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lc 2 mos 5 r on spst switches adg451/adg452/adg453 rev. c information furnished by analog devices is believed to be accurate and reliable. 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 implication 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 www.analog.com fax: 781.461.3113 ?2006 analog devices, inc. all rights reserved. features low on resistance (4 ) on resistance flatness (0.2 ) 44 v supply maximum ratings 15 v analog signal range fully specified at 5 v, 12 v, 15 v ultralow power dissipation (18 w) esd 2 kv continuous current (100 ma) fast switching times t on 70 ns t off 60 ns ttl-/cmos-compatible pin-compatible upgrade for adg411/adg412/adg413 and adg431/adg432/adg433 applications relay replacement audio and video switching automatic test equipment precision data acquisition battery-powered systems sample-and-hold systems communication systems pbx, pabx systems avionics general description the adg451/adg452/adg453 are monolithic cmos devices comprising four independently selectable switches. they are designed on an enhanced lc 2 mos process that provides low power dissipation yet gives high switching speed and low on resistance. the on resistance profile is very flat over the full analog input range, ensuring excellent linearity and low distortion when switching audio signals. fast switching speed, coupled with high signal bandwidth, makes the parts suitable for video signal switching. cmos construction ensures ultralow power dissipa- tion, making the parts ideally suited for portable and battery- powered instruments. the adg451/adg452/adg453 contain four independent, single-pole/single-throw (spst) switches. the adg451 and adg452 differ only in that the digital control logic is inverted. the adg451 switches are turned on with a logic low on the appropriate control input, while a logic high is required for the adg452. functional block diagrams in1 s1 d1 in2 s2 d2 in3 s3 d3 in4 s4 d4 adg451 s witches shown for a logic 1 input. 05239-001 figure 1. adg451 in1 s1 d1 in2 s2 d2 in3 s3 d3 in4 s4 d4 adg452 switches shown for a logic 1 input. 05239-101 figure 2. adg452 in1 s1 d1 in2 s2 d2 in3 s3 d3 in4 s4 d4 adg453 switches shown for a logic 1 input. 05239-102 figure 3. adg453 the adg453 has two switches with digital control logic similar to that of the adg451, while the logic is inverted on the other two switches. each switch conducts equally well in both directions when on, and each has an input signal range that extends to the supplies. in the off condition, signal levels up to the supplies are blocked. the adg453 exhibits break-before-make switching action for use in multiplexer applications. inherent in the design is low charge injection for minimum transients when switching the digital inputs.
adg451/adg452/adg453 rev. c | page 2 of 16 table of contents features .............................................................................................. 1 applications....................................................................................... 1 general description ......................................................................... 1 functional block diagrams............................................................. 1 revision history ............................................................................... 2 product highlights ........................................................................... 3 specifications..................................................................................... 4 15 v dual supply.......................................................................... 4 12 v single supply........................................................................ 5 5 v dual supply............................................................................ 6 absolute maximum ratings ............................................................7 esd caution...................................................................................7 pin configuration and function descriptions..............................8 typical performance characteristics ..............................................9 terminology .................................................................................... 11 applications..................................................................................... 12 test circuits..................................................................................... 13 outline dimensions ....................................................................... 15 ordering guide .......................................................................... 16 revision history 10 /06rev. b to rev. c changes to table 4............................................................................ 9 changes to ordering guide .......................................................... 18 12/04rev. a to rev. b updated format..................................................................universal changes to specifications section.................................................. 3 changes to absolute maximum ratings section......................... 8 changes to pin configuration and function descriptions section ........................................................................ 9 updated outline dimensions ....................................................... 16 changes to ordering guide .......................................................... 17 2/98rev. 0 to rev. a 10/97revision 0: initial version
adg451/adg452/adg453 rev. c | page 3 of 16 product highlights 1. low r on (5 maximum). 2. ultralow power dissipation. 3. extended signal range. the adg451/adg452/adg453 are fabricated on an enhanced lc 2 mos process, giving an increased signal range that fully extends to the supply rails. 4. break-before-make switching. this prevents channel shorting when the switches are configured as a multiplexer (adg453 only.) 5. single-supply operation. for applications in which the analog signal is unipolar, the adg451/adg452/adg453 can be operated from a single rail power supply. the parts are fully specified with a single 12 v power supply and remain functional with single supplies as low as 5.0 v. 6. dual-supply operation. for applications where the analog signal is bipolar, the adg451/adg452/adg453 can be operated from a dual power supply ranging from 4.5 v to 20 v.
adg451/adg452/adg453 rev. c | page 4 of 16 specifications 15 v dual supply v dd = 15 v, v ss = ?15 v, v l = 5 v, gnd = 0 v. all specifications t min to t max , unless otherwise noted. table 1. b version 1 parameter 25c t min to t max unit test conditions/comments analog switch analog signal range v ss to v dd v on resistance (r on ) 4 typ v d = ?10 v to +10 v, i s = ?10 ma 5 7 max on resistance match between channels (r on ) 0.1 typ v d = 10 v, i s = ?10 ma 0.5 0.5 max on resistance flatness (r flat(on) ) 0.2 typ v d = ?5 v, 0 v, +5 v, i s = ?10 ma 0.5 0.5 max leakage currents 2 source off leakage, i s (off) 0.02 na typ v d = 10 v, v s = 10 v; see figure 17 0.5 2.5 na max drain off leakage, i d (off) 0.02 na typ v d = 10 v, v s = 10 v; see figure 17 0.5 2.5 na max channel on leakage, i d , i s (on) 0.04 na typ v d = v s = 10 v; see figure 18 1 5 na max digital inputs input high voltage, v inh 2.4 v min input low voltage, v inl 0.8 v max input current, i inl or i inh 0.005 a typ v in = v inl or v inh ; all others = 2.4 v or 0.8 v, respectively 0.5 a max dynamic characteristics 3 t on 70 ns typ r l = 300 , c l = 35 pf, v s = 10 v; see figure 19 180 220 ns max t off 60 ns typ r l = 300 , c l = 35 pf, v s = 10 v; see figure 19 140 180 ns max break-before-make time delay, t d (adg453 only) 15 ns typ r l = 300 , c l = 35 pf, v s1 = v s2 = +10 v; see figure 20 5 5 ns min charge injection 20 pc typ v s = 0 v, r s = 0 , c l = 1.0 nf; see figure 21 30 pc max off isolation 65 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 22 channel-to-channel crosstalk ?90 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 23 c s (off) 37 pf typ f = 1 mhz c d (off) 37 pf typ f = 1 mhz c d , c s (on) 140 pf typ f = 1 mhz power requirements v dd = 16.5 v, v ss = ?16.5 v; digital inputs = 0 v or 5 v i dd 0.0001 a typ 0.5 5 a max i ss 0.0001 a typ 0.5 5 a max i l 0.0001 a typ 0.5 5 a max i gnd 3 0.0001 a typ 0.5 5 a max 1 temperature range for b ve rsion is ?40c to +85c. 2 t max = 70c. 3 guaranteed by design, not subject to production test.
adg451/adg452/adg453 rev. c | page 5 of 16 12 v single supply v dd = 12 v, v ss = 0 v, v l = 5 v, gnd = 0 v. all specifications t min to t max , unless otherwise noted. table 2. b version 1 parameter 25c t min to t max unit test conditions/comments analog switch analog signal range 0 v to v dd v on resistance (r on ) 6 typ v d = 0 v to +10 v, i s = ?10 ma 8 10 max on resistance match between channels (r on ) 0.1 typ v d = 10 v, i s = ?10 ma 0.5 0.5 max on resistance flatness (r flat(on) ) 1.0 1.0 typ v d = 0 v, 5 v, i s = ?10 ma leakage currents 2 , 3 source off leakage, i s (off) 0.02 na typ v d = 0 v, 10 v, v s = 0 v, 10 v; see figure 17 0.5 2.5 na max drain off leakage, i d (off) 0.02 na typ v d = 0 v, 10 v, v s = 0 v, 10 v; see figure 17 0.5 2.5 na max channel on leakage, i d , i s (on) 0.04 na typ v d = v s = 0 v, 10 v; see figure 18 1 5 na max digital inputs input high voltage, v inh 2.4 v min input low voltage, v inl 0.8 v max input current, i inl or i inh 0.005 a typ v in = v inl or v inh 0.5 a max dynamic characteristics 4 t on 100 ns typ r l = 300 , c l = 35 pf, v s = 8 v; see figure 19 220 260 ns max t off 80 ns typ r l = 300 , c l = 35 pf, v s = 8 v; see figure 19 160 200 ns max break-before-make time delay, t d (adg453 only) 15 ns typ r l = 300 , c l = 35 pf, v s1 = v s2 = 8 v; see figure 20 10 10 ns min charge injection 10 pc typ v s = 6 v, r s = 0 , c l = 1.0 nf; see figure 21 channel-to-channel crosstalk ?90 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 23 c s (off) 60 pf typ f = 1 mhz c d (off) 60 pf typ f = 1 mhz c d , c s (on) 100 pf typ f = 1 mhz power requirements v dd = 13.2 v; digital inputs = 0 v or 5 v i dd 0.0001 a typ 0.5 5 a max i l 0.0001 a typ 0.5 5 a max v l = 5.5 v i gnd 4 0.0001 a typ 0.5 5 a max v l = 5.5 v 1 temperature range for b ve rsion is ?40c to +85c. 2 t max = 70c. 3 tested with dual supplies. 4 guaranteed by design, not subject to production test.
adg451/adg452/adg453 rev. c | page 6 of 16 5 v dual supply v dd = +5 v, v ss = ?5 v, v l = +5 v, gnd = 0 v. all specifications t min to t max , unless otherwise noted. table 3. b version 1 parameter 25c t min to t max unit test conditions/comments analog switch analog signal range v ss to v dd v on resistance (r on ) 7 typ v d = ?3.5 v to +3.5 v, i s = ?10 ma 12 15 max on resistance match between channels (r on ) 0.3 typ v d = 3.5 v, i s = ?10 ma 0.5 0.5 max leakage currents 2 , 3 source off leakage, i s (off) 0.02 na typ v d = 4.5, v s = 4.5; see figure 17 0.5 2.5 na max drain off leakage, i d (off) 0.02 na typ v d = 0 v, 5 v, v s = 0 v, 5 v; see figure 17 0.5 2.5 na max channel on leakage, i d , i s (on) 0.04 na typ v d = v s = 0 v, 5 v; see figure 18 1 5 na max digital inputs input high voltage, v inh 2.4 v min input low voltage, v inl 0.8 v max input current, i inl or i inh 0.005 a typ v in = v inl or v inh 0.5 a max dynamic characteristics 4 t on 160 ns typ r l = 300 , c l = 35 pf, v s = 3 v; see figure 19 220 300 ns max t off 60 ns typ r l = 300 , c l = 35 pf, v s = 3 v; see figure 19 140 180 ns max break-before-make time delay, t d (adg453 only) 50 ns typ r l = 300 , c l = 35 pf, v s1 = v s2 = 3 v; see figure 20 5 5 ns min charge injection 10 pc typ v s = 0 v, r s = 0 , c l = 1.0 nf; see figure 21 off isolation 65 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 22 channel-to-channel crosstalk ?76 db typ r l = 50 , c l = 5 pf, f = 1 mhz; see figure 23 c s (off) 48 pf typ f = 1 mhz c d (off) 48 pf typ f = 1 mhz c d , c s (on) 148 pf typ f = 1 mhz power requirements v dd = 5.5 v; digital inputs = 0 v or 5 v i dd 0.0001 a typ 0.5 5 a max i ss 0.0001 a typ 0.5 5 a max i l 0.0001 a typ 0.5 5 a max v l = 5.5 v i gnd 4 0.0001 a typ 0.5 5 a max v l = 5.5 v 1 temperature range for b ve rsion is ?40c to +85c. 2 t max = 70c. 3 tested with dual supplies. 4 guaranteed by design, not subject to production test.
adg451/adg452/adg453 rev. c | page 7 of 16 absolute maximum ratings t a = 25c, unless otherwise noted. table 4. parameters ratings v dd to v ss 44 v v dd to gnd ?0.3 v to +32 v v ss to gnd +0.3 v to ?32 v v l to gnd ?0.3 v to v dd + 0.3 v analog, digital inputs 1 v ss ? 2 v to v dd + 2 v or 30 ma, whichever occurs first continuous current, s or d 100 ma peak current, s or d (pulsed at 1 ms, 10% duty cycle maximum) 300 ma operating temperature range industrial (b version) ?40c to +85c storage temperature range ?65c to +150c junction temperature 150c plastic dip package, power dissipation 470 mw ja thermal impedance 117c/w lead temperature, soldering (10 sec) 260c soic package, power dissipation 600 mw ja thermal impedance 77c/w tssop package, power dissipation 450 mw ja thermal impedance 115c/w jc thermal impedance 35c/w lead temperature, soldering vapor phase (60 sec) 215c infrared (15 sec) 220c esd 2 kv 1 overvoltages at in, s, or d are clamped by internal diodes. current should be limited to the maximum ratings given. 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 listed in the operational sections of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. only one absolute maximum rating may be applied at any one time. esd caution
adg451/adg452/adg453 rev. c | page 8 of 16 pin configuration and fu nction descriptions in1 1 d1 2 s1 3 v ss 4 in2 16 d2 15 s2 14 v dd 13 gnd 5 v l 12 s4 6 s3 11 d4 7 d3 10 in4 8 in3 9 adg451/ adg452/ adg453 top view (not to scale) 05239-002 figure 4. pin configuration table 5. pin function descriptions pin no. mnemonic description 1 in1 logic control input. 2 d1 drain terminal. can be an input or an output. 3 s1 source terminal. can be an input or an output. 4 v ss most negative power supply potential in dual supplies. in single-supply applications, it can be connected to gnd. 5 gnd ground (0 v) reference. 6 s4 source terminal. can be an input or an output. 7 d4 drain terminal. can be an input or an output. 8 in4 logic control input. 9 in3 logic control input. 10 d3 drain terminal. can be an input or an output. 11 s3 source terminal. can be an input or an output. 12 v l logic power supply (5 v). 13 v dd most positive power supply potential. 14 s2 source terminal. can be an input or an output. 15 d2 drain terminal. can be an input or an output. 16 in2 logic control input. table 6. truth table (adg451/adg452) adg451 in adg452 in switch condition 0 1 on 1 0 off table 7. truth table (adg453) logic switch 1, switch 4 switch 2, switch 3 0 off on 1 on off
adg451/adg452/adg453 rev. c | page 9 of 16 typical performance characteristics 05239-003 v d or v s drain or source voltage (v) 16.5 ?16.5 ?13.5 ?10.5 ?7.5 ?4.5 ?1.5 1.5 4.5 7.5 10.5 13.5 r on ( ? ) 9 8 7 6 5 4 3 0 2 1 t a = 25c v l =5v v dd =+13.5v v ss = ?13.5v v dd =+16.5v v ss = ?16.5v v dd =+15v v ss = ?15v v dd =+5v v ss = ?5v figure 5. on resistance as a function of v d (v s ) for various dual supplies 05239-004 v d or v s drain or source voltage (v) 15 ?15 ?10 ?5 0 10 5 r on ( ? ) 7 4 5 6 3 1 2 0 +85c v dd = +15v v ss = ?15v v l =+5v +25c ?40c figure 6. on resistance as a function of v d (v s ) for different temperatures with dual supplies 05239-005 v d or v s drain or source voltage (v) 18 03691215 r on ( ? ) 16 14 12 10 8 6 4 2 0 t a =25c v l =5v v dd =5v v ss =0v v dd = 13.5v v ss =0v v dd =15v v ss =0v v dd = 16.5v v ss =0v figure 7. on resistance as a function of v d (v s ) for various single supplies 05239-006 temperature (c) 85 25 35 45 55 75 65 leakage current (na) 10 1 0.1 0.01 i s (off) i d (off) i d (on) v dd = +15v v ss = ?15v v l =+5v v d = +15v v s = ?15v figure 8. leakage currents as a function of temperature 05239-007 frequency (hz) 10m 10 100 1k 10k 100k 1m i supply (a) 100k 10k 100 1 1k 10 0.1 0.01 i l 1sw i + ,i + 4sw v dd =+15v v ss = ?15v v l =+5v figure 9 . supply current vs. input switching frequency 05239-008 v d or v s drain or source voltage (v) 16 02468101214 r on ( ? ) 12 9 10 11 6 7 8 1 2 3 4 5 0 ?40c +25c +85c v dd = 15v v ss =0v v l =5v figure 10. on resistance as a function of v d (v s ) for different temperatures with single supplies
adg451/adg452/adg453 rev. c | page 10 of 16 05239-009 v d or v s drain or source voltage (v) 15 ?15 ?12 ?9 ?6 ?3 0 3 6 9 12 leakage current (na) 0.5 0.4 0.3 0.2 0.1 0 ?0.1 ?0.2 ?0.3 ?0.4 ?0.5 i d (on) i d (off) i s (off) v dd = +15v v ss = ?15v t a =+25c v l =+5v figure 11. leakage currents as a function of v d (v s ) 05239-010 frequency (mhz) 100 11 0 off isolation (db) 70 60 50 40 30 0 20 10 v dd = +15v v ss =?15v v l =+5v figure 12. off isolation vs. frequency 05239-011 frequency (hz) 100m 100 1k 10k 100k 10m 1m crosstalk (db) 120 100 80 60 40 20 0 v dd = +15v v ss =?15v v l =+5v r load =50 ? figure 13. crosstalk vs. frequency 05239-012 frequency (mhz) 200 1 10 100 loss (db) 0 ?0.5 ?1.0 ?1.5 ?2.0 ?2.5 ?3.0 ?3.5 v dd = +15v v ss = ?15v v l =+5v figure 14. frequency response with switch on
adg451/adg452/adg453 rev. c | page 11 of 16 terminology r on ohmic resistance between d and s. r on on resistance match between any two channels, that is, r on maximum minus r on minimum. r flat(on) flatness is defined as the difference between the maximum and minimum value of on resistance, as measured over the specified analog signal range. i s (off) source leakage current with the switch off. i d (off) drain leakage current with the switch off. i d , i s (on) channel leakage current with the switch on. v d (v s ) analog voltage on terminal d and terminal s. c s (off) off switch source capacitance. c d (off) off switch drain capacitance. c d (on), c s (on) on switch capacitance. t on delay between applying the digital control input and the output switching on. see figure 19 . t off delay between applying the digital control input and the output switching off. t d off time or on time measured between the 90% points of both switches, when switching from one address state to another. see figure 20 . crosstalk a measure of unwanted signal coupled through from one channel to another as a result of parasitic capacitance. off isolation a measure of unwanted signal coupling through an off switch. charge injection a measure of the glitch impulse transferred from the digital input to the analog output during switching.
adg451/adg452/adg453 rev. c | page 12 of 16 applications figure 15 illustrates a precise, fast, sample-and-hold circuit. an ad845 is used as the input buffer, and the output operational amplifier is an ad711 . during track mode, sw1 is closed, and the output, v out , follows the input signal, v in . in hold mode, sw1 is opened, and the signal is held by the hold capacitor, c h . sd v out sd ?15v +15v +5v c c 1000pf 2200pf r c 75? 12 13 4 5 sw1 adg451/ adg452/ adg453 ?15v +15v v in ad845 ?15v +15v ad711 sw2 ch 2200pf 05239-013 figure 15. fast, accurate sample-and-hold circuit due to switch and capacitor leakage, the voltage on the hold capacitor decreases with time. the adg451/adg452/adg453 minimize this droop due to their low leakage specifications. the droop rate is further minimized by the use of a polystyrene hold capacitor. the droop rate for the circuit shown is typically 30 v/s. a second switch, sw2, which operates in parallel with sw1, is included in this circuit to reduce pedestal error. because both switches are at the same potential, they have a differential effect on the op amp, ad711 , which minimizes charge injection effects. pedestal error is also reduced by the compensation network, r c and c c . this compensation network reduces the hold time glitch while optimizing the acquisition time. using the illustrated op amps and component values, the pedestal error has a maximum value of 5 mv over the 10 v input range. both the acquisition and settling times are 850 ns.
adg451/adg452/adg453 rev. c | page 13 of 16 test circuits sd r on =v 1 /i ds v s v 1 i ds 05239-014 figure 16. on resistance sd v s v d a a i s (off) i d (off) 05239-015 figure 17. off leakage sd v s v d a i d (on) 05239-016 figure 18. on leakage sd v s v in v out in v ss gnd v l v dd ?15v +15 v +5 v c l 35pf r l 300? 3v 50% 50% 50% 90% 90% 50% adg451 adg452 v in v in v out 3v t on t off 05239-017 0.1f 0.1f 0.1f figure 19. switching times 05239-018 s1 d1 v s1 v out1 in1, in2 v ss gnd v l v dd ?15v +15 v +5 v c l1 35pf r l1 300 ? 0.1f 0.1f 0.1f s2 d2 v s2 v in v out2 c l2 35pf r l2 300 ? adg453 50% 90% v in v out1 v out2 50% 90% 90% 90% t d t d 3v 0v 0v 0v figure 20. break-before-make time delay sd v s v out in r s v dd gnd v l v ?15v +15 v +5 v c l 10nf 3v v in v out v in =c l v out v out 05239-019 figure 21. charge injection
adg451/adg452/adg453 rev. c | page 14 of 16 sd v s v out in v ss gnd v l v dd ?15v +15 v +5 v r l 50 ? 0.1f 0.1f 0.1f v in 05239-020 figure 22. off isolation sd sd v s nc v ss gnd v l v dd ?15v +15 v +5 v 50 ? 0.1f 0.1f 0.1f v in1 v in2 v out 05239-021 r l 50 ? channel-to-channel crosstalk = 20 log |v s /v out | figure 23 . channel-to-channel crosstalk
adg451/adg452/adg453 rev. c | page 15 of 16 outline dimensions controlling dimensions are in millimeters; inch dimensions (in parentheses) are rounded-off millimeter equivalents for reference only and are not appropriate for use in design. compliant to jedec standards ms-012-ac 16 9 8 1 4.00 (0.1575) 3.80 (0.1496) 10.00 (0.3937) 9.80 (0.3858) 1.27 (0.0500) bsc 6.20 (0.2441) 5.80 (0.2283) seating plane 0.25 (0.0098) 0.10 (0.0039) 0.51 (0.0201) 0.31 (0.0122) 1.75 (0.0689) 1.35 (0.0531) 8 0 0.50 (0.0197) 0.25 (0.0098) 1.27 (0.0500) 0.40 (0.0157) 0.25 (0.0098) 0.17 (0.0067) coplanarity 0.10 45 figure 24. 16-lead standard small outline package [soic_n] narrow body (r-16) dimensions shown in millimeters and (inches) 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 figure 25. 16-lead thin shrink small outline package [tssop] (ru-16) dimensions shown in millimeters controlling dimensions are in inches; millimeter dimensions (in parentheses) are rounded-off inch equivalents for reference only and are not appropriate for use in design. corner leads may be configured as whole or half leads. compliant to jedec standards ms-001-ab 0.022 (0.56) 0.018 (0.46) 0.014 (0.36) 0.150 (3.81) 0.130 (3.30) 0.115 (2.92) 0.070 (1.78) 0.060 (1.52) 0.045 (1.14) 16 1 8 9 0.100 (2.54) bsc 0.800 (20.32) 0.790 (20.07) 0.780 (19.81) pin 1 0.210 (5.33) max seating plane 0.015 (0.38) min 0.005 (0.13) min 0.280 (7.11) 0.250 (6.35) 0.240 (6.10) 0.060 (1.52) max 0.430 (10.92) max 0.014 (0.36) 0.010 (0.25) 0.008 (0.20) 0.325 (8.26) 0.310 (7.87) 0.300 (7.62) 0.015 (0.38) gauge plane 0.195 (4.95) 0.130 (3.30) 0.115 (2.92) figure 26. 16-lead plastic dual in-line package [pdip] narrow body (n-16) dimensions shown in inches and (millimeters)
adg451/adg452/adg453 rev. c | page 16 of 16 ordering guide model temperature range package description package option adg451bn ?40c to +85c 16-lead plastic dual in-line package [pdip] n-16 adg451bnz 1 ?40c to +85c 16-lead plastic dual in-line package [pdip] n-16 adg451br ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg451br-reel ?40c to +85c 16-lead stan dard small outline package [soic_n] r-16 adg451br-reel7 ?40c to +85c 16-lead stan dard small outline package [soic_n] r-16 adg451brz 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg451brz-reel 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg451brz-reel7 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg451bruz 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg451bruz- reel 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg451bruz- reel7 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg451bchips die adg452bn ?40c to +85c 16-lead plastic dual in-line package [pdip] n-16 adg452bnz 1 ?40c to +85c 16-lead plastic dual in-line package [pdip] n-16 adg452br ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg452br-reel ?40c to +85c 16-lead stan dard small outline package [soic_n] r-16 adg452br-reel7 ?40c to +85c 16-lead stan dard small outline package [soic_n] r-16 adg452brz 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg452brz-reel 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg452brz-reel7 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg452bruz 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg452bruz-reel 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg452bruz-reel7 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg453bn ?40c to +85c 16-lead plastic dual in-line package [pdip] n-16 adg453bnz 1 ?40c to +85c 16-lead plastic dual in-line package [pdip] n-16 adg453br ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg453br-reel ?40c to +85c 16-lead stan dard small outline package [soic_n] r-16 adg453br-reel7 ?40c to +85c 16-lead stan dard small outline package [soic_n] r-16 adg453brz 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg453brz-reel 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 ADG453BRZ-REEL7 1 ?40c to +85c 16-lead standard small outline package [soic_n] r-16 adg453bruz 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg453bruz-reel 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 adg453bruz-reel7 1 ?40c to +85c 16-lead thin shrink small outline package [tssop] ru-16 1 z = pb-free part. ?2006 analog devices, inc. all rights reserved. trademarks and registered trademarks are the property of their respective owners. c05239-0-10 /06(c)

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