An RTD (Resistance Temperature Detector) is a sensor whose resistance changes as its temperature changes. The resistance increases as the temperature of the sensor increases. The resistance vs temperature relationship is well known and is repeatable over time.
The main difference between an RTD and a Pt100 is the material used for the sensing element: PT100 is a specific type of RTD thermal resistor, and its name comes from “Platinum” (platinum) un “100” (100 omi 0 ° C). It is the most commonly used RTD sensor and is widely used in industrial process control, laboratory measurement and other fields that require high-precision temperature monitoring. The advantages of PT100 include:
The thermal resistance formula is in the form of Rt=Ro(1+A*t+B*t*t);Rt=Ro[1+A*t+B*t*t+C(t-100)*t*t*t], t represents Celsius temperature, Ro is the resistance value at zero degrees Celsius, Izšķirt, Bārts, C are all specified coefficients, for Pt100, Ro is equal to 100℃.
A PT100 sensor acquires temperature by measuring the change in its electrical resistance, which directly correlates to the temperature it is exposed to; as the temperature increases, the resistance of the platinum element within the sensor also increases, allowing for a precise calculation of the temperature based on this resistance change; essentially, the “100” in PT100 signifies that the sensor has a resistance of 100 omi 0 ° C, and this value changes predictably with temperature fluctuations.
Platinum resistors are widely used in the medium temperature range (-200~650℃). At present, there are standard temperature measuring thermal resistors made of metal platinum on the market, such as Pt100, Pt500, PT1000, utt..
Parasti izmantotās platīna pretestības PT100 sensoru zondes temperatūras mērīšanas diapazons ir -200 ~ 850 ℃, un PT500 temperatūras mērīšana, PT1000 sensoru zondes, utt.. ir secīgi samazināti. PT1000, Temperatūras mērījumu diapazons ir -200 ~ 420 ℃. Saskaņā ar IEC751 starptautisko standartu, Platīna rezistora PT1000 temperatūras raksturlielumi atbilst šādām prasībām:
The DS18B20 sensor communicates using the “1-Stieple” protocol, which means it uses a single data line for all communication with a microcontroller, allowing multiple sensors to be connected on the same line and identified by their unique 64-bit serial code; this single data line is pulled high with a resistor and the sensor transmits data by pulling the line low during specific time slots to send bits of information.
This article explains in detail the application of custom DS18B20 digital temperature sensor in building a digital thermometer. Including working principle, hardware connection, software programming and simulation implementation. Provide complete protues simulation diagram, C source code and result analysis to help readers deeply understand and practice the use of DS18B20.
What are thermistors NTC and PTC?
NTC and PTC are both thermistors, which are special resistors that can change resistance with temperature. They can also be said to be a kind of sensor.
Q: Can you explain sensitivity resolution in more detail? Why are higher values better?
Izšķirt: High sensitivity eliminates any lead resistance. It also simplifies the supporting electronics. Izšķirt 10,000 ohm thermistor changes resistance by 4.4% or 440 ohms for a 1°C change in temperature. Izšķirt 100 ohm platinum sensor changes resistance by 1/3 ohm for a 1°C change in temperature.
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