Below are general answers on typical components of an ozone gas detector from the list of GAO Tek’s Ozone Gas Detector. To facilitate our customers to select our products, we have further classified our ozone gas detector by their features Alarm-Enabled, Benchtop, Electrochemical, Handheld, High Precision, Outdoor, Data Logging, Multi Gas Detection, Rugged, Wide-Range, and Wireless.
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Sensor Module:
- Ozone Sensor: This is the core component responsible for detecting ozone levels. GAO has various types of ozone sensors, including electrochemical sensors, UV absorption sensors, and gas-sensitive semiconductor sensors. Each type has its own principles of operation.
Electronic Components:
- Microcontroller or Microprocessor: This is the brain of the detector, responsible for processing data, controlling operations, and interfacing with other components.
- Analog-to-Digital Converter (ADC): GAO’s ADC converts the analog signal from the ozone sensor into a digital signal for the microcontroller to process.
- Signal Conditioning Circuitry: Our SCC amplifies, filters, and conditions the signal from the ozone sensor to ensure accurate measurements.
- Display Unit: We have a visual interface for users to read ozone levels. This can be an LED display, LCD screen, or other types of displays.
- Alarm System: We typically include visual and audible alarms to alert users when ozone levels exceed predefined thresholds.
Communication Interface:
- Communication Protocols: Our detectors may include communication interfaces such as RS-232, RS-485, USB, or wireless protocols (Bluetooth, Wi-Fi) for data transfer and remote monitoring.
Power Supply:
- Power Source: Our ozone detectors are often powered by batteries, AC power, or a combination of both. The power source depends on the intended application and portability requirements.
Mechanical Components:
- Enclosure: Ours protects the internal components from environmental factors and physical damage. The enclosure is typically made of materials that do not interfere with the ozone detection process.
- Inlet/Outlet Ports: Ours allow air to flow into and out of the detector, ensuring that the ozone sensor is exposed to the surrounding air for accurate measurements.
Calibration System:
- Calibration Controls: Some of our detectors have built-in calibration features to ensure accurate and reliable measurements over time. This may involve periodic calibration with a known ozone concentration source.
User Interface:
- Control Buttons or Touchscreen: Ours enable users to configure settings, calibrate the device, and perform other interactions.
Data Logging and Storage:
- Memory: Some of our detectors include internal memory for storing historical data, allowing users to review ozone levels over time.