Antenna tuning assembly and mobile communication apparatus using same

What is claimed is: 1. A mobile communication apparatus, comprising: an antenna tuning assembly comprising: a substrate; an input path deposited on the substrate; for receiving control signals, a tuning network deposited on the substrate, including an impedance circuit with a tunable impedance and at least one tuner connecting with the impedance circuit and the input path for generating a corresponding impedance in response to the control signals; an output path connecting with the tuning network and deposited on the substrate, for coupling to an external antenna according to the corresponding impedance; and a power amplifier connecting to the input path for amplifying a power signal; a control module connected to the input path, for generating the control signals; and the external antenna, coupling with the output path; wherein the mobile communication apparatus comprises a main board on which the antenna and the control module are deposited, and the antenna tuning assembly is stacked on the main board, the antenna tuning assembly is formed into an integrally piece and independent from the main board; the mobile communication apparatus comprises a cover and the antenna tuning assembly is assembled on the cover; and the main board has a first surface on which the antenna tuning assembly is stacked, and a recess concave away from the antenna tuning assembly is defined on the first surface for receiving the antenna tuning assembly, with the antenna tuning assembly and the first surface spaced apart. 2. The mobile communication apparatus as described in claim 1 , wherein the mobile communication apparatus comprises a power source for generating a power signal, which connects to the antenna tuning assembly, the control module and the external antenna. 3. The mobile communication apparatus as described in claim 1 , wherein, the mobile communication apparatus comprises an acoustic component connecting to the power amplifier and driven by the power signal. 4. The mobile communication apparatus as described in claim 1 , wherein, the main board is sandwiched between the antenna tuning assembly and the cover. 5. The mobile communication apparatus as described in claim 1 , wherein, the antenna tuning assembly is sandwiched between the main board and the cover. 6. The antenna tuning assembly as described in claim 1 , wherein the impedance circuit comprises a capacitor parallel connecting to an inductor. 7. The antenna tuning assembly as described in claim 1 , wherein the output path comprising a contact pad or clip for connecting with the antenna. 8. The antenna tuning assembly as described in claim 1 , wherein the substrate has a multi-layer structure of a flexible printed circuit board with at least a part of the input path and/or output path sandwiched therein. 9. The antenna tuning assembly as described in claim 1 , wherein the input path is deposited on the substrate by conductive ink printing or through a LDS process. 10. The antenna tuning assembly as described in claim 1 , wherein the output path is deposited on the substrate by conductive ink printing or through a LDS process. 11. The antenna tuning assembly as described in claim 1 , wherein the input path comprises a contact pad or clip for receiving the control signals and the power signal. 12. The antenna tuning assembly as described in claim 1 , wherein the external antenna is printed on the first surface, and a plurality of conducting feet is mounted on the first surface and connect to the external antenna respectively. 13. The antenna tuning assembly as described in claim 12 , wherein the supporting feet includes a supporting pillar extending perpendicularly out away from the first surface and a contacting plate configured on an end of the supporting pillar, and the antenna tuning assembly is supported by the supporting feet, and connected to the main board through the contacting plate and the supporting pillar.