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Measuring principle of HVAC temperature sensors in general:
The measuring principle of temperature sensors is based on an internal sensor that outputs a temperature-dependent resistance signal.  
The type of the internal sensor determines the output signal. The following active ⁄ passive temperature sensors are distinguished: 
a)  Pt 100 measuring resistor  (according to DIN EN 60 751)
b)  Pt 1000 measuring resistor  (according to DIN EN 60751)
c)  Ni 1000 measuring resistor  (according to DIN EN 43 760, TCR = 6180 ppm ⁄ K)
d)  Ni 1000_TK 5000 measuring resistor  (TCR = 5000 ppm ⁄ K)
e)  LM235Z, semiconductor IC  (10 mV ⁄ K, 2.73 V ⁄ °C). Ensure correct po ⁄– when connecting!
f)  NTC  (according to DIN 44070)
g) PTC
h)  KTY silicon temperature sensors
The most important resistance characteristics are shown on the last page of these operating instructions. According to their characteristics, 
 individual temperature sensors exhibit different slopes in the range between 0 °C and +100 °C  (TK value). Maximum-possible measuring ranges 
also vary from sensor to sensor (for some examples to this see under technical data).

Note!
Select immersion depth for built-in sensors so that the error caused by heat dissipation stays within the admissible error margins. A standard 
value is: 10 x diameter of protection tube + sensor length. In connection with enclosure-type sensors, particularly with outdoor sensors, please 
consider the influence of thermal radiation. For that purpose, a sunshade and radiation protector SS-02 can be attached. 

Component ................................................................  max. thermal load

Connecting cable
PVC, normal ....................................................................................+70 °C
PVC, heat-stabilized.................................................................... +105 °C
Silicone  ......................................................................................... +180 °C
PTFE  ............................................................................................. +200 °C
Fibreglass insulation with stainless steel texture  ............... +400 °C

Enclosure ⁄ Sensor
see table „Technical Data“

Maximum thermal load on components:

On principle, all temperature sensors shall be 
 protected against unacceptable overheating!

Standard values for individual components and 
 materials selected are shown for operation under  
neutral  atmos phere and otherwise normal 
conditions  
(see table to the right).

For combinations of different insulating materials,  
the  lowest temperature limit shall always apply.

G  

General notes

G  

Resistance characteristics of passive temperature sensors  (see last page)

In order to avoid damages  ⁄ errors, preferably shielded cables are to be used.  
Laying measuring cables parallel with current-carrying  cables must in any case be avoided. EMC directives shall be  observed! 
These instruments must be installed by authorised specialists only!

ATTENTION,  NOTE !
Testing current influences the thermometer‘s measuring accuracy 
due to intrinsic heating and therefore, should never be greater than  
as specified below:
Standard values for testing current:
Sensor current, maximum ................................................................. I 

max.

Pt1000   (thin-layer)  .................................................................. <  0,6 mA
Pt100  (thin-layer)  ....................................................................... <  1,0 mA
Ni1000  (DIN),  Ni1000 TK5000  ............................................. < 0,3 mA
NTC xx  ............................................................................................ < 2 mW
LM235Z ............................................................................. 400  µ A … 5 mA
KTY 81 - 210  .................................................................................... < 2 mA

Limiting deviation according to classes:
Tolerances at 0 °C:

Platinum sensors (Pt100, Pt1000): 
DIN EN 60751, class B ................................................................± 0.3 K
1 ⁄  3 DIN EN 60751, class B ........................................................± 0.1 K

Nickel sensors: 
NI1000 DIN EN 43760, class B .................................................± 0.4 K
NI1000 1 ⁄  2 DIN EN 43760, class B.........................................± 0.2 K
NI1000 TK5000 ...........................................................................± 0.4 K

Содержание THERMASGARD RGTF 2 Series

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Страница 2: ...4 70 10 2 Leiteranschluss Standard 2 wire connection Standard 1x 2 fils Standard 4 Leiteranschluss optional 4 wire connection optional 1x 4 fils en option 98 M20 x1 5 91 M12 80 73 M20 x1 5 6 NL 10 10...

Страница 3: ...durchmesser 6 12 mm RGTF2 Q optional M12 Steckverbinder nach DIN EN 61076 2 101 Einbaustecker 5 polig A Kodierung Abmessungen siehe Ma zeichnung Anschlusskopf Form B Werkstoff Aluminium Farbe Wei alum...

Страница 4: ...lungsschutz SS 02 montiert werden D Allgemeine Informationen Bauteil max Temperaturbelastung Anschlusskabel PVC normal 70 C PVC w rmestabilisiert 105 C Silikon 180 C PTFE 200 C Glasseidenisolation mit...

Страница 5: ...e lich unsere sowie die g ltigen Allgemei nen Lieferbedingungen f r Erzeugnisse und Leistungen der Elektro industrie ZVEI Bedingungen zuz glich der Erg nzungsklausel Erweiterter Eigentumsvorbehalt Hin...

Страница 6: ...ording to DIN EN 61076 2 101 male 5 pin A code Dimensions see dimensional drawing Connecting head form B material aluminium colour white aluminium similar to RAL 9006 ambient temperature 20 100 C Prot...

Страница 7: ...shade and radiation protector SS 02 can be attached Component max thermal load Connecting cable PVC normal 70 C PVC heat stabilized 105 C Silicone 180 C PTFE 200 C Fibreglass insulation with stainless...

Страница 8: ...and Conditions for Business together with the General Conditions for the Supply of Products and Services of the Electrical and Electronics Industry ZVEI conditions including supplementary clause Exten...

Страница 9: ...traction rempla able diam tre int rieur 6 12 mm RGTF2 Q en option connecteur M12 selon DIN EN 61076 2 101 m le 5 p les codage A Dimensions voir plan cot T te de raccordement forme B mat riau aluminiu...

Страница 10: ...compte de l influence du rayonnement thermique Il est possible de monter une protection solaire et anti rayonnement SS 02 disponible en accessoire F G n ralit s Pi ce contrainte thermique maximale C b...

Страница 11: ...ments de l appareil sont complets Seules les CGV de la soci t S S les Conditions g n rales de livrai son du ZVEI pour produits et prestations de l industrie lectronique ainsi que la clause compl menta...

Страница 12: ...A RAL 9006 20 100 C V4A 1 4571 G SW 27 pmax 40 8 HL 80 EL 100 500 G 95 III EN 60 730 IP 54 EN 60 529 RGTF2 IP 65 EN 60 529 RGTF2 KV RGTF2 Q 1x 1 WG03 RGTF2 PT100 xx EL MM Pt100 DIN EN 60 751 RGTF2 PT...

Страница 13: ...0 K 2 73 C NTC DIN 44070 PTC KTY 0 100 C TK 10 x SS 02 r 70 C 105 C 180 C PTFE 200 C 400 C r Imax Pt1000 0 6 A Pt100 1 0 A Ni1000 DIN Ni1000 TK5000 0 3 A NTC xx 2 LM235Z 400 A 5 A KTY 81 210 2 A 0 C P...

Страница 14: ...8 22 24 26 28 30 2 TH ms xx TH VA xx TH VA xx 90 P 1 T 100 200 C P 20 bar T 100 C P 20 bar T 200 C P 1 T 100 200 C P 20 bar T 100 C P 20 bar T 200 C v c l l m 8x0 75 1 4571 TH VA xx TH VA xx 90 8x0 75...

Страница 15: ...l their particular suitability must be verified by each customer and or end user themselves Existing property rights must be observed We warrant the faultless quality of our products as stated in our...

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