Abstract: Method and apparatus for sustaining process temperature measurement with respect to a lead wire break. A resistance temperature device can include a group of lead wire arms including lead wire arms of a first lead wire type and a second lead wire type. An operation can occur to automatically switch from a first lead wire type configuration to a second lead wire type configuration in the resistance temperature device having the plurality of lead wire arms including the first lead wire type and the second lead wire type, if one or more wire breaks occurs in one or more the lead wire arms.

Abstract: Method and apparatus for sustaining process temperature measurement with respect to a lead wire break. A resistance temperature device can include a group of lead wire arms including lead wire arms of a first lead wire type and a second lead wire type. An operation can occur to automatically switch from a first lead wire type configuration to a second lead wire type configuration in the resistance temperature device having the plurality of lead wire arms including the first lead wire type and the second lead wire type, if one or more wire breaks occurs in one or more the lead wire arms.

Abstract: A method includes coupling an adapter device to a field instrument in an industrial control system to provide a wireless communication capability to the field instrument. The method also includes connecting a first wire and a second wire of the adapter device to a positive wire of a current loop connected to a positive terminal of a communication module of the field instrument. The method also includes connecting a third wire and a fourth wire of the adapter device to a negative wire of the current loop connected to a negative terminal of the communication module of the field instrument. The method also includes disconnecting the positive wire of the current loop between the first wire and the second wire and the negative wire of the current loop between the third wire and fourth wire.

Abstract: A fluid level transmitter combination for placement on a tank having ?2 tank apertures. A first and second flange provides a first, second and third flange aperture over the tank aperture(s). A temperature sensor over the first flange aperture senses a temperature. A first pressure sensor over the second flange aperture senses a first pressure. A second pressure sensor senses a second pressure. A processor is coupled to the output of the second pressure sensor that implements a compensated fluid level determination algorithm using the temperature, first pressure, and second pressure to generate a compensated fluid level measurement for the process fluid. A transmitter is coupled to an output of the processor.

Abstract: A method includes coupling an adapter device to a field instrument in an industrial control system to provide a wireless communication capability to the field instrument. The method also includes connecting a first wire and a second wire of the adapter device to a positive wire of a current loop connected to a positive terminal of a communication module of the field instrument. The method also includes connecting a third wire and a fourth wire of the adapter device to a negative wire of the current loop connected to a negative terminal of the communication module of the field instrument. The method also includes disconnecting the positive wire of the current loop between the first wire and the second wire and the negative wire of the current loop between the third wire and fourth wire.

Abstract: A fluid level transmitter combination for placement on a tank having ?2 tank apertures. At least one flange provides a first, second and third flange aperture over the tank aperture(s). A temperature sensor over the first flange aperture senses a temperature. A first pressure sensor over the second flange aperture senses a first pressure. A level transmitter extends through the third flange aperture for transmitting a pulse signal into the process fluid or at its surface and receiving a pulse echo or a second pressure sensor senses a second pressure. A processor is coupled to the level transceiver or to an output of the second pressure sensor that implements a compensated fluid level determination algorithm using the temperature, first pressure, and pulse echo or second pressure to generate a compensated fluid level measurement for the process fluid. A transmitter is coupled to an output of the processor.

Abstract: A method and system for determining the frequency of a pulse input signal is disclosed. A pulse count and a timer count can be captured at a start and end of a predetermined measurement interval to thereby obtain a start pulse count and an end pulse count and a start pulse time and an end pulse time thereof. A pulse frequency can then be determined, the pulse frequency comprises the end pulse count minus the start pulse count divided by the end pulse time minus the start pulse time, thereby permitting a highly accurate frequency measurement of the pulse input signal to be obtained over a wide frequency range. The pulse count and the timer count can be captured respectively utilizing a pulse counter and a timer. The pulse frequency generally comprises a frequency of an input pulse signal, such that the pulse frequency is determined based on an accuracy dependent only upon a reference timer clock.

Abstract: A method and system for determining the frequency of a pulse input signal is disclosed. A pulse count and a timer count can be captured at a start and end of a predetermined measurement interval to thereby obtain a start pulse count and an end pulse count and a start pulse time and an end pulse time thereof. A pulse frequency can then be determined, the pulse frequency comprises the end pulse count minus the start pulse count divided by the end pulse time minus the start pulse time, thereby permitting a highly accurate frequency measurement of the pulse input signal to be obtained over a wide frequency range. The pulse count and the timer count can be captured respectively utilizing a pulse counter and a timer. The pulse frequency generally comprises a frequency of an input pulse signal, such that the pulse frequency is determined based on an accuracy dependent only upon a reference timer clock.