Screw-in probe with B-Head - OH 400 °C
Prices plus VAT plus shipping costs of 4,95 € to GER (incl. VAT)
Delivery time 5 Workdays to NL, BE, AT (GER -1 workdays)
Bitte prüfen Sie, welches Messelement (Thermistortyp oder Pt) für Ihre Anwendung der Passende ist. Wichtige Informationen zum Messelement entnehmen Sie bitte den Kennlinien und Datenblättern. Diese finden Sie in der Langbeschreibung oder in unserem Download-Bereich.
Bei Zwei-Leiter-Schaltungen addiert sich der Eigenwiderstand der Anschlussleitung zum Widerstandswert des Messwiderstands (Thermistor oder Pt) und verfälscht somit das Messergebnis. Ist der Widerstandswert des Messwiderstands groß gegenüber dem Eigenwiderstand der Anschlussleitung, so kann dieser Eigenwiderstand vernachlässigt werden. Bei Messwiderständen mit geringerem Widerstandswert (z.B. PT100), kann der Leitungseigenwiderstand die Messgenauigkeit jedoch signifikant verringern. Aus diesem Grund empfehlen wir die Zwei-Leiter-Technik in Verbindung mit kleinohmigen Messwiderständen nur dann, wenn Sie vergleichsweise kurze Anschlussleitungen, also kleinohmige Anschlussleitungen, verwenden können.
Für Applikationen, die eine sehr genaue Temperaturmessung erfordern, empfehlen wir Ihnen eine Drei- oder sogar Vier-Leiterschaltung zu verwenden.
Bei der Dreileiter-Schaltung wird der Leitungswiderstand jeder der drei angeschlossenen Leitungen mit Hilfe der dritten angeschlossenen Leitung ermittelt (alle Anschlussdrähte müssen exakt gleich lang sein) und anschließend vom gemessenen Gesamtwiderstand (Messwiderstand+Leitungswiderstand) abgezogen werden, so dass effektiv nur der Widerstandswert des Messwiderstands für die Temperaturbestimmung verwendet wird. Diese Subtraktion kann beispielsweise in der Messelelektronik automatisch durchgeführt werden.
Die sicherste und genaueste Messung erreichen Sie mit Hilfe einer Vierleiter-Schaltung. Hier wird auf jeder Seite des Messwiderstands eine zusätzliche Leitung angeschlossen. Zwei Leitungen dienen der Spannungsversorgung, die zwei anderen werden verwendet, um den Leitungswiderstand (ggf. auch asymmetrisch, also auch bei unterschiedlich langen Anschlussdrähtchen) zu ermitteln und vom Messwiderstandswert abzuziehen. Diese Subtraktion kann beispielsweise in der Messelelektronik automatisch durchgeführt werden.
We can offer you calibration on request.
Further information on calibration can be found here.
Sie haben die gewünschte Kalibrierung nicht gefunden? Schreiben Sie uns gerne an webshop@testo-sensor.de.
Sie haben weitere Fragen oder möchten herausfinden, welche Kalibrierung die richtige für Ihren Temperaturfühler ist - dafür haben wir alle Informationen auf dieser Seite für Sie zusammengefasst. Temperaturfühler kalibrieren
| A - Measuring element: | ||
| B - Connection Type: | ||
| C - Mounting length: | ||
| Calibration: | ||
| ISO-Calibration: | ||
| DAkkS-Calibration: | ||
| Quantity: |
- Order number: 803020-8011
Advantages
- We are ready to deliver: All information here
- Advice directly from experts
- Quality directly from the manufacturer
- Long-term stable temperature probes over years
- B2B customers welcome: All information here
Our employee will be happy to help you:
Julian Mäntele
Tel.: +49 (0)7653 96 59 771
E-Mail: jmaentele@testo-sensor.de
Our Screw-in probe with B-head - OH 400 °C is suitable for use up to 400 °C and is installed via the G1/2 " thread. The B-head with the protection sleeve without neck tube is designed according to DIN43772 Form 8 and has a replaceable measuring insert.
Here you can find our downloads for the Screw-in probe with B-Head - OH 400 °C
Screw-in probe with head - General Information | |||||||||||||||||||
| Measuring range | -50 °C to +400 °C depending on the sensor Type | ||||||||||||||||||
| Perm. (°C) conn. head | -40 °C to +100 °C | ||||||||||||||||||
| Accuracy | depending on sensor Type | ||||||||||||||||||
Screw-in probe with head - Supply and output | |||||||||||||||||||
| Max. measurement current | max. 1 mA | ||||||||||||||||||
| Supply voltage | approx. 5 V depending on measurement current | ||||||||||||||||||
| Measurement signal | passive (resistance value) | ||||||||||||||||||
Screw-in probe with head - Ambient conditions | |||||||||||||||||||
| Protection class | IP65 according DIN 60529 | ||||||||||||||||||
| Humidity and moisture condensation resistance | according to application-specific qualification | ||||||||||||||||||
Screw-in probe with head - Certificates and Standards | |||||||||||||||||||
| Standards | DIN EN 61326-1:2013 | DIN EN IEC 63000:2019-05 | ||||||||||||||||||
| Directive | RoHS 2011/65/EU | 2014/30/EU | ||||||||||||||||||
Screw-in probe with head - Technical Drawing | |||||||||||||||||||
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| A - Measuring element | |||||||||||||||||||
| B - Connection Type | |||||||||||||||||||
| C - Mounting length | |||||||||||||||||||
| All dimensions in mm | |||||||||||||||||||
Screw-in probe with head - Measuring element | |||||||||||||||||||
| Measuring element | Perm. range °C | Accuracy / Tolerance resistance | |||||||||||||||||
| Pt100 | -50 °C to +400 °C | Class B dT = ±(0,30 °C + 0,005|t|)1} | |||||||||||||||||
| Pt100 | -50 °C to +300 °C | Class A dT = ±(0,15 °C + 0,002|t|)1} | |||||||||||||||||
| Pt100 | -50 °C to +200 °C | 1/3 Class B dT = ±(1/3 · (0,30 °C + 0,005|t|))1} | |||||||||||||||||
| Pt100 | ±0 °C to +100 °C | 1/10 Class B dT = ±(1/10 · (0,30 °C + 0,005|t|))1} | |||||||||||||||||
| Pt1000 | -50 °C to +400 °C | Class B dT = ±(0,30 °C + 0,005|t|)1} | |||||||||||||||||
| Pt1000 | -50 °C to +300 °C | Class A dT = ±(0,15 °C + 0,002|t|)1} | |||||||||||||||||
| 1} according to IEC 751 / EN 60751 | |||||||||||||||||||
Screw-in probe with head - Possible connections | |||||||||||||||||||
| Measuring element | 2W | 3W | 4W | ||||||||||||||||
| Pt |  | | | ||||||||||||||||
Screw-in probe with head - Protection sleeve | |||||||||||||||||||
| Thread | |||||||||||||||||||
| Length (mm) | 14 | ||||||||||||||||||
| Thread | G1/2 " | ||||||||||||||||||
| Wrench size | 27 | ||||||||||||||||||
| Material | Stainless steel 1.4571 | 316TI | ||||||||||||||||||
| Diameter (mm)1} | 9 | ||||||||||||||||||
| Mounting length (mm)2} | 50, 100, 150, 200, 250, 300, 400, 500 | ||||||||||||||||||
| 1} Tolerance ± 0,1 mm | 2} Tolerance ± 1% | |||||||||||||||||||
Screw-in probe with head - Connection head | |||||||||||||||||||
| Design | Form B | ||||||||||||||||||
| Material | Aluminium | ||||||||||||||||||
| W/H/Ø (mm) | 76/82/70 | ||||||||||||||||||
| Color | RAL 9006 aluminium silver | ||||||||||||||||||
| Cable gland | with strain relief | ||||||||||||||||||
| Cable electricial connection | Screw terminals max. 2,5mm² | ||||||||||||||||||
| Clamping range (mm) | 4,8 to 13 | ||||||||||||||||||
| Sensor unit | Replaceable | ||||||||||||||||||
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Screw-in probe with head - Delivery | |||||||||||||||||||
| Assembly instructions | by means of process connection | ||||||||||||||||||
| Delivery and Packaging | Probe, seperatly packaged in PE bag | ||||||||||||||||||
| Matching accessories | Immersion sleeve, Heat-conducting paste, Cable | ||||||||||||||||||
Screw-in probe with head - Important assembly advices | |||||||||||||||||||
 | Measuring errors can occur due to heat dissipation to the environment. To keep these as small as possible, we recommend immersing the protection sleeve of your temperature probe as deep as possible into the medium to be measured during installation. The optimum installation depth should be 10-15 times the Ø of the protection sleeve or, if an immersion sleeve is used, the Ø of the immersion sleeve. When installing in pipes whose Ø does not have a sufficiently deep installation depth, you should either install the probe at an angle or in a pipe elbow. Make sure that you have enough space so that the probe can be removed again. 1) Installation with sufficient installation depth 2) Installation at an angle with small pipe Ø 3) Not like this: Minimum installation depth not reached | ||||||||||||||||||
 | Installation by using an immersion sleeve (4): Please ensure that the Ø and length of the immersion sleeve are selected to suit the installation situation so that the minimum immersion depth can be achieved. Please also ensure that the process connection is correct. Because the probe is not inserted directly into the medium, but via the immersion sleeve, the response times are somewhat slower. The probe should be selected so that the protection sleeve touches the bottom of the immersion sleeve and the air cushion around the protection tube is as small as possible. The use of thermal conduction paste can improve the response times. | ||||||||||||||||||
| Please lay the cable so that no water can penetrate the probe and with a spare loop (4). This allows you to extend the probe without disconnecting the electrical connection. | |||||||||||||||||||
| Measuring element: | Pt100 1/3 Class B, Pt100 1/10 Class B, Pt100 Class A, Pt100 Class B, Pt1000 Class A, Pt1000 Class B |
| Kalibrierung: | DAkkS-Kalibrierung, ISO-Kalibrierung |
| Temperature range: | -50 °C to +400 °C |
| Connection type: | 2-Wire, 3-Wire, 4-Wire |
| Process connection: | G1/2 " |
| Connection head: | Form B |
| industry: | Air conditioning and ventilation technology, Automotive, Building automation, Food industry, Heating technology, Machinery and apparatus engineering, Pharmaceutical industry, Plastics industry, Power generation, Refrigeration |
- Download Datenblatt Einschraubfühler mit B-Kopf - OH 400 °C
- Download Data Sheet Screw-in probe with B-Head - OH 400 °C
- Download Bedienungsansleitung Einschraubfühler mit B-Kopf - OH 400 °C
- Download Instruction Manual Screw-in probe with B-Head - OH 400 °C
- Download Konformitätserklärung Einschraubfühler mit B-Kopf - OH 400 °C
- Download Kennlinie Pt100
- Download Kennlinie Pt1000
- Download Characteristic Pt100
- Download Characteristic Pt1000
- Download Betriebsanleitung Temperaturfühler
- Download Operating instructions Temperature probe
Testo Sensor GmbH
Testo-Str. 1
D-79853 Lenzkirch
E-Mail: info@testo-sensor.de
