| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
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NXP Semiconductors |
IC AMP CLASS AB STER 60W 20HSOP |
0 |
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NXP Semiconductors |
IC AMP CLASS AB STEREO 7W DBS17P |
0 |
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NXP Semiconductors |
IC AMPLIFIER CLASS D 100HLQFP |
0 |
|
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NXP Semiconductors |
IC AMP CLASS D QUAD 100W 44HSOP |
0 |
|
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NXP Semiconductors |
IC AMP CLASS B QUAD 26W DBS17P |
0 |
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NXP Semiconductors |
IC AMP CLASS B QUAD 22W 13PDBS |
0 |
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NXP Semiconductors |
IC AMP CLSS B MONO/STER 12W 9SIL |
0 |
|
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NXP Semiconductors |
IC AMP D MONO/STEREO 85W 36HSOP |
0 |
|
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NXP Semiconductors |
IC AMP CLASS AB QUAD 64W 36HSOP |
0 |
|
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NXP Semiconductors |
IC AMP D MONO/STER 55W 32HTSSOP |
0 |
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NXP Semiconductors |
IC AMP CLASS AB MONO 3W 8HVSON |
0 |
|
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NXP Semiconductors |
IC AMP CLASS AB STEREO 14W 9PDBS |
0 |
|
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NXP Semiconductors |
IC AMP D MONO/STEREO 140W 24HSOP |
0 |
|
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NXP Semiconductors |
IC AMP CLASS B STEREO 6W 9SIL |
0 |
|
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NXP Semiconductors |
IC AMP CLASS B QUAD 35W DBS23P |
0 |
|
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NXP Semiconductors |
IC AMP CLASS AB MONO 1.2W 8SO |
0 |
|
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NXP Semiconductors |
IC AMP CLASS AB STEREO 80MW 8SO |
0 |
|
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NXP Semiconductors |
IC AMP CLASS AB STER 1.4W 20SSOP |
0 |
|
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NXP Semiconductors |
IC AMP CLASS AB MONO 1.4W 8SO |
0 |
|
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NXP Semiconductors |
IC AMP D MONO/STEREO 160W 24HSOP |
0 |
|
Linear audio amplifiers are electronic devices designed to amplify low-level audio signals while maintaining signal integrity and minimizing distortion. They operate in the linear region of transistor characteristics, ensuring high-fidelity sound reproduction. These amplifiers are critical in audio systems for applications ranging from consumer electronics to professional audio equipment, enabling clear sound amplification in devices such as smartphones, home theaters, and musical instruments.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| Class AB Amplifiers | Combines efficiency of Class B with low distortion of Class A | Home audio systems, guitar amplifiers |
| Class D Amplifiers | Switching amplifiers with high power efficiency (typically >90%) | Portable speakers, automotive audio systems |
| Class G/H Amplifiers | Uses multiple power rails to improve efficiency | Professional audio mixers, high-power amplifiers |
| Class A Amplifiers | Full-cycle conduction with minimal distortion | High-end audiophile equipment, preamplifiers |
Typical linear audio amplifiers consist of: - Input Stage: Differential amplifier for signal reception - Gain Stage: Voltage amplification using transistors or op-amps - Output Stage: Push-pull configuration for power delivery - Power Supply: Symmetrical voltage rails ( Vcc) - Thermal Management: Heat sinks or thermal pads for power dissipation Packaged in DIP, SOIC, or surface-mount (SMT) formats with 8-14 pins.
| Parameter | Description | Importance |
|---|---|---|
| Gain Bandwidth Product (GBW) | Product of amplifier gain and operational bandwidth | Determines frequency response capability |
| Total Harmonic Distortion + Noise (THD+N) | Measure of signal distortion and noise | Indicates audio quality (typically <0.1%) |
| Output Power | Maximum power delivered to load (Watts) | Defines application suitability (e.g., 2x15W for stereo) |
| Power Supply Rejection Ratio (PSRR) | Ability to reject power supply noise | Impacts noise immunity (typically >60dB) |
| Quiescent Current | Current consumption at no-load condition | Affects power efficiency and thermal design |
| Manufacturer | Representative Product | Key Specifications |
|---|---|---|
| TI (Texas Instruments) | TPA3255 | 2x75W Class D amplifier, 102dB PSRR |
| STMicroelectronics | TDA7294 | 100W Hi-Fi amplifier, DMOS output stage |
| Analog Devices | AD822 | Low noise JFET input amplifier |
| NXP Semiconductors | TDA1541A | 192kHz DAC with integrated headphone amplifier |
Key considerations for selection: 1. Application Requirements: Output power, frequency range, and load impedance 2. Power Supply Constraints: Available voltage/current capacity 3. Thermal Management: Operating temperature range and cooling methods 4. Form Factor: Package size for PCB integration 5. Cost vs. Performance: Balancing THD+N, efficiency, and budget
Future developments include: - Increased integration with digital signal processing (DSP) - Adoption of GaN (Gallium Nitride) technology for higher efficiency - Development of AI-powered noise cancellation algorithms - Miniaturization through 3D packaging techniques - Enhanced Class D amplifier designs with reduced electromagnetic interference (EMI)