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j ___________________________________ switches shown for logic "0" input qsop/so/dip max4552 logic switch 0 1 off on top view qsop/so/dip max4551 logic switch 0 1 on off qsop/so/dip MAX4553 logic switches 1, 4 0 1 off on switches 2, 3 on off 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 in2 com2 nc2 v+ v- no1 com1 in1 MAX4553 n.c. nc3 com3 in3 in4 com4 no4 gnd 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 in2 com2 nc2 v+ v- nc1 com1 in1 max4551 n.c. nc3 com3 in3 in4 com4 nc4 gnd 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 in2 com2 no2 v+ v- no1 com1 in1 max4552 n.c. no3 com3 in3 in4 com4 no4 gnd n.c. = not connected �e�?
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?�z�?�?�?�?�z �?�?�y�4�1�4�5�?�?��?��?�?�? 2 _______________________________________________________________________________________ absolute maximum ratings electrical characteristics?ual supplies (v+ = +5v, ?0%, v- = -5v, ?0%, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) note 1: signals on nc_, no_, com_, or in_ exceeding v+ or v- are clamped by internal diodes. limit forward-diode current to maximum current rating. voltages referenced to gnd v+.....................................................................-0.3v to +13.0v v- .....................................................................-13.0v to +0.3v v+ to v- ............................................................-0.3v to +13.0v all other pins (note 1) ..........................(v- - 0.3v) to (v+ + 0.3v) continuous current into any terminal..............................?0ma peak current into any terminal (pulsed at 1ms,10% duty cycle)...................................?0ma esd per method 3015.7 (in_, com_, v+, v-, gnd) .......>2500v iec 1000-4-2 (no_, nc_) ..................................................?5kv continuous power dissipation (t a = +70?) qsop (derate 9.52mw/? above +70?) ....................762mw narrow so (derate 8.70mw/? above +70?) ............696mw plastic dip (derate 10.53mw/? above +70?) ..........842mw operating temperature ranges max455_c_e ......................................................0? to +70? max455_e_e ...................................................-40? to +85? storage temperature range .............................-65? to +160? lead temperature (soldering, 10sec) .............................+300? v+ = 5.5v, v- = -5.5v, v com_ = ?.5v v+ = 5.5v, v- = -5.5v, v com_ = ?.5v, v no_ = 4.5v v+ = 5v, v- = -5v, v no_ or v nc_ = +3v, 0, -3v v+ = 5.5v, v- = -5.5v, v com_ = 4.5v, v no_ = ?.5v v+ = 5v, v- = -5v, v no_ or v nc_ = ?v, i com_ = 1ma v+ = 5v, v- = -5v, v no_ or v nc_ = ?v, i com_ = 1ma conditions c, e na i com_(on) com_ on-leakage current (note 6) -20 20 -2 0.01 2 na i com_(off) com_ off-leakage current (note 6) -10 10 na i no_(off) , i nc_(off) no_, nc_ off-leakage current (note 6) -1 0.01 1 v v- v+ v com_ , v no_ , v nc_ analog signal range (note 3) 10 r flat(on) com_ to no_, com_ to nc_ on-resistance flatness (note 5) 48 5 ? r on com_ to no_, com_ to nc_ on-resistance match between channels (note 4) 80 120 140 r on com_ to no_, com_ to nc_ on-resistance 14 units min typ max (note 2) symbol parameter c, e +25? c, e c, e +25? +25? c, e +25? c, e +25? +25? t a � � -1 0.01 1 c, e -10 10 analog switch 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.
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?�z�?�?�?�?�z �?�?�y�4�1�4�5�?�?��?��?�?�? _______________________________________________________________________________________ 3 electrical characteristics?ual supplies (continued) (v+ = +5v, ?0%, v- = -5v, ?0%, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) channel-to-channel crosstalk (note 8) v ct c, e v in_ = 0.8v or 2.4v ? -1 0.03 1 i inh_ , i inl_ in_ input current logic high or low r l = 50 , c l = 15pf, v n_ = 1v rms , f = 100khz, figure 5 +25? < -90 +25? 70 110 db turn-on time conditions c, e t on c, e v com_ = ?v, v+ = 5v, v- = -5v, figure 1 v 1.6 0.8 v in_l in_ input logic threshold low v 2.4 1.6 v in_h in_ input logic threshold high c, e 125 ns +25? 50 90 turn-off time t off v com_ = ?v, v+ = 5v, v- = -5v, figure 1 c, e 100 ns break-before-make time delay (MAX4553 only) t bbm v com_ = ?v, v+ = 5v, v- = -5v, figure 2 +25? 520 ns charge injection (note 3) q c l = 1nf, v no_ = 0, r s = 0, figure 3 +25? 25 pc no_, nc_ off-capacitance c n_(off) v no_ = gnd, f = 1mhz, figure 6 +25? 3.5 pf com_ off-capacitance c com_(off) v com_ = gnd, f = 1mhz, figure 6 +25? 3 pf com_ on-capacitance c com_(on) v com_ = v no_ = gnd, f = 1mhz, figure 7 +25? 10 pf off-isolation (note 7) units min typ max (note 2) symbol parameter v iso r l = 50 , c l = 15pf, v n_ = 1v rms , f = 100khz, figure 4 +25? < -90 db t a power-supply range v+, v- c, e ? ? v +25? -1 0.05 1 v+ supply current i+ v+ = 5.5v, all v in_ = 0 or v+ c, e -1 1 ? +25? -1 0.05 1 v- supply current i- v- = -5.5v c, e -1 1 ? +25? ? contact discharge iec 1000-4-2 kv +25? ?5 on nc_ and no_ pins per iec 801-2 air discharge iec 1000-4-2 +25? ?5 human body model +25? ?.5 all pins mil-std-883c method 3015 kv switch dynamic characteristics logic input esd protection power supply
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?�z�?�?�?�?�z �?�?�y�4�1�4�5�?�?��?��?�?�? 4 _______________________________________________________________________________________ +25? charge injection (note 3) (note 3) com_ to no_, com_ to nc_ on-resistance q r on v+ = 5v, v com_ = 3.5v, i com_ = 1ma c, e 180 c l = 1nf, v no_ = 0, r s = 0, figure 3 +25? 15 +25? 26 pc com_ to no_, com_ to nc_ on-resistance match between channels (note 4) conditions c, e ? r on v+ = 5v, v com_ = 3.5v, i com_ = 1ma 115 160 v 0v+ v com_ , v no_ , v nc_ analog signal range c, e 8 +25? -1 0.01 1 c, e -10 10 no_, nc_ off-leakage current (notes 6, 9) i no_(off) , i nc_(off) v+ = 5.5v; v com_ = 1v, 4.5v; v n_ = 4.5v, 1v na +25? -1 0.01 1 c, e -10 10 com_ off-leakage current (notes 6, 9) i com_(off) v+ = 5.5v; v com_ = 1v, 4.5v; v n_ = 4.5v, 1v na +25? -2 0.01 2 c, e, -20 20 com_ on-leakage current (notes 6, 9) i com_(on) v+ = 5.5v; v com_ = 4.5v, 1v na in_ input logic threshold high v in_h c, e 2.4 1.6 v in_ input logic threshold low v in_l c, e 1.6 0.8 v units min typ max (note 2) symbol parameter in_ input current logic high or low i inh_ , i inl_ v in_ = 0.8v or 2.4v c, e -1 1 ? t a +25? 100 160 turn-on time t on v com_ = 3v, v+ = 5v, figure 1 c, e 170 ns +25? 80 140 turn-off time t off v com_ = 3v, v+ = 5v, figure 1 c, e 150 ns +25? 530 break-before-make time delay (MAX4553 only) t bbm v com_ = 3v, v+ = 5v, figure 2 ns +25? -1 0.05 1 v+ supply current i+ v+ = 5.5v, all v in_ = 0 or v+ c, e -1 1 ? +25? ? electrical characteristics?ingle +5v supply (v+ = +5v, ?0%, v- = -5v, ?0%, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) contact discharge iec 1000-4-2 kv on nc_ and no_ pins per iec 801-2 human body model +25? ?5 air discharge iec 1000-4-2 +25? ?5 kv all pins mil-std-883c method 3015 +25? ?.5 analog switch logic input power supply esd protection switch dynamic characteristics
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?�z�?�?�?�?�z �?�?�y�4�1�4�5�?�?��?��?�?�? _______________________________________________________________________________________ 5 note 2: the algebraic convention is used in this data sheet; the most negative value is shown in the minimum column. note 3: guaranteed by design. note 4: ? r on = ? r on(max) - ? r on(min) . note 5: resistance flatness is defined as the difference between the maximum and minimum on-resistance values, as measured over the specified analog signal range. note 6: leakage parameters are 100% tested at maximum rated temperature, and guaranteed by correlation at t a = +25?. note 7: off-isolation = 20log10 [ v com_ / (v nc_ or v no_ ) ], v com_ = output, v nc_ or v no_ = input to off switch. note 8: between any two switches. note 9: leakage testing for single-supply operation is guaranteed by testing with dual supplies. electrical characteristics?ingle +3v supply (v+ = +2.7v to +3.6v, v- = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) +25? charge injection com_ to no_, com_ to nc_ on-resistance q r on v+ = 2.7v, v com_ = 1.0v, i com_ = 0.1ma c, e 500 in_ input logic threshold high v in_h c, e 2.0 1.1 v in_ input logic threshold low conditions c, e v in_l c l = 1nf, v no_ = 0, r s = 0, figure 3 +25? 200 400 15 pc v 0v+ v com_ , v no_ , v nc_ analog signal range (note 3) c, e 1.1 0.5 v in_ input current logic high or low i inh_ , i inl_ v in_ = 0.8v or 2.4v c, e -1 0.03 1 ? +25? 190 350 turn-on time t on v com_ = 1.5v, v+ = 2.7v, figure 1 c, e 400 ns +25? 160 250 turn-off time t off v com_ = 1.5v, v+ = 2.7v, figure 1 c, e 300 ns +25? 10 50 break-before-make time delay (MAX4553 only) t bbm v com_ = 1.5v, v+ = 3.6v, figure 2 ns +25? -1 0.05 1 v+ supply current units min typ max (note 2) symbol parameter i+ v+ = 3.6v, all v in_ = 0 or v+ c, e -1 1 ? t a switch dynamic characteristics (note 4) power supply +25? ? contact discharge iec 1000-4-2 +25? ?5 +25? ?5 human body model on nc_ and no_ pins per iec 801-2 kv air discharge iec 1000-4-2 +25? ?.5 mil-std-883c method 3015 all pins kv logic input switch dynamic characteristics power supply esd protection analog switch
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q �@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@�@ �@�@�@�@�@�@�@�@�@�@�@�@�@ (v+ = +5v, v- = -5v, gnd = 0, t a = +25?, unless otherwise noted.) 60 100 80 70 90 110 120 130 -5 -3 -1 -2 -4 012345 on-resistance vs. v com (dual supplies) max4551-01 v com (v) r on ( w ) v+ = +2v v- = -2v v+ = +3v v- = -3v v+ = +4v v- = -4v v+ = +5v v- = -5v 50 60 55 75 70 65 90 85 80 95 -6 -2 -4 0246 on-resistance vs. v com and temperature (dual supplies) max4551-02 v com (v) r on ( w ) t a = +85? t a = +25? t a = 0? t a = -40? v+ = +5v v- = -5v 80 120 100 160 140 180 200 023 1 456 on-resistance vs. v com (single supply) max4551-03 v com (v) ron ( w ) v+ = +3.3v v+ = +5v v+ = +2.7v v- = 0 60 90 70 80 100 110 120 130 0.0 1.5 1.0 0.5 2.5 2.0 3.5 3.0 4.0 4.5 5.0 on-resistance vs. v com and temperature (single supply) max4551-04 v com (v) r on ( w ) t a = +25? t a = 0? t a = -40? t a = +85? v+ = +5v v- = 0 0 40 20 60 120 160 140 100 80 200 180 -60 -40 -20 0 20 40 60 80 100 scr holding current vs. temperature max4551-07 temperature (?) holding current (ma) i h- i h+ 10n 0.1p -55 -25 0 25 75 on- and off-leakage current vs. temperature 1p 1n max4551-05 temperature (?) leakage (a) 50 100 125 100p 10p on-leakage off-leakage -10 -6 -8 -2 -4 2 0 4 8 6 10 -5 -3 -2 -1 -4 012 4 35 charge injection vs. v com max4551-06 v com (v) q (pc) v+ = +5v v- = 0 v+ = +5v v- = -5v 30 90 50 70 110 130 150 170 1.0 2.5 2.0 1.5 3.5 3.0 4.5 4.0 5.0 5.5 6.0 turn-on/turn-off time vs. supply voltage max4551-08 supply voltage (v+, ? v- ? ) t on , t off (ns) t on t off 40 50 45 55 70 80 75 65 60 90 85 -60 -40 -20 0 20 40 60 80 100 turn-on/turn-off time vs. temperature max4551-09 temperature (?) t on, t off (ns) t off t on
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