TLC271, TLC271A, TLC271B LinCMOS PROGRAMMABLE LOW-POWER OPERATIONAL AMPLIFIERS
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1 Input Offset Voltage Drift...Typically. µv/month, Including the First 3 Days Wide Range of Supply Voltages Over Specified Temperature Range: C 7 C...3 V 6 V 4 C 85 C...4 V 6 V 55 C 25 C...5 V 6 V Single-Supply Operation Common-Mode Input Voltage Range Extends Below the Negative Rail (C-Suffix and I-Suffix Types) Low Noise nv/ Hz Typically at f = khz (High-Bias Mode) Output Voltage Range includes Negative Rail High Input Impedance... 2 Ω Typ ESD-Protection Circuitry Small-Outline Package Option Also Available in Tape and Reel Designed-In Latch-Up Immunity description TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 The TLC27 operational amplifier combines a wide range of input offset voltage grades with low offset voltage drift and high input impedance. In NC No internal connection addition, the TLC27 offers a bias-select mode that allows the user select the best combination of power dissipation and ac performance for a particular application. These devices use Texas Instruments silicon-gate LinCMOS technology, which provides offset voltage stability far exceeding the stability available with conventional metal-gate processes. TA VIOmax AT 25 C AVAILABLE OPTIONS PACKAGE SMALL OUTLINE (D) CHIP CARRIER (FK) CERAMIC DIP (JG) PLASTIC DIP (P) C 2 mv TLC27BCD TLC27BCP 5 mv TLC27ACD TLC27ACP 7 C mv TLC27CD TLC27CP 4 C 2 mv TLC27BID TLC27BIP 5 mv TLC27AID TLC27AIP 85 C mv TLC27ID TLC27IP 55 C 25 C OFFSET N IN IN + GND NC IN NC IN + NC D, JG, OR P PACKAGE (TOP VIEW) mv TLC27MD TLC27MFK TLC27MJG TLC27MP The D package is available taped and reeled. Add R suffix the device type (e.g., TLC27BCDR) FK PACKAGE (TOP VIEW) NC OFFSET N NC NC GND NC OFFSET N2 BIAS SELECT NC NC BIAS SELECT V DD OUT OFFSET N2 NC V DD NC OUT NC Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconducr products and disclaimers there appears at the end of this data sheet. LinCMOS is a trademark of Texas Instruments Incorporated. PRODUCTION DATA information is current as of publication date. Products conform specifications per the terms of Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters. Copyright 997, Texas Instruments Incorporated POST OFFICE BOX DALLAS, TEXAS 75265

2 SLOS9C NOVEMBER 987 REVISED AUGUST 997 PARAMETER 8DEVICE FEATURES BIAS-SELECT MODE HIGH MEDIUM LOW UNIT PD µw SR V/µs Vn nv/ Hz B MHz AVD V/mV Typical at, description (continued) Using the bias-select option, these cost-effective devices can be programmed span a wide range of applications that previously required BiFET, NFET or bipolar technology. Three offset voltage grades are available (C-suffix and I-suffix types), ranging from the low-cost TLC27 ( mv) the TLC27B (2 mv) low-offset version. The extremely high input impedance and low bias currents, in conjunction with good common-mode rejection and supply voltage rejection, make these devices a good choice for new state-of-the-art designs as well as for upgrading existing designs. In general, many features associated with bipolar technology are available in LinCMOS operational amplifiers, without the power penalties of bipolar technology. General applications such as transducer interfacing, analog calculations, amplifier blocks, active filters, and signal buffering are all easily designed with the TLC27. The devices also exhibit low-voltage single-supply operation, making them ideally suited for remote and inaccessible battery-powered applications. The common-mode input voltage range includes the negative rail. A wide range of packaging options is available, including small-outline and chip-carrier versions for high-density system applications. The device inputs and output are designed withstand -ma surge currents without sustaining latch-up. The TLC27 incorporates internal ESD-protection circuits that prevent functional failures at voltages up 2 V as tested under MIL-STD-883C, Method 35.2; however, care should be exercised in handling these devices as exposure ESD may result in the degradation of the device parametric performance. The C-suffix devices are characterized for operation from C 7 C. The I-suffix devices are characterized for operation from 4 C 85 C. The M-suffix devices are characterized for operation over the full military temperature range of 55 C 25 C. bias-select feature The TLC27 offers a bias-select feature that allows the user select any one of three bias levels depending on the level of performance desired. The tradeoffs between bias levels involve ac performance and power dissipation (see Table ). 2 POST OFFICE BOX DALLAS, TEXAS 75265

3 SLOS9C NOVEMBER 987 REVISED AUGUST 997 bias-select feature (continued) Table. Effect of Bias Selection on Performance MODE TYPICAL PARAMETER VALUES 25 C, HIGH BIAS MEDIUM BIAS LOW BIAS UNIT TA = RL = kω RL = kω RL = MΩ PD Power dissipation mw SR Slew rate V/µs Vn Equivalent input noise voltage at f = khz nv/ Hz B Unity-gain bandwidth MHz φm Phase margin AVD Large-signal differential voltage amplification V/mV bias selection Bias selection is achieved by connecting the bias select pin one of three voltage levels (see Figure ). For medium-bias applications, it is recommended that the bias select pin be connected the midpoint between the supply rails. This procedure is simple in split-supply applications, since this point is ground. In single-supply applications, the medium-bias mode necessitates using a voltage divider as indicated in Figure. The use of large-value resisrs in the voltage divider reduces the current drain of the divider from the supply line. However, large-value resisrs used in conjunction with a large-value capacir require significant time charge up the supply midpoint after the supply is switched on. A voltage other than the midpoint can be used if it is within the voltages specified in Figure. bias selection (continued) VDD To the Bias Select Pin Low Medium High MΩ MΩ. µf BIAS MODE Low Medium High BIAS-SELECT VOLTAGE (single supply) VDD V VDD V GND Figure. Bias Selection for Single-Supply Applications high-bias mode In the high-bias mode, the TLC27 series features low offset voltage drift, high input impedance, and low noise. Speed in this mode approaches that of BiFET devices but at only a fraction of the power dissipation. Unity-gain bandwidth is typically greater than MHz. medium-bias mode The TLC27 in the medium-bias mode features low offset voltage drift, high input impedance, and low noise. Speed in this mode is similar general-purpose bipolar devices but power dissipation is only a fraction of that consumed by bipolar devices. POST OFFICE BOX DALLAS, TEXAS

4 SLOS9C NOVEMBER 987 REVISED AUGUST 997 low-bias mode In the low-bias mode, the TLC27 features low offset voltage drift, high input impedance, extremely low power consumption, and high differential voltage gain. ORDER OF CONTENTS TOPIC schematic absolute maximum ratings recommended operating conditions electrical characteristics operating characteristics typical characteristics electrical characteristics operating characteristics typical characteristics electrical characteristics operating characteristics typical characteristics parameter measurement information application information BIAS MODE all all all high (Figures 2 33) medium (Figures 34 65) low (Figures 66 97) all all equivalent schematic VDD P3 P4 R6 P5 P9B P9A P P2 IN IN + R P P2 R2 R5 C N5 P6A P6B P7B P7A P8 P N R3 N D N2 R4 D2 N3 N4 N6 R7 N7 N9 N N2 N3 OFFSET N OFFSET OUT GND N2 BIAS SELECT 4 POST OFFICE BOX DALLAS, TEXAS 75265

5 SLOS9C NOVEMBER 987 REVISED AUGUST 997 absolute maximum ratings over operating free-air temperature (unless otherwise noted) Supply voltage, V DD (see Note ) V Differential input voltage, V ID (see Note 2) ±V DD Input voltage range, V I (any input) V V DD Input current, I I ±5 ma Output current, I O ±3 ma Duration of short-circuit current at (or below) 25 C (see Note 3) Unlimited Continuous tal dissipation See Dissipation Rating Table Operating free-air temperature, T A : C suffix C 7 C I suffix C 85 C M suffix C 25 C Srage temperature range C 5 C Case temperature for 6 seconds: FK package C Lead temperature,6 mm (/6 inch) from case for seconds: D or P package C Lead temperature,6 mm (/6 inch) from case for 6 seconds: JG package C Stresses beyond those listed under absolute maximum ratings may cause permanent damage 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 absolute-maximum-rated conditions for extended periods may affect device reliability. NOTES:. All voltage values, except differential voltages, are with respect network ground. 2. Differential voltages are at IN+ with respect IN. 3. The output may be shorted either supply. Temperature and/or supply voltages must be limited ensure that the maximum dissipation rating is not exceeded (see application section). PACKAGE TA 25 C POWER RATING DISSIPATION RATING TABLE DERATING FACTOR ABOVE TA = 7 C POWER RATING TA = 85 C POWER RATING TA = 25 C POWER RATING D 725 mw 5.8 mw/ C 464 mw 377 mw 45 mw FK 375 mw. mw/ C 88 mw 75 mw 275 mw JG 5 mw 8.4 mw/ C 672 mw 546 mw 2 mw P mw 8. mw/ C 64 mw 52 mw 2 mw recommended operating conditions C SUFFIX I SUFFIX M SUFFIX UNIT MIN MAX MIN MAX MIN MAX Supply voltage, VDD V Common-mode mode input voltage, VIC V VDD = V Operating free-air temperature, TA C POST OFFICE BOX DALLAS, TEXAS

6 SLOS9C NOVEMBER 987 REVISED AUGUST 997 HIGH-BIAS MODE electrical characteristics at specified free-air temperature (unless otherwise noted) PARAMETER TEST CONDITIONS TLC27C, TLC27AC, TLC27BC TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX 25 C.. TLC27C Full range 2 2 VO =4V.4 V, VIC = V, 25 C VIO Input offset voltage TLC27AC RS = 5 Ω, Full range RL = kω 25 C TLC27BC Full range 3 3 αvio Average temperature coefficient of input offset voltage 25 C 7 C mv.8 2 µv/ C VO = VDD /2, 25 C.. IIO Input offset current (see Note 4) O VIC = VDD /2 7 C VO = VDD /2, 25 C.6.7 IIB Input bias current (see Note 4) VIC = VDD /2 7 C VICR VOH VOL AVD Common-mode mode input voltage range (see Note 5) High-level output voltage Low-level output voltage VID = mv, RL =kω VID = mv, IOL = Large-signal differential RL = kω, voltage amplification See Note 6 25 C Full range C C V 7 C C 5 5 pa pa C 5 5 mv 7 C C C V/mV 7 C C CMRR Common-mode rejection ratio VIC = VICRmin C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 7 C C C db 7 C II(SEL) Input current (BIAS SELECT) VI(SEL) = 25 C.4.9 µa IDD Supply current = 25 C VO VDD /2, VIC = VDD /2, C µa No load 7 C Full range is C 7 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V 6 POST OFFICE BOX DALLAS, TEXAS 75265

7 HIGH-BIAS MODE TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 electrical characteristics at specified free-air temperature (unless otherwise noted) PARAMETER TEST CONDITIONS TLC27I, TLC27AI, TLC27BI TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX 25 C.. TLC27I Full range 3 3 VO =4V.4 V, VIC = V, 25 C VIO Input offset voltage TLC27AI RS = 5 Ω, Full range 7 7 RL = kω 25 C TLC27BI Full range αvio Average temperature coefficient of input offset voltage 25 C 85 C mv.8 2 µv/ C VO = VDD /2, 25 C.. IIO Input offset current (see Note 4) O VIC = VDD /2 85 C VO = VDD /2, 25 C.6.7 IIB Input bias current (see Note 4) O VIC = VDD /2 85 C Common-mode input VICR voltage range (see Note 5) VOH VOL AVD High-level output voltage Low-level output voltage VID = mv, RL =kω VID = mv, IOL = Large-signal differential RL = kω, voltage amplification See Note 6 25 C Full range C C V 85 C C 5 5 pa pa 4 C 5 5 mv 85 C C C V/mV 85 C C CMRR Common-mode rejection ratio VIC = VICRmin 4 C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 85 C C C db 85 C II(SEL) Input current (BIAS SELECT) VI(SEL) = 25 C.4.9 µa IDD Supply current = 25 C VO VDD /2, VIC = VDD /2, 4 C No load 85 C µa Full range is 4 C 85 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V POST OFFICE BOX DALLAS, TEXAS

8 SLOS9C NOVEMBER 987 REVISED AUGUST 997 HIGH-BIAS MODE electrical characteristics at specified free-air temperature (unless otherwise noted) PARAMETER TEST CONDITIONS TLC27M TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX VO =.4 V, 25 C.. VIC = V, VIO Input offset voltage RS S = 5 Ω, RL = kω Full range 2 2 αvio Average temperature coefficient of input offset voltage 25 C 25 C mv µv/ C VO = VDD /2, 25 C.. pa IIO Input offset current (see Note 4) O VIC = VDD /2 25 C na VO = VDD /2, 25 C.6.7 pa IIB Input bias current (see Note 4) VIC = VDD /2 25 C na VICR VOH VOL AVD Common-mode input voltage range (see Note 5) High-level output voltage Low-level output voltage VID = mv, RL =kω VID = mv, IOL = Large-signal differential RL = kω, voltage amplification See Note 6 25 C Full range C C V 25 C C C 5 5 mv 25 C C C V/mV 25 C C CMRR Common-mode rejection ratio VIC = VICRmin 55 C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 25 C C C db 25 C II(SEL) Input current (BIAS SELECT) VI(SEL) = 25 C.4.9 µa IDD Supply current = 25 C VO VDD /2, VIC = VDD /2, 55 C No load 25 C µa Full range is 55 C 25 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V 8 POST OFFICE BOX DALLAS, TEXAS 75265

9 HIGH-BIAS MODE operating characteristics at specified free-air temperature, V DD = 5 V PARAMETER TEST CONDITIONS TAA RL = kω, SR Slew rate at unity gain CL = 2 pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 f = khz, RS = 2 Ω,, See Figure 99 VO = VOH, CL = 2 pf, RL =kω kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL = 2 pf, See Figure TLC27C, TLC27AC, TLC27BC MIN TYP MAX 25 C 3.6 VI(PP) ( = V C 4 7 C 3 25 C 2.9 VI(PP) = 2.5 V C 3. 7 C 2.5 operating characteristics at specified free-air temperature, V DD = V PARAMETER TEST CONDITIONS TAA RL = kω, SR Slew rate at unity gain CL = 2 pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, RS S = 2 Ω,, See Figure 99 VO = VOH, CL = 2 pf, RL =kω kω, See Figure 98 VI = mv, CL = 2 pf, See Figure f = B, VI = mv, CL = 2 pf, See Figure UNIT V/µs 25 C 25 nv/ Hz 25 C 32 C 34 khz 7 C C.7 C 2 MHz 7 C.3 25 C 46 C 47 7 C 44 TLC27C, TLC27AC, TLC27BC MIN TYP MAX 25 C 5.3 VI(PP) ( = V C C C 4.6 VI(PP) = 5.5 V C 5. 7 C 3.8 UNIT V/µs 25 C 25 nv/ Hz 25 C 2 C 22 khz 7 C 4 25 C 2.2 C 2.5 MHz 7 C.8 25 C 49 C 5 7 C 46 POST OFFICE BOX DALLAS, TEXAS

10 SLOS9C NOVEMBER 987 REVISED AUGUST 997 HIGH-BIAS MODE operating characteristics at specified free-air temperature, V DD = 5 V PARAMETER TEST CONDITIONS TAA RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, RS = 2 Ω,, See Figure 99 VO = VOH, CL = 2 pf, RL =kω kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL =2pF F, See Figure TLC27I, TLC27AI, TLC27BI MIN TYP MAX 25 C 3.6 VI(PP) ( = V 4 C C C 2.9 VI(PP) = 2.5 V 4 C C 2.3 operating characteristics at specified free-air temperature, V DD = V PARAMETER TEST CONDITIONS TAA RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, RS S = 2 Ω,, See Figure 99 VO = VOH, CL = 2 pf, RL =kω kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f= B, CL = 2 pf, See Figure UNIT V/µs 25 C 25 nv/ Hz 25 C 32 4 C 38 khz 85 C C.7 4 C 2.6 MHz 85 C.2 25 C 46 4 C C 43 TLC27I, TLC27AI, TLC27BI MIN TYP MAX 25 C 5.3 VI(PP) ( = V 4 C C 4 25 C 4.6 VI(PP) ( = 5.5 V 4 C C 3.5 UNIT V/µs 25 C 25 nv/ Hz 25 C 2 4 C 26 khz 85 C 3 25 C C 3. MHz 85 C.7 25 C 49 4 C C 46 POST OFFICE BOX DALLAS, TEXAS 75265

11 HIGH-BIAS MODE operating characteristics at specified free-air temperature, V DD = 5 V TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 PARAMETER TEST CONDITIONS TA TLC27M MIN TYP MAX 25 C 3.6 RL = kω, SR Slew rate at unity gain CL = 2 pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, RS = 2 Ω,, See Figure 99 VO = VOH, CL = 2 pf, RL =kω kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL = 2 pf, See Figure VI(PP) ( = V 55 C C C 2.9 VI(PP) ( = 2.5 V 55 C C 2 operating characteristics at specified free-air temperature, V DD = V PARAMETER TEST CONDITIONS TA RL = kω, SR Slew rate at unity gain CL = 2 pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, RS = 2 Ω,, See Figure 99 VO = VOH, CL = 2 pf, RL =kω kω, See Figure 98 VI = mv, CL = 2 pf, See Figure f = B, VI = mv, CL = 2 pf, See Figure UNIT V/µs 25 C 25 nv/ Hz 25 C C 4 khz 25 C C.7 55 C 2.9 MHz 25 C. 25 C C C 4 TLC27M MIN TYP MAX 25 C 5.3 VI(PP) ( = V 55 C C C 4.6 VI(PP) ( = 5.5 V 55 C C 2.7 UNIT V/µs 25 C 25 nv/ Hz 25 C 2 55 C 28 khz 25 C 25 C C 3.4 MHz 25 C.6 25 C C C 44 POST OFFICE BOX DALLAS, TEXAS 75265

12 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) Table of Graphs FIGURE VIO Input offset voltage Distribution 2, 3 αvio Temperature coefficient Distribution 4, 5 High-level output current 6, 7 VOH High-level output voltage Supply voltage 8 Free-air temperature 9 VOL AVD Low-level output voltage Large-signal differential voltage amplification Common-mode mode input voltage, Differential input voltage 2 Free-air temperature 3 Low-level output current 4, 5 Supply voltage 6 Free-air temperature 7 Frequency 28, 29 IIB Input bias current Free-air temperature 8 IIO Input offset current Free-air temperature 8 VIC Common-mode input voltage Supply voltage 9 IDD SR Supply current Slew rate Supply voltage 2 Free-air temperature 2 Supply voltage 22 Free-air temperature 23 Bias-select current Supply voltage 24 VO(PP) Maximum peak--peak output voltage Frequency 25 B Unity-gain bandwidth Free-air temperature 26 Supply voltage 27 AVD Large-signal differential voltage amplification Frequency 28, 29 φmm Phase margin Supply voltage 3 Free-air temperature 3 Capacitive load 32 Vn Equivalent input noise voltage Frequency 33 Phase shift Frequency 28, 29 2 POST OFFICE BOX DALLAS, TEXAS 75265

13 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) 6 5 DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE 753 Amplifiers Tested From 6 Wafer Lots P Package 6 5 P Package DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE ÎÎÎÎÎÎÎÎÎÎÎÎÎ 753 Amplifiers Tested From 6 Wafer Lots VDD = V Percentage of Units % Percentage of Units % VIO Input Offset Voltage mv VIO Input Offset Voltage mv 4 5 Figure 2 Figure 3 Percentage of Units % DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT ÎÎÎÎÎÎÎÎÎÎÎÎ 324 Amplifiers Tested From 8 Wafer Lots 25 C P Package Outliers: () 2.5 µv/ C Percentage of Units % DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT ÎÎÎÎÎÎÎÎÎÎÎÎ 324 Amplifiers Tested From 8 Wafer lots VDD = V 25 C P Package Outliers: () 2.2 µv/ C ÎÎÎÎÎ αvio Temperature Coefficient µv/ C αvio Temperature Coefficient µv/ C Figure 4 Figure 5 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

14 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) 5 HIGH-LEVEL OUTPUT VOLTAGE HIGH-LEVEL OUTPUT CURRENT 6 HIGH-LEVEL OUTPUT VOLTAGE HIGH-LEVEL OUTPUT CURRENT VOH V OH High-Level Output Voltage V Á Á VDD = 3 V VDD = 4 V VID = mv VOH V OH High-Level Output Voltage V VDD = 6 V ÎÎÎÎÎ VDD = V VID = mv IOH High-Level Output Current ma IOH High-Level Output Current ma 4 Figure 6 Figure 7 HIGH-LEVEL OUTPUT VOLTAGE SUPPLY VOLTAGE HIGH-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE 6 VDD.6 VOH V OH High-Level Output Voltage V VID = mv RL = kω VOH V OH High-Level Output Voltage V VDD = V IOH = 5 ma VID = ma VDD Supply Voltage V TA Free-Air Temperature C 25 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. 4 POST OFFICE BOX DALLAS, TEXAS 75265

15 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) LOW-LEVEL OUTPUT VOLTAGE COMMON-MODE INPUT VOLTAGE LOW-LEVEL OUTPUT VOLTAGE COMMON-MODE INPUT VOLTAGE VOL V OL Low-Level Output Voltage mv ÎÎÎÎÎÎ VID = mv VID = V IOL = 5 ma VOL V OL Low-Level Output Voltage mv Á 3 VID = mv VID = V VID = 2.5 V VDD = V IOL = 5 ma VIC Common-Mode Input Voltage V VIC Common-Mode Input Voltage V Figure Figure LOW-LEVEL OUTPUT VOLTAGE DIFFERENTIAL INPUT VOLTAGE LOW-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE VOL V OL Low-Level Output Voltage mv IOL = 5 ma VIC = VID/2 ÎÎÎÎ VDD = V VOL Low-Level Output Voltage mv VOL IOL = 5 ma VID = V VIC =.5 V ÎÎÎÎ VDD = V VID Differential Input Voltage V TA Free-Air Temperature C 25 Figure 2 Figure 3 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

16 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) VOL V OL Low-Level Output Voltage mv LOW-LEVEL OUTPUT VOLTAGE LOW-LEVEL OUTPUT CURRENT VID = V VIC =.5 V VDD = 4 V ÎÎÎÎ VDD = 3 V VOL Low-Level Output Voltage mv 3 VID = V VIC =.5 V LOW-LEVEL OUTPUT VOLTAGE LOW-LEVEL OUTPUT CURRENT VDD = V VDD = 6 V IOL Low-Level Output Current ma IOL Low-Level Output Current ma 3 Figure 4 Figure 5 LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION SUPPLY VOLTAGE LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION FREE-AIR TEMPERATURE AVD Large-Signal Differential Voltage Amplification V/mV ÎÎÎÎ RL = kω TA = 55 C ÎÎÎ C ÎÎÎ 25 C 85 C 25 C AVD A VD Large-Signal Differential Voltage Amplification V/mV VDD = V ÎÎÎÎÎ RL = kω VDD Supply Voltage V TA Free-Air Temperature C 25 Figure 6 Figure 7 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. 6 POST OFFICE BOX DALLAS, TEXAS 75265

17 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) IIB I IB and IIO Input Bias and Input Offset Currents na INPUT BIAS CURRENT AND INPUT OFFSET CURRENT FREE-AIR TEMPERATURE VDD = V VIC = 5 V See Note A ÎÎ IIB ÎÎ I IO V IC Common-Mode Input Voltage V COMMON-MODE INPUT VOLTAGE (POSITIVE LIMIT) SUPPLY VOLTAGE TA Free-Air Temperature C NOTE A: The typical values of input bias current and input offset current below 5 pa were determined mathematically. Figure VDD Supply Voltage V Figure ÎÎÎÎ VO = VDD /2 No Load SUPPLY CURRENT SUPPLY VOLTAGE 2 SUPPLY CURRENT FREE-AIR TEMPERATURE ÎÎÎÎÎ VO = VDD /2 No Load IDD Supply Current ma.5 Á.5 2 TA = 55 C ÎÎÎ C 25 C 7 C 25 C IDD Supply Current ma.5.5 VDD = V VDD Supply Voltage V TA Free-Air Temperature C 25 Figure 2 Figure 2 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

18 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) SR Slew Rate V/ µ us s AV = VI(PP) = V RL = kω CL = 2 pf See Figure 98 2 SLEW RATE SUPPLY VOLTAGE VDD Supply Voltage V 4 6 SR Slew Rate V/ µ us SLEW RATE FREE-AIR TEMPERATURE ÎÎÎÎÎ VDD = V ÎÎÎÎÎ VI(PP) = 5.5 V VI(PP) = V AV = RL = kω CL = 2 pf See Figure 99 VDD = V VI(PP) = V ÎÎÎÎÎ ÎÎÎÎÎÎ VI(PP) = 2.5 V TA Free-Air Temperature C Figure 22 Figure 23 BIAS-SELECT CURRENT SUPPLY VOLTAGE MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE FREQUENCY Bias-Select Current uaa µ VDD Supply Voltage V VI(SEL) = 4 6 Maximum Peak--Peak Output Voltage V V O(PP) ÎÎÎÎ VDD = V ÎÎÎÎ RL = kω ÎÎÎÎÎ See Figure 98 f Frequency khz ÎÎÎÎ TA = 25 C TA = 55 C 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. 8 POST OFFICE BOX DALLAS, TEXAS 75265

19 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) B B Unity-Gain Bandwidth MHz UNITY-GAIN BANDWIDTH FREE-AIR TEMPERATURE VI = mv CL = 2 pf See Figure B B Unity-Gain Bandwidth MHz VI = mv CL = 2 pf See Figure UNITY-GAIN BANDWIDTH SUPPLY VOLTAGE TA Free-Air Temperature C VDD Supply Voltage V 4 6 Figure 26 Figure 27 AVD A VD Large-Signal Differential Voltage Amplification LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION AND PHASE SHIFT FREQUENCY RL = kω AVD Phase Shift Phase Shift. k k k f Frequency Hz M 8 M Figure 28 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

20 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) 7 6 LARGE-SCALE DIFFERENTIAL VOLTAGE AMPLIFICATION AND PHASE SHIFT FREQUENCY VDD = V RL = kω AVD A VD Large-Signal Differential Voltage Amplification AVD Phase Shift Phase Shift 5. k k k f Frequency Hz M 8 M Figure PHASE MARGIN SUPPLY VOLTAGE 5 PHASE MARGIN FREE-AIR TEMPERATURE VI = mv CL = 2 pf See Figure φ m Phase Margin VI = mv CL = 2 pf See Figure m Phase Margin φm VDD Supply Voltage V TA Free-Air Temperature C 25 Figure 3 Figure 3 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. 2 POST OFFICE BOX DALLAS, TEXAS 75265

21 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (HIGH-BIAS MODE) φ m Phase Margin PHASE MARGIN CAPACITIVE LOAD CL Capacitive Load pf Figure 32 VDD = 5 mv VI = mv See Figure VN V Equivalent Input Noise Voltage nv/hz n nv/ Hz EQUIVALENT NOISE VOLTAGE FREQUENCY f Frequency Hz Figure 33 Á Á RS = 2 Ω Á See Figure 99 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

22 SLOS9C NOVEMBER 987 REVISED AUGUST 997 MEDIUM-BIAS MODE electrical characteristics at specified free-air temperature (unless otherwise noted) TLC27C, TLC27AC, TLC27BC PARAMETER TEST CONDITIONS TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX 25 C.. TLC27C Full range 2 2 VO =4V.4 V, VIC = 25 C VIO Input offset voltage TLC27AC RS = 5 Ω, Full range RI = kωω 25 C TLC27BC Full range 3 3 αvio Average temperature coefficient of input offset voltage 25 C 7 C mv.7 2. µv/ C VO = VDD /2, 25 C.. IIO Input offset current (see Note 4) O VIC = VDD /2 7 C VO = VDD /2, 25 C.6.7 IIB Input bias current (see Note 4) VIC = VDD /2 7 C VICR VOH VOL AVD Common-mode input voltage range (see Note 5) High-level output voltage Low-level output voltage VID = mv, RL = kω VID = mv, IOL = Large-signal differential RL = kω, voltage amplification See Note 6 25 C Full range C C V 7 C C 5 5 pa pa C 5 5 mv 7 C C C V/mV 7 C C CMRR Common-mode rejection ratio VIC = VICRmin C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 7 C C C db 7 C II(SEL) Input current (BIAS SELECT) VI(SEL) = VDD /2 25 C 3 6 na VO = VDD /2, 25 C IDD Supply current VIC = VDD /2, C µa No load 7 C Full range is C 7 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V 22 POST OFFICE BOX DALLAS, TEXAS 75265

23 MEDIUM-BIAS MODE TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 electrical characteristics at specified free-air temperature (unless otherwise noted) PARAMETER TEST CONDITIONS TLC27I, TLC27AI, TLC27BI TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX 25 C.. TLC27I Full range 3 3 VO =4V.4 V, VIC = V, 25 C VIO Input offset voltage TLC27AI RS = 5 Ω, Full range 7 7 RL = kωω 25 C TLC27BI Full range αvio Average temperature coefficient of input offset voltage 25 C 85 C mv.7 2. µv/ C VO = VDD /2, 25 C.. IIO Input offset current (see Note 4) O VIC = VDD /2 85 C VO = VDD /2, 25 C.6.7 IIB Input bias current (see Note 4) O VIC = VDD /2 85 C VICR VOH VOL AVD Common-mode input voltage range (see Note 5) High-level output voltage Low-level output voltage VID = mv, RL = kω VID = mv, IOL = Large-signal differential RL = kω, voltage amplification See Note 6 25 C Full range C C V 85 C C 5 5 pa pa 4 C 5 5 mv 85 C C C V/mV 85 C C CMRR Common-mode rejection ratio VIC = VICRmin 4 C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 85 C C C db 85 C II(SEL) Input current (BIAS SELECT) VI(SEL) = VDD /2 25 C 3 6 na VO = VDD /2, 25 C IDD Supply current VIC = VDD /2, 4 C µa No load 85 C Full range is 4 C 85 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V POST OFFICE BOX DALLAS, TEXAS

24 SLOS9C NOVEMBER 987 REVISED AUGUST 997 MEDIUM-BIAS MODE electrical characteristics at specified free-air temperature (unless otherwise noted) VIO αvio PARAMETER Input offset voltage Average temperature coefficient of input offset voltage TEST CONDITIONS VO =.4 V, VIC = V, RS = 5 Ω, RL = kω TLC27M TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX 25 C.. mv Full range C 25 C.7 2. µv/ C VO = VDD /2, 25 C.. pa IIO Input offset current (see Note 4) O VIC = VDD /2 25 C na VO = VDD /2, 25 C.6.7 pa IIB Input bias current (see Note 4) VIC = VDD /2 25 C na VICR VOH VOL AVD Common-mode input voltage range (see Note 5) High-level output voltage Low-level output voltage VID = mv, RL = kω VID = mv, IOL = Large-signal differential RL = kω voltage amplification See Note 6 25 C Full range C C V 25 C C C 5 5 mv 25 C C C V/mV 25 C C CMRR Common-mode rejection ratio VIC = VICRmin 55 C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 25 C C C db 25 C II(SEL) Input current (BIAS SELECT) VI(SEL) = VDD /2 25 C 3 6 na VO = VDD /2, 25 C IDD Supply current VIC = VDD /2, 55 C µa No load 25 C Full range is 55 C 25 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V 24 POST OFFICE BOX DALLAS, TEXAS 75265

25 MEDIUM-BIAS MODE operating characteristics at specified free-air temperature, V DD = 5 V PARAMETER TEST CONDITIONS TA RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, See Figure 99 TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 VO = VOH, CL = 2 pf, RL = kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL =2pF F, See Figure TLC27C, TLC27AC, TLC27BC MIN TYP MAX 25 C.43 VI(PP) ( = V C.46 7 C C.4 operating characteristics at specified free-air temperature, V DD = V PARAMETER TEST CONDITIONS TA RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, See Figure 99 VO = VOH, CL = 2 pf, RL = kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL =2pF F, See Figure UNIT V/µs VI(PP) = 2.5 V C.43 7 C.34 RS = 2 Ω, 25 C 32 nv/ Hz 25 C 55 C 6 khz 7 C 5 25 C 525 C 6 khz 7 C 4 25 C 4 C 4 7 C 39 TLC27C, TLC27AC, TLC27BC MIN TYP MAX 25 C.62 VI(PP) ( = V C.67 7 C.5 25 C.56 UNIT V/µs VI(PP) ( = 5.5 V C.6 7 C.46 RS = 2 Ω, 25 C 32 nv/ Hz 25 C 35 C 4 khz 7 C 3 25 C 635 C 7 khz 7 C 5 25 C 43 C 44 7 C 42 POST OFFICE BOX DALLAS, TEXAS

26 SLOS9C NOVEMBER 987 REVISED AUGUST 997 MEDIUM-BIAS MODE operating characteristics at specified free-air temperature, V DD = 5 V PARAMETER TEST CONDITIONS TAA RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, See Figure 99 VO = VOH, CL = 2 pf, RL = kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL =2pF F, See Figure TLC27I, TLC27AI, TLC27BI MIN TYP MAX 25 C.43 VI(PP) ( = V 4 C.5 85 C C.4 operating characteristics at specified free-air temperature, V DD = V PARAMETER TEST CONDITIONS TAA RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, See Figure 99 VO = VOH,3 CL = 2 pf, RL = kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL =2pF F, See Figure UNIT V/µs VI(PP) = 2.5 V 4 C C.32 RS = 2 Ω, 25 C 32 nv/ Hz 25 C 55 4 C 75 khz 85 C C C 77 MHz 85 C C 4 4 C C 38 TLC27I, TLC27AI, TLC27BI MIN TYP MAX 25 C.62 VI(PP) ( = V 4 C C C.56 UNIT V/µs VI(PP) ( = 5.5 V 4 C.7 85 C.44 RS = 2 Ω, 25 C 32 nv/ Hz 25 C 35 4 C 45 khz 85 C C C 88 khz 85 C C 43 4 C C 4 26 POST OFFICE BOX DALLAS, TEXAS 75265

27 MEDIUM-BIAS MODE operating characteristics at specified free-air temperature, V DD = 5 V TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 PARAMETER TEST CONDITIONS TA TLC27M MIN TYP MAX 25 C.43 RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, See Figure 99 VO = VOH, CL = 2 pf, RL = kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL =2pF F, See Figure VI(PP) ( = V 55 C C C.4 operating characteristics at specified free-air temperature, V DD = V PARAMETER TEST CONDITIONS TA RL = kω, SR Slew rate at unity gain CL =2pF pf, See Figure 98 Vn BOM B φm Equivalent input noise voltage Maximum output-swing bandwidth Unity-gain bandwidth Phase margin f = khz, See Figure 99 VO = VOH, CL = 2 pf, RL = kω, See Figure 98 VI = mv, CL = 2 pf, See Figure VI = mv, f = B, CL =2pF F, See Figure UNIT V/µs VI(PP) ( = 2.5 V 55 C.5 25 C.28 RS = 2 Ω, 25 C 32 nv/ Hz 25 C C 8 khz 25 C 4 25 C C 85 khz 25 C C 4 55 C C 36 TLC27M MIN TYP MAX 25 C.62 VI(PP) ( = V 55 C.8 25 C C.56 UNIT V/µs VI(PP) = 5.5 V 55 C C.35 RS = 2 Ω, 25 C 32 nv/ Hz 25 C C 5 khz 25 C 2 25 C C 96 khz 25 C C C C 39 POST OFFICE BOX DALLAS, TEXAS

28 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) Table of Graphs FIGURE VIO Input offset voltage Distribution 34, 35 αvio Temperature coefficient Distribution 36, 37 High-level output current 38, 39 VOH High-level output voltage Supply voltage 4 Free-air temperature 4 VOL AVD Low-level output voltage Large-signal differential voltage amplification Common-mode mode input voltage 42, 43 Differential input voltage 44 Free-air temperature 45 Low-level output current 46, 47 Supply voltage 48 Free-air temperature 49 Frequency 6, 6 IIB Input bias current Free-air temperature 5 IIO Input offset current Free-air temperature 5 VI Maximum Input voltage Supply voltage 5 IDD SR Supply current Slew rate Supply voltage 52 Free-air temperature 53 Supply voltage 54 Free-air temperature 55 Bias-select current Supply voltage 56 VO(PP) Maximum peak--peak output voltage Frequency 57 B φmm Unity-gain bandwidth Phase margin Free-air temperature 58 Supply voltage 59 Supply voltage 62 Free-air temperature 63 Capacitive load 64 Vn Equivalent input noise voltage Frequency 65 Phase shift Frequency 6, 6 28 POST OFFICE BOX DALLAS, TEXAS 75265

29 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) Percentage of Units % DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE ÎÎÎÎÎÎÎÎÎÎÎ 62 Amplifiers Tested From 6 Wafer Lots ÎÎÎÎ ÎÎÎÎ N Package Percentage of Units % ÎÎÎÎ ÎÎÎÎ DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE 62 Amplifiers Tested From 6 Wafer Lots N Package VIO Input Offset Voltage mv VIO Input Offset Voltage mv Figure 34 Figure 35 Percentage of Units % DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT ÎÎÎÎÎÎÎ ÎÎÎÎÎÎÎ ÎÎÎÎÎÎÎ 224 Amplifiers Tested From 6 Water Lots 25 C P Package Outliers: () 33. µv/ C Percentage of Units % DISTRIBUTION OF TLC27 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT ÎÎÎÎÎÎ ÎÎÎÎÎÎ ÎÎÎÎÎÎ 224 Amplifiers Tested From 6 Water Lots VDD = V 25 C P Package Outliers: () 34.6 µv/ C αvio Temperature Coefficient µv/ C αvio Temperature Coefficient µv/ C Figure 36 Figure 37 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

30 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) V VOH High-Level Output Voltage V Á HIGH-LEVEL OUTPUT VOLTAGE HIGH-LEVEL OUTPUT CURRENT VDD = 3 V VDD = 4 V VID = mv V VOH High-Level Output Voltage V Á 2 HIGH-LEVEL OUTPUT VOLTAGE HIGH-LEVEL OUTPUT CURRENT VDD = 6 V VDD = V VID = mv IOH High-Level Output Current ma IOH High-Level Output Current ma 4 Figure 38 Figure 39 V VOH High-Level Output Voltage V Á Á HIGH-LEVEL OUTPUT VOLTAGE SUPPLY VOLTAGE VID = mv RL = kω VOH High-Level Output Voltage V VOH VDD HIGH-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE VDD = V IOH = 5 ma VID = ma VDD Supply Voltage V Figure TA Free-Air Temperature C Figure 4 25 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. 3 POST OFFICE BOX DALLAS, TEXAS 75265

31 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) VOL V OL Low-Level Output Voltage mv LOW-LEVEL OUTPUT VOLTAGE COMMON-MODE INPUT VOLTAGE ÎÎÎÎÎÎ VID = mv VID = V IOL = 5 ma VOL V OL Low-Level Output Voltage mv LOW-LEVEL OUTPUT VOLTAGE COMMON-MODE INPUT VOLTAGE VID = mv VID = V VID = 2.5 V VDD = V IOL= 5 ma VIC Common-Mode Input Voltage V VIC Common-Mode Input Voltage V Figure 42 Figure 43 VOL V OL Low-Level Output Voltage mv LOW-LEVEL OUTPUT VOLTAGE DIFFERENTIAL INPUT VOLTAGE VDD = V ÎÎÎÎÎ IOL = 5 ma VIC = VID/2 ÎÎÎÎÎ VOL V OL Low-Level Output Voltage mv Á Á 2 LOW-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE IOL = 5 ma VID = V VIC =.5 V VDD = V VID Differential Input Voltage V TA Free-Air Temperature C 25 Figure 44 Figure 45 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

32 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) VOL V OL Low-Level Output Voltage V LOW-LEVEL OUTPUT VOLTAGE LOW-LEVEL OUTPUT CURRENT VID = V VIC =.5 V VDD = 3 V VDD = 4 V VOL Low-Level Output Voltage V VOL 3 VID = V VIC =.5 V LOW-LEVEL OUTPUT VOLTAGE LOW-LEVEL OUTPUT CURRENT ÎÎÎÎ VDD = V ÎÎÎÎ VDD = 6 V IOL Low-Level Output Current ma Figure IOL Low-Level Output Current ma Figure 47 3 AVD A VD Large-Signal Differential Voltage Amplification V/mV LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION SUPPLY VOLTAGE ÎÎÎÎÎ RL = kω TA = 55 C 4 C C 25 C 7 C 85 C TA = 25 C AVD A VD Large-Signal Differential Voltage Amplification V/mV LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION FREE-AIR TEMPERATURE ÎÎÎÎÎ ÎÎÎÎÎ RL = kω ÎÎÎÎÎ VDD = V VDD Supply Voltage V TA Free-Air Temperature C 25 Figure 48 Figure 49 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 DALLAS, TEXAS 75265

33 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) IIB I IB and IIO Input Bias and Input Offset Currents pa INPUT BIAS CURRENT AND INPUT OFFSET CURRENT FREE-AIR TEMPERATURE Á Á VDD = V VIC = 5 V See Note A IIB ÎÎÎ I IO V VI I Maximum Input Voltage V MAXIMUM INPUT VOLTAGE SUPPLY VOLTAGE TA Free-Air Temperature C NOTE A: The typical values of input bias current and input offset current below 5 pa were determined mathematically. Figure VDD Supply Voltage V Figure VO = VDD/2 No Load SUPPLY CURRENT SUPPLY VOLTAGE TA = 55 C SUPPLY CURRENT FREE-AIR TEMPERATURE Á VO = VDD/2 No Load I IDD Supply Current ma Á 5 4 C C 25 C 7 C 25 C I IDD Supply Current ma ÎÎÎÎ ÎÎÎÎÎ VDD = V VDD Supply Voltage V TA Free-Air Temperature C 25 Figure 52 Figure 53 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

34 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) µs SR Slew Rate V/ Á AV = Á VI(PP) = V Á RL = kω CL = 2 pf Á Á See Figure 99 SLEW RATE SUPPLY VOLTAGE VDD Supply Voltage V 6 SR Slew Rate V/ µ s SLEW RATE FREE-AIR TEMPERATURE AV = Á RL = kω Á VDD = V CL = 2 pf VI(PP) = 5.5 V VI(PP) = V Á VI(PP) = 2.5 V See Figure 99 Á ÎÎÎÎÎÎ VDD = V VI(PP) = V TA Free-Air Temperature C 25 Figure 54 Figure 55 Bias-Select Current na BIAS-SELECT CURRENT SUPPLY VOLTAGE Á VI(SEL) = /2 Á VDD VDD Supply Voltage V Figure 56 6 Maximum Peak--Peak Output Voltage V V O(PP) MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE FREQUENCY ÎÎÎÎ VDD = V ÎÎÎÎ RL = kω See Figure 99 f Frequency khz Figure 57 TA = 25 C TA = 55 C Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. 34 POST OFFICE BOX DALLAS, TEXAS 75265

35 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) B B Unity-Gain Bandwidth MHz UNITY-GAIN BANDWIDTH FREE-AIR TEMPERATURE VI = mv CL = 2 pf See Figure B B Unity-Gain Bandwidth MHz Á VI = mv Á CL = 2 pf Á See Figure UNITY-GAIN BANDWIDTH SUPPLY VOLTAGE TA Free-Air Temperature C VDD Supply Voltage V 4 6 Figure 58 Figure 59 AVD A VD Large-Signal Differential Voltage Amplification LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION AND PHASE SHIFT FREQUENCY Phase Shift ÎÎÎ AVD Á Á RL = kω Á Phase Shift. k f Frequency Hz K 8 M Figure 6 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

36 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) AVD A VD Large-Signal Differential Voltage Amplification LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION AND PHASE SHIFT FREQUENCY 7 Á Á Phase Shift AVD VDD = V RL = kω Á Phase Shift. k k k f Frequency Hz Figure 6 8 M 5 48 PHASE MARGIN SUPPLY VOLTAGE VI = mv CL = 2 pf See Figure PHASE MARGIN FREE-AIR TEMPERATURE VI = mv CL = 2 pf See Figure φ m Phase Margin φ m Phase Margin VDD Supply Voltage V TA Free-Air Temperature C 25 Figure 62 Figure 63 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. 36 POST OFFICE BOX DALLAS, TEXAS 75265

37 SLOS9C NOVEMBER 987 REVISED AUGUST 997 TYPICAL CHARACTERISTICS (MEDIUM-BIAS MODE) φ m Phase Margin PHASE MARGIN CAPACITIVE LOAD VI = mv See Figure Á Á Vn V n Equivalent Input Noise Voltage nv/hz Hz EQUIVALENT INPUT NOISE VOLTAGE FREQUENCY RS = 2 Ω See Figure CL Capacitive Load pf f Frequency Hz Figure 64 Figure 65 Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices. POST OFFICE BOX DALLAS, TEXAS

38 SLOS9C NOVEMBER 987 REVISED AUGUST 997 LOW-BIAS MODE electrical characteristics at specified free-air temperature (unless otherwise noted) PARAMETER TEST CONDITIONS TLC27C, TLC27AC, TLC27BC TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX 25 C.. TLC27C Full range 2 2 VO =4V.4 V, VIC = V, 25 C VIO Input offset voltage TLC27AC RS = 5 Ω, Full range RI = MΩ 25 C TLC27BC Full range 3 3 αvio Average temperature coefficient of input offset voltage 25 C 7 C mv. µv/ C VO = VDD /2, 25 C.. IIO Input offset current (see Note 4) O VIC = VDD /2 7 C VO = VDD /2, 25 C.6.7 IIB Input bias current (see Note 4) VIC = VDD /2 7 C Common-mode input VICR voltage range (see Note 5) VOH VOL AVD High-level output voltage Low-level output voltage VID = mv, RL= MΩ VID = mv, IOL = Large-signal differential RL= MΩ, voltage amplification See Note 6 25 C Full range C C V 7 C C 5 5 pa pa C 5 5 mv 7 C C C V/mV 7 C C CMRR Common-mode rejection ratio VIC = VICRmin C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 7 C C C db 7 C II(SEL) Input current (BIAS SELECT) VI(SEL) = VDD 25 C na IDD Supply current = 25 C VO VDD /2, VIC = VDD /2, C No load 7 C µa Full range is C 7 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V 38 POST OFFICE BOX DALLAS, TEXAS 75265

39 LOW-BIAS MODE TLC27, TLC27A, TLC27B SLOS9C NOVEMBER 987 REVISED AUGUST 997 electrical characteristics at specified free-air temperature (unless otherwise noted) PARAMETER TEST CONDITIONS TLC27I, TLC27AI, TLC27BI TA A VDD = V UNIT MIN TYP MAX MIN TYP MAX 25 C.. TLC27I Full range 3 3 VO =4V.4 V, VIC = V, 25 C VIO Input offset voltage TLC27AI RS = 5 Ω, Full range 7 7 RL = MΩ 25 C TLC27BI Full range αvio Average temperature coefficient of input offset voltage 25 C 85 C mv. µv/ C VO = VDD /2, 25 C.. IIO Input offset current (see Note 4) O VIC = VDD /2 85 C VO = VDD /2, 25 C.6.7 IIB Input bias current (see Note 4) VIC = VDD /2 85 C Common-mode input VICR voltage range (see Note 5) VOH VOL AVD High-level output voltage Low-level output voltage VID = mv, RL= MΩ VID = mv, IOL = Large-signal differential RL= MΩ voltage amplification See Note 6 25 C Full range C C V 85 C C 5 5 pa pa 4 C 5 5 mv 85 C C C V/mV 85 C C CMRR Common-mode rejection ratio VIC = VICRmin 4 C db ksvr Supply-voltage lt rejection ratio VDD = 5Vt V ( VDD / VIO) VO =4V.4 85 C C C db 85 C II(SEL) Input current (BIAS SELECT) VI(SEL) = VDD 25 C na IDD Supply current = 25 C VO VDD /2, VIC = VDD /2, 4 C No load 85 C µa Full range is 4 85 C. NOTES: 4. The typical values of input bias current and input offset current below 5 pa were determined mathematically. 5. This range also applies each input individually. 6. At, VO =.25 V 2 V; at VDD = V, VO = V 6 V. V V POST OFFICE BOX DALLAS, TEXAS

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