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SOIC (D)
Integrated Circuits (ICs)

OPA1604AID

Active
Texas Instruments

QUAD, SOUNDPLUS HIGH-PERFORMANCE, BIPOLAR-INPUT AUDIO OP AMP

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Search across all available documentation for this part.

DocumentsUnderstanding Op Amp Noise in Audio CircuitsCompensate Transimpedance Amplifiers Intuitively (Rev. A)+2
SOIC (D)
Integrated Circuits (ICs)

OPA1604AID

Active
Texas Instruments

QUAD, SOUNDPLUS HIGH-PERFORMANCE, BIPOLAR-INPUT AUDIO OP AMP

Deep-Dive with AI

DocumentsUnderstanding Op Amp Noise in Audio CircuitsCompensate Transimpedance Amplifiers Intuitively (Rev. A)+2

Technical Specifications

Parameters and characteristics for this part

SpecificationOPA1604AID
Amplifier TypeAudio
Current - Input Bias20 nA
Current - Output / Channel30 mA
Current - Supply2.6 mA
Gain Bandwidth Product35 MHz
Mounting TypeSurface Mount
Number of Circuits4
Operating Temperature [Max]85 °C
Operating Temperature [Min]-40 °C
Output TypeRail-to-Rail
Package / Case14-SOIC
Package / Case [x]0.154 in
Package / Case [y]3.9 mm
Slew Rate20 V/çs
Voltage - Input Offset100 çV
Voltage - Supply Span (Max) [Max]36 V
Voltage - Supply Span (Min) [Min]4.5 V

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

DistributorPackageQuantity$
DigikeyTube 1$ 6.06
10$ 5.45
50$ 5.15
100$ 4.46
250$ 4.23
500$ 3.80
1000$ 3.20
2500$ 3.04
Texas InstrumentsTUBE 1$ 4.12
100$ 3.61
250$ 2.53
1000$ 2.04

Description

General part information

OPA1604 Series

The OPA1602 and OPA1604 bipolar-input operational amplifiers achieve very low 2.5nV/√Hznoise density with an ultralow distortion of 0.00003% at 1kHz. The OPA1602 and OPA1604 series of op amps offer rail-to-rail output swing to within 600mV with 2kΩ load, which increases headroom and maximizes dynamic range. These devices also have a high output drive capability of ±30mA.

These devices operate over a very wide supply range of ±2.25V to ±18V, on only 2.6mA of supply current per channel. The OPA1602 and OPA1604 are unity-gain stable and provide excellent dynamic behavior over a wide range of load conditions.

These devices also feature completely independent circuitry for lowest crosstalk and freedom from interactions between channels, even when overdriven or overloaded.