JP6557445B2 - 複数のエネルギー貯蔵デバイスを充電する方法および装置 - Google Patents
複数のエネルギー貯蔵デバイスを充電する方法および装置 Download PDFInfo
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- JP6557445B2 JP6557445B2 JP2013104614A JP2013104614A JP6557445B2 JP 6557445 B2 JP6557445 B2 JP 6557445B2 JP 2013104614 A JP2013104614 A JP 2013104614A JP 2013104614 A JP2013104614 A JP 2013104614A JP 6557445 B2 JP6557445 B2 JP 6557445B2
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Description
12 内燃エンジンまたは熱機関、エンジン、内燃エンジンまたは熱機関、熱機関
14 トランスミッション
16 差動装置
18 ドライブシャフト組立体
20 エンジンコントローラ
22 センサ
24 車輪
26 電気モータ、すなわち電気モータ/発電機ユニット、電気モータ、モータ/発電機ユニット
28 ハイブリッド駆動制御システムまたはトルクコントローラ、トルクコントローラ、駆動制御システム
30 エネルギー貯蔵システム、エネルギーストレージ、エネルギーシステム、エネルギー貯蔵ユニット
32 低電圧エネルギーストレージまたはエネルギー電池、低電圧エネルギーストレージ、エネルギー貯蔵ユニット、エネルギー貯蔵システム、エネルギーシステム、エネルギー貯蔵デバイス
34 高電圧エネルギーストレージまたは電力電池、高電圧エネルギーストレージ、エネルギー貯蔵ユニット、エネルギー貯蔵システム、エネルギーシステム、高電圧貯蔵デバイス、エネルギー貯蔵デバイス
36 ウルトラキャパシタ、エネルギー貯蔵ユニット、エネルギー貯蔵システム、エネルギーシステム、エネルギー貯蔵デバイス
38 アクセルペダル
40 ブレーキペダル
42 充電器インタフェース
44 電力入力ライン、入力ライン
46 コントローラまたはコンピュータ、コントローラ
100 エネルギー貯蔵管理システム(ESMS)、ESMS
102 エネルギーポート、ポート
104 直流電気変換デバイスまたは昇降圧型コンバータ、モジュール、昇降圧型コンバータ
106 直流電気変換デバイスまたは昇降圧型コンバータ、モジュール、昇降圧型コンバータ、コンバータ
108 直流電気変換デバイスまたは昇降圧型コンバータ、モジュール、昇降圧型コンバータ、コンバータ
110 第1の方向
112 第2の方向
114 第1のエネルギーポートP1、エネルギーポート
116 第1のユニット
118 第4のエネルギーポートP2、エネルギーポート
120 第2のエネルギーポートP3、エネルギーポート
122 第3のエネルギーポートP4
124 第2のユニット
126 第3のユニット
128 第4のユニット
200 ESMS
202 第1のバックブーストモジュール、バックブーストモジュールM1、モジュール1、モジュールM1
204 第2のバックブーストモジュール、バックブーストモジュールM2、モジュール2、モジュールM2
206 第3のバックブーストモジュール、バックブーストモジュールM3、モジュール3、モジュールM3
208 ポートP1、モジュール1、ポート1、エネルギー貯蔵デバイス
210 ポートP2、モジュール2、ポート2、エネルギー貯蔵デバイス
212 ポートP3、ポート3、充電ポートP3
214 ポートP4、ポート4、エネルギー貯蔵デバイス
216 接触器K3
218 接触器K1、スイッチK1
220 接触器K2
222 接触器K4
224 接触器M
250 シーケンス
300 表
302 例示的な充電のシナリオ1〜5
304 機能
400 構成
402 通信インタフェース
404 エネルギー電池またはウルトラキャパシタ、貯蔵デバイス、デバイス、エネルギー貯蔵デバイス、エネルギー電池、ウルトラキャパシタ
406 ウルトラキャパシタまたはエネルギー電池、貯蔵デバイス、デバイス、エネルギー貯蔵デバイス、エネルギー貯蔵ユニット、電池
408 電力電池、貯蔵デバイス、デバイス、エネルギー貯蔵デバイス、エネルギー貯蔵ユニット、電池
410 交流源または直流源、供給源、デバイス、固定の供給源
412 通信ライン
414 通信ライン
416 通信ライン
418 通信ライン
420 パラメータ
422 全充電電流、総電流
424 パワースプリット
426 限界情報
428 エネルギー貯蔵デバイスパラメータ、パラメータ、デバイスパラメータ情報
430 センサフィードバック、リアルタイムセンサ情報
432 ファン
500 APU
502 スイッチングデバイス
Claims (20)
- コントローラを備える電気自動車であって、
前記コントローラが、
第1及び第2の直流電気コンバータを備えるエネルギー貯蔵管理システム(ESMS)の前記第2の直流電気コンバータに接続されるように構成された高電圧貯蔵デバイスと、前記第2の直流電気コンバータと前記第1の直流電気コンバータとに接続されるように構成された低電圧貯蔵デバイスとからセンサフィードバックを受け取り、
前記高電圧貯蔵デバイス及び前記低電圧貯蔵デバイスのそれぞれの前記センサフィードバックを、それぞれ前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの動作限界と比較し、
前記比較に基づいて、
前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスへの総充電電流と、
前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスへの前記総充電電流のパワースプリットファクタと
を決定し、
前記決定に基づいて、電気充電システムに接続する前記第1の直流電気コンバータの出力電圧及び、前記第2の直流電気コンバータの出力電圧を制御し、前記第1の直流電気コンバータから前記低電圧貯蔵デバイスへおよび前記第1及び第2の直流電気コンバータから前記高電圧貯蔵デバイスへの総電力を調節する
ように構成される、電気自動車。 - 前記ESMSであって、
複数のエネルギーポートであって、ESMSが、前記第1及び第2の直流電気コンバータを備え、各直流電気コンバータが、直流電圧をステップアップおよび直流電圧をステップダウンするように構成され、
前記複数のエネルギーポートの第1のポートが、前記第2の直流電気コンバータのステップアップした電圧側に結合可能な高電圧ポートであり、
前記複数のエネルギーポートの第2のポートが、前記第1の直流電気コンバータのステップダウンした電圧側に結合可能な低電圧ポートであり、
前記複数のエネルギーポートの少なくとも1つが、前記電気充電システムに結合可能である
前記複数のエネルギーポートと、
前記第1のポートに結合された前記高電圧貯蔵デバイスと、
前記第2のポートに結合された前記低電圧貯蔵デバイスと、
前記複数のエネルギーポートのうちの1つに結合された電気充電システムと
を備えるエネルギー貯蔵管理システム(ESMS)を備える、請求項1記載の電気自動車。 - 前記電気充電システムが、前記電気自動車に配置された補助動力装置であり、前記電気自動車が動いている間に、パワーエレクトロニクス変換システムに電力を出力するように構成される、請求項2記載の電気自動車。
- 前記コントローラが、
前記複数のエネルギーポートの各々の電圧を決定し、
それぞれのエネルギーポートごとの前記決定した電圧に基づいて前記パワースプリットファクタを決定する
ように構成される、請求項2または3に記載の電気自動車。 - 前記コントローラが、
前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスから前記センサフィードバックを継続的に受け取り、
前記継続的に受け取ったセンサフィードバックを、それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの前記動作限界と比較して第1及び第2の比較結果を導き、
前記第1及び第2の比較結果に基づいて、前記決定した総充電電流および前記パワースプリットファクタを改定し、
前記改定した決定に基づいて、前記低電圧貯蔵デバイスおよび前記高電圧貯蔵デバイスへの電力を調節する
ように構成される、請求項1乃至4のいずれかに記載の電気自動車。 - 前記コントローラが、前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスへの電力を調節するときに、電力が、前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスのうちのたった1つに向けられるように、前記パワースプリットファクタを決定するように構成される、請求項2乃至4のいずれかに記載の電気自動車。
- それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの前記動作限界が、それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの各々に対応する電流制限および最大温度の少なくとも1つで構成される、請求項1乃至6のいずれかに記載の電気自動車。
- 前記コントローラが、前記センサフィードバックに基づいて、前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスのうちの1つにわたって空気を吹くように配置されるファンを調節するように構成される、請求項1乃至7のいずれかに記載の電気自動車。
- 前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスに結合された電力デバイスを備え、前記電力デバイスが車両ドライブトレイン、無停電電源装置、採掘車ドライブトレイン、および採掘装置のうちの1つを備える、請求項1乃至8のいずれかに記載の電気自動車。
- 電気自動車用のエネルギー貯蔵システムを管理する方法であって、
前記電気自動車の高電圧貯蔵デバイスであって、第1及び第2の直流電気コンバータを備えるエネルギー貯蔵管理システム(ESMS)の前記第2の直流電気コンバータに接続されるように構成された高電圧貯蔵デバイスからセンサフィードバックを受け取るステップと、
前記高電圧貯蔵デバイスからの前記センサフィードバックを、前記高電圧貯蔵デバイスに特有の動作限界と比較するステップと、
前記電気自動車の低電圧貯蔵デバイスであって、前記第2の直流電気コンバータと前記第1の直流電気コンバータとに接続されるように構成された前記低電圧貯蔵デバイスからセンサフィードバックを受け取るステップと、
前記低電圧貯蔵デバイスからの前記センサフィードバックを、前記低電圧貯蔵デバイスに特有の動作限界と比較するステップと、
前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスからの前記比較に基づいて、
前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスへの総充電電流、ならびに
前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスへの前記総充電電流のパワースプリットファクタ
を決定するステップと、
前記決定に基づいて、電気充電システムに接続する前記第1の直流電気コンバータの出力電圧及び、前記第2の直流電気コンバータの出力電圧を制御し、前記第1の直流電気コンバータから前記低電圧貯蔵デバイスへおよび前記第1及び第2の直流電気コンバータから前記高電圧貯蔵デバイスへの総電力を調節するステップと
を含む方法。 - エネルギー貯蔵デバイスパラメータ情報を取得するステップと、前記エネルギー貯蔵デバイスパラメータ情報に基づいて、前記総充電電流および前記パワースプリットファクタを決定するステップとを備え、前記エネルギー貯蔵デバイスパラメータ情報が、それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの各々に対応する充電状態および現在の動作電圧を含む、請求項10記載の方法。
- 前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの前記動作限界が、それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの各々に対応する電流制限および最大温度の少なくとも1つを含む、請求項10または11に記載の方法。
- 前記電気自動車に配置された補助動力装置からの前記低電圧貯蔵デバイスおよび前記高電圧貯蔵デバイスへの総電力を調節するステップをさらに含む、請求項10乃至12のいずれかに記載の方法。
- 前記高電圧貯蔵デバイスが、400V以上で動作電圧を有する電力電池であり、前記低電圧貯蔵デバイスが、120V以下で動作電圧を有するエネルギー電池およびウルトラキャパシタのうちの1つである、請求項10乃至13のいずれかに記載の方法。
- 電気自動車(EV)のエネルギー貯蔵管理システム(ESMS)に結合されたコンピュータ可読記憶媒体であって、コンピュータによって実行されるときに、前記コンピュータに、
前記EVの高電圧貯蔵デバイスであって、第1及び第2の直流電気コンバータを備える前記ESMSの前記第2の直流電気コンバータに接続されるように構成された高電圧貯蔵デバイスおよび前記EVの低電圧貯蔵デバイスであって、前記第2の直流電気コンバータと前記第1の直流電気コンバータとに接続されるように構成された前記低電圧貯蔵デバイスからのセンサフィードバックを受け取らせ、
前記高電圧貯蔵デバイス及び前記低電圧貯蔵デバイスのそれぞれの前記センサフィードバックを、前記高電圧貯蔵デバイス及び前記低電圧貯蔵デバイスのそれぞれの動作限界と比較させ、
前記比較に基づいて、
前記高電圧貯蔵デバイス及び前記低電圧貯蔵デバイスへの総充電電流、および
前記高電圧貯蔵デバイスと前記低電圧貯蔵デバイスの間の前記総充電電流のパワースプリットファクタ
を決定させ、
前記決定に基づいて、電気充電システムに接続する前記第1の直流電気コンバータの出力電圧及び、前記第2の直流電気コンバータの出力電圧を制御し、前記第1の直流電気コンバータから前記低電圧貯蔵デバイスへおよび前記第1及び第2の直流電気コンバータから前記高電圧貯蔵デバイスへの総電力を調節させる
命令を含むコンピュータプログラムを記憶したコンピュータ可読記憶媒体。 - コンピュータが、前記EVに配置され、前記ESMSのポートに結合された補助装置からの前記高電圧貯蔵デバイス及び前記低電圧貯蔵デバイスへの総電力を調節するようにさらになされる、請求項15記載のコンピュータ可読記憶媒体。
- 前記コンピュータが、前記ESMSの複数のエネルギーポートの各々の電圧を決定し、それぞれのエネルギーポートごとの前記決定した電圧に基づいて前記パワースプリットファクタを決定するようにさらになされる、請求項15または16に記載のコンピュータ可読記憶媒体。
- 前記コンピュータが、
前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスからの前記センサフィードバックを継続的に受け取り、
前記継続的に受け取ったセンサフィードバックを、それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの前記動作限界と比較し、
前記決定した総充電電流および前記パワースプリットファクタを改定し、
前記改定に基づいて、前記高電圧貯蔵デバイス及び前記低電圧貯蔵デバイスへの総電力を調節する
ようにさらになされる、請求項15乃至17のいずれかに記載のコンピュータ可読記憶媒体。 - それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの前記動作限界が、それぞれの前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスの各々に対応する電流制限および最大温度の少なくとも1つで構成される、請求項15乃至18のいずれかに記載のコンピュータ可読記憶媒体。
- 前記コンピュータが、前記センサフィードバックに基づいて、前記高電圧貯蔵デバイスおよび前記低電圧貯蔵デバイスのうちの1つにわたって空気を吹くように配置されるファンを調節するようにさらになされる、請求項15乃至19のいずれかに記載のコンピュータ可読記憶媒体。
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US20180354373A1 (en) | 2018-12-13 |
US11318852B2 (en) | 2022-05-03 |
US10081258B2 (en) | 2018-09-25 |
CN103419669B (zh) | 2017-04-12 |
US20220153149A1 (en) | 2022-05-19 |
US20180022221A1 (en) | 2018-01-25 |
US10766372B2 (en) | 2020-09-08 |
US20180022222A1 (en) | 2018-01-25 |
US9821668B2 (en) | 2017-11-21 |
US8981727B2 (en) | 2015-03-17 |
US20130307489A1 (en) | 2013-11-21 |
CN106926718B (zh) | 2020-03-20 |
US11697352B2 (en) | 2023-07-11 |
US20150183328A1 (en) | 2015-07-02 |
US10081257B2 (en) | 2018-09-25 |
US20200130518A1 (en) | 2020-04-30 |
CN106926718A (zh) | 2017-07-07 |
JP2013243914A (ja) | 2013-12-05 |
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