INTELLECTUM VIRTUS
INTELLECTUM VIRTUS
INTELLECTUM VIRTUS
INTELLECTUM VIRTUS
INTELLECTUM VIRTUS
ELECTRICAL ENGINEERING
ELECTRICAL ENGINEERING
ELECTRICAL ENGINEERING
ELECTRICAL ENGINEERING
ELECTRICAL ENGINEERING
THERMOCOUPLE REFERENCE
THERMOCOUPLE REFERENCE
THERMOCOUPLE REFERENCE
THERMOCOUPLE REFERENCE
THERMOCOUPLE REFERENCE
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Types B, E, J, K, N, R, S & T
Temperature Range: | +250 to +1,820°C | ||
Sensitivity: | 5 to 10 μV/°C | ||
− Contact: | Platinum – 6% Rhodium (PT-6Rh) | ||
+ Contact: | Platinum – 30% Rhodium (PT-30Rh) |
Temperature Range: | +250 to +1,820°C | ||
Sensitivity: | 5 to 10 μV/°C | ||
− Contact: | Platinum – 6% Rhodium (PT-6Rh) | ||
+ Contact: | Platinum – 30% Rhodium (PT-30Rh) |
Temperature Range: | +250 to +1,820°C | ||
Sensitivity: | 5 to 10 μV/°C | ||
− Contact: | Platinum – 6% Rhodium (PT-6Rh) | ||
+ Contact: | Platinum – 30% Rhodium (PT-30Rh) |
Temperature Range: | +250 to +1,820°C | ||
Sensitivity: | 5 to 10 μV/°C | ||
− Contact: | Platinum – 6% Rhodium (PT-6Rh) | ||
+ Contact: | Platinum – 30% Rhodium (PT-30Rh) |
Temperature Range: | +250 to +1,820°C | ||
Sensitivity: | 5 to 10 μV/°C | ||
− Contact: | Platinum – 6% Rhodium (PT-6Rh) | ||
+ Contact: | Platinum – 30% Rhodium (PT-30Rh) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type B |
Thermocouple Translation Table: Type B |
Thermocouple Translation Table: Type B |
Thermocouple Translation Table: Type B |
Thermocouple Translation Table: Type B |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
Temperature Range: | -270 to +1000°C | ||
Sensitivity: | 40 to 80 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1000°C | ||
Sensitivity: | 40 to 80 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1000°C | ||
Sensitivity: | 40 to 80 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1000°C | ||
Sensitivity: | 40 to 80 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1000°C | ||
Sensitivity: | 40 to 80 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type E |
Thermocouple Translation Table: Type E |
Thermocouple Translation Table: Type E |
Thermocouple Translation Table: Type E |
Thermocouple Translation Table: Type E |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
J | ||
B · E · J · K · N · R · S · T |
J | ||
B · E · J · K · N · R · S · T |
J | ||
B · E · J · K · N · R · S · T |
J | ||
B · E · J · K · N · R · S · T |
J | ||
B · E · J · K · N · R · S · T |
Temperature Range: | -210 to +1200°C | ||
Sensitivity: | 50 to 60 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Iron (Fe) |
Temperature Range: | -210 to +1200°C | ||
Sensitivity: | 50 to 60 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Iron (Fe) |
Temperature Range: | -210 to +1200°C | ||
Sensitivity: | 50 to 60 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Iron (Fe) |
Temperature Range: | -210 to +1200°C | ||
Sensitivity: | 50 to 60 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Iron (Fe) |
Temperature Range: | -210 to +1200°C | ||
Sensitivity: | 50 to 60 μV/°C | ||
− Contact: | Constantan (Cu + 43% Ni) | ||
+ Contact: | Iron (Fe) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type J |
Thermocouple Translation Table: Type J |
Thermocouple Translation Table: Type J |
Thermocouple Translation Table: Type J |
Thermocouple Translation Table: Type J |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
K | ||
B · E · J · K · N · R · S · T |
K | ||
B · E · J · K · N · R · S · T |
K | ||
B · E · J · K · N · R · S · T |
K | ||
B · E · J · K · N · R · S · T |
K | ||
B · E · J · K · N · R · S · T |
Temperature Range: | -270 to +1372°C | ||
Sensitivity: | 28 to 42 μV/°C | ||
− Contact: | Alumel (Ni + Al + 2% Mn +1% Si) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1372°C | ||
Sensitivity: | 28 to 42 μV/°C | ||
− Contact: | Alumel (Ni + Al + 2% Mn +1% Si) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1372°C | ||
Sensitivity: | 28 to 42 μV/°C | ||
− Contact: | Alumel (Ni + Al + 2% Mn +1% Si) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1372°C | ||
Sensitivity: | 28 to 42 μV/°C | ||
− Contact: | Alumel (Ni + Al + 2% Mn +1% Si) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
Temperature Range: | -270 to +1372°C | ||
Sensitivity: | 28 to 42 μV/°C | ||
− Contact: | Alumel (Ni + Al + 2% Mn +1% Si) | ||
+ Contact: | Chromel (Ni + 10% Cr) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type K |
Thermocouple Translation Table: Type K |
Thermocouple Translation Table: Type K |
Thermocouple Translation Table: Type K |
Thermocouple Translation Table: Type K |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … In the 0°C to 1372°C range there is also an exponential term that must be evaluated and added to the equation. The exponential term is of the form: c0exp[c1(t-126.9686)2] , where t is the temperature in °C and c0 and c1 are the coefficients. Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … In the 0°C to 1372°C range there is also an exponential term that must be evaluated and added to the equation. The exponential term is of the form: c0exp[c1(t-126.9686)2] , where t is the temperature in °C and c0 and c1 are the coefficients. Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … In the 0°C to 1372°C range there is also an exponential term that must be evaluated and added to the equation. The exponential term is of the form: c0exp[c1(t-126.9686)2] , where t is the temperature in °C and c0 and c1 are the coefficients. Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … In the 0°C to 1372°C range there is also an exponential term that must be evaluated and added to the equation. The exponential term is of the form: c0exp[c1(t-126.9686)2] , where t is the temperature in °C and c0 and c1 are the coefficients. Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … In the 0°C to 1372°C range there is also an exponential term that must be evaluated and added to the equation. The exponential term is of the form: c0exp[c1(t-126.9686)2] , where t is the temperature in °C and c0 and c1 are the coefficients. Coefficients extracted from NIST Monograph 175. |
N | ||
B · E · J · K · N · R · S · T |
N | ||
B · E · J · K · N · R · S · T |
N | ||
B · E · J · K · N · R · S · T |
N | ||
B · E · J · K · N · R · S · T |
N | ||
B · E · J · K · N · R · S · T |
Temperature Range: | -270 to +1300°C | ||
Sensitivity: | 24 to 38 μV/°C | ||
− Contact: | Nisil (Ni + 4.5% Si + 0. 1% Mg) | ||
+ Contact: | Nicrosil (Ni + 14% Cr + 1.5% Si) |
Temperature Range: | -270 to +1300°C | ||
Sensitivity: | 24 to 38 μV/°C | ||
− Contact: | Nisil (Ni + 4.5% Si + 0. 1% Mg) | ||
+ Contact: | Nicrosil (Ni + 14% Cr + 1.5% Si) |
Temperature Range: | -270 to +1300°C | ||
Sensitivity: | 24 to 38 μV/°C | ||
− Contact: | Nisil (Ni + 4.5% Si + 0. 1% Mg) | ||
+ Contact: | Nicrosil (Ni + 14% Cr + 1.5% Si) |
Temperature Range: | -270 to +1300°C | ||
Sensitivity: | 24 to 38 μV/°C | ||
− Contact: | Nisil (Ni + 4.5% Si + 0. 1% Mg) | ||
+ Contact: | Nicrosil (Ni + 14% Cr + 1.5% Si) |
Temperature Range: | -270 to +1300°C | ||
Sensitivity: | 24 to 38 μV/°C | ||
− Contact: | Nisil (Ni + 4.5% Si + 0. 1% Mg) | ||
+ Contact: | Nicrosil (Ni + 14% Cr + 1.5% Si) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type N |
Thermocouple Translation Table: Type N |
Thermocouple Translation Table: Type N |
Thermocouple Translation Table: Type N |
Thermocouple Translation Table: Type N |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
R | ||
B · E · J · K · N · R · S · T |
R | ||
B · E · J · K · N · R · S · T |
R | ||
B · E · J · K · N · R · S · T |
R | ||
B · E · J · K · N · R · S · T |
R | ||
B · E · J · K · N · R · S · T |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type R |
Thermocouple Translation Table: Type R |
Thermocouple Translation Table: Type R |
Thermocouple Translation Table: Type R |
Thermocouple Translation Table: Type R |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
S | ||
B · E · J · K · N · R · S · T |
S | ||
B · E · J · K · N · R · S · T |
S | ||
B · E · J · K · N · R · S · T |
S | ||
B · E · J · K · N · R · S · T |
S | ||
B · E · J · K · N · R · S · T |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 12 μV/°C | ||
− Contact: | Platinum + 10% Rhodium (PT-10Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 12 μV/°C | ||
− Contact: | Platinum + 10% Rhodium (PT-10Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 12 μV/°C | ||
− Contact: | Platinum + 10% Rhodium (PT-10Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 12 μV/°C | ||
− Contact: | Platinum + 10% Rhodium (PT-10Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 12 μV/°C | ||
− Contact: | Platinum + 10% Rhodium (PT-10Rh) | ||
+ Contact: | Platinum (Pt) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type S |
Thermocouple Translation Table: Type S |
Thermocouple Translation Table: Type S |
Thermocouple Translation Table: Type S |
Thermocouple Translation Table: Type S |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
|
|
|
||
|
|
|
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
The equations are: E = c0 + c1t + c2t2 + c3t3 + … cntn, where E is the EMF in millivolts, t is the temperature in degrees Celsius, and c0, c1, c2, c3, … Coefficients extracted from NIST Monograph 175. |
T | ||
B · E · J · K · N · R · S · T |
T | ||
B · E · J · K · N · R · S · T |
T | ||
B · E · J · K · N · R · S · T |
T | ||
B · E · J · K · N · R · S · T |
T | ||
B · E · J · K · N · R · S · T |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
Temperature Range: | -50 to +1768°C | ||
Sensitivity: | 8 to 14 μV/°C | ||
− Contact: | Platinum – 13% Rhodium (PT-13Rh) | ||
+ Contact: | Platinum (Pt) |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INT | USA | JPN | UK | DEU | FRA |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
INTERNATIONAL STANDARD IEC 60584-3 | USA: ANSI MC 96.1 | JAPAN: JIS C 1610-1981 | UK: BS 1843 | FRANCE: NFC 42324 | GERMANY: DIN 13711 |
Thermocouple Translation Table: Type T |
Thermocouple Translation Table: Type T |
Thermocouple Translation Table: Type T |
Thermocouple Translation Table: Type T |
Thermocouple Translation Table: Type T |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
Thermocouple emf in Millivolts as a Function of Temperature in Degrees Celsius. Reference Junctions at 0°C |
|
|
|
|
|
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
Temperature & Coefficients of Equations (Used within the Above Tables) |
|
|
|
||
|
|
|
|
|
|
||
|
|