Low Noise, Rail-to-Rail Input/Output Dual Operational Amplifier GENERAL DESCRIPTION The NJM2737 is a Rail-to-Rail Input/Output single supply dual operational amplifier featuring low voltage operation, low power and low noise. It is designed to offer a low voltage operating from 1.8 with a 5n/ Hz low noise of the conventional low noise operational amplifiers such as the NJM458 and NJM 5532. The Combination of Rail-to-Rail Input/Output, low voltage operation and low noise makes the NJM2737 well-suited for single supply low voltage operation applications such as PC audio, portable audio and others. The NJM2737 is available in a wide variety packages 8-lead DIP, and 8-lead surface-mount packages of SOP (DMP), SSOP and MSOP (TSP). PACKAGE OUTLINE NJM2737D (DIP8) NJM2737 (SSOP8) NJM2737M (DMP8) NJM2737RB1 (MSOP8 (TSP8)) FEATURES Operating oltage 1.8 to 6. Low Input oltage Noise 5n/ Hz typ. Gain Band Width product 3.1MHz typ. (at + =5,R L =2kΩ) Slew Rate.7/µs typ. (at + =5,R L =2kΩ) Offset oltage 5m max Rail-to-Rail Input ICM = to 5. (at + =5) Rail-to-Rail Output OH 4.9/ OL.15 (at + =5,R L =2kΩ) Load Drivability OH 4.75/ OL.25 (at + =5,R L =2kΩ) Bipolar Technology Package Outline DIP8, DMP8, SSOP8, MSOP8 (TSP8)MEET JEDEC MO-187-DA / THIN TYPE PIN CONFIGURATION (Top iew) PIN CONFIGURATION 1 2 3 4 A B 8 7 6 5 1.OUTPUT1 2.-INPUT1 3.+INPUT1 4.GND( - ) 5.+INPUT2 6.-INPUT2 7.OUTPUT2 8. + er.212-9-17-1-
ABSOLUTE MAXIMUM RATINGS (Ta=25 C) PARAMETER SYMBOL RATINGS UNIT Supply oltage + 7. Differential Input oltage ID ±1. Input Common Mode oltage Range ICM to 7. Power Dissipation Operating Temperature Range Topr -4 to +85 C Storage Temperature Range Tstg -4 to +125 C (Note1)If the supply voltage ( + ) is less than 7, the input voltage must not over the + level through 7 is limit specified. RECOMMENDED OPERATING CONDITION (Ta=25 C) PARAMETER SYMBOL RATING UNIT Supply oltage + 1.8 to 6. P D 5(DIP8) 3(DMP8) 25(SSOP8) 32(MSOP8 (TSP8)) mw ELECTRICAL CHARACTERISTICS DC CHARACTERISTICS ( + =5,Ta=25 C) Operating Current I CC No Signal - 12 16 µa Input Offset oltage IO - 1 5 m Input Bias Current I B - 2 8 na Input Offset Current I IO - 5 1 na oltage Gain A R L =2kΩ 6 85 - db Common Mode Rejection Ratio CMR CMR+:2.5 CM 5., CMR-: CM 2.5(Note2) 55 7 - db Supply oltage Rejection Ratio SR + /GND = ±2. to ±3. 7 85 - db Maximum Output oltage1 Maximum Output oltage 2 OH1 R L =2kΩ 4.9 4.95 - OL1 R L =2kΩ - 5.1 OH2 R L =2kΩ 4.75 4.85 - OL2 R L =2kΩ -.15.25 Input Common Mode oltage Range ICM CMR>55dB - 5 (Note2) CMR is represented by either CMR+ or CMR- which has lower value. CMR+ is measured with 2.5 CM 5 and CMR- is measured with CM 2.5. AC CHARACTERISTICS ( + =5, Ta=25 C) Unity Gain Bandwidth f T R L =2kΩ - 3.1 - MHz Phase Margin Φ M R L =2kΩ - 85 - Deg Equivalent Input Noise oltage NI f=1khz - 5 - n/ Hz -2- er.212-9-17
TRANSIENT CHARACTERISTICS ( + =5, Ta=25 C) Slew Rate SR R L =2kΩ -.7 - /µs DC CHARACTERISTICS ( + =3,Ta=25 C) Operating Current I CC No Signal - 1 15 µa Input Offset oltage IO - 1 5 m Input Bias Current I B - 2 8 na Input Offset Current I IO - 5 1 na oltage Gain A R L =2kΩ 6 85 - db Common Mode Rejection Ratio CMR CMR+:1.5 CM 3., CMR-: CM 1.5(Note3) 48 63 - db Supply oltage Rejection Ratio SR + /GND = ±1.2 to ±2. 68 83 - db Maximum Output oltage1 Maximum Output oltage 2 OH1 R L =2kΩ 2.9 2.95 - OL1 R L =2kΩ - 5.1 OH2 R L =2kΩ 2.75 2.85 - OL2 R L =2kΩ -.15.25 Input Common Mode oltage Range ICM CMR>48dB - 3 (Note3) CMR is represented by either CMR+ or CMR- which has lower value. CMR+ is measured with 1.5 CM 3 and CMR- is measured with CM 1.5. AC CHARACTERISTICS ( + =3, Ta=25 C) Unity Gain Bandwidth f T R L =2kΩ - 2.6 - MHz Phase Margin Φ M R L =2kΩ - 85 - Deg Equivalent Input Noise oltage NI f=1khz - 5 - TRANSIENT CHARACTERISTICS ( + =3, Ta=25 C) Slew Rate SR R L =2kΩ -.6 - /µs n/ Hz er.212-9-17-3-
DC CHARACTERISTICS ( + =1.8,Ta=25 C) Operating Current I CC No Signal - 1 15 µa Input Offset oltage IO - 1 5 m Input Bias Current I B - 2 8 na Input Offset Current I IO - 5 1 na oltage Gain A R L =2kΩ 6 85 - db Common Mode Rejection Ratio CMR CMR+:.9 CM 1.8, CMR-: CM.9(Note4) 4 55 - db Supply oltage Rejection Ratio SR + /GND = ±.9 to ±1.2 65 8 - db Maximum Output oltage1 Maximum Output oltage 2 OH1 R L =2kΩ 1.7 1.75 - OL1 R L =2kΩ -.1.15 OH2 R L =2kΩ 1.6 1.65 - OL2 R L =2kΩ -.15.25 Input Common Mode oltage Range ICM CMR>4dB - 1.8 (Note4) CMR is represented by either CMR+ or CMR- which has lower value. CMR+ is measured with.9 CM 1.8 and CMR- is measured with CM.9. AC CHARACTERISTICS ( + =1.8, Ta=25 C) Unity Gain Bandwidth f T R L =2kΩ - 2.3 - MHz Phase Margin Φ M R L =2kΩ - 85 - Deg Equivalent Input Noise oltage NI f=1khz - 5 - TRANSIENT CHARACTERISTICS ( + =1.8, Ta=25 C) Slew Rate SR R L =2kΩ -.5 - /µs n/ Hz -4- er.212-9-17
TERMINAL CHARACTERISTICS No. Symbol Equivalent Circuit Typ.DC oltage() Function 3,5 +INPUT non-inverting input 2,6 -INPUT inverting input 1,7 OUT output er.212-9-17-5-
TYPICAL CHARACTERISTICS 14 12 Operating Current vs. Operating oltage Ta=25ºC Ta=85ºC 14 13 Operating Current vs. Temperature Operating Current [ua] 1 8 6 4 Ta=-4ºC Operating Current [ua] 12 11 1 9 + =5 + =3 + =1.8 2 8 1 2 3 4 5 6 7 Operating oltage [] 7-5 -25 25 5 75 1 125 Input Offset oltage vs. Temperature Input Offset oltage vs.common Mode Input oltage -.1 -.2 Input Offset oltage [m] -.2 -.3 -.4 -.5 -.6 + =5 + =3 Input Offset oltage[m] -.4 -.6 -.8-1. -1.2-1.4 + / - =±2.5 + / - =±1.5 -.7 + =1.8-1.6 + / - =±.9 -.8-5 -25 25 5 75 1 125-1.8-2. -1. 1. 2. Common Mode Input oltage[] 2 Input Offset Current vs. Temperature 3 Input Bias Current vs. Temperature Input Offset Current [na] 15 1 5 + =5 + =1.8 + =3 Input Bias Current [na] 25 2 15 1 5 + =1.8 + =5 + =3-5 -25 25 5 75 1 125-5 -25 25 5 75 1 125-6- er.212-9-17
8 Common Mode Rejection Ratio vs. Temperature IC = +,, - 1 Supply oltage Rejection Ratio vs. Temperature Common Mode Rejection Ratio [db] 75 7 65 6 55 + / - =±2.5 + / - =±1.5 + / - =±.9 Supply oltage Rejection Ratio [db] 9 8 7 + / - =±3. to ±2. + / - =±1.2 to ±.9 + / - =±2. to ±1.2 5-5 -25 25 5 75 1 125 6-5 -25 25 5 75 1 125 oltage Gain [db] 1 95 9 85 8 75 7 oltage Gain vs. Temperature R L =2kΩ + / - =±2.5 + / - =±.9 + / - =±1.5-5 -25 25 5 75 1 125 Maximum Output oltage [] 2.5 2. 1.5 1..5 -.5-1. -1.5-2. -2.5 Maximum Output oltage vs. Load Resistance + / - =±2.5, OPEN LOOP Ta=-4ºC Ta=-4ºC 1 1 1k 1k 1k 1M Load Resistance [Ω] Maximum Output oltage [] 3.5 2.5 1.5.5 -.5-1.5-2.5-3.5 Maximum Output oltage vs. Temperature + / - =±2.5, G =OPEN R L =2kΩ R L =2kΩ R L =2kΩ R L =2kΩ -5-25 25 5 75 1 125 Maximum Output oltage [] 4 3 2 1-1 -2-3 -4 Maximum Output oltage vs. Supply oltage OPEN LOOP, R L =2kΩ, Ta=25ºC ±.5 ±1. ±1.5 ±2. ±2.5 ±3. ±3.5 ±4. Supply oltage ( + / - ) [] er.212-9-17-7-
1.5 Maximum Output oltage vs. Output Current + / - =±.9, OPEN LOOP 3. Maximum Output oltage vs. Output Current + / - =±2.5, OPEN LOOP Maximum Output oltage [] 1..5 -.5-1. -1.5 I SOURCE I SINK Ta=-4ºC Ta=-4ºC.1 1 1 1 Output Current [ma] Maximum Output oltage [] 2. 1. -1. -2. -3. I SOURCE I SINK Ta=-4ºC Ta=-4ºC.1 1 1 1 Output Current [ma] 6 oltage Gain Phase vs. Frequency + / - =±.9, G =4dB R F =2Ω, R G =2kΩ, R L =, C L =pf 18 6 oltage Gain Phase vs. Frequency + / - =±1.5, G =4dB R F =2Ω, R G =2kΩ, R L =, C L =pf 18 4 Gain Ta=-4 C 12 4 Gain Ta=-4 C 12 oltage Gain [db] 2-2 -4 Phase Ta=-4 C 6-6 -12 Phase [deg] oltage Gain [db] 2-2 -4 Phase Ta=-4 C 6-6 -12 Phase [deg] -6 1k 1k 1k 1M 1M 1M Frequency [Hz] -18-6 1k 1k 1k 1M 1M 1M Frequency [Hz] -18 6 oltage Gain Phase vs. Frequency + / - =±2.5, G =4dB R F =2Ω, R G =2kΩ, R L =, C L =pf 18 1 Peak Gain of oltage Follower + / - =±2.5, G =db R S =5Ω, R L =2kΩ, 4 Gain Ta=-4 C 12 8 6 C L =2.2nF C L =1nF oltage Gain [db] 2-2 Phase Ta=-4 C 6-6 Phase [deg] oltage Gain [db] 4 2-2 -4 C L =47pF C L =22pF C L =1pF -4-12 -6-8 C L =pf -6 1k 1k 1k 1M 1M 1M Frequency [Hz] -18-1 1k 1k 1M 1M 1M Frequency [Hz] -8- er.212-9-17
Input oltage Noise Density vs. Frequency G=4dB,R S =5Ω,R G =2Ω, R F =2kΩ,CL=pF,Ta=25 C 2 Input oltage Noise Dencity [n/ Hz] 15 + / - =±.9 1 + / - =±1.5 5 + / - =±2.5 1 1 1 1 1 1 Frequency[Hz] TOTAL HARMONIC DISTORTION + NOISE vs OUTPUT AMPLITUDE (oltage Follower) NJM2737, + / =±2.5,Gv=2dB + / - =2.5,G =db RR L =2kΩ,Ta=25 C L =2kΩ,Ta=25 1 TOTAL HARMONIC DISTORTION + NOISE vs OUTPUT AMPLITUDE ( 1 Amplifier) NJM2737, + / =±2.5,Gv=2dB + / - =2.5,G =2dB R L =2kΩ,Ta=25 C =2kΩ,Ta=25 1 THD + Noise [%].1 1 1 1kHz 1kHz THD + Noise [%] 1.1 1 1kHz 1kHz 1Hz 1 1 1.1 1 1 Output Amplitude [rms] 1Hz 1 1 1.1 1 1 Output Amplitude [rms] er.212-9-17-9-
Positive Transient Response + / - =±.9,G=dB,f=1kHz, IN =.5PP R S =5Ω,RL=2kΩ,CL=pF, Negative Transient Response + / - =±.9,G=dB,f=1kHz, IN =.5 PP R S =5Ω,RL=2kΩ,CL=pF, 1..8.6.4 INPUT.4.2 -.2 Input voltage[] 1..8.6.4 INPUT.4.2 -.2 Input oltage[] Output oltage[].2 -.2 -.4 OUTPUT -.4 -.6 -.8-1. Output oltage[].2 -.2 -.4 OUTPUT -.4 -.6 -.8-1. -2-1 1 2 3 4 Time[µs/DI.] 48 49 5 51 52 53 54 Time[µs/DI.] Positive Transient Response Negative Transient Response + / - =±1.5,G=dB,f=1kHz, IN =1 PP R S =5Ω,RL=2kΩ,CL=pF, + / - =±1.5,G=dB,f=1kHz, IN =1 PP R S =5Ω,RL=2kΩ,CL=pF, 2. 1.6 1.2.8 INPUT.8.4 -.4 Input oltage[] 2. 1.6 1.2.8 INPUT.8.4 -.4 Input oltage[] Output oltage[].4 -.4 -.8 OUTPUT -.8-1.2-1.6-2. Output oltage[].4 -.4 -.8 OUTPUT -.8-1.2-1.6-2. -2-1 1 2 3 4 48 49 5 51 52 53 54 Time[µs/DI.] Time[µs/DI.] [CAUTION] The specifications on this databook are only given for information, without any guarantee as regards either mistakes or omissions. The application circuits in this databook are described only to show representative usages of the product and not intended for the guarantee or permission of any right including the industrial rights. -1- er.212-9-17