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stresses beyond those listed under ?bsolute maximum ratings?may cause permanent damage to the device. these are stress rating s only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specificatio ns is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. note 1: com and in pins are not fault protected. signals on com or in exceeding v+ or v- are clamped by internal diodes. limit forward diode current to maximum current rating. note 2: nc and no pins are fault protected. signals on nc or no exceeding -36v to +36v may damage the device. these limits apply with power applied to v+ or v-, or ?0v with v+ = v- = 0. (voltages referenced to gnd) v+ ........................................................................-0.3v to +44.0v v- .........................................................................-44.0v to +0.3v v+ to v-................................................................-0.3v to +44.0v com, in (note 1)..................................(v- - 0.3v) to (v+ + 0.3v) nc, no (note 2) .....................................(v+ - 36v) to (v- + 36v) nc, no to com.......................................................-36v to +36v continuous current into any terminal..............................?0ma peak current into any terminal (pulsed at 1ms, 10% duty cycle)...................................?0ma continuous power dissipation (t a = +70?) (note 2) 6-pin sot23-6 (derate 7.1mw/? above +70?) .........696mw 8-pin ?ax (derate 4.10mw/? above +70?) ............330mw operating temperature ranges max45_0eut....................................................-40? to +85? max45_0eua ...................................................-40? to +85? storage temperature range .............................-65? to +150? lead temperature (soldering, 10sec) .............................+300? e +25? -20 0.1 20 -200 200 no or nc input leakage current, supplies off i no , i nc na v no or v nc = ?0v, v+ = 0, v- = 0 e +25? -20 20 -200 200 no or nc input leakage current, supplies on i no , i nc na v no or v nc = ?6v, v com = � + 10v e v no or v nc = -36v +25? 81113 -12 -10 -7 clamp output current, supplies on i com ma v no or v nc = 36v +25? -10 10 -200 200 com off-leakage current, supplies on i com(off) na v no or v nc = ?6v applies with power off (note 6) e -36 36 -40 40 fault-protected analog signal range v no , v nc v applies with power on (note 6) -20 20 e -10 10 +25? e -10 10 e 225 e 125 160 +25? -0.5 0.01 0.5 com on-leakage current (notes 4, 5) i com(on) na v com = ?4v; v no , v nc = ?4v or unconnected +25? -0.5 0.01 0.5 i no(off), i nc(off) na no or nc off-leakage current (notes 4, 5) v com = ?4v; v no, v com = � +14v com off-leakage current (notes 4, 5) +25? fault-free analog signal range v no , v nc v- v+ v e applies with power on or off t a parameter symbol min typ max units on-resistance r on ? -0.5 0.01 0.5 i com(off) na conditions v com = ?0v, i com = 1ma v com = ?4v; v no, v nc = � + 14v analog switch fault (v+ = +15v, v- = -15v, unless otherwise noted.)
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175 10 e e v in = 5v 50 100 +25? +25? -1 0.01 1 gnd supply current i gnd ? v in = 0 or 15v 175 e +25? 50 100 v- supply current i- ? v in = 0 or 5v 250 e +25? 100 175 v+ supply current i+ ? v in = 0 or 5v e ?.5 ?0 power-supply range v+, v- v 250 e 600 e 10 fault output turn-on delay time ns +25? v- - 0.4 v+ + 0.4 +25? fault trip threshold v v in = ?5v, r l = 10k ? e in input logic low v inl v 0.8 +25? -62 off-isolation (note 8) vc iso db r l = 50 ? , c l = 15pf, v n_ = 1v rms , f = 1mhz, figure 5 +25? 10 com on-capacitance c com(on) pf f = 1mhz, figure 4 +25? 5 com off-capacitance c com(off) pf f = 1mhz, figure 4 +25? 10 no or nc off-capacitance c n(off) pf f = 1mhz, figure 4 +25? 1.5 5 charge injection (note 7) q pc c l = 1nf, v no = 0, r s = 0 ? , figure 3 3 +25? ns v no or v nc = ?0v, r l = 2k ? , c l = 35pf, figure 2 60 175 turn-off time t off ns v no or v nc = ?0v, r l = 2k ? , c l = 35pf, figure 2 350 500 -5 5 e e +25? in input current i inh , i inl ? v in = 0.8v or 2.4v -1 0.03 1 +25? e in input logic high v inh v 2.4 t a +25? parameter symbol min typ max units 1 2.5 clamp output resistance, supplies on r com k ? turn-on time t on conditions v no or v nc = ?6v 2.5 fault recovery time ? +25? v in = ?5v, r l = 10k ? logic input switch dynamic characteristics power supply
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-5 5 e e 0.8 in input logic low v inl v e 2.4 in input logic high v inh v +25? -1 0.03 1 in input current i inh , i inl ? v in = 0.8v or 2.4v on-resistance 0v+ -40 40 -36 36 fault-protected analog signal range v no , v nc applies with power off (note 6) v e applies with power on (note 6) +25? -10 10 com off-leakage current, supply on i com na e -200 200 v no or v nc = ?6v +25? 2.4 5 clamp output resistance, supply on r com k ? v no or v nc = 36v +25? clamp output current, supply on i com ma 235 v no or v nc = 36v +25? -20 0.1 20 no or nc input leakage current, supply off i no , i nc na e -200 200 v no or v nc = ?0v, v+ = 0, v- = 0 +25? -20 20 no or nc input leakage current, supply on i no , i nc na e -200 200 v no or v nc = ?6v, v com = 0 +25? -0.5 0.01 0.5 com on-leakage current (notes 4, 5, 9) i com(on) na e -20 20 v com = 1v, 10v; v no , v nc = 1v, 10v, or unconnected e -10 10 e -10 10 500 260 390 +25? t a e +25? parameter symbol min typ max units r on ? -0.5 0.01 0.5 com off-leakage current (notes 4, 5, 9) i com(off) na +25? -0.5 0.01 0.5 no or nc off-leakage current (notes 4, 5, 9) i no(off), i nc(off) na v com = 10v, 1v; v no , v nc = 1v, 10v conditions v com = 10v, i com = 1ma v com = 1v, 10v; v no , v nc = 10v, 1v fault-free analog signal range v no , v nc v e applies with power on or off analog switch fault logic input
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? �4�1�4�5�?�?��?��?�?�? _______________________________________________________________________________________ 5 note 3: algebraic convention is used in this data sheet; the most negative value is shown in the minimum column. note 4: leakage parameters are 100% tested at maximum-rated hot temperature and guaranteed by correlation at t a = +25?. note 5: sot packages are 100% tested at +25?. limits at the maximum-rated temperature are guaranteed by design and corre- lation limits at +25?. leakage tests for the sot package are typical only. note 6: nc and no pins are fault protected. signals on nc or no exceeding -36v to +36v may damage the device. these limits apply with power applied to v+ or v-, or ?0v with v+ = v- = 0. note 7: guaranteed by design. note 8: off isolation = 20log 10 [ v com / (v nc or v no ) ], v com = output, v nc or v no = input to off switch. note 9: leakage testing for single-supply operation is guaranteed by testing with dual supplies. electrical characteristics?ingle +12v supply (continued) � �7���������������7�
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? 175 125 e e e 175 +25? 50 125 ? v in = 0 or 5v +25? 25 75 v- and gnd supply current i gnd v in = 0 or 12v +25? 50 125 v+ supply current i+ ? v in = 0 or 5v e 936 power-supply range v+ v +25? -62 off-isolation (note 8) v iso db r l = 50 ? , c l = 15pf, v in = 1v rms , f = 1mhz, figure 5 +25? 22 com on-capacitance c com(on) pf v com = v no = 0, f = 1mhz, figure 4 +25? 9 com off-capacitance c com(off) pf v com = 0, f = 1mhz, figure 4 +25? 9 no or nc off-capacitance c no(off) , c nc(off) pf f = 1mhz, figure 4 +25? 15 charge injection (note 7) q pc c l = 1nf, v no = 0, r s = 0 ? , figure 3 300 1000 e e t a +25? parameter symbol min typ max units +25? 60 200 turn-off time t off ns v no or v nc = 7v, r l = 2k ? , c l = 35pf, figure 2 500 750 turn-on time t on ns conditions v no or v nc = 7v, r l = 2k ? , c l = 35pf, figure 2 switch dynamic characteristics power supply
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q ______________________________________________________________________ (t a = +25?, unless otherwise noted.) 1000 1 10 v com (v) switch on-resistance ( ? ) switch on-resistance vs. v com (single supply) 01015 5 2025303540 v+ = +5v v+ = +36v v+ = +12v v+ = +15v v+ = +20v v+ = +24v v+ = +30v max4510-03 0 100 50 250 200 150 300 350 -20 -5 0 -15-10 5 101520 switch on-resistance vs. v com (dual supplies) max4510-01 v com (v) switch on-resistance ( ? ) v+ = +5v v- = -5v v+ = +10v v- = -10v v+ = +15v v- = -15v v+ = +12v v- = -12v v+ = +20v v- = -20v 0 80 60 20 40 160 140 100 120 180 200 -15 -5 0 -10 5 10 15 switch on-resistance vs. v com and temperature (dual supplies) max4510-02 v com (v) switch on-resistance ( ? ) t a = +125? t a = -55? v+ = +15v v- = -15v t a = -40? t a = +25? t a = +85? 0 50 200 150 100 300 350 250 400 046 2 8 10 12 switch on-resistance vs. v com and temperature (single supply) max4510-04 v com (v) switch on-resistance ( ? ) t a = +125 � c t a = +85 � c t a = +25 � c t a = -40 � c t a = -55 � c v+ = +12v 0 300 200 100 700 800 600 500 400 900 1000 0 5 10 15 20 on- and off-times vs. supply voltage max4510-07 supply voltage (v) t on , t off (ns) t on (single supply) t on (dual supplies) t off (dual supplies) t off (single supply) 1p 10p 100p 1n 10n 100n -50 0 -25 255075100125150 i d(on) , i s(off) , and i d(off) leakages vs. temperature max4510-05 temperature ( � c) leakage (a) i no(off) at v no = -14v, v com = +14v i com(on) at v no = v com = +14v i no(off) at v no = +14v, v com = -14v i com(off) at v no = -14v, v com = +14v i com(off) at v no = +14v, v com = -14v i com(on) at v no = v com = -14v 0 2 8 10 6 4 12 14 -15 -10 -5 0 5 10 15 charge injection vs. v com (dual supplies) max4510-06 v com (v) q (pc) dual 15v supplies single +12v supply v+ = +15v v- = -15v 0 100 300 200 500 400 600 -50 0 25 -25 50 75 100 125 on- and off-times vs. temperature max4510-08 temperature ( � c) t on , t off (ns) t on t off -150 -50 -100 50 0 150 100 200 -40 0 20 -20 40 60 80 100 power-supply current vs. temperature max4510/20 toc 09 temperature ( � c) supply current (a) i+ i- i gnd v+ = +15v v- = -15v v in = +5v
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