Circuit arrangement for identifying network zero crossings

US 8,115,517 B2
Filed: 01/22/2008
Issued: 02/14/2012
Est. Priority Date: 03/28/2007
Status: Expired due to Fees

First Claim

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1. A circuit arrangement for detection of zero crossings of a network voltage of an alternating current network, comprising:

a zero crossing detector, a measurement current being supplied to the zero crossing detector to form a zero crossing signal;

a variable current sink arranged between live conductor and neutral conductor of the alternating current network, wherein the network voltage of the alternating current network constitutes a mains voltage across the live conductor and neutral conductor;

a control unit coupled to receive the mains voltage and dynamically control a level of amplification imparted to the measurement current supplied to the zero crossing detector as a function of amplitude variation of the mains voltage,wherein the variable current sink is arranged in series with an element for electrical isolation,wherein the element for electrical isolation is an optocoupler.

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Abstract

A circuit arrangement for identifying network zero crossings of a network voltage of an alternating current network is provided. A measurement current generated by the network voltage is supplied to a zero crossing detector in order to produce a network zero crossing signal. A current sink is arranged between a live conductor and a neutral conductor of the alternating current network, the current sink allowing the path of a current value of the measurement current generated by the network voltage to be defined.

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9 Claims

1. A circuit arrangement for detection of zero crossings of a network voltage of an alternating current network, comprising:
- a zero crossing detector, a measurement current being supplied to the zero crossing detector to form a zero crossing signal;
  
  a variable current sink arranged between live conductor and neutral conductor of the alternating current network, wherein the network voltage of the alternating current network constitutes a mains voltage across the live conductor and neutral conductor;
  
  a control unit coupled to receive the mains voltage and dynamically control a level of amplification imparted to the measurement current supplied to the zero crossing detector as a function of amplitude variation of the mains voltage,wherein the variable current sink is arranged in series with an element for electrical isolation,wherein the element for electrical isolation is an optocoupler.
- View Dependent Claims (2, 3, 4)
- - 2. The circuit arrangement as claimed in claim 1, wherein the level of amplification imparted by the control unit to the measurement current supplied to the zero crossing detector is limited by a minimum value at least when an amplitude of the mains voltage comprises a maximum value.
  - 3. The circuit arrangement as claimed in claim 1, wherein the variable current sink is a unidirectional current sink.
  - 4. The circuit arrangement as claimed in claim 1, wherein the variable current sink is a bidirectional current sink.

5. An inverter for feeding electrical energy into an alternating current network, comprising:
- a circuit arrangement for detection of zero crossings of a network voltage of an alternating current network, the circuit arrangement comprising;
  
  a zero crossing detector, a measurement current being supplied to the zero crossing detector to form a zero crossing signal;
  
  a variable current sink arranged between live conductor and neutral conductor of the alternating current network, wherein the network voltage of the alternating current network constitutes a mains voltage across the live conductor and neutral conductor;
  
  a control unit coupled to receive the mains voltage and dynamically control a level of amplification imparted to the measurement current supplied to the zero crossing detector as a function of amplitude variation of the mains voltage,wherein the variable current sink is arranged in series with an element for electrical isolation and the element for electrical isolation is an optocoupler.
- View Dependent Claims (6, 7, 8)
- - 6. The inverter as claimed in claim 5, wherein the level of amplification imparted by the control unit to the measurement current supplied to the zero crossing detector is limited by a minimum value at least when an amplitude of the mains voltage comprises a maximum value.
  - 7. The inverter as claimed in claim 5, wherein the variable current sink is a unidirectional or bidirectional current sink.
  - 8. The inverter as claimed in claim 5, wherein the level of amplification imparted by the control unit to the measurement current supplied to the zero crossing detector comprises at least a first level of amplification when the amplitude of the mains voltage is proximate respective zero crossings and further wherein the level of amplification imparted by the control unit to the measurement current supplied to the zero crossing detector comprises a second level of amplification when the amplitude of the mains voltage is proximate respective peak values, wherein the first level of amplification is relatively higher compared to the second level of amplification.

9. A circuit arrangement for detection of zero crossings of a network voltage of an alternating current network, comprising:
- a zero crossing detector, a measurement current being supplied to the zero crossing detector to form a zero crossing signal;
  
  a variable current sink arranged between live conductor and neutral conductor of the alternating current network, wherein the network voltage of the alternating current network constitutes a mains voltage across the live conductor and neutral conductor;
  
  a control unit coupled to receive the mains voltage and dynamically control a level of amplification imparted to the measurement current supplied to the zero crossing detector as a function of amplitude variation of the mains voltage,wherein the level of amplification imparted by the control unit to the measurement current supplied to the zero crossing detector comprises at least a first level of amplification when the amplitude of the mains voltage is proximate respective zero crossings and further wherein the level of amplification imparted by the control unit to the measurement current supplied to the zero crossing detector comprises a second level of amplification when the amplitude of the mains voltage is proximate respective peak values, wherein the first level of amplification is relatively higher compared to the second level of amplification.

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Current Assignee
Siemens AG
Original Assignee
Siemens AG
Inventors
Hallak, Jalal
Primary Examiner(s)
Donovan, Lincoln
Assistant Examiner(s)
Chen, Sibin

Application Number

US12/593,338
Publication Number

US 20100109709A1
Time in Patent Office

1,484 Days
Field of Search

None
US Class Current

327/79
CPC Class Codes

H02M 1/083 for the ignition at the zer...

Circuit arrangement for identifying network zero crossings

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

7 Citations

9 Claims

Specification

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Circuit arrangement for identifying network zero crossings

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

7 Citations

9 Claims

Specification

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Solutions

Use Cases

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