Abstract: A time code generator for generating a digital value associated with the arrival time of an event, such as a logical transition of a digital signal. In one embodiment, the time code generator includes a pair of oscillators configured to generate a plurality of oscillating signals of differing phases relative to the system clock. A first and second phase counters are each driven by one of the plurality of oscillating signals. Each of the oscillating signals drives a separate vernier interpolator configured to capture an event. A composite time coder is in communication with the phase counters and the plurality of vernier interpolators to generate a digital value indicating the arrival time of the event.

Abstract: A test apparatus implements a method for testing electronic devices that exhibit non-deterministic behavior. The test apparatus includes a high-speed buffer queue for storing data packets. The data packets arrive at one end of the queue and, as they exit at the other end, are compared against expect data packets stored in memory. If the data packet exiting the buffer queue corresponds to response signals generated by the device under test during a non-deterministic (e.g., idle) state, the expect data packet is not retrieved from memory and the comparison is not made.

Abstract: A system and method for processing scan data for integrated circuit testing. Scan data is divided into three groups of scan data segments: scan-in data segments, scan-out data segments and scan-mask data segments. The sequence of scan data segments in each group constitutes the operative test data in a scan stream. Each scan stream is represented by a table having a row corresponding to each scan data segment in the stream. Each row has four fields: a start address, a segment length, a start pad length and an end pad length. The start address is a pointer to the scan data segment in memory where the scan data segment is stored in a contiguous portion of memory. Scan data segment length is the length in bits of the segment. Start pad length is a delay value measured in number of scan clock cycles that must elapse before processing the respective segment in the scan stream.

Abstract: Testing of an electronic device is carried out by combining power and signal delivery on a single pair of wires. The power delivery is decoupled from the signal delivery, using inductors, so the device power supplied does not interfere with the test signals delivered from the device and the response signals delivered to the device. Further, simultaneous bidirectional signal paths are decoupled, using capacitors, so that the tester transceiver and the device transceiver are not damaged by the power delivered to the device on the same wires. A common fixture may be used to test a number of different types of wafers, independent of the topography, size, or power requirements of the devices on the wafers, resulting in a significant cost saving, because fixture design has become very expensive, in some cases costing more than the tester whose signals it is implemented to deliver.

Abstract: Aspects of the present invention involve obtaining a sequence of logic transitions from an integrated circuit that are a function of one or more bits from the integrated circuit (“IC”). The logic transitions from the IC may be representative of one or more data values or bits. For each logic transition, a time is determined. From the time of each logic transition, the pattern of data values is derived. The pattern of data values may then be compared with an expected pattern of data values to test the IC.

Abstract: A pin electronics circuit for use in automatic test equipment may include a reconfigurable logic device in which different logic configurations may be installed to make measurements according to multiple tests to be applied to a device under test; a level generating circuit coupled to the reconfigurable logic device, and configured to generate a number of test levels and a number of reference levels; and a switching circuit, coupled to the reconfigurable logic device and the level generating circuit, configured to receive the test levels and the reference levels, and controlled by the reconfigurable logic device to selectively apply the test levels to the device under test according to a selected test and to sense levels inputted to or outputted from the device under test by comparing the reference levels generated by the level generating circuit to the levels inputted to our outputted from the device under test.

Abstract: A number of local sequencers, one for each pin of the device under test is disclosed. Each local sequencer is provided with a global clock, a global time zero signal indicating the clock edge for referencing the start of a test, and a period vernier indicating an offset from the clock for the start of the test period. Each local sequencer uses this information to generate its own test events referenced to the test period with individual calibration delays factored in locally. Each local sequencer is individually programmable so that different sequencers can provide different numbers of events during the same test period.

Abstract: A number of local sequencers, one for each pin of the device under test is disclosed. Each local sequencer is provided with a global clock, a global time zero signal indicating the clock edge for referencing the start of a test, and a period vernier indicating an offset from the clock for the start of the test period. Each local sequencer uses this information to generate its own test events referenced to the test period with individual calibration delays factored in locally. Each local sequencer is individually programmable so that different sequencers can provide different numbers of events during the same test period.