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  • 型号: TLC2264AIPW
  • 制造商: Texas Instruments
  • 库位|库存: xxxx|xxxx
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TLC2264AIPW产品简介:

ICGOO电子元器件商城为您提供TLC2264AIPW由Texas Instruments设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 TLC2264AIPW价格参考¥7.87-¥17.81。Texas InstrumentsTLC2264AIPW封装/规格:线性 - 放大器 - 仪表,运算放大器,缓冲器放大器, 通用 放大器 4 电路 满摆幅 14-TSSOP。您可以下载TLC2264AIPW参考资料、Datasheet数据手册功能说明书,资料中有TLC2264AIPW 详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
-3db带宽

-

产品目录

集成电路 (IC)半导体

描述

IC OPAMP GP 730KHZ RRO 14TSSOP运算放大器 - 运放 Advanced LinCMOS Rail-To-Rail Quad

产品分类

Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps集成电路 - IC

品牌

Texas Instruments

产品手册

点击此处下载产品Datasheet

产品图片

rohs

符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求

产品系列

放大器 IC,运算放大器 - 运放,Texas Instruments TLC2264AIPWLinCMOS™

数据手册

点击此处下载产品Datasheet

产品型号

TLC2264AIPW

产品种类

运算放大器 - 运放

供应商器件封装

14-TSSOP

共模抑制比—最小值

70 dB

关闭

No Shutdown

其它名称

296-34337-5
TLC2264AIPW-ND

包装

管件

单位重量

57.200 mg

压摆率

0.55 V/µs

双重电源电压

+/- 3 V, +/- 5 V

商标

Texas Instruments

增益带宽生成

0.82 MHz

增益带宽积

730kHz

安装类型

表面贴装

安装风格

SMD/SMT

封装

Tube

封装/外壳

14-TSSOP(0.173",4.40mm 宽)

封装/箱体

TSSOP-14

工作温度

-40°C ~ 125°C

工作电源电压

4.4 V to 16 V, +/- 2.2 V to +/- 8 V

工厂包装数量

90

技术

LinCMOS

放大器类型

通用

最大双重电源电压

+/- 8 V

最大工作温度

+ 125 C

最小双重电源电压

+/- 2.2 V

最小工作温度

- 40 C

标准包装

90

电压-电源,单/双 (±)

4.4 V ~ 16 V, ±2.2 V ~ 8 V

电压-输入失调

300µV

电流-电源

850µA

电流-输入偏置

1pA

电流-输出/通道

50mA

电源电流

1 mA

电路数

4

系列

TLC2264A

转换速度

0.55 V/us

输入偏压电流—最大

150 pA

输入参考电压噪声

40 nV

输入补偿电压

950 uV

输出电流

50 mA

输出类型

满摆幅

通道数量

4 Channel

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PDF Datasheet 数据手册内容提取

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 (cid:0) (cid:0) Output Swing includes Both Supply Rails Low Input Offset Voltage (cid:0) Low Noise...12 nV/√Hz Typ at f = 1 kHz 950 µV Max at TA = 25°C (TLC2262A) (cid:0) Low Input Bias Current...1 pA Typ (cid:0) Macromodel Included (cid:0) (cid:0) Performance Upgrade for the TS27M2/M4 Fully Specified for Both Single-Supply and and TLC27M2/M4 Split-Supply Operation (cid:0) Low Power...500 µA Max (cid:0) Available in Q-Temp Automotive (cid:0) HighRel Automotive Applications Common-Mode Input Voltage Range Configuration Control/Print Support Includes Negative Rail Qualification to Automotive Standards description EQUIVALENT INPUT NOISE VOLTAGE vs The TLC2262 and TLC2264 are dual and FREQUENCY quadruple operational amplifiers from Texas 60 Instruments. Both devices exhibit rail-to-rail VDD = 5 V output performance for increased dynamic range zHz RS = 20 Ω in single- or split-supply applications. The v//HV/ 50 TA = 25°C TLC226x family offers a compromise between the – nn micropower TLC225x and the ac performance of ge the TLC227x. It has low supply current for olta 40 battery-powered applications, while still having e V adequate ac performance for applications that ois 30 demand it. The noise performance has been ut N dramatically improved over previous generations p n of CMOS amplifiers. Figure 1 depicts the low level nt I 20 of noise voltage for this CMOS amplifier, which ale has only 200 µA (typ) of supply current per uiv amplifier. Eq 10 – The TLC226x, exhibiting high input impedance VVN n 0 and low noise, are excellent for small-signal 10 102 103 104 conditioning for high-impedance sources, such as f – Frequency – Hz piezoelectric transducers. Because of the micro- power dissipation levels, these devices work well Figure 1 in hand-held monitoring and remote-sensing applications. In addition, the rail-to-rail output feature with single or split supplies makes this family a great choice when interfacing with analog-to-digital converters (ADCs). For precision applications, the TLC226xA family is available and has a maximum input offset voltage of 950 µV. This family is fully characterized at 5 V and ±5 V. The TLC2262/4 also makes great upgrades to the TLC27M2/L4 or TS27M2/L4 in standard designs. They offer increased output dynamic range, lower noise voltage and lower input offset voltage. This enhanced feature set allows them to be used in a wider range of applications. For applications that require higher output drive and wider input voltage range, see the TLV2432 and TLV2442. If your design requires single amplifiers, please see the TLV2211/21/31 family. These devices are single rail-to-rail operational amplifiers in the SOT-23 package. Their small size and low power consumption, make them ideal for high density, battery-powered equipment. Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet. Advanced LinCMOS is a trademark of Texas Instruments. PRODUCTION DATA information is current as of publication date. Copyright  2001, Texas Instruments Incorporated Products conform to specifications per the terms of Texas Instruments On products compliant to MIL-PRF-38535, all parameters are tested standard warranty. Production processing does not necessarily include unless otherwise noted. On all other products, production testing of all parameters. processing does not necessarily include testing of all parameters. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 1

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262 AVAILABLE OPTIONS PACKAGED DEVICES VIOmax SMALL CHIP CERAMIC PLASTIC CERAMIC TA AT 25°C OUTLINE CARRIER DIP DIP TSSOP FLATPACK (PW) (D) (FK) (JG) (P) (U) 0°C to 70°C 2.5 mV TLC2262CD — — TLC2262CP TLC2262CPW — 950 µµV TLC2262AID — — TLC2262AIP TLC2262AIPW — –4400°°CC ttoo 112255°°CC 2.5 mV TLC2262ID — — TLC2262IP — — 950 µµV TLC2262AQD — — — — — –4400°°CC ttoo 112255°°CC 2.5 mV TLC2262QD — — — — — 950 µV — TLC2262AMFK TLC2262AMJG — — TLC2262AMU –55°C to 125°C 2.5 mV — TLC2262MFK TLC2262MJG — — TLC2262MU The D packages are available taped and reeled. Add R suffix to device type (e.g., TLC2262CDR). The PW package is available only left-end taped and reeled. Chips are tested at 25°C. TLC2264 AVAILABLE OPTIONS PACKAGED DEVICES VIOmax SMALL CHIP CERAMIC PLASTIC CERAMIC TA AT 25°C OUTLINE CARRIER DIP DIP TSSOP FLATPACK (PW) (D) (FK) (J) (N) (W) 0°C to 70°C 2.5 mV TLC2264CD — — TLC2264CN TLC2264CPW — 950 µµV TLC2264AID — — TLC2264AIN TLC2264AIPW — –4400°°CC ttoo 112255°°CC 2.5 mV TLC2264ID — — TLC2264IN — — 950 µµV TLC2264AQD — — — — — –4400°°CC ttoo 112255°°CC 2.5 mV TLC2264QD — — — — — 950 µV — TLC2264AMFK TLC2264AMJ — — TLC2264AMW –55°C to 125°C 2.5 mV — TLC2264MFK TLC2264MJ — — TLC2264MW The D packages are available taped and reeled. Add R suffix to device type (e.g., TLC2264CDR). The PW package is available only left-end taped and reeled. Chips are tested at 25°C. 2 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262C, TLC2262AC TLC2262M, TLC2262AM...FK PACKAGE TLC2262I, TLC2262AI (TOP VIEW) TLC2262Q, TLC2262AQ T + D, P, OR PW PACKAGE U D (TOP VIEW) C O C DC N 1 N VN 1OUT 1 8 VDD+ NC 43 2 1 20 1918 NC 1IN– 2 7 2OUT 1IN– 5 17 2OUT 1IN+ 3 6 2IN– NC 6 16 NC VDD–/GND 4 5 2IN+ 1IN+ 7 15 2IN– NC 8 14 NC 9 10 11 12 13 CD C+ C NN NN N G 2I / – D D V NC – No internal connection TLC2262M, TLC2262AM...JG PACKAGE TLC2262M, TLC2262AM...U PACKAGE (TOP VIEW) (TOP VIEW) 1OUT 1 8 VDD+ NC 1 10 NC 1IN– 2 7 2OUT 1OUT 2 9 VCC+ 1IN+ 3 6 2IN– 1IN– 3 8 2OUT VDD–/GND 4 5 2IN+ 1IN+ 4 7 2IN– VCC–/GND 5 6 2IN+ NC – No internal connection TLC2264C, TLC2264AC TLC2264I, TLC2264AI TLC2264M, TLC2264AM...FK PACKAGE TLC2264Q, TLC2264AQ (TOP VIEW) D, N, O(TRO PPW V IPEAWC)KAGE TLC2264M, TLC22(T6O4APM VI.E.W.J) OR W PACKAGE N – OUT COUT N – 1I 1 N4 4I 1OUT 1 14 4OUT 1OUT 1 14 4OUT 3 2 1 20 19 1IN– 2 13 4IN– 1IN– 2 13 4IN– 1IN+ 4 18 4IN+ 1IN+ 3 12 4IN+ 1IN+ 3 12 4IN+ NC 5 17 NC VDD+ 4 11 VDD–/GND VDD+ 4 11 VDD–/GND VCC+ 6 16 VCC–/GND 2IN+ 5 10 3IN+ 2IN+ 5 10 3IN+ NC 7 15 NC 2IN– 6 9 3IN– 2IN– 6 9 3IN– 2IN+ 8 14 3IN+ 9 10 11 12 13 2OUT 7 8 3OUT 2OUT 7 8 3OUT – T CT – N U NU N 2I 2O 3O 3I NC – No internal connection POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 3

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 equivalent schematic (each amplifier) VDD+ Q3 Q6 Q9 Q12 Q14 Q16 IN+ OUT C1 IN– R5 Q1 Q4 Q13 Q15 Q17 D1 Q2 Q5 Q7 Q8 Q10 Q11 R3 R4 R1 R2 VDD–/GND ACTUAL DEVICE COMPONENT COUNT† COMPONENT TLC2262 TLC2264 Transistors 38 76 Resistors 28 56 Diodes 9 18 Capacitors 3 6 †Includes both amplifiers and all ESD, bias, and trim circuitry 4 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 absolute maximum ratings over operating free-air temperature range (unless otherwise noted)† Supply voltage, V (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 V DD+ Supply voltage, V (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –8 V DD– Differential input voltage, V (see Note 2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±16 V ID Input voltage, V (any input, see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . V – 0.3 V to V I DD– DD+ Input current, I (each input) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±5 mA I Output current, I . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±50 mA O Total current into V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±50 mA DD+ Total current out of V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±50 mA DD– Duration of short-circuit current at (or below) 25°C (see Note 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . unlimited Continuous total dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Dissipation Rating Table Operating free-air temperature range, T : C suffix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0°C to 70°C A I suffix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –40°C to 125°C Q suffix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –40°C to 125°C M suffix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –55°C to 125°C Storage temperature range, T . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –65°C to 150°C stg Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds: D, N, P, and PW packages . . . . . . . 260°C J, JG, U, and W packages . . . . . . . 300°C †Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” 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 VDD+ and VDD–. 2. Differential voltages are at IN+ with respect to IN–. Excessive current flows if input is brought below VDD– – 0.3 V. 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 PPAACCKKAAGGEE TAA ≤ 25°C DERATING FACTOR TAA = 70°C TAA = 85°C TAA = 125°C POWER RATING ABOVE TA = 25°C POWER RATING POWER RATING POWER RATING D–8 725 mW 5.8 mW/°C 464 mW 377 mW 145 mW D–14 950 mW 7.6 mW/°C 608 mW 494 mW 190 mW FK 1375 mW 11.0 mW/°C 880 mW 715 mW 275 mW J 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 N 1150 mW 9.2 mW/°C 736 mW 598 mW 230 mW P 1000 mW 8.0 mW/°C 640 mW 520 mW 200 mW PW–8 525 mW 4.2 mW/°C 336 mW 273 mW 105 mW PW–14 700 mW 5.6 mW/°C 448 mW 364 mW 140 mW U 700 mW 5.5 mW/°C 452 mW 370 mW 150 mW W 700 mW 5.5 mW/°C 452 mW 370 mW 150 mW recommended operating conditions C SUFFIX I SUFFIX Q SUFFIX M SUFFIX UUNNIITT MIN MAX MIN MAX MIN MAX MIN MAX Supply voltage, VDD± ±2.2 ±8 ±2.2 ±8 ±2.2 ±8 ±2.2 ±8 V Input voltage range, VI VDD– VDD+ –1.5 VDD– VDD+ –1.5 VDD– VDD+ –1.5 VDD– VDD+ –1.5 V Common-mode input voltage, VIC VDD– VDD+ –1.5 VDD– VDD+ –1.5 VDD– VDD+ –1.5 VDD– VDD+ –1.5 V Operating free-air temperature, TA 0 70 –40 125 –40 125 –55 125 °C POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 5

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262C electrical characteristics at specified free-air temperature, V = 5 V (unless otherwise DD noted) TLC2262C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX 25°C 300 2500 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 25°C αVIO Temperature coefficient of input offset voltage to 70°C 2 µV/°C Input offset voltage long-term drift VIC = 0, VDD± = ±2.5 V, 25°C 0.003 µV/mo (see Note 4) VOO = 0, RSS = 50 Ω 25°C 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt ppAA Full range 100 25°C 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt ppAA Full range 100 0 –0.3 25°C to to 4 4.2 VVIICCRR CCoommmmoonn-mmooddee iinnppuutt vvoollttaaggee rraannggee RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV VV 0 Full range to 3.5 IOH = –20 µA 25°C 4.99 25°C 4.85 4.94 IIOOHH == –110000 µµAA VOH High-level output voltage Full range 4.82 V 25°C 4.70 4.85 IIOOHH == –440000 µµAA Full range 4.60 VIC = 2.5 V, IOL = 50 µA 25°C 0.01 25°C 0.09 0.15 VVIICC == 22.55 VV, IIOOLL == 550000 µµAA Full range 0.15 VOL Low-level output voltage 25°C 0.2 0.3 V VVIICC == 22.55 VV, IIOOLL == 11 (cid:0)(cid:0)AA Full range 0.3 25°C 0.7 1 VVIICC == 22.55 VV, IIOOLL == 44 (cid:0)(cid:0)AA Full range 1.2 25°C 80 170 AVVDD Largge-siggnal differential voltagge amplification VVVVIOOC === 1122 .VV55 ttVVoo, 44 VV RRL = 5500 kkΩΩ‡‡ Full range 55 V/mV RL = 1 MΩ‡ 25°C 550 ri(d) Differential input resistance 25°C 1012 Ω ri(c) Common-mode input resistance 25°C 1012 Ω ci(c) Common-mode input capacitance f = 10 kHz, P package 25°C 8 pF zo Closed-loop output impedance f = 100 kHz, AV = 10 25°C 240 Ω CCMMRRRR CCoommmmoonn-mmooddee rreejjeeccttiioonn rraattiioo VIICC = 0 to 2.7 V,, VOO = 2.5 V,, 25°C 70 83 ddBB RS = 50Ω Full range 70 kkSSVVRR SSuuppppllyy-vvoollttaaggee rreejjeeccttiioonn rraattiioo ((∆∆VVDDDD//∆∆VVIIOO)) VDDDD = 4.4 V to 16 V,, 25°C 80 95 ddBB VIC = VDD/2, No load Full range 80 25°C 400 500 IIDDDD SSuuppppllyy ccuurrrreenntt VVOO == 22.55 VV, NNoo llooaadd µµAA Full range 500 †Full range is 0°C to 70°C. ‡Referenced to 2.5 V NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 6 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262C operating characteristics at specified free-air temperature, V = 5 V DD TLC2262C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX SSRR SSlleeww rraattee aatt uunniittyy ggaaiinn VOO = 1.5 V to 3.5 V,, RLL = 50 kΩ‡,, 25°C 0.35 0.55 VV//µµss CL = 100 pF‡ Full range 0.3 f = 10 Hz 25°C 40 VVn EEqquuiivvaalleenntt iinnppuutt nnooiissee vvoollttaaggee nnVV//√√HHzz f = 1 kHz 25°C 12 Peak-to-peak eqquivalent input noise f = 0.1 Hz to 1 Hz 25°C 0.7 VVNN((PPPP)) µµVV voltage f = 0.1 Hz to 10 Hz 25°C 1.3 In Equivalent input noise current 25°C 0.6 fA√Hz VO = 0.5 V to 2.5 V, AV = 1 0.017% TTHHDD ++ NN TToottaall hhaarrmmoonniicc ddiissttoorrttiioonn pplluuss nnooiissee ff = 2200 kkHHzz, 2255°°CC RL = 50 kΩ‡ AV = 10 0.03% Gain-bandwidth product fC =L 1=0 1 0k0H zp,F ‡ RL = 50 kΩ‡, 25°C 0.71 MHz BOM Maximum output-swing bandwidth VROL (=P 5P0) =kΩ 2‡ V,, ACVL == 11,0 0 pF‡ 25°C 185 kHz AAVV == –11,, TToo 00.11%% 66.44 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 00 .k5Ω V‡ ,to 2.5 V,, 2255°°CC µµss CL = 100 pF‡‡ TToo 00.0011%% 1144.11 φm Phase margin at unity gain RRLL == 5500 kkΩΩ‡‡, CCLL == 110000 ppFF‡‡ 25°C 56° Gain margin 25°C 11 dB †Full range is 0°C to 70°C. ‡Referenced to 2.5 V POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 7

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262C electrical characteristics at specified free-air temperature, VDD± = ±5 V (unless otherwise specified) TLC2262C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX 25°C 300 2500 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 25°C ααVVIIOO TTeemmppeerraattuurree ccooeeffffiicciieenntt ooff iinnppuutt ooffffsseett vvoollttaaggee to 70°C 22 µµVV//°°CC Input offset voltage long-term drift (see Note 4) VIC = 0, VO = 0, 25°C 0.003 µV/mo RRSS == 5500 ΩΩ 25°C 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt ppAA Full range 100 25°C 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt ppAA Full range 100 –55 –55..33 25°C to to 4 4.2 VVIICCRR CCoommmmoonn-mmooddee iinnppuutt vvoollttaaggee rraannggee ||VVIIOO|| ≤≤55 mmVV, RRSS == 5500 ΩΩ VV –55 Full rangge to 3.5 IO = –20 µA 25°C 4.99 25°C 4.85 4.94 IIOO == –110000 µµAA VOM+ Maximum positive peak output voltage Full range 4.82 V 25°C 4.7 4.85 IIOO == –440000 µµAA Full range 4.6 VIC = 0, IO = 50 µA 25°C –4.99 25°C –4.85 –4.91 VVIICC == 00, IIOO == 550000 µµAA Full range –4.85 VOM– Maximum negative peak output voltage 25°C –4.7 –4.8 V VVIICC == 00, IIOO == 11 (cid:0)(cid:0)AA Full range –4.7 25°C –4 –4.3 VVIICC == 00, IIOO == 44 (cid:0)(cid:0)AA Full range –3.8 25°C 80 200 RRLL == 5500 kkΩΩ AVD Large-signal differential voltage amplification VO = ±4 V Full range 55 V/mV RL = 1 MΩ 25°C 1000 ri(d) Differential input resistance 25°C 1012 Ω ri(c) Common-mode input resistance 25°C 1012 Ω ci(c) Common-mode input capacitance f = 10 kHz, P package 25°C 8 pF zo Closed-loop output impedance f = 100 kHz, AV = 10 25°C 220 Ω CCMMRRRR CCoommmmoonn-mmooddee rreejjeeccttiioonn rraattiioo VIICC = –5 V to 2.7 V,, 25°C 75 88 ddBB VO = 0 V, RS = 50Ω Full range 75 kkSSVVRR SSuuppppllyy-vvoollttaaggee rreejjeeccttiioonn rraattiioo ((∆∆VVDDDD±± //∆∆VVIIOO)) VDDDD±± = 2.2 V to ±8 V,, 25°C 80 95 ddBB VIC = 0, No load Full range 80 25°C 425 500 IIDDDD SSuuppppllyy ccuurrrreenntt VVOO == 00 VV, NNoo llooaadd µµAA Full range 500 †Full range is 0°C to 70°C. NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 8 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262C operating characteristics at specified free-air temperature, VDD± = ±5 V TLC2262C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX 25°C 0.35 0.55 SR Slew rate at unity gain VVCCOOLL ==== 11±±001100. 99p FFVV, RRLL == 5500 kkΩΩ Full 00.33 V/µs range f = 10 Hz 25°C 43 VVn EEqquuiivvaalleenntt iinnppuutt nnooiissee vvoollttaaggee nnVV//√√HHzz f = 1 kHz 25°C 12 Peak-to-peak eqquivalent input noise f = 0.1 Hz to 1 Hz 25°C 0.8 VVNN((PPPP)) µµVV voltage f = 0.1 Hz to 10 Hz 25°C 1.3 In Equivalent input noise current 25°C 0.6 fA√Hz VO = ±2.3 V, AV = 1 0.014% TTHHDD ++ NN TToottaall hhaarrmmoonniicc ddiissttoorrttiioonn ppuullssee dduurraattiioonn ff = 2200 kkHHzz, 2255°°CC RL = 50 kΩ AV = 10 0.024% GGaaiinn-bbaannddwwiiddtthh pprroodduucctt f = 10 kHz,, RLL = 50 kΩ 2255°°CC 00.7733 MMHHzz CL = 100 pF BBOOMM MMaaxxiimmuumm oouuttppuutt-sswwiinngg bbaannddwwiiddtthh VROOL ((=PP 5PP0)) =kΩ 4,.6 V, ACVVL == 11,00 pF 2255°°CC 8855 kkHHzz AAVV == –11,, TToo 00.11%% 77.11 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 0– k2Ω.3, V to 2.3 V,, 2255°°CC µµss TToo 00.0011%% 1166.55 CL = 100 pF φm Phase margin at unity gain 25°C 57° Gain margin RRLL == 5500 kkΩΩ, CCLL == 110000 ppFF 25°C 11 dB †Full range is 0°C to 70°C. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 9

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264C electrical characteristics at specified free-air temperature, V = 5 V (unless otherwise DD noted) TLC2264C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX 25°C 300 2500 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 25°C αVIO Temperature coefficient of input offset voltage to 70°C 2 µV/°C Input offset voltage long-term drift VIC = 0, VDD± = ±2.5 V, 25°C 0.003 µV/mo (see Note 4) VOO = 0, RSS = 50 Ω 25°C 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt ppAA Full range 100 25°C 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt ppAA Full range 100 0 –0.3 25°C to to 4 4.2 VVIICCRR CCoommmmoonn-mmooddee iinnppuutt vvoollttaaggee rraannggee RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV VV 0 Full range to 3.5 IOH = –20 µA 25°C 4.99 25°C 4.85 4.94 IIOOHH == –110000 µµAA VOH High-level output voltage Full range 4.82 V 25°C 4.70 4.85 IIOOHH == –440000 µµAA Full range 4.60 VIC = 2.5 V, IOL = 50 µA 25°C 0.01 25°C 0.09 0.15 VVIICC == 22.55 VV, IIOOLL == 550000 µµAA Full range 0.15 VOL Low-level output voltage 25°C 0.2 0.3 V VVIICC == 22.55 VV, IIOOLL == 11 (cid:0)(cid:0)AA Full range 0.3 25°C 0.7 1 VVIICC == 22.55 VV, IIOOLL == 44 (cid:0)(cid:0)AA Full range 1.2 25°C 80 170 AVVDD Largge-siggnal differential voltagge amplification VVVVIOOC === 1122 .VV55 ttVVoo, 44 VV RRL = 5500 kkΩΩ‡‡ Full range 55 V/mV RL = 1 MΩ‡ 25°C 550 ri(d) Differential input resistance 25°C 1012 Ω ri(c) Common-mode input resistance 25°C 1012 Ω ci(c) Common-mode input capacitance f = 10 kHz, N package 25°C 8 pF zo Closed-loop output impedance f = 100 kHz, AV = 10 25°C 240 Ω CCMMRRRR CCoommmmoonn-mmooddee rreejjeeccttiioonn rraattiioo VIICC = 0 to 2.7 V,, VOO = 2.5 V,, 25°C 70 83 ddBB RS = 50Ω Full range 70 VDD = 4.4 V to 16 V, 25°C 80 95 kkSSVVRR SSuuppppllyy-vvoollttaaggee rreejjeeccttiioonn rraattiioo ((∆∆VVDDDD//∆∆VVIIOO)) ddBB VIC = VDD/2, No load Full range 80 25°C 0.8 1 IIDDDD SSuuppppllyy ccuurrrreenntt ((ffoouurr aammpplliiffiieerrss)) VVOO == 22.55 VV, NNoo llooaadd mmAA Full range 1 †Full range is 0°C to 70°C. ‡Referenced to 2.5 V NOTE 4. Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 10 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264C operating characteristics at specified free-air temperature, V = 5 V DD TLC2264C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTA†† UUNNIITT MIN TYP MAX 25°C 0.35 0.55 SR Slew rate at unity gain VVCCOOLL ==== 111100.4400 VVpFF ttoo‡‡ 22.66 VV, RRLL == 5500 kkΩΩ‡‡, Full 00.33 V/µs range f = 10 Hz 25°C 40 VVn EEqquuiivvaalleenntt iinnppuutt nnooiissee vvoollttaaggee nnVV//√√HHzz f = 1 kHz 25°C 12 Peak-to-peak eqquivalent input noise f = 0.1 Hz to 1 Hz 25°C 0.7 VVNN((PPPP)) µµVV voltage f = 0.1 Hz to 10 Hz 25°C 1.3 In Equivalent input noise current 25°C 0.6 fA/√Hz VO = 0.5 V to 2.5 V, AV = 1 0.017% TTHHDD ++ NN TToottaall hhaarrmmoonniicc ddiissttoorrttiioonn pplluuss nnooiissee ff = 2200 kkHHzz, 2255°°CC RL = 50 kΩ‡ AV = 10 0.03% Gain-bandwidth product fC =L 1=0 1 k0H0z p, F‡ RL = 50 kΩ‡, 25°C 0.71 MHz BOM Maximum output-swing bandwidth VROL (=P 5P0) =kΩ 2‡ V,, ACVL == 11,0 0 pF‡ 25°C 185 kHz AAVV == –11,, TToo 00.11%% 66.44 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 00 .k5Ω V‡ ,to 2.5 V,, 2255°°CC µµss CL = 100 pF‡‡ TToo 00.0011%% 1144.11 φm Phase margin at unity gain RRLL == 5500 kkΩΩ‡‡, CCLL == 110000 ppFF‡‡ 25°C 56° Gain margin 25°C 11 dB †Full range is 0°C to 70°C. ‡Referenced to 2.5 V POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 11

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264C electrical characteristics at specified free-air temperature, VDD± = ±5 V (unless otherwise specified) TLC2264C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX 25°C 300 2500 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 25°C ααVVIIOO TTeemmppeerraattuurree ccooeeffffiicciieenntt ooff iinnppuutt ooffffsseett vvoollttaaggee to 70°C 22 µµVV//°°CC Input offset voltage long-term drift (see Note 4) VIC = 0, VO = 0, 25°C 0.003 µV/mo RRSS == 5500 ΩΩ 25°C 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt ppAA Full range 100 25°C 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt ppAA Full range 100 –55 –55..33 25°C to to 4 4.2 VVIICCRR CCoommmmoonn-mmooddee iinnppuutt vvoollttaaggee rraannggee ||VVIIOO|| ≤≤55 mmVV, RRSS == 5500 ΩΩ VV –55 Full rangge to 3.5 IO = –20 µA 25°C 4.99 25°C 4.85 4.94 IIOO == –110000 µµAA VOM+ Maximum positive peak output voltage Full range 4.82 V 25°C 4.7 4.85 IIOO == –440000 µµAA Full range 4.6 VIC = 0, IO = 50 µA 25°C –4.99 25°C –4.85 –4.91 VVIICC == 00, IIOO == 550000 µµAA Full range –4.85 VOM– Maximum negative peak output voltage 25°C –4.7 –4.8 V VVIICC == 00, IIOO == 11 (cid:0)(cid:0)AA Full range –4.7 25°C –4 –4.3 VVIICC == 00, IIOO == 44 (cid:0)(cid:0)AA Full range –3.8 25°C 80 200 RRLL == 5500 kkΩΩ AVD Large-signal differential voltage amplification VO = ±4 V Full range 55 V/mV RL = 1 MΩ 25°C 1000 ri(d) Differential input resistance 25°C 1012 Ω ri(c) Common-mode input resistance 25°C 1012 Ω ci(c) Common-mode input capacitance f = 10 kHz, N package 25°C 8 pF zo Closed-loop output impedance f = 100 kHz, AV = 10 25°C 220 Ω VIC = –5 V to 2.7 V, 25°C 75 88 CCMMRRRR CCoommmmoonn-mmooddee rreejjeeccttiioonn rraattiioo ddBB VO = 0, RS = 50Ω Full range 75 VDD± = ±2.2 V to ±8 V, 25°C 80 95 kkSSVVRR SSuuppppllyy-vvoollttaaggee rreejjeeccttiioonn rraattiioo ((∆∆VVDDDD±± //∆∆VVIIOO)) ddBB VIC = 0, No load Full range 80 25°C 0.85 1 IIDDDD SSuuppppllyy ccuurrrreenntt ((ffoouurr aammpplliiffiieerrss)) VVOO == 00, NNoo llooaadd mmAA Full range 1 †Full range is 0°C to 70°C. NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 12 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264C operating characteristics at specified free-air temperature, VDD± = ±5 V TLC2264C PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTA†† UUNNIITT MIN TYP MAX 25°C 0.35 0.55 SR Slew rate at unity gain VVCCOOLL ==== 11±±001100. 99p FFVV, RRLL == 5500 kkΩΩ, Full 00.33 V/µs range f = 10 Hz 25°C 43 VVn EEqquuiivvaalleenntt iinnppuutt nnooiissee vvoollttaaggee nnVV//√√HHzz f = 1 kHz 25°C 12 Peak-to-peak eqquivalent input noise f = 0.1 Hz to 1 Hz 25°C 0.8 VVNN((PPPP)) µµVV voltage f = 0.1 Hz to 10 Hz 25°C 1.3 In Equivalent input noise current 25°C 0.6 fA/√Hz VO = ±2.3 V, AV = 1 0.014% TTHHDD ++ NN TToottaall hhaarrmmoonniicc ddiissttoorrttiioonn pplluuss nnooiissee ff = 2200 kkHHzz, 2255°°CC RL = 50 kΩ AV = 10 0.024% GGaaiinn-bbaannddwwiiddtthh pprroodduucctt f = 10 kHz,, RLL = 50 kΩ,, 2255°°CC 00.7733 MMHHzz CL = 100 pF BBOOMM MMaaxxiimmuumm oouuttppuutt-sswwiinngg bbaannddwwiiddtthh VROOL ((=PP 5PP0)) =kΩ 4,.6 V,, ACVVL == 11,,00 pF 2255°°CC 7700 kkHHzz AAVV == –11,, TToo 00.11%% 77.11 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 0– k2Ω.3, V to 2.3 V,, 2255°°CC µµss TToo 00.0011%% 1166.55 CL = 100 pF φm Phase margin at unity gain 25°C 57° Gain margin RRLL == 5500 kkΩΩ, CCLL == 110000 ppFF 25°C 11 dB †Full range is 0°C to 70°C. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 13

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262I electrical characteristics at specified free-air temperature, V = 5 V (unless otherwise DD noted) TLC2262I TLC2262AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature 25°C ααVVIIOO ccooeeffffiicciieenntt to 85°C 22 22 µµVV//°°CC of input offset voltage Input offset voltage long-term drift VDD± = ±2.5 V, VIC = 0, 25°C 0.003 0.003 µV/mo (see Note 4) VOO = 0,, RSS = 50 Ω 25°C 0.5 0.5 ppAA IIO Input offset current 85°C 150 150 Full range 800 800 pA 25°C 1 1 pA IIIB Input bias current 85°C 150 150 pA Full range 800 800 pA 0 –0.3 0 –0.3 25°C to to to to Common-mode input 4 4.2 4 4.2 VVIICCRR voltage range RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV 0 0 VV Full rangge to to 3.5 3.5 IOH = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 HHiigghh-lleevveell oouuttppuutt IIOOHH == –110000 µµAA VOH Full range 4.82 4.82 V vvoollttaaggee 25°C 4.7 4.85 4.7 4.85 IIOOHH == –440000 µµAA Full range 4.5 4.5 VIC = 2.5 V, IOL = 50 µA 25°C 0.01 0.01 25°C 0.09 0.15 0.09 0.15 LLooww-lleevveell oouuttppuutt VVIICC == 22.55 VV, IIOOLL == 550000 µµAA VOL Full range 0.15 0.15 V vvoollttaaggee 25°C 0.8 1 0.7 1 VVIICC == 22.55 VV, IIOOLL == 44 (cid:0)(cid:0)AA Full range 1.2 1.2 LLaarrggee-ssiiggnnaall VVIC = 22.55 VV, RRLL = 5500 kkΩΩ‡‡ 25°C 80 100 80 170 AVVDD differential VVOO == 11 VV ttoo 44 VV Full range 50 50 V/mV voltage amplification RL = 1 MΩ‡ 25°C 550 550 Differential input ri(d) resistance 25°C 1012 1012 Ω Common-mode input ri(c) resistance 25°C 1012 1012 Ω Common-mode input ci(c) capacitance f = 10 kHz, P package 25°C 8 8 pF Closed-loop output zo impedance f = 100 kHz, AV = 10 25°C 240 240 Ω CCMMRRRR Common-mode VIICC = 0 to 2.7 V,, VOO = 2.5 V,, 25°C 70 83 70 83 ddBB rejection ratio RS = 50Ω Full range 70 70 †Full range is – 40°C to 125°C. ‡Referenced to 2.5 V NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 14 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262I operating characteristics at specified free-air temperature, V = 5 V DD TLC2262I TLC2262AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX MIN TYP MAX Supplyy-voltagge re- 25°C 80 95 80 95 VVDDDD == 44.44 VV ttoo 1166 VV, kSVR j(e∆cVtiDoDn r/∆atVioIO) VIC = VDD/2, No load raFnuglle 80 80 dB 25°C 400 500 400 500 IDD Supply current VO = 2.5 V, No load Full µA 500 500 range 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL ==== 111100.5500 VVpFF ttoo‡‡ 33.55 VV, RRLL = 5500 kkΩΩ‡‡, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 40 40 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.7 0.7 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA√Hz Total harmonic VO = 0.5 V to 2.5 V, AV = 1 0.017% 0.017% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss ff = 2200 kkHHzz, 2255°°CC noise RL = 50 kΩ‡ AV = 10 0.03% 0.03% Gain-bandwidth ff = 5500 kkHHzz,, RRLL = 5500 kkΩΩ‡,, 2255°°CC 00.8822 00.8822 MMHHzz product CL = 100 pF‡ BBOOMM Mswaixnigm buamn dowutipdutht- VROOL ((=PP 5PP0)) =kΩ 2‡ V,,, CAVVL == 11,,00 pF‡ 2255°°CC 118855 118855 kkHHzz AAVV == –11,, TToo 00.11%% 66.44 66.44 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 00 .k5Ω V‡ ,to 2.5 V,, 2255°°CC µµss CL = 100 pF‡‡ TToo 00.0011%% 1144.11 1144.11 Phase margin at φm unity gain RLL = 50 kΩ‡,, CLL = 100 pF‡ 25°C 56° 56° Gain margin 25°C 11 11 dB †Full range is – 40°C to 125°C. ‡Referenced to 2.5 V POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 15

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262I electrical characteristics at specified free-air temperature, VDD± = ±5 V (unless otherwise noted) TLC2262I TLC2262AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature coefficient of 25°C ααVVIIOO input offset voltage to 85°C 22 22 µµVV//°°CC Input offset voltage long-term drift 25°C 0.003 0.003 µV/mo (see Note 4) VIC = 0, VO = 0 RRS = 5500 ΩΩ 25°C 0.5 0.5 pA IIO Input offset current 85°C 150 150 pA Full range 800 800 pA 25°C 1 1 pA IIB Input bias current 85°C 150 150 pA Full range 800 800 pA –5 –5.3 –5 –5.3 2255°°CC Common-mode input to 4 to 4.2 to 4 to 4.2 VVIICCRR RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV VV voltage range –5 –5 FFuullll rraannggee to 3.5 to 3.5 IO = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 MMaxiimum posiittiive peakk IIOO == –110000 µµAA VOM+ Full range 4.82 4.82 V oouuttpuutt vvoollttaaggee 25°C 4.7 4.85 4.7 4.85 IIOO == –440000 µµAA Full range 4.5 4.5 VIC = 0, IO = 50 µA 25°C –4.99 –4.99 25°C –4.85 –4.91 –4.85 –4.91 MMaxiimum negattiive peakk VVIICC == 00, IIOO == 550000 µµAA VOM– Full range –4.85 –4.85 V oouuttpuutt vvoollttaaggee 25°C –4 –4.3 –4 –4.3 VVIICC == 00, IIOO == 44 (cid:0)(cid:0)AA Full range –3.8 –3.8 25°C 80 200 80 200 LLarge-siignall ddiifffferenttiiall RRLL == 5500 kkΩΩ AVD VO = ±4 V Full range 50 50 V/mV vvoollttaaggee aammplliiffiiccaattiioonn RL = 1 MΩ 25°C 1000 1000 Differential input ri(d) resistance 25°C 1012 1012 Ω Common-mode input ri(c) resistance 25°C 1012 1012 Ω Common-mode input ci(c) capacitance f = 10 kHz, P package 25°C 8 8 pF Closed-loop output zo impedance f = 100 kHz, AV = 10 25°C 220 220 Ω CCMMRRRR Common-mode VIICC = –5 V to 2.7 V,, 25°C 75 88 75 88 ddBB rejection ratio VO = 0, RS = 50Ω Full range 75 75 kkSSVVRR Srautipop (l∆yy-VvDolDta±gg e/∆ rVejjIeOc)tion VVIDDCDD = = V 4D.4D V/2 t,o N 1o6 l oVa,,d Fu2ll 5ra°Cnge 8800 95 8800 95 ddBB †Full range is – 40°C to 125°C. NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 16 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262I operating characteristics at specified free-air temperature, VDD± = ±5 V TLC2262I TLC2262AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX MIN TYP MAX 25°C 425 500 425 500 IDD Supply Current VO = 2.5 V, No load Full 500 500 range 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL ==== 11±±001100. 99p FFVV, RRLL == 5500 kkΩΩ, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 43 43 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.8 0.8 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA√Hz Total harmonic VO = ±2.3 V, AV = 1 0.014% 0.014% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss RRLL = 5500 kkΩΩ, 2255°°CC noise f = 20 kHz AV = 10 0.024% 0.024% Gain-bandwidth f =10 kHz,, RLL = 50 kΩ,, 2255°°CC 00.7733 00.7733 MMHHzz product CL = 100 pF Maximum BBOOMM oouuttppuutt-sswwiinngg VROOL ((=PP 5PP0)) =kΩ 4,.6 V,, ACVVL == 11,,00 pF 2255°°CC 8855 8855 kkHHzz bandwidth AAVV == –11,, TToo 00.11%% 77.11 77.11 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 0– k2Ω.3, V to 2.3 V,, 2255°°CC µµss TToo 00.0011%% 1166.55 1166.55 CL = 100 pF Phase margin at φm unity gain RLL = 50 kΩ, CLL = 100 pF 25°C 57° 57° Gain margin 25°C 11 11 dB †Full range is –40°C to 125°C. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 17

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264I electrical characteristics at specified free-air temperature, V = 5 V (unless otherwise DD noted) TLC2264I TLC2264AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTA†† UUNNIITT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature coefficient 25°C αVIO of input offset voltage to 125°C 2 2 µV/°C Input offset voltage 25°C 0.003 0.003 µV/mo long-term drift (see Note 4) VVDDDD±± =±±22..55 VV,, VVIICC = 00,, VO = 0, RS = 50 Ω 25°C 0.5 0.5 IIO Input offset current 85°C 150 150 pA Full range 800 800 25°C 1 1 IIB Input bias current 85°C 150 150 pA Full range 800 800 0 –0.3 0 –0.3 25°C to to to to Common-mode input 4 4.2 4 4.2 VVIICCRR voltage range RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV 0 0 VV Full range to to 3.5 3.5 IOH = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 HHiigghh-lleevveell oouuttppuutt IIOOHH == –110000 µµAA VOH Full range 4.82 4.82 V vvoollttaaggee 25°C 4.7 4.85 4.7 4.85 IIOOHH == –440000 µµAA Full range 4.5 4.5 VIC = 2.5 V, IOL = 50 µA 25°C 0.01 0.01 25°C 0.09 0.15 0.09 0.15 LLooww-lleevveell oouuttppuutt VVIICC == 22.55 VV, IIOOLL == 550000 µµAA VOL Full range 0.15 0.15 V vvoollttaaggee 25°C 0.8 1 0.7 1 VVIICC == 22.55 VV, IIOOLL == 44 (cid:0)(cid:0)AA Full range 1.2 1.2 25°C 80 100 80 170 LLaarrggee-ssiiggnnaall ddiiffffeerreennttiiaall VVIC = 22.55 VV, RRLL = 5500 kkΩΩ‡‡ AVVDD vvoollttaaggee aammplliiffiiccaattiioonn VVOO == 11 VV ttoo 44 VV Full range 50 50 V/mV RL = 1 MΩ‡ 25°C 550 550 Differential input ri(d) resistance 25°C 1012 1012 Ω Common-mode ri(c) input resistance 25°C 1012 1012 Ω Common-mode ci(c) input capacitance f = 10 kHz, N package 25°C 8 8 pF Closed-loop zo output impedance f = 100 kHz, AV = 10 25°C 240 240 Ω Common-mode VIICC = 0 to 2.7 V, VOO = 2.5 V, 25°C 70 83 70 83 CCMMRRRR rejection ratio RS = 50Ω Full range 70 70 ddBB Supply-voltage VDD = 4.4 V to 16 V, 25°C 80 95 80 95 kkSSVVRR rreejjeeccttiioonn rraattiioo ddBB (∆VDD/∆VIO) VIC = VDD/2, No load Full range 80 80 †Full range is – 40°C to 125°C. ‡Referenced to 2.5 V NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 18 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264I operating characteristics at specified free-air temperature, V = 5 V DD TLC2264I TLC2264AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTA†† UUNNIITT MIN TYP MAX MIN TYP MAX 25°C 0.8 1 0.8 1 SSuuppppllyy ccuurrrreenntt IDD (four amplifiers) VO = 2.5 V, No load Full 1 1 V/µs range 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL === 111100.4400 VVpFF ttoo‡‡ 22.66 VV, RRLL = 5500 kkΩΩ‡‡, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 40 40 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.7 0.7 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA/√Hz Total harmonic VO = 0.5 V to 2.5 V, AV = 1 0.017% 0.017% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss ff = 2200 kkHHzz, 2255°°CC noise RL = 50 kΩ‡ AV = 10 0.03% 0.03% Gain-bandwidth ff = 5500 kkHHzz,, RRLL = 5500 kkΩΩ‡,, 2255°°CC 00.7711 00.7711 MMHHzz product CL = 100 pF‡ BBOOMM Mswaixnigm buamn dowutipdutht- VROOL ((=PP 5PP0)) =kΩ 2‡ V,,, CAVVL == 11,,00 pF‡ 2255°°CC 118855 118855 kkHHzz AAVV == –11,, TToo 00.11%% 66.44 66.44 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 00 .k5Ω V‡ ,to 2.5 V,, 2255°°CC µµss CL = 100 pF‡‡ TToo 00.0011%% 1144.11 1144.11 Phase margin at φm unity gain RLL = 50 kΩ‡,, CLL = 100 pF‡ 25°C 56° 56° Gain margin 25°C 11 11 dB †Full range is – 40°C to 125°C. ‡Referenced to 2.5 V POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 19

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264I electrical characteristics at specified free-air temperature, VDD± = ±5 V (unless otherwise noted) TLC2264I TLC2264AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTAA†† UUNNIITT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature coefficient of 25°C ααVVIIOO input offset voltage to 125°C 22 22 µµVV//°°CC Input offset voltage long-term drift 25°C 0.003 0.003 µV/mo (see Note 4) VIC = 0, VO = 0, RRSS = 5500 ΩΩ 25°C 0.5 0.5 IIO Input offset current 85°C 150 150 pA Full range 800 800 25°C 1 1 pA IIB Input bias current 85°C 150 150 pA Full range 800 800 pA –5 –5.3 –5 –5.3 25°C to to to to Common-mode input 4 4.2 4 4.2 VVIICCRR voltage range RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV –5 –5 VV Full rangge to to 3.5 3.5 IO = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 MMaaxxiimmuumm ppoossiittiivvee ppeeaakk IIOO == –110000 µµAA VOM+ Full range 4.82 4.82 V oouuttpuutt vvoollttaaggee 25°C 4.7 4.85 4.7 4.85 IIOO == –440000 µµAA Full range 4.5 4.5 VIC = 0, IO = 50 µA 25°C –4.99 –4.99 25°C –4.85 –4.91 –4.85 –4.91 MMaaxxiimmuumm nneeggaattiivvee ppeeaakk VVIICC == 00, IIOO == 550000 µµAA VOM– Full range –4.85 –4.85 V oouuttpuutt vvoollttaaggee 25°C –4 –4.3 –4 –4.3 VVIICC == 00, IIOO == 44 (cid:0)(cid:0)AA Full range –3.8 –3.8 25°C 80 200 80 200 AVD LLaarrggee-ssiiggnnaall ddiiffffeerreennttiiaall VO = ±4 V RRLL == 5500 kkΩΩ Full range 50 50 V/mV vvoollttaaggee aammplliiffiiccaattiioonn RL = 1 MΩ 25°C 1000 1000 Differential input ri(d) resistance 25°C 1012 1012 Ω Common-mode input ri(c) resistance 25°C 1012 1012 Ω Common-mode input ci(c) capacitance f = 10 kHz, N package 25°C 8 8 pF Closed-loop output zo impedance f = 100 kHz, AV = 10 25°C 220 220 Ω Common-mode VIC = –5 V to 2.7 V, 25°C 75 88 75 88 CCMMRRRR ddBB rejection ratio VO = 0, RS = 50Ω Full range 75 75 Supplyy-voltagge rejjection VDD± = ±2.2 V to ±8 V, 25°C 80 95 80 95 kkSSVVRR ratio (∆VDD±/∆VIO) VIC = VDD/2, No load Full range 80 80 ddBB †Full range is – 40°C to 125°C. NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 20 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264I operating characteristics at specified free-air temperature, VDD± = ±5 V TLC2264I TLC2264AI PPAARRAAMMEETTEERR TTEESSTT CCOONNDDIITTIIOONNSS TTA†† UUNNIITT MIN TYP MAX MIN TYP MAX 25°C 0.85 1 0.85 1 SSuuppppllyy ccuurrrreenntt IDD (four amplifiers) VO = 0, No load Full 1 1 range 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL ==== 11±±001100. 99p FFVV, RRLL == 5500 kkΩΩ, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 43 43 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.8 0.8 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA/√Hz Total harmonic VO = ±2.3 V, AV = 1 0.014% 0.014% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss RRLL = 5500 kkΩΩ, 2255°°CC noise f = 20 kHz AV = 10 0.024% 0.024% Gain-bandwidth f =10 kHz,, RLL = 50 kΩ,, 2255°°CC 00.7733 00.7733 MMHHzz product CL = 100 pF BBOOMM Mswaixnigm buamn dowutipdutht- VROOL ((=PP 5PP0)) =kΩ 4,.6 V,, ACVVL == 11,,00 pF 2255°°CC 7700 7700 kkHHzz AAVV == –11,, TToo 00.11%% 77.11 77.11 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 0– k2Ω.3, V to 2.3 V,, 2255°°CC µµss TToo 00.0011%% 1166.55 1166.55 CL = 100 pF Phase margin at φm unity gain RLL = 50 kΩ, CLL = 100 pF 25°C 57° 57° Gain margin 25°C 11 11 dB †Full range is –40°C to 125°C. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 21

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262Q/M electrical characteristics at specified free-air temperature, V = 5 V (unless DD otherwise noted) TLC2262Q, TLC2262AQ, PARAMETER TEST CONDITIONS TAA† TLC2262M TLC2262AM UNIT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature coefficient ααVVIIOO of input offset voltage FFuullll rraannggee 55 55 µµVV//°°CC Ilonnpgu-tt oefrfmse dt rvifot ltage VVDOD =± 0 =, ±2.5 V, RVISC = = 5 00, Ω 25°C 0.003 0.003 µV/mo (see Note 4) 25°C 0.5 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt 125°C 800 800 ppAA 25°C 1 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt 125°C 800 800 ppAA –0.3 –0.3 2255°°CC 00 ttoo 44 00 ttoo 44 Common-mode input to 4.2 to 4.2 VVIICCRR voltagge rangge RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV 00 ttoo 00 ttoo VV FFuullll rraannggee 33.55 33.55 IOH = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 HHiigghh-lleevveell oouuttppuutt IIOOHH == –110000 µµAA VOH Full range 4.82 4.82 V vvoollttaaggee 25°C 4.7 4.85 4.7 4.85 IIOOHH == –440000 µµAA Full range 4.5 4.5 VIC = 2.5 V, IOL = 50 µA 25°C 0.01 0.01 25°C 0.09 0.15 0.09 0.15 LLooww-lleevveell oouuttppuutt VVIICC == 22.55 VV, IIOOLL == 550000 µµAA VOL Full range 0.15 0.15 V vvoollttaaggee 25°C 0.8 1 0.7 1 VVIICC == 22.55 VV, IIOOLL == 44 (cid:0)(cid:0)AA Full range 1.2 1.2 25°C 80 100 80 170 LLaarrggee-ssiiggnnaall ddiiffffeerreennttiiaall VVIC = 22.55 VV, RRLL = 5500 kkΩΩ‡‡ AVVDD vvoollttaaggee aammplliiffiiccaattiioonn VVOO == 11 VV ttoo 44 VV Full range 50 50 V/mV RL = 1 MΩ‡ 25°C 550 550 Differential input ri(d) resistance 25°C 1012 1012 Ω Common-mode input ri(c) resistance 25°C 1012 1012 Ω Common-mode input ci(c) capacitance f = 10 kHz, P package 25°C 8 8 pF Closed-loop output zo impedance f = 100 kHz, AV = 10 25°C 240 240 Ω Common-mode VIICC = 0 to 2.7 V, VOO = 2.5 V, 25°C 70 83 70 83 CCMMRRRR rejection ratio RS = 50Ω Full range 70 70 ddBB Supplyy-voltagge rejjection VDDDD = 4.4 V to 16 V, 25°C 80 95 80 95 kkSSVVRR ratio (∆VDD/∆VIO) VIC = VDD/2, No load Full range 80 80 ddBB 25°C 400 500 400 500 IIDDDD SSuuppppllyy ccuurrrreenntt VVOO == 22.55 VV, NNoo llooaadd µµAA Full range 500 500 †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. ‡Referenced to 2.5 V NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 22 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262Q/M operating characteristics at specified free-air temperature, V = 5 V DD TLC2262Q, TLC2262AQ, PARAMETER TEST CONDITIONS TAA† TLC2262M TLC2262AM UNIT MIN TYP MAX MIN TYP MAX 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL ==== 110000.5500 VVpFF ttoo‡‡ 33.55 VV, RRLL = 5500 kkΩΩ‡‡, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 40 40 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.7 0.7 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA√Hz Total harmonic VO = 0.5 V to 2.5 V, AV = 1 0.017% 0.017% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss ff = 2200 kkHHzz, 2255°°CC noise RL = 50 kΩ‡ AV = 10 0.03% 0.03% Gain-bandwidth ff = 5500 kkHHzz,, RRLL = 5500 kkΩΩ‡,, 2255°°CC 00.8822 00.8822 MMHHzz product CL = 100 pF‡ BBOOMM Mswaixnigm buamn dowutipdutht- VROOL ((=PP 5PP0)) =kΩ 2‡ V,,, CAVVL == 11,,00 pF‡ 2255°°CC 118855 118855 kkHHzz AAVV == –11,, TToo 00.11%% 66.44 66.44 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 00 .k5Ω V‡ ,to 2.5 V,, 2255°°CC µµss CL = 100 pF‡‡ TToo 00.0011%% 1144.11 1144.11 Phase margin at φm unity gain RLL = 50 kΩ‡,, CLL = 100 pF‡ 25°C 56° 56° Gain margin 25°C 11 11 dB †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. ‡Referenced to 2.5 V POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 23

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262Q/M electrical characteristics at specified free-air temperature, VDD± = ±5 V (unless otherwise noted) TLC2262Q, TLC2262AQ, PARAMETER TEST CONDITIONS TAA† TLC2262M TLC2262AM UNIT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature coefficient of αVIO input offset voltage Full range 5 5 µV/°C Input offset voltage long- VIC = 0, VO = 0, 25°C 0.003 0.003 µV/mo term drift (see Note 4) RS = 50 Ω 25°C 0.5 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt 125°C 800 800 ppAA 25°C 1 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt 125°C 800 800 ppAA –5 –5.3 –5 –5.3 25°C Common-mode input to 4 to 4 to 4 to 4.2 VVIICCRR voltage range RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV –5 –5 VV Full range to 3.5 to 3.5 IO = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 MMaaxxiimmuumm ppoossiittiivvee ppeeaakk IIOO == –110000 µµAA VOM+ Full range 4.82 4.82 V oouuttpuutt vvoollttaaggee 25°C 4.7 4.85 4.7 4.85 IIOO == –440000 µµAA Full range 4.5 4.5 VIC = 0, IO = 50 µA 25°C –4.99 –4.99 25°C –4.85 –4.91 –4.85 –4.91 MMaaxxiimmuumm nneeggaattiivvee ppeeaakk VVIICC == 00, IIOO == 550000 µµAA VOM– Full range –4.85 –4.85 V oouuttpuutt vvoollttaaggee 25°C –4 –4.3 –4 –4.3 VVIICC == 00, IIOO == 44 (cid:0)(cid:0)AA Full range –3.8 –3.8 25°C 80 200 80 200 AVD LLaarrggee-ssiiggnnaall ddiiffffeerreennttiiaall VO = ±4 V RRLL == 5500 kkΩΩ Full range 50 50 V/mV vvoollttaaggee aammplliiffiiccaattiioonn RL = 1 MΩ 25°C 1000 1000 Differential input ri(d) resistance 25°C 1012 1012 Ω Common-mode input ri(c) resistance 25°C 1012 1012 Ω Common-mode input ci(c) capacitance f = 10 kHz, P package 25°C 8 8 pF Closed-loop output zo impedance f = 100 kHz, AV = 10 25°C 220 220 Ω Common-mode VIICC = –5 V to 2.7 V, 25°C 75 88 75 88 CCMMRRRR rejection ratio VO = 0, RS = 50Ω Full range 75 75 ddBB Supplyy-voltagge rejjection VDDDD = 4.4 V to 16 V, 25°C 80 95 80 95 kkSSVVRR ratio (∆VDD± /∆VIO) VIC = VDD/2, No load Full range 80 80 ddBB 25°C 425 500 425 500 IIDDDD SSuuppppllyy ccuurrrreenntt VVOO == 00, NNoo llooaadd µµAA Full range 500 500 †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 24 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2262Q/M operating characteristics at specified free-air temperature, VDD± = ±5 V TLC2262Q, TLC2262AQ, PARAMETER TEST CONDITIONS TAA† TLC2262M TLC2262AM UNIT MIN TYP MAX MIN TYP MAX 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL ==== 11±±002200 VVp,FF RRLL == 5500 kkΩΩ, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 43 43 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.8 0.8 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA√Hz Total harmonic VO = ±2.3 V, AV = 1 0.014% 0.014% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss RRLL = 5500 kkΩΩ, 2255°°CC noise f = 20 kHz AV = 10 0.024% 0.024% Gain-bandwidth f =10 kHz,, RLL = 50 kΩ,, 2255°°CC 00.7733 00.7733 MMHHzz product CL = 100 pF BBOOMM Mswaixnigm buamn dowutipdutht- VROOL ((=PP 5PP0)) =kΩ 4,.6 V,, ACVVL == 11,,00 pF 2255°°CC 8855 8855 kkHHzz AAVV == –11,, TToo 00.11%% 77.11 77.11 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 0– k2Ω.3, V to 2.3 V,, 2255°°CC µµss TToo 00.0011%% 1166.55 1166.55 CL = 100 pF Phase margin at φm unity gain RLL = 50 kΩ, CLL = 100 pF 25°C 57° 57° Gain margin 25°C 11 11 dB †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 25

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264Q/M electrical characteristics at specified free-air temperature, V = 5 V (unless DD otherwise noted) TLC2264Q, TLC2264AQ, PARAMETER TEST CONDITIONS TAA† TLC2264M TLC2264AM UNIT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature coefficient αVIO of input offset voltage Full range 2 2 µV/°C Input offset voltage long-term drift VDD± = ±2.5 V, VIC = 0, 25°C 0.003 0.003 µV/mo (see Note 4) VO = 0, RS = 50 Ω 25°C 0.5 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt 125°C 800 800 ppAA 25°C 1 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt 125°C 800 800 ppAA 0 –0.3 0 –0.3 25°C Common-mode input to 4 to 4.2 to 4 to 4.2 VVIICCRR voltage range RRSS == 5500 ΩΩ, ||VVIIOO|| ≤≤55 mmVV 0 0 VV Full range to 3.5 to 3.5 IOH = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 IIOOHH == –110000 µµAA VOH High-level output voltage Full range 4.82 4.82 V 25°C 4.7 4.85 4.7 4.85 IIOOHH == –440000 µµAA Full range 4.5 4.5 VIC = 2.5 V, IOL = 50 µA 25°C 0.01 0.01 25°C 0.09 0.15 0.09 0.15 VVIICC == 22.55 VV, IIOOLL == 550000 µµAA VOL Low-level output voltage Full range 0.15 0.15 V 25°C 0.8 1 0.7 1 VVIICC == 22.55 VV, IIOOLL == 44 (cid:0)(cid:0)AA Full range 1.2 1.2 25°C 80 100 80 170 LLaarrggee-ssiiggnnaall ddiiffffeerreennttiiaall VVIC = 22.55 VV, RRLL = 5500 kkΩΩ‡‡ AVVDD vvoollttaaggee aammplliiffiiccaattiioonn VVOO == 11 VV ttoo 44 VV Full range 50 50 V/mV RL = 1 MΩ‡ 25°C 550 550 Differential input ri(d) resistance 25°C 1012 1012 Ω Common-mode input ri(c) resistance 25°C 1012 1012 Ω Common-mode input ci(c) capacitance f = 10 kHz, N package 25°C 8 8 pF Closed-loop output zo impedance f = 100 kHz, AV = 10 25°C 240 240 Ω Common-mode rejjection VIICC = 0 to 2.7 V, VOO = 2.5 V, 25°C 70 83 70 83 CCMMRRRR ratio RS = 50Ω Full range 70 70 ddBB Supply-voltage rejection kSVR ratio (∆VDD/∆VIO) VDD = 4.4 V to 16 V, 25°C 80 95 80 95 dB Supplyy current 25°C 0.8 1 0.8 1 IIDDDD VVOO == 22.55 VV, NNoo llooaadd mmAA (four amplifiers) Full range 1 1 †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. ‡Referenced to 2.5 V NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 26 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264Q/M operating characteristics at specified free-air temperature, V = 5 V DD TLC2264Q, TLC2264AQ, PARAMETER TEST CONDITIONS TAA† TLC2264M TLC2264AM UNIT MIN TYP MAX MIN TYP MAX 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL ==== 110000.5500 VVpFF ttoo‡‡ 33.55 VV, RRL = 5500 kkΩΩ‡‡, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 40 40 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.7 0.7 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA/√Hz Total harmonic VO = 0.5 V to 2.5 V, AV = 1 0.017% 0.017% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss ff = 2200 kkHHzz, 2255°°CC noise RL = 50 kΩ‡ AV = 10 0.03% 0.03% Gain-bandwidth ff = 5500 kkHHzz,, RRLL = 5500 kkΩΩ‡,, 2255°°CC 00.7711 00.7711 MMHHzz product CL = 100 pF‡ BBOOMM Mswaixnigm buamn dowutipdutht- VROOL ((=PP 5PP0)) =kΩ 2‡ V,,, CAVVL == 11,,00 pF‡ 2255°°CC 118855 118855 kkHHzz AAVV == –11,, TToo 00.11%% 66.44 66.44 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 00 .k5Ω V‡ ,to 2.5 V,, 2255°°CC µµss CL = 100 pF‡‡ TToo 00.0011%% 1144.11 1144.11 Phase margin at φm unity gain RLL = 50 kΩ‡,, CLL = 100 pF‡ 25°C 56° 56° Gain margin 25°C 11 11 dB †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. ‡Referenced to 2.5 V POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 27

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264Q/M electrical characteristics at specified free-air temperature, VDD± = ±5 V (unless otherwise noted) TLC2264Q, TLC2264AQ, PARAMETER TEST CONDITIONS TAA† TLC2264M TLC2264AM UNIT MIN TYP MAX MIN TYP MAX 25°C 300 2500 300 950 VVIIOO IInnppuutt ooffffsseett vvoollttaaggee µµVV Full range 3000 1500 Temperature coefficient of ααVVIIOO FFuullll rraannggee 22 22 µµVV//°°CC input offset voltage Input offset voltage VIC = 0, VO = 0, 25°C 0.003 0.003 µV/mo long-term drift (see Note 4) RS = 50 Ω 25°C 0.5 0.5 IIIIOO IInnppuutt ooffffsseett ccuurrrreenntt ppAA 125°C 800 800 25°C 1 1 IIIIBB IInnppuutt bbiiaass ccuurrrreenntt ppAA 125°C 800 800 ––55 ––55.33 ––55 ––55.33 2255°CC VVIICCRR Cvvooollmttaamggeeo rrnaa-nnmggoeede input ||RVVSSIIOO =|| ≤≤5550 mmΩ,,VV ttoo–– 4455 ttoo 44.22 ttoo–– 4455 ttoo 44.22 VV FFuullll rraannggee ttoo 33.55 ttoo 33.55 IO = –20 µA 25°C 4.99 4.99 25°C 4.85 4.94 4.85 4.94 MMaxiimum posiittiive peakk IIOO == –110000 µµAA VOM+ Full range 4.82 4.82 V oouuttpuutt vvoollttaaggee 25°C 4.7 4.85 4.7 4.85 IIOO == –440000 µµAA Full range 4.5 4.5 VIC = 0, IO = 50 µA 25°C –4.99 –4.99 25°C –4.85 –4.91 –4.85 –4.91 MMaxiimum negattiive peakk VVIICC == 00, IIOO == 550000 µµAA VOM– Full range –4.85 –4.85 V oouuttpuutt vvoollttaaggee 25°C –4 –4.3 –4 –4.3 VVIICC == 00, IIOO == 44 (cid:0)(cid:0)AA Full range –3.8 –3.8 25°C 80 200 80 200 LLarge-siignall ddiifffferenttiiall RRLL == 5500 kkΩΩ AVD VO = ±4 V Full range 50 50 V/mV vvoollttaaggee aammplliiffiiccaattiioonn RL = 1 MΩ 25°C 1000 1000 ri(d) Differential input resistance 25°C 1012 1012 Ω Common-mode input ri(c) resistance 25°C 1012 1012 Ω Common-mode input ci(c) capacitance f = 10 kHz, N package 25°C 8 8 pF Closed-loop output zo impedance f = 100 kHz, AV = 10 25°C 220 220 Ω Common-mode VIC = –5 V to 2.7 V, 25°C 75 88 75 88 CCMMRRRR ddBB rejection ratio VO = 0, RS = 50Ω Full range 75 75 Supplyy-voltagge rejjection VDD± = ±2.2 V to ±8 V, 25°C 80 95 80 95 kkSSVVRR ratio (∆VDD±/∆VIO) VIC = VDD/2, No load Full range 80 80 ddBB Supplyy current 25°C 0.85 1 0.85 1 IIDDDD (four amplifiers) VVOO == 00, NNoo llooaadd Full range 1 1 mmAA †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. NOTE 4: Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV. 28 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TLC2264Q/M operating characteristics at specified free-air temperature, VDD± = ±5 V TLC2264Q, TLC2264AQ, PARAMETER TEST CONDITIONS TAA† TLC2264M TLC2264AM UNIT MIN TYP MAX MIN TYP MAX 25°C 0.35 0.55 0.35 0.55 SR SSggaalleeiinnww rraattee aatt uunniittyy VVCCOOLL ==== 11±±002200 VVp,FF RRLL == 5500 kkΩΩ, Full 00.2255 00.2255 V/µs range Eqquivalent input f = 10 Hz 25°C 43 43 VVn nnVV//√√HHzz noise voltage f = 1 kHz 25°C 12 12 Peak-to-peak f = 0.1 Hz to 1 Hz 25°C 0.8 0.8 VVNN((PPPP)) eeqquuiivvaalleenntt iinnppuutt µµVV noise voltage f = 0.1 Hz to 10 Hz 25°C 1.3 1.3 Equivalent input In noise current 25°C 0.6 0.6 fA/√Hz Total harmonic VO = ±2.3 V, AV = 1 0.014% 0.014% TTHHDD ++ NN ddiissttoorrttiioonn pplluuss RRLL = 5500 kkΩΩ, 2255°°CC noise f = 20 kHz AV = 10 0.024% 0.024% Gain-bandwidth f =10 kHz,, RLL = 50 kΩ,, 2255°°CC 00.7733 00.7733 MMHHzz product CL = 100 pF BBOOMM Mswaixnigm buamn dowutipdutht- VROOL ((=PP 5PP0)) =kΩ 4,.6 V,, ACVVL == 11,,00 pF 2255°°CC 7700 7700 kkHHzz AAVV == –11,, TToo 00.11%% 77.11 77.11 tts SSeettttlliinngg ttiimmee SRtLLe p= =5 0– k2Ω.3, V to 2.3 V,, 2255°°CC µµss TToo 00.0011%% 1166.55 1166.55 CL = 100 pF Phase margin at φm unity gain RLL = 50 kΩ, CLL = 100 pF 25°C 57° 57° Gain margin 25°C 11 11 dB †Full range is –40°C to 125°C for Q suffix, – 55°C to 125°C for M suffix. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 29

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS Table of Graphs FIGURE Distribution 2 – 5 VIO Input offset voltage vs Common-mode input voltage 6, 7 αVIO Input offset voltage temperature coefficient Distribution 8 – 11 IIB/IIO Input bias and input offset currents vs Free-air temperature 12 vs Supply voltage 13 VI Input voltage range vs Free-air temperature 14 VOH High-level output voltage vs High-level output current 15 VOL Low-level output voltage vs Low-level output current 16, 17 VOM+ Maximum positive output voltage vs Output current 18 VOM– Maximum negative output voltage vs Output current 19 VO(PP) Maximum peak-to-peak output voltage vs Frequency 20 vs Supply voltage 21 IOS Short-circuit output current vs Free-air temperature 22 VO Output voltage vs Differential input voltage 23, 24 Differential gain vs Load resistance 25 vs Frequency 26, 27 AVD Large-signal differential voltage amplification vs Free-air temperature 28, 29 zo Output impedance vs Frequency 30, 31 vs Frequency 32 CMRR Common-mode rejection ratio vs Free-air temperature 33 vs Frequency 34, 35 kSVR Supply-voltage rejection ratio vs Free-air temperature 36 vs Supply voltage 37, 38 IDD Supply current vs Free-air temperature 39, 40 vs Load capacitance 41 SR Slew rate vs Free-air temperature 42 Inverting large-signal pulse response 43, 44 Voltage-follower large-signal pulse response 45, 46 VVOO Inverting small-signal pulse response 47, 48 Voltage-follower small-signal pulse response 49, 50 Vn Equivalent input noise voltage vs Frequency 51, 52 Noise voltage (referred to input) Over a 10-second period 53 Integrated noise voltage vs Frequency 54 THD + N Total harmonic distortion plus noise vs Frequency 55 vs Supply voltage 56 Gain-bandwidth product vs Free-air temperature 57 vs Frequency 26, 27 φm Phase margin vs Load capacitance 58 Gain margin vs Load capacitance 59 B1 Unity-gain bandwidth vs Load capacitance 60 Overestimation of phase margin vs Load capacitance 61 30 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS DISTRIBUTION OF TLC2262 DISTRIBUTION OF TLC2262 INPUT OFFSET VOLTAGE INPUT OFFSET VOLTAGE 25 25 1274 Amplifiers From 2 Wafer Lots 1274 Amplifiers From 2 Wafer Lots VDD± = ±2.5 V VDD± = ±5 V TA = 25°C TA = 25°C 20 20 % % – – s s r r e e plifi 15 plifi 15 m m A A of of e e g 10 g 10 a a nt nt e e c c e r r e P P 5 5 0 0 –1.6 –0.8 0 0.8 1.6 –1.6 –0.8 0 0.8 1.6 VIO – Input Offset Voltage – mV VIO – Input Offset Voltage – mV Figure 2 Figure 3 DISTRIBUTION OF TLC2264 DISTRIBUTION OF TLC2264 INPUT OFFSET VOLTAGE INPUT OFFSET VOLTAGE 20 20 2272 Amplifiers From 2 Wafer Lots 2272 Amplifiers From 2 Wafer Lots VDD±= ±2.5 V VDD±= ±5 V TA = 25°C TA = 25°C 16 16 % % – – s s r r e e plifi 12 plifi 12 m m A A of of e e g 8 g 8 a a nt nt e e c c r r e e P 4 P 4 0 0 –1.6 –0.8 0 0.8 1.6 –1.6 –0.8 0 0.8 1.6 VIO – Input Offset Voltage – mV VIO – Input Offset Voltage – mV Figure 4 Figure 5 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 31

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS INPUT OFFSET VOLTAGE INPUT OFFSET VOLTAGE vs vs COMMON-MODE INPUT VOLTAGE COMMON-MODE INPUT VOLTAGE 1 1 VDD = 5 V VDD± = ±5 V RS = 50 Ω RS = 50 Ω TA = 25°C TA = 25°C V V m 0.5 m 0.5 Voltage – Voltage – Offset 0 Offset 0 ÁÁÁÁVIO – Input VIO ÁÁ–0.5 ÁÁVVIO – Input IOÁÁ–0.5 ÁÁ –1 –1 –1 0 1 2 3 4 5 –6 –5 –4 –3 –2 –1 0 1 2 3 4 5 VIC – Common-Mode Input Voltage – V VIC – Common-Mode Input Voltage – V †For curves where VDD = 5 V, all loads are referenced to 2.5 V. Figure 6 Figure 7 DISTRIBUTION OF TLC2262 INPUT OFFSET DISTRIBUTION OF TLC2262 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT† VOLTAGE TEMPERATURE COEFFICIENT† 30 30 128 Amplifiers From 2 Wafer Lots 128 Amplifiers From 2 Wafer Lots VDD± = ±2.5 V VDD± = ±5 V 25 P Package 25 P Package % TA = 25°C to 125°C % TA = 25°C to 125°C – – s s r 20 r 20 e e plifi plifi m m A 15 A 15 of of e e g g a a nt 10 nt 10 e e c c r r e e P P 5 5 0 0 –5 –4 –3 –2 –1 0 1 2 3 4 5 –5 –4 –3 –2 –1 0 1 2 3 4 5 αVIO – Temperature Coefficient – µV/°C αVIO – Temperature Coefficient – µV/°C Figure 8 Figure 9 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. 32 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS DISTRIBUTION OF TLC2264 INPUT OFFSET DISTRIBUTION OF TLC2264 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT† VOLTAGE TEMPERATURE COEFFICIENT† 35 35 128 Amplifiers From 128 Amplifiers From 2 Wafer Lots 2 Wafer Lots 30 VDD± = ±2.5 V 30 VDD± = ±5 V N Package N Package % TA = 25°C to 125°C % TA = 25°C s – 25 s – 25 to 125°C r r e e plifi 20 plifi 20 m m A A e of 15 e of 15 g g a a nt nt e 10 e 10 c c r r e e P P 5 5 0 0 –5 –4 –3 –2 –1 0 1 2 3 4 5 –5 –4 –3 –2 –1 0 1 2 3 4 5 αVIO – Temperature Coefficient of αVIO – Temperature Coefficient of Input Offset Voltage – µV/°C Input Offset Voltage – µV/°C Figure 10 Figure 11 INPUT BIAS AND INPUT OFFSET CURRENTS† INPUT VOLTAGE RANGE vs vs FREE-AIR TEMPERATURE SUPPLY VOLTAGE A p 450 10 ents – 400 VVDICD =± 0= V ±2.5 V 8 RTAS == 2550° CΩ rr VO = 0 et Cu 350 RS = 50 Ω – V 6 Offs 300 nge 4 ut IIB Ra 2 np 250 e Bias and I 125000 put Voltag –20 | VIO | ≤ 5 mV put – In –4 – In 100 VVI I –6 O O Ánd IIIIÁ50 IIO –8 a ÁB BÁ 0 –10 IIII 25 45 65 85 105 125 2 3 4 5 6 7 8 TA – Free-Air Temperature – °C | VDD± | – Supply Voltage – V Figure 12 Figure 13 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 33

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS INPUT VOLTAGE RANGE†‡ HIGH-LEVEL OUTPUT VOLTAGE†‡ vs vs FREE-AIR TEMPERATURE HIGH-LEVEL OUTPUT CURRENT 5 6 VDD = 5 V VDD = 5 V 4 V – 5 V e nge – 3 Voltag 4 ut Voltage Ra 2 | VIO | ≤5 mV Level Output 3 TTAA == 2152°5C°C TA = –55°C Á– InpÁ 1 High- 2 TA = –40°C VVI I – ÁÁ 0 ÁOH OHÁ 1 ÁVVÁ –1 0 –75 –55 –35 –15 5 25 45 65 85 105 125 0 500 1000 1500 2000 2500 3000 3500 TA – Free-Air Temperature – °C |IOH| – High-Level Output Current – µA Figure 14 Figure 15 LOW-LEVEL OUTPUT VOLTAGE‡ LOW-LEVEL OUTPUT VOLTAGE†‡ vs vs LOW-LEVEL OUTPUT CURRENT LOW-LEVEL OUTPUT CURRENT 1.2 1.4 VDD = 5 V VDD = 5 V TA = 25°C 1.2 VIC = 2.5 V Output Voltage – V 00..168 VIC = 0 VIC = 1.25 V Output Voltage – V 0.18 TA = 25°C TA = 125°C w-Level 0.4 VIC = 2.5 V w-Level 0.6 TA = –40°C TA = –55°C ÁÁVOL – LoVOLÁÁ0.2 ÁÁVVOL – LoOLÁÁ00..42 ÁÁ 0 0 0 1 2 3 4 5 0 1 2 3 4 5 6 IOL – Low-Level Output Current – mA IOL – Low-Level Output Current – mA Figure 16 Figure 17 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. ‡For curves where VDD = 5 V, all loads are referenced to 2.5 V. 34 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS MAXIMUM POSITIVE OUTPUT VOLTAGE† MAXIMUM NEGATIVE OUTPUT VOLTAGE† vs vs OUTPUT CURRENT OUTPUT CURRENT 6 –3.8 Voltage – V 5 VDD± = ±5 V TA = –55°C Voltage – V –4 VVIDCD =± 0= ±5 V TA = 125°C ositive Output 34 TA = 125°C egative Output ––44..24 TA = –40°CTA = 25°C P N m TA = 25°C m TA = –55°C mu 2 mu –4.6 xi xi Ma TA = –40°C Ma ÁÁM + – M +ÁÁ 1 ÁÁM – – M –ÁÁ–4.8 ÁVOVOÁ 0 ÁVVOOÁ–5 0 500 1000 1500 2000 2500 3000 3500 ÁÁ 0 1 2 3 4 5 6 | IO | – Output Current – µA IO – Output Current – mA Figure 18 Figure 19 MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE†‡ SHORT-CIRCUIT OUTPUT CURRENT vs vs SUPPLY VOLTAGE FREQUENCY V 10 12 e – RL = 10 kΩ ag 9 VDD± = ±5 V TA = 25°C A 10 ut Volt 8 nt – m 8 VID = –100 mV utp 7 urre eak O 6 put C 6 TVAO == 205°C o-P 5 VDD = 5 V Out 4 ak-t uit um Pe 43 rt-Circ 2 m o h 0 xi S – Ma 2 OS – OS –2 VID = 100 mV ÁP) P)Á 1 II PP ÁO(O(Á 0 –4 VV ÁÁ 103 104 105 106 2 3 4 5 6 7 8 | VDD± | – Supply Voltage – V f – Frequency – Hz ‡For curves where VDD = 5 V, all loads are referenced to 2.5 V. Figure 20 Figure 21 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 35

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS SHORT-CIRCUIT OUTPUT CURRENT† OUTPUT VOLTAGE‡ vs vs FREE-AIR TEMPERATURE DIFFERENTIAL INPUT VOLTAGE 13 5 VO = 0 VDD = 5 V A 12 VDD± = ±5 V RL = 50 kΩ m 11 VIC = 2.5 V nt – 10 4 TA = 25°C urre 9 VID = –100 mV – V C e cuit Output 871 utput Voltag 3 rt-Cir 0 – OO 2 o V h –1 S S – S –2 VID = 100 mV 1 OO II –3 –4 0 –75 –50 –25 0 25 50 75 100 125 –1000 –750 –500 –250 0 250 500 750 1000 TA – Free-Air Temperature – °C VID – Differential Input Voltage – µV Figure 22 Figure 23 OUTPUT VOLTAGE DIFFERENTIAL GAIN‡ vs vs DIFFERENTIAL INPUT VOLTAGE LOAD RESISTANCE 5 104 VDD± = ±5 V VIC = 0 V VO(PP) = 2 V RL = 50 kΩ TA = 25°C 3 TA = 25°C e – V V/ mV 103 VDD± = ±5 V utput Voltag 1 ntial Gain – 102 VDD = 5 V O –1 e – er VO Diff 10 –3 –5 1 –1000 –750 –500 –250 0 250 500 750 1000 103 104 105 106 VID – Differential Input Voltage – µV RL – Load Resistance – kΩ Figure 24 Figure 25 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. ‡For curves where VDD = 5 V, all loads are referenced to 2.5 V. 36 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS LARGE-SIGNAL DIFFERENTIAL VOLTAGE† AMPLIFICATION AND PHASE MARGIN vs FREQUENCY 80 180° VDD = 5 V CL= 100 pF 60 TA = 25°C 135° al nti dB al Differe cation – 40 Phase Margin 90° Margin e-Sign Amplifi 20 45° Phase rg e Gain – ÁÁD – LaDÁÁVoltag 0 0° φom m VV AA ÁÁ–20 –45° –40 –90° 103 104 105 106 107 f – Frequency – Hz †For curves where VDD = 5 V, all loads are referenced to 2.5 V. Figure 26 LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION AND PHASE MARGIN vs FREQUENCY 80 180° VDD± = ±5 V CL = 100 pF 60 TA = 25°C 135° al nti dB al Differe cation – 40 Phase Margin 90° Margin Sign mplifi 20 45° hase e- A P ÁD – LargDÁVoltage 0 Gain 0° φom – m ÁVVÁ AA ÁÁ –20 –45° –40 –90° 103 104 105 106 107 f – Frequency – Hz Figure 27 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 37

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS LARGE-SIGNAL DIFFERENTIAL LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION†‡ VOLTAGE AMPLIFICATION† vs vs FREE-AIR TEMPERATURE FREE-AIR TEMPERATURE 104 104 VDD = 5 V VDD± = ±5 V VIC = 2.5 V VIC = 0 V VO = 1 V to 4 V RL = 1 MΩ VO = ±4 V Signal Differential plification – V/mV 103 RL = 50 kΩ RL = 1 MΩ Signal Differential plification – V/mV 103 RL = 50 kΩ ge- Am ge- Am ÁÁVD – LarVDVoltage 102 RL = 10 kΩ ÁVD – LarVDÁVoltage 102 AA AA ÁÁ ÁÁ RL = 10 kΩ 101 101 –75 –50 –25 0 25 50 75 100 125 –75 –50 –25 0 25 50 75 100 125 TA – Free-Air Temperature – °C TA – Free-Air Temperature – °C Figure 28 Figure 29 OUTPUT IMPEDANCE‡ OUTPUT IMPEDANCE vs vs FREQUENCY FREQUENCY 1000 1000 VDD = 5 V VDD± = ±5 V TA = 25°C TA = 25°C Ω0 100 Ω0 100 – – e e c c n n da AV = 100 da pe pe AV = 100 m 10 m 10 ut I ut I p p ut AV = 10 ut O O – – AV = 10 zzo o 1 zzo o 1 AV = 1 AV = 1 0.1 0.1 102 103 104 105 106 102 103 104 105 106 f – Frequency – Hz f – Frequency – Hz Figure 30 Figure 31 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. ‡For curves where VDD = 5 V, all loads are referenced to 2.5 V. 38 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS COMMON-MODE REJECTION RATIO† COMMON-MODE REJECTION RATIO†‡ vs vs FREQUENCY FREE-AIR TEMPERATURE 100 90 B B o – d VDD± = ±5 V o – d VDD± = ±5 V Rati 80 Rati 88 n VDD = 5 V n o o Rejecti 60 Rejecti 86 de de o o M M n- 40 n- 84 o o m m m m Co Co VDD = 5 V R – 20 R – 82 R R M M C C 0 80 101 102 103 104 105 106 –75 –50 –25 0 25 50 75 100 125 f – Frequency – Hz TA – Free-Air Temperature – °C Figure 32 Figure 33 SUPPLY-VOLTAGE REJECTION RATIO† SUPPLY-VOLTAGE REJECTION RATIO vs vs FREQUENCY FREQUENCY 100 100 B VDD = 5 V B VDD± = ±5 V – d TA = 25°C – d TA = 25°C o 80 o 80 ati ati n R kSVR+ n R kSVR+ ctio 60 ctio 60 e e ej kSVR– ej kSVR– R R ge 40 ge 40 a a olt olt V V ply- 20 ply- 20 p p u u S S ÁR – RÁ 0 ÁR – RÁ 0 ÁSVSVÁ ÁSVSVÁ Kk Kk ÁÁ–20 ÁÁ–20 101 102 103 104 105 106 101 102 103 104 105 106 f – Frequency – Hz f – Frequency – Hz Figure 34 Figure 35 †For curves where VDD = 5 V, all loads are referenced to 2.5 V. ‡Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 39

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS TLC2262 SUPPLY-VOLTAGE REJECTION RATIO† SUPPLY CURRENT† vs vs FREE-AIR TEMPERATURE SUPPLY VOLTAGE 110 600 B VDD± = ±2.2 V to ±8 V VO = 0 d No Load – VO = 0 o 500 ati TA = –55°C R 105 AA n µu ge Rejectio 100 y Current – 340000 TA = 125°C TA = 40°TCA = 25°C olta ppl V u pply- ÁD – SDÁ200 u 95 ÁDDÁ S II ÁÁR – R 100 VV ÁÁSS kK ÁÁ 90 0 –75 –50 –25 0 25 50 75 100 125 0 1 2 3 4 5 6 7 8 TA – Free-Air Temperature – °C | VDD± | – Supply Voltage – V Figure 36 Figure 37 TLC2264 TLC2262 SUPPLY CURRENT† SUPPLY CURRENT†‡ vs vs SUPPLY VOLTAGE FREE-AIR TEMPERATURE 1200 600 VO = 0 No Load 1000 500 VDD± = ±5 V AA TA = –55°C AA VO = 0 µu µu ply Current – 680000 TA = 125°C TA = 40°TCA = 25°C ply Current – 340000 VVDOD = =2 .55 VV p p ÁSu Á ÁSuÁ ÁD – DÁ400 ÁD – DÁ200 DD DD ÁIIÁ ÁIIÁ 200 100 0 0 0 1 2 3 4 5 6 7 8 –75 –50 –25 0 25 50 75 100 125 | VDD± | – Supply Voltage – V TA – Free-Air Temperature – °C Figure 38 Figure 39 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. ‡For curves where VDD = 5 V, all loads are referenced to 2.5 V. 40 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS TLC2264 SUPPLY CURRENT†‡ SLEW RATE‡ vs vs FREE-AIR TEMPERATURE LOAD CAPACITANCE 1200 1 VDD = 5 V AV = –1 1000 VDD± = ±5 V TA = 25°C VO = 0 0.8 AA SR– µnt – u 800 µv/ussV/ e – 0.6 ply Curr 600 VVDOD = =2 .55 VV w Rate SR+ up Sle 0.4 ÁD – SDÁ400 SR – ÁDDÁ II 0.2 200 0 0 –75 –50 –25 0 25 50 75 100 125 101 102 103 104 TA – Free-Air Temperature – °C CL – Load Capacitance – pF Figure 40 Figure 41 SLEW RATE†‡ vs INVERTING LARGE-SIGNAL PULSE FREE-AIR TEMPERATURE RESPONSE‡ 1.2 5 VDD = 5 V RL = 50 kΩ 1 CL = 100 pF 4 AV = –1 s SR– V TA = 25°C µv/usV/ 0.8 e – w Rate – 0.6 SR+ ut Voltag 3 e p Sl ut 2 SR – 0.4 O – OO VV VDD = 5 V 0.2 RL = 50 kΩ 1 CL = 100 pF AV = 1 0 0 –75 –50 –25 0 25 50 75 100 125 0 2 4 6 8 10 12 14 16 18 20 TA – Free-Air Temperature – °C t – Time – µs Figure 42 Figure 43 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. ‡For curves where VDD = 5 V, all loads are referenced to 2.5 V. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 41

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS INVERTING LARGE-SIGNAL PULSE VOLTAGE-FOLLOWER LARGE-SIGNAL RESPONSE PULSE RESPONSE† 5 5 VDD± = ±5 V VDD = 5 V 4 RL = 50 kΩ RL = 50 kΩ CL = 100 pF CL = 100 pF 3 AV = –1 4 AV = 1 V TA = 25°C V TA = 25°C Voltage – 21 Voltage – 3 Output –01 Output 2 O – O –2 O – O VV VV –3 1 –4 –5 0 0 2 4 6 8 10 12 14 16 18 20 0 2 4 6 8 10 12 14 16 18 20 t – Time – µs t – Time – µs Figure 44 Figure 45 VOLTAGE-FOLLOWER LARGE-SIGNAL INVERTING SMALL-SIGNAL PULSE RESPONSE PULSE RESPONSE† 5 2.65 VDD±= ±5 V VDD = 5 V 4 RL = 50 kΩ RL = 50 kΩ CL = 100 pF CL = 100 pF 3 AV = 1 2.6 AV = –1 V TA = 25°C V TA = 25°C e – 2 e – g g a 1 a 2.55 Volt Volt ut 0 ut p p ut –1 ut 2.5 O O O – O –2 O – O VV VV –3 2.45 –4 –5 2.4 0 2 4 6 8 10 12 14 16 18 20 0 2 4 6 8 10 12 14 16 18 20 t – Time – µs t – Time – µs Figure 46 Figure 47 †For curves where VDD = 5 V, all loads are referenced to 2.5 V. 42 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS INVERTING SMALL-SIGNAL VOLTAGE-FOLLOWER SMALL-SIGNAL PULSE RESPONSE PULSE RESPONSE† 100 2.65 VDD± = ±5 V VDD = 5 V RL = 50 kΩ RL = 50 kΩ CL = 100 pF CL = 100 pF AV = –1 2.6 AV = 1 mV 50 TA = 25°C TA = 25°C V Output Voltage – 0 Output Voltage – 22.5.55 O – O O – O VV –50 VV 2.45 –100 2.4 0 2 4 6 8 10 12 14 16 18 20 0 2 4 6 8 10 12 14 16 18 20 t – Time – µs t – Time – µs Figure 48 Figure 49 EQUIVALENT INPUT NOISE VOLTAGE† VOLTAGE-FOLLOWER SMALL-SIGNAL vs PULSE RESPONSE FREQUENCY 100 60 VDD± = ±5 V VDD = 5 V RL = 50 kΩ zHz RS = 20 Ω ACVL == 1100 pF nv//HnV/ 50 TA = 25°C V 50 TA = 25°C ge – ge – Volta 40 olta se utput V 0 put Noi 30 O n O – O ent I 20 VV –50 al v ui q 10 E – N n VV –100 0 0 2 4 6 8 10 12 14 16 18 20 101 102 103 104 t – Time – µs f – Frequency – Hz Figure 50 Figure 51 †For curves where VDD = 5 V, all loads are referenced to 2.5 V. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 43

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS EQUIVALENT INPUT NOISE VOLTAGE EQUIVALENT INPUT NOISE VOLTAGE OVER vs A 10-SECOND PERIOD† FREQUENCY 1000 60 Hz VDD± = ±5 V Hz RS = 20 Ω 750 nv//nV/ 50 TA = 25°C – 500 e g a V Noise Volt 3400 oltage – n 2500 ut e V nt Inp 20 Nois –250 e al –500 v ui – Eq 10 –750 Vf =D D0. 1= H5 zV to 10 Hz VVN n TA = 25°C 0 –1000 0 2 4 6 8 10 101 102 103 104 t – Time – s f – Frequency – Hz Figure 52 Figure 53 INTEGRATED NOISE VOLTAGE TOTAL HARMONIC DISTORTION PLUS NOISE† vs vs FREQUENCY FREQUENCY 100 % 0.1 – Calculated Using Ideal Pass-Band Filter e s Low Frequency = 1 Hz oi V TA = 25°C s N AV = 100 µ u Voltage – 10 stortion Pl e Di d Nois monic 0.01 AV = 10 rate 1 Har nteg otal AV = 1 I T + N – VRDL D= =5 05 kVΩ D TA = 25°C H 0.1 T 0.001 100 101 102 103 104 105 101 102 103 104 105 f – Frequency – Hz f – Frequency – Hz Figure 54 Figure 55 †For curves where VDD = 5 V, all loads are referenced to 2.5 V. 44 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS GAIN-BANDWIDTH PRODUCT GAIN-BANDWIDTH PRODUCT†‡ vs vs SUPPLY VOLTAGE FREE-AIR TEMPERATURE 940 1200 f = 10 kHz VDD = 5 V RL = 50 kΩ f = 10 kHz CL = 100 pF CL = 100 pF z 900 TA = 25°C z H H 1000 k k – – ct ct du 860 du o o Pr Pr h h 800 dt dt wi 820 wi d d n n a a B B n- n- 600 Gai 780 Gai 740 400 0 1 2 3 4 5 6 7 8 –75 –50 –25 0 25 50 75 100 125 | VDD ±| – Supply Voltage – V TA – Free-Air Temperature – °C Figure 56 Figure 57 GAIN MARGIN PHASE MARGIN vs vs LOAD CAPACITANCE LOAD CAPACITANCE 75° TA = 25°C 20 TA = 25°C 60° Rnull = 100 Ω 15 Rnull = 100 Ω n B argi 45° Rnull = 50 Ω – d M n mm – Phase 30° Gain Margi 10 Rnull = 50 Ω φo 50 kΩ Rnull = 20 Ω 5 Rnull = 20 Ω 15° 50 kΩ VDD+ Rnull Rnull = 10 Ω VI +– CL Rnull = 10 Ω Rnull = 0 0° VDD– Rnull = 0 0 101 102 103 104 101 102 103 104 CL – Load Capacitance – pF CL – Load Capacitance – pF Figure 58 Figure 59 †Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. ‡For curves where VDD = 5 V, all loads are referenced to 2.5 V. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 45

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 TYPICAL CHARACTERISTICS UNITY-GAIN BANDWIDTH† OVERESTIMATION OF PHASE MARGIN† vs vs LOAD CAPACITANCE LOAD CAPACITANCE 1000 14° TA = 25°C TA = 25°C 12° z H n h – k 800 Margi 10° Rnull = 100 Ω widt se y-Gain Band 600 mation of Pha 68°° Rnull = 50 Ω ÁÁÁÁB– Unit1 400 Overesti 4° Rnull = 10 Ω Rnull = 20 Ω 2° 200 0 101 102 103 104 101 102 103 104 CL – Load Capacitance – pF CL – Load Capacitance – pF Figure 60 Figure 61 †See application information 46 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 APPLICATION INFORMATION driving large capacitive loads The TLC226x is designed to drive larger capacitive loads than most CMOS operational amplifiers. Figure 58 and Figure 59 illustrate its ability to drive loads greater than 400 pF while maintaining good gain and phase margins (R = 0). null A smaller series resistor (R ) at the output of the device (see Figure 62) improves the gain and phase margins null when driving large capacitive loads. Figure 58 and Figure 59 show the effects of adding series resistances of 10 Ω, 20 Ω, 50 Ω, and 100 Ω. The addition of this series resistor has two effects: the first is that it adds a zero to the transfer function and the second is that it reduces the frequency of the pole associated with the output load in the transfer function. The zero introduced to the transfer function is equal to the series resistance times the load capacitance. To calculate the improvement in phase margin, equation 1 can be used. ∆Θm1(cid:1)tan–1 (cid:2)2 × π × UGBW × Rnull × CL(cid:3) (1) Where: ∆Θm1(cid:1)improvementinphasemargin UGBW (cid:1) unity-gainbandwidthfrequency Rnull (cid:1) outputseriesresistance CL (cid:1) loadcapacitance The unity-gain bandwidth (UGBW) frequency decreases as the capacitive load increases (see Figure 60). To use equation 1, UGBW must be approximated from Figure 60. Using equation 1 alone overestimates the improvement in phase margin, as illustrated in Figure 61. The overestimation is caused by the decrease in the frequency of the pole associated with the load, thus providing additional phase shift and reducing the overall improvement in phase margin. The pole associated with the load is reduced by the factor calculated in equation 2. 1 F (cid:1) 1 (cid:0) gm × Rnull (2) Where: F (cid:1) factorreducingfrequencyofpole gm (cid:1) small-signaloutputtransconductance(typically 4.83 × 10–3 mhos) Rnull (cid:1) output seriesresistance For the TLC226x, the pole associated with the load is typically 7 MHz with 100-pF load capacitance. This value varies inversely with C : at C = 10 pF, use 70 MHz, at C = 1000 pF, use 700 kHz, and so on. L L L Reducing the pole associated with the load introduces phase shift, thereby reducing phase margin. This results in an error in the increase in phase margin expected by considering the zero alone (equation 1). Equation 3 approximates the reduction in phase margin due to the movement of the pole associated with the load. The result of this equation can be subtracted from the result of the equation in equation 1 to better approximate the improvement in phase margin. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 47

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 APPLICATION INFORMATION driving large capacitive loads (continued) ∆Θm2(cid:0)tan–1(cid:3)(cid:4)(cid:5)(cid:1)UFG×BPW(cid:2)(cid:6)(cid:7)(cid:3)–tan–1 (cid:1)UGPB2W(cid:2) (3) 2 Where: ∆Θm2(cid:0)reduction in phase margin UGBW (cid:0)unity-gain bandwidth frequency F (cid:0) factor from equation 2 P2 (cid:0) unadjusted pole (70 MHz@10 pF, 7 MHz@100 pF, etc.) Using these equations with Figure 60 and Figure 61 enables the designer to choose the appropriate output series resistance to optimize the design of circuits driving large capacitive loads. 50 kΩ VDD+ 50 kΩ Rnull VI – + CL VDD–/GND Figure 62. Series-Resistance Circuit 48 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

TLC226x, TLC226xA Advanced LinCMOS RAIL-TO-RAIL OPERATIONAL AMPLIFIERS SLOS177D – FEBRUARY 1997 – REVISED MARCH 2001 APPLICATION INFORMATION macromodel information Macromodel information provided was derived using MicrosimParts, the model generation software used with Microsim PSpice. The Boyle macromodel (see Note 5) and subcircuit in Figure 63 are generated using the TLC226x typical electrical and operating characteristics at T = 25°C. Using this information, output A simulations of the following key parameters can be generated to a tolerance of 20% (in most cases): (cid:0) (cid:0) Maximum positive output voltage swing Unity-gain frequency (cid:0) (cid:0) Maximum negative output voltage swing Common-mode rejection ratio (cid:0) (cid:0) Slew rate Phase margin (cid:0) (cid:0) Quiescent power dissipation DC output resistance (cid:0) (cid:0) Input bias current AC output resistance (cid:0) (cid:0) Open-loop voltage amplification Short-circuit output current limit NOTE 5: G. R. Boyle, B. M. Cohn, D. O. Pederson, and J. E. Solomon, “Macromodeling of Integrated Circuit Operational Amplifiers,” IEEE Journal of Solid-State Circuits, SC-9, 353 (1974). 99 DLN 3 EGND + VCC+ 92 9 FB RSS ISS + – 90 91 VB RO2 + DLP + – RP + – HLIM VLP VLN IN– 2 10 VC R2 – – + DP J1 J2 – 6 C2 7 IN+ 53 + 1 VLIM 11 12 DC GCM GA – 8 C1 RD1 RD2 60 RO1 VAD + DE – 54 5 VCC– 4 – + VE OUT .SUBCKT TLC226x 1 2 3 4 5 RD1 60 11 21.22E3 C1 11 12 3.560E–12 RD2 60 12 21.22E3 C2 6 7 15.00E–12 R01 8 5 120 DC 5 53 DX R02 7 99 120 DE 54 5 DX RP 3 4 26.04E3 DLP 90 91 DX RSS 10 99 24.24E6 DLN 92 90 DX VAD 60 4 –.6 DP 4 3 DX VB 9 0 DC 0 EGND 99 0 POLY (2) (3,0) (4,0) 0 .5 .5 VC 3 53 DC .65 FB 7 99 POLY (5) VB VC VE VLP VE 54 4 DC .65 + VLN 0 21.04E6 –30E6 30E6 30E6 –30E6 VLIM 7 8 DC 0 GA 6 0 11 12 47.12E–6 VLP 91 0 DC 1.4 GCM 0 6 10 99 4.9E–9 VLN 0 92 DC 9.4 ISS 3 10 DC 8.250E–6 .MODEL DX D (IS=800.0E–18) HLIM 90 0 VLIM 1K .MODEL JX PJF (IS=500.0E–15 BETA=281E–6 J1 11 2 10 JX + VTO=–.065) J2 12 1 10 JX .ENDS R2 6 9 100.0E3 Figure 63. Boyle Macromodel and Subcircuit PSpice and Parts are trademarks of MicroSim Corporation. POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 49

PACKAGE OPTION ADDENDUM www.ti.com 24-Aug-2018 PACKAGING INFORMATION Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) 5962-9469201QHA ACTIVE CFP U 10 1 TBD A42 N / A for Pkg Type -55 to 125 9469201QHA TLC2262M 5962-9469203QPA ACTIVE CDIP JG 8 1 TBD A42 N / A for Pkg Type -55 to 125 9469203QPA TLC2262AM 5962-9469204Q2A ACTIVE LCCC FK 20 1 TBD POST-PLATE N / A for Pkg Type -55 to 125 5962- 9469204Q2A TLC2264 AMFKB 5962-9469204QCA ACTIVE CDIP J 14 1 TBD A42 N / A for Pkg Type -55 to 125 5962-9469204QC A TLC2264AMJB TLC2262AID ACTIVE SOIC D 8 75 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2262AI & no Sb/Br) TLC2262AIDG4 ACTIVE SOIC D 8 75 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2262AI & no Sb/Br) TLC2262AIDR ACTIVE SOIC D 8 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2262AI & no Sb/Br) TLC2262AIDRG4 ACTIVE SOIC D 8 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2262AI & no Sb/Br) TLC2262AIP ACTIVE PDIP P 8 50 Green (RoHS CU NIPDAU N / A for Pkg Type -40 to 125 TLC2262AI & no Sb/Br) TLC2262AIPW ACTIVE TSSOP PW 8 150 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 Y2262A & no Sb/Br) TLC2262AIPWR ACTIVE TSSOP PW 8 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 Y2262A & no Sb/Br) TLC2262AIPWRG4 ACTIVE TSSOP PW 8 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 Y2262A & no Sb/Br) TLC2262AMJG ACTIVE CDIP JG 8 1 TBD A42 N / A for Pkg Type -55 to 125 TLC2262 AMJG TLC2262AMJGB ACTIVE CDIP JG 8 1 TBD A42 N / A for Pkg Type -55 to 125 9469203QPA TLC2262AM TLC2262AQD ACTIVE SOIC D 8 75 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 C2262A & no Sb/Br) TLC2262CD ACTIVE SOIC D 8 75 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 2262C & no Sb/Br) Addendum-Page 1

PACKAGE OPTION ADDENDUM www.ti.com 24-Aug-2018 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) TLC2262CDR ACTIVE SOIC D 8 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 2262C & no Sb/Br) TLC2262CP ACTIVE PDIP P 8 50 Green (RoHS CU NIPDAU N / A for Pkg Type 0 to 70 TLC2262CP & no Sb/Br) TLC2262CPE4 ACTIVE PDIP P 8 50 Green (RoHS CU NIPDAU N / A for Pkg Type 0 to 70 TLC2262CP & no Sb/Br) TLC2262CPW ACTIVE TSSOP PW 8 150 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 P2262 & no Sb/Br) TLC2262CPWG4 ACTIVE TSSOP PW 8 150 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 P2262 & no Sb/Br) TLC2262CPWR ACTIVE TSSOP PW 8 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 P2262 & no Sb/Br) TLC2262CPWRG4 ACTIVE TSSOP PW 8 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 P2262 & no Sb/Br) TLC2262ID ACTIVE SOIC D 8 75 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 2262I & no Sb/Br) TLC2262IDG4 ACTIVE SOIC D 8 75 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 2262I & no Sb/Br) TLC2262IDR ACTIVE SOIC D 8 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 2262I & no Sb/Br) TLC2262IP ACTIVE PDIP P 8 50 Green (RoHS CU NIPDAU N / A for Pkg Type TLC2262IP & no Sb/Br) TLC2262MUB ACTIVE CFP U 10 1 TBD A42 N / A for Pkg Type -55 to 125 9469201QHA TLC2262M TLC2262QD ACTIVE SOIC D 8 75 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 C2262Q & no Sb/Br) TLC2262QDR ACTIVE SOIC D 8 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 C2262Q & no Sb/Br) TLC2262QDRG4 ACTIVE SOIC D 8 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM C2262Q & no Sb/Br) TLC2264AID ACTIVE SOIC D 14 50 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2264AI & no Sb/Br) TLC2264AIDG4 ACTIVE SOIC D 14 50 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2264AI & no Sb/Br) TLC2264AIDR ACTIVE SOIC D 14 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2264AI & no Sb/Br) Addendum-Page 2

PACKAGE OPTION ADDENDUM www.ti.com 24-Aug-2018 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) TLC2264AIN ACTIVE PDIP N 14 25 Green (RoHS CU NIPDAU N / A for Pkg Type -40 to 125 TLC2264AIN & no Sb/Br) TLC2264AIPW ACTIVE TSSOP PW 14 90 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 Y2264A & no Sb/Br) TLC2264AIPWR ACTIVE TSSOP PW 14 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 Y2264A & no Sb/Br) TLC2264AIPWRG4 ACTIVE TSSOP PW 14 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 Y2264A & no Sb/Br) TLC2264AMFKB ACTIVE LCCC FK 20 1 TBD POST-PLATE N / A for Pkg Type -55 to 125 5962- 9469204Q2A TLC2264 AMFKB TLC2264AMJ ACTIVE CDIP J 14 1 TBD A42 N / A for Pkg Type -55 to 125 TLC2264AMJ TLC2264AMJB ACTIVE CDIP J 14 1 TBD A42 N / A for Pkg Type -55 to 125 5962-9469204QC A TLC2264AMJB TLC2264AQD ACTIVE SOIC D 14 50 Green (RoHS CU NIPDAU Level-1-260C-UNLIM -40 to 125 2264AQ & no Sb/Br) TLC2264AQDRG4 ACTIVE SOIC D 14 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM PJ2264A & no Sb/Br) TLC2264CD ACTIVE SOIC D 14 50 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 TLC2264C & no Sb/Br) TLC2264CDR ACTIVE SOIC D 14 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 TLC2264C & no Sb/Br) TLC2264CN ACTIVE PDIP N 14 25 Green (RoHS CU NIPDAU N / A for Pkg Type 0 to 70 TLC2264CN & no Sb/Br) TLC2264CPW ACTIVE TSSOP PW 14 90 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 P2264 & no Sb/Br) TLC2264CPWR ACTIVE TSSOP PW 14 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 P2264 & no Sb/Br) TLC2264CPWRG4 ACTIVE TSSOP PW 14 2000 Green (RoHS CU NIPDAU Level-1-260C-UNLIM 0 to 70 P2264 & no Sb/Br) TLC2264ID ACTIVE SOIC D 14 50 Green (RoHS CU NIPDAU Level-1-260C-UNLIM TLC2264I & no Sb/Br) TLC2264IDR ACTIVE SOIC D 14 2500 Green (RoHS CU NIPDAU Level-1-260C-UNLIM TLC2264I & no Sb/Br) Addendum-Page 3

PACKAGE OPTION ADDENDUM www.ti.com 24-Aug-2018 Orderable Device Status Package Type Package Pins Package Eco Plan Lead/Ball Finish MSL Peak Temp Op Temp (°C) Device Marking Samples (1) Drawing Qty (2) (6) (3) (4/5) TLC2264IN ACTIVE PDIP N 14 25 Green (RoHS CU NIPDAU N / A for Pkg Type TLC2264IN & no Sb/Br) (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) RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may reference these types of products as "Pb-Free". RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption. Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based flame retardants must also meet the <=1000ppm threshold requirement. (3) MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature. (4) There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device. (5) Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation of the previous line and the two combined represent the entire Device Marking for that device. (6) Lead/Ball Finish - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead/Ball Finish values may wrap to two lines if the finish value exceeds the maximum column width. 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. OTHER QUALIFIED VERSIONS OF TLC2262, TLC2262A, TLC2262AM, TLC2262M, TLC2264A, TLC2264AM : •Catalog: TLC2262A, TLC2262, TLC2264A Addendum-Page 4

PACKAGE OPTION ADDENDUM www.ti.com 24-Aug-2018 •Automotive: TLC2264A-Q1, TLC2264A-Q1 •Military: TLC2262M, TLC2262AM, TLC2264AM NOTE: Qualified Version Definitions: •Catalog - TI's standard catalog product •Automotive - Q100 devices qualified for high-reliability automotive applications targeting zero defects •Military - QML certified for Military and Defense Applications Addendum-Page 5

PACKAGE MATERIALS INFORMATION www.ti.com 26-Feb-2019 TAPE AND REEL INFORMATION *Alldimensionsarenominal Device Package Package Pins SPQ Reel Reel A0 B0 K0 P1 W Pin1 Type Drawing Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant (mm) W1(mm) TLC2262AIDR SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1 TLC2262AIPWR TSSOP PW 8 2000 330.0 12.4 7.0 3.6 1.6 8.0 12.0 Q1 TLC2262CDR SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1 TLC2262CPWR TSSOP PW 8 2000 330.0 12.4 7.0 3.6 1.6 8.0 12.0 Q1 TLC2262IDR SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1 TLC2262QDR SOIC D 8 2500 330.0 12.5 6.4 5.2 2.1 8.0 12.0 Q1 TLC2264AIDR SOIC D 14 2500 330.0 16.4 6.5 9.0 2.1 8.0 16.0 Q1 TLC2264AIPWR TSSOP PW 14 2000 330.0 12.4 6.9 5.6 1.6 8.0 12.0 Q1 TLC2264AQDRG4 SOIC D 14 2500 330.0 16.4 6.5 9.0 2.1 8.0 16.0 Q1 TLC2264CDR SOIC D 14 2500 330.0 16.4 6.5 9.0 2.1 8.0 16.0 Q1 TLC2264CPWR TSSOP PW 14 2000 330.0 12.4 6.9 5.6 1.6 8.0 12.0 Q1 TLC2264IDR SOIC D 14 2500 330.0 16.4 6.5 9.0 2.1 8.0 16.0 Q1 PackMaterials-Page1

PACKAGE MATERIALS INFORMATION www.ti.com 26-Feb-2019 *Alldimensionsarenominal Device PackageType PackageDrawing Pins SPQ Length(mm) Width(mm) Height(mm) TLC2262AIDR SOIC D 8 2500 340.5 338.1 20.6 TLC2262AIPWR TSSOP PW 8 2000 367.0 367.0 35.0 TLC2262CDR SOIC D 8 2500 340.5 338.1 20.6 TLC2262CPWR TSSOP PW 8 2000 367.0 367.0 35.0 TLC2262IDR SOIC D 8 2500 340.5 338.1 20.6 TLC2262QDR SOIC D 8 2500 340.5 338.1 20.6 TLC2264AIDR SOIC D 14 2500 333.2 345.9 28.6 TLC2264AIPWR TSSOP PW 14 2000 367.0 367.0 35.0 TLC2264AQDRG4 SOIC D 14 2500 350.0 350.0 43.0 TLC2264CDR SOIC D 14 2500 333.2 345.9 28.6 TLC2264CPWR TSSOP PW 14 2000 367.0 367.0 35.0 TLC2264IDR SOIC D 14 2500 333.2 345.9 28.6 PackMaterials-Page2

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PACKAGE OUTLINE J0014A CDIP - 5.08 mm max height SCALE 0.900 CERAMIC DUAL IN LINE PACKAGE PIN 1 ID A 4X .005 MIN (OPTIONAL) [0.13] .015-.060 TYP [0.38-1.52] 1 14 12X .100 [2.54] 14X .014-.026 14X .045-.065 [0.36-0.66] [1.15-1.65] .010 [0.25] C A B .754-.785 [19.15-19.94] 7 8 B .245-.283 .2 MAX TYP .13 MIN TYP [6.22-7.19] [5.08] [3.3] SEATING PLANE C .308-.314 [7.83-7.97] AT GAGE PLANE .015 GAGE PLANE [0.38] 0 -15 14X .008-.014 TYP [0.2-0.36] 4214771/A 05/2017 NOTES: 1. All controlling linear dimensions are in inches. Dimensions in brackets are in millimeters. Any dimension in brackets or parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M. 2. This drawing is subject to change without notice. 3. This package is hermitically sealed with a ceramic lid using glass frit. 4. Index point is provided on cap for terminal identification only and on press ceramic glass frit seal only. 5. Falls within MIL-STD-1835 and GDIP1-T14. www.ti.com

EXAMPLE BOARD LAYOUT J0014A CDIP - 5.08 mm max height CERAMIC DUAL IN LINE PACKAGE (.300 ) TYP [7.62] SEE DETAIL B SEE DETAIL A 1 14 12X (.100 ) [2.54] SYMM 14X ( .039) [1] 7 8 SYMM LAND PATTERN EXAMPLE NON-SOLDER MASK DEFINED SCALE: 5X .002 MAX (.063) [0.05] [1.6] METAL ALL AROUND ( .063) SOLDER MASK [1.6] OPENING METAL .002 MAX SOLDER MASK (R.002 ) TYP [0.05] OPENING [0.05] ALL AROUND DETAIL A DETAIL B SCALE: 15X 13X, SCALE: 15X 4214771/A 05/2017 www.ti.com

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PACKAGE OUTLINE D0008A SOIC - 1.75 mm max height SCALE 2.800 SMALL OUTLINE INTEGRATED CIRCUIT C SEATING PLANE .228-.244 TYP [5.80-6.19] .004 [0.1] C A PIN 1 ID AREA 6X .050 [1.27] 8 1 2X .189-.197 [4.81-5.00] .150 NOTE 3 [3.81] 4X (0 -15 ) 4 5 8X .012-.020 B .150-.157 [0.31-0.51] .069 MAX [3.81-3.98] .010 [0.25] C A B [1.75] NOTE 4 .005-.010 TYP [0.13-0.25] 4X (0 -15 ) SEE DETAIL A .010 [0.25] .004-.010 0 - 8 [0.11-0.25] .016-.050 [0.41-1.27] DETAIL A (.041) TYPICAL [1.04] 4214825/C 02/2019 NOTES: 1. Linear dimensions are in inches [millimeters]. Dimensions in parenthesis are for reference only. Controlling dimensions are in inches. Dimensioning and tolerancing per ASME Y14.5M. 2. This drawing is subject to change without notice. 3. This dimension does not include mold flash, protrusions, or gate burrs. Mold flash, protrusions, or gate burrs shall not exceed .006 [0.15] per side. 4. This dimension does not include interlead flash. 5. Reference JEDEC registration MS-012, variation AA. www.ti.com

EXAMPLE BOARD LAYOUT D0008A SOIC - 1.75 mm max height SMALL OUTLINE INTEGRATED CIRCUIT 8X (.061 ) [1.55] SYMM SEE DETAILS 1 8 8X (.024) [0.6] SYMM (R.002 ) TYP [0.05] 5 4 6X (.050 ) [1.27] (.213) [5.4] LAND PATTERN EXAMPLE EXPOSED METAL SHOWN SCALE:8X SOLDER MASK SOLDER MASK METAL OPENING OPENING METAL UNDER SOLDER MASK EXPOSED METAL EXPOSED METAL .0028 MAX .0028 MIN [0.07] [0.07] ALL AROUND ALL AROUND NON SOLDER MASK SOLDER MASK DEFINED DEFINED SOLDER MASK DETAILS 4214825/C 02/2019 NOTES: (continued) 6. Publication IPC-7351 may have alternate designs. 7. Solder mask tolerances between and around signal pads can vary based on board fabrication site. www.ti.com

EXAMPLE STENCIL DESIGN D0008A SOIC - 1.75 mm max height SMALL OUTLINE INTEGRATED CIRCUIT 8X (.061 ) [1.55] SYMM 1 8 8X (.024) [0.6] SYMM (R.002 ) TYP [0.05] 5 4 6X (.050 ) [1.27] (.213) [5.4] SOLDER PASTE EXAMPLE BASED ON .005 INCH [0.125 MM] THICK STENCIL SCALE:8X 4214825/C 02/2019 NOTES: (continued) 8. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. IPC-7525 may have alternate design recommendations. 9. Board assembly site may have different recommendations for stencil design. www.ti.com

MECHANICAL DATA MCER001A – JANUARY 1995 – REVISED JANUARY 1997 JG (R-GDIP-T8) CERAMIC DUAL-IN-LINE 0.400 (10,16) 0.355 (9,00) 8 5 0.280 (7,11) 0.245 (6,22) 1 4 0.065 (1,65) 0.045 (1,14) 0.063 (1,60) 0.020 (0,51) MIN 0.310 (7,87) 0.015 (0,38) 0.290 (7,37) 0.200 (5,08) MAX Seating Plane 0.130 (3,30) MIN 0.023 (0,58) 0°–15° 0.015 (0,38) 0.100 (2,54) 0.014 (0,36) 0.008 (0,20) 4040107/C 08/96 NOTES: A. All linear dimensions are in inches (millimeters). B. This drawing is subject to change without notice. C. This package can be hermetically sealed with a ceramic lid using glass frit. D. Index point is provided on cap for terminal identification. E. Falls within MIL STD 1835 GDIP1-T8 • POST OFFICE BOX 655303 DALLAS, TEXAS 75265

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PACKAGE OUTLINE PW0008A TSSOP - 1.2 mm max height SCALE 2.800 SMALL OUTLINE PACKAGE C 6.6 TYP SEATING PLANE 6.2 PIN 1 ID A 0.1 C AREA 6X 0.65 8 1 3.1 2X 2.9 NOTE 3 1.95 4 5 0.30 8X 0.19 4.5 1.2 MAX B 0.1 C A B 4.3 NOTE 4 (0.15) TYP SEE DETAIL A 0.25 GAGE PLANE 0.15 0.75 0 - 8 0.05 0.50 DETAIL A TYPICAL 4221848/A 02/2015 NOTES: 1. All linear dimensions are in millimeters. Any dimensions in parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M. 2. This drawing is subject to change without notice. 3. This dimension does not include mold flash, protrusions, or gate burrs. Mold flash, protrusions, or gate burrs shall not exceed 0.15 mm per side. 4. This dimension does not include interlead flash. Interlead flash shall not exceed 0.25 mm per side. 5. Reference JEDEC registration MO-153, variation AA. www.ti.com

EXAMPLE BOARD LAYOUT PW0008A TSSOP - 1.2 mm max height SMALL OUTLINE PACKAGE 8X (1.5) 8X (0.45) SYMM (R0.05) 1 TYP 8 SYMM 6X (0.65) 5 4 (5.8) LAND PATTERN EXAMPLE SCALE:10X SOOPLEDNEINRG MASK METAL MSOELTDAEL RU NMDAESRK SOOPLEDNEINRG MASK 0.05 MAX 0.05 MIN ALL AROUND ALL AROUND NON SOLDER MASK SOLDER MASK DEFINED DEFINED SOLDER MASK DETAILS NOT TO SCALE 4221848/A 02/2015 NOTES: (continued) 6. Publication IPC-7351 may have alternate designs. 7. Solder mask tolerances between and around signal pads can vary based on board fabrication site. www.ti.com

EXAMPLE STENCIL DESIGN PW0008A TSSOP - 1.2 mm max height SMALL OUTLINE PACKAGE 8X (1.5) SYMM (R0.05) TYP 8X (0.45) 1 8 SYMM 6X (0.65) 5 4 (5.8) SOLDER PASTE EXAMPLE BASED ON 0.125 mm THICK STENCIL SCALE:10X 4221848/A 02/2015 NOTES: (continued) 8. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. IPC-7525 may have alternate design recommendations. 9. Board assembly site may have different recommendations for stencil design. www.ti.com

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