{"id":9259,"date":"2021-08-16T10:22:19","date_gmt":"2021-08-16T08:22:19","guid":{"rendered":"https:\/\/blog-stage.wika.cloudpowered.services\/pl\/?p=9259"},"modified":"2024-11-15T09:48:23","modified_gmt":"2024-11-15T08:48:23","slug":"kalibracja-przyrzadow-do-pomiaru-temperatury-termopary-vs-termometry-rezystancyjne","status":"publish","type":"post","link":"https:\/\/blog-stage.wika.cloudpowered.services\/pl\/knowhow\/kalibracja-przyrzadow-do-pomiaru-temperatury-termopary-vs-termometry-rezystancyjne\/","title":{"rendered":"Kalibracja przyrz\u0105d\u00f3w do pomiaru temperatury: termopary vs. termometry rezystancyjne"},"content":{"rendered":"<p><strong>Przy kalibracji przyrz\u0105d\u00f3w do pomiaru temperatury, termometrom wzorcowym stawiane s\u0105 wysokie wymagania pod wzgl\u0119dem dok\u0142adno\u015bci i odtwarzalno\u015bci, a tym samym stabilno\u015bci d\u0142ugoczasowej. Z tego wzgl\u0119du w laboratoriach stosuje si\u0119 RTD (&#8222;Resistance Temperature Detectors&#8221;) \u2013 tutaj szczeg\u00f3lnie platynowe termometry rezystancyjne \u2013 oraz termopary. Chocia\u017c pe\u0142ni\u0105 one podobn\u0105 funkcj\u0119, pod wieloma wzgl\u0119dami nie mog\u0142yby si\u0119 bardziej r\u00f3\u017cni\u0107. <\/strong><\/p>\n<p>Przy wyborze przyrz\u0105du do pomiaru temperatury lub kalibracji nale\u017cy wzi\u0105\u0107 pod uwag\u0119 nast\u0119puj\u0105ce kluczowe czynniki:<\/p>\n<ul>\n<li>Dok\u0142adno\u015b\u0107<\/li>\n<li>Stabilno\u015b\u0107 d\u0142ugoczasow\u0105<\/li>\n<li>Zakres temperatury<\/li>\n<li>Warunki otoczenia<\/li>\n<\/ul>\n<h2><strong>Zasad\u0119 dzia\u0142ania i obszary zastosowania termometru rezystancyjnego<\/strong><\/h2>\n\n      <div class=\"wp-caption alignright\" style=\"max-width:396px;\"><img decoding=\"async\" src=\"https:\/\/blog-stage.wika.cloudpowered.services\/pl\/files\/2021\/08\/tr_widerstandsthermometer-002-20200303132007-388x329.jpg\" alt=\"Rys.: Przekr\u00f3j poprzeczny termometru rezystancyjnego\" \/><p class=\"wp-caption-text\">Rys.: Przekr\u00f3j poprzeczny termometru rezystancyjnego<\/p><\/div>\n    \n<p>W przypadku termometru rezystancyjnego (RTD) rezystancja jest mierzona za pomoc\u0105 przewodnika elektrycznego, dzi\u0119ki czemu istnieje jasno okre\u015blona zale\u017cno\u015b\u0107 pomi\u0119dzy rezystancj\u0105 a temperatur\u0105, kt\u00f3r\u0105 mo\u017cna przedstawi\u0107 w postaci krzywej charakterystycznej. W technologii kalibracyjnej jako wzorce stosowane s\u0105 g\u0142\u00f3wnie drutowe rezystory pomiarowe wykonane z platyny (PRT), poniewa\u017c charakteryzuj\u0105 si\u0119 one du\u017cym zakresem temperatur, stabilno\u015bci\u0105 d\u0142ugoczasow\u0105 i najwy\u017csz\u0105 dok\u0142adno\u015bci\u0105. Drut mo\u017ce by\u0107 nawini\u0119ty na rdze\u0144 ceramiczny lub szklany. <br \/>\nNajcz\u0119\u015bciej stosowanym rezystorem platynowym jest Pt100. Jest to platynowy termometr rezystancyjny, kt\u00f3rego rezystancja elektryczna wynosi dok\u0142adnie 100 om\u00f3w w temperaturze zero stopni Celsjusza. Inne rezystory platynowe, cho\u0107 rzadziej u\u017cywane, to Pt25 i Pt1000, kt\u00f3rych rezystancja elektryczna wynosi odpowiednio 25 om\u00f3w i 1000 om\u00f3w w temperaturze zero stopni Celsjusza.<\/p>\n<h2><strong>Zasada dzia\u0142ania i obszary zastosowania termopary<\/strong><\/h2>\n\n      <div class=\"wp-caption alignright\" style=\"max-width:396px;\"><img decoding=\"async\" src=\"https:\/\/blog-stage.wika.cloudpowered.services\/pl\/files\/2021\/08\/tc_thermoelement-002-20200303132145-388x314.jpg\" alt=\"Rys.: Przekr\u00f3j poprzeczny termopary\" \/><p class=\"wp-caption-text\">Rys.: Przekr\u00f3j poprzeczny termopary<\/p><\/div>\n    \n<p>Termopary wykorzystuj\u0105 inn\u0105 metod\u0119 do okre\u015blania temperatury. Termopara sk\u0142ada si\u0119 z dw\u00f3ch drut\u00f3w wykonanych z r\u00f3\u017cnych metali, takich jak nikiel, mied\u017a lub \u017celazo. Ze wzgl\u0119du na temperatur\u0119 w punkcie pomiarowym \u0142adunki w drutach ulegaj\u0105 r\u00f3\u017cnym przesuni\u0119ciom i powstaje napi\u0119cie elektryczne, kt\u00f3re mo\u017cna zmierzy\u0107. R\u00f3wnie\u017c w tym przypadku istnieje okre\u015blona zale\u017cno\u015b\u0107 pomi\u0119dzy temperatur\u0105 a napi\u0119ciem elektrycznym, dlatego te\u017c mo\u017cna okre\u015bli\u0107 temperatur\u0119 w punkcie pomiarowym. Wprawdzie termopary charakteryzuj\u0105 si\u0119 z regu\u0142y mniejsz\u0105 dok\u0142adno\u015bci\u0105 i stabilno\u015bci\u0105 ni\u017c rezystory platynowe, ale posiadaj\u0105 szerszy zakres temperatur. Termopary mog\u0105 mierzy\u0107 temperatury do 200\u00b0C i 2500\u00b0C.<\/p>\n<p>W zale\u017cno\u015bci od u\u017cytego materia\u0142u, termopary s\u0105 kalibrowane dla okre\u015blonych zakres\u00f3w. Niekt\u00f3re z najbardziej powszechnych typ\u00f3w to J, K, T i E, kt\u00f3re s\u0105 uwa\u017cane za termopary z \u201emetali nieszlachetnych\u201d. Z drugiej strony termopary wykonane z \u201emetali szlachetnych\u201d, takich jak R, S i B, s\u0105 mniej powszechne i s\u0105 u\u017cywane g\u0142\u00f3wnie w zastosowaniach wysokotemperaturowych.<\/p>\n<p><strong>Uwaga<br \/>\n<\/strong>Wi\u0119cej informacji na temat naszych referencyjnych termometr\u00f3w rezystancyjnych i termopar mo\u017cna znale\u017a\u0107 na <a href=\"https:\/\/www.wika.com\/pl-pl\/termometry_wzorcowe.WIKA\" rel=\"external\" target=\"_blank\">stronie internetowej WIKA<\/a>. W przypadku jakichkolwiek pyta\u0144 dotycz\u0105cych kalibracji przyrz\u0105d\u00f3w do pomiaru temperatury pozostajemy do<a href=\"https:\/\/iiot.wika.com\/pl\/iiot.WIKA\" rel=\"external\" target=\"_blank\"> Pa\u0144stwa<\/a> dyspozycji.<\/p>\n<p>Dowiedz si\u0119 wi\u0119cej o zasadzie dzia\u0142ania termometr\u00f3w rezystancyjnych i termopar w kolejnych filmikach:<\/p>\n<div data-fullscreen=\"disabled\" data-mode=\"normal\" data-oembed=\"1\" data-provider=\"youtube\" data-reset-after-played id=\"arve-youtube-hxmytpddn7g\" style=\"max-width:900px;\" class=\"arve\">\n<div class=\"arve-inner\">\n<div style=\"aspect-ratio:500\/281\" class=\"arve-embed arve-embed--has-aspect-ratio\">\n<div class=\"arve-ar\" style=\"padding-top:56.200000%\"><\/div>\n<p>\t\t\t<iframe allow=\"accelerometer &apos;none&apos;;autoplay &apos;none&apos;;bluetooth &apos;none&apos;;browsing-topics &apos;none&apos;;camera &apos;none&apos;;clipboard-read &apos;none&apos;;clipboard-write;display-capture &apos;none&apos;;encrypted-media &apos;none&apos;;gamepad &apos;none&apos;;geolocation &apos;none&apos;;gyroscope &apos;none&apos;;hid &apos;none&apos;;identity-credentials-get &apos;none&apos;;idle-detection &apos;none&apos;;keyboard-map &apos;none&apos;;local-fonts;magnetometer &apos;none&apos;;microphone &apos;none&apos;;midi &apos;none&apos;;otp-credentials &apos;none&apos;;payment &apos;none&apos;;picture-in-picture;publickey-credentials-create &apos;none&apos;;publickey-credentials-get &apos;none&apos;;screen-wake-lock &apos;none&apos;;serial &apos;none&apos;;summarizer &apos;none&apos;;sync-xhr;usb &apos;none&apos;;web-share;window-management &apos;none&apos;;xr-spatial-tracking &apos;none&apos;;\" allowfullscreen=\"\" class=\"arve-iframe fitvidsignore\" credentialless data-arve=\"arve-youtube-hxmytpddn7g\" data-lenis-prevent=\"\" data-src-no-ap=\"https:\/\/www.youtube-nocookie.com\/embed\/HXMytpddn7g?feature=oembed&amp;iv_load_policy=3&amp;modestbranding=1&amp;rel=0&amp;autohide=1&amp;playsinline=0&amp;autoplay=0&amp;enablejsapi=1\" frameborder=\"0\" height=\"505.8\" loading=\"lazy\" name=\"\" referrerpolicy=\"strict-origin-when-cross-origin\" sandbox=\"allow-scripts allow-same-origin allow-presentation allow-popups allow-popups-to-escape-sandbox\" scrolling=\"no\" src=\"https:\/\/www.youtube-nocookie.com\/embed\/HXMytpddn7g?feature=oembed&#038;iv_load_policy=3&#038;modestbranding=1&#038;rel=0&#038;autohide=1&#038;playsinline=0&#038;autoplay=0&#038;enablejsapi=1\" title=\"How does a resistance thermometer work? | Resistance thermometers per IEC 60751\" width=\"900\"><\/iframe><\/p><\/div>\n<\/p><\/div>\n<p>\t<script type=\"application\/ld+json\">{\"@context\":\"http:\\\/\\\/schema.org\\\/\",\"@id\":\"https:\\\/\\\/blog-stage.wika.cloudpowered.services\\\/pl\\\/knowhow\\\/kalibracja-przyrzadow-do-pomiaru-temperatury-termopary-vs-termometry-rezystancyjne\\\/#arve-youtube-hxmytpddn7g\",\"type\":\"VideoObject\",\"embedURL\":\"https:\\\/\\\/www.youtube-nocookie.com\\\/embed\\\/HXMytpddn7g?feature=oembed&iv_load_policy=3&modestbranding=1&rel=0&autohide=1&playsinline=0&autoplay=0&enablejsapi=1\",\"name\":\"How does a resistance thermometer work? | Resistance thermometers per IEC 60751\",\"thumbnailUrl\":\"https:\\\/\\\/i.ytimg.com\\\/vi\\\/HXMytpddn7g\\\/hqdefault.jpg\",\"uploadDate\":\"2019-03-08T15:11:46Z\",\"author\":\"WIKA Group\",\"description\":\"What exactly is a resistance thermometer, a Pt100 or a Pt1000 sensor? How do Pt100 and Pt1000 resistance sensors differ? These and other important differences are explained in this video about electrical thermometers.\\n\\n#Temperature #ProcessControl #Thermometer #TemperatureMeasurement #IndustrialAutomation\\n\\n\\u25ac Contents of this video \\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac \\n0:00 Intro \\n0:12 Resistance thermometer working principle\\n0:47 Platinum resistance thermometer range\\n1:21 RTD: accuracy and standard measuring range\\n1:57 Pt100 temperature sensor: an industrial standard\\n2:10 Pt1000 and Pt25: for special cases\\n\\u00a0\\nUsually, two different types of electrical thermometers are used in industrial applications \\u2013 resistance thermometers and thermocouples. How thermocouples work is explained in this video:  With resistance thermometers, the temperature is determined using an ohmic measuring resistor. The \\u201cPt\\u201d in Pt100 stands for the chemical element platinum, the next digit indicates the resistance value of the sensor at zero degrees Celsius. The most frequently used measuring resistor, the Pt100, therefore has an electrical resistance of 100 \\u03a9 (ohms) at 0 \\u00b0C. In special applications, Pt1000 temperature sensors are also used. As the temperature drops or rises, the electrical resistance changes \\u2013 following a defined characteristic curve which is regulated by international standards. The temperature can be determined very precisely on the basis of the measured resistance.\\n\\u00a0\\nAccuracy and measuring ranges of Pt100\\\/Pt1000 temperature probes\\nAs with the traditional dial thermometer (see also our video for correct reading of thermometers:  the resistance thermometer has different accuracy classes. The following applies: The more accurately a resistance thermometer should measure, the more limited its permissible measuring range is. Likewise, you must also consider the type (design) of the measuring resistor.\\nIs a thin-film or wire-wound resistor used? Depending on the measuring resistor selected, there are different temperature measuring ranges based on the IEC 60751 standard. For example, class B wire-wound resistance thermometers have a defined measuring range of -196 \\u00b0C to a maximum of 600 \\u00b0C. If the temperature exceeds or drops below this range, the measured values of the temperature sensors begin to drift so they no longer measure within the defined accuracy and thus the measuring result is falsified. With the current level of technology, for thin-film sensors, this drift is stronger than with wire-wound sensors.\\n\\u00a0\\nFurther information on Pt100 and Pt1000 sensors can be found on our website: \\n\\u00a0\\n\\ud83d\\uded2 With WIKA, you can configure and order the most common resistance thermometers directly in the online shop:  \\n\\n\\ud83c\\udf10 You can find an overview of all resistance thermometers on our website: \\n\\u00a0\\n\\ud83d\\udcd6 Would you like to learn more about resistance thermometers? Then read our blog ( or the technical information on the subject \\u201cOperating limits and accuracies of platinum resistance thermometers per DIN EN IEC 60751\\u201d (\\n\\n-------------------------------------------------------------------------------\\n\\nFollow us on our social media channels:\\n\\ud83d\\udcfa YouTube: \\n\\u2705 LinkedIn:\"}<\/script><\/p>\n<\/div>\n<div data-fullscreen=\"disabled\" data-mode=\"normal\" data-oembed=\"1\" data-provider=\"youtube\" data-reset-after-played id=\"arve-youtube-9wp9u9wcqq0\" style=\"max-width:900px;\" class=\"arve\">\n<div class=\"arve-inner\">\n<div style=\"aspect-ratio:500\/281\" class=\"arve-embed arve-embed--has-aspect-ratio\">\n<div class=\"arve-ar\" style=\"padding-top:56.200000%\"><\/div>\n<p>\t\t\t<iframe allow=\"accelerometer &apos;none&apos;;autoplay &apos;none&apos;;bluetooth &apos;none&apos;;browsing-topics &apos;none&apos;;camera &apos;none&apos;;clipboard-read &apos;none&apos;;clipboard-write;display-capture &apos;none&apos;;encrypted-media &apos;none&apos;;gamepad &apos;none&apos;;geolocation &apos;none&apos;;gyroscope &apos;none&apos;;hid &apos;none&apos;;identity-credentials-get &apos;none&apos;;idle-detection &apos;none&apos;;keyboard-map &apos;none&apos;;local-fonts;magnetometer &apos;none&apos;;microphone &apos;none&apos;;midi &apos;none&apos;;otp-credentials &apos;none&apos;;payment &apos;none&apos;;picture-in-picture;publickey-credentials-create &apos;none&apos;;publickey-credentials-get &apos;none&apos;;screen-wake-lock &apos;none&apos;;serial &apos;none&apos;;summarizer &apos;none&apos;;sync-xhr;usb &apos;none&apos;;web-share;window-management &apos;none&apos;;xr-spatial-tracking &apos;none&apos;;\" allowfullscreen=\"\" class=\"arve-iframe fitvidsignore\" credentialless data-arve=\"arve-youtube-9wp9u9wcqq0\" data-lenis-prevent=\"\" data-src-no-ap=\"https:\/\/www.youtube-nocookie.com\/embed\/9wp9U9wCqQ0?feature=oembed&amp;iv_load_policy=3&amp;modestbranding=1&amp;rel=0&amp;autohide=1&amp;playsinline=0&amp;autoplay=0&amp;enablejsapi=1\" frameborder=\"0\" height=\"505.8\" loading=\"lazy\" name=\"\" referrerpolicy=\"strict-origin-when-cross-origin\" sandbox=\"allow-scripts allow-same-origin allow-presentation allow-popups allow-popups-to-escape-sandbox\" scrolling=\"no\" src=\"https:\/\/www.youtube-nocookie.com\/embed\/9wp9U9wCqQ0?feature=oembed&#038;iv_load_policy=3&#038;modestbranding=1&#038;rel=0&#038;autohide=1&#038;playsinline=0&#038;autoplay=0&#038;enablejsapi=1\" title=\"Thermocouple basic working principles |  How does a thermocouple work?\" width=\"900\"><\/iframe><\/p><\/div>\n<\/p><\/div>\n<p>\t<script type=\"application\/ld+json\">{\"@context\":\"http:\\\/\\\/schema.org\\\/\",\"@id\":\"https:\\\/\\\/blog-stage.wika.cloudpowered.services\\\/pl\\\/knowhow\\\/kalibracja-przyrzadow-do-pomiaru-temperatury-termopary-vs-termometry-rezystancyjne\\\/#arve-youtube-9wp9u9wcqq0\",\"type\":\"VideoObject\",\"embedURL\":\"https:\\\/\\\/www.youtube-nocookie.com\\\/embed\\\/9wp9U9wCqQ0?feature=oembed&iv_load_policy=3&modestbranding=1&rel=0&autohide=1&playsinline=0&autoplay=0&enablejsapi=1\",\"name\":\"Thermocouple basic working principles |  How does a thermocouple work?\",\"thumbnailUrl\":\"https:\\\/\\\/i.ytimg.com\\\/vi\\\/9wp9U9wCqQ0\\\/hqdefault.jpg\",\"uploadDate\":\"2019-05-15T08:33:53Z\",\"author\":\"WIKA Group\",\"description\":\"What is a thermocouple and its working principles? What are the types of thermocouple and how do they work? Up to how many degrees Celsius or Fahrenheit can you use thermocouples? These and other basics are explained in this video.\\n\\n\\u25ac Contents of this video \\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac\\u25ac \\n00:00 - Intro \\n00:04 - How do thermocouples work?\\n00:55 - When is a reference junction compensation necessary when using thermocouples?\\n01:25 - What is a thermoelectric voltage curve and what material pairings are used for it?\\n01:58 - What are the types of thermocouples?\\n\\n#Thermocouple #ThermocoupleWorkingPrinciples #WIKAgroup #ThermocoupleTypes #HowThermocouplesWork \\n\\nThermocouples are made from two wires of different metals, which are in contact with each other at the measuring point. Due to their high vibration resistance, thermocouples that are welded firmly together are used in industrial applications. Thermocouples are temperature sensors that generate a voltage directly dependent on temperature. Compared to resistance thermometers, they are particularly suited for high temperatures up to 1,700 \\u00b0C. \\n\\nThere are a variety of thermocouple types that are suitable for a number of temperature ranges. Their accuracies are defined by the standards IEC 60584-1 and ASTM E230 and can be read in limit value tables. \\n\\n-------------------------------------------------------------------------------\\n\\u00a0\\n\\ud83d\\udd27 A detailed explanation of the \\u201cuse of thermocouples\\u201d can be found in our Technical information IN 00.23, which you can download free of charge from our website: \\n \\n\\ud83c\\udf10 Through our product configurator, which is available for the different types, you can assemble the perfect thermocouple for your application: \\n \\n\\ud83d\\udcf0 Please also read our trade article on \\u201cSpoilt for choice  - Criteria for selecting the most suitable electrical temperature measuring point\\u201d:  \\n \\n\\ud83d\\udcd6 In the following blog post we explain to you mineral-insulated cables, which are important components of electrical thermometers: \\n\\n\\ud83d\\udcfa How a resistance thermometer works is explained in this video: \\n\\n-------------------------------------------------------------------------------\\n\\nFollow us on our social media channels:\\n\\ud83d\\udcfa YouTube: \\n\\ud83c\\udfaf LinkedIn:\"}<\/script><\/p>\n<\/div>\n<p>&nbsp;<\/p>\n<p>&nbsp;<\/p>\n","protected":false},"excerpt":{"rendered":"<p>Przy kalibracji przyrz\u0105d\u00f3w do pomiaru temperatury, termometrom wzorcowym stawiane s\u0105 wysokie wymagania pod wzgl\u0119dem dok\u0142adno\u015bci i odtwarzalno\u015bci, a tym samym stabilno\u015bci d\u0142ugoczasowej. Z tego wzgl\u0119du w laboratoriach stosuje si\u0119 RTD (&#8222;Resistance Temperature Detectors&#8221;) \u2013 tutaj szczeg\u00f3lnie platynowe termometry rezystancyjne \u2013 oraz termopary. Chocia\u017c pe\u0142ni\u0105 one podobn\u0105 funkcj\u0119, pod wieloma wzgl\u0119dami nie mog\u0142yby si\u0119 bardziej r\u00f3\u017cni\u0107. [&hellip;]<\/p>\n","protected":false},"author":111,"featured_media":9264,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[169],"tags":[77,307,292,293,283,299,300],"class_list":["post-9259","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-knowhow","tag-dokladnosc","tag-kalibracja","tag-pt100","tag-pt1000","tag-temperatura","tag-termometr-rezystancyjny","tag-termopara"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.2 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Kalibracja termopary vs. termometry rezystancyjne - Blogu WIKA<\/title>\n<meta name=\"description\" content=\"W procesie kalibracji temperatury, termometrom wzorcowym stawiane s\u0105 wysokie wymagania. 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