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general description the max4800/max4801/max4802 provide high-volt- age switching on eight channels for ultrasonic imaging and printer applications. the devices utilize bcdmos process technology to provide eight high-voltage low- charge-injection spst switches, controlled by a digital interface. data is clocked into an internal 8-bit shift reg- ister and retained by a programmable latch with enable and clear inputs. a power-on reset function ensures that all switches are open on power-up. the max4800/max4801/max4802 operate with a wide range of high-voltage supplies including: v pp /v nn = +100v/-100v, +185v/-15v, and +40v/-160v. the digital interface operates from a separate v dd supply from +2.7v to +13.2v. digital inputs din, clk, le , and clr are +13.2v tolerant, independent of the v dd supply voltage. the max4802 provides integrated 35k bleed resistors on each switch terminal to discharge capaci- tive loads. the max4800 and max4802 are drop-in replacements for the supertex hv20220 and hv232. the devices are available in the 48-pin tqfp, 26-bump csbga, and 28- pin plcc packages. the max4801 is a drop-in replacement for the supertex hv20320 and is available in the 28-pin plcc package. all devices are specified for the commercial 0? to +70? temperature range. applications ultrasound imaging printers features ? pin-compatible replacement for supertex hv20220 (max4800) ? pin-compatible replacement for supertex hv20320 (max4801) ? pin-compatible replacement for supertex hv232 (max4802) ? flexible high-voltage supplies up to v pp - v nn = 200v ? low-charge injection, low-capacitance 22 switches ? dc to 10mhz analog-signal frequency range ? -77db off isolation at 5mhz ? low 10 a quiescent current ? integrated bleed resistors (max4802) ? available in plcc, tqfp, and csbga packages max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches ________________________________________________________________ maxim integrated products 1 19-0631; rev 2; 5/09 for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim? website at www.maxim-ic.com. ordering information/selector guide part bleed resistors second source pin-package max4800 ccm no hv20220fg 48 tqfp max4800cqi no hv20220pj 28 plcc max4800cxz no hv220** 26 csbga max4801 cqi no hv20320pj 28 plcc max4802 ccm yes hv232fg 48 tqfp max4802cqi yes hv232pj 28 plcc max4802cxz yes hv230ga 26 csbga note: all devices are specified over the commercial 0? to +70? temperature range. ** not pin-for-pin compatible.
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches 2 _______________________________________________________________________________________ absolute maximum ratings 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. (all voltages referenced to gnd.) v dd logic-supply voltage .....................................-0.5v to +15v v pp - v nn supply voltage ....................................................220v v pp positive-supply voltage ........................-0.5v to v nn + 220v v nn negative-supply voltage ..............................+0.5v to -220v logic inputs le , clr, clk, din ............................-0.5v to +15v dout ............................................................-0.5v to v dd + 0.5v rgnd (max4802) .................................................-4.5v to +0.5v com_, no_.................................................................v nn to v pp continuous power dissipation (t a = +70?) 28-pin plcc (derate 10.5mw/? above +70?) ..........842mw 48-pin tqfp (derate 22.7mw/? above +70?).........1818mw 26-pin csbga (derate 11.8mw/? above +70?) .......941mw operating temperature range...............................0? to +70? storage temperature range .............................-65? to +150? junction temperature range ..........................................+150? lead temperature (soldering, 10s).................................+300? bump temperature (soldering) lead-free......................+260? bump temperature (soldering) lead ..............................+245? electrical characteristics (v dd = +2.7v to +13.2v, v pp = +40v to v nn + 200v, v nn = -15v to -160v, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units analog switch analog signal range v com_ , v no_ (note 2) v nn + 10 v pp - 10 v t a = 0? 30 t a = +25? 26 38 i com = 5ma t a = +70? 48 t a = 0? 25 t a = +25? 22 27 v pp = +40v, v nn = -160v, v com_ = 0 i com = 200ma t a = +70? 32 t a = 0? 25 t a = +25? 22 27 i com = 5ma t a = +70? 30 t a = 0? 18 t a = +25? 18 24 v pp = +100v, v nn = -100v, v com_ = 0 i com = 200ma t a = +70? 27 t a = 0? 23 t a = +25? 20 25 i com = 5ma t a = +70? 30 t a = 0? 22 t a = +25? 16 25 small-signal switch on-resistance r ons v pp = +160v, v nn = -40v or v pp = +185v, v nn = -15v, v com _ = 0 i com = 200ma t a = +70? 27 small-signal switch on-resistance matching r ons v pp = +100v, v nn = -100v, v com_ = 0, i com = 5ma 520% large-signal switch on-resistance r onl v com_ = v pp - 10v, i com = 1a 15 shunt resistance r int no_ or com_ to rgnd (max4802), switch off 30 35 50 k
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches _______________________________________________________________________________________ 3 electrical characteristics (continued) (v dd = +2.7v to +13.2v, v pp = +40v to v nn + 200v, v nn = -15v to -160v, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units t a = +25? 1 4 switch-off leakage i com_ ( off ), i no_ ( off ) v com_ , v no_ = v pp - 10v or unconnected; rgnd unconnected (max4802) t a = t min to t max 10 ? switch-off dc offset r l = 100k (max4800/max4801), no load (max4802) 100 300 mv switch-on dc offset r l =100k (max4800/max4801), no load (max4802) 100 500 mv t a = 0? 3 t a = +25? 2 3 switch-output peak current (note 3) i com_ duty cycle 0.1% t a = +70? 2 a v pp ?v nn 200v com_, no1?o7 300 v pp ?v nn 200v, no0 30 switch-output isolation diode current (note 3) 300ns pulse width, 2% duty cycle v pp ?v nn 160v com_, no_ 750 ma switch dynamic characterisitics f = 5mhz, r l = 1k , c l = 15pf -30 -33 off-isolation (note 3) v iso f = 5mhz, r l = 50 -58 -77 db crosstalk (note 3) v ct f = 5mhz, r l = 50 -60 -80 db com_, no_ off-capacitance (note 3) c com_ (off), c no_ ( off ) v com_ = 0, v no_ = 0, f = 1mhz 4 11 18 pf com_ on-capacitance (note 3) c com_ (on) v com_ = 0, f = 1mhz 20 36 56 pf output-voltage spike (note 3) v spk r l = 50 -150 +150 mv v pp = +40v, v nn = -160v, v com_ = 0 820 v pp = +100v, v nn = -100v, v com_ = 0 600 charge injection q v pp = +160v, v nn = -40v, v com_ = 0 350 pc logic levels v dd +4.5v 1.5 logic-input low voltage v il v dd < +4.5v 0.75 v v dd +4.5v v dd - 1.5 logic-input high voltage v ih v dd < +4.5v v dd - 0.75 v logic-input capacitance (note 3) c in 10 pf logic-input leakage i in -1 +1 ? v dd +4.5v, i sink = 1ma 0.4 v dout low voltage v ol v dd < +4.5v, i sink = 0.5ma 0.4 v
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches 4 _______________________________________________________________________________________ electrical characteristics (continued) (v dd = +2.7v to +13.2v, v pp = +40v to v nn + 200v, v nn = -15v to -160v, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units v dd +4.5v, i source = 0.5ma v dd - 0.5 v dout high voltage v oh v dd < +4.5v, i source = 0.25ma v dd - 0.5 v power supplies v dd supply voltage 2.7 13.2 v v pp supply voltage 40 v nn + 200 v v nn supply voltage -160 -15 v v dd supply quiescent current i ddq v il = 0, v ih = v dd , f clk = 0 15 a v dd supply dynamic current i dd v dd = +5v, v il = 0, v ih = +5v, f clk = 5mhz 4ma v pp supply quiescent current i ppq all switches remain on or off, i com_(on) = 5ma 10 50 ? t a = 0? 6.5 t a = +25? 6.5 v pp = +40v, v nn = -160v t a = +70? 6.5 t a = 0? 4.0 t a = +25? 4.0 v pp = +100v, v nn = -100v t a = +70? 4.0 t a = 0? 4.0 t a = +25? 4.0 v pp supply dynamic current i pp 50khz output switching frequency with no load v pp = +160v, v nn = -40v t a = +70? 4.0 ma v nn supply quiescent current i nnq all switches remain on or off, i com_(on) = 5ma 10 50 ? t a = 0? 6.5 t a = +25? 6.5 v pp = +40v, v nn = -160v t a = +70? 6.5 t a = 0? 4.0 t a = +25? 4.0 v pp = +100v, v nn = -100v t a = +70? 4.0 t a = 0? 4.0 t a = +25? 4.0 v nn supply dynamic current i nn 50khz output switching frequency with no load v pp = +160v, v nn = -40v t a = +70? 4.0 ma
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches _______________________________________________________________________________________ 5 timing characteristics (v dd = +2.7v to +13.2v, v pp = +40v to v nn + 200v, v nn = -15v to -160v, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units analog switch turn-on time t on v no_ = v pp - 10v, r l = 10k , v nn = -40v to -160v 5s turn-off time t off v no_ = v pp - 10v, r l = 10k , v nn = -40v to -160v 5s output switching frequency f sw duty cycle = 50% 50 khz maximum v com_ , v no_ slew rate dv/dt (note 3) 20 v/ns logic timing (figure 1) v d d + 4.5v 5 d ai sy chai ni ng v d d + 4.5v 2.5 v d d + 4.5v 10 clk frequency f clk n o d ai sy chai ni ng v d d < + 4.5v 4 mhz v d d + 4.5v 15 din to clk setup time t ds v d d < + 4.5v 40 ns v d d + 4.5v 35 din to clk hold time t dh v d d < + 4.5v 60 ns v d d + 4.5v 150 clk to le setup time t cs v d d < + 4.5v 300 ns v d d + 4.5v 150 le low-pulse width t wl v d d < + 4.5v 300 ns v d d + 4.5v 150 clr high-pulse width t wc v d d < + 4.5v 300 ns v d d + 4.5v ( n ote 3) 1 clk rise and fall times t r , t f v d d < + 4.5v ( n ote 3) 1 ? t a = 0? 55 150 t a = +25? 60 150 v dd = +5v ?0%, c l 50pf t a = +70? 70 150 clk to dout delay t do v dd = +3v ?0%, c l 50pf t a = t min to t max 70 280 ns note 1: specifications at 0? are guaranteed by correlation and design. electrical parameters are tested at worst case conditions. note 2: the analog signal input v com_ and v no_ must satisfy v nn (v com_ , v no_ ) v pp , or remain unconnected during power-up and power-down. note 3: guaranteed by characterization; not production tested.
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches 6 _______________________________________________________________________________________ typical operating characteristics (v dd = +5v, v pp = +100v, v nn = -100v, t a = +25?, unless otherwise noted.) i dd supply current vs. clock frequency max4800 toc01 clock frequency (mhz) i dd supply current (ma) 1 0.1 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 0 0.01 10 din = 01010101 din = 00000000 off-isolation vs. frequency max4800 toc02 frequency (mhz) off-isolation (db) -65 -70 -75 -80 -85 -90 -95 -100 -60 110 r s = r l = 50 0 10 5 20 15 25 30 03040 10 20 50 60 70 on-resistance vs. temperature max4800 toc03 temperature ( c) on-resistance ( ) i sw = 5ma i sw = 200ma 0 5 10 15 20 25 30 35 40 +40/ -160 +60/ -140 +80/ -120 +100/ -100 +120/ -80 +140/ -60 +160/ -40 on-resistance vs. v pp /v nn supply voltage max4800 toc04 v pp /v nn supply voltage (v) on-resistance ( ) t a = +70 c t a = 0 c t a = +25 c 0 40 20 100 80 60 160 140 120 180 02030 10 40 50 60 70 t do vs. temperature max4800 toc05 temperature ( c) t do (ns) v dd = +3v v dd = +5v 0 1.0 2.0 4.0 5.0 6.0 04050 20 30 10 60 70 80 90 100 supply current vs. switching frequency max4800 toc06 switching frequency (khz) supply current (ma) i nn i pp i dd all switches operating all switches connected to gnd 3.0 0.20 0.25 0.35 0.30 0.40 0.45 supply current vs. v pp /v nn supply voltage max4800 toc07 supply current (ma) one switch operating all switches connected to gnd f sw = 50khz i nn i pp +40/ -160 +60/ -140 +80/ -120 +100/ -100 +120/ -80 +140/ -60 +160/ -40 v pp /v nn supply voltage (v) 0 1 2 3 4 5 6 7 8 26 4 8 10 12 14 logic threshold vs. v dd supply voltage max4800 toc08 v dd supply voltage (v) logic threshold (v) rising falling
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches _______________________________________________________________________________________ 7 pin descriptions pin max4800 tqfp max4800 csbga max4800 plcc max4801 plcc name function 1 e4 26 26 com5 analog switch 5 C common terminal 2, 4, 6, 7, 9, 11, 13, 15, 17, 19, 21, 23, 26, 27, 30, 31, 32, 38, 40, 42, 44, 46, 48 d6 9, 11, 15 11, 14, 15 n.c. no connection. not connected internally. 3 e1 27 27 com4 analog switch 4 C common terminal 5 e3 28 28 no4 analog switch 4 C normally open terminal 8 d1 1 1 com3 analog switch 3 C common terminal 10 d3 2 2 no3 analog switch 3 C normally open terminal 12 d4 3 3 com2 analog switch 2 C common terminal 14 c3 4 4 no2 analog switch 2 C normally open terminal 16 c4 5 5 com1 analog switch 1 C common terminal 18 a4 6 6 no1 analog switch 1 C normally open terminal 20 c5 7 7 com0 analog switch 0 C common terminal 22 d5 8 8 no0 analog switch 0 C normally open terminal 24 c6 10 9 v pp positive high-voltage supply. bypass v pp to gnd with a 0.1f or greater ceramic capacitor. 25 c7 12 10 v nn negative high-voltage supply. bypass v nn to gnd with a 0.1f or greater ceramic capacitor. 28 d7 13 12 gnd ground 29 d9 14 13 v dd digital-supply voltage. bypass v dd to gnd with a 0.1f or greater ceramic capacitor. 33 e9 16 16 din serial data input 34 e7 17 17 clk serial clock input 35 e6 18 18 le latch enable input, active low 36 f7 19 19 clr latch clear input 37 f6 20 20 dout serial data output 39 e5 21 21 com7 analog switch 7 C common terminal 41 f5 22 22 no7 analog switch 7 C normally open terminal 43 f4 23 23 com6 analog switch 6 C common terminal 45 h4 24 24 no6 analog switch 6 C normally open terminal 47 f3 25 25 no5 analog switch 5 C normally open terminal
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches 8 _______________________________________________________________________________________ pin descriptions (continued) pin max4802 tqfp max4802 csbga max4802 plcc name function 1 e4 26 com5 analog switch 5 C common terminal 2, 4, 6, 7, 9, 11,13, 15, 17, 19, 21, 23, 26, 30, 31, 32, 38, 40, 42, 44, 46, 48 9, 15 n.c. not connected internally 3 e1 27 com4 analog switch 4 C common terminal 5 e3 28 no4 analog switch 4 C normally open terminal 8 d1 1 com3 analog switch 3 C common terminal 10 d3 2 no3 analog switch 3 C normally open terminal 12 d4 3 com2 analog switch 2 C common terminal 14 c3 4 no2 analog switch 2 C normally open terminal 16 c4 5 com1 analog switch 1 C common terminal 18 a4 6 no1 analog switch 1 C normally open terminal 20 c5 7 com0 analog switch 0 C common terminal 22 d5 8 no0 analog switch 0 C normally open terminal 24 c6 10 v pp positive high-voltage supply. bypass v pp to gnd with a 0.1f or greater ceramic capacitor. 25 c7 12 v nn negative high-voltage supply. bypass v nn to gnd with a 0.1f or greater ceramic capacitor. 27 d6 11 rgnd bleed resistor ground 28 d7 13 gnd ground 29 d9 14 v dd digital-supply voltage. bypass v dd to gnd with a 0.1f or greater ceramic capacitor. 33 e9 16 din serial data input 34 e7 17 clk serial clock input 35 e6 18 le latch enable input, active low 36 f7 19 clr latch clear input 37 f6 20 dout serial data output 39 e5 21 com7 analog switch 7 C common terminal 41 f5 22 no7 analog switch 7 C normally open terminal 43 f4 23 com6 analog switch 6 C common terminal 45 h4 24 no6 analog switch 6 C normally open terminal 47 f3 25 no5 analog switch 5 C normally open terminal
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches _______________________________________________________________________________________ 9 detailed description the max4800/max4801/max4802 provide high-volt- age switching on eight channels for ultrasound imaging and printer applications. the devices utilize bcdmos process technology to provide eight high-voltage low- charge-injection spst switches, controlled by a digital interface. data is clocked into an internal 8-bit shift reg- ister and retained by a programmable latch with enable and clear inputs. a power-on reset function ensures that all switches are open on power-up. the max4800/max4801/max4802 operate with a wide range of high-voltage supplies including: v pp /v nn = +100v/-100v, +185v/-15v, or +40v/-160v. the digital interface operates from a separate v dd supply from +2.7v to +13.2v. digital inputs din, clk, le , and clr are +13.2v tolerant, independent of the v dd supply voltage. the max4802 provides integrated 35k bleed resistors on each switch terminal to discharge capaci- tive loads. the max4800 and max4802 are drop-in replacements for the supertex hv20220 and hv232, respectively. the max4801 is a drop-in replacement for the supertex hv20320. analog switch the max4800/max4801/max4802 allow a peak-to- peak analog signal range from v nn + 10v to v pp - 10v. analog switch inputs must be unconnected, or satisfy v nn (v com_ , v no_ ) v pp during power-up and power-down. high-voltage supplies the max4800/max4801/max4802 allow a wide range of high-voltage supplies. the devices operate with v nn from -160v to -15v and v pp from +40v to v nn + 200v. 50% 50% t wc 90% t on din le clk dout switch clr off on 10% t off t do t dh t ds 50% 50% 50% 50% 50% 50% d n d n-1 d n+1 t wl t cs figure 1. serial interface timing
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches 10 ______________________________________________________________________________________ when v nn is connected to gnd (single-supply applica- tions), the devices operate with v pp up to +200v. the v pp and v nn high-voltage supplies are not required to be symmetrical, but the voltage difference v pp - v nn must not exceed 200v. bleed resistors (max4802) the max4802 features integrated 35k bleed resistors to discharge capacitive loads such as piezoelectric transducers. each analog switch terminal is connected to rgnd with a bleed resistor. serial interface the max4800/max4801/max4802 are controlled by a serial interface with an 8-bit serial shift register and transparent latch. each of the eight data bits controls a single analog switch (see table 1). data on din is clocked with the most significant bit (msb) first into the shift register on the rising edge of clk. data is clocked out of the shift register onto dout on the rising edge of clk. dout reflects the status of din, delayed by eight clock cycles (see figures 1 and 2). latch enable ( le ) drive le logic-low to change the contents of the latch and update the state of the high-voltage switches (figure 2). drive le logic-high to freeze the contents of the latch and prevent changes to the switch states. to reduce noise due to clock feedthrough, drive le logic- high while data is clocked into the shift register. after the data shift register is loaded with valid data, pulse le logic-low to load the contents of the shift register into the latch. latch clear (clr) the max4800/max4801/max4802 feature a latch clear input. drive clr logic-high to reset the contents of the latch to zero and open all switches. clr does not affect the contents of the data shift register. pulse le logic-low to reload the contents of the shift register into the latch. power-on reset the max4800/max4801/max4802 feature a power-on reset circuit to ensure all switches are open at power- on. the internal 8-bit serial shift register and latch are set to zero on power-up. le clk dout data from previous data byte power-up default: d7-d0 = 0 d7 d6 d5 d4 d3 d2 d1 d0 d7 din d7 d6 d5 d4 d3 d2 d1 d0 msb lsb figure 2. latch enable interface timing
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches ______________________________________________________________________________________ 11 applications information logic levels the max4800/max4801/max4802 digital interface inputs clk, din, le , and clr are tolerant of up to +13.2v, independent of the v dd supply voltage, allow- ing compatibility with higher voltage controllers. daisy chaining multiple devices digital output dout is provided to allow the connection of multiple max4800/max4801/max4802 devices by daisy chaining (figure 3). connect each dout to the din of the subsequent device in the chain. connect clk, le , and clr inputs of all devices, and drive le logic-low to update all devices simultaneously. drive clr high to open all the switches simultaneously. additional shift reg- isters may be included anywhere in series with the max4800/max4801/max4802 data chain. supply sequencing and bypassing the max4800/max4801/max4802 do not require spe- cial sequencing of the v dd , v pp , and v nn supply volt- ages; however, analog switch inputs must be unconnected, or satisfy v nn (v com_ , v no_ ) v pp during power-up and power-down. bypass v dd , v nn , and v pp to gnd with a 0.1? ceramic capacitor as close to the device as possible. chip information process: bcdmos data bits control bits function d0 (lsb) d1 d2 d3 d4 d5 d6 d7 (msb) le clr sw0 sw1 sw2 sw3 sw4 sw5 sw6 sw7 llloff hllon llloff hllon llloff hllon llloff hllon lll off hll on lll off hll on l l l off hll on ll l off hl l on x x x x x x x x h l hold previous state x x x x x x x x x h off off off off off off off off table 1. serial interface programming x = don? care
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches 12 ______________________________________________________________________________________ max4800 le le clk clk clr max4800 max4800 le clk din le clk din din din clr clr clr dout dout dout u1n u11 u10 figure 3. interfacing multiple devices by daisy-chaining shift register level shifter level shifter din clk dout clr v nn v pp gnd com0 no0 com7 no7 le latch v dd max4800 max4801 functional diagrams
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches ______________________________________________________________________________________ 13 shift register level shifter level shifter din clk dout clr v nn v pp gnd com0 no0 com7 no7 le latch v dd max4802 rgnd functional diagrams (continued)
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches 14 ______________________________________________________________________________________ 12 13 14 15 16 17 18 1 2 3 426 27 28 19 20 21 22 23 24 25 5 6 7 8 9 10 11 no5 no6 com6 no7 com7 dout clr v nn gnd v dd n.c. din clk le com1 no1 com0 no0 n.c. v pp n.c. (rgnd) no2 com2 no3 com3 no4 com4 com5 max4800 max4802 ()max4802 only plcc clr le din n.c. v dd gnd n.c. (rgnd) n.c. v nn n.c. n.c. clk com4 n.c. no4 n.c. n.c. com3 n.c. com2 no3 n.c. n.c. com5 n.c. no1 n.c. n.c. v pp n.c. no0 com1 n.c. no2 n.c. no5 n.c. no6 n.c. com6 n.c. no7 n.c. com7 dout n.c. n.c. max4800 max4802 com0 ()max4802 only 1 2 34 56 7 8 9 10 11 12 36 35 34 33 32 31 30 29 28 27 26 25 37 38 39 40 41 42 43 44 45 46 47 48 24 23 22 21 20 19 18 17 16 15 14 13 tqfp 7mm x 7mm 12 13 14 15 16 17 18 1 2 3 426 27 28 19 20 21 22 23 24 25 5 6 7 8 9 10 11 no5 no6 com6 no7 com7 dout clr gnd v dd n.c. n.c. din clk le com1 no1 com0 no0 v pp v nn n.c. no2 com2 no3 com3 no4 com4 com5 max4801 plcc top view pin configurations
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches ______________________________________________________________________________________ 15 a b c d e f g h 1 23456789 d1 e1 e7 f7 c7 d7 a4 h4 e9 d9 e6 f6 c6 d6 e5 f5 c5 d5 e4 f4 c4 d4 e3 f3 c3 d3 com0 com1 com2 com3 com4 com5 com6 com7 no0 no1 no2 no3 no4 no5 no6 no7 din clk le clr dout gnd n.c. (rgnd) v dd v pp v nn csbga max4800 max4802 ()max4802 only top view pin configurations (continued) package type package code document no. 28 plcc q28-4 21-0049 26 csbga x07265-1 21-0158 48 tqfp c48-6 21-0054 package information for the latest package outline information and land patterns, go to www.maxim-ic.com/packages . note that a ?? ?? or ??in the package code indicates rohs status only. package drawings may show a different suffix character, but the drawing pertains to th e package regardless of rohs status.
max4800/max4801/max4802 low-charge injection, 8-channel, high-voltage analog switches maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim product. no circu it patent licenses are implied. maxim reserves the right to change the circuitry and specifications without notice at any time. 16 ____________________maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 2009 maxim integrated products maxim is a registered trademark of maxim integrated products, inc. revision history revision number revision date description pages changed 0 8/06 initial release. 1 3/07 ? updated second source column and revised two package codes in the ordering information/selector guide section. ? updated the pin numbers of the max4802 tqfn in the pin descriptions column. replaced the tqfn pin configurations . ? added package drawing 21-0158 to the package information section. 1, 7, 8, 14, 18, 19, 20, 21 2 5/09 deleted tqfn from the ordering information/selector guide , pin descriptions , pin configurations , and package information sections. 1, 7, 8, 14, 20, 21

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