DSPPA CM10 – Dingdong Desktop Microphone with 2 Chimes, Built-in Chime & Adjustable Chime Volume
Overview:
• The DSPPA CM10 is a desktop microphone designed for public address, paging, and announcement systems.
• Features built-in Dingdong chime with 2 chimes, making it suitable for professional pre-announcement alerts.
• Supports adjustable chime volume to match different installation environments.
• Easy to use and suitable for different occasions such as reception desks, control rooms, schools, offices, and commercial buildings.
• Includes output voltage selection for flexible connection with compatible PA system equipment.
• Supports turning the chime function on or off according to system requirements.
Key Features:
• Dingdong Desktop Microphone
• Built-in Chime Function
• 2 Chimes Support
• Adjustable Chime Volume
• Easy Operation
• Output Voltage Selectable
• Chime On/Off Function
• Suitable for Public Address and Paging Systems
• Desktop Design for Professional Use
• Ideal for Announcements and Call Points
Technical Specifications:
• Product Type: Desktop Microphone
• Brand: DSPPA
• Model: CM10
• Microphone Type: Dingdong Desktop Microphone
• Chime Function: Built-in Chime
• Number of Chimes: 2 Chimes
• Chime Volume: Adjustable
• Output Voltage: Selectable
• Chime Control: On / Off Function
• Installation Type: Desktop
• Application: Public Address / Paging / Announcement / Commercial Audio Systems
Applications:
• Public Address Systems
• Paging Systems
• Reception Desks
• Security Rooms
• Control Rooms
• Schools
• Offices
• Hotels
• Shopping Centers
• Commercial Buildings
• Announcement Points
Connect Gates Recommendation:
• Recommended for PA projects that require a professional desktop paging microphone with a pre-announcement chime.
• Suitable for reception desks, security rooms, and control points where operators need quick and clear announcement control.
• For commercial sound systems, Connect Gates recommends using the CM10 with a compatible DSPPA amplifier or PA controller to ensure proper chime and output voltage integration.