IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0707744
(2000-11-06)
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발명자
/ 주소 |
- Brewer, Wesley G.
- Wallace, Robert F.
- Miller, Robert C.
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출원인 / 주소 |
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대리인 / 주소 |
Parsons Hsue & de Runtz LLP
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인용정보 |
피인용 횟수 :
42 인용 특허 :
4 |
초록
A holder for one or more electronic circuit cards, such as very small non-volatile memory cards, allows one or more such cards to be easily inserted and removed by hand. The holder, with a card inserted, may conveniently be carried on the person such as by attachment to a key ring or chain.
대표청구항
▼
A holder for one or more electronic circuit cards, such as very small non-volatile memory cards, allows one or more such cards to be easily inserted and removed by hand. The holder, with a card inserted, may conveniently be carried on the person such as by attachment to a key ring or chain. e of the
A holder for one or more electronic circuit cards, such as very small non-volatile memory cards, allows one or more such cards to be easily inserted and removed by hand. The holder, with a card inserted, may conveniently be carried on the person such as by attachment to a key ring or chain. e of the fifth thyristor is operatively connected to a cathode of the sixth thyristor, a fifth leg reactor operatively connected in series with a cathode of the fifth thyristor and the first DC bus line, a sixth leg reactor operatively connected in series with an anode of the sixth thyristor and the second DC bus line, a third cell input operatively connected to the anode of the fifth thyristor; and a third line reactor operatively connected between the third input and the third cell input. 2. The device of claim 1, wherein the diametric cell further comprises: a first snubber circuit operatively connected in parallel with the first thyristor, and a second snubber circuit operatively connected in parallel with the second thyristor. 3. The device of claim 2, wherein each of the first and second snubber circuits respectively comprise: a first snubber terminal; and a second snubber terminal, wherein the first snubber terminal is a terminal of a first resistor, the second snubber terminal is a terminal of a series element, the series element comprises a second resistor and a first capacitor connected in series with the second resistor, the first resistor and the series element are electrically coupled in series between the first snubber terminal and the second snubber terminal, and the series element is connected in parallel with a second capacitor. 4. A load commutated inverter static starter system comprising: a power conversion device having a variable AC output; an AC input voltage source having three phases operatively connected to the power conversion device; and a source bridge rectifier, the source bridge rectifier having a first input, second input and third input; a first DC bus line; a second DC bus line; a first diametric cell operatively connected between the first and second DC bus lines, the first diametric cell having a first thyristor and a second thyristor operatively connected in series such that an anode of the first thyristor is operatively connected to a cathode of the second thyristor, a first leg reactor operatively connected in series with a cathode of the first thyristor and the first DC bus line, a second leg reactor operatively connected in series with an anode of the second thyristor and the second DC bus line, and a first cell input operatively connected to the anode of the first thyristor; and a first line reactor operatively connected between the first input and the first cell input; and a second diametric cell operatively connected between the first and second DC bus lines, the second diametric cell having a third thyristor and a fourth thyristor operatively connected in series such that an anode of the third thyristor is operatively connected to a cathode of the fourth thyristor, a third leg reactor operatively connected in series with a cathode of the third thyristor and the first DC bus line, a fourth leg reactor operatively connected in series with an anode of the fourth thyristor and the second DC bus line, a second cell input operatively connected to the anode of the third thyristor; and a second line reactor operatively connected between the second input and the second cell input; and a third diametric cell operatively connected between the first and second DC bus lines, the third diametric cell having a fifth thyristor and a sixth thyristor operatively connected in series such that an anode of the fifth thyristor is operatively connected to a cathode of the sixth thyristor, a fifth leg reactor operatively connected in series with a cathode of the fifth thyristor and the first DC bus line, a sixth leg reactor operatively connected in series with an anode of the sixth thyristor and the second DC bus line, a third cell input operatively connected to the anode of the fifth thyristor; and third line reactor operatively connected between the third input and the third cell input. 5. The system of claim 4, wherein the diametric cell furth er comprises: a first snubber circuit operatively connected in parallel with the first thyristor, and a second snubber circuit operatively connected in parallel with the second thyristor. 6. The system of claim 5, wherein each of the first and second snubber circuits respectively comprise: a first snubber terminal; and a second snubber terminal, wherein the first snubber terminal is a terminal of a first resistor, the second snubber terminal is a terminal of a series element, the series element comprises a second resistor and a first capacitor connected in series with the second resistor, the first resistor and the series element are electrically coupled in series between the first snubber terminal and the second snubber terminal, and the series element is connected in parallel with a second capacitor. 7. A method for protecting a thyristor in a bridge configuration having a first thyristor and a second thyristor forming a diametric cell, the diametric cell operatively connected between a first DC bus line and a second DC bus line, the method comprising the steps of: operatively associating a three phase bridge rectifier with an AC power supply; operatively associating the first thyristor and the second thyristor with a first and a second leg-line-reactor protection mechanism, respectively; selectively triggering the first thyristor; automatically limiting a rate of change of a current level in the first thyristor using the first leg-line-reactor protection mechanism; and allowing the first thyristor to discontinue conductivity; and wherein the bridge configuration further includes: a second diametric cell operatively connected between the first and second DC bus lines, the second diametric cell having a third thyristor and a fourth thyristor operatively connected in series such that an anode of the third thyristor is operatively connected to a cathode of the fourth thyristor, a third leg reactor operatively connected in series with a cathode of the third thyristor and the first DC bus line, a fourth leg reactor operatively connected in series with an anode of the fourth thyristor and the second DC bus line; and a third diametric cell operatively connected between the first and second DC bus lines, the third diametric cell having a fifth thyristor and a sixth thyristor operatively connected in series such that an anode of the fifth thyristor is operatively connected to a cathode of the sixth thyristor, a fifth leg reactor operatively connected in series with a cathode of the fifth thyristor and the first DC bus line, a sixth leg reactor operatively connected in series with an anode of the sixth thyristor and the second DC bus line. 8. A method for protecting a thyristor in a bridge configuration having a first thyristor and a second thyristor forming a diametric cell, the diametric cell operatively connected between a first DC bus line and a second DC bus line, the method comprising the steps of: operatively associating a three phase bridge rectifier with an AC power supply; operatively associating the first thyristor and the second thyristor with a first and a second leg-line-reactor protection mechanism, respectively; selectively triggering the first thyristor; automatically limiting a rate of change of a voltage level in the second thyristor using the second leg-line-reactor protection mechanism; and allowing the first thyristor to discontinue conductivity; and wherein the bridge configuration further includes: a second diametric cell operatively connected between the first and second DC bus lines, the second diametric cell having a third thyristor and a fourth thyristor operatively connected in series such that an anode of the third thyristor is operatively connected to a cathode of the fourth thyristor, a third leg reactor operatively connected in series with a cathode of the third thyristor and the first DC bus line, a fourth leg reactor operatively connected in seri
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