Amprobe Test Tools has been a leading manufacturer since the late 1940s, when it introduced its first patented product, the Clamp-on Ammeter. Over the past 60 years, the Amprobe brand has become closely associated with clamp-on meters and has significantly broadened its product range to include over 250 items. As a result, Amprobe has established itself as a premier provider of high-quality test equipment for professionals working in the electrical, maintenance, construction, and HVAC sectors. Today, Amprobe is the preferred choice for professionals seeking feature-rich products, such as clamp-on ammeters, a comprehensive range of multimeters, HVAC measurement tools, power quality analyzers, electrical testers, and wire/circuit tracers. Moreover, Amprobe has expanded its expertise to specialize in Power Quality (PQ) equipment, offering a diverse selection of advanced tools for field measurement and recording of PQ variables, including power, energy, harmonics, spikes, sags, and surges.
Thermometers are essential tools used for measuring and displaying temperature, available in different units such as Celsius (C°), Kelvin (K°), or Fahrenheit (F°). These thermometers possess various characteristics that determine their functionality and suitability for specific applications.
Type: Thermometers come in different types, including anemometers (used for measuring airflow and temperature simultaneously), handheld or gun thermometers (portable devices held by hand for temperature measurement), and pocket thermometers (compact and portable for on-the-go temperature readings).
Temperature display: Thermometers can display temperature values digitally or with analog indicators. Digital displays provide precise numerical readings, while analog displays use a dial or pointer to indicate temperature.
Temperature range: The temperature range denotes the minimum and maximum temperatures that a thermometer can measure accurately. It varies depending on the thermometer type and can span from -418°F (-250°C) to 3212°F (1767°C) or even wider ranges for specialized thermometers.
Display type: The display type refers to the technology used for temperature readout. Common examples include LCD (liquid crystal display), LED (light-emitting diode), or backlit displays for better visibility in low-light conditions.
Input type: Thermometers can have different input methods for temperature measurement. Some thermometers use built-in or detachable probes, while others may rely on infrared (IR) sensors or other non-contact methods for temperature sensing.
Probe type: The probe type relates to the design of the temperature-sensing element. Probes can vary in shape, size, and material composition, catering to specific applications. Common probe types include thermocouples, resistance temperature detectors (RTDs), and thermistors.
Thermometers find application in various industries, including HVAC (heating, ventilation, and air conditioning), food service, scientific research, industrial processes, and medical fields. The choice of thermometer depends on factors such as the required temperature range, accuracy, response time, and the environment in which it will be used. By understanding the different characteristics and types of thermometers, users can select the most suitable thermometer for their specific temperature measurement needs.