power-on reset circuits system battery life monitors and re-charge voltage monitors delay circuitry cmos low power consumption 2 voltage detectors built-in detect voltage accuracy : 2% detect voltage range : 1.5v ~ 5.0v sot-25 package the xc612 series consist of 2 voltage detectors, in 1 mini-molded, sot- 25 package. the series provides accuracy and low power consumption through cmos processing and laser trimming and consists of a highly accurate voltage reference source, 2 comparators, hysteresis and output driver circuits. the input (v in1 ) for voltage detector 1 (v d1 ) dually functions as the power supply pin for both detector 1 (v d1 ) and detector 2 (v d2 ). highly accurate : set-up voltage accuracy ?% low-power consumption : typ.2.0 a (v in1 =v in2 =2.0v, quiescent state) detect voltage : 1.5v ~ 5.0v programmable in 0.1v steps. detector? voltages can be set-up independently conditionaly, xc612n : v det1 >v det2 xc612d, xc612e : v det1 v det2 , v det1 < v det2 operating voltage range : 1.0v ~ 10.0v temperature characteristics : ?00ppm/? output configuration : n-channel open drain small package : sot-25 (150mw) mini-mold * cmos output is under development         ? 5b? ? - # supply current: iss ( a) input voltage: v in1 (v)  7 */ 17 */
4@9$     ?? 
9$ 4fsjft   1jo$pogjhvsbujpo 1jo"ttjhonfou 1spevdu$mbttjgjdbujpo  selection guide  ordering information 405 5017*&8   7 %&5 7 %&5 + */ 7 */ 7 44    pin number 1 pin name function 2 4 5 detector 1 input, power supply. voltage detector 1 output voltage detector 2 input voltage detector 2 output 3 ground v det1 v in2 v det2 v in1 v ss 5zqf 7 %&5 7 %&5 9$/ /di0qfoesbjo /di0qfoesbjo 9$% /di0qfoesbjo $.04 9$& $.04 /di0qfoesbjo a  a  a  aa b c d e f xc612 x x x x x x x e.g.33 = 3.3v 50 = 5.0v designator a d e b c description designator description output configuration: n=n-channel open drain d=v det1 n-ch open drain, v det2 cmos e=v det1 cmos, v det2 n-ch open drain detect voltage (v det1 ) e.g.25 = 2.5v 38 = 3.8v detect voltage (v det2 ) package type: m=sot-25 device orientation r=embossed tape (orientation of device: right) l=embossed tape (orientation of device: left) 4@9$     ?? 
9$ 4fsjft   .bsljoh 1bdlbhjoh*ogpsnbujpo  sot-25   ? ?   ? ?  njo   ?    405 5017*&8
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9$ 4fsjft   #mpdl%jbhsbn 7 */ 7 */ 7 %&5 7 %&5 7sfg 7 44 xc612n series 7 */ 7 */ 7 %&5 7 %&5 7sfg 7 44 xc612d series 7 */ 7 */ 7 %&5 7 %&5 7sfg 7 44 xc612e series 4@9$     ?? 
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9$ 4fsjft   parameter symbol conditions min typ max units detect voltage v det1 v df1 voltage when v det1 changes from h to l following a reduction of v in1 v df1 x 0.98 v df1 v df1 x 1.02 v detect voltage v det2 v df2 voltage when v det2 changes from h to l following a reduction of v in2 v df2 x 0.98 v df1 x 1.02 v df2 v hysteresis range 1 v hys1 voltage (v dr1 ) - v df1 when v det1 changes from l to h following an increase of v in1 v df1 (t) x 0.08 v df1 (t) x 0.05 v df1 (t) x 0.02 v df2 (t) x 0.08 v df 2(t) x 0.05 v df2 (t) x 0.02 hysteresis range 2 v hys2 voltage (v dr2 ) - v df2 when v det2 changes from l to h following an increase of v in2 supply current (input current v in1 ) i ss 3.90 4.50 5.10 5.70 6.30 1.35 1.50 1.95 2.40 3.00 v in1 =1.5v 2.0v 3.0v 4.0v 5.0v 1.30 1.50 1.70 1.90 2.10 0.45 0.50 0.65 0.80 1.00 v in1 =1.5v 2.0v 3.0v 4.0v 5.0v  a input current v in2 i in2  a operating voltage v in1 v df (t) = 1.5v to 6.0v 101.5 v output current * i vdet n-ch p-ch v ds = 0.5v 2.2 7.7 10.1 11.5 13.0 -10.0 -2.0 0.3 3.0 5.0 6.0 7.0 v in1 =1.0v v in1 =2.0v v in1 =3.0v v in1 =4.0v v in1 =5.0v v ds = -2.1v v in1 =8.0v (cmos) ma temperature characteristics * e 30 : : : : : : :
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 8juibsftjtupsdpoofdufecfuxffouif7 */ qjoboeuifjoqvu efufduboesfmfbtfwpmubhfxjmmsjtfbtbsftvmupguif*$ttvq qmzdvssfougmpxjohuispvhiuif7 */ qjo *opsefsuptubcjmjtfuif*$tpqfsbujpot qmfbtffotvsfuibuuif7 */ qjotjoqvugsfrvfodztsjtfboegbmmujnftbsfnpsfuibo   tfd7 4ipvmeuifqpxfstvqqmzwpmubhf7 */ fydffe7 wpmubhfefufdupstefufduwpmubhf 7 %'
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* 44 7 */ 7 */ 3 */ 7 44 * 44  n.b. %jsfdujpotgpsvtf  notes on use 4@9$     ?? 
9$ 4fsjft   5ftu$jsdvjut circuit 1. 7 */ 7 %&5 7 %&5 7 */ 7 44 7 */ 7 7 3 l
? 7 %' 7 %' 7 ):4 7 ):4 7 %' 7 %' 7 ):4 7 ):4 circuit 2. 7 */ 7 %&5 7 %&5 7 */ * 44 7 44 7 */ * */ "" circuit 3. 7 */ 7 */ 7 %&5 7 44 7 */ 7 %&5 7 %4  * 7%&5 * a resistor is not needed if the product is cmos output type. 9$/4fsjft 7 */ 7 */ 7 %&5 7 44 7 */ 7 %&5 7 %4 7 %4   * 7%&5 * 7%&5 9$%4fsjft 4@9$     ?? 
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5zqjdbm1fsgpsnbodf$ibsbdufsjtujdt                                          ? 5b? ?         ? 5b? ? note : unless otherwise stated, pull up resistance = 100k  with n-ch open drain output types. ( 1 ) supply current vs. input voltage ( 2 ) detect & release voltage vs. ambient temperature - # - # - # - # input voltage: v in2 (v) input current: i in2 (  a) supply current: iss (  a) input voltage: v in1 (v) 7 %3 7 %' ambient temp.: topr ( : : : : : : : : : : : : : : : : :
9$ 4fsjft                      7 7 7 7 */ 7                7                   7 %4  7
7 7 7 7 */  7               7 - # - # ( 4 ) n-ch driver output current vs. v ds - # - #  7 %' 17
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output current: i vdet1 (ma) output current: i vet2 (ma) output current: i vet2 (  a) 7 %4 7
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output current: i vet1 (  a) 7 */ 7 7 */ 7 7 %' 17
                    5pqs? ? ?                     5pqs? ? ? ( 5 ) n-ch driver output current vs. input voltage - # - #  7 %' 17
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output current: i vet1 (ma) input voltage: v in1 (v) output current: i vdet2 (ma) input voltage: v in2 (v) 7 %4 7 7 %4 7 4@9$     ?? 
9$ 4fsjft    5zqjdbm"qqmjdbujpo$jsdvjut  window comparator circuit (example covers n-channel open drain product's circuits.) 7 */ 7 065 7 %' 7 %' 7 44 5jnf 5jnf 7 44 7 */ 7 065 7 */ 33 7 44 7 44 7 44 7 %&5 7 */ 7 %&5 7 */ 7 %% 7 */ 3 3  3  7 44 7 065 7 44 7 44 7 %&5 7 */ 7 %&5 /puftposftjtupst3boe3t 
 
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