Technical specifications indicate that the INSMY Clip-On functions as a localized audio end-node, utilizing a 5W mono driver architecture. Material analysis confirms the chassis is constructed from a sonically welded polymer with a reinforced silicone thermoplastic elastomer interface for mechanical attachment. The hardware implements a standard A2DP Bluetooth 5.0 profile, facilitating integration with Bluetooth proxies or local transmitters while maintaining a design devoid of cloud-based firmware dependencies.
Aggregated data from hardware audits identifies an internal configuration consisting of a primary driver paired with a passive radiator to manage low-frequency output within the constrained acoustic chamber. Structural integrity is maintained via IPX7-compliant sealing, which standardized testing protocols show permits functional operation during temporary submersion, provided the USB-C charging interface remains mechanically sealed.
- Operating Modes: Bluetooth Wireless, USB-C Charging.
- Environmental Resistance: IPX7 Liquid Ingress Protection.
- Connectivity Standard: Bluetooth 5.0.
Performance metrics demonstrate a significant frequency roll-off below 100Hz, a characteristic inherent to the compact mono-driver design. Documentation further indicates that the energy storage system utilizes a non-serviceable battery cell, with a calculated hardware lifecycle of approximately 36 months under standard operational conditions.
The EWA A106 Pro provides an alternative hardware configuration for users requiring a high-density metallic chassis for improved resonance in an even smaller footprint. Such devices are frequently categorized within the acoustic array repository for compact budget speakers to evaluate localized audio performance standards.
