Battery SOC estimation program, wireless transit system, and method of charging the battery
First Claim
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1. A computer readable storage medium containing thereon a battery state of charge (SOC) estimation program execution by a computer to calculate an SOC of a battery mounted on a vehicle in a wireless transit system,wherein an equivalent circuit of the battery is set in the program, the equivalent circuit being composed of three circuit elements connected in series, including:
- (i) a first component resistance which is influenced by instantaneous current variation,(ii) a component circuit which comprises a capacitance and a second component resistance connected in parallel, and which is influenced by slow and excessive response, and(iii) an open circuit voltage of the battery, and wherein the program, when executed by the computer, causes the computer to calculate(a) a value of the first component resistance from measurements of current and voltage of the battery,(b) a value of the second component resistance from the calculated value of the first component resistance and a predetermined value of k, wherek=the second component resistance/the first component resistance,(c) a value of the capacitance from the calculated value of the second component resistance and a predetermined value of τ
, whereτ
=the capacitance×
the second component resistance,(d) a potential of the component circuit from the calculated values of the second component resistance and the capacitance,(e) a value of the open circuit voltage from the calculated potential of the component circuit, and(f) the SOC from the calculated value of the open circuit voltage.
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Abstract
Occurrence of overcharging and over discharging of batteries mounted on vehicles that travel on tracks in a wireless transit system is prevented by estimating a state of charge (SOC) of the batteries with accuracy. An equivalent circuit of the battery is composed of three circuit elements connected in series, including (i) a first component resistance R1 (ii) a component circuit which includes a capacitance C and a second component resistance R2 connected in parallel and (iii) an open circuit voltage of the battery. The open circuit voltage of the equivalent circuit is calculated using R1 calculated from measurements of current and voltage of the battery, as well as values k=R2/R1 and τ=C×R2. The SOC if the battery is calculated from the open circuit voltage.
25 Citations
16 Claims
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1. A computer readable storage medium containing thereon a battery state of charge (SOC) estimation program execution by a computer to calculate an SOC of a battery mounted on a vehicle in a wireless transit system,
wherein an equivalent circuit of the battery is set in the program, the equivalent circuit being composed of three circuit elements connected in series, including: -
(i) a first component resistance which is influenced by instantaneous current variation, (ii) a component circuit which comprises a capacitance and a second component resistance connected in parallel, and which is influenced by slow and excessive response, and (iii) an open circuit voltage of the battery, and wherein the program, when executed by the computer, causes the computer to calculate (a) a value of the first component resistance from measurements of current and voltage of the battery, (b) a value of the second component resistance from the calculated value of the first component resistance and a predetermined value of k, where k=the second component resistance/the first component resistance, (c) a value of the capacitance from the calculated value of the second component resistance and a predetermined value of τ
, whereτ
=the capacitance×
the second component resistance,(d) a potential of the component circuit from the calculated values of the second component resistance and the capacitance, (e) a value of the open circuit voltage from the calculated potential of the component circuit, and (f) the SOC from the calculated value of the open circuit voltage. - View Dependent Claims (2, 3, 4)
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5. A wireless transit system, comprising:
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a track; a plurality of ground facilities distributed along the track, each said ground facility comprising a charging power source device, and a ground power supply device connected to the charging power source device; and a vehicle comprising a battery and adapted to travel on the track by electric power supplied from the battery, said vehicle further comprising an in-vehicle power receiving device adapted to face the ground power supply device for charging the battery from the respective charging power source device when the vehicle makes a stop at any of the ground facilities, a current and voltage detector for detecting current and voltage of the battery, and a controller for calculating a state of charge (SOC) of the battery and for controlling the charging of the battery based on the SOC; wherein an equivalent circuit of the battery is set as being composed of the three circuit elements connected in series, including; (i) a first component resistance which is influenced by instantaneous current variation, (ii) a component circuit which comprises a capacitance and a second component resistance connected in parallel, and which is influenced by slow and excessive response, and (iii) an open circuit voltage of the battery, and wherein the controller is configured to calculate (a) a value of the first component resistance from the detected current and voltage of the battery, (b) a value of the second component resistance from the calculated value of the first component resistance and a predetermined value of k, where k=the second component resistance/the first component resistance, (c) a value of the capacitance from the calculated value of the second component resistance and a predetermined value of τ
, whereτ
=the capacitance×
the second component resistance,(d) a potential of the component circuit from the calculated values of the second component resistance and the capacitance, (e) a value of the open circuit voltage from the calculated potential of the component circuit, and (f) the SOC from the calculated value of the open circuit voltage. - View Dependent Claims (6, 7, 8, 9, 10)
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11. In a wireless transit system, a method of controlling charging of a battery mounted on a vehicle powered by the battery, wherein an equivalent circuit of the battery is set as being composed of three circuit elements connected in series, including:
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(i) a first component resistance which is influenced by instantaneous current variation, (ii) a component circuit which comprises a capacitance and a second component resistance connected in parallel, and which is influenced by slow and excessive response, and (iii) an open circuit voltage of the battery, and said method comprising the following steps performed by a controller of the vehicle;
determining a state of charge (SOC) of the battery by calculating(a) a value of the first component resistance from the detected current and a voltage of the battery, (b) a value of the second component resistance from the calculated value of the first component resistance and a predetermined value of k, where k=the second component resistance/the first component resistance, (c) a value of the capacitance from the calculated value of the second component resistance and a predetermined value of τ
, whereτ
=the capacitance×
the second component resistance,(d) a potential of the component circuit from the calculated values of the second component resistance and the capacitance, (e) a value of the open circuit voltage from the calculated potential of the component circuit, and (f) the SOC from the calculated value of the open circuit voltage; and
controlling the charging of the battery based on the calculated SOC. - View Dependent Claims (12, 13, 14, 15, 16)
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Specification
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Current AssigneeMitsubishi Heavy Industries Engineering, Ltd. (Mitsubishi Heavy Industries, Ltd.)
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Original AssigneeMitsubishi Heavy Industries, Ltd.
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InventorsMitake, Masaya, Yamashita, Hiroshi, Yamada, Masaomi, Katahira, Kousuke, Morita, Katsuaki, Yamaguchi, Masahiro
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Primary Examiner(s)Tso; Edward
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Assistant Examiner(s)RAMADAN, RAMY O
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Application NumberUS12/302,851Publication NumberTime in Patent Office1,174 DaysField of Search320/109, 324/429, 324/430US Class Current320/132CPC Class CodesB60L 2260/56 Temperature prediction, e.g...B60L 3/0046 relating to electric energy...B60L 53/11 DC charging controlled by t...B60L 58/13 Maintaining the SoC within ...B60L 58/14 Preventing excessive discha...B60L 58/15 Preventing overchargingG01R 31/3648 comprising digital calculat...G01R 31/389 Measuring internal impedanc...H02J 2310/48 for electric vehicles [EV] ...H02J 7/0013 acting upon several batteri...H02J 7/00712 the cycle being controlled ...Y02T 10/70 Energy storage systems for ...Y02T 10/7072 Electromobility specific ch...Y02T 90/12 Electric charging stationsY02T 90/14 Plug-in electric vehicles
