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1、【精品】温度传感器毕业论文中英文资料外文翻译文献 中英文资料外文翻译英文文献原文Temperature Sensor ICs Simplify DesignsWhen you set out to select a temperature sensor, you are no longer limited to either an analog output or a digital output device. There is now a broad selection of sensor types, one of which should match your systems need
2、s. Until recently, all the temperature sensors on the market provided analog outputs. Thermistors, RTDs, and thermocouples were followed by another analog-output device, the silicon temperature sensor. In most applications, unfortunately, these analog-output devices require a comparator, an ADC, or
3、an amplifier at their output to make them useful. Thus, when higher levels of integration became feasible, temperature sensors with digital interfaces became available. These ICs are sold in a variety of forms, from simple devices that signal when a specific temperature has been exceeded to those th
4、at report both remote and local temperatures while providing warnings at programmed temperature settings. The choice now isnt simply between analog-output and digital-output sensors; there is a broad range of sensor types from which to choose. Classes of Temperature SensorsFour temperature-sensor ty
5、pes are illustrated in Figure 1. An ideal analog sensor provides an output voltage that is a perfectly linear function of temperature A . In the digital I/O class of sensor B , temperature data in the form of multiple 1s and 0s are passed to the microcontroller, often via a serial bus. Along the sam
6、e bus, data are sent to the temperature sensor from the microcontroller, usually to set the temperature limit at which the alert pins digital output will trip. Alert interrupts the microcontroller when the temperature limit has been exceeded. This type of device can also provide fan control. Figure
7、1. Sensor and IC manufacturers currently offer four classes of temperature sensors. Analog-plus sensors C are available with various types of digital outputs. The VOUT versus temperature curve is for an IC whose digital output switches when a specific temperature has been exceeded. In this case, the
8、 plus added to the analog temperature sensor is nothing more than a comparator and a voltage reference. Other types of plus parts ship temperature data in the form of the delay time after the part has been strobed, or in the form of the frequency or the period of a square wave, which will be discuss
9、ed later. The system monitor D is the most complex IC of the four. In addition to the functions provided by the digital I/O type, this type of device commonly monitors the system supply voltages, providing an alarm when voltages rise above or sink below limits set via the I/O bus. Fan monitoring and
10、/or control is sometimes included in this type of IC. In some cases, this class of device is used to determine whether or not a fan is working. More complex versions control the fan as a function of one or more measured temperatures. The system monitor sensor is not discussed here but is briefly men
11、tioned to give a complete picture of the types of temperature sensors available. Analog-Output Temperature SensorsThermistors and silicon temperature sensors are widely used forms of analog-output temperature sensors. Figure 2 clearly shows that when a linear relationship between voltage and tempera
12、ture is needed, a silicon temperature sensor is a far better choice than a thermistor. Over a narrow temperature range, however, thermistors can provide reasonable linearity and good sensitivity. Many circuits originally constructed with thermistors have over time been updated using silicon temperat
13、ure sensors. Figure 2. The linearity of thermistors and silicon temperature sensors, two popular analog-output temperature detectors, is contrasted sharply. Silicon temperature sensors come with different output scales and offsets. Some, for example, are available with output transfer functions that
14、 are proportional to K, others to C or F. Some of the C parts provide an offset so that negative temperatures can be monitored using a single-ended supply. In most applications, the output of these devices is fed into a comparator or an A/D converter to convert the temperature data into a digital fo
15、rmat. Despite the need for these additional devices, thermistors and silicon temperature sensors continue to enjoy popularity due to low cost and convenience of use in many situations. Digital I/O Temperature SensorsAbout five years ago, a new type of temperature sensor was introduced. These devices
16、 include a digital interface that permits communication with a microcontroller. The interface is usually an I2C or SMBus serial bus, but other serial interfaces such as SPI are common. In addition to reporting temperature readings to the microcontroller, the interface also receives instructions from the microcontroller. Those instructions are often temperature limits, which, if exceeded, acti
