Quad ground sense operational amplifier BAA / BAAF / BAAFV The BAA, BAAF, and BAAFV are monolithic ICs with four built-in operational amplifiers featuring internal phase compensation. Either a dual or single power supply can be driven, and these products can be driven by a digital system V single power supply. These products can be used in a wide range of administrative and industrial applications, including transducer amplifiers and DC amplifiers. Applications Ground sensing type pre-amplifiers Active filters DC amplifiers Pulse generators. Features ) Wide range of operating power supply voltages and single power supply drive enabled. (single power supply: to V, dual power supply: ±. to ± 6V) ) Common-mode input voltage can be operated from the ground level. ) Differential input voltage can be operated up to the power supply voltage level. ) Low current dissipation. (IQ =.6mA) ) Low offset voltage and offset current. (VIO = mv, IIO = na typ.) 6) Four operational amplifiers with phase compensation are built into the DIP / SOP Pin. ) Compatible with model operational amplifiers of other manufacturers. Block diagram BAA / BAAF / BAAFV OUT OUT IN IN IN IN IN IN OUT 6 9 8 IN IN OUT
BAA / BAAF / BAAFV Internal circuit configuration IN IN OUT Absolute maximum ratings (Ta = C) Limits Parameter Symbol BAA BAAF BAAFV Unit Power supply voltage ( ± 6) ( ± 6) ( ± 6) V Power dissipation Pd 9 mw Differential input voltage VID ± ± ± V Common-mode input voltage VI. ~. ~. ~ V Operating temperature Topr ~ 8 ~ 8 ~ 8 C Storage temperature Tstg ~ ~ ~ C Refer to the Pd characteristics diagram. The values for the are those when BAAF / BAAFV it is mounted on a glass epoxy board (mm mm.6mm).
BAA / BAAF / BAAFV Electrical characteristics (unless otherwise noted, Ta = C, = V) Parameter Symbol Min. Typ. Max. Unit Conditions Input offset voltage VIO mv RS = Ω Input offset current IIO na Input bias current Ib na Common-mode input voltage VICM. V Common-mode rejection ratio CMRR 6 db High-amplitude voltage gain AVOI 8 db RL kω, = V Power supply voltage rejection ratio PSRR 6 db RS = Ω Quiescent current IQ.6. ma RL =, on All Op - Amps Maximum output voltage VOH. V RL = kω VOL. V RL = Maximum Source IOH ma VO = output current Sink IOL ma VO = Channel separation CS db Because the first stage is configured with a PNP transistor, input bias current is from the IC. f = khz input conversion Electrical characteristic curves. POWER DISSIPATION: Pd (mw) BAA 8 6 BAAF BAAFV SUPPLY CURRENT: IQ (ma)... A IQ OPEN LOOP VOLTAGE GAIN: AV (db) 8 6.µF VIN ~ M VO 8 k k k M M AMBIENT TEMPERATURE: Ta ( C) POWER SUPPLY VOLTAGE: V (V) FREQUENCY: f (Hz) Fig. Power dissipation vs. ambient temperature Fig. Quiescent current vs. power supply voltage Fig. Open loop voltage gain vs. frequency
BAA / BAAF / BAAFV MAXIMUM OUTPUT VOLTAGE: VOM (V) k V k VIN ~ V VO k k k k M INPUT BIAS CURRET: IB (na) 6 8 INPUT BIAS CURRENT: IB (na) FREQUENCY: f (Hz) AMBIENT TEMPERATURE: Ta ( C) POWER SUPPLY VOLTAGE: V (V) Fig. Maximum output voltage vs. frequency Fig. Input bias current vs. ambient temperature Fig.6 Input bias current vs. power supply voltage OUTPUT VOLTAGE REFERENCED TO V : V (V).... OUTPUT SOURCE CURRENT (ma) Fig. Potential difference during power supply output vs. output source current OUTPUT VOLTAGE: VO (V)....... OUTPUT SINK CURRENT: IO (ma) Fig.8 Output voltage vs. output sink current INPUT VOLTAGE OUTPUT VOLTAGE VIN (V) VOUT (V) RL kω = V 6 8 TIME (µs) Fig.9 Output response characteristics Operation notes () Unused circuit connections If there are any circuits which are not being used, we recommend making connections as shown in Figure, with the non-inverted input pin connected to the potential within the in-phase input voltage range (VICM). To potential in VICM Fig. Unused circuit connections
BAA / BAAF / BAAFV External dimensions (Units: mm) BAA BAAF. ±.. ±..Min. 9. ±. 8 6. ±... ±..6 ~. ±. 6. ±.. ±.. ±.. 8. ±.. 8. ±..Min.. ±.. DIP SOP BAAFV. ±. 8 6. ±.. ±... ±..6. ±..Min.. ±.. SSOP-B