01955cam a22003018i 450000100060000000300090000600500170001500800410003202000250007304000130009804100080011108200210011910000340014024500780017426000450025230000340029750400510033152008720038265000390125470000410129370000370133470000380137170000330140970000410144294200080148399900170149195201450150811470IN-BhIIT20260429102713.0220728s2023    nju      b    001 0 eng c  a9781119154006 (pbk.)  aIN-BhIIT  aeng00a621.31242bTAN/B1 aTan, Xiaojun,eAuthor.92773410aBattery management system and its applications /cXiaojun Tan ...[et al].  aSingapore :bChina Machine Press,c2023.  axvi, 392 p. :bill. ;c26 cm.  aIncludes bibliographical references and index.  a"Battery Management System (BMS) is an essential part of any energy storage systems. It controls battery charging, discharging, manages optimum operating conditions, governs the safety limits, runs the battery charge and health algorithms, monitors battery parameters and communicates with other associated devices. BMS or similar monitoring and control system is strongly recommended for other electrical energy systems such as fuel cell, supercapacitor, superbat capacitor or other hybrid combinations of electrical energy storage systems. BMS allows system to be efficient and lets application use the stored energy up to the safe operating limit. It makes energy storage cost effective for short-term application such as consumer electronics. With an efficient control over optimum charge and discharge range, BMS adequately extends the life of energy storage."-- 0aBattery management systems.927660  aVezzini, AndreaeJoint author927735  aFan, YuqianeJoint author927736  aKhare, NeetaeJoint author927737  aXu, YoueJoint author927738  aWei, LiangliangeJoint author927739  cTRB  c15469d15469  00102ddc40708SMSaCLIITBBSbCLIITBBSd2026-03-10e51g8631.16l0o621.31242 TAN/Bp11470r2026-03-10 00:00:00v11823.50w2026-03-10yTRB