Low Noise, Bipolar Input Dual, Audio Operational amplifier DESCRIPTION NJM48 is a low noise bipolar input dual audio operational amplifier featuring.nv/ Hz at khz. The NJM48 features Low distortion, high slew rate, wide bandwidth and high open-loop gain. In addition, unity-gain stable allows voltage-follower operation. These features make NJM48 ideal for audio pre amplifier, microphone amplifier, line amplifier and other audio applications. NJM48 operate over a wide temperature range of -4 C to + C, making this IC ideal for use in industrial measurement instruments. The NJM48 is available in the 8-pin DMP8 packages. PACKAGE OUTLINE NJM48M (DMP8) FEATURES Designed for High-Quality Sound Low Noise (f=khz).nv/ Hz Low Distortion.% Slew Rate.8V/µs Gain Bandwidth Product (f=khz) 9MHz Open-Loop Voltage Gain db Unity-Gain stable Bipolar Input Supply Voltage ±4V to ±8V Operating Temperature -4 C to + C Supply Current (All Amplifiers) ma typ. Package DMP8 APPLICATIONS Professional Audio sets Audio pre/microphone amplifiers Analog/Digital mixer AV Receiver Car Audio Industrial Measurement Instruments PIN CONFIGURATION (Top View) A OUTOUT A -INPUT A +INPUT V - 8 7 4 V + B OUTPUT B -INPUT B +INPUT Package Product Name DMP8 NJM48M EQUIVALENT CIRCUIT V + -INPUT +INPUT OUTPUT V - Ver. []
ABSOLUTE MAXIMUM RATINGS PARAMETER SYMBOL RATING UNIT Supply Voltage V + /V - ±8 V Differential Input Voltage () V ID ± V Input Voltage () V IN V - -. to V - + V Output Terminal Input Voltage V O V - -. to V + +. V Power Dissipation () P D (-layer / 4-layer) DMP8 47 / Operating Temperature Range T opr -4 to + C Storage Temperature Range T stg - to + C mw NJM48 () Differential voltage is the voltage difference between +INPUT and -INPUT. () Input voltage is the voltage should be allowed to apply to the input terminal independent of the magnitude of V+. The normal operation will establish when any input is within the Common Mode Input Voltage Range of electrical characteristics. () Power dissipation is the power that can be consumed by the IC at Ta= C, and is the typical measured value based on JEDEC condition. When using the IC over Ta= C subtract the value [mw/ C]=P D/(Tstg(MAX)-) per temperature. -layer: EIA/JEDEC STANDARD Test board (7.x4.x.mm, layers, FR-4) mounting 4-layer: EIA/JEDEC STANDARD Test board (7.x4.x.mm, 4layers, FR-4) mounting RECOMMENDED OPERATING CONDITIONS (Ta= C) PARAMETER SYMBOL TEST CONDITION MIN. TYP. MAX. UNIT Supply Voltage V + /V - ±4 - ±8 V ELECTRICAL CHARACTERISTICS (V + /V - =±V, Ta= C, unless otherwise noted.) PARAMETER SYMBOL TEST CONDITION MIN. TYP. MAX. UNIT INPUT/OUTPUT CHARACTERISTICS Input Offset Voltage V IO R S kω -. mv Input Bias Current I B - na Input Offset Current I IO - na Open Loop Voltage Gain A V R L=kΩ, Vo=±V 9 - db Common-Mode Rejection Ratio CMR 8 - db Input Resistance R IN - kω Common-Mode Input Voltage Range V ICM ± ±. - V Maximum Output Voltage V OM R L kω ± ±. - V POWER SUPPLY Supply Current(All Amplifiers) I Q - 8 ma Supply Voltage Rejection Ratio SVR 8 - db AC PERFORMANCE Gain Bandwidth Product GBW f=khz - 9 - MHz Unity Gain Frequency f T Gv=dB - 7. - MHz Slew Rate SR R L kω -.8 - V/µs NOISE, DISTORTION Equivalent Input Noise Voltage e n f=khz -. - nv/ Hz FLAT, f=hz~khz -..7 µvrms Total Harmonic Distortion THD -. - % Channel Separation CS - - db Ver. []
TYPICAL CHARACTERISTICS Voltage Gain [db] 8 4 - Gain Phase 8dB Gain/Phase vs. Frequency V + /V - = ±V, Gv=8dB, R L =kω, C L =pf Ta=-4ºC Ta=-4ºC - - -9 - - -8 k k k M M M Frequency [Hz] Phase [deg] Equivalent Input Noise Voltage [nv/hz] 4 8 4 Voltage Noise vs. Frequency V + /V - =±V, k k k Frequency [Hz] - - Maximum Output Voltage vs. Load Resistance V + /V - =±V, Gv=open Ta=-4ºC Ta=-4ºC - - Maximum Output Voltage vs. Output Current V + /V - =±V Ta=-4ºC Ta=-4ºC - k k k Load Resistance [Ω] - Output Current [ma] Supply Current [ma] 4 Supply Current vs. Supply Voltage R L = Ta=-4ºC Supply Current [ma] 7..... 4. 4.. Supply Current vs. Temperature R L = V + /V - =±V ± ±4 ± ±8 ± ± ±4 ± ±8 Supply Voltage V + /V - [V]. - - 7 Ver. []
TYPICAL CHARACTERISTICS Input Offset Voltage vs. Supply Voltage Input Offset Voltage vs. Temperature - - Ta=ºC Ta=-4ºC - - V + /V - =±V - ± ±4 ± ±8 ± ± ±4 ± ±8 Supply VoltageV + /V - [V] - - - 7 Input Offset Voltage vs. Common-Mode Input Voltage V + /V - =±V Input Offset Voltage vs. Common-Mode Input Voltage - - Ta=-4ºC Ta=ºC - - Ta=ºC Ta=-4ºC - - - - Common-Mode Input Voltage [V] - -4 - - - 4 Common-Mode Input Voltage [V] Input Bias Current [na] 4 Input Bias Current vs. Temperature V + /V - =±V - - 7 Common Mode and Supply Voltage Rejection Ratio [db] 4 9 8 7 Common Mode and Supply Voltage Rejection Ratio vs. Temperature SVR CMR @V + /V - =±V 4 - - 7 Ver. [4]
TYPICAL CHARACTERISTICS Voltage Gain [db] 4 9 8 7 Voltage Gain vs. Temperature V + /V - =±V, V O =±V 4 - - 7 Maximum Output Voltage vs. Temperature V + /V - =±V - V + /V - =±V - - - - 7 8 Maximum Output Voltage vs. Supply Voltage R L =kω THD+N vs. Output Voltage V + /V - =±V, R S =, R F =k, R G =k, - - -8 Ta=-4ºC Ta=-4ºC ± ±4 ± ±8 ± ± ±4 ± ±8 Supply Voltage V + /V - [V] THD + N [%]... V+.uF RF RS Hz khz RG.uF khz + V- + uf uf f=khz f=hz f=hz... Output Voltage [Vrms] Ver. []
PACKAGE DIMENSIONS.±. ~ º 8 4.7.74MAX..±.. M.±..±..±..8±..±.. +. -. Unit: mm DMP8 Package [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. Ver. []