.V V µa/ DFN MSOP SSOP.µA LT LTDD µv.v V DFN MSOP DFN SSOP DFN LT/LT/LT / /.V µa LT /LT/LT/ / µa.v µv.v LT LT LT DFN LT MSOP DFN LT SSOP DFN LT LTC OXYGEN SENSOR CITY TECHNOLOGY X() V S V E Ω V E www.citytech.com k k V S / LT TAa k / LT Ω V OUT = V IN AIR, V WITHOUT OXYGEN Ω V S =.V I SUPPLY = µa IN AIR, µa WITHOUT OXYGEN SUPPLY CURRENT PER AMPLIFIER (µa). A V = V CM =.V T A = C T A = C........ TOTAL SUPPLY VOLTAGE (V) TAb fa
LT/LT/LT V V...V... ma SHDNNote 7...V V Note... Note... Note...... DFN...... DFN... MSOP SSOP... SHDN IN IN ORDER PART NUMBER LTCDCB LTIDCB TOP VIEW V V OUT DCB PACKAGE -LEAD (mm mm) PLASTIC DFN T JMAX = C, θ JA = C/W (NOTE ) EXPOSED PAD (PIN 7) IS CONNECTED TO V (PIN ) 7 DCB PART MARKING* LCDM LCDM OUT A IN A IN A V ORDER PART NUMBER LTCMS LTIMS TOP VIEW MS PACKAGE -LEAD PLASTIC MSOP V 7 OUT B IN B IN B T JMAX = C, θ JA = C/W MS PART MARKING* LTBVD LTBVD OUT A IN A IN A V NC TOP VIEW V DD PACKAGE -LEAD (mm mm) PLASTIC DFN 9 7 OUT B IN B IN B SHDN T JMAX = C, θ JA = C/W (NOTE ) EXPOSED PAD (PIN ) IS CONNECTED TO V (PIN ) ORDER PART NUMBER LTCDD LTIDD DD PART MARKING* LBVH LBVH OUT A IN A IN A V IN B IN B OUT B NC ORDER PART NUMBER LTCGN LTIGN 7 A B TOP VIEW D C GN PACKAGE -LEAD NARROW PLASTIC SSOP T JMAX = C, θ JA = C/W 9 OUT D IN D IN D V IN C IN C OUT C GN PART MARKING I Order Options Tape and Reel: Add #TR Lead Free: Add #PBF Lead Free Tape and Reel: Add #TRPBF Lead Free Part Marking: http://www.linear-tech.co.jp/leadfree/ NC OUT A IN A IN A V IN B IN B OUT B NC ORDER PART NUMBER LTCDHC LTIDHC * 7 A B TOP VIEW 7 T JMAX = C, θ JA = C/W (NOTE ) EXPOSED PAD (PIN 7) IS CONNECTED TO V (PIN ) D DHC PACKAGE -LEAD (mm mm) DFN C 9 OUT D IN D IN D V IN C IN C OUT C NC DHC PART MARKING* fa
LT/LT/LT T A = V S =.V V V CM = V OUT =.V LT LTDD V SHDN = V SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS V OS Input Offset Voltage LTMS µv C T A 7 C µv C T A C 9 µv LTDCB, LTDD, LTGN 7 µv C T A 7 C µv C T A C µv LTDHC 9 µv C T A 7 C µv C T A C µv V CM = V LTMS µv µv V CM = V LTDCB, LTDD, LTGN µv µv V CM = V LTDHC µv 7 µv ΔV OS /ΔT Input Offset Voltage Drift (Note ) V CM =.V µv/ C I B Input Bias Current V CM =.V na V CM = V na V CM = V na I OS Input Offset Current V CM =.V. na V CM = V. na V CM = V. na Input Noise Voltage.Hz to Hz. µv P-P e n Input Voltage Noise Density f = khz 7 nv/ Hz i n Input Current Noise Density f = khz fa/ Hz R IN Input Resistance Common Mode (V CM = V to.v). GΩ Differential MΩ C IN Input Capacitance pf CMRR Common Mode Rejection Ratio V CM = V to.v, C T A 7 C 9 db V CM =.V to.v, C T A C 9 db V CM = V to.v 7 db Input Voltage Range. V PSRR Power Supply Rejection Ratio V S =.V to V db V CM = V O =.V Minimum Supply V CM = V O =.V. V A VOL Large-Signal Gain V O =.V to.v R L = k to GND V/mV R L = k to GND V/mV R L = k to GND V/mV R L = k to GND V/mV V OL Output Swing Low (Note ) Input Overdrive = mv No Load mv I SINK = µa mv V OH Output Swing High (Note ) Input Overdrive = mv No Load mv I SOURCE = µa mv R L = k to GND mv fa
LT/LT/LT T A = V S =.V V V CM = V OUT =.V LT LTDD V SHDN = V SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS I SC Short-Circuit Current Short to GND ma C T A 7 C ma C T A C. ma Short to V.7 ma C T A 7 C. ma C T A C. ma I S Supply Current per Amplifier µa C T A 7 C µa C T A C µa Total Supply Current in Shutdown (Note 7) V SHDN =.V.. µa I SHDN SHDN Pin Current (Note 7) V SHDN =.V na V SHDN = V na Shutdown Output Leakage Current (Note 7) V SHDN =.V (V V OUT V ) na V L SHDN Pin Input Low Voltage (Note 7). V V H SHDN Pin Input High Voltage (Note 7).V V t ON Turn On Time (Note 7) V SHDN = V to.v, µs R L = k t OFF Turn Off Time (Note 7) V SHDN =.V to V, µs R L = k GBW Gain Bandwidth Product (Note ) Freq = khz khz C T A 7 C khz C T A C khz SR Slew Rate A V =, V OUT =.V to.v 9 V/ms Measure.V to.v, C T A 7 C 7 V/ms C T A C V/ms FPBW Full Power Bandwidth (Note 9) V OUT =.V P-P.. khz fa
LT/LT/LT T A = V S = V V V CM = V OUT = / LT LTDD V SHDN = V SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS V OS Input Offset Voltage LTMS µv C T A 7 C µv C T A C 9 µv LTDCB, LTDD, LTGN 7 µv C T A 7 C µv C T A C µv LTDHC 9 µv C T A 7 C µv C T A C µv V CM = V LTMS µv µv V CM = V LTDCB, LTDD, LTGN µv µv V CM = V LTDHC µv 7 µv ΔV OS /ΔT Input Offset Voltage Drift (Note ) V CM = V S / µv/ C I B Input Bias Current V CM = V S / na V CM = V na V CM = V na I OS Input Offset Current V CM = V S /.. na V CM = V.. na V CM = V.. na Input Noise Voltage.Hz to Hz. µv P-P e n Input Voltage Noise Density f = khz 7 nv/ Hz i n Input Current Noise Density f = khz fa/ Hz R IN Input Resistance Common Mode (V CM = V to.v). GΩ Differential. MΩ C IN Input Capacitance pf CMRR Common Mode Rejection Ratio V CM = V to.v, C T A 7 C 9 db V CM =.V to.v, C T A C 9 db V CM = V to V db Input Voltage Range V PSRR Power Supply Rejection Ratio V S =.V to V db V CM = V O =.V Minimum Supply. V A VOL Large-Signal Gain V O =.V to.v R L = k to V S / V/mV R L = k to V S / V/mV R L = k to V S / V/mV R L = k to V S / V/mV R L = k to GND V/mV R L = k to GND V/mV V OL Output Swing Low (Note ) Input Overdrive = mv No Load mv I SINK = µa mv I SINK = µa mv fa
LT/LT/LT T A = V S = V V V CM = V OUT = / LT LTDD V SHDN = V SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS V OH Output Swing High (Note ) Input Overdrive = mv No Load mv I SOURCE = µa mv R L = k to GND mv I SC Short-Circuit Current Short to GND ma C T A 7 C ma C T A C ma Short to V. 7. ma C T A 7 C. ma C T A C. ma I S Supply Current per Amplifier µa C T A 7 C µa C T A C 7 µa V S = ±V µa µa Total Supply Current in Shutdown (Note 7) V SHDN =.V µa I SHDN SHDN Pin Current (Note 7) V SHDN = V na V SHDN = V na Shutdown Output Leakage Current (Note 7) V SHDN =.V (V V OUT V ) na V L SHDN Pin Input Low Voltage (Note 7). V V H SHDN Pin Input High Voltage (Note 7).7 V t ON Turn On Time (Note 7) V SHDN = V to V, R L = k µs t OFF Turn Off Time (Note 7) V SHDN = V to V, R L = k µs GBW Gain Bandwidth Product Freq = khz khz C T A 7 C khz C T A C khz SR Slew Rate A V =, V OUT =.V to.v V/ms Measure V to V, C T A 7 C V/ms C T A C V/ms FPBW Full Power Bandwidth (Note 9) V OUT = V P-P.7. khz Note Note DDDHC θ JA PCB Note LTC/LTI/LTC/LTI LTC/LTI Note LTC/LTC/LTC 7 QA LTI/LTI/ LTI Note Note Note 7 LT LTDD Note V S =.VV S = V GBW Note 9 FPBW = SR/πV P-P fa
LT/LT/LT PERCENT OF UNITS (%) V OS V S = V, V V CM =.V MS PACKAGE PERCENT OF UNITS (%) TC V OS V S = V, V V CM =.V MS, GN, DD PACKAGES C TO C SUPPLY CURRENT PER AMPLIFIER (µa) V CM =.V T A = C T A = C INPUT OFFSET VOLTAGE (µv) DISTRIBUTION (µv/ C) TOTAL SUPPLY VOLTAGE (V) G G G CHANGE IN OFFSET VOLTAGE (µv) T A = C T A = C V CM =.V OFFSET VOLTAGE (µv) T A = C T A = C V CM =.V TYPICAL PART OFFSET VOLTAGE (µv) V S = V, V TYPICAL PART T A = C T A = C.. TOTAL SUPPLY VOLTAGE (V) TOTAL SUPPLY VOLTAGE (V)..... INPUT COMMON MODE VOLTAGE (V) G G G INPUT BIAS CURRENT (na). V S = V, V. 7. T A = C.. T A = C....... COMMON MODE VOLTAGE (V) G7 OUTPUT HIGH SATURATION VOLTAGE (V) H. V S = V, V INPUT OVERDRIVE = mv... T A = C T A = C.. SOURCING LOAD CURRENT (ma) G OUTPUT LOW SATURATION VOLTAGE (V) L. V S = V, V INPUT OVERDRIVE = mv... T A = C T A = C.. SINKING LOAD CURRENT (ma) G fa 7
LT/LT/LT OUTPUT SATURATION VOLTAGE (mv) 9 7 OUTPUT HIGH OUTPUT LOW V S = V, V NO LOAD OUTPUT SHORT-CIRCUIT CURRENT (ma) V CM =.V OUTPUT SHORTED TO V T A = C T A = C OUTPUT SHORT-CIRCIUT CURRENT (ma) V CM =.V OUTPUT SHORTED TO V T A = C T A = C INPUT OVERDRIVE (mv) TOTAL SUPPLY VOLTAGE (V) TOTAL SUPPLY VOLTAGE (V) G G G NOISE VOLTAGE (nv/div).hz Hz V S = ±.V 7 9 TIME (SECONDS) G NOISE VOLTAGE (nv/ Hz) 9 7 V S = V, V V CM =.V V CM =.V FREQUENCY (Hz) G INPUT NOISE CURRENT DENSITY (fa/ Hz) V S = V, V V CM =.V V CM =.V FREQUENCY (Hz) G CHANGE IN INPUT OFFSET VOLTAGE (µv) R L = k R L = k...9. OUTPUT VOLTAGE (V) V S =.V, V V CM =.V.. G CHANGE IN INPUT OFFSET VOLTAGE (µv) R L = k R L = k OUTPUT VOLTAGE (V) V S = V, V V CM =.V G7 CHANGE IN INPUT OFFSET VOLTAGE (µv) R L = k R L = k...... OUTPUT VOLTAGE (V) V S = ±.V G fa
LT/LT/LT GAIN BANDWIDTH (khz) f = khz V S = V, V V CM =.V PHASE MARGIN V S =.V, V V CM =.V 7 7 V S = V, V 7 V CM =.V V S =.V, V V CM =.V GAIN BANDWIDTH 7 TEMPERATURE ( C) G PHASE MARGIN (DEG) SLEW RATE (V/ms) A V = R F = R G = k RISING V S =.V, V RISING V S = V, V FALLING V S = V, V 7 TEMPERATURE ( C) FALLING V S =.V, V G GAIN (db) 7 PHASE V CM =.V V CM =.V V CM =.V V CM =.V GAIN V S = V, V R F = R G = k A V =. FREQUENCY (khz) G9 PHASE (DEG) GAIN BANDWIDTH (khz) 7 R F = R G = k A V = f = khz PHASE MARGIN GAIN BANDWIDTH TOTAL SUPPLY VOLTAGE (V) 7 PHASE MARGIN (DEG) OVERSHOOT (%) V S = V, V V CM =.V A V = A V = A V = CAPACITIVE LOAD (pf) COMMON MODE REJECTION RATIO (db) 9 7. FREQUENCY (khz) V S = ±.V G G G COMMON MODE REJECTION RATIO (db) 9 7 NEGATIVE SUPPLY V S = ±.V POSITIVE SUPPLY.. FREQUENCY (khz) G V S = ±.V OUTPUT IMPEDANCE (Ω) A V = A V =... FREQUENCY (khz) G OUTPUT IMPEDANCE (kω) LT/LTDD V S = ±.V V PIN(SHDN) =.V.. FREQUENCY (khz) G7 fa 9
LT/LT/LT.V.V mv/div.v.v A V = V S = V, V C L = pf R L = k µs/div G A V = V S =.V, V C L = pf R L = k µs/div G9 A V = V S = ±.V C L = pf R L = k µs/div G SUPPLY CURRENT BOTH AMPLIFIERS (µa) SHDN LTDD V S =.V, V T A = C T A = C......... SHDN PIN VOLTAGE (V) SUPPLY CURRENT BOTH AMPLIFIERS (µa) SHDN LTDD V S = ±V T A = C T A = C SHDN PIN VOLTAGE (V) V SHDN V V OUT LT/LTDD V V IN = V A V = V S =.V, V R L = k µs/div G G G SHDNLT VS =.V, V SHDNLT V S = ±V T A = C SUPPLY CURRENT (µa) T A = C T A = C SUPPLY CURRENT (µa) T A = C......... SHDN PIN VOLTAGE (V) SHDN PIN VOLTAGE (V) G7 G fa
LT/LT/LT V Q Q7 Q R Q R Q R 7M CM V SHDN R Q7 IN IN V V R k R k D Q Q Q Q Q Q C Q Q COMPLEMENTARY DRIVE GENERATOR V OUT Q Q9 Q Q Q9 Q R R7 V LT/LT/LT.µF.7µF LT/LT/LT PNP Q/ Q NPN Q/Q PNP V V CM V CM Q7 Q Q/Q9NPN PNP C PNP NPN fa
LT/LT/LT PNP µv CMRR µv LT/LT/LT V k V ma LT/LT/LT mv mv mv mv LT/LT/LT VmA.V ma V V ma LT/ LT/LT H L / SUPPLY CURRENT PER AMPLIFIER (µa) OUTPUT AT V S / OUTPUT LOW OUTPUT HIGH..... SUPPLY VOLTAGE (V) F. VS VS VS mv V S / mv F. fa
LT/LT/LT LT/LT/LT mv LT LT V OUT (V) COMPETITIVE PART LT V S = ±.V, A V = V IN SUPPLY CURRENT PER AMPLIFIER V OUT V IN (V) F. V OUT I CC 7 ICC (µa) LTLT SHDN V.V SHDN V.V.µA na V V OUT V SHDN V SHDN SHDNµA fa
LT/LT/LT µagbw khz.9v (NiMH) V IN / LT.9V (NiMH) / LT 7 OUT 9.9k 9.9k TAa k k GAIN (db) k k k M FREQUENCY (Hz) TAb fa
LT/LT/LT DCB DFN mm mm (Reference LTC DWG # --7).7 ±.. ±.. ±. ( SIDES). ±. PACKAGE OUTLINE. ±.. BSC. ±. ( SIDES) RECOMMENDED SOLDER PAD PITCH AND DIMENSIONS. ±. ( SIDES) R =. TYP R =. TYP. ±.. ±. ( SIDES). ±. ( SIDES) PIN BAR TOP MARK NOTE (SEE NOTE ). REF.7 ±... PIN NOTCH R. OR. CHAMFER (DCB) DFN. ±.. BSC. ±. ( SIDES) BOTTOM VIEW EXPOSED PAD NOTE NOTE:. JEDEC MO-9 DRAWING TO BE MADE A PACKAGE OUTLINE M-9 VARIATION OF (TBD). DRAWING NOT TO SCALE. ALL DIMENSIONS ARE IN MILLIMETERS. DIMENSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE.mm MOLD FLASH. MOLD FLASH, IF PRESENT, SHALL NOT EXCEED.mm ON ANY SIDE. EXPOSED PAD SHALL BE SOLDER PLATED. SHADED AREA IS ONLY A REFERENCE FOR PIN LOCATION ON THE TOP AND BOTTOM OF PACKAGE fa
LT/LT/LT MS MSOP (Reference LTC DWG # --).9 ±.7 (. ±.). (.) MIN.. (..). ±. (. ±.) TYP. (.) BSC. ±. (. ±.) (NOTE ) 7. (.) REF RECOMMENDED SOLDER PAD LAYOUT GAUGE PLANE. (.7). (.) DETAIL A TYP. ±. (. ±.) DETAIL A SEATING PLANE.9 ±. (.9 ±.). (.) MAX.. (.9.) TYP. (.) NOTE NOTE: BSC. / DIMENSIONS IN MILLIMETER/(INCH). DRAWING NOT TO SCALE. DIMENSION DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS..mm." MOLD FLASH, PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED (.") PER SIDE. DIMENSION DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSIONS..mm." INTERLEAD FLASH OR PROTRUSIONS SHALL NOT EXCEED.mm (.") PER SIDE..mm." LEAD COPLANARITY (BOTTOM OF LEADS AFTER FORMING) SHALL BE.mm (.") MAX. ±. (. ±.) (NOTE ). (.) REF.7 ±.7 (. ±.) MSOP (MS) fa
LT/LT/LT DD mm mm DFN (Reference LTC DWG # --99).7 ±.. ±.. ±.. ±. ( SIDES) PACKAGE OUTLINE. ±.. BSC. ±. ( SIDES) RECOMMENDED SOLDER PAD PITCH AND DIMENSIONS R =. TYP. ±. PIN TOP MARK NOTE (SEE NOTE ). REF. ±. ( SIDES).7 ±.... ±. ( SIDES). ±. ( SIDES). ±.. BSC BOTTOM VIEW EXPOSED PAD (DD) DFN NOTE NOTE:. JEDEC MO-9 WEED- DRAWING TO BE MADE A PACKAGE OUTLINE M-9 VARIATION OF (WEED-). LTC Web CHECK THE WEBSITE DATA SHEET FOR CURRENT STATUS OF VARIATION ASSIGNMENT. DRAWING NOT TO SCALE. ALL DIMENSIONS ARE IN MILLIMETERS. DIMENSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE.mm MOLD FLASH. MOLD FLASH, IF PRESENT, SHALL NOT EXCEED.mm ON ANY SIDE. EXPOSED PAD SHALL BE SOLDER PLATED. SHADED AREA IS ONLY A REFERENCE FOR PIN LOCATION ON THE TOP AND BOTTOM OF PACKAGE fa 7
LT/LT/LT GN SSOP (Reference LTC DWG # --). ±..9.9* (..97) 9.9 (.9) REF. MIN...9. (.7.9)..7** (..9). ±.. BSC RECOMMENDED SOLDER PAD LAYOUT 7.7.9 (.7.9). ±. (. ±.) TYP.. (..7)..9 (..9).. (..7) NOTE NOTE:. CONTROLLING DIMENSION: INCHES. INCHES DIMENSIONS ARE IN (MILLIMETERS).. DRAWING NOT TO SCALE * *DIMENSION.".mm DOES NOT INCLUDE MOLD FLASH. MOLD FLASH ** SHALL NOT EXCEED." (.mm) PER SIDE **DIMENSION.".mm DOES NOT INCLUDE INTERLEAD FLASH. INTERLEAD FLASH SHALL NOT EXCEED." (.mm) PER SIDE.. (..) TYP. (.) BSC GN (SSOP) fa
LT/LT/LT DHC mm mm DFN (Reference LTC DWG # --7). ±.. ±.. ±.. ±. ( SIDES) PACKAGE OUTLINE. ±. ( SIDES). ±.. BSC RECOMMENDED SOLDER PAD PITCH AND DIMENSIONS. ±. ( SIDES) R =. TYP 9 R =. TYP. ±. PIN TOP MARK NOTE (SEE NOTE ). REF. ±. ( SIDES).7 ±.. ±. ( SIDES).. NOTE NOTE:. JEDECMO-9 WJED- DRAWING PROPOSED TO BE MADE VARIATION OF VERSION (WJED-) IN PACKAGE OUTLINE MO-9. DRAWING NOT TO SCALE. ALL DIMENSIONS ARE IN MILLIMETERS. DIMENSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE.mm MOLD FLASH. MOLD FLASH, IF PRESENT, SHALL NOT EXCEED.mm ON ANY SIDE. EXPOSED PAD SHALL BE SOLDER PLATED. SHADED AREA IS ONLY A REFERENCE FOR PIN LOCATION ON THE TOP AND BOTTOM OF PACKAGE. ±. ( SIDES). ±.. BSC BOTTOM VIEW EXPOSED PAD PIN NOTCH (DHC) DFN fa 9
LT/LT/LT V/F M M A / LT V REF.k M.µF TP V REF M M M V REF 7 LTC V OUT V IN M V REF A / LT.k FREQUENCY OUT 7.Hz/mV V IN LINEARITY %, V IN mv TO mv I SUPPLY µa TO µa 7 V REF.µF N7.k pf DIODES: CENTRAL SEMI CMOD V S V.V TO V REF.µF LT79-.9 µf TA MUX.V MUX V IN LT SHDN V OUT V OUT.V V IN LT SHDN INPUT SELECT INPUT SELECT SN7LVC TAa V S =.V ms/div V IN = Hz AT V P-P V IN = Hz AT.V P-P INPUT SELECT = Hz AT.V P-P TAb LT7/LT79 7µA / V OS MAX µv khz LT9A/LT9A µa / Over-The-Top V OS MAX 9µV khz LT9/LT9/LT9.µA/ / Over-The-Top V OS MAX 7µV.7kHz LT7/LT7/LT7 µa AV / / Over-The-Top khz LT7 Over-The-Top SOT- SOT- V OS MAX µv I S =µa( ) khz Over-The-Top fa REV A PRINTED IN JAPAN LINEAR TECHNOLOGY CORPORATION