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DIN rail transmitter

Type: PR6335

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6335 temperature transmitter is versatile, intelligent, 2-wire transmitter with HART® communication module for DIN rail mounting. The transmitter is configurable using PC software.

Din rail transmitter is offered in standard version and intrinsically safe certified KEMA 06 ATEX 0115.

 

  • 2-wire HART® transmitter
  • RTD, TC, Ohm or mV input.
  • Extremely high measurement accuracy.
  • Galvanic isolation.
  • HART 5 protocol
  • 1- or 2-channel version.

 

Application:

 

  • Linearized temperature measurement with Pt100...Pt1000, Ni100...Ni1000, or TC sensor.
  • Difference or average temperature measurement of 2 resistance or TC sensors.
  • Conversion of linear resistance variation to a standard analog current signal, for instance from valves or Ohmic level sensors.
  • Amplification of a bipolar mV signal to a standard 4...20 mA current signal.
  • Connection of up to 15 channels to a digital 2-wire signal with HART communication.

 

Technical characteristics:

 

  • Within a few seconds the user can program PR6335 to measure temperatures within all ranges defined by the norms.
  • The RTD and resistance inputs have cable compensation for 2-, 3- and 4-wire connection.
  • The 6335 has beed designed according to strict safety requirements and is thus suitable for application in SIL 2 installations.
  • Continuous check of vital stored data for safety reasons.
  • Sensor error detecion accroding to the guidelines in NAMUR NE89.

 

Mounting / Installation:

 

  • Mounted vertically or horizontally on a DIN rail. As the devices can be mounted without any distance between neighbouring units, up to 84 channels can be mounted per meter.
  • Description
  • 6335 temperature transmitter is versatile, intelligent, 2-wire transmitter with HART® communication module for DIN rail mounting. The transmitter is configurable using PC software.

    Din rail transmitter is offered in standard version and intrinsically safe certified KEMA 06 ATEX 0115.

     

    • 2-wire HART® transmitter
    • RTD, TC, Ohm or mV input.
    • Extremely high measurement accuracy.
    • Galvanic isolation.
    • HART 5 protocol
    • 1- or 2-channel version.

     

    Application:

     

    • Linearized temperature measurement with Pt100...Pt1000, Ni100...Ni1000, or TC sensor.
    • Difference or average temperature measurement of 2 resistance or TC sensors.
    • Conversion of linear resistance variation to a standard analog current signal, for instance from valves or Ohmic level sensors.
    • Amplification of a bipolar mV signal to a standard 4...20 mA current signal.
    • Connection of up to 15 channels to a digital 2-wire signal with HART communication.

     

    Technical characteristics:

     

    • Within a few seconds the user can program PR6335 to measure temperatures within all ranges defined by the norms.
    • The RTD and resistance inputs have cable compensation for 2-, 3- and 4-wire connection.
    • The 6335 has beed designed according to strict safety requirements and is thus suitable for application in SIL 2 installations.
    • Continuous check of vital stored data for safety reasons.
    • Sensor error detecion accroding to the guidelines in NAMUR NE89.

     

    Mounting / Installation:

     

    • Mounted vertically or horizontally on a DIN rail. As the devices can be mounted without any distance between neighbouring units, up to 84 channels can be mounted per meter.
  • Documents
Kalkulator
Unit converter

RTDs and TCs
characteristic calculator

Resistance thermometers

Thermocouples

Cold Junction Compensation = °C

Calculate value of resistance to temperature
(values according to ITS-90 scale)

R = Ω  T = 0 °C

Calculate value of temperature to resistance
(values according to ITS-90 scale)

T = °C R = 0 Ω

Limit values for the calculator

-200 °C - 850 °C

18,52 Ω - 390,48 Ω

Cold Junction Compensation = °C

Calculate value of resistance to temperature
(values according to ITS-90 scale)

R = Ω  T = 0 °C

Calculate value of temperature to resistance
(values according to ITS-90 scale)

T = °C R = 0 Ω

Limit values for the calculator

-60 °C - 250 °C

69,52 Ω - 289,16 Ω

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-210 °C - 1200 °C

-8,095 mV - 69,553 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1372 °C

-6,458 mV - 54,886 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1300 °C

-4,345 mV - 47,513 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1000 °C

-9,835 mV - 76,373 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 400 °C

-6,258 mV - 20,872 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-50 °C - 1768.1 °C

-0,226 mV - 21,103 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-50 °C - 1768.1 °C

-0,236 mV - 18,694 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

0°C - 1820 °C

-0,003 mV - 13,820 mV

Pomoc. Instrukcja użytkownika.

Unit
converter
RTDs and TCs
characteristic calculator