The Paradox DG75+-P2C is a high-security digital PIR motion detector designed to deliver sophisticated intrusion detection with built-in pet immunity. Combining advanced dual-element sensing and digital signal processing, it provides reliable motion detection while reducing false alarms caused by pets — making it ideal for residential and commercial environments where both security and everyday activity must be balanced.
🔑 Key Features
High-security digital motion detection with dual-element PIR sensor technology
Pet immunity tuning to reduce false alarms from animals up to a defined weight threshold
Digital signal processing for enhanced environmental noise rejection and stability
Compatible with Paradox EVO-BUS panels or conventional relay inputs
Built-in tamper detection to alert against unauthorized interference
🛠 Technical Specifications
Model: DG75+-P2C
Detection Type: Dual-element passive infrared (PIR) with digital signal processing
Pet Immunity: Designed to ignore minor motion from pets (model-specific weight/size threshold)
Voltage / Power: Powered by compatible Paradox alarm panel (EVO-BUS or relay input)
Connections: EVO-BUS interface or conventional zone input
Output: Motion alarm and tamper signals to control panel
Dimensions: Standard motion detector housing
Material / Finish: Durable plastic enclosure, white finish
Mounting Style: Wall mount for optimal coverage
Environment: Indoor use
🎯 Best Used For
Ideal for homes, apartments, and small businesses with pets, where reliable intrusion detection is needed but false alarms from pet movement must be minimised.
✅ Complementary Products (Same Brand)
Paradox EVO series control panels (e.g., EVO 48, EVO 192) for unified system control
Paradox door/window contacts for perimeter monitoring
Paradox glass break detectors for enhanced break-in detection
Paradox sirens and communicators for audible alerts and system notifications
The Paradox DG75+-P2C combines high-security motion sensing with pet-avoiding intelligence, making it a dependable choice for pet-friendly environments without sacrificing security performance.
