Motorola 167.9 Cycles Vibrasponder

Motorola 167.9 Cycles Vibrasponder

The Motorola 167.9 Cycles Vibrasponder is a precision-engineered electromechanical reed relay designed for selective signaling applications in radio communication systems. Operating at a frequency of 167.9 Hz, this Vibrasponder ensures accurate and reliable signal decoding, making it an essential component for systems requiring specific tone-based activation.

Key Features

• Frequency Specificity: Tuned precisely to 167.9 Hz, allowing for targeted signal reception and minimizing interference from adjacent frequencies.
• Electromechanical Design: Utilizes a reed relay mechanism that vibrates in response to its designated frequency, ensuring consistent performance in various operating conditions.
• Durability: Constructed with high-quality materials to withstand the rigors of continuous operation in both mobile and stationary radio equipment.
• Compatibility: Designed to integrate seamlessly with Motorola’s range of communication devices, including the Motrac series and other legacy systems.

Applications

The 167.9 Cycles Vibrasponder is ideal for use in:

• Selective Paging Systems: Enables individual or group call signaling without disturbing other users on the same network.
• Emergency Alert Systems: Facilitates prompt and reliable activation of emergency protocols through specific tone recognition.
• Industrial Communication Networks: Supports efficient and organized communication in environments such as manufacturing plants, hospitals, and large facilities.

Installation and Maintenance

For optimal performance, the Vibrasponder should be installed by qualified technicians familiar with Motorola’s equipment. Regular maintenance checks are recommended to ensure the device remains in peak operating condition, including periodic testing of the reed relay’s responsiveness and inspecting for any signs of wear or damage.

Incorporating the Motorola 167.9 Cycles Vibrasponder into your communication system enhances operational efficiency by providing precise and dependable selective signaling capabilities.