Low power quad operational amplifiers Features Wide gain bandwidth:.mhz typ. Input common-mode voltage range includes ground Large voltage gain:db typ. Very low supply current per amplifier:ua typ. Low input bias current: na typ. Low input offset voltage: 7mV max Low input offset current: na typ. Wide power supply range: - Single supply: +V to +V - Dual supplies: ±.V to ±V Internal ESD protection Human body model (HBM) ±V typ. NJM4CG ( SOP4 ) Description The NJM4C consist of four independent, high gain, internally frequency-compensated operational amplifiers. They operate from a single power supply over a wide range of voltages. Operation from split power supplies is also possible and the low power supply current drain is independent of the magnitude of the power supply voltage. Pin and schematic diagram Figure. Pin connections (top view) Output 4 4 Output 4 Inverting Input Inverting Input 4 Non-inverting Input Non-inverting Input 4 V CC + 4 V CC - Non-inverting Input Non-inverting Input Inverting Input Output 6 9 7 8 Inverting Input Output ver. - -
Figure. Schematic diagram (/4 NJM4C) Vcc + V CC 6µA C C 4µA µa Q Q6 Inverting inverting Input Input Non-Inverting non-inverting Input Input Q Q Q Q4 Q Q Q7 Q R SC Output Q Q8 Q9 µa GND Vcc - Absolute maximum ratings Table. Absolute maximum ratings Symbol Parameter NJM4C Unit V CC Supply voltage (V CC + - V CC - ) V V i Input voltage () -. to V V id Differential input voltage ± V I in Output short-circuit duration () Infinite Input current () :Vin driven negative ma in DC or ma in AC (duty cycle = %, T=s) Input current (4) :Vin driven positive above AMR value.4 T stg Storage temperature range -6 to + C T j Maximum junction temperature C P D Power Dissipation () 88 (6) (7) mw θja Thermal resistance junction to ambient ψjt Thermal resistance junction to top surface of IC package 4(6) 4(6) ma (7) C /W (7) C /W. Input voltage is the voltage should be allowed to apply to the input terminal independent of the magnitude of V CC +. Short-circuits from the output to V CC can cause excessive heating if V CC > V. Destructive dissipation can result from simultaneous short circuits on all amplifiers.. This input current only exists when the voltage at any of the input leads is driven negative. It is due to the collector-vase junction of the input PNP transistor becoming forward-biased and thereby acting as input diode clamp. In addition to this diode action, there is NPN parasitic action on the IC chip. This transistor action can cause the output voltages of the Op-amps to go to the V CC voltage level (or to ground for a large overdrive) for the time during which an input is driven negative. 4. The junction base/substrate of the input PNP transistor polarized in reverse must be protected by a resistor in series with the inputs to limit the input current to 4uA max (R= (Vin-V)/4uA).. Short-circuit can cause excessive heating and destructive dissipation. Values are typical. 6. EIA/JEDEC STANDARD Test board (76. x 4. x.6mm, layers, FR-4) mounting 7. EIA/JEDEC STANDARD Test board (76. x 4. x.6mm, 4layers, FR-4) mounting - - ver.
. Operating conditions Table. Operating conditions Symbol Parameter Value Unit V CC Supply voltage (V CC + - V CC - ) to V V icm Common mode input voltage range V CC - -. to V CC + -. V T oper Operating free-air temperature range -4 to +8 C 4. Electrical characteristics Table. V CC + = +V, V CC - = V, T amb = + C, T min = C,T max =7 C (unless otherwise specified) Symbol Parameter Min. Typ. Max. Unit V io Input offset voltage (). 7 - - 9 I io I ib A vd SVR I CC V icm CMR I source Input offset current - - - Input bias current () - - - Large signal voltage gain V + CC = +V, RL=kΩ, Vo=.4V to.4v - - - Supply voltage rejection ratio (Rs<kΩ) V + CC = V to V 6-6 - - Supply current, all amp, no load V + CC = V -. V + CC = V -.7 V + CC = V - - V + CC = V - - Input common mode voltage range + V CC = +V () - V + CC -. - V + CC - Common mode rejection ratio (R S < kω) 7-6 - - Output current source (V id = +V) V + CC = V, V O = +V, 4 - mv na na V/mV db ma ma V db ma ver. - -
Table4. V CC + = +V, V CC - = V, T amb = + C, T min = C,T max =7 C (unless otherwise specified) Symbol Parameter Min. Typ. Max. Unit Output sink current (V id = -V) I sink V CC + = V, V o = +V - ma V CC + = V, V o = +.V - ua High level output voltage V CC + = V, RL = kω 6 7-6 - - V V OH T amb =+ C,RL = kω 7 8-7 - - V CC + = V, RL = kω. - - - - V V OL Low level output voltage RL = kω - mv - - SR GBP THD e n Slew rate V + CC = V, V i =. to V, R L = kω, C L = pf, unity gain Gain bandwidth product V + CC = V, f = khz, V in =mv, R L = kω, C L = pf Total harmonic distortion f = khz, A V =db, R L = kω, V O = V pp, C L = pf, V + CC = V Equivalent input noise voltage f = khz, R S =Ω, V + CC = V -.6 - V/µs -. - MHz -. - % - - nv/ Hz DV io Input offset voltage drift - 7 µv/ C DI io Input offset current drift - pa/ C V O /V O Channel separation (4) khz < f < khz - - db. V O =.4V, R S =Ω, V < V CC + < V, < V ic < V CC + -.V.. The direction of the input current is out of the IC.. The input common-mode voltage of either input signal voltage should not be allowed to go negative by more than.v. The upper end of the common-mode voltage range is V CC + -.V, but either or both inputs can go to +V without damage. 4. Due to the proximity of the external components, ensure that stray capacitance between these external parts dose not cause coupling. Coupling can be detected because this type of capacitance increases at higher frequencies.. This parameter is not % test. - 4 - ver.
TYPICAL CHARACTERISTICS 6 Gain/Phase vs. Frequency V CC + =V, G V =4dB, R L =kω to V CC -, C L =pf Maximum Output Voltage Swing vs. Frequency V CC + =V, Voltage Gain [db] 4 - -4-6 Gain Phase Ta=-4 C Ta=-4 C -6 - -8 k k k M M Frequency [Hz] Phase [deg] Maximum Output Voltage Swing V OPP [V PP ] k k k M Frequency [Hz] Pulse Response V CC + =V, R L =kω, C L =pf, Small signal Pulse Response V CC + =V, G V =db, C L =pf, Voltage [V/div] V IN V OUT Input/Output Voltage [mv] 4 4 Output Input Time [µs/div] Time [µs/div] Maximum Output Voltage vs. Load Resistance V CC + =V, R L to V CC - Maximum Output Voltage vs. Load Resistance V CC + =V, R L to V CC - Maximum Output Voltage [V] Ta=-4 C Ta=-4 C, ºC, 8ºC Maximum Output Voltage [V] 4 Ta=-4 C Ta=-4 C, ºC, 8ºC k k k Load Resistance [Ω] k k k Load Resistance [Ω] ver. - -
TYPICAL CHARACTERISTICS. Maximum Output Voltage vs. Load Resistance V CC + =V, R L to V CC - Maximum Output Voltage vs. Output Current V CC + /V CC - =±V Maximum Output Voltage [V]..... Ta=-4 C Ta=-4 C, ºC, 8ºC Maximum Output Voltage [V] - - Isource Isink Ta=-4 C Ta=-4 C k k k Load Resistance [Ω] - k Output Current [ma] Output Voltage vs. Output Sink Current V CC + =V, Ta=ºC Input Voltage Range vs. Supply Voltage Output Voltage [V]. Input Voltage [V] Negative Positive. k k k Output Sink Current[µA] ± ± ± Supply VoltageV CC + /V CC - [V]. Supply Current vs. Supply Voltage G V =db. Supply Current vs. Temperature G V =db Supply Current [ma]..... Ta=ºC Ta=8ºC Ta=-4ºC Supply Current [ma]..... V CC + =V V CC + =V V CC + =V. 4 8 6 4 8 Supply Voltage V CC + [V]. - - 7 Ambient Temperature [ C] - 6 - ver.
TYPICAL CHARACTERISTICS Input Offset Voltage vs. Supply Voltage V CM =V CC + / Input Offset Voltage vs. Temperature V CM =V CC + / - - Ta=-4 C - - V CC + =V V CC + =V V CC + =V - 4 8 6 4 8 Supply Voltage V CC + [V] - - - 7 Ambient Temperature [ C] Input Offset Voltage vs. Common-Mode Input Voltage V CC + =V Input Offset Voltage vs. Common-Mode Input Voltage V CC + =V - Ta=-4 C - Ta=-4 C - - Common-Mode Input Voltage [V] - - 4 Common-Mode Input Voltage [V] Input Offset Voltage vs. Common-Mode Input Voltage V CC + =V Input Bias Current vs. Temperature V CM =V CC + / - Ta=-4 C Input Bias Current [na] 4 V CC + =V V CC + =V V CC + =V - -. -....... Common-Mode Input Voltage [V] - - 7 Ambient Temperature [ºC] ver. - 7 -
TYPICAL CHARACTERISTICS 6 Voltage Gain vs. Supply Voltage Ta= C 4 Large Signal Voltage Gain vs. Temperature V CC + =V, R L =kω, V O =V to V Voltage Gain [db] 4 8 6 4 R L =kω R L =kω Large Signal Voltage Gain [db] 9 8 7 4 8 6 4 8 Supply Voltage V CC + [V] 6 - - 7 Ambient Temperature [ C] 4 CMR vs. Frequency V CC + /V CC - =±7.V, 4 Large Signal Voltage Gain vs. Frequency V CC + =V Common-Mode Rejection Ratio [db] 8 6 4 Large Signal Voltage Gain [db] 8 6 4 k k k M Frequency [Hz]. k k k M Frequency [Hz] - 8 - ver.
PACKAGE OUTLINE UNIT : mm 8.7±..9±. 6.±.4 UNIT: mm.7. -. +..±. TOTAL.4±.. M. S +. -.. S.8 +.47 -.4 ~ [CAUTION] The specifications on this data book are only given for information, without any guarantee as regards either mistakes or omissions. The application circuits in this data book 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. - 9 -