特長 概要 デュアル / クワッド高精度レール トゥ レール入力 / 出力オペアンプ 5μ 高同相除去比 :9 高 A OL :/μ( 最小 k 負荷ドライブ時 ) 低入力バイアス電流 : 広い電源範囲 :.8から ±5 低電源電流 :375μA/ アンプ 高出力ドライブ :3mA 利得 バンド幅積 :4kHz スルーレート :.3/µs 最大 pfの容量性負荷で安定動作 アプリケーション レール トゥ レール バッファ アンプ 低電圧信号処理 一方のレールでの電源電流センシング A/Dコンバータのドライブ L LT LTC LTM Over-The-Top Linear Technoogy および Linear のロゴはリニアテクノロジー社の登録商標です C-Load はリニアテクノロジー社の商標です 他の全ての商標はそれぞれの所有者に所有権があります LT 366/LT367/.8 36 3 5 5 5μ A OL k 9 pf.μf A/D LT366/LT368 8 PDIP 8 SO LT367/LT369 4 SO / 標準的応用例 CC LOAD R 2Ω Rs.2Ω I LOAD /2 LT366 R2 2k Q TP6L /2 LT366 R2 O = I LOAD R S R = I LOAD 2Ω ( ) 366 TA SATURATION OLTAGE () OUT S POSITIE RAIL NEGATIE RAIL... LOAD CURRENT (ma) 366 TA2 366fb
絶対最大定格 Note 全電源電圧 ( から )... 36 入力電流...±5mA 出力短絡時間 (Note 2)... 連続動作温度範囲... 4 ~85 規定温度範囲... ~7 接合部温度...5 保存温度範囲... 65 ~5 リード温度 ( 半田付け 秒 )...3 ピン配置 LT366/LT368 LT367/LT369 OUT A IN A IN A 2 3 4 A TOP IEW 8 7 6 5 OUT B IN B IN B N8 PACKAGE 8-LEAD PDIP S8 PACKAGE 8-LEAD PLASTIC SO T JMAX = 5 C, θ JA = 3 C/W (N8) T JMAX = 5 C, θ JA = 9 C/W (S8) B OUT A IN A 2 IN A 3 4 IN B 5 IN B 6 OUT B 7 A B TOP IEW D S PACKAGE 4-LEAD PLASTIC SO 4 OUT D 3 IN D 2 IN D IN C 9 IN C 8 OUT C T JMAX = 5 C, θ JA = 5 C/W C 提供中のオプション S = 5 OS 25 N S LT366 2 pf < C L < pf 475 LT366CN8 LT366CS8 LT367 4 pf < C L < pf 8 LT367CS LT368 2 C L =.µf 475 LT368CN8 LT368CS8 LT369 4 C L =.µf 8 LT369CS 発注情報 LT366CN8#PBF LT366CN8#TRPBF 366 8-Lead PDIP C to 7 C LT366CS8#PBF LT366CS8#TRPBF 366 8-Lead Pastic S C to 7 C LT367CS#PBF LT367CS#TRPBF LT367CS 4-Lead Pastic S C to 7 C LT368CN8#PBF LT368CN8#TRPBF 368 8-Lead PDIP C to 7 C LT368CS8#PBF LT368CS8#TRPBF 368 8-Lead Pastic S C to 7 C LT369CS#PBF LT369CS#TRPBF LT369CS 4-Lead Pastic S C to 7 C さらに広い動作温度範囲で規定されるデバイスについては 弊社または弊社代理店にお問い合わせください 非標準の鉛ベース仕様の製品の詳細については 弊社または弊社代理店にお問い合わせください 鉛フリー仕様の製品マーキングの詳細については http://www.inear-tech.co.jp/eadfree/ をご覧ください テープアンドリールの仕様の詳細については http://www.inear-tech.co.jp/tapeandree/ をご覧ください 2 366fb
電気的特性 T A = 25 S = 5 CM = 2.5 O = 2.5 SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS OS Input Offset otage (LT366/LT368) CM = CC 5 5 Input Offset otage (LT367/LT369) CM = CC 5 5 OS Input Offset otage Shift (LT366/LT368) Input Offset otage Shift (LT367/LT369) I B Input Bias Current CM = CC 35 I B Input Bias Current Shift 2 7 I OS Input Offset Current CM = CC.3 I OS Input Offset Current Shift 2 Input Bias Current Match (Channe to Channe) CM = CC (Note 4) (Note 4) e n Input Noise otage Density f = khz 29 n/ Hz i n Input Noise Current Density f = khz.7 pa/ Hz C IN Input Capacitance 2 pf A OL Large-Signa otage Gain O = 5 to 4.8, R L = k 25 2 / CMRR Common Mode Rejection Ratio (LT366/LT368) (Note 4) 8 75 9 9 PSRR Common Mode Rejection Ratio (LT367/LT369) Power Suppy Rejection Ratio PSRR Match (Channe to Channe) (Note 4) (Note 4) S = 2. to 2, CM = O =.5 S = 2. to 2, CM = O =.5 OL Output otage Swing Low No Load I SINK =.5mA I SINK = 2.5mA OH Output otage Swing High No Load I SOURCE =.5mA I SOURCE = 2.5mA 77 7 9 84 CC.2 CC. CC.25 5 25 5 25 9 9 5 6 4 CC.4 CC.5 CC.5 I SC Short-Circuit Current (Note 2) ±5 ±3 ma I S Suppy Current per Ampifier 34 52 µa GBW Gain-Bandwidth Product () Gain-Bandwidth Product () A = A =.4.6 MHz MHz t S Setting Time () A =, STEP = 4 to.% 3 µs 475 475 8 7 4 7 65 6 35 2 2 2 2 2 7 2 366fb 3
電気的特性 < T A < 7 S = 5 ; CM = 2.5 O = 2.5 SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS OS Input Offset otage (LT366/LT368) CM = CC Input Offset otage (LT367/LT369) CM = CC OS TC Input Offset otage Drift (Note 3) 2 6 / C OS Input Offset otage Shift (LT366/LT368) 2 425 25 9 Input Offset otage Shift (LT367/LT369) I B Input Bias Current CM = CC 45 I B Input Bias Current Shift 25 9 I OS Input Offset Current CM = CC 2 5 5 I OS Input Offset Current Shift 2 5 Input Bias Current Match (Channe to Channe) CM = CC (Note 4) (Note 4) A OL Large-Signa otage Gain O = 5 to 4.8, R L = k 25 2 / CMRR Common Mode Rejection Ratio (LT366/LT368) 8 87 (Note 4) 74 87 PSRR Common Mode Rejection Ratio (LT367/LT369) Power Suppy Rejection Ratio PSRR Match (Channe to Channe) (Note 4) (Note 4) S = 2.3 to 2, CM = O =.5 S = 2.3 to 2, CM = O =.5 OL Output otage Swing Low No Load I SINK =.5mA I SINK = 2.5mA OH Output otage Swing High No Load I SOURCE =.5mA I SOURCE = 2.5mA 77 7 88 82 CC.4 CC. CC.3 2 2 2 2 2 25 5 2 87 87 5 9 45 2 CC.5 CC.55 CC.8 I SC Short-Circuit Current (Note 2) ±2.5 ma I S Suppy Current per Ampifier 385 54 µa 575 575 95 9 675 9 45 5 5 4 8 23 T A = 25 S = 3 CM =.5 O =.5 SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS OS Input Offset otage (LT366/LT368) CM = CC 5 5 Input Offset otage (LT367/LT369) CM = CC 5 5 OS Input Offset otage Shift (LT366/LT368) Input Offset otage Shift (LT367/LT369) I B Input Bias Current CM = CC 35 I B Input Bias Current Shift 2 7 I OS Input Offset Current CM = CC..3 5 25 5 25 475 475 85 75 4 7 65 7 35 2 2 4 366fb
電気的特性 T A = 25 S = 3 CM =.5 O =.5 SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS I OS Input Offset Current Shift 2 Input Bias Current Match (Channe to Channe) CM = CC (Note 4) (Note 4) A OL Large-Signa otage Gain O = 5 to 2.8, R L = k 25 5 / CMRR Common Mode Rejection Ratio (LT366/LT368) 77 86 (Note 4) 7 86 Common Mode Rejection Ratio (LT367/LT369) (Note 4) OL Output otage Swing Low No Load I SINK =.5mA I SINK = 2.5mA OH Output otage Swing High No Load I SOURCE =.5mA I SOURCE = 2.5mA 73 67 CC.2 CC. CC.25 86 86 6 4 CC.4 CC.5 CC.5 I SC Short-Circuit Current (Note 2) ± ±2 ma I S Suppy Current per Ampifier 33 5 µa 2 2 2 7 2 < T A < 7 S = 3 ; CM =.5 O =.5 SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS OS Input Offset otage (LT366/LT368) CM = CC Input Offset otage (LT367/LT369) CM = CC OS Input Offset otage Shift (LT366/LT368) Input Offset otage Shift (LT367/LT369) OS TC Input Offset otage Drift (Note 3) 2 6 / C I B Input Bias Current CM = CC I B Input Bias Current Shift 25 9 I OS Input Offset Current CM = CC I OS Input Offset Current Shift 2 5 Input Bias Current Match (Channe to Channe) CM = CC (Note 4) (Note 4) A OL Large-Signa otage Gain O = 5 to 2.8, R L = k 5 5 / CMRR Common Mode Rejection Ratio (LT366/LT368) 76 83 (Note 4) 7 83 Common Mode Rejection Ratio (LT367/LT369) (Note 4) OL Output otage Swing Low No Load I SINK =.5mA I SINK = 2.5mA OH Output otage Swing High No Load I SOURCE =.5mA I SOURCE = 2.5mA 45 72 66 CC.4 CC. CC.3 2 2 2 2 2 25 2 25 5 2 2 83 83 9 45 2 CC.5 CC.55 CC.8 I SC Short-Circuit Current (Note 2) ± ma I S Suppy Current per Ampifier 375 52 µa 575 575 95 9 425 9 675 9 45 5 5 5 5 4 8 23 366fb 5
電気的特性 T A = 25 S = 5 CM = O = SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS OS Input Offset otage (LT366/LT368) CM = CC 2 2 Input Offset otage (LT367/LT369) CM = CC 2 2 OS Input Offset otage Shift (LT366/LT368) Input Offset otage Shift (LT367/LT369) I B Input Bias Current CM = CC 35 I B Input Bias Current Shift 2 7 I OS Input Offset Current CM = CC..3 I OS Input Offset Current Shift 2 Input Bias Current Match (Channe to Channe) CM = CC (Note 4) (Note 4) C IN Input Capacitance 7. pf A OL Large-Signa otage Gain O = 4.7 to 4.7, R L = k O = to, R L = 2k Channe Separation O = to, R L = 2k 2 35 SR Sew Rate () A =, R L = Open, O = ±,.3 /µs Measured at O = ±5 Sew Rate () A =, R L = Open, O = ±,.65 /µs Measured at O = ±5 CMRR Common Mode Rejection Ratio (LT366/LT368) (Note 4) 95 89 6 6 PSRR Common Mode Rejection Ratio (LT367/LT369) Power Suppy Rejection Ratio PSRR Match (Channe to Channe) (Note 4) S = ±5 to ±5 S = ±5 to ±5 (Note 4) OL Output otage Swing Low No Load I SINK =.5mA I SINK = ma OH Output otage Swing High No Load I SOURCE =.5mA I SOURCE = 2.5mA 5 93 87 9 84 CC.2 CC. CC.8 5 3 5 3 6 6 5 EE.6 EE.4 EE.24 CC.4 CC.5 CC.4 7 7 9 5 3 65 2 35 2 2 2 2 EE.2 EE.7 EE.5 I SC Short-Circuit Current (Note 2) ±3 ±75 ma I S Suppy Current per Ampifier 37 55 µa / / 6 366fb
電気的特性 < T A < 7 S = 5 CM = O = SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS OS Input Offset otage (LT366/LT368) CM = CC Input Offset otage (LT367/LT369) CM = CC OS Input Offset otage Shift (LT366/LT368) Input Offset otage Shift (LT367/LT369) OS TC Input Offset otage Drift (Note 3) 2 8 / C I B Input Bias Current CM = CC 45 5 45 I B Input Bias Current Shift 25 9 I OS Input Offset Current CM = CC 2 5 5 I OS Input Offset Current Shift 2 5 Input Bias Current Match (Channe to Channe) CM = CC (Note 4) (Note 4) A OL Large-Signa otage Gain O = 4.7 to 4.7, R L = k O = to, R L = 2k CMRR PSRR 75 5 25 25 25 25 2 3 2 3 2 6 6 85 85 5 525 5 75 23 Channe Separation O = to, R L = 2k 35 Common Mode Rejection Ratio (LT366/LT368) Common Mode Rejection Ratio (LT367/LT369) Power Suppy Rejection Ratio PSRR Match (Channe to Channe) (Note 4) (Note 4) S = ±5 to ±5 S = ±5 to ±5 (Note 4) OL Output otage Swing Low No Load I SINK =.5mA I SINK = ma OH Output otage Swing High No Load I SOURCE =.5mA I SOURCE = ma 95 89 92 86 8 75 CC.4 CC. CC.95 3 3 3 3 5 EE.9 EE.45 EE.3 CC.5 CC.55 CC.5 5 5 EE.4 EE.8 EE.6 I SC Short-Circuit Current (Note 2) ±3 ma I S Suppy Current per Ampifier 45 575 µa / / Note 絶対最大定格に記載された値を超えるストレスはデバイスに永続的損傷を与える可能性がある 長期にわたって絶対最大定格条件に曝すと デバイスの信頼性と寿命に悪影響を与える可能性がある Note 2 すべての両電源と 2 未満の単一電源で動作しているときのグランドへの短絡に適用される 合計 2 を超える電源で動作しているときにいずれかの電源に短絡すると デバイスに永続的な損傷を与える恐れがある 出力が無期限に短絡されるときは 接合部温度を絶対最大定格以下に抑えるために ヒートシンクが必要になることがある Note 3 このパラメータに対しては 全数テストは実施されない Note 4 マッチング パラメータは LT367/LT369 のアンプ A と D の間の差およびアンプ B と C の間の差 LT366/LT368 の 2 つのアンプの間の差である Note 5 入力オフセット電圧整合は および CM = CC の両方の条件で測定されたオフセット電圧のアンプ間の差である 366fb 7
標準的性能特性 / 3 25 PNP OS LT366/LT368 N-PACKAGE S = 5, CM = 3 25 NPN OS LT366/LT368 N-PACKAGE S = 5, CM = 5 3 25 PNP NPN OS LT366/LT368 N-PACKAGE S = 5, CM = TO 5 PERCENT OF UNITS (%) 2 5 PERCENT OF UNITS (%) 2 5 PERCENT OF UNITS (%) 2 5 5 5 5 35 25 5 5 5 5 25 35 INPUT OFFSET OLTAGE () 35 25 5 5 5 5 25 35 INPUT OFFSET OLTAGE () 35 25 5 5 5 5 25 35 INPUT OFFSET OLTAGE () LT366 TPC3 LT366 TPC2 LT366 TPC SUPPLY CURRENT PER AMPLIFIER (µa) 5 4 S = ±5 S = 5, 3 2 SUPPLY CURRENT PER AMPLIFIER (µa) 6 5 T A = 25 C 4 T A = 25 C 3 T A = 55 C 2 INPUT BIAS CURRENT () 2 S = 5, 5 T A = 55 C 5 T A = 25 C 5 T A = 25 C 5 5 35 2 5 25 4 55 7 85 TEMPERATURE ( C) 4 8 2 6 2 24 28 32 36 TOTAL SUPPLY OLTAGE () 2 2 2 3 4 COMMON MODE OLTAGE () 5 6 LT366 TPC4 LT366 TPC5 LT366 TPC6 INPUT BIAS CURRENT () 5 4 3 2 S = 5,, CM = 5 S = ±5, CM = 5 S = 5,, CM = 2 S = ±5, CM = 5 3 4 5 5 35 2 5 25 4 55 7 85 TEMPERATURE ( C) LT366 TPC7 8 SATURATION OLTAGE () H. T A = 85 C T A = 55 C.. LOAD CURRENT (ma) T A = 25 C LT366 TPC8 SATURATION OLTAGE () L. T A = 85 C T A = 55 C.. LOAD CURRENT (ma) T A = 25 C LT366 TPC9 366fb
標準的性能特性 / CHANGE IN OFFSET OLTAGE () 2 5 5.Hz Hz T A = 7 C T A = 85 C T A = 25 C T A = 55 C NONFUNCTIONAL 2 3 4 TOTAL SUPPLY OLTAGE () 5 LT366 TPC OUTPUT OLTAGE (2n/DI) S = ±2.5 CM = TIME (s/di) LT366 TPC NOISE OLTAGE n/ Hz 7 6 5 4 3 2 S = 5, CM = 4 CM = 2.5 FREQUENCY (Hz) LT366 TPC2 CURRENT NOISE (pa/ Hz).8.7.6.5.4.3.2. S = 5, CM = 2.5 CM = 4 FREQUENCY (Hz) LT366 TPC3 OLTAGE GAIN () 7 6 5 4 3 2 2 S = ±2.5 GAIN PHASE 3 6 k k k M M FREQUENCY (Hz) LT366 TPC4 4 2 8 6 4 2 2 4 PHASE SHIFT (DEG) OLTAGE GAIN () 5 4 3 2 2 3 4 PHASE GAIN S = ±2.5 C L =.µf 5 6 k k k M M FREQUENCY (Hz) LT366 TPC5 4 2 8 6 4 2 2 4 PHASE SHIFT (DEG) COMMON MODE REJECTION RATIO () 2 9 8 7 6 5 4 3 CMRR S = ±2.5 2 k k k M FREQUENCY (Hz) LT366 TPC6 POWER SUPPLY REJECTION RATIO () 2 8 6 4 2 PSRR S = ±2.5 NEGATIE SUPPLY POSITIE SUPPLY k k k M FREQUENCY (Hz) LT366 TPC7 POWER SUPPLY REJECTION RATIO () 8 PSRR 2 S = ±2.5 6 4 2 POSITIE SUPPLY NEGATIE SUPPLY k k k M FREQUENCY (Hz) LT366 TPC8 366fb 9
標準的性能特性 / FREQUENCY (khz) 5 45 4 35 3 25 2 5 5 PHASE MARGIN GBW 5 5 2 SUPPLY OLTAGE () 25 6 54 48 42 36 3 24 8 2 6 3 PHASE MARGIN (DEG) CHANNEL SEPARATION () 5 6 7 8 9 2 3 4 S = ±5 OUT = ± P-P R L = 2k 5 k k FREQUENCY (Hz) INPUT OLTAGE () 2 5 5 5 5 2 2 R L = 2k R L = k 5 5 5 5 OUTPUT OLTAGE () S = ±5 2 LT366 TPC9 LT366 TPC2 LT366 TPC2 OERSHOOT (%) 8 7 6 5 4 3 2 S = 5, A = A = 5 A = OERSHOOT (%) 6 5 4 3 2 S = ±2.5 A = C L =.47µF C L =.22µF C L =.µf OERSHOOT (%) 6 5 4 3 2 S = ±5 A = C L =.47µF C L =.22µF C L =.µf k k k CAPACITIE LOAD (pf) 5 5 LOAD CURRENT (ma) 5 5 LOAD CURRENT (ma) LT366 TPC22 LT366 TPC23 LT366 TPC24 SLEW RATE (/µs).2 A =.8.6.4.2. 4 8 2 6 2 24 28 32 36 TOTAL SUPPLY OLTAGE () LT366 TPC25 CHANGE IN OFFSET OLTAGE () 8 6 4 2 2 4 6 8 S8 PACKAGE S = ±5 N8 PACKAGE S = ±5 S8 PACKAGE S = ±2.5 N8 PACKAGE S = ±2.5 5 3 45 6 75 9 5 2 35 5 TIME AFTER POWER-UP (SEC) LT366 TPC26 THD NOISE (%).. THD f = khz R L = k (ALL CURES) S = ±.5 A = S = ±2.5 A = S = ±.5 A = S = ±2.5 A =. 2 3 4 5 IN(P-P) () LT366 TPC27 366fb
標準的性能特性 / THD S = ±.5 IN = 2 P-P R L = k THD NOISE (%).. A = A = 5/DI 5/DI S = ±5 UNITY GAIN µs/di LT366 TPC29 S = ±5 UNITY GAIN 2µs/DI LT366 TPC3... FREQUENCY (khz) LT366 TPC28 アプリケーション情報 LT366 PNP Q/Q2 NPN Q3/Q4 2 Q23 Q26 Q24 Q26 DC AC I Q D4 D5 Q7 D6 Q2 D7 Q24 Q Q23 Q5 Q6 C OUT IN IN 3 Q2 Q6 Q3 Q4 D Q D3 Q2 D2 Q7 Q8 Q9 Q3 C C Q4 Q5 D7 Q8 Q9 Q2 Q22 C2 Q25 Q26 D8. LT366 LT366 FO 366fb
アプリケーション情報 2 Q5 I CM Q5 I PNP Q/Q2 CM.3 Q5 I D3/Q6 NPN Q3/Q4 2 Q7 Q Q4/Q5 D4/Q7 D5/Q6 Q8 Q9 Q23/Q24 Q25/Q26 C C2 2 3 2 3 Q2 L H D D2 Q/Q2 2 3 ma 7mA 4k ESD INPUT BIAS CURRENT () INPUT BIAS CURRENT () 9 8 7 T = 25 C 6 5 4 T = 85 C T = 55 C 3 T = 7 C 2 5 3 S 3 5 COMMON MODE OLTAGE RELATIE TO POSITIE SUPPLY () 2 3 4 5 6 7 8 9 8 MEASURED AS A FOLLOWER LT366 F2 2. MEASURED AS A FOLLOWER T = 55 C T = 25 C 6 4 2 T = 7 C T = 85 C S 2 COMMON MODE OLTAGE RELATIE TO NEGATIE SUPPLY () LT366 F3 3. 2 366fb
アプリケーション情報.μF A/D 4 2 P-P 5kHz LT366/LT368 LT368 5kHz LT366 5 (AC) /DI (AC) /DI OUT /DI OUT 2/DI 2µs/DI LT366 F4a 2µs/DI LT366 F4b 4a. LT366 4b. LT368 標準的応用例 A/D 5 LTC 288 2 A/D ADC LT368 LTC288 ADC ADC 2μs LT368 A/D LT366 LT368 f < khz LT368 /2 LT368 /2 LT368.µF.µF.µF CC µf CS/SHDN CC (REF) CH CLK LTC288 CH D OUT GND D IN LT366 FO5 TO µp 5. 2 A/D 366fb 3
標準的応用例 6 3.8 3.6 A 4.75 5% LT366.2% ma A FET Q Q Q ESR 2 R5 C2 R7 C3 A R6 C2 R8 C3 R9 Q A2 R 5 A2 A Q LED D R3 3 A2 Q 5 R3 2 4mA R3 C Q FR4 PC Q 5 /W.4W Q 8 IN = 4.75 ±5% k R7 3k R8 2k A /2 LT366 C3 6.8nF R9 Ω R.5Ω R3 2Ω Q Si9433DY.5k C µf R4 k D 5 R2 2k C5 47µF A2 /2 LT366 D2 N448 5k.µF C4 µf LT4-.2 R5* 2k 38.5k* C2 6.8nF R6 6.2k R MIN ** k C LOAD µf OUT 3.6 A Q2 2N394 23.2k 4.75 TO 3.6 LDO AT A * % METAL FILM ** SET R MIN BASED ON LOAD CHARACTERISTICS LT366 F6 6. 3.6 A 4 366fb
標準的応用例 7 LT366 LT366 Q R SENSE Q2 5 < CC < 3 MOSFET CC R SENSE.2Ω LT366 2 A 5 5W 7 MOSFET θ HS = θ JA(SYSTEM) θ JC(FET) = (25 7 )/5W.25 /W = /W.25 /W = 9.75 /W 5 LT4-.2 R P k 4k Q2 2N434 /2 LT366 k Ω I LOAD Q MTP23P6 5 < CC < 3 A < I LOAD < A AT CC = 5 ma < I LOAD < 6mA AT CC = 3 7..33µF LT366 F7.3%/ MOSFET MOSFET [ CC OUT ] < [I LOAD R SENSE R ON )] khz 8 LT367 2 2 2 IN 3.3 R* 29.5k C,pF A /4 LT367 k R2* 8.6k 29.5k* k µf C2,pF A2 /4 LT367.8k*,pF A3 /4 LT367 2.5k*.8k*,pF A4 /4 LT367 OUT *% RESISTORS LT366 F8 8. LT367 4 khz 3.3 366fb 5
標準的応用例 36 A ω 2 = /(R C R2 C2) IN 2 3 k /2 LT366 OUT SIGNAL AMP R = /(ω Q C) および R2 = Q/(ω C2) A2 A4 DC ADC khz 8/ James Hahn, State ariabe Fiter Trims Predecessorʼs Component Count, Eectronics, Apri 2, 982. GAIN () 2 4 6 8 GAIN k FREQUENCY (Hz) PHASE 8 44 8 72 36 36 72 8 44 8 k PHASE (DEG) M 7 22pF M /2 LT366 5 6 CANCELLATION AMP 366 F. R P k CC /2 LT366 366 F R L 366 F9 9. 4. 6 366fb
パッケージ N8 8 PDIP (.3 ) (Reference LTC DWG # 5-8-5).3.325 (7.62 8.255).45.65 (.43.65).3 ±.5 (3.32 ±.27).4* (.6) MAX 8 7 6 5.8.5 (.23.38).325.35.5.889 8.255.38 ( ).65 (.65) TYP. (2.54) BSC.2 (3.48) MIN.8 ±.3 (.457 ±.76).2 (.58) MIN.255 ±.5* (6.477 ±.38) 2 3 4 N8 2 NOTE. *.254mm (. ) S8 8.5 (Reference LTC DWG # 5-8-6).5 BSC.45 ±.5.89.97 (4.8 5.4) NOTE 3 8 7 6 5.245 MIN.6 ±.5.228.244 (5.79 6.97).5.57 (3.8 3.988) NOTE 3.3 ±.5 TYP 2 3 4.8. (.23.254)..2 (.254.58) 45 8 TYP.53.69 (.346.752).4. (..254).6.5.4.9 (.46.27) (.355.483) NOTE TYP. 2. 3..5mm.6.5 (.27) BSC SO8 33 366fb 7
パッケージ S 4.5 (Reference LTC DWG # 5-8-6).5 BSC.45 ±.5.337.344 (8.56 8.738) NOTE 3 N 4 3 2 9 8.245 MIN 2 3 N/2.6 ±.5.228.244 (5.79 6.97) N N/2.5.57 (3.8 3.988) NOTE 3.3 ±.5 TYP 2 3 4 5 6 7..2 (.254.58) 45.8. (.23.254) 8 TYP.53.69 (.346.752).4. (..254).6.5.4.9 (.46.27) (.355.483) TYP NOTE. 2. 3..5mm(.6 ).5 (.27) BSC S4 52 8 366fb
改訂履歴 Rev B Rev B 3/ 絶対最大定格 の変更 発注情報 セクションのフォーマット改訂 電気的特性 の Noteの変更 2 2 3 4 5 6 7 366fb 9
標準的応用例.µF GUARD M /4 LT367 AA k R F 2k k R G.3k INPUTS 2Ω /4 LT367 AB M /4 LT367 AC OUTPUT GUARD M 22pF R G.3k R GAIN = F = ( R G ) BW = 3kHz /4 LT367 AD R F 2k k k 366 TA3 関連製品 LT78/LT79 LTC52 LT78/LT79 LT2/LT22 LT495/LT496 / 55µA / 7µA / 4MHz 7/µs.5µA / OS MAX 7μ 2.5μ/ 2kHz.7/μs DC OS MAX n/ MHz /µs 2.2mA C-Load OS MAX 7μ 4/ 85kHz.4/µs OS MAX 275μ 6μ/.8mA OS MAX 375 2/ Over-The-Top 2 2-94 東京都千代田区紀尾井町 3-6 紀尾井町パークビル 8F TEL 3-5226-729 FAX 3-5226-268 www.inear-tech.co.jp 366fb LT 3 RE B PRINTED IN JAPAN LINEAR TECHNOLOGY CORPORATION 995