Multiphase power processing circuit and method for control thereof
US-2021408912-A1 · Dec 30, 2021 · US
Method for operating voltage converters connected in parallel
US11909319B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-11909319-B2 |
| Application number | US-202017637670-A |
| Country | US |
| Kind code | B2 |
| Filing date | Aug 10, 2020 |
| Priority date | Aug 30, 2019 |
| Publication date | Feb 20, 2024 |
| Grant date | Feb 20, 2024 |
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- Title
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Abstract
Official abstract text for this publication.
The present invention relates to methods (100) and to a device (200) for operating voltage transformers (210, 220) connected in parallel, wherein the voltage transformers (210, 220) are operated in different operating modes (120, 130) as a function of a determined temperature (Tist) in order to avoid overheating of an individual voltage transformer.
First claim
Opening claim text (preview).
The invention claimed is: 1. A method ( 100 ) for operating voltage converters ( 210 , 220 ) connected in parallel, wherein at least one first and one second voltage converter ( 210 , 220 ) are connected in parallel on an output side, the method comprising the following steps: operating ( 110 ) the voltage converters ( 210 , 220 ) connected in parallel in different operating modes ( 120 , 130 ) depending on (a) a determined temperature (Tact) and a presettable first temperature limit value (Tth) and depending on (b) a determined current (Iact) and a first presettable current limit value (Ith 1 ), operating the voltage converters ( 210 , 220 ) in a first operating mode ( 120 ) when the determined temperature (Tact) is less than the presettable first temperature limit value (Tth), operating the voltage converters ( 210 , 220 ) in a second operating mode ( 130 ) when (c) the determined temperature (Tact) is greater than the presettable first temperature limit value (Tth), and (d) the determined current is less than the first presettable current limit value (Ith 1 ), wherein the operation of the voltage converters ( 210 , 220 ) in the first operating mode ( 120 ) comprises operation of a first of the at least two voltage converters ( 210 , 220 ) and comprises a switched-off state of a second of the at least two voltage converters ( 210 , 220 ), wherein the operation of the voltage converters ( 210 , 220 ) in the second operating mode ( 130 ) comprises two operating phases, wherein a first operating phase ( 140 ) comprises the common parallel operation of the at least two voltage converters ( 210 , 220 ), and a second operating phase ( 150 ) comprises the operation of a selected one of the at least two voltage converters ( 210 , 220 ) and a switched-off state of at least one of the two voltage converters ( 210 , 220 ), wherein the operating phases ( 140 , 150 ) in the second operating mode ( 130 ) are performed with in each case presettable first and second operating durations (D 1 , D 2 ), and wherein the first operating duration (D 1 ) of the first operating phase ( 140 ) lasts for a shorter period of time than the second operating duration (D 2 ) of the second operating phase ( 150 ), and the second operating duration (D 2 ) is longer than one second. 2. A method ( 100 ) for operating voltage converters ( 210 , 220 ) connected in parallel, wherein at least one first and one second voltage converter ( 210 , 220 ) are connected in parallel on an output side, the method comprising the following steps: operating ( 110 ) the voltage converters ( 210 , 220 ) connected in parallel in different operating modes ( 120 , 130 ) depending on (a) a determined temperature (Tact) and a presettable first temperature limit value (Tth), depending on (b) a determined current (Iact) and a first presettable current limit value (Ith 1 ), or depending on both (a) and (b), operating the voltage converters ( 210 , 220 ) in a first operating mode ( 120 ) when the determined temperature (Tact) is less than the presettable first temperature limit value (Tth), operating the voltage converters ( 210 , 220 ) in a second operating mode ( 130 ) when (c) the determined temperature (Tact) is greater than the presettable first temperature limit value (Tth), (d) the determined current is less than the first presettable current limit value (Ith 1 ), or both (c) and (d), operating ( 110 ) the voltage converters ( 210 , 220 ) connected in parallel in different operating modes ( 120 , 130 , 135 ) depending on the total efficiency (G) of the voltage converters ( 210 , 220 ) connected in parallel, operating the voltage converters ( 210 , 220 ) in a third operating mode ( 135 ) when the total efficiency (G) in the third operating mode ( 135 ) is greater than in the first operating mode ( 120 ), and operating the voltage converters ( 210 , 220 ) in the first or second operating mode ( 120 , 130 ) when the total efficiency (G) in the third operating mode ( 135 ) is less than in the first operating mode ( 120 ), wherein the operation of the voltage converters ( 210 , 220 ) in the first operating mode ( 120 ) comprises operation of a first of the at least two voltage converters ( 210 , 220 ) and comprises a switched-off state of a second of the at least two voltage converters ( 210 , 220 ), wherein the operation of the voltage converters ( 210 , 220 ) in the second operating mode ( 130 ) comprises two operating phases, wherein a first operating phase ( 140 ) comprises the common parallel operation of the at least two voltage converters ( 210 , 220 ), and a second operating phase ( 150 ) comprises the operation of a selected one of the at least two voltage converters ( 210 , 220 ) and a switched-off state of at least one of the two voltage converters ( 210 , 220 ).
Assignees
Inventors
Classifications
- H02M3/1584Primary
with a plurality of power processing stages connected in parallel · CPC title
the static converters being arranged for operation in parallel · CPC title
- H02M1/32Primary
Means for protecting converters other than automatic disconnection · CPC title
- H02J1/10Primary
Parallel operation of DC sources · CPC title
Single converters with a plurality of output stages connected in parallel (parallel operation of a plurality of converters in DC distribution networks H02J1/10) · CPC title
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Frequently asked questions
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- What does patent US11909319B2 cover?
- The present invention relates to methods (100) and to a device (200) for operating voltage transformers (210, 220) connected in parallel, wherein the voltage transformers (210, 220) are operated in different operating modes (120, 130) as a function of a determined temperature (Tist) in order to avoid overheating of an individual voltage transformer.
- Who is the assignee on this patent?
- Bosch Gmbh Robert
- What technology area does this patent fall under?
- Primary CPC classification H02M3/1584. Mapped technology areas include Electricity.
- When was this patent published?
- Publication date Tue Feb 20 2024 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 5 related publications on this page (citations in our corpus or others sharing the same primary CPC).