The Swann Add-On DVR Bullet Security Camera System with Sensor Spotlight is a comprehensive surveillance solution designed to enhance the security of your property. This system consists of high-quality bullet-style security cameras equipped with sensor spotlights, which offer advanced monitoring capabilities both during the day and night.
the Swann Add-On DVR Bullet Security Camera System with Sensor Spotlight offers reliable and advanced surveillance capabilities. The combination of high-resolution video, infrared night vision, and the motion-activated sensor spotlight ensures enhanced security and peace of mind for homeowners or business owners looking to protect their property from potential threats.
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About this item
- 4K UHD DVR CCTV SECURITY CAMERA SYSTEM WITH ACTIVE DETERRENCE: Protect your home or business with this Coax cable system; 4x the clarity of 1080p; Spotlights deter intruders; Provides color night vision up to 32ft or black & white up to 130ft
- WIDE VIEWING ANGLE: This camera has a wide 90-degree field of view to cover broad areas around your home or business so that you can have fewer cameras on your property; this helps bring down the cost of home security
- RELIABLE WEATHERPROOF DESIGN AND WIRED PROTECTION FOR DIY INSTALLATION: Each outdoor security camera is tested to withstand any weather; Speak to see via Hey Google & Alexa
- 1 YEAR LIMITED WARRANTY: Swann provides protection against factory defects and technical support; If you experience any challenges with our products, reach out to our customer service and we will replace the item ASAP within one year of purchase
High-resolution video refers to video footage that has a higher pixel count, resulting in clearer and more detailed images compared to lower-resolution video. In the context of surveillance cameras, high-resolution video is crucial for capturing fine details, identifying faces, license plates, or other important visual information that might be necessary for investigative purposes or enhancing overall security.
Common resolutions for high-resolution video in security cameras include:
720p (1280 x 720 pixels): This is considered a basic high-definition resolution, providing a significant improvement over standard definition (SD) video.
1080p (1920 x 1080 pixels): Also known as Full HD, this resolution offers even greater clarity and detail than 720p, and it is widely used in modern surveillance systems.
2K (2560 x 1440 pixels): This resolution is a step above 1080p and provides an even higher level of image quality and detail.
4K (3840 x 2160 pixels): Often referred to as Ultra HD or UHD, 4K resolution is the highest common resolution used in security cameras. It delivers exceptional clarity, allowing for significant digital zooming while maintaining image quality.
The choice of resolution depends on the specific surveillance needs and budget considerations. For critical applications where capturing fine details is essential, such as in law enforcement, commercial security, or large-scale facilities, higher resolutions like 2K or 4K are preferred. In contrast, for general home security or smaller areas, 1080p resolution may suffice.
Keep in mind that higher-resolution video requires more storage space and higher processing power, so it’s essential to consider the capabilities of the DVR/NVR (Digital Video Recorder/Network Video Recorder) and the available storage options when selecting a high-resolution surveillance camera system.
Swann’s vision is to be the world leader in smart security solutions, taking care of people and making every home and business a safe place. Home and business needs, and technology, continue to evolve but Swann’s commitment is to always deliver security made smarter.
Infrared Night Vision
Infrared (IR) night vision is a technology used in many modern surveillance cameras to enable them to capture clear images in low-light or complete darkness. Unlike visible light, which the human eye can see, infrared light falls outside the visible spectrum. Infrared night vision cameras use infrared LEDs (Light Emitting Diodes) to illuminate the area with infrared light, allowing the camera to see and record images without emitting any visible light.
Here’s how infrared night vision works in surveillance cameras:
Infrared LEDs: The camera is equipped with infrared LEDs around the lens or integrated into the camera housing. These LEDs emit infrared light when the camera’s infrared mode is activated.
Infrared Cut Filter (ICF): During the daytime or in well-lit conditions, the camera’s infrared cut filter is engaged. The ICF blocks infrared light and allows only visible light to pass through, providing accurate color representation in the recorded footage.
Low-Light Conditions: As the ambient light decreases, such as during dusk or nighttime, the camera’s sensor detects the lower light levels.
Infrared Mode Activation: When the camera detects low-light conditions, it automatically switches to infrared mode. The infrared cut filter moves out of the way, and the camera starts capturing images using the infrared light from the LEDs.
Illumination in Infrared: Infrared light is invisible to the human eye, but the camera’s sensor can detect it. The infrared LEDs emit light that bounces off objects and back to the camera’s sensor, allowing it to create a monochromatic image.
Night Vision Footage: The camera records black and white (monochromatic) footage using the reflected infrared light, providing visibility in low-light or pitch-black conditions.
Infrared night vision is particularly useful for surveillance purposes because it enables cameras to continue monitoring and recording even in situations where traditional visible-light cameras would struggle. It is commonly used in outdoor security cameras to cover areas with limited or no external lighting during nighttime. Infrared night vision is also beneficial in indoor settings with minimal lighting, such as storage rooms or dark hallways.
Keep in mind that the effectiveness of infrared night vision can vary depending on the camera’s specifications and the distance of the objects from the camera. For longer distances or more comprehensive coverage, some cameras may offer more powerful infrared LEDs or additional features like Smart IR, which automatically adjusts the intensity of the infrared illumination based on the proximity of objects to the camera lens.
Infrared Night Vision
Infrared night vision is a technology commonly used in surveillance cameras, optical devices, and other imaging equipment to enable them to see and record in low-light or dark environments. It works based on the principle of utilizing infrared light, which falls outside the spectrum of visible light, to capture images or videos in situations where traditional visible-light cameras would be ineffective.
Here’s how infrared night vision typically functions in various devices:
Infrared Light Source: The device is equipped with one or more infrared light sources, often in the form of infrared LEDs (Light Emitting Diodes) or infrared illuminators. These light sources emit infrared light, which is not visible to the human eye but can be detected by the device’s sensor.
Infrared-Capable Sensor: The device’s sensor, whether it’s a CCD (Charge-Coupled Device) or a CMOS (Complementary Metal-Oxide-Semiconductor) sensor, is designed to detect both visible and infrared light. Infrared-capable sensors have sensitivity to the infrared spectrum, allowing them to capture images even in low-light or dark conditions.
Illumination in Infrared: When the ambient light level drops, such as during nighttime or in a dimly lit environment, the infrared light sources are activated. The infrared light emitted illuminates the scene, but since it falls outside the visible spectrum, it doesn’t produce any visible glow or glare.
Infrared Imaging: As the infrared light reflects off objects in the scene, it enters the camera’s lens and is detected by the infrared-capable sensor. The sensor converts this infrared information into an electronic signal, creating a monochromatic image or video.
Monochromatic Output: The resulting images or videos captured using infrared night vision are typically displayed in shades of black and white, sometimes with a grayscale gradient. This is because the device is capturing the differences in infrared reflection from various objects, rather than color information.
Infrared night vision is extensively used in various applications, including:
Surveillance Cameras: Infrared night vision is commonly found in security cameras for both indoor and outdoor use. It allows these cameras to monitor and record activities during nighttime or in areas with limited lighting.
Night Vision Goggles and Binoculars: Military, law enforcement, and outdoor enthusiasts often use night vision goggles and binoculars with infrared technology to see in the dark without the need for visible light sources.
Thermal Imaging Cameras: Some advanced infrared cameras are equipped with thermal imaging capabilities, allowing them to detect and visualize heat signatures rather than relying solely on reflected infrared light.
Overall, infrared night vision is a valuable technology that enhances visibility and security in low-light conditions, making it an indispensable tool in various fields and applications.
Weatherproof design refers to the ability of a product or equipment to withstand exposure to various weather conditions without being damaged or compromised in functionality. In the context of security cameras and outdoor electronic devices, a weatherproof design is crucial to ensure reliable operation and longevity, especially when the equipment is installed in open or exposed locations.
Here are some key features and considerations of a weatherproof design in security cameras or outdoor devices:
Enclosure and Sealing: The camera or device is housed in a sturdy and durable enclosure, usually made of materials like metal or high-quality plastic. The enclosure is designed to protect the internal components from rain, dust, humidity, and other environmental elements. Weatherproof enclosures often have rubber gaskets and seals to prevent water or debris from entering the device.
Ingress Protection (IP) Rating: Weatherproof devices are assigned an IP rating, which consists of two digits. The first digit represents the level of protection against solid particles, such as dust, and the second digit represents the level of protection against moisture, including water. The higher the IP rating, the better the device’s resistance to environmental elements. For example, an IP65-rated device is dust-tight and protected against water jets, while an IP68-rated device is dust-tight and can withstand immersion in water.
Temperature Tolerance: A weatherproof design ensures that the device can operate within a wide range of temperatures, from extreme cold to hot climates. This tolerance is essential to prevent overheating or malfunctioning of the device under varying weather conditions.
Sunshield or Anti-Glare Features: Outdoor security cameras often come with sunshields or anti-glare features to protect the camera lens from direct sunlight. These features help prevent image distortion and maintain clear video quality even in bright sunlight.
Ventilation: Weatherproof devices need to balance protection with proper ventilation. Ventilation mechanisms, such as breathable vents or heat sinks, help dissipate heat generated by the device during operation, preventing overheating and potential damage to internal components.
Cable Management: Weatherproof designs often include secure cable management systems to protect power and data cables from exposure to the elements. Properly designed cable management prevents water ingress through cable entry points.
Vandal Resistance: In some cases, weatherproof designs also incorporate features to make the device more resistant to tampering or vandalism. This can include impact-resistant materials and anti-tamper screws.
Weatherproof design is critical for outdoor security cameras, outdoor lighting fixtures, access control systems, and other electronic devices intended for outdoor use. By providing protection against water, dust, extreme temperatures, and other environmental factors, a weatherproof design ensures that these devices continue to function reliably in various outdoor settings, enhancing the overall security and durability of the equipment.
Identify Fine Details
See faces, tattoos and license plates with stunning image quality. 4K Ultra HD is 4 times the resolutions of 1080p Full HD.
Heat & motion activate the Sensor Warning Lights, helping you deter any potential intruders.
Get color video at night up with the Sensor Warning Lights up to 32ft (10m). See the colors of clothing, cars and more for enhanced evidence.
Protect the ones you love with a loud siren that can be triggered automatically when activity occurs or manually via the app.
Peace of Mind from Anywhere
See live or playback video on from anywhere in the world with the Swann Security app.
Enjoy hands-free security using voice commands. Stream video from your camera via the Google Assistant & Chromecast, Google Home Hub, or via Alexa devices with a screen, such as Echo Spot, Echo Show or 4K Fire TV.
Warm objects, like people and cars, trigger recording, push notifications & the sensor warning lights. It can also be set to record 24/7.
Warm objects, like people and cars, trigger recording, push notifications & the sensor warning lights. It can also be set to record 24/7.
Wide Viewing Angle
Wide viewing angle refers to the extent of the area that a camera can capture and cover within its field of view. In the context of surveillance cameras, a wide viewing angle means that the camera can monitor a broader area without the need for mechanical pan or tilt adjustments.
The viewing angle is typically measured horizontally and is represented in degrees. It indicates how much of the scene the camera can capture from one side to the other. The wider the viewing angle, the larger the area the camera can cover, and the fewer blind spots there are in the camera’s coverage.
There are two primary types of viewing angles:
Horizontal Viewing Angle: This angle measures the camera’s coverage from left to right along the horizontal plane. A wider horizontal viewing angle means the camera can capture more from side to side, providing greater coverage.
Diagonal Viewing Angle: The diagonal viewing angle represents the camera’s coverage diagonally from one corner of the image to the opposite corner. It provides a more comprehensive understanding of the camera’s total field of view.
The actual width of the viewing angle can vary depending on the camera’s lens focal length. Cameras with fixed lenses often have a predetermined viewing angle, while cameras with varifocal lenses may allow adjustments to achieve the desired coverage.
The advantages of a wide viewing angle in surveillance cameras include:
Reducing the number of cameras needed: With a wider viewing angle, a single camera can cover a larger area, reducing the number of cameras required to monitor the same space.
Enhanced situational awareness: A wide-angle view allows operators or users to observe more of the surroundings, enabling better situational awareness and potentially detecting more incidents or activities.
Fewer blind spots: A wide viewing angle minimizes blind spots in the camera’s coverage area, providing a more comprehensive view of the monitored space.
Wide viewing angle cameras are particularly useful in various applications, such as monitoring open areas, parking lots, retail stores, warehouses, and outdoor spaces. However, in certain scenarios where detailed observation is necessary (e.g., identifying faces or reading license plates), narrower viewing angles may be preferred to capture more detailed information from a smaller area.
Compatibility in the context of security cameras and surveillance systems refers to the ability of different components and devices to work together seamlessly. A high level of compatibility ensures that all the elements of a surveillance system, such as cameras, recorders, and software, can communicate effectively and function as intended.
Here are some key aspects of compatibility in a surveillance system:
Camera Compatibility: Different types of cameras may have varying specifications, such as resolution, video format, and communication protocols. It is essential to ensure that the cameras selected for the system are compatible with the recording and monitoring equipment. For example, IP cameras must be compatible with the Network Video Recorder (NVR) or Video Management System (VMS) used in the system.
Recording Device Compatibility: The recording device, whether it’s a Digital Video Recorder (DVR) or Network Video Recorder (NVR), should be compatible with the cameras being used. The recording device must support the video format and communication protocols used by the cameras to ensure proper recording and storage of footage.
Communication Protocols: Surveillance devices communicate using various protocols such as ONVIF (Open Network Video Interface Forum), RTSP (Real-Time Streaming Protocol), and others. Ensuring that cameras and recording devices support common communication protocols facilitates seamless integration and operation.
Power Requirements: Cameras and recording devices have specific power requirements, such as voltage and current. Compatibility in this context means that the power supply and connections are suitable for the devices to operate safely and efficiently.
Software Compatibility: Surveillance systems often include software applications for video management, remote access, and configuration. It is important to ensure that the software is compatible with the operating system of the computer or mobile device used for monitoring and management.
Network Compatibility: IP cameras and NVRs typically operate over computer networks. Ensuring network compatibility involves setting up the cameras and recording devices on the same network and ensuring proper network configurations.
Firmware Updates: Regular firmware updates may be necessary to improve performance, security, and compatibility between devices. Manufacturers often release firmware updates to address compatibility issues and add new features.
Ensuring compatibility in a surveillance system is crucial to avoid technical problems, data loss, or operational inefficiencies. It is essential to check the specifications and requirements of each component before building or expanding a surveillance system to ensure that all devices and software work together effectively. When purchasing equipment from the same manufacturer or within the same product line, compatibility is generally less of a concern, as the devices are designed to work seamlessly together.
Mobile App Integration
Mobile app integration in the context of security cameras and surveillance systems refers to the ability to access and control the cameras or the entire surveillance system using a dedicated mobile application on smartphones or tablets. This feature allows users to remotely monitor their property, view live video feeds, receive alerts, and manage camera settings, all from the convenience of their mobile devices.
Here are the key aspects and benefits of mobile app integration in surveillance systems:
Remote Monitoring: Mobile app integration enables users to access their cameras and view live video feeds from anywhere with an internet connection. This is particularly useful for homeowners or business owners who want to keep an eye on their property when they are away.
Real-Time Alerts: With mobile app integration, users can receive real-time push notifications or alerts on their mobile devices when the cameras detect motion, sound, or other predefined events. This immediate notification helps users respond quickly to potential security threats or emergencies.
Playback and Recording Access: Users can access recorded footage stored on the surveillance system’s DVR, NVR, or cloud storage through the mobile app. This allows users to review past events and incidents conveniently from their mobile devices.
Camera Control: Mobile apps often provide users with the ability to control certain camera functions remotely. This may include pan, tilt, zoom (PTZ) control for PTZ cameras, adjusting camera settings, or activating specific camera features.
User-Friendly Interface: Mobile apps are designed with user-friendly interfaces, making it easy for both tech-savvy users and beginners to navigate and utilize the surveillance system’s features on their mobile devices.
Multi-Device Support: Mobile apps are typically available for both iOS and Android devices, making them accessible to a wide range of users.
Enhanced Security: Reputable surveillance system mobile apps often include secure login and encryption features, ensuring that only authorized users can access the camera feeds and settings.
Flexibility and Convenience: Mobile app integration offers flexibility, allowing users to manage their surveillance system on the go. Users can monitor their property, check on family members, or keep an eye on business operations from virtually anywhere, providing added convenience and peace of mind.
It’s important to note that mobile app integration availability may vary depending on the brand and model of the surveillance system. When selecting a surveillance system, it’s recommended to check for mobile app compatibility and features to ensure it meets your specific monitoring and remote access needs.
|4.05 x 7.79 x 8.26 inches
|Item model number
|4.2 4.2 out of 5 stars 562 ratings
4.2 out of 5 stars
|Best Sellers Rank
|#275 in Dome Surveillance Cameras
|Date First Available
|December 6, 2019
|Country of Origin
Add-On DVR Bullet Security Camera System with Sensor Spotlight , Accessories
The Swann Add-On DVR Bullet Security Camera System with Sensor Spotlight may come with a range of accessories to enhance its functionality and installation. These accessories can vary depending on the specific model or package purchased. Here are some common accessories that may be included or available for this camera system:
Mounting Hardware: This includes brackets and screws to securely mount the cameras on walls, ceilings, or other surfaces. Some cameras may have adjustable mounts to achieve the desired viewing angle.
Power Supply: The cameras may require a power adapter or a power over Ethernet (PoE) injector to provide the necessary electrical power for operation. The package may include one power supply for each camera.
Extension Cables: Depending on the distance between the cameras and the DVR or power source, extension cables may be provided to ensure proper connectivity and power transmission.
BNC Video Cables: These cables are used to transmit video signals from the cameras to the DVR. The length of these cables varies, depending on the installation requirements.
Ethernet Cable: If the cameras support PoE (Power over Ethernet) functionality, an Ethernet cable may be included to provide both power and data connectivity through a single cable.
Quick Start Guide: A user manual or quick start guide may be included to help users set up and install the cameras and navigate through the system’s basic features.
Security Stickers: Some packages may include security stickers or signs to deter potential intruders by indicating that the property is under surveillance.
IR Remote Control: The package may include a remote control for the DVR, allowing users to navigate through menu options and access various settings.
USB Mouse: For easy navigation and configuration of the DVR’s settings, a USB mouse might be included.
Hard Drive: In some cases, the package may come with a pre-installed hard drive for video storage, or the option to purchase one separately, depending on the specific model and package.
It’s important to check the product description or contact the retailer to confirm which accessories are included with the Swann Add-On DVR Bullet Security Camera System with Sensor Spotlight. Some accessories might be available as add-ons or separately, depending on the retailer’s offerings and the camera system’s specific configuration.