TLE2425 PRECISION VIRTUAL GROUND

SLOS65D MARCH 99 REVISED APRIL 22 2.5-V Virtual Ground for 5-V/GND Analog Systems High Output-Current Capability Sink or Source... 2 ma Typ Micropower Operation... 7 µa Typ Excellent Regulation Characteristics Output Regulation 45 µv Typ at I O = to ma +5 µv Typ at I O = to + ma Input Regulation =.5 µv/v Typ Low-Impedance Output....75 Ω Typ Macromodel Included description In signal-conditioning applications using a single power source, a reference voltage is required for 8 termination of all signal grounds. To accomplish this, engineers have typically used solutions 6 TA = 4 C consisting of resistors, capacitors, operational 4 TA = C amplifiers, and voltage references. Texas Instruments has eliminated all of those components 2 TA = 55 C with one easy-to-use 3-terminal device. That device is the TLE2425 precision virtual ground. TA = 2 Use of the TLE2425 over other typical circuit solutions gives the designer increased dynamic 4 signal range, improved signal-to-noise ratio, lower distortion, improved signal accuracy, and 6 TA = easier interfacing to ADCs and DACs. These 8 TA = 55 C benefits are the result of combining a precision micropower voltage reference and a high-performance precision operational amplifier in a single 8 6 4 2 2 4 6 8 IO Output Current ma silicon chip. It is the precision and performance of these two circuit functions together that yield such dramatic system-level performance. The TLE2425 improves input regulation as well as output regulation and, in addition, reduces output impedance and power dissipation in a majority of virtual-ground-generation circuits. Both input regulation and load regulation exceed 2 bits of accuracy on a single 5-V system. Signal-conditioning front ends of data acquisition systems that push 2 bits and beyond can use the TLE2425 to eliminate a major source of system error. TA V V) O Output Voltage Change µv AVAILABLE OPTIONS SMALL OUTLINE (D) PLASTIC TO-226AA (LP) C to 7 C TLE2425CD TLE2425CD 4 C to 85 C TLE2425ID TLE2425ID 55 C to TLE2425MD The D package is available taped and reeled. Add R suffix to the device type (e.g., TLE2425CDR). OUTPUT REGULATION Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet. PRODUCTION DATA information is current as of publication date. Products conform to specifications per the terms of Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters. Copyright 22, Texas Instruments Incorporated POST OFFICE BOX 65533 DALLAS, TEXAS 75265

SLOS65D MARCH 99 REVISED APRIL 22 D, OR JG PACKAGE (TOP VIEW) LP PACKAGE (TOP VIEW) OUT COMMON IN NC 2 3 4 8 7 6 5 NC NC NC NC IN COMMON OUT NC No internal connection absolute maximum ratings over operating free-air temperature range (unless otherwise noted) Continuous input voltage, V I................................................................. 4 V Output current, I O....................................................................... ±8 ma Duration of short-circuit current at (or below) (see Note ).............................. unlimited Continuous total power dissipation..................................... See Dissipation Rating Table Operating free-air temperature range, T A : C-suffix...................................... C to 7 C I-suffix.................................... 4 C to 85 C M-suffix.................................. 55 C to Storage temperature range, T stg................................................... 65 C to 5 C Lead temperature,6 mm (/6 inch) from case for seconds: D package..................... 26 C Lead temperature,6 mm (/6 inch) from case for 6 seconds: JG or LP package.............. 3 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. NOTE : 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. PACKAGE DISSIPATION RATING TABLE TA DERATING FACTOR TA = 7 C TA = 85 C TA = POWER RATING ABOVE POWER RATING POWER RATING POWER RATING D 725 mv 5.8 mw/ C 464 mw 377 mw 45 mw JG 5 mv 8.4 mw/ C 672 mw 546 mw 2 mw LP 775 mv 6.2 mw/ C 496 mw 43 mw 55 mw recommended operating conditions C-SUFFIX I-SUFFIX M-SUFFIX MIN MAX MIN MAX MIN MAX Input voltage, VI 4 4 4 4 4 4 V Operating free-air temperature, TA 7 4 85 55 25 C UNIT 2 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

SLOS65D MARCH 99 REVISED APRIL 22 electrical characteristics at specified free-air temperature, V I = 5 V, I O = (unless otherwise noted) Output voltage TLE2425C PARAMETER TEST CONDITIONS TA MIN TYP MAX 2.48 2.5 2.52 Full range 2.47 2.53 Temperature coefficient of output voltage 2 ppm/ C Bias current IO = Input voltage regulation VI =45Vto55V 4.5 5.5 V VI =4Vto4V 4 V 7 25 Full range 25.5 2 Full range 25.5 2 Full range 25 Ripple rejection f = 2 Hz, VI(PP) = V 8 db Output voltage regulation (source current) Output voltage regulation (sink current) IO =to ma 6 45 6 UNIT V µa µv µv/v Full range 25 25 µv IO = to 2 ma 45 5 45 IO =toma 6 5 6 Full range 25 25 µv IO = to 2 ma 235 65 235 Long-term drift of output voltage t = h, Noncumulative 5 ppm Output impedance 7.5 22.5 mω Short-circuit output current (sink current) VO = 5 V Short-circuit output current (source current) VO = 3 55 3 5 Output noise voltage, rms f = Hz to khz µv Output voltage response to output current step Output voltage response to input voltage step Output voltage turn-on response Full range is C to 7 C. The listed values are not production tested. VO to.%, CL = IO = ± ma CL = pf 5 VO to.%, CL = 8 IO = ± ma CL = pf 8 VI = 4.5 to 5.5 V, VO to.% VI = 4.5 to 5.5 V, VO to.% VI = to 5 V, VO to.% VI = to 5 V, VO to.% 2 3 25 2 ma POST OFFICE BOX 65533 DALLAS, TEXAS 75265 3

SLOS65D MARCH 99 REVISED APRIL 22 electrical characteristics at specified free-air temperature, V I = 5 V, I O = (unless otherwise noted) Output voltage TLE2425I PARAMETER TEST CONDITIONS TA MIN TYP MAX 2.48 2.5 2.52 Full range 2.47 2.53 Temperature coefficient of output voltage 2 ppm/ C Bias current IO = Input voltage regulation VI =45Vto55V 4.5 5.5 V VI =4Vto4V 4 V 7 25 Full range 25.5 2 Full range 75.5 2 Full range 75 Ripple rejection f = 2 Hz, VI(PP) = V 8 db Output voltage regulation (source current) Output voltage regulation (sink current) IO =to ma 6 45 6 UNIT V µa µv µv/v Full range 25 25 µv IO = to 2 ma 45 5 45 IO =to8ma 6 5 6 Full range 25 25 µv IO = to 2 ma 235 65 235 Long-term drift of output voltage t = h, Noncumulative 5 ppm Output impedance 7.5 22.5 mω Short-circuit output current (sink current) VO = 5 V Short-circuit output current (source current) VO = 3 55 3 5 Output noise voltage, rms f = Hz to khz µv Output voltage response to output current step Output voltage response to input voltage step Output voltage turn-on response Full range is 4 C to 85 C. The listed values are not production tested. VO to.%, CL = IO = ± ma CL = pf 5 VO to.%, CL = 8 IO = ± ma CL = pf 8 VI = 4.5 to 5.5 V, VO to.% VI = 4.5 to 5.5 V, VO to.% VI = to 5 V, VO to.% VI = to 5 V, VO to.% 2 3 25 2 ma 4 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

SLOS65D MARCH 99 REVISED APRIL 22 electrical characteristics at specified free-air temperature, V I = 5 V, I O = (unless otherwise noted) Output voltage TLE2425M PARAMETER TEST CONDITIONS TA MIN TYP MAX 2.48 2.5 2.52 Full range 2.47 2.53 Temperature coefficient of output voltage 2 ppm/ C Bias current IO = Input voltage regulation VI =45Vto55V 4.5 5.5 V VI =45Vto4V 4.5 4 V 7 25 Full range 25.5 2 Full range.5 2 Full range Ripple rejection f = 2 Hz, VI(PP) = V 8 db Output voltage regulation (source current) Output voltage regulation (sink current) IO =to ma 6 45 6 UNIT V µa µv µv/v Full range 25 25 µv IO = to 2 ma 45 5 45 IO =to3ma 6 5 6 Full range 25 25 µv IO = to 2 ma 235 65 235 Long-term drift of output voltage t = h, Noncumulative 5 ppm Output impedance 7.5 22.5 mω Short-circuit output current (sink current) VO = 5 V Short-circuit output current (source current) VO = 3 55 3 5 Output noise voltage, rms f = Hz to khz µv Output voltage response to output current step Output voltage response to input voltage step Output voltage turn-on response Full range is 55 C to. The listed values are not production tested. VO to.%, CL = IO = ± ma CL = pf 5 VO to.%, CL = 8 IO = ± ma CL = pf 8 VI = 4.5 to 5.5 V, VO to.% VI = 4.5 to 5.5 V, VO to.% VI = to 5 V, VO to.% VI = to 5 V, VO to.% 2 3 25 2 ma POST OFFICE BOX 65533 DALLAS, TEXAS 75265 5

SLOS65D MARCH 99 REVISED APRIL 22 TYPICAL CHARACTERISTICS Table Of Graphs FIGURE Output voltage Distribution Free-air temperature 2 Output voltage hysteresis Free-air temperature 3 Input bias current Input voltage 4 Free-air temperature 5 Input voltage regulation 6 Ripple rejection Frequency 7 Output voltage regulation 8 Output impedance Frequency 9 Short-circuit output current Free-air temperature Spectral noise voltage density Frequency Wide-band noise voltage Frequency 2 Output voltage change with current step Time 3 Output voltage change with voltage step Time 4 Output voltage power-up response Time 5 Output current Load capacitance 6 6 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

TYPICAL CHARACTERISTICS SLOS65D MARCH 99 REVISED APRIL 22 24 2 DISTRIBUTION OF OUTPUT VOLTAGE Units Tested From Wafer Lot 2.53 2.52 IO = OUTPUT VOLTAGE FREE-AIR TEMPERATURE Percentage of Units % 6 2 8 V) Output Voltage V V O 2.5 2.5 2.49 4 2.48 2.48 2.49 2.5 2.5 2.52 V O Output Voltage V 2.47 75 5 25 25 5 75 25 TA Free-Air Temperature C Figure Figure 2 4 2 OUTPUT VOLTAGE HYSTERESIS FREE-AIR TEMPERATURE 25 IO = Normalized to First VO INPUT BIAS CURRENT INPUT VOLTAGE Output Voltage Hysteresis mv 2 4 6 8 Start Point End Point IIB Input Bias Current µ A 2 5 5 75 5 25 25 5 75 25 TA Free-Air Temperature C 5 5 2 25 3 35 4 VI Input Voltage V Figure 3 Figure 4 Data at high and low temperatures are applicable within rated operating free-air temperature ranges of the various devices. POST OFFICE BOX 65533 DALLAS, TEXAS 75265 7

SLOS65D MARCH 99 REVISED APRIL 22 TYPICAL CHARACTERISTICS INPUT BIAS CURRENT FREE-AIR TEMPERATURE INPUT VOLTAGE REGULATION 72 7 IO = 8 IO = IIB Input Bias Current µ A 68 66 64 62 6 58 56 54 52 V V) O Output Voltage Change µv 6 4 2 5 75 5 25 25 5 75 25 TA Free-Air Temperature C 2 2 3 VI Input Voltage V 4 Figure 5 Figure 6 RIPPLE REJECTION FREQUENCY OUTPUT VOLTAGE REGULATION Ripple Rejection db 9 8 7 6 5 4 3 2 VI(PP) = V IO = k k k M f Frequency Hz V V) O Output Voltage Change µv 8 6 4 2 2 4 6 8 TA = 4 C TA = C TA = 55 C TA = TA = TA = 55 C 8 6 4 2 2 4 6 8 IO Output Current ma Figure 7 Figure 8 Data at high and low temperatures are applicable within rated operating free-air temperature ranges of the various devices. 8 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

SLOS65D MARCH 99 REVISED APRIL 22 TYPICAL CHARACTERISTICS OUTPUT IMPEDANCE FREQUENCY SHORT-CIRCUIT OUTPUT CURRENT FREE-AIR TEMPERATURE z o Output Impedance Ω.. IO = ma IO = IO = ma IOS OS Short-Circuit Output Current ma 56 54 52 5 48 46 44 42 IOS Output Sink, VO = 5 V IOS Output Source, VO =. 4 k k k M 75 5 25 25 5 75 25 f Frequency Hz TA Free-Air Temperature C Figure 9 Figure SPECTRAL NOISE VOLTAGE DENSITY FREQUENCY WIDE-BAND NOISE VOLTAGE FREQUENCY 4 8 V n Spectral Noise Voltage Density nv/ Hz 2 8 6 4 2 k k k Wide-Band Noise Voltage µv V rms 7 6 5 4 3 2 Hz to Frequency Indicated Pole Low Pass 2 Pole Low Pass k k k f Frequency Hz f Frequency Hz Figure Figure 2 POST OFFICE BOX 65533 DALLAS, TEXAS 75265 9

SLOS65D MARCH 99 REVISED APRIL 22 TYPICAL CHARACTERISTICS.5 V OUTPUT VOLTAGE RESPONSE TO OUTPUT CURRENT STEP TIME 5 OUTPUT VOLTAGE RESPONSE TO INPUT VOLTAGE STEP TIME V O Change In Output Voltage mv 4 3 2 2 3 4.% VO Response ma.% IO Step CL = pf ma.%.% V O Change In Output Voltage mv 4 3 2 2 3 4 IO = CL = pf VO Response VI = 4.5 V VI Step.%.% VI = 5.5 V.% VI = 4.5 V.5 V 5 3 45 6 75 9 5 t Time s 5 5 5 2 t Time s Figure 3 Figure 4 3 2 OUTPUT VOLTAGE POWER-UP RESPONSE TIME IO = CL = pf.% 2 5 STABILITY RANGE OUTPUT CURRENT LOAD CAPACITANCE Unstable V) Output Voltage V V O Output Voltage Response I O Output Current ma 5 5 Stable 5 Input Voltage Step 2 3 t Time s 5 2 6 5 4 3 2 2 CL Load Capacitance F Figure 5 Figure 6 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

SLOS65D MARCH 99 REVISED APRIL 22 macromodel information * TLE2425 OPERATIONAL AMPLIFIER MACROMODEL SUBCIRCUIT * CREATED USING PARTS RELEASE 4.3 ON 8/2/9 AT 3:5 * REV (N/A) SUPPLY VOLTAGE: 5 V * CONNECTIONS: INPUT * COMMON * OUTPUT *.SUBCKT TLE2425 3 4 5 * * OPAMP SECTION C 2 2.66E 2 C2 6 7 3.E 2 C3 87.64E 9 CPSR 85 86 5.9E 9 DCM+ 8 82 DX DCM 83 8 DX DC 5 53 DX DE 54 5 DX DLN 92 9 DX DLP 9 9 DX DP 4 3 DX ECMR 84 99 (2,99) EGND 99 POLY(2) (3,) (4,).5.5 EPSR 85 POLY() (3,4) 6.22E 6 3.24E 6 ENSE 89 2 POLY() (88,) 2E 6 FB 7 99 POLY(6) VB VC VE VLP VLN VPSR O 74.8E6 E6 E6 E6 + E6 74E6 GA 6 2 32.4E 6 GCM 6 99.3E 9 GPSR 85 86 (85,86) E 6 GRC 4 (4,) 3.24E 4 GRC2 4 2 (4,2) 3.24E 4 GRE 3 (3,).38E 3 GRE2 4 (4,).38E 3 HLIM 9 VLIM K HCMR 8 POLY(2) VCM+ VCM E2 E2 IRP 3 4 46E 6 IEE 3 DC 24.5E 6 IIO 2.2E 9 I 88 E 2 Q 89 3 QX Q2 2 8 4 QX R2 6 9.E3 RCM 84 8 K REE 99 8.36E6 RN 87 2.55E8 RN2 87 88.67E3 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

SLOS65D MARCH 99 REVISED APRIL 22 macromodel information (continued) RO 8 5 63 RO2 7 99 62 VCM+ 82 99. VCM 83 99 2.3 VB 9 DC VC 3 53 DC.4 VE 54 4 DC.4 VLIM 7 8 DC VLP 9 DC 3 VLN 92 DC 3 VPSR 86 DC RFB 5 2 K RIN 3 K RCOM 34 4. *REGULATOR SECTION RG 3 2MEG RG2 3 3.2 RG3 3 35 4K RG4 35 34 4K RG5 3 36 25MEG HREG 3 32 POLY(2) VPSET VNSET E2 E2 VREG 32 33 DC V EREG 33 34 POLY() (36,34).23 VADJ 36 34.27V HPSET 37 VREG.3E3 VPSET 38 DC 2V HNSET 39 VREG 6.E5 VNSET 4 DC 2V DSUB 4 34 DX DPOS 37 38 DX DNNEG 4 39 DX.MODEL DX D(IS=8.E 8).MODEL QX PNP(IS=8.E 8 BF=48).ENDS 2 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

SLOS65D MARCH 99 REVISED APRIL 22 D (R-PDSO-G**) 4 PIN SHOWN MECHANICAL INFORMATION PLASTIC SMALL-OUTLINE PACKAGE.5 (,27).2 (,5).4 (,35). (,25) M 4 8.57 (4,).5 (3,8).244 (6,2).228 (5,8).8 (,2) NOM Gage Plane A 7 8. (,25).44 (,2).6 (,4).69 (,75) MAX. (,25).4 (,) Seating Plane.4 (,) DIM PINS ** 8 4 6 A MAX.97 (5,).344 (8,75).394 (,) A MIN.89 (4,8).337 (8,55).386 (9,8) 4447/ D /96 NOTES: A. All linear dimensions are in inches (millimeters). B. This drawing is subject to change without notice. C. Body dimensions do not include mold flash or protrusion, not to exceed.6 (,5). D. Falls within JEDEC MS-2 POST OFFICE BOX 65533 DALLAS, TEXAS 75265 3

SLOS65D MARCH 99 REVISED APRIL 22 JG (R-GDIP-T8) MECHANICAL INFORMATION CERAMIC DUAL-IN-LINE PACKAGE 8.4 (,2).355 (9,) 5.28 (7,).245 (6,22) 4.65 (,65).45 (,4).2 (,5) MIN.3 (7,87).29 (7,37).2 (5,8) MAX Seating Plane.3 (3,3) MIN.63 (,6).5 (,38). (2,54).23 (,58).5 (,38).4 (,36).8 (,2) 5 447/C 8/96 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 only on press ceramic glass frit seal only. E. Falls within MIL-STD-835 GDIP-T8 4 POST OFFICE BOX 65533 DALLAS, TEXAS 75265

LP (O-PBCY-W3) MECHANICAL INFORMATION SLOS65D MARCH 99 REVISED APRIL 22 PLASTIC CYLINDRICAL PACKAGE.22 (,56).6 (,4).6 (,4).4 (,35) Seating Plane Wide Thick.5 (,27) (see Note C) 3 Leads.5 (2,67).95 (2,4).35 (3,43) MIN.65 (4,9).25 (3,7).5 (2,67).8 (2,3).55 (,4).45 (,4).25 (5,2).75 (4,44) DIA 3 2.2 (5,34).7 (4,32).5 (2,7) MIN.5 (2,67).8 (2,3) 44/ B /95 NOTES: A. All linear dimensions are in inches (millimeters). B. This drawing is subject to change without notice. C. Lead dimensions are not controlled within this area. D. Falls within JEDEC TO-226AA (TO-226AA replaces TO-92) POST OFFICE BOX 65533 DALLAS, TEXAS 75265 5

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