Circuit arrangement for RF loopback

The invention claimed is: 1. A frontend circuit of a mobile communication device comprising: a transceiver unit comprising a transmitter device, a receiver device and a testing and tuning receiver device, wherein the testing and tuning receiver device is separate from the transmitter device and the receiver device; a switching device coupled to the transceiver unit, the switching device including a terminal configured to be coupled to an antenna device; and a control device coupled to the switching device, the control device being configured to operate the frontend circuit in a first mode of operation and in a second mode of operation, wherein, in the first mode of operation, the switching device is configured by the control device such that a first signal path is routed from the transmitter device of the transceiver unit, through a first switch of the switching device, to a node and from the node back to the testing and tuning receiver device of the transceiver unit in a feedback loop through a second switch of the switching device, wherein the switching device is configured to selectively couple the node to the terminal through a third switch of the switching device, wherein the first switch, the second switch, and the third switch are different switches, wherein, in the second mode of operation, the switching device is configured by the control device such that a second signal path is routed from the transmitter device of the transceiver unit via the switching device to the terminal or the second signal path is routed from the terminal via the switching device to the transceiver unit, and wherein the testing and tuning receiver device is configured to receive a radio frequency signal via the first signal path and to measure a strength of the radio frequency signal. 2. The frontend circuit according to claim 1 , further comprising: a power-amplifier device coupled between the transceiver unit and the switching device in a transmitting path; and a filtering device coupled between the transceiver unit and the switching device in a receiving path. 3. The frontend circuit according to claim 1 , wherein the switching device comprises a plurality of switches and the control device comprises a table with different switching states for controlling respective positions of each of the switches in the first mode of operation and in the second mode of operation. 4. The frontend circuit according to claim 2 , wherein the switching device, the control device, the power-amplifier device and the filtering device are implemented in the frontend circuit. 5. The frontend circuit according to claim 1 , wherein the switching device and the control device are implemented in the frontend circuit. 6. The frontend circuit according to claim 1 , wherein the transceiver unit is configured to transmit and/or to receive a radio frequency signal in at least two radio frequency bands. 7. A frontend circuit of a mobile communication device comprising: a transceiver unit comprising a transmitter device, a receiver device and a testing and tuning receiver device, wherein the testing and tuning receiver device is separate from the transmitter device and the receiver device; a switching device coupled to the transceiver unit, the switching device including a terminal configured to be coupled to an antenna device; and a control device coupled to the switching device, the control device being configured to operate the frontend circuit in a first mode of operation and in a second mode of operation, wherein, in the first mode of operation, the switching device is configured by the control device such that a first signal path is routed from the transmitter device of the transceiver unit, through a first switch of the switching device, to a node and from the node back to the testing and tuning receiver device of the transceiver unit in a feedback loop through a second switch of the switching device, wherein the switching device is configured to selectively couple the node to the terminal through a third switch of the switching device, wherein the first switch, the second switch, and the third switch are different switches, wherein, in the second mode of operation, the switching device is configured by the control device such that a second signal path is routed from the transmitter device of the transceiver unit via the switching device to the terminal or the second signal path is routed from the terminal via the switching device to the transceiver unit, wherein the testing and tuning receiver device is configured to receive a radio frequency signal and to measure a strength of the radio frequency signal, wherein the testing and tuning receiver device is an endpoint of the feedback loop in the first mode of operation.