Frontend circuit, frontend module, communication apparatus, and multiplexer

What is claimed is: 1. A frontend circuit applied to carrier aggregation using a plurality of communication frequency bands including a first communication frequency band and a second communication frequency band, the frontend circuit comprising: a wide-band filter that passes the first communication frequency band and the second communication frequency band; and a multiplexer that includes an input port for a transmit signal in the first communication frequency band, an input port for a transmit signal in the second communication frequency band, an output port for a receive signal in the first communication frequency band and the second communication frequency band, and a common input/output port, wherein the first communication frequency band is close to or overlaps the second communication frequency band, wherein, in the carrier aggregation, the first communication frequency band and the second communication frequency band pass through the wide-band filter, and wherein, in a single use of the first communication frequency band or the second communication frequency band, the first communication frequency band or the second communication frequency band passes through the wide-band filter. 2. The frontend circuit according to claim 1 , wherein in the carrier aggregation, receive signals of the first communication frequency band and the second communication frequency band pass through the wide-band filter, and wherein in the single use of the first communication frequency band or the second communication frequency band, receive signals of the first communication frequency band or the second communication frequency band pass through the wide-band filter. 3. The frontend circuit according to claim 2 , wherein the first communication frequency band is Band 20, and wherein the second communication frequency band is Band 28. 4. A frontend module comprising: the frontend circuit according to claim 2 ; and a low-noise amplifier circuit which performs low-noise amplification on a receive signal having passed through the wide-band filter. 5. A frontend module comprising: the frontend circuit according to claim 2 ; a transmit filter that passes a transmit frequency band of the first communication frequency band or a transmit frequency band of the second communication frequency band; and a power amplifier circuit that amplifies power of a transmit signal which is inputted to the transmit filter. 6. The frontend circuit according to claim 1 , wherein the first communication frequency band is Band 20, and wherein the second communication frequency band is Band 28. 7. A frontend module comprising: the frontend circuit according to claim 6 ; and a low-noise amplifier circuit which performs low-noise amplification on a receive signal having passed through the wide-band filter. 8. A frontend module comprising: the frontend circuit according to claim 6 ; a transmit filter that passes a transmit frequency band of the first communication frequency band or a transmit frequency band of the second communication frequency band; and a power amplifier circuit that amplifies power of a transmit signal which is inputted to the transmit filter. 9. The frontend circuit according to claim 1 , further comprising: a third filter that passes a third communication frequency band, the third filter having a pass frequency band different from a pass frequency band of the wide-band filter, wherein, in the carrier aggregation using the first communication frequency band or the second communication frequency band, and the third communication frequency band, the first communication frequency band or the second communication frequency band passes through the wide-band filter. 10. The frontend circuit according to claim 1 , further comprising: a first filter that passes the first communication frequency band; and a fourth filter that passes a fourth communication frequency band, wherein the frontend circuit is applied to the carrier aggregation using the first communication frequency band and the fourth communication frequency band, wherein the fourth communication frequency band overlaps the second communication frequency band at least partially, and wherein, in the carrier aggregation using the first communication frequency band and the fourth communication frequency band, the wide-band filter is isolated, the first communication frequency band passes through the first filter, and the fourth communication frequency band passes through the fourth filter. 11. The frontend circuit according to claim 1 , further comprising: a first filter that passes the first communication frequency band; and a fourth filter that passes a fourth communication frequency band, wherein the frontend circuit is applied to the carrier aggregation using the first communication frequency band and the fourth communication frequency band, wherein there is no overlapping range between the fourth communication frequency band and the first communication frequency band, and wherein, in the carrier aggregation using the first communication frequency band and the fourth communication frequency band, the wide-band filter is isolated, the first communication frequency band passes through the first filter, and the fourth communication frequency band passes through the fourth filter. 12. The frontend circuit according to claim 1 , wherein the plurality of communication frequency bands includes a third communication frequency band which overlaps the second communication frequency band, and wherein the wide-band filter is a variable bandpass filter having a passband width, the passband width being switched in accordance with a control signal between a first case and a second case, the first case being the carrier aggregation using the first communication frequency band and the second communication frequency band, and the second case being the carrier aggregation using the first communication frequency band and the third communication frequency band. 13. A frontend module comprising: the frontend circuit according to claim 1 ; and a low-noise amplifier circuit which performs low-noise amplification on a receive signal having passed through the wide-band filter. 14. The frontend module according to claim 13 , further comprising: a distribution circuit that distributes a receive signal or an output signal, the receive signal having passed through the wide-band filter, and the output signal being outputted from the low-noise amplifier circuit. 15. A communication apparatus comprising: the frontend module according to claim 13 ; and a communication circuit that is connected to the frontend module. 16. A frontend module comprising: the frontend circuit according to claim 1 ; a transmit filter that passes a transmit frequency band of the first communication frequency band or a transmit frequency band of the second communication frequency band; and a power amplifier circuit that amplifies power of a transmit signal which is inputted to the transmit filter. 17. A communication apparatus comprising: the frontend module according to claim 16 ; and a communication circuit that is connected to the frontend module. 18. A multiplexer applied to carrier aggregation using a plurality of communication frequency bands including a first communication frequency band and a second communication frequency band, the first communication frequency band being close to or overlapping the second communication frequency band, the multiplexer comprising: a wide-band filter that passes the first