Method and device for realizing specific absorption rate (SAR) control

The invention claimed is: 1. A method for realizing Specific Absorption Rate (SAR) control, comprising: providing phase shifters on the metal ground edge of a wireless terminal; and altering an induced current of the metal ground edge by applying the phase shifters, such that an antenna near field radiation characteristic of an SAR can be reduced, wherein the altering an induced current of the metal ground edge is: altering an induced current distribution on a PCB of the wireless terminal by altering magnitudes of phase shift and locations of the phase shifters on the metal ground, wherein the phase shifters are provided on specific locations determined by the induced current distribution on the PCB, in surface induced current accumulation areas to introduce additional phase shift to a surface current for phase cancellation among current elements or for random perturbation to the surface current to maximize uniformity in distribution of near-field radiation. 2. The method according to claim 1 , wherein the providing phase shifters is: introducing the phase shifters consisting of a plurality of lumped circuit elements on the PCB metal ground edge of the wireless terminal. 3. The method according to claim 2 , wherein the antenna near field radiation characteristic is reduced by: altering phases and amplitudes of the current elements on the metal ground edge by applying the phase shifters, so that the current elements produce a reversed-phase superposition during near-field radiation to reduce the value of the SAR. 4. The method according to claim 2 , further comprising: performing real-time monitoring of a phase and amplitude of the induced current on the metal ground edge through electronic tuning control, and adjusting phase shift values of the phase shifters correspondingly to realize dynamical/real-time adjustment of an SAR value. 5. The method according to claim 1 , wherein the antenna near field radiation characteristic is reduced by: altering phases and amplitudes of the current elements on the metal ground edge by applying the phase shifters, so that the current elements produce a reversed-phase superposition during near-field radiation to reduce the value of the SAR. 6. The method according to claim 1 , further comprising: performing real-time monitoring of a phase and amplitude of the induced current on the metal ground edge through electronic tuning control, and adjusting phase shift values of the phase shifters correspondingly to realize dynamical/real-time adjustment of an SAR value. 7. A device for realizing Specific Absorption Rate (SAR) control, comprising a structure of a wireless terminal, wherein phase shifters are provided on the metal ground edge of the device, the phase shifters being configured to alter an induced current of the metal ground edge such that an antenna near field radiation characteristic of an SAR can be reduced, wherein an induced current distribution on a PCB of the device is altered by altering magnitudes of phase shift and locations of the phase shifters on the metal ground, wherein the phase shifters are provided on specific locations determined by the induced current distribution on the PCB, in surface induced current accumulation areas to introduce additional phase shift to a surface current for phase cancellation among current elements or for random perturbation to the surface current to maximize uniformity in distribution of near-field radiation. 8. The device according to claim 7 , wherein the phase shifters are realized through a passive lumped element or an active element; the passive lumped element comprises one of a Resistor-Capacitor (RC) phase shifting network, an inductor-Capacitor (LC) phase shifting network, a diode phase shifter, and a ferrite phase shifter; and the active element comprises one of an operational amplifier, a switch, a variable capacitance diode, and a reversible dual-mode ferrite phase shifter. 9. The device according to claim 8 , wherein a PCB metal edge area and a PCB central area in the device are divided through slotting, and the phase shifters bridge both sides of a slot formed by the slotting; or a ground plane of an interlayer of a multi-layer PCB is used as a reference ground (GND), and a circuit network of the phase shifters is connected through an inter-layer through hole structure. 10. The device according to claim 8 , wherein the phase shifters are further configured to perform real-time monitoring of a phase and amplitude of the induced current on a PCB metal ground edge, and to adjust phase shift values correspondingly to realize dynamical/real-time adjustment of an SAR value. 11. The device according to claim 7 , wherein a PCB metal edge area and a PCB central area in the device are divided through slotting, and the phase shifters bridge both sides of a slot formed by the slotting; or a ground plane of an interlayer of a multi-layer PCB is used as a reference ground (GND), and a circuit network of the phase shifters is connected through an inter-layer through hole structure. 12. The device according to claim 7 , wherein the phase shifters are further configured to perform real-time monitoring of a phase and amplitude of the induced current on a PCB metal ground edge, and to adjust phase shift values correspondingly to realize dynamical/real-time adjustment of an SAR value.