投影機的發展日趨成熟,新光源的加入,智能化的改造,拓寬了投影機的應用場景,使得在家中使用投影成為可能。目前,越來越多的用戶開始關注并打算購買投影機,身邊的朋友也會不斷向我咨詢投影方面的問題。..貴陽家庭影院就來說(shuo)說(shuo)投(tou)影機的基本屬性(xing)。
投影機亮度。
投影(ying)機(ji)的(de)(de)(de)(de)亮(liang)(liang)度(du)是(shi)指投影(ying)機(ji)的(de)(de)(de)(de)光(guang)輸出(chu)量(liang),用光(guang)通量(liang)(單位時間內(nei)光(guang)源向周圍空間輻射的(de)(de)(de)(de)能使(shi)人眼感受(shou)到的(de)(de)(de)(de)能量(liang))來(lai)表示,單位為流明。亮(liang)(liang)度(du)的(de)(de)(de)(de)高低(di)主要影(ying)響圖像(xiang)的(de)(de)(de)(de)清晰(xi)度(du)、色彩的(de)(de)�����(de)(de)銳度(du),以及(ji)顯示器(qi)的(de)(de)(de)(de)明暗灰度(du)等(deng)級。般來(lai)說(shuo),亮(liang)(liang)度(du)越高,圖像(xiang)越清晰(xi)。而,在實際應用中,環境光(guang)線(xian)、屏幕的(de)(de)(de)(de)選(xuan)擇、所(suo)需的(de)(de)(de)(de)投影(ying)尺寸都會影(ying)響圖像(xiang)的(de)(de)(de)(de)清晰(xi)度(du)。隨著LED、激光(guang)等(deng)新型光(guang)源技術的(de)(de)(de)(de)成熟和應用,亮(liang)(liang)度(du)已(yi)經不再是(shi)限(xian)制投影(ying)發展(zhan)的(de)(de)(de)(de)因素。
投影機均勻度
這是(shi)與亮度(du)相關(guan)的(de)概念,投出(chu)畫面的(de)中間亮度(du)與周圍亮度(du)的(de)比(bi)值,一般將中間定義為100%。投影機(j����i)投射到(dao)屏(ping)幕上的(de)圖像的(de)亮度(du)其實(shi)并不(bu)是(shi)完全均勻(yun)的(de),有的(de)地(di)方的(de)亮度(du)會高些,有的(de)地(di)方的(de)亮度(du)會低些。投影機(ji)亮度(du)分布(b������u)越均勻(yun)越好。
投影機對比度
投(tou)影(ying)(ying)機投(tou)射圖像中黑(hei)與白的(de)比值(zhi),也就是(shi)從黑(hei)到白的(de)������漸變層次。比值(zhi)越大,從黑(hei)到白的(de)漸變層次就越多(duo),從而色彩表現越豐富。如今投(tou)影(ying)(ying)產(chan)品的(de)原生(sheng)對(dui)(dui)比度(du)其(qi)實固定在一個水平(ping)上,各款產(chan)品的(de)差距都不是(shi)很大,對(dui)(dui)比度(du)影(ying)(ying)響畫(hua)面表現的(de)情況微乎其(qi)微。2016年微型(xing)投(tou)影(ying)(ying)已經邁入1080P的(de)門檻,畫(hua)質已經有了較(jiao)為明顯(xian)的(de)提升可以滿足我們日常的(de)觀影(ying)(ying)需要。
投影機分辨率
投(tou)(tou)影(ying)(ying)機(ji)分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv)的表示方法是(shi)用畫(hua)(hua)面(mian)中水平像素數(shu)乘以(yi)垂直像素數(shu)。投(tou)(tou)影(ying)(ying)機(ji)的分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian�����)率(lv)(lv)(lv)(lv)不是(shi)指(zhi)投(tou)(tou)影(ying)(ying)機(ji)可(ke)(ke)以(yi)接(jie)收(shou)的信號的分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv),而是(shi)指(zhi)它(ta)們的核心光引擎(DMD芯片、LCD面(mian)板(ban)、LCOS面(mian)板(ban)等)的物理(li)(li)分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv)。盡管投(tou)(tou)影(ying)(ying)機(ji)通(tong)常(chang)可(ke)(ke)以(yi)接(jie)收(shou)多種分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv)的信號,但是(shi)當信號分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv)高于投(tou)(tou)影(ying)(ying)機(ji)物理(li)(li)分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv)時,畫(hua)(hua)面(mian)細節就會出現明顯損失(shi)。常(chang)見分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv)可(ke)(ke)分(fen)(fen)(fen)為:XGA(1024x768)主流商務(wu)和(he)教育投(tou)(tou)影(ying)(ying)機(ji)采(cai)用的分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv);720p(1280x720或1280x768)微型投(tou)(tou)影(ying)(ying)機(ji)采(cai)用的分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv);1080p( 1920x1080或1920x1200)目(mu)前市場(chang)主流投(tou)(tou)影(ying)(ying)機(ji)分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv);4K(4096×2160)目(mu)前投(tou)(tou)影(ying)(ying)市場(chang)中只有極少的高端機(ji)型中采(cai)用4K分(fen)(fen)(fen)辨(bian)(bian)(bian)(bian)率(lv)(lv)(lv)(lv)。
投(tou)影(ying)畫面(mian)尺寸、投(tou)影(ying)距離與投(tou)射比
投(tou)(tou)影畫面(mian)尺寸(cun)指的(de)(de)是所投(tou)(tou)出的(de)(de)畫面(mian)對(dui)角線(xian)的(de)(de)尺寸(cun)。想要(yao)投(tou)(tou)出想要(yao)的(de)(de)尺寸(cun)要(yao)投(tou)(tou)放出需要(yao)的(de)(de)尺寸(cun),就需要(yao)投(tou)(tou)影機(ji)與(yu)投(tou)(tou)影屏(ping)幕相(xiang)應的(de)(de)距(ju)離(li)(li)(li)(li)。投(tou)(tou)影距(ju)離(li)(li)(li)(li)是指投(tou)(tou)影機(ji)鏡頭與(yu)屏(ping)幕之間的(de)(de)水平距(ju)離(li)(li)(li)(li)。投(tou)(tou)射比則是投(tou)(tou)影距(ju)離(li)(li)(li)(li)/畫面(mian)寬(kuan)度(du)(du),比值(zhi)越(yue)小,說明相(xiang)同投(tou)(tou)影距(ju)離(li)(li)(li)(li),投(tou)(tou)射畫面(mia��������n)的(de)(de)寬(kuan)度(du)(du)越(yue)大。目前(qian)超短焦技術(shu)得以廣泛應用,..的(de)(de)超短焦投(tou)(tou)影機(ji)投(tou)�������(tou)百吋畫面(mian)只需30.6cm。
剖析投影機成像技術
DLP技(ji)(ji)術目前主(zhu)流(liu)投影技(ji)(ji)術之一(yi)。以(yi)1024×768分辨率為例,在一(yi)塊DMD上(shang)共有(you)1024×768個小反射(she)鏡,每(mei)個鏡子代表一(yi)個像素,每(mei)一(yi)個小反射(she)鏡都具有(you)獨立(li)控制(zhi)光(guang)(guang)(guang)線的(de)(de)(de)開關能力。小反射(she)鏡反射(she)光(guang)(guang)(guang)線的(de)(de)(de)角度受(shou)(shou)視頻(pin)信(xin)(xin)號控制(zhi),視頻(pin)信(xin)(xin)號受(shou)(shou)數(shu)字(zi)光(guang)(guang)(guang)處理器(qi)DLP調(diao)制(zhi),把視頻(pin)信(xin)(xin)號調(diao)制(zhi)成(cheng)等幅的(de)(de)(de)脈寬調(diao)制(zhi)信(xin)(xin)號,用(yong)脈沖寬度大(da)小來控制(zhi)小反射(she)鏡開、關光(guang)(guang)(guang)路的(de)(de)(de)時間,在屏(ping)幕上(shang)產(������chan)生不同亮(liang)度的(de)(de)(de)灰度等級圖像。DMD投影機根據反射(she)鏡片(pian)(pian)的(de)(de)(de)多(duo)少可以(yi)分為單片(pian)(pian)式(shi),雙片(pian)(pian)式(shi)和三片(pian)(pian)式(shi)。以(yi)單片(pian)(pian)式(shi)為例,DLP能夠產(chan)生色(se)(se)彩(cai)是由于放在光(guang)(guang)��������(guang)源路徑上(shang)的(de)(de)(de)色(se)(se)輪(由紅(hong)、綠、藍群組(zu)成(cheng)),光(guang)(guang)(guang)源發(fa)出(chu)的(de)(de)(de)光(guang)(guang)(guang)通過(guo)(guo)會聚透鏡到彩(cai)色(se)(se)濾(lv)(lv)色(se)(se)片(pian)(pian)產(chan)生RGB三基色(se)(se),包含(han)成(cheng)千上(shang)萬(wan)微(wei)鏡的(de)(de)(de)DMD 芯(xin)片(pian)(pian),將(jiang)光(guang)(guang)(guang)源發(fa)出(chu)的(de)(de)(de)光(guang)(guang)(guang)通過(guo)(guo)快速轉動的(de)(de)(de)紅(hong)、綠、藍過(guo)(guo)濾(lv)(lv)器(qi)投射(she)到一(yi)個鑲有(you)微(wei)鏡面(mian)陣(zhen)列的(de)(de)(de)微(wei)芯(xin)片(pian)(pian)DMD的(de)(de)(de)表面(mian),這些微(wei)鏡面(mian)以(yi)每(mei)秒(miao)5000次的(de)(de)(de)速度轉動,反射(she)入射(she)光(guang)(guang)(guang),經由整形透鏡后通過(guo)(guo)鏡頭投射(she)出(chu)畫(hua)面(mian)。
說到DLP就一定要(yao)了(le�����)解一下DMD芯片(pian)。DMD是德(de)州(zhou)儀器(qi)的數字(zi)光處(chu)理技術(DLP)的核心器(qi)件,這個只有火柴(chai)盒大小(xiao)(xiao)(xiao)的芯片(pian)上竟密(mi)密(mi)麻麻地排列了(le)80萬至100萬面(mian)小(xiao)(xiao)(xiao)鏡(jing)子,而且每(mei)個小(xiao)(xiao)(xiao)鏡(jing)子都可以獨立向正負方(fang)向翻轉(zhuan)10度,并(bing)可以每(mei)秒鐘翻轉(zhuan)65000次。光源通過這些小(xiao)(xiao)(xiao)鏡(jing)子反射到屏幕上直接形成圖像。所以DLP投影(ying)技術拋棄了(le)傳統意義上的光學(xue)會聚(ju),可以隨意改變焦(jiao)點,調整起來(lai)十分(fen)方(fang)便,而且其光學(xue)路(lu)徑相(xiang)當簡單(dan),體積更(geng)小(xiao)(xiao)(xiao)。
LCD采用(yong)三片(pian)(pian)(pian)(pian)式液(ye)(ye)(ye)晶(jing)(jing)投(tou)影機的(de)(de)(de)成像原(yuan)理,以某液(ye)(ye)(ye)晶(jing)(jing)投(tou)影機的(de)(de)(de)光(guang)(guang)(guang)(guang)路為(wei)(wei)例:首先光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)通(tong)過(guo)濾光(guang)(guang)(guang)(guang)片(pian)(pian)(pian)(pian),濾掉紅(hong)(hong)外線(xian)(xian)(xian)(xian)和(he)紫(zi)(zi)外線(xian)(xian)(xian)(xian)這樣的(de)(de)(de)不(bu)可見光(guang)(guang)(guang)(guang),紅(hong)(hong)外線(xian)(xian)(xian)(xian)和(he)紫(zi)(zi)外線(xian)(xian)(xian)(xian)對LCD片(pian)(pian)(pian)(pian)有(you)(you)一(yi)定的(de)(de)(de)損(sun)害作用(yong)。透過(guo)兩(liang)片(pian)(pian)(pian)(pian)多鏡(jing)(jing)頭鏡(jing)(jing)片(pian)(pian)(pian)(pian)將(jiang)光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)均勻(yun)化,并(bing)將(jiang)UHP燈產生的(de)(de)(de)圓錐形光(guang)(guang)(guang)(guang)校正(zheng)為(wei)(wei)和(he)投(tou)影圖像近似的(de)(de)(de)矩形光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)。在(zai)兩(liang)片(pian)(pian)(pian)(pian)鏡(jing)(jing)子(zi)之間的(de)(de)(de)棱(leng)鏡(jing)(jing)用(yong)來將(jiang)光(guang)(guang)�������(guang)(guang)線(xian)(xian)(xian)(xian)預先極(ji)性化,較(jiao)之沒(mei)有(you)(you)該棱(leng)鏡(jing)(jing)的(de)(de)(de)不(bu)對稱光(guang)(guang)(guang)(guang)箱,它(ta)可以減少光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)的(de)(de)(de)損(sun)失。光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)下一(yi)步(bu)(bu)被分(fen)光(guang)(guang)(guang)(guang)鏡(jing)(jing)分(fen)為(wei)(wei)紅(hong)(hong)、綠、藍三原(yuan)色(se)并(bing)被分(fen)別反射到(dao)相應(ying)的(de)(de)(de)液(ye)(ye)(ye)晶(jing)(jing)片(pian)(pian)(pian)(pian)上(shang)。在(zai)到(dao)達(da)液(ye)(ye)(ye)晶(jing)(jing)片(pian)(pian)(pian)(pian)之前光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)還需(xu)要透過(guo)一(yi)個凸透鏡(jing)(jing)和(he)偏振片(pian)(pian)(pian)(pian),凸透鏡(jing)(jing)的(de)(de)(de)作用(yong)是將(jiang)光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)集(ji)中,偏振片(pian)(pian)(pian)(pian)則進一(yi)步(bu)(bu)將(jiang)光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)極(ji)性化,使得光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)振動方向一(yi)致,可以被液(ye)(ye)(ye)晶(jing)(jing)片(pian)(pian)(pian)(pian)控(kong)制。..光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)經(jing)過(guo)液(ye)(ye)(ye)晶(jing)(jing)片(pian)(pian)(pian)(pian),通(tong)過(guo)電路板驅動,液(ye)(ye)(ye)晶(jing)(jing)片(pian)(pian)(pian)(pian)上(shang)的(de)(de)(de)各像素點有(you)(you)序開閉,產生了(le)圖像,并(bing)通(tong)過(guo)每(mei)原(yuan)色(se)光(guang)(guang)(guang)(guang)的(de)(de)(de)調校產生了(le)豐富的(de)(de)(de)色(se)彩。..三路光(guang)(guang)(guang)(guang)線(xian)(xian)(xian)(xian)..終匯聚在(zai)一(yi)起由(you)鏡(jing)(jing)頭投(tou)射出去。
新光源帶來更多可能
LED其實是(shi)英(ying)文Light Emitting Diode的縮寫(xie)形(xing)式,它的意思是(shi)發(fa)光(guang)(guang)二(er)極管,是(shi)一(yi)種(zhong)能夠將電能轉(zhuan)化(hua)為可(ke)(ke)(ke)見光(guang)(guang)的固態的半導體(ti)器件,它可(ke)(ke)(ke)以(yi)(yi)直接(jie)把電轉(zhuan)化(hua)為光(guang)(guang)。LED改變了白熾燈鎢絲(si)發(fa)光(guang)(guang)與節能燈三基色(se)粉發(fa)光(guang)(guang)的原理,而采用電場發(fa)光(guan�������g)(guang)。省電、節能、環保(bao),可(ke)(ke)(ke)以(yi)(yi)說是(shi)LED光(guang)(guang)源(yuan)給投(tou)影帶(dai)來(lai)的主(zhu)要優點,除此之外(wai),諸(zhu)如畫面色(se)域(yu)更廣,投(tou)影機的數字化(hua)程度(du)進一(yi)步(bu)提高等新(xin)特性也可(ke)(ke)(ke)以(yi)(yi)根據(ju)LED光(guang)(guang)源(yuan)性質進行進一(yi)步(bu)的開發(fa)。
激(ji)光(guang)(�����guang)具(ju)有更(geng)廣的色域,另外激(ji)光(guang)(guang)投影機(ji)可長時(shi)(shi)間(jian)保持畫質不(bu)衰(shuai)(shuai)減,傳統投影機(ji)會在(zai)使(shi)(shi)(shi)(shi)用一段時(shi)(shi)間(jian)后(hou)隨著光(guang)(guang)源的急劇衰(shuai)(shuai)減而(er)使(shi)(shi)(shi)(shi)圖(tu)像變暗(an)變黃(huang)(如亮度衰(shuai)(shuai)減、色飽和(he)度對比度降低等),在(zai)電影院這些高要求使(shi)(shi)(shi)(shi)用場合,即(ji)使(shi)(shi)(shi)(shi)燈泡仍還在(zai)發光(guang)(guang),也不(bu)得(de)不(bu)因此(ci)而(er)更(geng)換燈泡,造成(cheng)使(shi)(shi)(shi)(shi)用成(cheng)本居高不(bu)下。激(ji)光(guang)(guang)電影放(fang)映(ying)機(ji)所使(shi)(shi)(shi)(shi)用的是激(ji)光(guang)(guang)器作為顯示光(guang)(guang)源,其(qi)壽命可達10000小時(shi)(shi)以上(shang),其(qi)衰(shuai)(shuai)退過程也是緩慢(man)的,使(shi)(shi)(shi)(shi)得(de)其(qi)輸出的畫質長期保持亮麗如新(xin)。
貴陽家庭影院的激(ji)(ji)光(guang)光(guang)源(yuan)(yuan)屬于新一(yi)代冷光(guang)源(yuan)(yuan),不存(cun)在發熱(re)量過(guo)大而使其溫度過(guo)高(gao)的因素,只需通過(guo)增加激(ji)(ji)光(guang)器數量,就可以(yi)很輕松的將激(ji)(ji)光(guang)投�����影機單(dan)機的光(guang)通量達到10000-50000流明以(yi)上,且其光(guang)源(yuan)(yuan)的������使用壽(shou)命仍然可以(yi)達到10000-20000小(xiao)時以(yi)上,可大大降(jiang)低后(hou)期(qi)維(wei)護成本,不再有炸燈的風險。
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