tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 1 post office box 655303 ? dallas, texas 75265 � excellent output drive capability v o = 2.5 v min at r l = 100 w , v cc = 5 v v o = 12.5 v min at r l = 600 w , v cc = 15 v � low supply curren t... 280 m a typ � decompensated for high slew rate and gain-bandwidth product a vd = 0.5 min slew rate = 10 v/ m s typ gain-bandwidth product = 6.5 mhz typ � wide operating supply voltage range v cc = 3.5 v to 18 v � high open-loop gai n... 280 v/mv typ � low offset voltage . . . 500 m v max � low offset voltage drift with time 0.04 m v/month typ � low input bias curren t...5 pa typ description the tle2161, tle2161a, and tle2161b are jfet-input, low-power, precision operational amplifiers manufactured using the texas instruments excalibur process. decompensated for stability with a minimum closed-loop gain of 5, these devices combine outstanding output drive capability with low power consumption, excellent dc precision, and high gain-bandwidth product. in addition to maintaining the traditional jfet advantages of fast slew rates and low input bias and offset currents, the excalibur process offers outstanding parametric stability over time and temperature. this results in a device that remains precise even with changes in temperature and over years of use. available options package t a v io max at 25 c small outline chip carrier ceramic dip plastic dip at 25 c outline (d) carrier (fk) dip (jg) dip (p) 0 c to 500 m v 15mv e tle2161acd e e tle2161bcp tle2161acp t o 70 c 1 . 5 m v 3 mv tle2161acd tle2161cd e e tle2161acp tle2161cp 40 c to 500 m v 15mv e tle2161aid e e tle2161bip tle2161aip t o 85 c 1 . 5 m v 3 mv tle2161aid tle2161id e e tle2161aip tle2161ip 55 c to 500 m v 15mv e tle2161amd e tle2161amfk tle2161bmjg tle2161amjg tle2161bmp tle2161amp to 125 c 1 . 5 mv 3 mv tle2161amd tle2161md tle2161amfk tle2161mfk tle2161amjg tle2161mjg tle2161amp tle2161mp the d packages are available taped and reeled. add r suffix to device type (e.g., tle2161acdr). please be aware that an important notice concerning availability, standard warranty, and use in critical applications of texas instruments semiconductor products and disclaimers thereto appears at the end of this data sheet. production data information is current as of publication date. products conform to specifications per the terms of texas instruments standard warranty. production processing does not necessarily include testing of all parameters. copyright ? 1996, texas instruments incorporated 10 k 1 k 100 r l load resistance w 10 0 2 4 6 8 10 t a = 25 c maximum peak-to-peak output voltage vs load resistance maximum peak-to-peak output voltage v v o(pp) v cc = 5 v
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 2 post office box 655303 ? dallas, texas 75265 description (continued) a variety of available options includes small-outline packages and chip-carrier versions for high-density system applications. the c-suffix devices are characterized for operation from 0 c to 70 c. the i-suffix devices are characterized for operation from 40 c to 85 c. the m-suffix devices are characterized for operation over the full military temperature range of 55 c to 125 c. nc 1 2 3 4 8 7 6 5 offset n1 in in + v cc nc v cc + out offset n2 d, jg, or p package (top view) nc no internal connection 3 2 1 20 19 910111213 4 5 6 7 8 18 17 16 15 14 nc v cc + nc out nc nc in nc in + nc fk package (top view) nc n1 nc nc nc nc nc n2 cc v equivalent schematic q35 q34 2.7 k w q10 q15 v cc q2 offset n2 offset n1 1.1 k w r1 15 pf c1 55 k w 1.1 k w r4 r2 q8 c2 15 pf q6 2.4 k w r3 60 k w r5 q12 q22 q21 q26 q7 in in + 1.6 pf c3 q11 q20 q24 q16 q17 q23 r6 q19 q18 q25 q27 q28 600 w r7 q31 q30 q38 q39 q41 q42 out 100 w r9 20 w r8 q29 q43 q40 q37 q36 q33 q32 q5 q1 q3 q14 q13 q9 q4 v cc + all component values are nominal.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 3 post office box 655303 ? dallas, texas 75265 absolute maximum ratings over operating free-air temperature range (unless otherwise noted) 2 supply voltage, v cc + (see note 1) 19 v . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . supply voltage, v cc 19 v . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . differential input voltage, v id (see note 2) 38 v . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . input voltage range, v i (any input) v cc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . input current, i i (each input) 1 ma . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . output current, i o 80 ma . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . total current into v cc + 80 ma . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . total current out of v cc 80 ma . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . duration of short-circuit current at (or below) 25 c (see note 3) unlimited . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . continuous total power dissipation see dissipation rating table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . operating free-air temperature range, t a : c suffix 0 c to 70 c . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i suffix 40 c to 85 c . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . m suffix 55 c to 125 c . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . storage temperature range, t stg 65 c to 150 c . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . case temperature for 60 seconds: fk package 260 c . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . lead temperature 1,6 mm (1/16 inch) from case for 10 seconds: d or p package 260 c . . . . . . . . . . . . . . . . . lead temperature 1,6 mm (1/16 inch) from case for 60seconds: jg package 300 c . . . . . . . . . . . . . . . . . . . . 2 stresses beyond those listed under aabsolute maximum ratingso 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 under arecommended operating conditi onso is not implied. exposure to absolute-maximum-rated conditions for extended periods may affect device reliability. notes: 1. all voltage values, except differential voltages, are with respect to the midpoint between v cc + , and v cc . 2. differential voltages are at in+ with respect to in . 3. the output may be shorted to either supply. temperature and /or supply voltages must be limited to ensure that the maximum dissipation rating is not exceeded. dissipation rating table package t a 25 c power rating derating factor above t a = 25 c t a = 70 c power rating t a = 85 c power rating t a = 125 c power rating d 725 mw 5.8 mw/ c 464 mw 377 mw 145 mw fk 1375 mw 11.0 mw/ c 880 mw 715 mw 275 mw jg 1050 mw 8.4 mw/ c 672 mw 546 mw 210 mw p 1000 mw 8.0 mw/ c 640 mw 520 mw 200 mw recommended operating conditions c suffix i suffix m suffix unit min max min max min max unit supply voltage, v cc 3.5 18 3.5 18 + 3.5 18 v common mode in p ut voltage v ic v cc = 5 v 1.6 4 1.6 4 1.6 4 v common - mode inp u t v oltage , v ic v cc = 15 v 11 13 11 13 11 13 v operating free-air temperature, t a 0 70 40 85 55 125 c
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 4 post office box 655303 ? dallas, texas 75265 electrical characteristics at specified free-air temperature, v cc = 5 v (unless otherwise noted) parameter test conditions t a 2 tle2161c, tle2161ac tle2161bc unit a min typ max tle2161c 25 c 0.8 3.1 tle2161c full range 4 v io in p ut offset voltage tle2161ac 25 c 0.6 2.6 mv v io inp u t offset v oltage tle2161ac full range 3.5 mv tle2161bc 25 c 0.5 1.9 tle2161bc v ic =0 r s =50 w full range 2.4 a vio temperature coefficient of input offset voltage v ic = 0 , r s = 50 w full range 6 m v/ c input offset voltage long-term drift (see note 4) 25 c 0.04 m v/mo i io in p ut offset current 25 c 1 pa i io inp u t offset c u rrent full range 0.8 na i ib in p ut bias current 25 c 3 pa i ib inp u t bias c u rrent full range 2 na v icr common mode in p ut voltage range 25 c 1.6 to 4 2 to 6 v v icr common - mode inp u t v oltage range full range 1.6 to 4 v r l =10 k w 25 c 3.5 3.7 v om maximum p ositive p eak out p ut voltage swing r l = 10 k w full range 3.3 v v om + ma x im u m positi v e peak o u tp u t v oltage s w ing r l = 100 w 25 c 2.5 3.1 v r l = 100 w full range 2 r l =10 k w 25 c 3.7 3.9 v om maximum negative p eak out p ut voltage swing r l = 10 k w full range 3.3 v v om ma x im u m negati v e peak o u tp u t v oltage s w ing r l = 100 w 25 c 2.5 2.7 v r l = 100 w full range 2 v o = 28v r l =10k w 25 c 15 80 v o = 2 . 8 v , r l = 10 k w full range 2 a vd large signal differential voltage am p lification v o = 0to2v r l = 100 w 25 c 0.75 45 v/mv a vd large - signal differential v oltage amplification v o = 0 to 2 v , r l = 100 w full range 0.5 v/mv v o =0to 2v r l = 100 w 25 c 0.5 3 v o = 0 to 2 v , r l = 100 w full range 0.25 r i input resistance 25 c 10 12 w c i input capacitance 25 c 4 pf z o open-loop output impedance i o = 0 25 c 280 w cmrr common mode rejection ratio v ic =v icr min r s =50 w 25 c 65 82 db cmrr common - mode rejection ratio v ic = v icr min , r s = 50 w full range 65 db k svr su pp ly voltage rejection ratio ( d v cc / d v io ) v cc 5 v to 15 v , 25 c 75 93 db k svr s u ppl y-v oltage rejection ratio ( d v cc / d v io ) v cc 5 v to 15 v, r s = 50 w full range 75 db i cc su pp ly current 25 c 280 325 m a i cc s u ppl y c u rrent v o =0 no load full range 350 m a d i cc supply-current change over operating v o = 0 , no load full range 29 m a d i cc yg g temperature range f u ll range 29 m a 2 full range is 0 c to 70 c. note 4: typical values are based on the input offset voltage shift observed through 168 hours of operating life test at t a = 150 c extrapolated to t a = 25 c using the arrhenius equation and assuming an activation energy of 0.96 ev.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 5 post office box 655303 ? dallas, texas 75265 operating characteristics at specified free-air temperature, v cc = 5 v (unless otherwise noted) parameter test conditions t a 2 tle2161c, tle2161ac tle2161bc unit a min typ max 25 c 7 10 sr slew rate (see figure 1) a vd = 5, r l = 10 k w ,c l = 100 pf full range 5 v/ m s v equivalent input noise voltage r s = 20 w , f = 10 hz 25 c 59 100 nv/ h v n qg (see figure 2) r s = 20 w , f = 1 khz 25 c 43 60 n v/ h z v n(pp) peak-to-peak equivalent input noise voltage f = 0.1 hz to 10 hz 25 c 1.1 m v i n equivalent input noise current f = 1 khz 25 c 1 fa/ hz thd total harmonic distortion v o(pp) = 2 v, r l = 10 k w a vd = 5, f = 10 khz, 25 c 0.025% gain-bandwidth product f = 100 khz, r l = 10 k w , c l = 100 pf 25 c 5.8 mhz (see figure 3) f = 100 khz, r l = 100 k w , c l = 100 pf 25 c 4.3 mh z t settling time e = 0.1% 25 c 5 m s t s settling time e = 0.01% 25 c 10 m s b om maximum output-swing bandwidth a vd = 5, r l = 10 k w 25 c 420 khz f phase margin (see figure 3) a vd = 5, r l = 10 k w , c l = 100 pf 25 c 70 f m phase margin (see fig u re 3) a vd = 5, r l = 100 w , c l = 100 pf 25 c 84 2 full range is 0 c to 70 c.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 6 post office box 655303 ? dallas, texas 75265 electrical characteristics at specified free-air temperature, v cc = 15 v (unless otherwise noted) parameter test conditions t a 2 tle2161c, tle2161ac tle2161bc unit a min typ max tle2161c 25 c 0.6 3 tle2161c full range 3.9 v io in p ut offset voltage tle2161ac 25 c 0.5 1.5 mv v io inp u t offset v oltage tle2161ac full range 2.5 mv tle2161bc 25 c 0.3 0.5 tle2161bc full range 1 a vio temperature coefficient of input offset voltage v ic = 0, r s = 50 w full range 6 m v/ c input offset voltage long-term drift (see note 4) 25 c 0.04 m v/mo i io in p ut offset current 25 c 2 pa i io inp u t offset c u rrent full range 1 na i ib in p ut bias current 25 c 4 pa i ib inp u t bias c u rrent full range 3 na v icr common mode in p ut voltage range 25 c 11 to 13 12 to 16 v v icr common - mode inp u t v oltage range full range 11 to 13 v r l =10k w 25 c 13.2 13.7 v om maximum p ositive p eak out p ut voltage swing r l = 10 k w full range 13 v v om + ma x im u m positi v e peak o u tp u t v oltage s w ing r l = 600 w 25 c 12.5 13.2 v r l = 600 w full range 12 r l =10k w 25 c 13.2 13.7 v om maximum negative p eak out p ut voltage swing r l = 10 k w full range 13 v v om ma x im u m negati v e peak o u tp u t v oltage s w ing r l = 600 w 25 c 12.5 13 v r l = 600 w full range 12 v o = 10 v r l =10k w 25 c 30 230 v o = 10 v , r l = 10 k w full range 20 a vd large signal differential voltage am p lification v o = 0to8v r l = 600 w 25 c 25 100 v/mv a vd large - signal differential v oltage amplification v o = 0 to 8 v , r l = 600 w full range 10 v/mv v o =0to 8v r l = 600 w 25 c 3 25 v o = 0 to 8 v , r l = 600 w full range 1 r i input resistance 25 c 10 12 w c i input capacitance 25 c 4 pf z o open-loop output impedance i o = 0 25 c 280 w cmrr common mode rejection ratio v ic =v icr min r s =50 w 25 c 72 90 db cmrr common - mode rejection ratio v ic = v icr min , r s = 50 w full range 70 db k svr su pp ly voltage rejection ratio ( d v cc / d v io ) v cc 5 v to 15 v, 25 c 75 93 db k svr s u ppl y-v oltage rejection ratio ( d v cc / d v io ) cc , rs = 50 w full range 75 db i cc su pp ly current 25 c 290 350 m a i cc s u ppl y c u rrent vo=0 no load full range 375 m a d i cc supply-current change over operating vo = 0 , no load full range 34 m a d i cc yg g temperature range f u ll range 34 m a 2 full range is 0 c to 70 c. note 4: typical values are based on the input offset voltage shift observed through 168 hours of operating life test at t a = 150 c extrapolated to t a = 25 c using the arrhenius equation and assuming an activation energy of 0.96 ev.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 7 post office box 655303 ? dallas, texas 75265 operating characteristics at specified free-air temperature, v cc = 15 v (unless otherwise noted) parameter test conditions t a 2 tle2161c, tle2161ac tle2161bc unit a min typ max sr slew rate (see figure 1) a vd =5 r l =10k w c l = 100 p f 25 c 7 10 v/ m s sr sle w rate (see fig u re 1) a vd = 5 , r l = 10 k w , c l = 100 pf full range 5 v/ m s v equivalent input noise voltage r s = 20 w , f = 10 hz 25 c 70 100 nv/ hz v n qg (see figure 2) r s = 20 w , f = 1 khz 25 c 40 60 n v/ h z v n(pp) peak-to-peak equivalent input noise voltage f = 0.1 hz to 10 hz 25 c 1.1 m v i n equivalent input noise current f = 1 khz 25 c 1.1 fa/ hz thd total harmonic distortion v o(pp) = 2 v, r l = 10 k w a vd = 5, f = 10 khz, 25 c 0.025% gain-bandwidth product f = 100 khz, r l = 10 k w , c l = 100 pf 25 c 6.4 mhz (see figure 3) f = 100 khz, r l = 600 w , c l = 100 pf 25 c 5.6 mh z t settling time e = 0.1% 25 c 5 m s t s settling time e = 0.01% 25 c 10 m s b om maximum output-swing bandwidth a vd = 5, r l = 10 k w 25 c 116 khz f phase margin (see figure 3) a vd = 5, r l = 10 k w , c l = 100 pf 25 c 72 f m phase margin (see fig u re 3) a vd = 5, r l = 600 w , c l = 100 pf 25 c 78 2 full range is 0 c to 70 c.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 8 post office box 655303 ? dallas, texas 75265 electrical characteristics at specified free-air temperature, v cc = 5 v (unless otherwise noted) parameter test conditions t a 2 tle2161i, tle2161ai tle2161bi unit a min typ max tle2161i 25 c 0.8 3.1 tle2161i full range 4.4 v io in p ut offset voltage tle2161ai 25 c 0.6 2.6 mv v io inp u t offset v oltage tle2161ai full range 3.9 mv tle2161bi 25 c 0.5 1.9 tle2161bi full range 2.7 a vio temperature coefficient of input offset voltage v ic = 0, r s = 50 w full range 6 m v/ c input offset voltage long-term drift (see note 4) 25 c 0.04 m v/mo i io in p ut offset current 25 c 1 pa i io inp u t offset c u rrent full range 2 na i ib in p ut bias current 25 c 3 pa i ib inp u t bias c u rrent full range 4 na v icr common mode in p ut voltage range 25 c 1.6 to 4 2 to 6 v v icr common - mode inp u t v oltage range full range 1.6 to 4 v r l =10k w 25 c 3.5 3.7 v om maximum p ositive p eak out p ut voltage r l = 10 k w full range 3.1 v v om + ma x im u m positi v e peak o u tp u t v oltage r l = 100 w 25 c 2.5 3.1 v r l = 100 w full range 2 r l =10k w 25 c 3.7 3.9 v om maximum negative p eak out p ut voltage swing r l = 10 k w full range 3.1 v v om ma x im u m negati v e peak o u tp u t v oltage s w ing r l = 100 w 25 c 2.5 2.7 v r l = 100 w full range 2 v o = 28v r l =10k w 25 c 15 80 v o = 2 . 8 v , r l = 10 k w full range 2 a vd large signal differential voltage am p lification v o = 0to2v r l = 100 w 25 c 0.75 45 v/mv a vd large - signal differential v oltage amplification v o = 0 to 2 v , r l = 100 w full range 0.5 v/mv v o =0to 2v r l = 100 w 25 c 0.5 3 v o = 0 to 2 v , r l = 100 w full range 0.25 r i input resistance 25 c 10 12 w c i input capacitance 25 c 4 pf z o open-loop output impedance i o = 0 25 c 280 w cmrr common mode rejection ratio v ic =v icr min r s =50 w 25 c 65 82 db cmrr common - mode rejection ratio v ic = v icr min , r s = 50 w full range 65 db k svr su pp ly voltage rejection ratio ( d v cc / d v io ) v cc = 5 v to 15 v, 25 c 75 93 db k svr s u ppl y-v oltage rejection ratio ( d v cc / d v io ) cc ? ? w full range 65 db i cc su pp ly current 25 c 280 325 m a i cc s u ppl y c u rrent v o =0 no load full range 350 m a d i cc supply-current change over operating temperature range v o = 0 , no load full range 29 m a 2 full range is 40 c to 85 c. note 4: typical values are based on the input offset voltage shift observed through 168 hours of operating life test at t a = 150 c extrapolated to t a = 25 c using the arrhenius equation and assuming an activation energy of 0.96 ev.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 9 post office box 655303 ? dallas, texas 75265 operating characteristics at specified free-air temperature, v cc = 5 v (unless otherwise noted) parameter test conditions t a 2 tle2161i, tle2161ai tle2161bi unit a min typ max sr slew rate (see figure 1) a vd =5 r l =10k w c l = 100 p f 25 c 7 10 v/ m s sr sle w rate (see fig u re 1) a vd = 5 , r l = 10 k w , c l = 100 pf full range 5 v/ m s v equivalent input noise r s = 20 w , f = 10 hz 25 c 59 100 nv/ hz v n q voltage (see figure 2) r s = 20 w , f = 1 khz 25 c 43 60 n v/ h z v n(pp) peak-to-peak equivalent input noise voltage f = 0.1 hz to 10 hz 25 c 1.1 m v i n equivalent input noise current f = 1 khz 25 c 1 fa/ hz thd total harmonic distortion v o(pp) = 2 v, r l = 10 k w a vd = 5, f = 10 khz, 25 c 0.025% gain-bandwidth product f = 100 khz, r l = 10 k w , c l = 100 pf 25 c 5.8 mhz (see figure 3) f = 100 khz, r l = 100 w , c l = 100 pf 25 c 4.3 mh z t settling time e = 0.1% 25 c 5 m s t s settling time e = 0.01% 25 c 10 m s b om maximum output-swing bandwidth a vd = 5, r l = 10 k w 25 c 420 khz f phase margin (see figure 3) a vd = 5, r l = 10 k w , c l = 100 pf 25 c 70 f m phase margin (see fig u re 3) a vd = 5, r l = 100 w , c l = 100 pf 25 c 84 2 full range is 40 c to 85 c.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 10 post office box 655303 ? dallas, texas 75265 electrical characteristics at specified free-air temperature, v cc = 15 v (unless otherwise noted) parameter test conditions t a 2 tle2161i, tle2161ai tle2161bi unit a min typ max tle2161i 25 c 0.6 3 tle2161i full range 4.3 v io in p ut offset voltage tle2161ai 25 c 0.5 1.5 mv v io inp u t offset v oltage tle2161ai full range 2.9 mv tle2161bi 25 c 0.3 0.5 tle2161bi v ic =0 r s =50 w full range 1.3 a vio temperature coefficient of input offset voltage v ic = 0 , r s = 50 w full range 6 m v/ c input offset voltage long-term drift (see note 4) 25 c 0.04 m v/mo i io in p ut offset current 25 c 2 pa i io inp u t offset c u rrent full range 3 na i ib in p ut bias current 25 c 4 pa i ib inp u t bias c u rrent full range 5 na v icr common mode in p ut voltage range 25 c 11 to 13 12 to 16 v v icr common - mode inp u t v oltage range full range 11 to 13 v r l =10k w 25 c 13.2 13.7 v om maximum p ositive p eak out p ut voltage swing r l = 10 k w full range 13 v v om + ma x im u m positi v e peak o u tp u t v oltage s w ing r l = 600 w 25 c 12.5 13.2 v r l = 600 w full range 12 r l =10k w 25 c 13.2 13.7 v om maximum negative p eak out p ut voltage swing r l = 10 k w full range 13 v v om ma x im u m negati v e peak o u tp u t v oltage s w ing r l = 600 w 25 c 12.5 13 v r l = 600 w full range 12 v 0 = 10 v r l =10k w 25 c 30 230 v 0 = 10 v , r l = 10 k w full range 20 a vd large signal differential voltage am p lification v 0 = 0to8v r l = 600 w 25 c 25 100 v/mv a vd large - signal differential v oltage amplification v 0 = 0 to 8 v , r l = 600 w full range 10 v/mv v 0 =0to 8v r l = 600 w 25 c 3 25 v 0 = 0 to 8 v , r l = 600 w full range 1 r i input resistance 25 c 10 12 w c i input capacitance 25 c 4 pf z o open-loop output impedance i o = 0 25 c 280 w cmrr common mode rejection ratio v ic =v icr min r s =50 w 25 c 72 90 db cmrr common - mode rejection ratio v ic = v icr min , r s = 50 w full range 65 db k svr su pp ly voltage rejection ratio ( d v cc / d v io ) v cc = 5 v to 15 v, 25 c 75 93 db k svr s u ppl y-v oltage rejection ratio ( d v cc / d v io ) cc ? ? w full range 65 db i cc su pp ly current 25 c 290 350 m a i cc s u ppl y c u rrent v o =0 no load full range 375 m a d i cc supply-current change over operating temperature range v o = 0 , no load full range 34 m a 2 full range is 40 c to 85 c. note 4: typical values are based on the input offset voltage shift observed through 168 hours of operating life test at t a = 150 c extrapolated to t a = 25 c using the arrhenius equation and assuming an activation energy of 0.96 ev.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 11 post office box 655303 ? dallas, texas 75265 operating characteristics at specified free-air temperature, v cc = 15 v (unless otherwise noted) parameter test conditions t a 2 tle2161i, tle2161ai tle2161ib unit a min typ max sr slew rate (see figure 1) a vd =5 r l =10k w c l = 100 p f 25 c 7 10 v/ m s sr sle w rate (see fig u re 1) a vd = 5 , r l = 10 k w , c l = 100 pf full range 5 v/ m s v equivalent input noise voltage r s = 20 w , f = 10 hz 25 c 70 100 nv/ hz v n qg (see figure 2) r s = 20 w , f = 1 khz 25 c 40 60 n v/ h z v (pp) peak-to-peak equivalent input f=01hzto10hz 25 c 11 m v v n(pp) q noise voltage f = 0 . 1 h z to 10 h z 25 c 1 . 1 m v i n equivalent input noise current f = 1 khz 25 c 1.1 fa/ hz thd total harmonic distortion v o(pp) = 2 v, a vd = 5, f = 10 khz, 25 c 0 025% thd total harmonic distortion o(pp) , r l = 10 k w vd , , 25 c 0 . 025% gain-bandwidth product f = 100 khz, r l = 10 k w , c l = 100 pf 25 c 6.4 mhz (see figure 3) f = 100 khz, r l = 600 w , c l = 100 pf 25 c 5.6 mh z t settling time e = 0.1% 25 c 5 m s t s settling time e = 0.01% 25 c 10 m s b om maximum output-swing a vd =5 r l =10k w 25 c 116 khz b om g bandwidth a vd = 5 , r l = 10 k w 25 c 116 kh z f phase margin (see figure 3) a vd = 5, r l = 10 k w , c l = 100 pf 25 c 72 f m phase margin (see fig u re 3) a vd = 5, r l = 600 w , c l = 100 pf 25 c 78 2 full range is 40 c to 85 c.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 12 post office box 655303 ? dallas, texas 75265 electrical characteristics at specified free-air temperature, v cc = 5 v (unless otherwise noted) parameter test conditions t a 2 tle2161m tle2161am tle2161bm unit min typ max tle2161m 25 c 0.8 3.1 tle2161m full range 6 v io in p ut offset voltage tle2161am 25 c 0.6 2.6 mv v io inp u t offset v oltage tle2161am full range 4.6 mv tle2161bm 25 c 0.5 1.9 tle2161bm full range 3.1 a vio temperature coefficient of input offset voltage v ic = 0, r s = 50 w full range 6 m v/ c input offset voltage long-term drift (see note 4) 25 c 0.04 m v/mo i io in p ut offset current 25 c 1 pa i io inp u t offset c u rrent full range 15 na i ib in p ut bias current 25 c 3 pa i ib inp u t bias c u rrent full range 30 na v icr common mode in p ut voltage range 25 c 1.6 to 4 2 to 6 v v icr common - mode inp u t v oltage range full range 1.6 to 4 v all p ackages r l =10k w 25 c 3.5 3.7 v all packages r l = 10 k w full range 3 v v om maximum positive peak fk and jg r l = 600 w 25 c 2.5 3.6 v om + output voltage swing packages r l = 600 w full range 2 v d and p r l = 100 w 25 c 2.5 3.1 v packages r l = 100 w full range 2 all p ackages r l =10k w 25 c 3.7 3.9 all packages r l = 10 k w full range 3 v om maximum negative peak fk and jg r l = 600 w 25 c 2.5 3.5 v v om g output voltage swing packages r l = 600 w full range 2 v d and p r l = 100 w 25 c 2.5 2.7 packages r l = 100 w full range 2 all p ackages v 0 = 28v r l =10k w 25 c 15 80 all packages v 0 = 2 . 8 v , r l = 10 k w full range 2 v 0 = 0 to 2 5 v r l = 600 w 25 c 1 65 fk and jg v 0 = 0 to 2 . 5 v , r l = 600 w full range 0.5 a vd large-signal differential packages v 0 =0to 25v r l = 600 w 25 c 1 16 v/mv a vd gg voltage amplification v 0 = 0 to 2 . 5 v , r l = 600 w full range 0.5 v/mv v 0 = 0to2v r l = 100 w 25 c 0.75 45 d and p v 0 = 0 to 2 v , r l = 100 w full range 0.5 packages v 0 =0to 2v r l = 100 w 25 c 0.5 3 v 0 = 0 to 2 v , r l = 100 w full range 0.25 2 full range is 55 c to 125 c. note 4: typical values are based on the input offset voltage shift observed through 168 hours of operating life test at t a = 150 c extrapolated to t a = 25 c using the arrhenius equation and assuming an activation energy of 0.96 ev.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 13 post office box 655303 ? dallas, texas 75265 electrical characteristics at specified free-air temperature, v cc = 5 v (unless otherwise noted continued) parameter test conditions t a 2 tle2161m tle2161am tle2161bm unit min typ max r i input resistance 25 c 10 12 w c i input capacitance 25 c 4 pf z o open-loop output impedance i o = 0 25 c 280 w cmrr common mode rejection ratio v ic =v icr min r s =50 w 25 c 65 82 db cmrr common - mode rejection ratio v ic = v icr min , r s = 50 w full range 60 db k svr su pp ly voltage rejection ratio ( d v cc / d v io ) v cc 5 v to 15 v, 25 c 75 93 db k svr s u ppl y-v oltage rejection ratio ( d v cc / d v io ) cc , r s = 50 w full range 65 db i cc su pp ly current 25 c 280 325 m a i cc s u ppl y c u rrent v o =0 no load full range 350 m a d i cc supply-current change over operating temperature range v o = 0 , no load full range 39 m a 2 full range is 55 c to 125 c. operating characteristics, v cc = 5 v, t a = 25 c parameter test conditions tle2161m tle2161am tle2161bm unit min typ max sr slew rate (see figure 1) a vd = 5, r l = 10 k w , c l = 100 pf 10 v/ m s v equivalent in p ut noise voltage (see figure 2) r s = 20 w , f = 10 hz 59 nv/ h v n eq u i v alent inp u t noise v oltage (see fig u re 2) r s = 20 w , f = 1 khz 43 n v/ h z v n(pp) peak-to-peak equivalent input noise voltage f = 0.1 hz to 10 hz 1.1 m v i n equivalent input noise current f = 1 khz 1 fa/ hz thd total harmonic distortion a vd = 5, r l = 10 k w v o(pp) = 2 v, f = 10 khz, 0.025% gain bandwidth p roduct (see figure 3) f = 100 khz, r l = 10 k w , c l = 100 pf 5.8 mhz gain - band w idth prod u ct (see fig u re 3) f = 100 khz, r l = 600 k w , c l = 100 pf 4.3 mh z t settling time e = 0.1% 5 m s t s settling time e = 0.01% 10 m s b om maximum output-swing bandwidth a vd = 5, r l = 10 k w 420 khz f phase margin (see figure 3) a vd = 5, r l = 10 k w , c l = 100 pf 70 f m phase margin (see fig u re 3) a vd = 5, r l = 600 w , c l = 100 pf 84
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 14 post office box 655303 ? dallas, texas 75265 electrical characteristics at specified free-air temperature, v cc = 15 v (unless otherwise noted) parameter test conditions t a 2 tle2161m tle2161am tle2161bm unit min typ max tle2161m 25 c 0.6 3 tle2161m full range 6 v io in p ut offset voltage tle2161am 25 c 0.5 1.5 mv v io inp u t offset v oltage tle2161am full range 3.6 mv tle2161bm 25 c 0.3 0.5 tle2161bm full range 1.7 a vio temperature coefficient of input offset voltage v ic = 0, r s = 50 w full range 6 m v/ c input offset voltage long-term drift (see note 4) 25 c 0.04 m v/mo i io in p ut offset current 25 c 2 pa i io inp u t offset c u rrent full range 20 na i ib in p ut bias current 25 c 4 pa i ib inp u t bias c u rrent full range 40 na v icr common mode in p ut voltage range 25 c 11 to 13 12 to 16 v v icr common - mode inp u t v oltage range full range 11 to 13 v r l =10k w 25 c 13.2 13.7 v om maximum p ositive p eak out p ut voltage swing r l = 10 k w full range 12.5 v v om + ma x im u m positi v e peak o u tp u t v oltage s w ing r l = 600 w 25 c 12.5 13.2 v r l = 600 w full range 12 r l =10k w 25 c 13.2 13.7 v om maximum negative p eak out p ut voltage swing r l = 10 k w full range 12.5 v v om ma x im u m negati v e peak o u tp u t v oltage s w ing r l = 600 w 25 c 12.5 13 v r l = 600 w full range 12 v o = 10 v r l =10k w 25 c 30 230 v o = 10 v , r l = 10 k w full range 20 a vd large signal differential voltage am p lification v o = 0to8v r l = 600 w 25 c 25 100 v/mv a vd large - signal differential v oltage amplification v o = 0 to 8 v , r l = 600 w full range 7 v/mv v o =0to 8v r l = 600 w 25 c 3 25 v o = 0 to 8 v , r l = 600 w full range 1 r i input resistance 25 c 10 12 w c i input capacitance 25 c 4 pf z o open-loop output impedance i o = 0 25 c 280 w cmrr common mode rejection ratio v ic =v icr min r s =50 w 25 c 72 90 db cmrr common - mode rejection ratio v ic = v icr min , r s = 50 w full range 65 db k svr su pp ly voltage rejection ratio ( d v cc / d v io ) v cc = 5 v to 15 v, 25 c 75 93 db k svr s u ppl y-v oltage rejection ratio ( d v cc / d v io ) cc ? ? w full range 65 db i cc su pp ly current 25 c 290 350 m a i cc s u ppl y c u rrent v o =0 no load full range 375 m a d i cc supply-current change over operating temperature range v o = 0 , no load full range 46 m a 2 full range is 55 c to 125 c. note 4: typical values are based on the input offset voltage shift observed through 168 hours of operating life test at t a = 150 c extrapolated to t a = 25 c using the arrhenius equation and assuming an activation energy of 0.96 ev.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 15 post office box 655303 ? dallas, texas 75265 operating characteristics at specified free-air temperature, v cc = 15 v (unless otherwise noted) parameter test conditions t a 2 tle2161m tle2161am tle2161bm unit min typ max sr slew rate (see figure 1) a vd =5 r l =10k w c l = 100 p f 25 c 7 10 v/ m s sr sle w rate (see fig u re 1) a vd = 5 , r l = 10 k w , c l = 100 pf full range 5 v/ m s v equivalent input noise voltage r s = 20 w , f = 10 hz 25 c 70 nv/ hz v n qg (see figure 2) r s = 20 w , f = 1 khz 25 c 40 n v/ h z v n(pp) peak-to-peak equivalent input noise voltage f = 0.1 hz to 10 hz 25 c 1.1 m v i n equivalent input noise current f = 1 hz 25 c 1.1 fa/ hz thd total harmonic distortion v o(pp) = 2 v, r l = 10 k w a vd = 5, f = 10 khz, 25 c 0.025% gain-bandwidth product f = 100 khz, r l = 10 k w , c l = 100 pf 25 c 6.4 mhz (see figure 3) f = 100 khz, r l = 600 w , c l = 100 pf 25 c 5.6 mh z t settling time e = 0.1% 25 c 5 m s t s settling time e = 0.01% 25 c 10 m s b om maximum output-swing bandwidth a vd = 5, r l = 10 k w 25 c 116 khz f phase margin (see figure 3) a vd = 5, r l = 10 k w , c l = 100 pf 25 c 72 f m phase margin (see fig u re 3) a vd = 5, r l = 600 w , c l = 100 pf 25 c 78 2 full range is 55 c to 125 c.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 16 post office box 655303 ? dallas, texas 75265 parameter measurement information 2 k w 8 k w (see note a) c l v o v cc v i + v cc + note a: c l includes fixture capacitance. figure 1. slew-rate test circuit v o r s r s 2 k w v cc v cc + + figure 2. noise-voltage test circuit v o r l c l (see note a) 10 k w 100 w v i v cc v cc + + note a: c l includes fixture capacitance. figure 3. gain-bandwidth product and phase-margin test circuit typical values typical values presented in this data sheet represent the median (50% point) of device parametric performance. input bias and offset current at the picoampere bias-current level typical of the tle2161, tle2161a, and tle2161b, accurate measurement of the bias current becomes difficult. not only does this measurement require a picoammeter, but test socket leakages can easily exceed the actual device bias currents. to accurately measure these small currents, texas instruments uses a two-step process. the socket leakage is measured using picoammeters with bias voltages applied but with no device in the socket. the device is then inserted into the socket, and a second test that measures both the socket leakage and the device input bias current is performed. the two measurements are then subtracted algebraically to determine the bias current of the device.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 17 post office box 655303 ? dallas, texas 75265 typical characteristics table of graphs figure v io input offset voltage distribution 4 i ib input bias current vs common-mode input voltage vs free-air temperature 5 6 i io input offset current vs free-air temperature 6 v icr common-mode input voltage range limits vs free-air temperature 7 v om maximum positive peak output voltage vs output current 8 v om maximum negative peak output voltage vs output current 9 v om maximum peak output voltage vs supply voltage 10, 11, 12 v o(pp) maximum peak-to-peak output voltage vs frequency 13, 14, 15 a vd large-signal differential voltage amplification vs frequency vs free-air temperature 16 17 i os short-circuit output current vs elapsed time 18 large-signal voltage amplification vs free-air temperature 19 z o output impedance vs frequency 20 cmrr common-mode rejection ratio vs frequency 21 i cc supply current vs supply voltage vs free-air temperature 22 23 pulse response small signal large signal 24, 25 26, 27 noise voltage (referred to input) 0.1 to 10 hz 28 v n equivalent input noise voltage vs frequency 29 thd total harmonic distortion vs frequency 30, 31 gain-bandwidth product vs supply voltage vs free-air temperature 32 33 f m phase margin vs supply voltage vs free-air temperature 34 35 phase shift vs frequency 16
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 18 post office box 655303 ? dallas, texas 75265 typical characteristics 2 tle2161 distribution of input offset voltage p package t a = 25 c v cc = 15 v 736 amplifiers tested from 3 wafer lots 4 3 2 1 0 1 2 3 4 v io input offset voltage mv percentage of amplifiers % 0 5 10 15 figure 4 t a = 25 c v id = 0 v ic common-mode input voltage v 20 15 10 5 0 5 10 15 20 0 input bias current pa input bias current vs common-mode input voltage i ib v cc = 15 v 30 60 50 40 20 10 figure 5 input bias current and input offset current vs free-air temperature t a free-air temperature c 105 85 65 45 25 10 5 10 4 10 3 10 2 10 1 1 v ic = 0 v cc = 15 v ?? i ib input bias and offset currents pa ib i and io i ?? i io figure 6 125 common-mode input voltage v v ic common-mode input voltage range limits vs free-air temperature negative limit positive limit 125 100 75 50 25 0 25 50 75 t a free-air temperature c v cc + v cc + v cc v cc v cc +2 +3 +4 v cc + +1 +2 figure 7 2 data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various dev ices.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 19 post office box 655303 ? dallas, texas 75265 typical characteristics figure 8 maximum positive peak output voltage v v om+ maximum positive peak output voltage vs output current t a = 25 c 60 50 40 30 20 10 0 i o output current ma 0 2 4 6 8 10 12 14 16 v cc = 5 v v cc = 15 v figure 9 maximum negative peak output voltage v v om maximum negative peak output voltage vs output current 30 35 v cc = 15 v v cc = 5 v i o output current ma 0 5 10 15 20 25 40 16 14 12 10 8 6 4 2 0 ???? ???? t a = 25 c maximum peak output voltage v v om maximum peak output voltage vs supply voltage 20 18 16 14 12 10 8 6 4 2 0 | v cc | supply voltage v 20 15 10 5 0 5 10 15 20 v om v om + t a = 25 c r l = 10 k w figure 10 maximum peak output voltage v v om maximum peak output voltage vs supply voltage r l = 600 w t a = 25 c v om + v om 20 15 10 5 0 5 10 15 20 | v cc | supply voltage v 02 46 8101214161820 figure 11
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 20 post office box 655303 ? dallas, texas 75265 typical characteristics figure 12 maximum peak output voltage v v om maximum peak output voltage vs supply voltage v om v om + t a = 25 c r l = 100 w 10 8 6 4 2 0 |v cc | supply voltage v 6 4 2 0 2 4 6 figure 13 maximum peak-to-peak output voltage v v o(pp) maximum peak-to-peak output voltage vs frequency t a = 25 c r l = 10 k w v cc = 5 v 10 8 6 10 k 100 k 1 m 10 m f frequency hz 4 2 0 maximum peak-to-peak output voltage v v o(pp) maximum peak-to-peak output voltage vs frquency 15 t a = 25 c r l = 10 k w v cc = 15 v 30 25 20 10 k 100 k 1 m 10 m f frequency hz 10 5 0 figure 14 maximum peak-to-peak output voltage v v o(pp) maximum peak-to-peak output voltage vs frequency 10 20 30 0 5 15 f frequency hz 10 m 1 m 100 k 10 k 25 35 40 v cc = 5 v r l = 10 k w t a = 25 c figure 15
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 21 post office box 655303 ? dallas, texas 75265 typical characteristics 2 large-signal differential voltage amplification and phase shift vs frquency t a = 25 c c l = 100 pf r l = 10 k w v cc = 15 v phase shift a vd 60 80 10 m 1 m 100 k 10 k 1 k 100 10 1 0.1 f frequency hz 20 0 20 40 60 80 100 120 avd large-signal differential a vd voltage amplification db figure 16 100 120 140 160 180 200 phase shift large-signal differential voltage amplification vs free-air temperature r l = 10 k w v cc = 5 v v cc = 15 v t a free-air temperature c 125 100 75 50 25 0 25 50 75 350 300 250 200 150 100 50 0 400 avd large-signal differential a vd voltage amplification v/mv figure 17 short-circuit output current ma i os short-circuit output current vs elapsed time v id = 100 mv v o = 0 t a = 25 c v cc = 15 v v id = 100 mv 60 50 40 30 20 10 0 t elapsed time s 80 60 40 20 0 20 40 60 80 figure 18 large-signal voltage amplification vs free-air temperature v id = 100 mv v id = 100 mv v o = 0 v cc = 15 v 80 80 60 40 20 0 20 40 60 75 50 25 0 25 50 75 100 125 t a free-air temperature c short-circuit output current ma i os figure 19 2 data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various dev ices.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 22 post office box 655303 ? dallas, texas 75265 typical characteristics 2 w output impedance z o output impedance vs frequency a vd =100 a vd = 1 t a = 25 c v cc = 15 v a vd = 10 f frequency hz 1 m 100 k 10 k 1 k 100 10 0.001 0.01 0.1 1 10 100 1000 figure 20 common-mode rejection ratio vs frequency cmrr common-mode rejection ratio db 10 100 1 k 10 k 100 k 1 m f frequency hz 10 m 0 20 40 60 80 100 t a = 25 c v cc = 5 v figure 21 supply current a i cc supply current vs supply voltage no load v o = 0 t a = 125 c t a = 25 c t a = 55 c |v cc | supply voltage v 20 18 16 14 12 10 8 6 4 2 0 240 260 280 300 320 340 m figure 22 supply current vs free-air temperature v cc = 5 v v cc = 15 v v o = 0 no load t a free-air temperature c 240 260 280 300 320 340 125 100 75 50 25 0 25 50 75 supply current a i cc m figure 23 2 data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various dev ices.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 23 post office box 655303 ? dallas, texas 75265 typical characteristics output voltage mv v o small-signal pulse response see figure 1 t time m s 3 2 1 0 100 50 0 50 100 t a = 25 c c l = 100 pf r l = 10 k w a vd = 5 v cc = 5 v 0.5 1.5 2.5 figure 24 small-signal pulse response v cc = 15 v r l = 10 k w c l = 100 pf t a = 25 c see figure 1 100 50 0 50 100 0 1 23 t time m s output voltage mv v o 0.5 1.5 2.5 a vd = 5 figure 25 c l = 100 pf output voltage v v o large-signal pulse response r l = 10 k w v cc = 5 v a vd = 5 t a = 25 c see figure 1 0 5 10 15 t time m s 2 1 0 1 2 3 4 figure 26 large-signal pulse response output voltage v v o see figure 1 t a = 25 c c l = 100 pf r l = 10 k w a vd = 5 v cc = 15 v t time m s 40 30 20 10 0 15 10 5 0 5 10 15 figure 27
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 24 post office box 655303 ? dallas, texas 75265 typical characteristics noise voltage (referred to input) over a 10-second interval t time s 10 9 8 7 6 5 4 3 2 1 0 1 0.5 0 0.5 1 t a = 25 c f = 0.1 to 10 hz v cc = 15 v noise voltage uv v n m figure 28 equivalent input noise voltage vs frequency equivalent input noise voltage v n see figure 2 t a = 25 c r s = 20 w v cc = 5 v 10 k 1 k 100 10 1 f frequency hz 0 20 40 60 80 100 nv/ hz figure 29 a vd = 2 v o(pp) = 2 v t a = 25 c source signal 0.2 0.15 100 k 10 k 1 k 100 10 t frequency hz thd total harmonic distortion % 0 0.25 0.1 0.05 total harmonic distortion vs frequency ????? v cc = 5 v figure 30 total harmonic distortion vs frequency ?????? v cc = 5 v source signal t a = 25 c v o(pp) = 2 v a vd = 10 0.3 0.1 0.5 0.6 0 thd total harmonic distortion % f frequency hz 10 100 1 k 10 k 100 k 0.2 0.4 figure 31
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 25 post office box 655303 ? dallas, texas 75265 typical characteristics gain-bandwidth product vs supply voltage 6.6 6.2 5.8 5.4 16 12 8 4 7 20 5 0 f = 100 khz see figure 3 t a = 25 c c l = 100 pf r l = 10 k w | v cc | supply voltage v gain-bandwidth product mhz figure 32 gain-bandwidth product vs free-air temperature 125 100 75 50 25 0 25 50 6.6 6.2 5.8 5.4 7 5 see figure 3 c l = 100 pf r l = 10 k w f = 100 khz v cc = 5 v v cc = 15 v t a free-air temperature c 75 gain-bandwidth product mhz figure 33 phase margin vs supply voltage a vd = 5 r l = 10 k w c l = 100 pf t a = 25 c see figure 3 74 73 72 71 70 69 68 0 | v cc | supply voltage v 2 4 6 8 10 12 14 16 18 20 67 phase margin m m f figure 34 phase margin m phase margin vs free-air temperature v cc = 5 v v cc = 15 v see figure 3 c l = 100 pf r l = 10 k w a vd = 5 76 74 72 70 68 100 75 50 25 0 25 50 78 125 t a free-air temperature c 66 75 m f figure 35
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 26 post office box 655303 ? dallas, texas 75265 application information macromodel information macromodel information provided was derived using microsim parts ? , the model generation software used with microsim pspice ? . the boyle macromodel (see note 5) and subcircuit in figure 36 and figure 37 were generated using the tle2161 typical electrical and operating characteristics at 25 c. using this information, output simulations of the following key parameters can be generated to a tolerance of 20% (in most cases): ? maximum positive output voltage swing ? maximum negative output voltage swing ? slew rate ? quiescent power dissipation ? input bias current ? open-loop voltage amplification ? gain-bandwidth product ? common-mode rejection ratio ? phase margin ? dc output resistance ? ac output resistance ? short-circuit output current limit 4 dlp ro2 99 v cc in + in v cc+ out 8 5 ro1 + vlim 7 vb 9 egnd fb 92 dln 91 90 vln vlp hlim + + + + + 6 53 vc + r2 c2 ga gcm dc de 54 ve + rd2 rd1 c1 rss 3 iss 10 11 12 j2 j1 1 2 dp rp figure 36. boyle macromodel note 5: g. r. boyle, b. m. cohn, d. o. pederson, and j. e. solomon, omacromodeling of integrated circuit operational amplifierso , ieee journal of solid-state circuits , sc-9, 353 (1974). pspice and parts are trademark of microsim corporation.
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 27 post office box 655303 ? dallas, texas 75265 application information macromodel information (continued) .subckt tle2161 1 2 3 4 5 c1 11 12 125.4e14 c2 6 7 5.000e12 dc 5 53 dx de 54 5d x dlp 90 91 dx dln 92 90 dx dp 4 3 dx egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5 fb 7 99 poly(5) vb vc ve vlp vln 0 4.085e6 4e6 4e6 4e6 4e6 ga 6 0 11 12 201.1e6 gcm 0 6 10 99 3.576e9 iss 3 10 dc 45.00e6 hlim 90 0 vlim 1k j1 11 2 10 jx j2 12 1 10 jx r2 6 9 100.0e3 rd1 4 11 4.973e3 rd2 4 12 4.973e3 ro1 8 5 280 ro2 7 99 280 rp 3 4 113.2e3 rss 10 99 4.444e6 vb 9 0 dc 0 vc 3 53 dc 2 ve 54 4 dc 2 vlim 7 8 dc 0 vlp 91 0 dc 50 vln 0 92 dc 50 .model dx d (is=800.0e18) .model jx pjf (is=1.000e12 beta=480e6 vto=1) .ends figure 37. macromodel subcircuit
tle2161, tle2161a, tle2161b excalibur jfet-input high-output-drive m power operational amplifiers slos049d november 1989 revised may 1996 28 post office box 655303 ? dallas, texas 75265 application information input characteristics the tle2161, tle2161a and tle2161b are specified with a minimum and a maximum input voltage that if exceeded at either input could cause the device to malfunction. because of the extremely high input impedance and resulting low bias-current requirements, the tle2161, tle2161a, and tle2161b are well suited for low-level signal processing; however, leakage currents on printed circuit boards and sockets can easily exceed bias-current requirements and cause degradation in system performance. it is a good practice to include guard rings around inputs (see figure 38). these guards should be driven from a low-impedance source at the same voltage level as the common-mode input. v i r2 r1 v i r4 + v o r3 v o + r3 r4 � r2 r1 where figure 38. use of guard rings input offset voltage nulling the tle2161 series offers external null pins that can further reduce the input offset voltage. the circuit in figure 39 can be connected as shown if the feature is desired. when external nulling is not needed, the null pins may be left disconnected. + v cc n2 n1 100 k w 5 k w in out in + figure 39. input offset voltage nulling
packaging information orderable device status (1) package type package drawing pins package qty eco plan (2) lead/ball finish msl peak temp (3) 5962-9095801q2a active lccc fk 20 1 tbd post-plate n / a for pkg type 5962-9095801qpa active cdip jg 8 1 tbd a42 n / a for pkg type 5962-9095802q2a active lccc fk 20 1 tbd post-plate n / a for pkg type 5962-9095802qpa active cdip jg 8 1 tbd a42 n / a for pkg type 5962-9095803q2a active lccc fk 20 1 tbd post-plate n / a for pkg type 5962-9095803qpa active cdip jg 8 1 tbd a42 n / a for pkg type tle2161acd active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161acdg4 active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161acp obsolete pdip p 8 tbd call ti call ti tle2161aid active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161aidg4 active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161aidr active soic d 8 2500 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161aidrg4 active soic d 8 2500 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161aip obsolete pdip p 8 tbd call ti call ti tle2161amfkb active lccc fk 20 1 tbd post-plate n / a for pkg type tle2161amjgb active cdip jg 8 1 tbd a42 n / a for pkg type tle2161bcp obsolete pdip p 8 tbd call ti call ti tle2161bip obsolete pdip p 8 tbd call ti call ti tle2161bmfkb active lccc fk 20 1 tbd post-plate n / a for pkg type tle2161bmjg active cdip jg 8 1 tbd a42 n / a for pkg type tle2161bmjgb active cdip jg 8 1 tbd a42 n / a for pkg type tle2161bmp obsolete pdip p 8 tbd call ti call ti tle2161cd active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161cdg4 active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161cp obsolete pdip p 8 tbd call ti call ti tle2161id active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161idg4 active soic d 8 75 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161idr active soic d 8 2500 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161idrg4 active soic d 8 2500 green (rohs & no sb/br) cu nipdau level-1-260c-unlim tle2161ip obsolete pdip p 8 tbd call ti call ti tle2161mfkb active lccc fk 20 1 tbd post-plate n / a for pkg type tle2161mjgb active cdip jg 8 1 tbd a42 n / a for pkg type tle2161mp obsolete pdip p 8 tbd call ti call ti package option addendum www.ti.com 16-oct-2009 addendum-page 1
(1) the marketing status values are defined as follows: active: product device recommended for new designs. lifebuy: ti has announced that the device will be discontinued, and a lifetime-buy period is in effect. nrnd: not recommended for new designs. device is in production to support existing customers, but ti does not recommend using this part in a new design. preview: device has been announced but is not in production. samples may or may not be available. obsolete: ti has discontinued the production of the device. (2) eco plan - the planned eco-friendly classification: pb-free (rohs), pb-free (rohs exempt), or green (rohs & no sb/br) - please check http://www.ti.com/productcontent for the latest availability information and additional product content details. tbd: the pb-free/green conversion plan has not been defined. pb-free (rohs): ti's terms "lead-free" or "pb-free" mean semiconductor products that are compatible with the current rohs requirements for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. where designed to be soldered at high temperatures, ti pb-free products are suitable for use in specified lead-free processes. pb-free (rohs exempt): this component has a rohs exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between the die and leadframe. the component is otherwise considered pb-free (rohs compatible) as defined above. green (rohs & no sb/br): ti defines "green" to mean pb-free (rohs compatible), and free of bromine (br) and antimony (sb) based flame retardants (br or sb do not exceed 0.1% by weight in homogeneous material) (3) msl, peak temp. -- the moisture sensitivity level rating according to the jedec industry standard classifications, and peak solder temperature. important information and disclaimer: the information provided on this page represents ti's knowledge and belief as of the date that it is provided. ti bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the accuracy of such information. efforts are underway to better integrate information from third parties. ti has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. ti and ti suppliers consider certain information to be proprietary, and thus cas numbers and other limited information may not be available for release. in no event shall ti's liability arising out of such information exceed the total purchase price of the ti part(s) at issue in this document sold by ti to customer on an annual basis. package option addendum www.ti.com 16-oct-2009 addendum-page 2
tape and reel information *all dimensions are nominal device package type package drawing pins spq reel diameter (mm) reel width w1 (mm) a0 (mm) b0 (mm) k0 (mm) p1 (mm) w (mm) pin1 quadrant tle2161aidr soic d 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 q1 tle2161idr soic d 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 q1 package materials information www.ti.com 15-dec-2008 pack materials-page 1
*all dimensions are nominal device package type package drawing pins spq length (mm) width (mm) height (mm) tle2161aidr soic d 8 2500 340.5 338.1 20.6 tle2161idr soic d 8 2500 346.0 346.0 29.0 package materials information www.ti.com 15-dec-2008 pack materials-page 2
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products www.dlp.com broadband www.ti.com/broadband dsp dsp.ti.com digital control www.ti.com/digitalcontrol clocks and timers www.ti.com/clocks medical www.ti.com/medical interface interface.ti.com military www.ti.com/military logic logic.ti.com optical networking www.ti.com/opticalnetwork power mgmt power.ti.com security www.ti.com/security microcontrollers microcontroller.ti.com telephony www.ti.com/telephony rfid www.ti-rfid.com video & imaging www.ti.com/video rf/if and zigbee? solutions www.ti.com/lprf wireless www.ti.com/wireless mailing address: texas instruments, post office box 655303, dallas, texas 75265 copyright ? 2009, texas instruments incorporated
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