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MC33079

Part Number	MC33079
Manufacturer	ST Microelectronics
Description	LOW NOISE QUAD OPERATIONAL AMPLIFIERS
Published	Apr 20, 2007
Detailed Description	MC33079 Low noise quad operational amplifier Features ■ Low voltage noise: 4.5 nV/√Hz ■ High gain bandwidth product: 1...
Datasheet	MC33079 PDF File

Overview

MC33079 Low noise quad operational amplifier Features ■ Low voltage noise: 4.
5 nV/√Hz ■ High gain bandwidth product: 15 MHz ■ High slew rate: 7 V/µs ■ Low distortion: 0.
002% ■ Large output voltage swing: +14.
3 V/-14.
6 V ■ Excellent frequency stability ■ ESD protection 2 kV Description The MC33079 device is a monolithic quad operational amplifier particularly well suited for audio applications.
It offers low voltage noise (4.
5 nV/√Hz) and high frequency performance (15 MHz gain bandwidth product, 7 V/µs slew rate).
In addition the MC33079 device has a very low distortion (0.
002%) and excellent phase/gain margins.
The output stage allows a large output voltage swing and symmetrical source and sink currents.
Datasheet −production data DIP14 (plastic package) SO-14 (plastic micropackage) Pin connections (top view) November 2012 This is information on a product in full production.
Doc ID 4468 Rev 5 1/11 www.
st.
com 11 Schematic diagram (1/4 MC33079) 1 Schematic diagram (1/4 MC33079) Figure 1.
Schematic diagram (1/4 MC33079) MC33079 2/11 Doc ID 4468 Rev 5 MC33079 Absolute maximum ratings and operating conditions 2 Absolute maximum ratings and operating conditions Table 1.
Absolute maximum ratings (AMR) Symbol Parameter Value Unit VCC Supply voltage Vid Differential input voltage(1) Vi Input voltage(1) Output short-circuit duration ±18 or +36 ±30 ±15 Infinite V V V s Tj Tstg Rthja Rthjc ESD Junction temperature Storage temperature Thermal resistance junction-to-ambient(2), (3) DIP14 SO-14 Thermal resistance junction-to-case(2), (3) DIP14 SO-14 HBM: human body model(4) MM: machine model(5) CDM: charged device model(6) +150 -65 to +150 °C °C 80 °C/W 105 33 °C/W 31 2 kV 200 V 1.
5 kV 1.
Either or both input voltages must not exceed the magnitude of VCC+ or VCC-.
2.
Short-circuits can cause excessive heating.
Destructive dissipation can result from simultaneous short-circuits on all amplifiers.
3.
Rth are typical values.
4.
Human body model: 100 pF d...

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