DE102008043178A1 - Field device for process automation technology, has control unit including current measurement unit that determines value of intensity of current applied at interface and flowing via control element - Google Patents

Abstract

The device (1) has a current measurement unit (11) for determining a value of intensity of a current applied at an interface (2) and flowing via a control element (12). The control element compares the determined value with a reference value set by a presetting unit (3). The control element controls the intensity via an adjusting element (13), based on the comparison. A current measurement unit (21) of a control unit (20) and the former measurement unit are connected in series. The latter measurement unit determines another value of the intensity.

Description

The The invention relates to a field device of process automation technology, with at least one interface for outputting a current signal, and with at least one default unit, which at least one desired current of the Pretends current signal.

in the The state of the art is field devices, in particular measuring instruments known which signals and in particular measured values as 4 ... 20 Output mA signals. about the associated current output of the field devices, these are partially or Completely energized. Therefore, such field devices also as loop-fed field devices or transmitter called. If there is an error in the field device, so a so-called error signal is output, which is usually outside the actual signal range is between 4 and 20 mA. The Error signal is thus either below 4 mA (preferably below 3.6 mA; Low alarm) or above 20 mA (preferably above 21 mA; High-alarm).

Around ensure that the current signal is also the required, z. B. has a measured value associated with current, it is capable the technique is common, the set current to read and compare with the setpoint.

Of the Invention is based on the proposal to propose a field device, its current signal monitoring is subjected.

The Invention solves the task in that at least one control unit provided is, where the amperage the current signal, which is applied to the interface depends from the current the stream which over the control unit flows, wherein the control unit and the default unit are connected in parallel, that at least a first control device and a second control device are provided, wherein the first control device parallel to the control unit and arranged to the default unit, wherein the first control device at least a first current measuring unit, a first regulator element and a first actuator, wherein the first current measuring unit a first value for the current strength a current applied to the interface determined, wherein the first controller element the first determined value with one of compares the default unit predetermined first setpoint and starting from the comparison over the first actuating element influences the current intensity of the current, which over the control unit flows, wherein the second control device at least one second current measuring unit wherein the first current measuring unit and the second current measuring unit are connected in series, and wherein the second current measuring unit a second value for the current strength of the current applied to the interface. By the Invention thus become the usual Functions of a current output - measured value transmission and error indication - by one Diagnostic function and a redundant residual current output extended. This redundant output therefore ensures that even in the Case that the diagnosis indicates a deviation of a control device, the fault current is still safely output by the other control device becomes.

A Embodiment provides that the predetermined by the default unit first setpoint substantially equal to the setpoint current of the Current signal is.

A Embodiment includes that the second control device, the second Current measuring unit, a second regulator element and a second actuator having.

A Embodiment provides that the second controller element determined the second Value with a predetermined by the default unit second setpoint compares and starting from the comparison via the second actuator the current strength of the current, which over the control unit flows.

A Embodiment includes that the default unit determined the second Receives value, and that the default unit in the case that the second determined Value deviates from the first setpoint, the first setpoint and / or sets the second setpoint to an alarm value.

A Embodiment provides that the first actuator and the second Control element are connected in series.

A Embodiment includes that the first actuator and the second control element are connected in parallel.

An embodiment provides that the default unit receives the second determined value, and the default unit controls the control unit on the basis of the comparison of the second determined value with the first setpoint value. The default unit switches off, for example, the control unit.

A Embodiment includes that it is at the control unit to a Shunt regulator acts.

The The invention will be explained in more detail with reference to the following drawings.

It shows:

1 A first variant of an implementation of the invention

2 : a second variant, and

3 : a third variant.

In the 1 a first variant of the implementation of the invention is shown. In particular, the two control elements are 13 . 23 arranged in a row.

Shown is the field device according to the invention 1 with an interface 2 for the output of the current signal. The field device 1 will be through this interface 2 for example, also supplied with the necessary energy. A default unit is provided 3 , which specifies the current strength of the current signal. This is, for example, a microprocessor, which, starting from the measurement signal of a - not shown here - sensor unit, a value for a process variable -. As temperature, level, flow, etc. - determined and communicates this value on the current strength of the current signal to the outside.

The first control device 10 consists here of a first current measuring unit 11 , a first regulator element 12 and a first actuator 13 , These three units or elements 11 . 12 . 13 Here clearly simplified represent a control loop. The through the interface 2 flowing current, ie the so-called loop current is through the first current measuring unit 11 measured or the first current measuring unit 11 generates a first measured value of this current. The first controller element 12 compares this first measured value with a first desired value, which is from the default unit 3 is predetermined, and controls based on it by means of the first control element 13 the current, which is via the control unit 30 flows. At the control unit 30 it is for example a shunt regulator, z. B. a Zener diode. The control unit 30 is parallel to the first control device 10 and parallel to the default unit 3 arranged. Ie. in normal operation, the control device is used 10 or control arrangement of the output of the loop current, which assumes values in normal operation preferably between 4 and 20 mA.

The second control device 20 is essentially analogous to the first control device 10 configured, ie a second current measuring unit 21 , a second regulator element 22 and a second actuator 23 are altogether parallel to the first control device 10 arranged (the representation is also greatly simplified here). From the second current measuring unit 21 , which are in series with the first current measuring unit 11 is arranged, a second value for the current is determined. This second value serves for a second controller element 22 for comparison with a second set point, which is from the default unit 3 is given, and starting from the second actuator 23 the adjustment of the current via the control unit 30 , On the other hand, this second value arrives at the default unit 3 which, starting from the evaluation of the second value, if necessary, sets the setpoint values to the assigned alarm levels.

The second rule arrangement 20 In normal operation, for example, it works as a current limiting to a value which is above the high alarm (eg greater than 21 mA), ie in particular that the second setpoint is greater than the first setpoint. In this case, by the second control device 20 the first control device 10 unaffected.

The diagnostic function is done by means of the (second) measured value of the second current measuring unit 21 , This second measured value can also be identical to the above-mentioned first value. Diverges this value and thus the current at the interface 2 For example, the two setpoint values of the first and the second control device become-in particular in the case of the redundant fault current output-the applied current signal from the setpoint value 10 . 20 set to low alarm. In this variant, the low alarm should preferably be output in the event of an error since, in addition, there is an error in the current measuring unit 21 exists, due to which the control arrangement 20 may not work.

The variant of 2 differs from the design of the 1 in that the first actuator 13 and the second actuator 23 are connected in parallel to each other. The second control device 20 In normal operation, it operates with a setpoint value which is below the low-alarm value (eg, less than 3.6 mA), with the result that the second setpoint value is less than the first setpoint value. This will be the first control device 10 unaffected. The other function is according to the 1 described variant. For the redundant fault current output, a high alarm is to be generated here.

In the variant of 3 has the second control device 20 only the second current measuring unit 21 , This is accompanied in this embodiment that the second control device 20 does not directly affect the current, which via the control unit 30 flows. Nevertheless, the second measured value for the current intensity of the current applied to the interface reaches the presetting unit 3 and is evaluated there accordingly. The control unit 30 is designed here in particular as a disconnectable shunt regulator, which directly from the default unit 3 is controlled.

If the second measured value differs from the nominal value of the current signal, then, for example, the first setpoint value with which the first control device 10 works, set to the low alarm value (low alarm) and at the same time becomes the shunt regulator 30 from the default unit 3 switched off. In a further embodiment, only the shunt regulator is in case of a deviation 30 switched off. The current at the interface 2 thus reduces to that of the field device 1 absorbed current, which must be less than 3.6 mA for the error signaling. Thus, as in the two variants described above, regardless of where the cause of the diagnosed fault is, the current signal is at the current value associated with the alarm (here, in particular, at low alarm). List of Reference Numerals Table 1 1 field device 2 interface 3 default unit 10 First control device 11 First current measuring unit 12 First controller element 13 First actuator 20 Second control device 21 Second current measuring unit 22 Second regulator element 23 Second actuator 30 control unit

Claims (9)

Field device ( 1 ) of the process automation technology, with at least one interface ( 2 ) for outputting a current signal, and with at least one default unit ( 3 ), which specifies at least one desired current intensity of the current signal, characterized in that at least one control unit ( 30 ) is provided, wherein the current strength of the current signal, which at the interface ( 2 ) depends on the current intensity of the current, which via the control unit ( 30 ), the control unit ( 30 ) and the default unit ( 3 ) are connected in parallel, that at least one first control device ( 10 ) and a second control device ( 20 ) are provided, wherein the first control device ( 10 ) parallel to the control unit ( 30 ) and the default unit ( 3 ), wherein the first control device ( 10 ) at least a first current measuring unit ( 11 ), a first control element ( 12 ) and a first actuator ( 13 ) having, the first current measuring unit ( 11 ) a first value for the amperage at the interface ( 2 ) applied current, wherein the first control element ( 12 ) the first determined value with one of the default unit ( 3 ) predetermined first setpoint value and starting from the comparison via the first control element ( 13 ) affects the current intensity of the current, which via the control unit ( 30 ) flows, wherein the second control device ( 20 ) at least one second current measuring unit ( 21 ), wherein the first current measuring unit ( 11 ) and the second current measuring unit ( 21 ) are connected in series, and wherein the second current measuring unit ( 21 ) a second value for the current at the interface ( 2 ) applied current. Apparatus according to claim 1, characterized in that the of the default unit ( 3 ) predetermined first setpoint is substantially equal to the desired current strength of the current signal. Apparatus according to claim 1 or 2, characterized in that the second control device ( 20 ) the second current measuring unit ( 21 ), a second control element ( 22 ) and a second actuator ( 23 ) having. Apparatus according to claim 3, characterized in that the second control element ( 22 ) the second determined value with one of the default unit ( 3 ) compares predetermined second setpoint and starting from the comparison via the second control element ( 23 ) affects the current intensity of the current, which via the control unit ( 30 ) flows. Apparatus according to claim 4, characterized in that the default unit ( 3 ) receives the second determined value, and that the default unit ( 3 ) in the event that the second determined value deviates from the first setpoint value sets the first setpoint value and / or the second setpoint value to an alarm value. Device according to one of claims 3 to 5, characterized in that the first actuating element ( 13 ) and the second actuator ( 23 ) are connected in series. Device according to one of claims 3 to 5, characterized in that the first actuating element ( 13 ) and the second actuator ( 23 ) are connected in parallel. Apparatus according to claim 1 or 2, characterized in that the default unit ( 3 ) receives the second determined value, and that the default unit ( 3 ) starting from the comparison of the second determined value with the first desired value, the control unit ( 30 ) controls. Device according to one of claims 1 to 8, characterized in that it is in the control unit ( 30 ) is a shunt regulator.