Methods and apparatus for testing small form factor antenna tuning elements

What is claimed is: 1. A test system for testing a device under test having device under test contacts, comprising: a device receiving structure having first and second opposing sides and device receiving structure contacts configured to receive the device under test contacts when the device under test is mated with the device receiving structure; a device retention structure configured to press the device under test against the device receiving structure with a calibrated amount of pressure; a radio-frequency tester that is coupled to the device receiving structure and that is configured to obtain radio-frequency measurements from the device under test; a first radio-frequency connector that is attached to the first side of the device receiving structure and coupled to the radio-frequency tester, wherein the first radio-frequency connector comprises a first core signal conductor that is coupled to a first device receiving structure contact; and a second radio-frequency connector that is attached to the second side of the device receiving structure and coupled to the radio-frequency tester, wherein the second radio-frequency connector comprises a second core signal conductor that is coupled to a second device receiving structure contact, the first and second device receiving structure contacts contact respective first and second device under test contacts, the first and second device under test contacts are positioned at respective first and second opposing sides of the device under test, the device receiving structure contacts comprise third, fourth, and fifth device receiving structure contacts, and the third device receiving structure contact is coupled to a ground plane. 2. The test system defined in claim 1 , wherein the device under test comprises an antenna tuning element selected from the group consisting of: a radio-frequency switch, a tunable resistive component, a tunable capacitive component, and a tunable inductive component. 3. The test system defined in claim 1 , further comprising: a positioner operable to move the device retention structure so that the device retention structure presses the device under test against the device receiving structure with the calibrated amount of pressure. 4. The test system defined in claim 3 , wherein the positioner comprises a computer-controlled positioner, the test system further comprising: a test host configured to store calibration data, wherein the positioner moves the device retention structure towards the device under test by an amount specified by the stored calibration data. 5. The test system defined in claim 1 , wherein the device retention structure includes a pressure sensor operable to detect an amount of force that is applied to the device under test from the device retention structure. 6. The test system defined in claim 5 , further comprising: a positioner operable to move the device retention structure, wherein the positioner is configured to move the device retention structure at a first rate when the device retention structure is not in contact with the device under test, and wherein the positioner is configured to the move the device retention structure at a second rate that is lower than the first rate when the device retention structure is in contact with the device under test. 7. The test system defined in claim 4 , further comprising: a plurality of test pins, wherein the fourth device receiving structure contact is coupled to a first test pin of the plurality of test pins, and wherein the first test pin is coupled to the test host. 8. The test system defined in claim 7 , wherein the fifth device receiving structure contact is coupled to a second test pin of the plurality of test pins, and wherein the second test pin is coupled to a power supply unit. 9. The test system defined in claim 8 , wherein the ground plane is coupled to a third test pin of the plurality of test pins, wherein the third test pin is coupled to the power supply unit.