Radio frequency module and communication device

What is claimed is: 1. A radio frequency module for receiving/transmitting a plurality of signals simultaneously, the plurality of signals including at least a receive signal in a first frequency band and a receive signal in a second frequency band, the radio frequency module comprising: a first receive circuit that processes the receive signal in the first frequency band; wherein the first receive circuit includes: a first substrate; a first low noise amplifier mounted on a principal surface of the first substrate; and a first filter circuit connected to an output end of the first low noise amplifier and including at least a first portion provided on the principal surface of the first substrate; and the first filter circuit attenuates spurious components generated by a transmit signal in the first frequency band received by the first low noise amplifier and output from the first low noise amplifier, the spurious components being included in the transmit signal in the first frequency band and having a frequency bandwidth that overlaps, includes, or is included in a frequency bandwidth of the receive signal in the second frequency band. 2. The radio frequency module according to claim 1 , wherein the first filter circuit includes a variable capacitor, and has a variable attenuating frequency. 3. The radio frequency module according to claim 1 , wherein a second portion, other than the first portion, of the first filter circuit is provided inside the first substrate. 4. The radio frequency module according to claim 1 , wherein the first filter circuit is connected between the output end of the first low noise amplifier and a ground potential, and includes a short stub including a transmission line; and the transmission line has short circuit characteristics for even-order spurious components of the transmit signal in the first frequency band. 5. The radio frequency module according to claim 1 , further comprising: a second receive circuit that processes the receive signal in the second frequency band; wherein the second receive circuit includes: a second low noise amplifier; and a second filter circuit connected to an output end of the second low noise amplifier, and having attenuation characteristics for spurious components of a transmit signal in the second frequency band. 6. The radio frequency module according to claim 5 , further comprising: a first transmission line including a first end connected to the output end of the first low noise amplifier; a second transmission line including a first end connected to the output end of the second low noise amplifier; a variable capacitor including a first end connected to a ground potential; and a switch connecting a second end of the variable capacitor selectively to the output end of the first low noise amplifier or the output end of the second low noise amplifier; wherein a second end of the first transmission line is connected to a second end of the second transmission line; the first transmission line, the second transmission line, and the variable capacitor define (i) the first filter circuit having short circuit characteristics for even-order spurious components of the transmit signal in the first frequency band by electrically connecting the ground potential, the variable capacitor, and the second transmission line to each other in a first state in which the second end of the variable capacitor is connected to the output end of the second low noise amplifier; and (ii) the second filter circuit having short circuit characteristics for even-order spurious components of the transmit signal in the second frequency band by electrically connecting the ground potential, the variable capacitor, and the first transmission line to each other in a second state in which the second end of the variable capacitor is connected to the output end of the first low noise amplifier. 7. The radio frequency module according to claim 1 , wherein the first low noise amplifier is a surface-mount chip transistor. 8. The radio frequency module according to claim 1 , wherein the first filter circuit includes a capacitor mounted on the principal surface of the first substrate and an inductor disposed in the first substrate. 9. The radio frequency module according to claim 1 , wherein the low noise amplifier is sealed by a resin. 10. The radio frequency module according to claim 9 , wherein a conductive shielding film is provided on surfaces of the resin. 11. A communication device comprising: the radio frequency module according to claim 1 ; and an RF signal processing circuit that receives a radio-frequency receive signal from the radio frequency module. 12. The communication device according to claim 11 , wherein the first filter circuit includes a variable capacitor, and has a variable attenuating frequency. 13. The communication device according to claim 11 , wherein a second portion, other than the first portion, of the first filter circuit is provided inside the first substrate. 14. The communication device according to claim 11 , wherein the first filter circuit is connected between the output end of the first low noise amplifier and a ground potential, and includes a short stub including a transmission line; and the transmission line has short circuit characteristics for even-order spurious components of the transmit signal in the first frequency band. 15. The communication device according to claim 11 , further comprising: a second receive circuit that processes the receive signal in the second frequency band; wherein the second receive circuit includes: a second low noise amplifier; and a second filter circuit connected to an output end of the second low noise amplifier, and having attenuation characteristics for spurious components of a transmit signal in the second frequency band. 16. The communication device according to claim 15 , further comprising: a first transmission line including a first end connected to the output end of the first low noise amplifier; a second transmission line including a first end connected to the output end of the second low noise amplifier; a variable capacitor including a first end connected to a ground potential; and a switch connecting a second end of the variable capacitor selectively to the output end of the first low noise amplifier or the output end of the second low noise amplifier; wherein a second end of the first transmission line is connected to a second end of the second transmission line; the first transmission line, the second transmission line, and the variable capacitor define (i) the first filter circuit having short circuit characteristics for even-order spurious components of the transmit signal in the first frequency band by electrically connecting the ground potential, the variable capacitor, and the second transmission line to each other in a first state in which the second end of the variable capacitor is connected to the output end of the second low noise amplifier; and (ii) the second filter circuit having short circuit characteristics for even-order spurious components of the transmit signal in the second frequency band by electrically connecting the ground potential, the variable capacitor, and the first transmission line to each other in a second state in which the second end of the variable capacitor is connected to the output end of the first low noise amplifier. 17. The communication device according to claim 11 , wherein the first low noise amplifier is a surface-mount chip transistor.