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Comparison Sanitas SFT77 vs B.Well WT-03

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Sanitas SFT77
B.Well WT-03
Sanitas SFT77B.Well WT-03
Outdated ProductOutdated Product
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Typeinfraredcontact
Application area
 
 
frontal
 
axillary
oral
 
rectal
Measurements
Air temperatures
Liquid temperatures
Measurement duration1 с60 с
Measurement range0 – 100 °C32 - 43 °C
Measurement accuracy0.2 °C0.1 °C
General
Reading memory30 pcs1 pcs
Sound signal
Display backlight
Waterproof case
Case included
Power source2xAAA1хLR41
Added to E-Catalogmarch 2020april 2016

Type

The type defines the general use and principle of operation of the thermometer.

Contact. These are devices that need direct skin contact for operation. Known as traditional and widely used medical thermometers, contact models are affordable and generally reliable. While some may require a longer contact time, advanced models can provide a temperature measurement in just a few seconds.

Infrared. Non-contact thermometers measure temperature by detecting infrared radiation from a surface, where a warmer surface emits more infrared "glow." These devices, more hygienic than contact models, allow swift temperature readings for multiple individuals. They are versatile, capable of measuring the temperature of various surfaces, such as baby food bottles. For ear applications, this method is often considered the most suitable. However, non-contact models tend to be pricier than their contact counterparts.

Pacifier. A specialized oral thermometer for infants, designed in the shape of a typical baby pacifier. It includes a temperature sensor and a display, making it easy for young children to hold in their mouths. This design addresses potential issues that may arise with a more conventional "adult" thermometer. While limited by age, there are sets available that combine a contact thermometer with the pacifier design, providing comfort for differ...ent age ranges or versatile use, such as measuring ambient temperature.

Application area

The area of the body for which the thermometer is designed. Note that the normal temperature values for different areas of the body will also be different.

Axillary. These devices are meant to be placed under the armpit for temperature measurement. Although the process takes a few minutes as the armpit needs to reach the appropriate temperature, the simplicity of holding the thermometer compensates for this. The slower pace also positively impacts the cost of these thermometers. Widely used in clinical practice, this method is considered the most hygienic among contact temperature measurement techniques. However, its accuracy is slightly lower compared to oral and rectal methods. The normal axillary temperature range is 36.2 – 36.9 °C.

Oral. Oral thermometers are used by placing them in the mouth, either under the tongue or behind the cheek (with the former being the preferred method). This technique is generally more accurate and reliable than measuring temperature under the armpit, and it is quicker as the temperature under the tongue remains relatively stable. However, it may not be suitable for young children, those with oral cavity diseases (where local inflammation can result in higher readings), individuals with nasal breathing difficulties (as the mouth must be closed during measurement), and in certain other cases. The normal temperature range under the tongue is 36.6 –...37.2 °C.

— Forehead. Forehead thermometers measure skin temperature on the forehead, providing a convenient method, especially for children, as the forehead is readily accessible and responsive to body changes. This technique has minimal contraindications. However, it may be less accurate due to environmental influences, detecting elevated temperatures more quickly than specifying exact values. The normal temperature range for the forehead is broad, spanning 35.4 – 37.4 °C. While uncommon in contact models, it is prevalent in infrared ones. Non-contact forehead thermometers can also be used on other surfaces.

— Ear. Thermometers that record the temperature of the eardrum. Such measurements can only be carried out in a non-contact way — otherwise there is a risk of damaging the membrane. Accordingly, ear models are only infrared; their distinctive feature is narrow tips made of soft material that allow you to safely insert the probe into the ear. A similar technique is used mainly to measure body temperature in children; normal readings for the ear range from 36.9 to 37.4 °C.

— Rectal. Rectal thermometers, designed for contact measurement, are considered the most accurate as rectal temperature is largely unaffected by external conditions. However, this method is less convenient, causing discomfort and psychological unease for the patient. It also has specific contraindications, limiting its use to specific cases. Normal temperature range for rectal measurement is 37.3 – 37.7 °C.

Air temperatures

Possibility of using a thermometer to measure the air temperature. Usually, such a measurement is carried out by a separate sensor, due to which this function is found not only in contact, but also in IR thermometers (see "Type").

Liquid temperatures

The ability to measure the temperature of liquids using a thermometer. The method of such measurement can be both contact and non-contact. One of the most popular uses for this feature is when preparing baby food.

Measurement duration

The time it takes for a thermometer to provide a temperature reading, from contact or activating the IR sensor to obtaining the result, is crucial for efficiency. Quick measurements save time during temperature checks. However, it's important to mention that for axillary use (see "Application area"), it's advised to keep the thermometer in place for a minimum of 5 minutes, irrespective of the manufacturer's specified measurement time, due to the nature of the procedure.

Measurement range

The range of temperatures that a thermometer can measure.

For measuring body temperature, a range of 35 – 43 °C is considered ample, covering values encountered in individuals with high fever or hypothermia. Although modern medical thermometers may have broader ranges, especially those designed for water and air temperature measurement (e.g., -20 – 100 °C), when used for body temperature, they typically operate within a narrower range. The overall and "solid" measurement ranges are often specified separately in these thermometers.

Measurement accuracy

The extent to which a device deviates from the actual temperature during measurements determines its accuracy. Even the least accurate electronic medical thermometers today have a maximum deviation of 0.3 °C, sufficient for everyday and basic medical use. Common models offer even higher accuracy, with deviations as low as 0.1 °C or 0.2 °C, making the pursuit of maximum accuracy necessary only in specific scenarios.

Reading memory

The number of results the thermometer can store in memory. The ability to "remember" the results of previous measurements can be very convenient in some cases — in particular, it allows you to accurately track changes in temperature over time. The most advanced models are capable of storing several dozen readings in memory.

Sound signal

The presence of a sound signal in the thermometer. Most often, such a signal indicates the end of the measurement, which eliminates the need to independently monitor the time or get a device to check the readings. However, other events can also be accompanied by sounds, such as switching on and off.
Sanitas SFT77 often compared
B.Well WT-03 often compared