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high voltage latch - up proof, triple/quad spdt switches data sheet adg5433 / adg5434 rev. c document feedback information furnished by analog devices is believed to be accurate and reliab le. however, no responsibility is assumed by analog devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. specifications subject to change without notice. no license is granted by implicati on or otherwise under any patent or patent rights of analog devices. trademarks and registered trademarks are the property of their respective owners. one technology way, p.o. box 9106, norwood, ma 02062 - 9106, u.s.a. tel: 781.329.4700 ? 2010C 2013 analog devices, inc. all rights reserved. technical support www.analog.com features latch - up proof h uman body model (h bm ) esd rating : 8 kv low on resistance (13.5 ) 9 v to 22 v dual - supply operation 9 v to 4 0 v single - supply operation 48 v supply maximum ratings fully specified at 15 v, 20 v, +12 v, and +36 v v ss to v dd analog signal range applications relay replacement automatic test equipment d ata acquisition instrumentation avionics audio and video switching communication systems functional block dia grams figure 1 . adg5433 tssop and lfcsp_ w q figure 2 . adg5434 tssop and lfcsp_wq general description the adg5433 and adg5434 are monolithic indust rial cmos analog switches comprising three independently selectable single - pole, double - throw (spdt) switches and four indepen - dently selectable spdt switches, r espectively. all channels exhibit break - before - make switching action that prevents momentary shorting when switching channels. an en input on the adg5433 (lfcsp and tssop package s) is used to enable or disable the device. when disabled, all channels are switched off. the ultralow on resistance and on - resistance flatness of these switches make them ideal solutions for data acquisition and gain switching applications, where low distortion is critical. product highlights 1. trenc h isolation gu ards against latch - up. a dielectric trench separates the p and n channel transistors thereby preventing latch - up even under severe overvoltage conditions. 2. low r on . 3. dual - supply operation. for applications where the analog signal is bipolar, the adg54 33 /adg 5434 can be operated from dual supplies up to 22 v. 4. single - supply operation. for applications where the analog signal is unipolar, the adg54 33 /adg54 34 can be operated from a single - rail power supply up to 4 0 v. 5. 3 v logic compatible digital inputs: v i n h = 2.0 v, v i n l = 0.8 v. 6. no v l logic power supply required. in1 in2 in3 en s1a d1 s1b s2b d2 s2a s3b d3 s3a logic adg5433 switches shown for a logic 1 input. 09207-001 i n 1 i n 2 i n 3 i n 4 s 1 a d 1 s 1 b s 2 b d 2 s 2 a s 4 a d 4 s 4 b s 3 b d 3 s 3 a l ogi c ad g 543 4 s w i t ch es s h o w n f o r a l ogi c 1 i n p u t . 09207-002
adg5433/adg5434 data sheet rev. c | page 2 of 24 table of contents features .............................................................................................. 1 applications ....................................................................................... 1 functional block diagrams ............................................................. 1 general description ......................................................................... 1 product highlights ........................................................................... 1 revision history ............................................................................... 2 specifications ..................................................................................... 3 15 v dual supply ....................................................................... 3 20 v dual supply ....................................................................... 4 12 v sin gle supply ........................................................................ 5 36 v single supply ........................................................................ 6 continuous current per channel, sx or dx ..............................8 absolute maximum ratings ............................................................9 esd caution ...................................................................................9 pin configuratio ns and function descriptions ......................... 10 typical performance characteristics ........................................... 12 test circuits ..................................................................................... 16 ter mi nolo g y .................................................................................... 18 trench isolation .............................................................................. 19 applications information .............................................................. 20 outline dimensions ....................................................................... 21 ordering guide .......................................................................... 22 revision history 6 /13 rev. b to rev. c changes to table 6 ............................................................................ 8 added figure 6 ; renumbered sequentially ................................ 10 changes to table 10 ........................................................................ 10 changes to figure 9 ........................................................................ 1 2 changes to figure 26 and figure 27 ............................................. 1 6 deleted figure 29 ............................................................................ 1 6 updated outline dimensions ....................................................... 21 changes to ordering guide .......................................................... 22 5/ 12 rev . a to rev. b removed automotive information (throughout) ....................... 1 changes to ordering guide .......................................................... 22 deleted automotive products section ......................................... 22 6/1 1 rev . 0 to rev. a change to features section ............................................................. 1 change to i ss parameter, table 2 ..................................................... 5 changes to figure 4 ........................................................................ 10 update d outline dimensions ....................................................... 21 changes to ordering guide .......................................................... 22 added automotive products section .......................................... 22 10 /10 revision 0: initial version
data sheet adg5433/adg5434 rev. c | page 3 of 24 specifications 15 v dual supply v dd = + 15 v 10%, v ss = ?15 v 10%, gnd = 0 v, unless otherwise noted. table 1. parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments analog switch analog signal range v dd to v ss v on resistance, r on 13.5 typ v s = 10 v, i s = ?10 ma; see figure 27 15 18 22 max v dd = +13.5 v, v ss = ?13.5 v on - resistance match between channels, ? r on 0.3 typ v s = 10 v , i s = ?10 ma 0.8 1.3 1.4 max on - resistance flatness, r flat (on) 1.8 typ v s = 10 v, i s = ?10 ma 2.2 2.6 3 max leakage currents v dd = +16.5 v, v ss = ?16.5 v source off leakage, i s (off ) 0.05 na typ v s = 10 v, v d = ? 10 v 0.25 1 7 na max drain off leakage, i d (off ) 0. 1 na typ v s = 10 v, v d = ? 10 v 0. 4 4 30 na max channel on leakage, i d (on), i s (on) 0.1 na typ v s = v d = 10 v; see figure 26 0.4 4 30 na max digital inputs input high voltage, v inh 2.0 v min input low voltage, v inl 0.8 v max input current, i inl or i inh 0.002 a typ v in = v gnd or v dd 0.1 a max digital input capacitance, c in 6 pf typ dynamic characteristics 1 transition time, t trans ition 157 ns typ r l = 300 , c l = 35 pf 207 245 272 ns max v s = 10 v t on ( en ) 160 ns typ r l = 300 , c l = 35 pf 196 241 274 ns max v s = 10 v; see figure 34 t off ( en ) 91 ns typ r l = 300 , c l = 35 pf 106 138 140 ns max v s = 10 v; see figure 34 break - before - make time delay, t d 45 ns typ r l = 300 , c l = 35 pf 21 ns min v s1 = v s2 = 10 v; see figure 33 charge injection, q inj 130 pc typ v s = 0 v, r s = 0 , c l = 1 nf; see figure 35 off isolation ?60 db typ r l = 50 , c l = 5 pf, f = 1 m hz; see figure 29 channel -to - channel crosstalk ?60 db typ r l = 50 , c l = 5 pf, f = 1 mhz; figure 28 total harmonic distortion + noise 0.01 % typ r l = 1 k, 15 v p - p, f = 20 hz to 20 khz; see figure 30 ?3 db bandwidth 145 mhz typ r l = 50 , c l = 5 pf; see figure 31 insertion loss ?0.9 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 31 c s (off ) 14 pf typ v s = 0 v, f = 1 mhz c d (off ) 24 pf typ v s = 0 v, f = 1 mhz c d (on), c s (on) 53 pf typ v s = 0 v, f = 1 mhz
adg5433/adg5434 data sheet rev. c | page 4 of 24 parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments power requirements v dd = +16.5 v, v ss = ?16.5 v i dd 45 a typ digital inputs = 0 v or v dd 55 70 a max i ss 0.001 a typ digital inputs = 0 v or v dd 1 a max v dd /v ss 9/2 2 v min/v max gnd = 0 v 1 guaranteed by design; not subject to production test. 20 v dual supply v dd = + 20 v 10%, v ss = ?20 v 10%, gnd = 0 v, unless otherwise noted. table 2. parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments analog switch analog signal range v dd to v ss v on resistance, r on 12.5 typ v s = 15 v, i s = ?10 ma; see figure 27 14 17 21 max v dd = +18 v, v ss = ?18 v on - resistance match between channels, ? r on 0.3 typ v s = 15 v , i s = ?1 0 ma 0.8 1.3 1.4 max on - resistance flatness, r flat (on) 2.3 typ v s = 15 v, i s = ?10 ma 2.7 3.1 3.5 max leakage currents v dd = +22 v, v ss = ?22 v source off leakage, i s (off ) 0.05 na typ v s = 15 v, v d = ? 15 v 0.25 1 7 na max drain off leakage, i d (off ) 0. 1 na typ v s = 15 v, v d = ? 15 v 0. 4 4 30 na max channel on leakage, i d (on), i s (on) 0.1 na typ v s = v d = 15 v; see figure 26 0.4 4 30 na max digital inputs input high voltage, v inh 2.0 v min input low voltage, v inl 0.8 v max input current, i inl or i inh 0.002 a typ v in = v gnd or v dd 0.1 a max digital input capacitance, c in 6 pf typ dynamic characteristics 1 transition time, t trans ition 150 ns typ r l = 300 , c l = 35 pf 199 230 253 ns max v s = 10 v t on ( en ) 152 ns typ r l = 300 , c l = 35 pf 186 223 253 ns max v s = 10 v; see figure 34 t off ( en ) 90 ns typ r l = 300 , c l = 35 pf 104 118 130 ns max v s = 10 v; see figure 34 break - before - make time delay, t d 36 ns typ r l = 300 , c l = 35 pf 17 ns min v s1 = v s2 = 10 v; see figure 33 charge injection, q inj 176 pc typ v s = 0 v, r s = 0 , c l = 1 nf; see figure 35 off isolation ?60 db typ r l = 50 , c l = 5 pf, f = 1mhz; see figure 29 channel -to - channel crosstalk ?60 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 28 total harmonic distortion + noise 0.012 % typ r l = 1 k , 20 v p - p, f = 20 hz to 20 khz; see figure 30 ?3 db bandwidth 140 mhz typ r l = 50 , c l = 5 pf; see figure 31
data sheet adg5433/adg5434 rev. c | page 5 of 24 parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments insertion loss ?0.8 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 31 c s (off ) 15 pf typ v s = 0 v, f = 1 mhz c d (off ) 23 pf typ v s = 0 v, f = 1 mhz c d (on), c s (on) 52 pf typ v s = 0 v, f = 1 mhz power requirements v dd = +22 v, v ss = ?22 v i dd 50 a typ digital inputs = 0 v or v dd 70 110 a max i ss 0.001 a typ digital inputs = 0 v or v dd 1 a max v dd /v ss 9/2 2 v min/v max gnd = 0 v 1 guaranteed by design; not subject to production test. 12 v single supply v dd = 12 v 10%, v ss = 0 v, gnd = 0 v, unless otherwise noted. table 3. parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments analog switch analog signal range 0 v to v dd v on resistance, r on 26 typ v s = 0 v to 10 v, i s = ?10 ma; see figure 27 30 36 42 max v dd = 10.8 v, v ss = 0 v on - resistance match between channels, ? r on 0.3 typ v s = 0 v to 10 v, i s = ?10 ma 1 1.5 1.6 max on - resistance flatness, r flat (on) 5.5 typ v s = 0 v to 10 v, i s = ?10 ma 6.5 8 12 max leakage currents v dd = 13.2 v, v ss = 0 v source off leakage, i s (off ) 0.05 na typ v s = 1 v/10 v, v d = 10 v/ 1 v 0.25 1 7 na max drain off leakage, i d (off ) 0. 1 na typ v s = 1 v/10 v, v d = 10 v/ 1 v 0. 4 4 30 na max channel on leakage, i d (on), i s (on) 0.1 na typ v s = v d = 1 v/10 v; see figure 26 0.4 4 30 na max digital inputs input high voltage, v inh 2.0 v min input low voltage, v inl 0.8 v max input current, i inl or i inh 0.002 a typ v in = v gnd or v dd 0.1 a max digital input capacitance, c in 6 pf typ dynamic characteristics 1 transition time, t trans ition 220 ns typ r l = 300 , c l = 35 pf 290 357 400 ns max v s = 8 v t on ( en ) 228 ns typ r l = 300 , c l = 35 pf 289 370 426 ns max v s = 8 v; see figure 34 t off ( en ) 90 ns typ r l = 300 , c l = 35 pf 115 131 151 ns max v s = 8 v; see figure 34 break - before - make time delay, t d 106 ns typ r l = 300 , c l = 35 pf 54 ns min v s1 = v s2 = 8 v; see figure 33 charge injection, q inj 60 pc typ v s = 6 v, r s = 0 , c l = 1 nf; see figure 35 off isolation ? 60 db typ r l = 50 , c l = 5 pf, f = 1 m hz; see figure 29
adg5433/adg5434 data sheet rev. c | page 6 of 24 parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments channel -to - channel crosstalk ? 60 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 28 total harmonic distortion + noise 0.1 % typ r l = 1 k , 6 v p - p, f = 20 hz to 20 khz; see figure 30 ?3 db bandwidth 150 mhz typ r l = 50 , c l = 5 pf; see figure 31 insertion loss ?0.8 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 31 c s (off ) 18 pf typ v s = 6 v, f = 1 mhz c d (off ) 28 pf typ v s = 6 v, f = 1 mhz c d (on), c s (on) 54 pf typ v s = 6 v, f = 1 mhz power requirements v dd = 13.2 v i dd 40 a typ digital inputs = 0 v or v dd 50 65 a max v dd 9 /40 v min/v max gnd = 0 v, v ss = 0 v 1 guaranteed by design; not subject to production test. 36 v single supply v dd = 36 v 10%, v ss = 0 v, gnd = 0 v, unless otherwise noted. table 4. parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments analog switch analog signal range 0 v to v dd v on resistance, r on 14.5 typ v s = 0 v to 30 v, i s = ?10 ma; see figure 27 16 19 23 max v dd = 32.4 v, v ss = 0 v on - resistance match between channels, ? r on 0.3 typ v s = 0 v to 30 v, i s = ?10 ma 0.8 1.3 1.4 max on - resistance flatness, r flat (on) 3.5 typ v s = 0 v to 30 v, i s = ?10 ma 4.3 5.5 6.5 max leakage currents v dd = 39.6 v, v ss = 0 v source off leakage, i s (off ) 0.05 na typ v s = 1 v/30 v, v d = 30 v/1 v 0.25 1 7 na max drain off leakage, i d (off ) 0. 1 na typ v s = 1 v/30 v, v d = 30 v/1 v 0. 4 4 30 na max channel on leakage, i d (on), i s (on) 0.1 na typ v s = v d = 1 v/30 v; see figure 26 0.4 4 30 na max digital inputs input high voltage, v inh 2.0 v min input low voltage, v inl 0.8 v max input current, i inl or i inh 0.002 a typ v in = v gnd or v dd 0.1 a max digital input capacitance, c in 6 pf typ dynamic characteristics 1 transition time, t trans ition 180 ns typ r l = 300 , c l = 35 pf 262 274 289 ns max v s = 18 v t on ( en ) 176 ns typ r l = 300 , c l = 35 pf 216 238 268 ns max v s = 18 v; see figure 34 t off ( en ) 98 ns typ r l = 300 , c l = 35 pf 123 127 129 ns max v s = 18 v; see figure 34 break - before - make time delay, t d 50 ns typ r l = 300 , c l = 35 pf 21 ns min v s1 = v s2 = 18 v; see figure 33
data sheet adg5433/adg5434 rev. c | page 7 of 24 parameter 25c ?40c to +85c ?40c to +125c unit test conditions/comments charge injection, q inj 150 pc typ v s = 18 v, r s = 0 , c l = 1 nf; see figure 35 off isolation ?60 db typ r l = 50 , c l = 5 pf, f = 1 m hz; see figure 29 channel -to - channel crosstalk ?60 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 28 total harmonic distortion + noise 0.4 % typ r l = 1 k , 18 v p - p, f = 20 hz to 20 khz; see figure 30 ?3 db bandwidth 135 mhz typ r l = 50 , c l = 5 pf; see figure 31 insertion loss ?1 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 31 c s (off ) 18 pf typ v s = 18 v, f = 1 mhz c d (off ) 28 pf typ v s = 18 v, f = 1 mhz c d (on), c s (on) 46 pf typ v s = 18 v, f = 1 mhz power requirements v dd = 39.6 v i dd 80 a typ digital inputs = 0 v or v dd 100 130 a max v dd 9 /40 v min/v max gnd = 0 v, v ss = 0 v 1 guaranteed by design; not subject to production test.
adg5433/adg5434 data sheet rev. c | page 8 of 24 continuous current p er channel, s x or d x table 5 . adg5433 parameter 25c 85c 125c unit continuous current, s x or d x v dd = +15 v, v ss = ?15 v tssop ( ja = 112.6c/w) 80 58 36 ma maximum lfcsp ( ja = 30.4 c/w) 147 103 70 ma maximum v dd = +20 v, v ss = ?20 v tssop ( ja = 112.6c/w) 85 63 39 ma maximum lfcsp ( ja = 30.4 c/w) 156 109 74 ma maximum v dd = 12 v, v ss = 0 v tssop ( ja = 112.6c/w) 63 45 28 ma maximum lfcsp ( ja = 30.4 c/w) 116 84 53 ma maximum v dd = 36 v, v ss = 0 v tssop ( ja = 112.6c/w) 83 60 37 ma maximum lfcsp ( ja = 30.4 c/w) 151 107 72 ma maximum table 6. adg5434 parameter 25c 85c 125c unit continuous current, s x or d x v dd = +15 v, v ss = ?15 v tssop ( ja = 112.6c/w) 70 51 31 ma maximum lfcsp ( ja = 30.4 c/w) 117 76 49 ma maximum v dd = +20 v, v ss = ?20 v tssop ( ja = 112.6c/w) 74 54 33 ma maximum lfcsp ( ja = 30.4 c/w) 123 79 50 ma maximum v dd = 12 v, v ss = 0 v tssop ( ja = 112.6c/w) 54 39 23 ma maximum lfcsp ( ja = 30.4 c/w) 94 64 44 ma maximum v dd = 36 v, v ss = 0 v tssop ( ja = 112.6c/w) 73 53 32 ma maximum lfcsp ( ja = 30.4 c/w) 120 78 50 ma maximum
data sheet adg5433/adg5434 rev. c | page 9 of 24 absolute maximum ratings t a = 25c, unless otherwise noted. table 7. parameter rating v dd to v ss 48 v v dd to gnd ?0.3 v to +48 v v ss to gnd +0.3 v to ?48 v analog inputs 1 v ss ? 0.3 v to v dd + 0.3 v or 30 ma, whichever occurs first digital inputs 1 v ss ? 0.3 v to v dd + 0.3 v or 30 ma, whichever occurs first peak current, sx or dx pins adg5433 280 ma (pulsed at 1 ms, 10% duty cycle maximum) adg5434 240 ma (pulsed at 1 ms, 10% duty cycle maximum) continuous current, sx or dx 2 data + 15% temperature range operating ?40c to +125c storage ?65c to +150c junction temperature 150c thermal impedance, ja 16-lead tssop (4-layer board) 112.6c/w 20-lead tssop (4-layer board) 143c/w 16-lead lfcsp (4-layer board) 30.4c/w reflow soldering peak temperature, pb free 260(+0/?5)c 1 overvoltages at the inx, sx, and dx pins are clamped by internal diodes. limit current to the maximum ratings given. 2 see table 5 and table 6. stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. only one absolute maximum rating can be applied at any one time. esd caution
adg5433/adg5434 data sheet rev. c | page 10 of 24 pin configurations and function descriptions figure 3. adg5433 tssop pin configuration figure 4. adg5433 lfcsp_wq pin configuration table 8. adg5433 pin function descriptions pin no. mnemonic description tssop lfcsp_wq 1 15 v dd most positive power supply potential. 2 16 s1a source terminal 1a. this pi n can be an input or an output. 3 1 d1 drain terminal 1. this pi n can be an input or an output. 4 2 s1b source terminal 1b. this pi n can be an input or an output. 5 3 s2b source terminal 2b. this pi n can be an input or an output. 6 4 d2 drain terminal 2. this pi n can be an input or an output. 7 5 s2a source terminal 2a. this pi n can be an input or an output. 8 6 in2 logic control input 2. 9 7 in3 logic control input 3. 10 8 s3a source terminal 3a. this pi n can be an input or an output. 11 9 d3 drain terminal 3. this pi n can be an input or an output. 12 10 s3b source terminal 3b. this pi n can be an input or an output. 13 11 v ss most negative power supply potential. in single-supply applications, this pin can be connected to ground. 14 12 en active low digital input. when high, the device is disabled and all switches are off. when low, inx logic inputs determine the on switches. 15 13 in1 logic control input 1. 16 14 gnd ground (0 v) reference. ep exposed pad the exposed pad is connected internally. for increa sed reliability of the solder joints and maximum thermal capability, it is recommended that the pad be soldered to the substrate, v ss . table 9. adg5433 truth table en inx sxa sxb 1 x off off 0 0 off on 0 1 on off 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 s1a d1 s1b s2a d2 s2b v dd in1 en v ss s3a in2 in3 d3 s3b gnd adg5433 top view (not to scale) 09207-003 1 d1 2 s1b 3 s2b 4 d2 11 v ss 12 en 10 s3b 9d3 5 s 2 a 6 i n 2 7 i n 3 8 s 3 a 1 5 v d d 1 6 s 1 a 1 4 g n d 1 3 i n 1 notes 1. exposed pad is tied to substrate, v ss . 0 9207-005 top view (not to scale) adg5433
data sheet adg5433/adg5434 rev. c | page 11 of 24 figure 5. adg5434 tssop pin configuration figure 6. adg5434 lfcsp_wq pin configuration table 10. adg5434 pin function descriptions pin no. mnemonic description tssop lfcsp_wq 1 19 in1 logic control input 1. 2 20 s1a source terminal 1a. this pi n can be an input or an output. 3 1 d1 drain terminal 1. this pi n can be an input or an output. 4 2 s1b source terminal 1b. this pi n can be an input or an output. 5 3 v ss most negative power supply potential. in single-supply applications, this pin can be connected to ground. 6 4 gnd ground (0 v) reference. 7 5 s2b source terminal 2b. this pi n can be an input or an output. 8 6 d2 drain terminal 2. this pi n can be an input or an output. 9 7 s2a source terminal 2a. this pi n can be an input or an output. 10 8 in2 logic control input 2. 11 9 in3 logic control input 3. 12 10 s3a source terminal 3a. this pi n can be an input or an output. 13 11 d3 drain terminal 3. this pi n can be an input or an output. 14 12 s3b source terminal 3b. this pi n can be an input or an output. 15 n/a nc no connect. 16 13 v dd most positive power supply potential. 17 14 s4b source terminal 4b. this pi n can be an input or an output. 18 15 d4 drain terminal 4. this pi n can be an input or an output. 19 16 s4a source terminal 4a. this pi n can be an input or an output. 20 17 in4 logic control input 4. n/a 18 en active low digital input. when high, the device is disabled and all switches are off. when low, inx logic inputs determine the on switches. n/a ep exposed pad the exposed pad is connected internally. for increa sed reliability of the solder joints and maximum thermal capability, it is recommended that the pad be soldered to the substrate, v ss . table 11. adg5434 truth table inx sxa sxb 0 off on 1 on off 1 2 3 4 5 6 8 20 19 18 17 16 15 13 s1a d1 s1b 7 s2b gnd v ss in1 s4a d4 s4b 14 s3b 9 s2a 12 s3a 10 in2 11 in3 d2 d3 nc v dd in4 adg5434 top view (not to scale) nc = no connect 09207-004 d1 s1b v ss gnd s2b v dd s4b d4 s3b d3 d 2 s 2 a i n 2 s 3 a i n 3 e n i n 1 s 1 a i n 4 s 4 a 09207-006 14 13 12 1 3 4 15 11 2 5 7 6 8 9 1 0 1 9 2 0 1 8 1 7 1 6 adg5434 top view (not to scale) notes 1. the exposed pad is connected internally. for increased reliability of the solder joints and maximum thermal capability, it is recommended that the pad be soldered to the substrate, v ss .
adg5433/adg5434 data sheet rev. c | page 12 of 24 typical performance characteristics figure 7 . on resistance as a function of v s , v d ( dual supply ) figure 8 . on resistance as a function of v s , v d ( dual supply ) figure 9 . on resistance as a function of v s , v d (single supply ) figure 10 . on resistance as a function of v s , v d (single supply) figure 11 . on resistance as a function of v s (v d ) for different temperatures, 15 v dual supply figure 12 . on resistance as a function of v s (v d ) for different temperatures, 20 v dual supply 0 5 10 15 20 25 ?18 ?14 ?10 ?6 ?2 2 6 10 14 18 on resis t ance () v s , v d (v) t a = 25c v dd = +9v v ss = ?9v v dd = +10v v ss = ?10v v dd = +11v v ss = ?11v v dd = +13.5v v ss = ?13.5v v dd = +15v v ss = ?15v v dd = +16.5v v ss = ?16.5v 09207-047 0 2 4 6 8 10 12 14 16 ?25 ?20 ?15 ?10 ?5 0 5 10 15 20 25 on resis t ance () v s , v d (v) t a = 25c v dd = +22v v ss = ?22v v dd = +20v v ss = ?20v v dd = +18v v ss = ?18v 09207-048 0 5 10 15 20 25 30 35 0 2 4 6 8 10 12 14 on resis t ance () v s , v d (v) t a = 25c v dd = 9v v ss = 0v v dd = 10v v ss = 0v v dd = 10.8v v ss = 0v v dd = 11v v ss = 0v v dd = 12v v ss = 0v v dd = 13.2v v ss = 0v 09207-044 0 2 4 6 8 10 12 14 16 0 5 10 15 20 25 30 35 40 45 on resis t ance () v s , v d (v) t a = 25c v dd = 39.6v v ss = 0v v dd = 36v v ss = 0v v dd = 32.4v v ss = 0v 09207-046 0 5 10 15 20 25 ?15 ?10 ?5 0 5 10 15 on resis t ance () v s , v d (v) v dd = +15v v ss = ?15v t a = +125c t a = +85c t a = +25c t a = ?40c 09207-049 0 5 10 15 20 25 ?20 ?15 ?10 ?5 0 5 10 15 20 on resis t ance () t a = +125c t a = +85c t a = +25c t a = ?40c v s , v d (v) v dd = +20v v ss = ?20v 09207-045
data sheet adg5433/adg5434 rev. c | page 13 of 24 figure 13 . on resistance as a function of v s (v d ) for different temperatures, 12 v single supply figure 14 . on resistance as a function of v s (v d ) for different temperatures, 36 v single supply figure 15 . leakage currents as a function of temperature, 15 v dual supply figure 16 . leakage currents as a function of temperature, 20 v dual supply figure 17 . leakage currents as a function of temperature, 12 v single supply figure 18 . leakage currents as a function of temperature, 36 v single supply 0 5 10 15 20 25 30 35 40 0 2 4 6 8 10 12 v s , v d (v) on resis t ance () t a = +125c t a = +85c t a = +25c t a = ?40c v dd = 12v v ss = 0v 09207-050 0 5 10 15 20 25 0 5 10 15 20 25 30 35 40 on resis t ance () t a = +125c t a = +85c t a = +25c t a = ?40c v s , v d (v) v dd = 36v v ss = 0v 09207-051 0 25 50 75 100 125 leakage current (na) temper a ture (c) 0.6 0.4 ?0.2 0 ?0.4 0.2 v dd = +15v v ss = ?15v v bias = +10v/?10v i d , i s (on) + + i d , i s (on) ? ? i s (off) + ? i d (off) ? + i d (off) + ? i s (off) ? + 09207-041 0 25 50 75 100 125 leakage current (na) temper a ture (c) 0.4 0.2 ?0.2 0 ?0.4 ?0.6 v dd = +20v v ss = ?20v v bias = +15v/?15v i d , i s (on) + + i s (off) + ? i d (off) + ? i s (off) ? + i d , i s (on) ? ? i d (off) ? + 09207-042 0 25 50 75 100 125 leakage current (na) temper a tur e (c) 0.4 0.3 ?0.2 0 ?0.1 0.2 0.1 v dd = 12v v ss = 0v v bias = 1v/10v i d , i s (on) + + i d , i s (on) ? ? i s (off) + ? i d (off) ? + i d (off) + ? i s (off) ? + 09207-040 leakage current (na) temper a tur e (c) 0 25 50 75 100 125 0.4 0.2 ?0.2 0 ?0.4 ?0.6 v dd = 36v v ss = 0v v bias = 1v/30v i d , i s (on) + + i s (off) + ? i d (off) + ? i s (off) ? + i d , i s (on) ? ? i d (off) ? + 09207-043
adg5433/adg5434 data sheet rev. c | page 14 of 24 figure 19 . off isolation vs. frequency figure 20 . crosstalk vs. frequency figure 21 . charge injection vs. source voltage figure 22 . acpsrr vs. frequency figure 23 . thd + n vs. frequency figure 24 . bandwidth 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?100 1k 10k 100k 1m 10m 100m 1g off isolation (db) frequency (hz) 09207-036 t a = 25c v dd = +15v v ss = ?15v 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?100 10k 100k 1m 10m 100m 1g crosstalk (db) frequency (hz) 09207-039 t a = 25c v dd = +15v v ss = ?15v 350 0 ?20 40 charge injection (pc) v s (v) 09207-033 50 100 150 200 250 300 10 0 10 20 30 t a = 25c v dd = +20v v ss = ?20v v dd = +15v v ss = ?15v v dd = +36v v ss = 0v v dd = +12v v ss = 0v 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 ?100 1k 10k 100k 1m 10m acpsrr (db) frequency (hz) 09207-037 no decoupling capacitors decoupling capacitors t a = 25c v dd = +15v v ss = ?15v 0.12 0.10 0.08 0.06 0.04 0.02 0 0 20k 15k 10k 5k thd + n (%) frequency (hz) 09207-038 load = 1k? t a = 25c v dd = 12v, v ss = 0v, v s = 6v p-p v dd = 36v, v ss = 0v, v s = 18v p-p v dd = 15v, v ss = 15v, v s = 15v p-p v dd = 20v, v ss = 20v, v s = 20v p-p 0 ?0.5 ?1.0 ?1.5 ?2.0 ?2.5 ?3.0 ?3.5 ?4.0 ?4.5 ?5.0 1k 10k 100k 1m 10m 100m 1g insertion loss (db) frequency (hz) 09207-035 t a = 25c v dd = +15v v ss = ?15v
data sheet adg5433/adg5434 rev. c | page 15 of 24 figure 25 . t transition times vs. temperature 350 0 ?40 120 time (ns) temperature (c) 09207-034 50 100 150 200 250 300 ?20 0 20 40 60 80 100 v dd = +12v, v ss = 0v v dd = +36v, v ss = 0v v dd = +15v, v ss = ?15v v dd = +20v, v ss = ?20v
adg5433/adg5434 data sheet rev. c | page 16 of 24 test circuits figure 26. on and off leakage figure 27. on resistance figure 28. channel-to-channel crosstalk figure 29. off isolation figure 30. thd + noise figure 31. bandwidth 0 9206-023 s1 d v nc s v d i s (off) s2 i d (on) a a 09207-021 i ds sd v s v r on = v/i ds channel-to-channel crosstalk = 20 log v out gnd sxa dx sxb v out network analyzer r l 50 ? r 50 ? v s v s v dd v ss 0.1f v dd 0.1f v ss inx 09207-030 v out 50? network analyzer r l 50 ? in v in sxa d x v s v dd v ss 0.1f v dd 0.1f v ss gnd 50 ? nc sxb off isolation = 20 log v out v s 0 9207-028 v out r s audio precision r l 1k? inx v in sx dx v s v p-p v dd v ss 0.1f v dd 0.1f v ss gnd 09207-031 v out 50? network analyzer r l 50 ? inx v in sxa d x v s v dd v ss 0.1f v dd 0.1f v ss gnd 50? nc sxb insertion loss = 20 log v out with switch v out without switch 09207-029
data sheet adg5433/adg5434 rev. c | page 17 of 24 figure 32. switching timing figure 33. break-before-make delay, t d figure 34. enable delay, t on ( en ), t off ( en ) figure 35. charge injection inx v out dx sxa v dd v ss v dd v ss gnd c l 35pf sxb v in v s 0.1f 0.1f r l 300 ? 50% 50% 90% 50% 50% 90% t on t off v in v out v in 09207-024 inx v out dx sxa v dd v ss v dd v ss gnd c l 35pf sxb v in v s r l 300 ? 80% t d t d v out v in 09207-025 0.1f 0.1f en in2 v dd v ss v dd v ss gnd adg5433 in1 s1b s1a v in 0.1f 0.1f in3 v s v out d1 c l 35pf 50% 0.9v out 0.9v out t on (en) 50% v out 0v 0v enable drive (v in ) output 3v t off (en) r l 300? 50? 09207-026 v in (normally closed switch) v out v in (normally open switch) off ? v out on q inj =c l ? v out inx v out nc sxa v dd v ss v dd v ss gnd c l 1nf dx v in v s 0.1f 0.1f sxb 09207-027
adg5433/adg5434 data sheet rev. c | page 18 of 24 terminology i dd i dd represents the p ositive supply current. i ss i ss represents the n egative supply current. v d , v s v d and v s represent t he a nalog voltage on terminal d and terminal s , respectively . r on r on is the o hmic resistance between terminal d and terminal s. ? r on ? r on represents t he d ifference between the r on of any two channels . r fl at (on) the difference between the maximum and minimum value of on resistance as measured over the specified analog signal range is represented by r flat (on) . i s (off) i s (off) is the source leakage current with the switch off. i d (off) i d (off) is the drain leakage current with the switch off. i d (on), i s (on) i d (on) and i s (on) represent the channel leakage currents with the switch on. v inl v inl is the maximum input voltage for logic 0. v inh v inh is the minimum input voltage for logic 1. i inl , i inh i inl and i inh represent the low and high input currents of the digital inputs. c d (off) c d (off) represents the off switch drain capacitance, which is measured with reference to ground. c s (off) c s (off) represents the off switch source capacitance, which is measur ed with reference to ground. c d (on), c s (on) c d (on) and c s (on) represent on switch capacitances, which are measured with reference to ground. c in c in represents digital input capacitance. t on ( en ) t on ( en ) represe nts the d elay time between the 50% and 90% points of the digital input and switch on condition. t off ( en ) t off ( en ) represents the d elay time between the 50% and 90% points of the digital input and switch off condition. t trans ition delay time between the 50% and 90% points of the digital inputs and the switch on condition when switching from one address state to another. t d t d repre sents the o ff time measured between the 80% point of both sw itches when switching from one address state to another. off isolation off isolation is a measure of unwanted signal coupling through an off channel. charge injection charge injection is a measu re of the glitch impulse transferred from the digital input to the analog output during switching. crosstalk crosstalk is a measure of unwanted signal that is coupled through from one channel to another as a result of parasitic capacitance. bandwidth bandwidth is t he frequency at which the output is attenuated by 3 db. on response on response is t he frequency response of the on switch. t otal h armonic d istortion + n oise (thd + n) the ratio of the harmonic amplitude plus noise of the signal to the fundamental is represented by thd + n . ac power supply rejection ratio (acpsrr) acpsrr is a measure of the ability of a part to avoid coupling noise and spurious signals that ap pear on the supply voltage pin to the output of the switch. the dc voltage on t he device is modulated by a sine wave of 0.62 v p - p. the ratio of the amplitude of signal on the output to the amplitude of the modulation is the acpsr r.
data sheet adg5433/adg5434 rev. c | page 19 of 24 trench isolation in the adg54 33/adg5434, an i nsulating oxide layer (trench) is placed between the nmos and the pmos transistors of each cmos switch. parasitic junctions, which occur between the transistors in junction isolated switches, are eliminated, and the result is a completely latch - up proof sw itch. in junction isolation, the n and p wells of the pmos and nmos transistors form a diode that is reverse - biased under normal operation. however, during overvoltage conditions, this diode can become forward - biased. a silicon controlled rectifier (scr) type circuit is formed by the two transistors causing a significant amplification of the current that , in turn, leads to latch - up. with trench isolation, this diode is removed, and the result is a latch - up proof switch. figure 36 . trench isolation 09207-032 nmos pmos p- w e l l n - w e l l buried oxide layer handle wafer t r e n c h
adg5433/adg5434 data sheet rev. c | page 20 of 24 applications informa tion the adg54xx family of switches and multiplexers provide a robust solution for instrumentation, i ndustrial, aero space and other harsh environments that are prone to latch - up, which is an undesirable high current state that can lead to device failure and persist s until t he power supply is turned off. the adg5433/adg5434 high voltage switches allow single - supply operation from 9 v to 40 v and dual supply operation from 9 v to 22 v. the adg54 3 3 / adg5434 (as well as other select devices within this family ) achieve 8 kv human body model esd rating s, which provide a robust solution eliminating the need for separate protect circuitry designs in some applications.
data sheet adg5433/adg5434 rev. c | page 21 of 24 outline dimensions figure 37. 16-lead thin shrink small outline package [tssop] (ru-16) dimensions shown in millimeters figure 38. 16-lead lead frame chip scale package [lfcsp_wq] 4 mm 4 mm body, very very thin quad (cp-16-17) dimensions shown in millimeters 16 9 8 1 pin 1 seating plane 8 0 4.50 4.40 4.30 6.40 bsc 5.10 5.00 4.90 0.65 bsc 0.15 0.05 1.20 max 0.20 0.09 0.75 0.60 0.45 0.30 0.19 coplanarity 0.10 compliant to jedec standards mo-153-ab 2.70 2.60 sq 2.50 compliant to jedec standards mo-220-wggc. 1 0.65 bsc bottom view top view 16 5 8 9 12 13 4 exposed pad p i n 1 i n d i c a t o r 4.10 4.00 sq 3.90 0.45 0.40 0.35 s eating plane 0.80 0.75 0.70 0.05 max 0.02 nom 0.20 ref 0.20 min coplanarity 0.08 pin 1 indicator 0.35 0.30 0.25 for proper connection of the exposed pad, refer to the pin configuration and function descriptions section of this data sheet. 08-16-2010-c
adg5433/adg5434 data sheet rev. c | page 22 of 24 figure 39. 20-lead thin shrink small outline package [tssop] (ru-20) dimensions shown in millimeters figure 40. 20-lead lead frame chip scale package [lfcsp_wq] 4 mm 4 mm body, very very thin quad (cp-20-8) dimensions shown in millimeters ordering guide model 1 temperature range description en pin package option adg5433bruz ?40c to +125c 16-lead thin shri nk small outline package [tssop] yes ru-16 adg5433bruz-reel7 ?40c to +125c 16-lead thin shrink small outline package [tssop] yes ru-16 adg5433bcpz-reel7 ?40c to +125c 16-lead lead frame chip scale package [lfcsp_wq] yes cp-16-17 adg5434bruz ?40c to +125c 20-lead thin shri nk small outline package [tssop] no ru-20 adg5434bruz-reel7 ?40c to +125c 20-lead thin sh rink small outline package [tssop] no ru-20 ADG5434BCPZ-REEL7 ?40c to +125c 20-lead lead frame chip scale package [lfcsp_wq] yes cp-20-8 1 z = rohs compliant part. compliant to jedec standards mo-153-ac 20 1 11 10 6.40 bsc 4.50 4.40 4.30 pin 1 6.60 6.50 6.40 seating plane 0.15 0.05 0.30 0.19 0.65 bsc 1.20 max 0.20 0.09 0.75 0.60 0.45 8 0 coplanarit y 0.10 0.50 bsc 0.50 0.40 0.30 0.30 0.25 0.18 compliant to jedec standards mo-220-wggd. 020509-b bottom view top view exposed pad p i n 1 i n d i c a t o r 4.10 4.00 sq 3.90 seating plane 0.80 0.75 0.70 0.05 max 0.02 nom 0.20 ref 0.25 min coplanarity 0.08 pin 1 indicator 2.75 2.60 sq 2.35 for proper connection of the exposed pad, refer to the pin configuration and function descriptions section of this data sheet. 1 20 6 10 11 15 16 5
data sheet adg5433/adg5434 rev. c | page 23 of 24 notes
adg5433/adg5434 data sheet rev. c | page 24 of 24 notes ?2010C2013 analog devices, inc. all ri ghts reserved. trademarks and registered trademarks are the prop erty of their respective owners. d09207-0-6/13(c)

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