Audio-Technica
Audio-Technica Interchangeable Mic Capsule|Cardioid condenser microphone capsule for use with ATW-T3202, ATW-T5202 and ATW-T6002xS handheld transmitters
- SKU:
- ATW-C5400
- UPC:
- 4961310141776
- Availability:
- Ships based on supplier availability.
Description
Audio-Technica ATW-C5400 Interchangeable Cardioid Condenser Microphone Capsule for ATW-T3202 Handheld Transmitter
Product Description
The Audio-Technica ATW-C5400 is a premium interchangeable cardioid condenser microphone capsule designed for use with the ATW-T3202 handheld transmitter. Engineered to deliver studio-quality vocal performance in live sound environments, it features a large-diaphragm condenser element that provides exceptional clarity, natural sound reproduction, and detailed high-frequency response. The capsule is equivalent in performance to the renowned Audio-Technica AE5400 microphone and is ideal for professional vocal applications, presentations, broadcast, and live performances.
Features
- Interchangeable cardioid condenser microphone capsule
- Compatible with Audio-Technica ATW-T3202 handheld transmitter
- Also compatible with selected Audio-Technica handheld transmitters using the industry-standard thread mount
- Large-diaphragm condenser element for studio-quality sound
- Cardioid polar pattern minimizes off-axis noise and helps control feedback
- Natural, accurate vocal reproduction with excellent detail and clarity
- Wide frequency response for full-range audio performance
- High maximum SPL handling for demanding live applications
- Multi-stage grille design reduces plosives and sibilance without affecting clarity
- Equivalent sound performance to the Audio-Technica AE5400 handheld microphone
- Inspired by the sonic characteristics of the acclaimed AT4050 studio microphone
- Rugged construction suitable for professional touring and stage use
- Ideal for live vocals, speech, broadcast, and studio-quality wireless applications
- Industry-standard threaded mount for expanded transmitter compatibility
- Smooth and realistic high-frequency response