Current sense circuit for measuring a charge level of a battery
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-027/416
G01R-031/36
G01R-019/00
G01R-001/20
출원번호
US-0055057
(2013-10-16)
등록번호
US-9217777
(2015-12-22)
우선권정보
GB-1222326.9 (2012-12-12)
발명자
/ 주소
Knill, Alexander
출원인 / 주소
Sony Corporation
대리인 / 주소
Oblon, McClelland, Maier & Neustadt, L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A current sense circuit for measuring a charge level of a battery is disclosure. The circuit comprising: a shunt resistor (R10) connected between a high side terminal of the battery and a load/charge terminal for connecting the battery to a load;translation circuitry arranged to produce a voltage ac
A current sense circuit for measuring a charge level of a battery is disclosure. The circuit comprising: a shunt resistor (R10) connected between a high side terminal of the battery and a load/charge terminal for connecting the battery to a load;translation circuitry arranged to produce a voltage across a pair of current sense terminals (GG_SRP, GG_SRN) in proportion to the voltage across the shunt resistor;whereinone of the current sense terminals (GG_SRP) is provided on a first current path connected at one end between the high side terminal of the battery and the shunt resistor (R10), and connected at the other end to ground, andthe other of the current sense terminals (GG_SRN) is provided on a second current path connected at one end between the shunt resistor (R10) and the load/charge terminal, and connected at the other end to ground.
대표청구항▼
1. A current sense circuit for measuring a charge level of a battery, the circuit comprising: a shunt resistor connected between a high side terminal of the battery and a load/charge terminal for connecting the battery to a load; andtranslation circuitry arranged to produce a voltage across a pair o
1. A current sense circuit for measuring a charge level of a battery, the circuit comprising: a shunt resistor connected between a high side terminal of the battery and a load/charge terminal for connecting the battery to a load; andtranslation circuitry arranged to produce a voltage across a pair of current sense terminals in proportion to the voltage across the shunt resistor, whereinone of the current sense terminals is provided on a first current path connected at one end between the high side terminal of the battery and the shunt resistor, and connected at the other end to ground,the other of the current sense terminals is provided on a second current path connected at one end between the shunt resistor and the load/charge terminal, and connected at the other end to ground,said first current path comprises a first resistor via which said one of the current sense terminals is connected to ground and a second resistor and a first transistor provided in series via which said one of the current sense terminals is connected to the high side terminal of the battery, andsaid second current path comprises a third resistor via which said other of the current sense terminals is connected to ground and a fourth resistor and a second transistor provided in series via which said other of the current sense terminals is connected to the load/charge terminal. 2. A current sense circuit according to claim 1, wherein the first resistor has the same resistance as the second resistor, and the third resistor has the same resistance as the fourth resistor, andsaid first transistor and said second transistor together control the voltage drop across the second resistor and the combined voltage drop across the fourth resistor and the shunt resistor to be substantially the same. 3. A current sense circuit according to claim 2, wherein the first transistor and the second transistor are controlled by feedback circuitry, the feedback circuitry comprising: drive circuitry operable to drive the gates of the first transistor and the second transistor to increase or decrease the voltage drop across the second resistor and to increase or decrease the combined voltage drop across the fourth resistor and the shunt resistor; andan operational amplifier configured to compare the voltage drop across the second resistor with the combined voltage drop across the fourth resistor and the shunt resistor, and to control the drive circuitry to drive the gates of the first transistor and the second transistor; wherein if the voltage drop across the second resistor is greater than the combined voltage drop across the fourth resistor and the shunt resistor, the feedback circuitry increases the gate voltage to the first transistor to reduce the voltage drop across the second resistor and decreases the gate voltage to the second transistor to increase the combined voltage drop across the fourth resistor and the shunt resistor, and if the voltage drop across the second resistor is less than the combined voltage drop across the fourth resistor and the shunt resistor, the feedback circuitry decreases the gate voltage to the first transistor to increase the voltage drop across the second resistor and increases the gate voltage to the second transistor to decrease the combined voltage drop across the fourth resistor and the shunt resistor. 4. A current sense circuit according to claim 3, wherein the drive circuitry comprises: an additional supply rail at a fixed voltage below the high side terminal of the battery;a first drive path connected at one end between the high side terminal of the battery and the shunt resistor, and connected at the other end to the additional supply rail, the first drive path being operable to drive the gate of the first transistor; anda second drive path connected at one end between the shunt resistor and the load/charge terminal, and connected at the other end to the additional supply rail, the second drive path being operable to drive the gate of the second transistor. 5. A current sense circuit according to claim 4, wherein the first drive path comprises a fifth resistor, a third transistor of a current mirror convecting together the first drive path and the second drive path, and a sixth resistor, and the second drive path comprises a seventh resistor, a fourth transistor of the current mirror, a fifth transistor, a sixth transistor and an eighth resistor. 6. A current sense circuit according to claim 3, comprising filter circuitry for low pass filtering the output of the operational amplifier. 7. A current sense circuit according to claim 5, comprising a reference path connected at one end between the shunt resistor and the load/charge terminal and connected at the other end to the additional supply rail, the reference path comprising a ninth resistor and a tenth resistor, the ninth resistor and tenth resistor forming a potential divider outputting a reference voltage to the gates of each of the fifth transistor and the sixth transistor. 8. A current sense circuit according to claim 7, wherein a smoothed output of the operational amplifier is asserted at the emitters of each of the fifth and sixth transistors. 9. A current sense circuit according to claim 2, wherein the voltage drop across the first transistor and the second transistor are controlled to maintain a constant voltage drop across the second resistor, and a constant combined voltage drop across the fourth resistor and the shunt resistor when the voltage at the high side terminal of the battery varies.
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이 특허에 인용된 특허 (4)
Yun, Han-Seok; Choi, Soo-Seok; Lee, Young-Jo; Tae, Yong-Jun; Seo, Se-Wook; Lim, Gye-Jong; Kim, Beom-Gyu; Park, Ho-Young, Battery management system using a resistor and driving method thereof.
Goto Seiji (Fukuoka JPX) Tsunoda Kazuaki (Fukuoka JPX) Murayama Yukio (Kawasaki JPX), Circuit for measuring discharging and charging current of a battery providing offset/drift voltage for correcting amplif.
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