Description
The TL074CN is a high-performance Quad JFET-input operational amplifier. It is widely regarded as the “pro-audio” sibling of the TL084. While the pinout and basic architecture are the same as the TL084, the TL074 is specifically optimized for applications requiring lower noise and lower harmonic distortion.
Key Specifications
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Number of Op-Amps: 4 (Quad)
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Input Stage: JFET (Very high input impedance: $10^{12} \Omega$ typical)
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Slew Rate: 13 V/µs (Fast response)
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Noise: Very low ($18 \ \text{nV}/\sqrt{\text{Hz}}$ at 1 kHz)
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Total Harmonic Distortion (THD): Very low (0.003% typical)
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Package Type: DIP-14
Pinout Configuration (DIP-14)
The TL074CN shares the standard quad-op-amp layout:
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Output 1
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Inverting Input 1
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Non-Inverting Input 1
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VCC+
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Non-Inverting Input 2
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Inverting Input 2
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Output 2
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Output 3
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Inverting Input 3
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Non-Inverting Input 3
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VCC-
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Non-Inverting Input 4
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Inverting Input 4
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Output 4
TL074 vs. TL084: What’s the Difference?
They look identical and are pin-compatible, but the internal silicon is tuned differently.
| Feature | TL074 | TL084 |
| Noise Level | Low (Audio Grade) | Medium |
| THD | Ultra-Low | Low |
| Primary Use | Audio/Precision Signal | General Industrial |
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Selection Insight: If you are building an audio circuit (mixers, preamps, equalizers) or a high-precision sensor interface, choose the TL074. If you are doing general-purpose control or building a circuit where noise is not a critical factor, the cheaper TL084 is perfectly sufficient.
Common Applications
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Audio Mixing Consoles: Excellent for summing stages and active buffers where signal purity is paramount.
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Active Equalizers & Crossovers: Ideal for filtering because it doesn’t introduce audible coloration or hiss.
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Instrumentation Buffers: Used to interface high-impedance sensors (like microphones or ceramic pickups) to low-impedance signal processing stages.
Usage Best Practices
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Power Supply: Like its counterparts, this is a dual-supply IC. Ensure you provide a clean, symmetrical power source (e.g., $\pm 15\text{V}$) for best noise performance.
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Input Protection: While JFETs are robust, they are sensitive to voltage transients. If your input signal might spike above the supply rails, add series resistors or clamping diodes.
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Decoupling: Because this is a high-bandwidth, low-noise part, any noise on the power rails will likely end up in your audio signal. Use a $0.1\mu\text{F}$ ceramic capacitor plus a $10\mu\text{F}$ electrolytic capacitor on both the positive and negative supply pins to ensure the rails are rock-solid.
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Loading: Like most op-amps, keep the output load resistive and avoid driving capacitive loads directly to prevent high-frequency peaking or oscillation.

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