Electronic devices having differential-fed near-field communications antennas

What is claimed is: 1. An electronic device comprising: a housing having peripheral conductive structures; first, second, and third dielectric-filled gaps in the peripheral conductive structures, wherein the first dielectric-filled gap separates first and second segments of the peripheral conductive structures, the second dielectric-filled gap separates the second segment from a third segment of the peripheral conductive structures, and the third dielectric-filled gap separates the third segment from a fourth segment of the peripheral conductive structures; a conductive support plate coupled to the first and fourth segments, wherein the conductive support plate is separated from the second and third segments by a slot; a first inductor coupled across the slot, wherein the first inductor has a first terminal coupled to the second segment and a second terminal coupled to the conductive support plate; a second inductor coupled across the slot, wherein the second inductor has a third terminal coupled to the third segment and a fourth terminal coupled to the conductive support plate; and near-field communications (NFC) transceiver circuitry coupled to the second and third segments and configured to convey NFC signals over a conductive loop path that includes a portion of the second segment, the first inductor, a portion of the conductive support plate extending between the second and fourth terminals, the second inductor, and a portion of the third segment. 2. The electronic device of claim 1 , further comprising: a first conductive path that couples a first signal terminal of the NFC transceiver circuitry to the second segment; and a second conductive path that couples a second signal terminal of the NFC transceiver circuitry to the third segment. 3. The electronic device of claim 2 , further comprising: a third inductor interposed on the first conductive path; and a fourth inductor interposed on the second conductive path. 4. The electronic device of claim 3 , wherein the NFC signals comprise differential signals and the first and second signal terminals form a differential feed for the conductive loop path. 5. The electronic device of claim 3 , further comprising: a flexible printed circuit, wherein a portion of the first conductive path, a portion of the second conductive path, the third inductor, and the fourth inductor are formed on the flexible printed circuit. 6. The electronic device of claim 5 , further comprising: a logic board, wherein the NFC transceiver circuitry is mounted to the logic board; and impedance matching circuitry on the logic board, wherein the matching circuitry is interposed on the first and second conductive paths. 7. The electronic device of claim 6 , further comprising: a first impedance matching circuit on the flexible printed circuit and interposed on the first conductive path between the third inductor and the impedance matching circuitry; and a second impedance matching circuit on the flexible printed circuit and interposed on the second conductive path between the fourth inductor and the impedance matching circuitry. 8. The electronic device of claim 1 , further comprising: a far-field antenna feed coupled between a first point on the second segment and the conductive support plate, wherein the NFC transceiver circuitry is coupled to a second point on the second segment and to a third point on the third segment, the second point is interposed on the second segment between the first point and the first dielectric-filled gap, the first point is interposed on the second segment between the second point and first terminal of the first inductor, and the third terminal of the second inductor is interposed on the third segment between the second dielectric-filled gap and the third point. 9. The electronic device of claim 8 , wherein the second segment comprises a knuckle at the second dielectric-filled gap, the first terminal of the first inductor being interposed on the second segment between the first point and the knuckle. 10. The electronic device of claim 8 , wherein the second segment comprises a knuckle at the second dielectric-filled gap, the first terminal of the first inductor being coupled to the knuckle. 11. The electronic device of claim 10 , wherein the far-field antenna feed is configured to convey radio-frequency signals in a far-field frequency band, the second segment is configured to radiate the radio-frequency signals in the far-field frequency band, and the electronic device further comprises: an antenna tuning component coupled between a fourth point on the second segment and the conductive support plate, wherein the antenna tuning component is configured to tune a frequency response of the second segment in the far-field frequency band, the fourth point being interposed on the second segment between the first point and the knuckle. 12. The electronic device of claim 8 , wherein the third terminal of the second inductor is coupled to the third segment at the second dielectric-filled gap. 13. The electronic device of claim 12 , further comprising: an additional far-field antenna feed coupled between a fourth point on the third segment and the conductive support plate, wherein fourth point is interposed on the second segment between the third point and the third terminal of the second inductor. 14. An electronic device comprising: a housing having peripheral conductive structures; first, second, and third dielectric-filled gaps in the peripheral conductive structures, wherein a first segment of the peripheral conductive structures extends between the first and second dielectric-filled gaps and a second segment of the peripheral conductive structures extends between the second and third dielectric-filled gaps; an antenna ground, wherein the first dielectric-filled gap separates the first segment from the antenna ground and the third dielectric-filled gap separates the second segment from the antenna ground; a first far-field antenna feed coupled to a first point on the first segment; a second far-field antenna feed coupled to a second point on the second segment; and near-field communications (NFC) transceiver circuitry having a differential signal feed coupled to a third point on the first segment and a fourth point on the second segment, wherein the third point is interposed on the first segment between the first point and the first dielectric-filled gap, the fourth point is interposed on the second segment between the second point and the third dielectric-filled gap, and the NFC transceiver circuitry is configured to convey differential signals in an NFC frequency band using a conductive loop path that includes a portion of the first segment, a portion of the second segment, and a portion of the antenna ground. 15. The electronic device of claim 14 , wherein the conductive loop path comprises: a first inductor coupled between the first segment and the antenna ground; and a second inductor coupled between the second segment and the antenna ground, wherein the portion of the antenna ground extends from the first inductor to the second inductor, the first and second segments are configured to radiate in at least one far-field frequency band, and the first and second inductors are configured to block radio-frequency signals in the at least one far-field frequency band. 16. The electronic device of claim 15 , further comprising: an antenna tuning component coupled between the first segment and the antenna ground, wherein the antenna tuning component is configured to tune a frequency response of the first segment in the at