Single wound current transformer impedance measurement circuit
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-027/08
G01R-027/18
H02H-003/33
G01R-027/16
G01R-015/18
H02H-001/00
H02H-001/04
출원번호
US-0138534
(2016-04-26)
등록번호
US-9897636
(2018-02-20)
발명자
/ 주소
Beck, Riley D.
Layton, Kent D.
Tyler, Matthew A.
Grange, Scott R.
출원인 / 주소
SEMICONDUCTOR COMPONENTS INDUSTRIES, LLC
대리인 / 주소
Dover, Rennie William
인용정보
피인용 횟수 :
0인용 특허 :
44
초록▼
A single wound single current transformer impedance measurement circuit for determining a circuit element parameter in a ground fault circuit interrupter circuit. The circuit includes a transconductance amplifier having first and second input terminals and first and second output terminals. In an em
A single wound single current transformer impedance measurement circuit for determining a circuit element parameter in a ground fault circuit interrupter circuit. The circuit includes a transconductance amplifier having first and second input terminals and first and second output terminals. In an embodiment, a first detector has input terminal coupled to the first output terminal of the transconductance amplifier and another input terminal coupled for receiving a first electrical signal. A second detector has a terminal coupled to the second output terminal of the transconductance amplifier and an input terminal coupled for receiving the first electrical signal. Alternatively, the second detector has an input terminal coupled to the first output terminal of the transconductance amplifier and another input terminal coupled for receiving the first electrical signal.
대표청구항▼
1. A single wound single current transformer impedance measurement circuit for determining a circuit element parameter, comprising: a transconductance amplifier having first and second input terminals and first and second output terminals; a first detector having first and second input terminals and
1. A single wound single current transformer impedance measurement circuit for determining a circuit element parameter, comprising: a transconductance amplifier having first and second input terminals and first and second output terminals; a first detector having first and second input terminals and an output terminal, the first input terminal of the first detector coupled to the first output terminal of the transconductance amplifier and the second input terminal of the first detector coupled for receiving a first electrical signal; and a second detector having first and second input terminals and an output terminal, the first input terminal of the second detector coupled to the second output terminal of the transconductance amplifier. 2. The single wound single current transformer impedance measurement circuit of claim 1, wherein the first detector detects a real part of an impedance and the second detector detects an imaginary part of the impedance. 3. The single wound single current impedance measurement circuit of claim 1, wherein the first detector comprises: a first modulator having an output terminal and first and second input terminals that serve as the first and second input terminals of the first detector; a first low pass filter having an input terminal and an output terminal, the input terminal of the first low pass filter coupled to the output terminal of the first modulator, and wherein the second detector comprises: a second modulator having an output terminal and first and second input terminals, wherein the first input terminal of the second modulator serves as the first input terminal of the second detector; and a second low pass filter having an input terminal and an output terminal, the input terminal of the second low pass filter coupled to the output terminal of the second modulator. 4. The single wound single current impedance measurement circuit of claim 3, further including a single wound single current transformer circuit having first and second terminals, the first terminal of the single wound single current transformer circuit coupled to the output terminal of the transconductance amplifier. 5. The single wound single current impedance measurement circuit of claim 3, wherein the second detector further includes a phase shifting element having an input terminal and an output terminal, the output terminal of the phase shifting element coupled to the second input terminal of the second modulator and the input terminal of the phase shifting element serving as the second input terminal of the second detector. 6. The single wound single current impedance measurement circuit of claim 3, further including: a first converter having and input terminal and an output terminal, the input terminal of the first converter coupled to the output terminal of the first low pass filter; and a second converter having and input terminal and an output terminal, the input terminal of the second converter coupled to the output terminal of the second low pass filter. 7. The single wound single current impedance measurement circuit of claim 6, wherein the first converter is an analog to digital converter and the second converter is an analog to digital converter. 8. The single wound single current impedance measurement circuit of claim 1, wherein the first detector comprises: a first switch having a control terminal and first and second conduction terminals; a second switch having a control terminal and first and second conduction terminals, wherein the first conduction terminal of the second switch is coupled to the first conduction terminal of the second switch; and a first inverter having an input terminal and an output terminal, the input terminal of the first inverter coupled to the control terminal of the second switch and the output terminal of the first inverter coupled to the control terminal of the first switch; and a first low pass filter having an input terminal and an output terminal, the input terminal of the first low pass filter coupled to the first conduction terminals of the first switch and the second switches; and wherein the second detector comprises: a third switch having a control terminal and first and second conduction terminals; a fourth switch having a control terminal and first and second conduction terminals, wherein the first conduction terminal of the fourth switch is coupled to the first conduction terminal of the third switch; and a second inverter having an input terminal and an output terminal, the input terminal of the second inverter coupled to the control terminal of the fourth switch and the output terminal of the second inverter coupled to the control terminal of the third switch; and a second low pass filter having an input terminal and an output terminal, the input terminal of the second low pass filter coupled to the first conduction terminals of the third switch and the fourth switches. 9. The single wound single current impedance measurement circuit of claim 8, further including: a first converter having a first input terminal, a first output terminal, and a second output terminal, the first input terminal of the first converter coupled to the first output terminal of the transconductance amplifier, the first output terminal of the first converter coupled to the second conduction terminal of the first switch, and the second output terminal of the first converter coupled to the second conduction terminal of the second switch; and a second converter having a first input terminal, a first output terminal, and a second output terminal, the first input terminal of the second converter coupled to the second output terminal of the transconductance amplifier, the first output terminal of the second converter coupled to the second conduction terminal of the third switch, and the second output terminal of the second converter coupled to the second conduction terminal of the fourth switch. 10. The single wound single current impedance measurement circuit of claim 9, wherein the first converter is a current to voltage converter and the second converter is a current to voltage converter. 11. The single wound single current impedance measurement circuit of claim 9, wherein the second detector further includes a phase shifting element having an input and an output, the output of the phase shifting element coupled to the control terminal of the third switch and to the control terminal of the fourth switch. 12. The single wound single current impedance measurement circuit of claim 11, further including: a third converter having and input terminal and an output terminal, the input terminal of the third converter coupled to the output terminal of the first low pass filter; and a fourth converter having and input terminal and an output terminal, the input terminal of the fourth converter coupled to the output terminal of the second low pass filter. 13. The single wound single current impedance measurement circuit of claim 12, further including a single wound single current transformer circuit having first and second terminals, the first terminal of the single wound single current transformer circuit coupled to the output terminal of the transconductance amplifier. 14. A single wound single current transformer impedance measurement circuit for determining a circuit element parameter, comprising: a transconductance amplifier having first and second inputs and first and second outputs, the first output of the transconductance amplifier coupled to a first node; a first switch having a control terminal and first and second conduction terminals, the first conduction terminal of the first switch coupled to the first output of the transconductance amplifier; a second switch having a control terminal and first and second conduction terminals, the first conduction terminal of the second switch coupled to the second output of the transconductance amplifier, the second conduction terminal of the second switch coupled to the second conduction terminal of the first switch; an inverter having an input and an output, the input of the inverter coupled to the control terminal of the second switch and the output of the inverter coupled to the control terminal of the first switch; and a first operational amplifier having first and second inputs and an output, the output of the first operational amplifier coupled to a second node and to the second input of the first operational amplifier. 15. The single wound single current transformer impedance measurement circuit for determining a circuit element parameter of claim 14, wherein the second terminals of the first and second switches are coupled to a third node, and further including: a resistor coupled between the second and third nodes; and a capacitor coupled between the second and third nodes. 16. The single wound single current transformer impedance measurement circuit for determining a circuit element parameter of claim 14, further including a single wound current transformer circuit having first and second terminals, the first terminal of the single wound current transformer circuit coupled to the first node and the second terminal of the single wound current transformer circuit coupled to the second node. 17. The single wound single current transformer impedance measurement circuit for determining a circuit element parameter of claim 16, further including: a second operational amplifier having first and second inputs and an output, the output of the second operational amplifier coupled to a third node; a third switch having a control terminal and first and second conduction terminals, the first conduction terminal of the third switch coupled to the first input of the second operational amplifier, the second conduction terminal of the third switch coupled to the first terminal of the single wound single current transformer; a first resistor coupled between the first node and the first terminal of the single wound single current transformer; and a first capacitor coupled between the first and second terminals of the single wound single current transformer circuit. 18. The single wound single current transformer impedance measurement circuit for determining a circuit element parameter of claim 17, further including: a second resistor coupled between the first input of the second operational amplifier and the output of the operational amplifier; and a third resistor coupled between the output of the second operational amplifier and the third node; and a second capacitor coupled to the third node.
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