Battery management system with distributed wireless sensors

The invention claimed is: 1. A system for monitoring parameters of a lithium ion battery pack, wherein the lithium ion battery pack includes a multiplicity of individual lithium ion battery cells, comprising: a radio frequency identification and sensor unit connected to each of the lithium ion battery cells that senses the parameter of each individual lithium ion battery cell and provides radio frequency transmission of the parameters of each individual lithium ion battery cell, wherein the parameters include internal impedance of the cell; wherein said radio frequency identification and sensor unit includes a tag circuit that provides a variable frequency electromagnetic stimulus with amplitude and phase and monitors said amplitude and phase to sense said internal impedance of the cell, and a management system that monitors said transmissions from said radio frequency identification and sensor units and monitors the parameters of the lithium ion battery pack, wherein said management system that monitors said transmissions from said radio frequency identification and sensor units monitors said internal impedance of the cells of the lithium ion battery pack. 2. The system for monitoring parameters of a lithium ion battery pack of claim 1 , wherein said tag circuit that provides a variable frequency electromagnetic stimulus that ranges in frequency from 0.001 to 500,000 Hertz and wherein said radio frequency identification and sensor unit monitors said variable frequency electromagnetic stimulus that ranges in frequency from 0.001 to 500,000 Hertz to sense said internal impedance of the cell. 3. A method of monitoring parameters of a lithium battery pack that includes a multiplicity of individual lithium battery cells, comprising the steps of: providing radio frequency identification and detection of each of the individual lithium battery cells for identification and detection of the parameters of each individual lithium battery cell, wherein the parameters include internal impedance of the cell, wherein said step of providing radio frequency identification and detection of each of the individual lithium battery cells comprises providing a tag circuit to produce a variable frequency electromagnetic stimulus with amplitude and phase, and monitoring said amplitude and phase to sense said internal impedance of the cell, and monitoring said radio frequency identification and detection of each individual lithium battery cell for monitoring the parameters of the lithium battery pack.