Abstract: A system for identifying faults in a radio frequency device under test, the system including a passive intermodulation test module, configured to perform passive intermodulation testing of the device under test on at least one test port; and an in-line S-parameter test set, coupled to the passive intermodulation test module and intermediate the passive intermodulation test module and at least one test port, and configured to perform wideband S-parameter testing of the device under test on the at least one test port.

Abstract: A range to fault (RTF) module (100) for use in a system for locating faults in a cable network is discussed. The module includes an input port (101) for coupling the module to a PIM analyzer. The module (100) also includes an output port (102) for connection to the device under test (DUT). In addition to the input (101) and output (102) ports the module is provided with a monitor port (103) for receipt of a PIM signal from the PIM analyzer. The module in this instance also includes two USB ports (104a), (104b) enabling a serial connection between the PIM analyzer and the module (100).

Abstract: The present invention relates to a device for the location of passive intermodulation faults in a coaxial cable network. The test apparatus (100) according to one embodiment of the present invention utilizes a pair of high-power, frequency-synthesized, unmodulated RF carriers v1(t) (101) and v2(t) (102) are generated inside the HPA module of the apparatus. The power and frequency of v1(t) (101) and v2(t) (102) can be independently set to a range of values, v1(t), v2(t) are combined inside the instrument and then applied to the input of the device under test (DUT). The PIM signals (107,108,109) generated in the DUT are combined to produce the primary PIM signal vIM(t) (103). The apparatus also includes two receivers (110,111, 112,113,114,115) for the detection of vIM(t) 103 and vREF(t) (104). These signals are downconverted to 455 kHz.