溫(wen)度傳感(gan)器工(gong)作(zuo)原(yuan)理 溫(wen)度傳感(gan)器是(shi)檢(jian)測(cè)溫(wen)度的器(qi)件(jian)����,其(qi)種類zui多(duo)���,應(yīng)(ying)用(yong)zui廣��,發(fā)展zui快(kuai)����。*��,日常(chang)使用(yong)的(de)材(cai)料(liao)及電(dian)子(zi)元(yuan)件(jian)大部(bu)分(fen)特性(xing)都隨(sui)溫(wen)度而變(bian)化�����,在此我(wo)們暫(zan)時(shí)(shi)介(jie)紹(shao)zui常(chang)用(yong)的(de)熱(re)電(dian)阻(zu)和(he)熱(re)電(dian)偶兩類產(chǎn)品。 1.熱(re)電(dian)偶的(de)工(gong)作(zuo)原(yuan)理 當(dāng)有(you)兩種不(bu)同的導(dǎo)(dao)體和半導(dǎo)(dao)體A和B組成(cheng)壹個(gè)回(hui)路����,其兩端(duan)相(xiang)互連接(jie)時(shí)(shi),只(zhi)要兩結(jié)(jie)點(diǎn)(dian)處(chu)的(de)溫(wen)度不同(tong)����,壹端溫(wen)度為T�����,稱(cheng)為(wei)工(gong)作(zuo)端(duan)或(huo)熱(re)端(duan)��,另壹端溫(wen)度為TO�����,稱(cheng)為(wei)自(zi)由(you)端(也稱(cheng)參(can)考端)或(huo)冷端(duan)��,則回(hui)路中就有(you)電(dian)流(liu)產(chǎn)生(sheng)��,如(ru)圖(tu)2-1(a)所示����,即(ji)回(hui)路中存在的(de)電(dian)動(dòng)(dong)勢(shì)稱(cheng)為(wei)熱(re)電(dian)動(dòng)(dong)勢(shì)����。這種由(you)於(yu)溫(wen)度不同(tong)而產(chǎn)生(sheng)電(dian)動(dòng)(dong)勢(shì)的現(xiàn)(xian)象稱(cheng)為(wei)塞(sai)貝克(ke)效應(yīng)(ying)�。與(yu)塞(sai)貝克(ke)有關(guān)(guan)的(de)效(xiao)應(yīng)(ying)有(you)兩個(gè):其壹,當(dāng)有(you)電(dian)流(liu)流(liu)過兩個(gè)不同(tong)導(dǎo)(dao)體的連(lian)接處(chu)時(shí)(shi)���,此處(chu)便吸(xi)收或(huo)放出(chu)熱(re)量(liang)(取決於(yu)電(dian)流(liu)的方向)�����,稱(cheng)為(wei)珀(po)爾帖效應(yīng)(ying)��;其(qi)二(er)����,當(dāng)有(you)電(dian)流(liu)流(liu)過存(cun)在溫(wen)度梯度的導(dǎo)(dao)體時(shí)(shi)���,導(dǎo)(dao)體吸(xi)收或(huo)放出(chu)熱(re)量(liang)(取決於(yu)電(dian)流(liu)相(xiang)對(duì)(dui)於(yu)溫(wen)度梯度的方向)���,稱(cheng)為(wei)湯姆(mu)遜效應(yīng)(ying)。兩種不(bu)同導(dǎo)體或(huo)半導(dǎo)(dao)體的組(zu)合稱(cheng)為(wei)熱(re)電(dian)偶。熱(re)電(dian)偶的(de)熱(re)電(dian)勢(shì)EAB(T����,T0)是由(you)接觸(chu)電(dian)勢(shì)和溫(wen)差電(dian)勢(shì)合成(cheng)的(de)。接觸(chu)電(dian)勢(shì)是指(zhi)兩種不(bu)同的導(dǎo)(dao)體或(huo)半導(dǎo)(dao)體在接(jie)觸(chu)處(chu)產(chǎn)生(sheng)的(de)電(dian)勢(shì)����,此電(dian)勢(shì)與兩種導(dǎo)(dao)體或(huo)半導(dǎo)(dao)體的性(xing)質(zhì)(zhi)及在接(jie)觸(chu)點(diǎn)的(de)溫(wen)度有關(guān)(guan)。溫(wen)差電(dian)勢(shì)是指(zhi)同(tong)壹導(dǎo)體或(huo)半導(dǎo)(dao)體在溫(wen)度不同(tong)的兩端(duan)產(chǎn)生(sheng)的(de)電(dian)勢(shì)�,此電(dian)勢(shì)只(zhi)與導(dǎo)(dao)體或(huo)半導(dǎo)(dao)體的性(xing)質(zhì)(zhi)和兩端(duan)的(de)溫(wen)度有關(guān)(guan),而(er)與(yu)導(dǎo)體的長度�����、截面(mian)大小(xiao)�、沿(yan)其長度方向的溫(wen)度分布(bu)無(wu)關(guān)(guan)����。無(wu)論接觸(chu)電(dian)勢(shì)或(huo)溫(wen)差電(dian)勢(shì)都是(shi)由(you)於(yu)集(ji)中(zhong)於(yu)接(jie)觸(chu)處(chu)端(duan)點(diǎn)的電(dian)子(zi)數(shù)(shu)不(bu)同(tong)而產(chǎn)生(sheng)的(de)電(dian)勢(shì),熱(re)電(dian)偶測(cè)(ce)量(liang)的(de)熱(re)電(dian)勢(shì)是二(er)者(zhe)的(de)合(he)成(cheng)�����。當(dāng)回(hui)路斷(duan)開(kai)時(shí)(shi)�,在斷(duan)開(kai)處(chu)a,b之(zhi)間便有壹電(dian)動(dòng)(dong)勢(shì)差△V���,其極(ji)性(xing)和大小(xiao)與(yu)回(hui)路中的熱(re)電(dian)勢(shì)壹致���,如(ru)圖(tu)2-1(b)所示�����。並(bing)規(guī)(gui)定(ding)在冷端(duan)�,當(dāng)電(dian)流(liu)由(you)A流(liu)向B時(shí)(shi)�����,稱(cheng)A為正(zheng)極����,B為負(fù)(fu)極。實(shí)(shi)驗(yàn)(yan)表(biao)明(ming)���,當(dāng)△V很小(xiao)時(shí)(shi)���,△V與△T成正(zheng)比(bi)關(guān)(guan)系(xi)。定(ding)義(yi)△V對(duì)(dui)△T的微(wei)分熱(re)電(dian)勢(shì)為熱(re)電(dian)勢(shì)率�����,又稱(cheng)塞(sai)貝克(ke)系數(shù)。塞(sai)貝克(ke)系數(shù)的符(fu)號(hào)(hao)和大小(xiao)取(qu)決於(yu)組(zu)成熱(re)電(dian)偶的(de)兩種導(dǎo)(dao)體的熱(re)電(dian)特性(xing)和結(jié)(jie)點(diǎn)(dian)的(de)溫(wen)度差�����。 2.熱(re)電(dian)偶的(de)種類 目前���,電(dian)工(gong)委員(yuan)會(huì)(IEC)推薦(jian)了8種類型(xing)的(de)熱(re)電(dian)偶作(zuo)為(wei)標(biāo)準(zhǔn)化(hua)熱(re)電(dian)偶�,即(ji)為(wei)T型(xing)���、E型(xing)�����、J型(xing)���、K型(xing)��、N型(xing)�����、B型(xing)、R型(xing)和(he)S型(xing)����。 熱(re)電(dian)阻(zu) 1.熱(re)電(dian)阻(zu)材(cai)料(liao)的(de)特性(xing) 導(dǎo)體的電(dian)阻(zu)值隨(sui)溫(wen)度變化(hua)而改(gai)變(bian),通過測(cè)(ce)量(liang)其(qi)阻值推(tui)算(suan)出被測(cè)物體的溫(wen)度��,利用(yong)此原理構(gòu)(gou)成的(de)傳(chuan)感(gan)器就(jiu)是(shi)電(dian)阻(zu)溫(wen)度傳感(gan)器�,這(zhe)種傳(chuan)感(gan)器主(zhu)要(yao)用(yong)於(yu)-200—500℃溫(wen)度範(fàn)(fan)圍(wei)內(nèi)的溫(wen)度測(cè)量(liang)。 純(chun)金屬是熱(re)電(dian)阻(zu)的(de)主(zhu)要制造材(cai)料(liao)�,熱(re)電(dian)阻(zu)的(de)材(cai)料(liao)應(yīng)(ying)具(ju)有(you)以下特性(xing): ①電(dian)阻(zu)溫(wen)度系數(shù)(shu)要大而(er)且(qie)穩(wěn)定(ding),電(dian)阻(zu)值與(yu)溫(wen)度之(zhi)間應(yīng)(ying)具(ju)有(you)良(liang)好的線(xian)性(xing)關(guān)(guan)系(xi)�。 ②電(dian)阻(zu)率高(gao),熱(re)容(rong)量(liang)小���,反應(yīng)(ying)速(su)度快����。 ③材(cai)料(liao)的(de)復(fù)(fu)現(xiàn)(xian)性(xing)和工藝(yi)性(xing)好�����,價(jià)格低(di)���。 ④在測(cè)(ce)溫(wen)範(fàn)(fan)圍(wei)內(nèi)化學(xué)(xue)物理特性(xing)穩(wěn)定(ding)��。 目前����,在工(gong)業(yè)中應(yīng)(ying)用(yong)zui廣的鉑和銅(tong),並(bing)已(yi)制作(zuo)成標(biāo)準(zhǔn)測(cè)(ce)溫(wen)熱(re)電(dian)阻(zu)��。 2.鉑電(dian)阻(zu) 鉑電(dian)阻(zu)與(yu)溫(wen)度之(zhi)間的(de)關(guān)(guan)系(xi)接(jie)近於(yu)線(xian)性(xing)����,在0~630.74℃範(fàn)(fan)圍(wei)內(nèi)可(ke)用(yong)下式(shi)表(biao)示Rt=R0(1+At+Bt2) (2-1)在-190~0℃範(fàn)(fan)圍(wei)內(nèi)為Rt=R0(1+At+Bt2十Ct3) (2-2)式(shi)中(zhong),RO�����、Rt為溫(wen)度0°及t°時(shí)(shi)鉑(bo)電(dian)阻(zu)的(de)電(dian)阻(zu)值���,t為任(ren)意溫(wen)度���,A、B�、C為溫(wen)度系數(shù)(shu),由(you)實(shí)(shi)驗(yàn)(yan)確(que)定(ding)���,A=3.9684×10-3/℃����,B=-5.847×10-7/℃2�,C=-4.22×10-l2/℃3。由(you)式(shi)(2-1)和式(shi)(2-2)看出(chu)�,當(dāng)R0值不(bu)同(tong)時(shí)(shi),在同(tong)樣(yang)溫(wen)度下���,其Rt值也不同(tong)��。 3.銅(tong)電(dian)阻(zu) 在測(cè)(ce)溫(wen)精度要求(qiu)不高(gao)��,且(qie)測(cè)溫(wen)範(fàn)(fan)圍(wei)比(bi)較小的情況(kuang)下���,可(ke)采用(yong)銅(tong)電(dian)阻(zu)做(zuo)成熱(re)電(dian)阻(zu)材(cai)料(liao)代替(ti)鉑電(dian)阻(zu)。在-50~150℃的溫(wen)度範(fàn)(fan)圍(wei)內(nèi)��,銅(tong)電(dian)阻(zu)與(yu)溫(wen)度成線(xian)性(xing)關(guān)(guan)系(xi)���,其(qi)電(dian)阻(zu)與(yu)溫(wen)度關(guān)(guan)系(xi)的(de)表達(dá)(da)式(shi)為(wei)Rt=R0(1+At) (2-3)式(shi)中(zhong)�,A=4.25×10-3~4.28×10-3℃為銅(tong)電(dian)阻(zu)的(de)溫(wen)度系數(shù)(shu) 按(an)照(zhao)溫(wen)度傳感(gan)器 輸(shu)出信(xin)號(hào)(hao)的模(mo)式(shi)�,可(ke)大致(zhi)劃(hua)分為三(san)大類:數(shù)字式(shi)溫(wen)度傳感(gan)器、邏(luo)輯(ji)輸(shu)出溫(wen)度傳感(gan)器���、模(mo)擬式(shi)溫(wen)度傳感(gan)器����。 壹、模擬溫(wen)度傳感(gan)器 傳統(tǒng)(tong)的模(mo)擬溫(wen)度傳感(gan)器�,如(ru)熱(re)電(dian)偶、熱(re)敏電(dian)阻(zu)和(he)RTDS對(duì)(dui)溫(wen)度的監(jiān)(jian)控��,在壹些溫(wen)度範(fàn)(fan)圍(wei)內(nèi)線(xian)性(xing)不好�,需(xu)要進(jìn)行(xing)冷端(duan)補(bǔ)償或(huo)引(yin)線(xian)補(bǔ)償;熱(re)慣(guan)性(xing)大�����,響(xiang)應(yīng)(ying)時(shí)(shi)間(jian)慢(man)�。集(ji)成(cheng)模(mo)擬溫(wen)度傳感(gan)器與(yu)之(zhi)相(xiang)比(bi),具(ju)有(you)靈(ling)敏度高(gao)���、線(xian)性(xing)度好�、響(xiang)應(yīng)(ying)速(su)度快等(deng)優(yōu)點(diǎn)(dian)�,而(er)且(qie)它(ta)還(hai)將(jiang)驅(qū)(qu)動(dòng)(dong)電(dian)路(lu)、信(xin)號(hào)(hao)處(chu)理(li)電(dian)路(lu)以(yi)及必(bi)要的(de)邏輯控制電(dian)路(lu)集(ji)成(cheng)在單(dan)片(pian)IC上����,有(you)實(shí)(shi)際(ji)尺(chi)寸(cun)小(xiao)�、使用(yong)方便等(deng)優(yōu)點(diǎn)(dian)�����。常(chang)見的模擬溫(wen)度傳感(gan)器有(you)LM3911����、LM335��、LM45�����、AD22103電(dian)壓(ya)輸(shu)出型(xing)����、AD590電(dian)流(liu)輸(shu)出型(xing)。這(zhe)裏(li)主(zhu)要(yao)介紹該類器件(jian)的(de)幾(ji)個(gè)典型(xing)����。 1、AD590溫(wen)度傳感(gan)器 AD590是美(mei)國模(mo)擬器件(jian)公(gong)司(si)的電(dian)流(liu)輸(shu)出型(xing)溫(wen)度傳感(gan)器�����,供(gong)電(dian)電(dian)壓(ya)範(fàn)(fan)圍(wei)為(wei)3~30V,輸(shu)出電(dian)流(liu)223μA(-50℃)~423μA(+150℃)��,靈(ling)敏度為1μA/℃��。當(dāng)在電(dian)路(lu)中(zhong)串(chuan)接(jie)采樣(yang)電(dian)阻(zu)R時(shí)(shi)���,R兩端(duan)的(de)電(dian)壓(ya)可(ke)作(zuo)為(wei)喻(yu)出電(dian)壓(ya)����。註(zhu)意R的阻(zu)值不(bu)能(neng)取(qu)得太大�����,以(yi)保證AD590兩端(duan)電(dian)壓(ya)不(bu)低(di)於(yu)3V����。AD590輸(shu)出電(dian)流(liu)信(xin)號(hào)(hao)傳輸(shu)距(ju)離(li)可(ke)達(dá)(da)到1km以上(shang)。作為(wei)壹種高(gao)阻(zu)電(dian)流(liu)源(yuan)����,zui高(gao)可(ke)達(dá)(da)20MΩ,所以(yi)它(ta)不(bu)必(bi)考慮選(xuan)擇開關(guān)(guan)或(huo)CMOS多(duo)路(lu)轉(zhuǎn)換器(qi)所(suo)引(yin)入的附加電(dian)阻(zu)造成(cheng)的(de)誤差����。適用(yong)於(yu)多(duo)點(diǎn)(dian)溫(wen)度測(cè)量(liang)和遠(yuǎn)距(ju)離(li)溫(wen)度測(cè)量(liang)的控(kong)制��。 2���、LM135/235/335溫(wen)度傳感(gan)器 LM135/235/335系列(lie)是美(mei)國國家半導(dǎo)(dao)體公(gong)司(si)(NS)生產(chǎn)的(de)壹種高(gao)精度易校正(zheng)的集(ji)成(cheng)溫(wen)度傳感(gan)器,工(gong)作(zuo)特性(xing)類似於(yu)齊(qi)納(na)穩(wěn)壓(ya)管(guan)���。該(gai)系(xi)列(lie)器(qi)件(jian)靈(ling)敏度為10mV/K,具(ju)有(you)小於(yu)1Ω的動(dòng)(dong) 態(tài)阻(zu)抗(kang)�����,工作(zuo)電(dian)流(liu)範(fàn)(fan)圍(wei)從(cong)400μA到5mA�,精度為1℃,LM135的溫(wen)度範(fàn)(fan)圍(wei)為(wei)-55℃~+150℃�,LM235的溫(wen)度範(fàn)(fan)圍(wei)為(wei)-40℃~+125℃,LM335為-40℃~+100℃�。封裝形式(shi)有(you)TO-46、TO-92�、SO-8。該系(xi)列器(qi)件(jian)廣泛應(yīng)(ying)用(yong)於(yu)溫(wen)度測(cè)量(liang)��、溫(wen)差測(cè)量(liang)以(yi)及溫(wen)度補(bǔ)償系統(tǒng)(tong)中�。 二(er)、邏(luo)輯(ji)輸(shu)出型(xing)溫(wen)度傳感(gan)器 在許(xu)多(duo)應(yīng)(ying)用(yong)中(zhong),我(wo)們並(bing)不(bu)需(xu)要嚴(yán)格測(cè)量(liang)溫(wen)度值���,只(zhi)關(guān)(guan)心(xin)溫(wen)度是否(fou)超(chao)出了壹個(gè)設(shè)(she)定(ding)範(fàn)(fan)圍(wei)�����,壹旦溫(wen)度超(chao)出所(suo)規(guī)(gui)定(ding)的(de)範(fàn)(fan)圍(wei)�����,則發(fā)出(chu)報(bào)(bao)警(jing)信(xin)號(hào)(hao)�����,啟(qi)動(dòng)(dong)或(huo)關(guān)(guan)閉(bi)風(fēng)(feng)扇����、空(kong)調(diào)���、加熱(re)器(qi)或(huo)其它(ta)控(kong)制設(shè)(she)備�,此時(shí)(shi)可(ke)選(xuan)用(yong)邏(luo)輯(ji)輸(shu)出式(shi)溫(wen)度傳感(gan)器��。LM56����、MAX6501-MAX6504�����、MAX6509/6510是其(qi)典型(xing)代表(biao)���。 1、LM56溫(wen)度開關(guān)(guan) LM56是NS公(gong)司(si)生產(chǎn)的(de)高(gao)精度低(di)壓(ya)溫(wen)度開關(guān)(guan)����,內(nèi)置1.25V參(can)考電(dian)壓(ya)輸(shu)出端����。zui大只(zhi)能(neng)帶(dai)50μA的負(fù)(fu)載。 電(dian)源(yuan) 電(dian)壓(ya)從(cong)2.7~10V����,工作(zuo)電(dian)流(liu)zui大230μA,內(nèi)置傳感(gan)器的(de)靈(ling)敏度為6.2mV/℃�,傳感(gan)器輸(shu)出電(dian)壓(ya)為(wei)6.2mV/℃×T+395mV。 2�、MAX6501/02/03/04溫(wen)度監(jiān)控(kong)開關(guān)(guan) MAX6501/02/03/04是具(ju)有(you)邏輯輸(shu)出和SO T-23封裝的溫(wen)度監(jiān)視器(qi)件(jian)開(kai)關(guān)(guan),它(ta)的(de)設(shè)(she)計(jì)非常簡(jiǎn)(jian)單:用(yong)戶(hu)選(xuan)擇壹種接(jie)近於(yu)自(zi)己需(xu)要的控(kong)制的(de)溫(wen)度門(men)限(xian)(由(you)廠(chang)方預(yù)設(shè)(she)在-45℃到+115℃�,預(yù)設(shè)(she)值間(jian)隔(ge)為(wei)10℃)。直接(jie)將(jiang)其接入電(dian)路(lu)即(ji)可(ke)使用(yong),無(wu)需(xu)任何外(wai)部元件(jian)����。其(qi)中(zhong)MAX6501/MAX6503為漏(lou)極開(kai)路(lu)低(di)電(dian)平(ping)報(bào)(bao)警(jing)輸(shu)出,MAX6502/MAX6504為推(tui)/拉(la)式(shi)高(gao)電(dian)平(ping)報(bào)(bao)警(jing)輸(shu)出�����,MAX6501/MAX6503提供(gong)熱(re)溫(wen)度預(yù)置門(men)限(xian)(35℃到+115℃)����,當(dāng)溫(wen)度高(gao)於(yu)預(yù)(yu)置門(men)*報(bào)(bao)警(jing);MAX6502/MAX6504提供(gong)冷溫(wen)度預(yù)置門(men)限(xian)(-45℃到+15℃)��,當(dāng)溫(wen)度低(di)於(yu)預(yù)(yu)置門(men)*報(bào)(bao)警(jing)�。 對(duì)(dui)於(yu)需(xu)要壹個(gè)簡(jiǎn)(jian)單的溫(wen)度超(chao)限(xian)報(bào)警而(er) 又空(kong)間有(you)限(xian)的應(yīng)(ying)用(yong)如(ru)筆(bi)記(ji)本(ben)電(dian)腦、蜂(feng)窩(wo)等(deng)應(yīng)(ying)用(yong)來說是(shi)非常理想(xiang)的(de)��,該(gai)器(qi)件(jian)的(de)典(dian)型(xing)溫(wen)度誤差是±0.5℃�,zui大±4℃,滯回(hui)溫(wen)度可(ke)通過引(yin)腳選(xuan)擇為2℃或(huo)10℃�,以避免溫(wen)度接近(jin)門(men)限(xian)值時(shí)(shi)輸(shu)出不穩(wěn)定(ding)。這(zhe)類器件(jian)的(de)工(gong)作(zuo)電(dian)壓(ya)範(fàn)(fan)圍(wei)為(wei)2.7V到5.5V���,典型(xing)工(gong)作(zuo)電(dian)流(liu)30μA���。 三(san)��、數(shù)(shu)字(zi)式(shi)溫(wen)度傳感(gan)器 1��、MAX6575 /76/77 數(shù)字(zi)溫(wen)度傳感(gan)器 如(ru)果(guo)采用(yong)數(shù)(shu)字(zi)式(shi)接(jie)口(kou)的(de)溫(wen)度傳感(gan)器����,上(shang)述設(shè)(she)計(jì)問題(ti)將(jiang)得到簡(jiǎn)(jian)化����。同樣(yang),當(dāng)A/D和微(wei)處(chu)理(li)器的I/O管(guan)腳(jiao)短(duan)缺時(shí)(shi)����,采用(yong)時(shí)(shi)間(jian)或(huo)頻率輸(shu)出的溫(wen)度傳感(gan)器也能(neng)解(jie)決上述測(cè)量問題(ti)��。以(yi)MAX6575/76/77系列(lie)SOT-23封裝的溫(wen)度傳感(gan)器為(wei)例(li)�����,這(zhe)類器件(jian)可(ke)通過單(dan)線(xian)和(he)微(wei)處(chu)理(li)器進(jìn)行(xing)溫(wen)度數(shù)據(jù)(ju)的傳(chuan)送(song)���,提(ti)供(gong)三(san)種靈(ling)活(huo)的輸(shu)出方式(shi)--頻率�、周期或(huo)定(ding)時(shí)(shi),並(bing)具(ju)備±0.8℃的典(dian)型(xing)精度���,壹條(tiao)線(xian)zui多(duo)允(yun)許(xu)掛接8個(gè)傳感(gan)器����,150μA典型(xing)電(dian)源(yuan)電(dian)流(liu)和2.7V到5.5V的寬(kuan)電(dian)源(yuan)電(dian)壓(ya)範(fàn)(fan)圍(wei)及-45℃到+125℃的溫(wen)度範(fàn)(fan)圍(wei)�����。它(ta)輸(shu)出的方波信(xin)號(hào)(hao)具(ju)有(you)正比(bi)於(yu)溫(wen)度的周期�����,采用(yong)6腳SOT-23封裝��,僅占(zhan)很小(xiao)的板面(mian)��。該(gai)器件(jian)通過壹條(tiao)I/O與微(wei)處(chu)理(li)器相(xiang)連���,利用(yong)微(wei)處(chu)理(li)器內(nèi)部的(de)計(jì)數(shù)(shu)器測(cè)出(chu)周期後(hou)就(jiu)可(ke)計(jì)算(suan)出溫(wen)度��。 2����、可(ke)多(duo)點(diǎn)(dian)檢(jian)測(cè)、直接(jie)輸(shu)出數(shù)字(zi)量(liang)的數(shù)字(zi)溫(wen)度傳感(gan)器 DS1612 DS1612是美(mei)國達(dá)(da)拉(la)斯半導(dǎo)(dao)體公(gong)司(si)生產(chǎn)的(de)CMOS 數(shù)字(zi)式(shi)溫(wen)度傳感(gan)器�����。內(nèi)含(han)兩個(gè)不揮(hui)發(fā)性(xing)存儲(chǔ)器(qi)�,可(ke)以(yi)在存(cun)儲(chǔ)(chu)器中(zhong)任意的(de)設(shè)(she)定(ding)上(shang)限(xian)和下限(xian)溫(wen)度值進(jìn)(jin)行(xing)恒(heng)溫(wen)器(qi)的溫(wen)度控制,由(you)於(yu)這(zhe)些存儲(chǔ)器(qi)具(ju)有(you)不揮(hui)發(fā)性(xing)�����,因此壹次定(ding)入(ru)後(hou)���,即(ji)使不(bu)用(yong)CPU也仍然(ran)可(ke)以(yi)獨(dú)(du)立(li)使用(yong)�。 溫(wen)度測(cè)量(liang)原理(li)和(he)精度:在芯片(pian)上(shang)分(fen)別(bie)設(shè)(she)置了壹個(gè)振(zhen)蕩頻(pin)率溫(wen)度系數(shù)(shu)較大的(de)振(zhen)蕩器(qi)(OSC1)和壹個(gè)溫(wen)度系數(shù)(shu)較小的振(zhen)蕩器(qi)(OSC2)�����。在溫(wen)度較低(di)時(shí)(shi)����,由(you)於(yu)OSC2的開(kai)門(men)時(shí)(shi)間(jian)較. |
