Patent application number | Description | Published |
20080218173 | METHODS AND APPARATUS FOR TESTING A CIRCUIT - In one embodiment, when a test program for testing a circuit specifies the application of a DC voltage to a particular node of the circuit, i) an operational amplifier of a circuit test system is configured to respond to remote feedback, wherein the remote feedback is responsive to a load on a circuit test system test pin that is coupled to the particular node, and ii) the DC voltage is applied to the particular node via the operational amplifier. When the test program specifies the application of a high-voltage waveform to the particular node, i) the operational amplifier is configured to respond to local feedback, wherein the local feedback is not responsive to the load on the test pin, and ii) at least a high-voltage portion of the high-voltage waveform is applied to the particular node via the operational amplifier. Other embodiments are also disclosed. | 09-11-2008 |
20090055690 | Error catch RAM support using fan-out/fan-in matrix - In accordance with one embodiment of the invention, a method and apparatus are provided for obtaining test data from multiples devices under test. This could be accomplished in accordance with one embodiment by outputting from a testing device a test signal for input in parallel to at least two devices under test; inputting in parallel to the testing device at least two response signals, each response signal produced by one of the at least two devices under test; storing the response signals received in parallel in a storage device; and serially outputting the response signals from the storage device. | 02-26-2009 |
20090212799 | METHODS AND APPARATUS THAT SELECTIVELY USE OR BYPASS A REMOTE PIN ELECTRONICS BLOCK TO TEST AT LEAST ONE DEVICE UNDER TEST - In one embodiment, apparatus for testing at least one device under test (DUT) includes a tester input/output (I/O) node, a DUT I/O node, a remote pin electronics block, a bypass circuit, and a control system. The remote pin electronics block provides a test function and is coupled between the tester I/O node and the DUT I/O node. The bypass circuit is coupled between the tester I/O node and the DUT I/O node and provides a signal bypass path between the tester I/O node and the DUT I/O node. The signal bypass path bypasses the test function provided by the remote pin electronics block. The control system is configured to enable and disable the bypass circuit. Methods for using this and other related apparatus to test one or more DUTs are also disclosed. | 08-27-2009 |
20090212882 | TRANSMIT/RECEIVE UNIT, AND METHODS AND APPARATUS FOR TRANSMITTING SIGNALS BETWEEN TRANSMIT/RECEIVE UNITS - In one embodiment, apparatus for transmitting and receiving data includes a transmission line network having at least three input/output terminals; at least three transmit/receive units, respectively coupled to the at least three input/output terminals; and a control system. The control system is configured to, depending on a desired direction of data flow over the transmission line network, i) dynamically place each of the transmit/receive units in a transmit mode or a receive mode, and ii) dynamically enable and disable an active termination of each transmit/receive unit. Methods for using this and other related apparatus to transmit and receive data over a transmission line network are also disclosed. | 08-27-2009 |
20110145645 | TEST SYSTEM AND METHOD FOR TESTING ELECTRONIC DEVICES USING A PIPELINED TESTING ARCHITECTURE - A test system for performing tests on devices under test (DUTs) includes a storage device storing test data for performing the tests on the DUTs, a shared processor for generating the test data, storing the test data in the storage device and generating a test control signal including one or more test instructions for executing the tests, and, for each DUT, a dedicated processor configured to receive a test control signal from the shared processor, and in response to the test control signal, transfer the test data for one of the test instructions to the DUT to execute that test instruction and verify the completion of that test instruction. | 06-16-2011 |
20140139251 | TESTER HAVING AN APPLICATION SPECIFIC ELECTRONICS MODULE, AND SYSTEMS AND METHODS THAT INCORPORATE OR USE THE SAME - In one embodiment, an automated test equipment (ATE) system includes a tester having a tester electronics module, an application specific electronics module, and a tester-to-device under test (DUT) interface mount. The tester electronics module has a first electronics interface configured to electrically connect to a tester-to-DUT interface when the tester-to-DUT interface is coupled to the tester-to-DUT interface mount. The application specific electronics module has a second electronics interface and a third electronics interface. The second and third electronics interfaces are configured to electrically connect to the tester-to-DUT interface when the tester-to-DUT interface is coupled to the tester-to-DUT interface mount. The application specific electronics module is configured to communicate with the tester electronics module via the second electronics interface, and with at least one DUT via the third electronics interface. | 05-22-2014 |
20150015284 | TRANSMIT/RECEIVE UNIT, AND METHODS AND APPARATUS FOR TRANSMITTING SIGNALS BETWEEN TRANSMIT/RECEIVE UNITS - In one embodiment, apparatus for transmitting and receiving data includes a transmission line network having at least three input/output terminals; at least three transmit/receive units, respectively coupled to the at least three input/output terminals; and a control system. The control system is configured to, depending on a desired direction of data flow over the transmission line network, i) dynamically place each of the transmit/receive units in a transmit mode or a receive mode, and ii) dynamically enable and disable an active termination of each transmit/receive unit. Methods for using this and other related apparatus to transmit and receive data over a transmission line network are also disclosed. | 01-15-2015 |