Directional coupler

What is claimed is: 1. A directional coupler comprising: an input terminal; an output terminal; a coupling terminal; a termination terminal; a ground terminal; a main line electrically connected between the input terminal and the output terminal; and a sub line electrically connected between the coupling terminal and the termination terminal; wherein the main line and the sub line are spaced away from each other; the sub line is divided into a plurality of sub lines electrically connected to each other and includes at least a first sub line and at least a second sub line; a first low pass filter is included between the coupling terminal and the sub line; a second low pass filter is included between the first sub line and the second sub line; the ground terminal includes a plurality of ground terminals including at least a first ground terminal and at least a second ground terminal that are isolated from each other; and the first low pass filter is electrically connected to the first ground terminal, and the second low pass filter is electrically connected to the second ground terminal. 2. The directional coupler according to claim 1 , wherein the first low pass filter includes at least a first inductor, at least a second inductor, at least a first capacitor, at least a second capacitor, and at least a third capacitor; the coupling terminal is electrically connected to one end of the first inductor; another end of the first inductor is electrically connected to one end of the second inductor; another end of the second inductor is electrically connected to the sub line; the first capacitor is electrically connected in parallel with the first inductor; the second capacitor is electrically connected in parallel with the second inductor; the third capacitor is electrically connected between a connection point between the first inductor and the second inductor and the first ground terminal; the second low pass filter includes at least a third inductor, at least a fourth inductor, at least a fourth capacitor, at least a fifth capacitor, and at least a sixth capacitor; the first sub line is electrically connected to one end of the third inductor; another end of the third inductor is electrically connected to one end of the fourth inductor; another end of the fourth inductor is electrically connected to the second sub line; the fourth capacitor is electrically connected between a connection point between the first sub line and the third inductor and the second ground terminal; the fifth capacitor is electrically connected between a connection point between the third inductor and the fourth inductor and the second ground terminal; and the sixth capacitor is electrically connected between a connection point between the fourth inductor and the second sub line and the second ground terminal. 3. The directional coupler according to claim 1 , wherein in the first low pass filter, one additional inductor or a plurality of additional inductors electrically connected in series with each other are included between the second inductor and the sub line; and one additional capacitor or a plurality of additional capacitors are respectively electrically connected in parallel with the one additional inductor or the plurality of additional inductors; in a case of the one additional inductor, the one additional capacitor is included between a connection point between the second inductor and the one additional inductor and the first ground terminal; and in a case of the plurality of additional inductors, each of the plurality of additional capacitors is respectively included between a connection point between the second inductor and one of the plurality of additional inductors and the first ground terminal, and between a connection point between the one of the plurality of additional inductors and the one of the plurality of additional inductors and the first ground terminal. 4. The directional coupler according to claim 1 , wherein in the second low pass filter, one additional inductor or a plurality of additional inductors electrically connected in series with each other are included between the fourth inductor and the second sub line; in a case of the one additional inductor, an additional capacitor is included between a connection point between the one additional inductor and the second sub line and the second ground terminal; and in a case of the plurality of additional inductors, each of a plurality of additional capacitors is respectively included between a connection point between the additional inductor and one of the plurality of additional inductors and the second ground terminal, and between a connection point between the one of the plurality of additional inductors and the second sub line and the second ground terminal. 5. The directional coupler according to claim 1 , wherein a cutoff frequency of the first low pass filter is different from a cutoff frequency of the second low pass filter; and the cutoff frequency of the first low pass filter is on a higher-frequency side than the cutoff frequency of the second low pass filter. 6. The directional coupler according to claim 1 , wherein an additional inductor is further included in a connection path between the first low pass filter and the first ground terminal. 7. The directional coupler according to claim 1 , the directional coupler further comprising: a multilayer body including a plurality of insulator layers stacked on top of one another; wherein a first ground electrode is provided in a first interlayer space between the plurality of insulator layers; a second ground electrode is provided in a second interlayer space between the plurality of insulator layers; in the multilayer body, the first ground electrode and the second ground electrode are isolated from each other; the first low pass filter is electrically connected to the first ground electrode; the second low pass filter is electrically connected to the second ground electrode; the first ground electrode is electrically connected to the first ground terminal; and the second ground electrode is electrically connected to the second ground terminal. 8. The directional coupler according to claim 7 , wherein in the multilayer body, the second ground electrode is divided into and located in two or more interlayer spaces between the insulator layers; in the multilayer body, the main line and the sub line are individually sandwiched from above and below by the divided second ground electrodes in the two or more interlayer spaces; and when the multilayer body is viewed in perspective in a stacking direction, the divided second ground electrodes in the two or more interlayer spaces at least partially overlap the main line and the sub line. 9. The directional coupler according to claim 7 , wherein when the multilayer body is viewed in perspective in a stacking direction, the first low pass filter and the first ground electrode at least partially overlap each other, but the first low pass filter does not overlap the second ground electrode. 10. The directional coupler according to claim 7 , wherein the coupling terminal, the termination terminal, the first ground terminal, the second ground terminal, the input terminal, and the output terminal are provided on side surfaces of the multilayer body and individually extend onto a lower main surface of the multilayer body and an upper main surface of the multilayer body. 11. The directional coupler according to claim 7 , wherein the second ground terminal includes a plurality of second ground terminals that are provided on at least two different side surfaces of the multilayer body.