LitePoint Corporation Patent applications |
Patent application number | Title | Published |
20150304864 | METHOD FOR TESTING MULTIPLE DATA PACKET SIGNAL TRANSCEIVERS WITH A SHARED TESTER TO MAXIMIZE TESTER USE AND MINIMIZE TEST TIME - Methods for testing multiple data packet signal transceiver devices under test (DUTs) with a shared tester. The DUTs transmit their data packet signals until predetermined numbers of data packets have been transmitted or predetermined time intervals expire, following which, each DUT awaits a synchronization request to begin transmitting data packets to the tester. Alternatively, the tester determines when its receiver is available for receiving data packets, following which, synchronization requests are sent to respective DUTs to initiate their transmissions of data packets to the tester. Further alternatively, power levels among data packets initially transmitted from the DUTs are monitored to determine when they are indicative of them having settled. As each DUT data packet signal power settles, a status signal indicating the settled nature of each DUT is provided to the tester which then begins receiving the respective DUT data packet signals, as they settle in power, for analysis. | 10-22-2015 |
20150288042 | RADIO FREQUENCY SIGNAL PATH WITH SUBSTANTIALLY CONSTANT PHASE SHIFT OVER WIDE FREQUENCY BAND - Circuitry for shifting a phase of a radio frequency (RF) signal. Mutually dissimilar and electrically coupled portions of an electromagnetic transmission line pattern on one side of a substrate interact with another electromagnetic transmission line pattern on the opposing substrate side to convey a RF signal with a phase shift that is determined by the RF signal frequency and respective dimensions of the electromagnetic transmission line patterns and is substantially constant over a wide bandwidth. With multiple implementations of such opposing electromagnetic transmission line patterns having different pattern dimensions and coupled between RF signal switches, multiple phase shifts can be selectively provided. | 10-08-2015 |
20150256274 | SYSTEM AND METHOD FOR TESTING A RADIO FREQUENCY TRANSCEIVER BY CONTROLLING TEST FLOW VIA AN INDUCED INTERRUPT - System and method for controlling test flow of a radio frequency (RF) signal transceiver device under test (DUT) by inducing an interrupt via an internal signal interface or an external signal interface (with one example of the latter being a baseband signal interface for conveying audio signals). With exemplary embodiments, one or more DUT control signals are provided to or otherwise initiated within the DUT by inducing an interrupt, including inducement via use of the signal interface. With further exemplary embodiments, one or more test control signals are also provided to RF circuitry that responds by transmitting one or more RF receive signals for the DUT and receives from the DUT one or more RF transmit signals related to the one or more DUT control signals. | 09-10-2015 |
20150253357 | SYSTEM AND METHOD FOR ENABLING AUTOMATED TESTING OF WIRELESS DATA PACKET SIGNAL TRANSCEIVERS - A system and method for enabling automated testing of wireless data packet signal transceiver devices under test (DUTs). One or more DUTs are enclosed inside respective chambers within a shielded enclosure providing electromagnetic shielding for its interior region. Each DUT is powered by an internal power source and its radio frequency (RF) signal port is connected to an external RF signal interface at an outer wall of the shielded enclosure. An anchor at an outer wall of the shielded enclosure enables mechanical engagement with and physical displacement of the shielded enclosure, thereby allowing DUTs to be manipulated using pick and place automation devices for engagement with and connection to automated test equipment. Such test equipment can be assembled into vertically stacked RF signal test stations with which shielded DUT enclosures are engaged by physically mating their respective power and RF signal ports using the pick and place automation device. | 09-10-2015 |
20150244477 | METHOD FOR TESTING MULTIPLE WIRELESS DATA PACKET SIGNAL TRANSCEIVERS USING SHARED TESTING RESOURCES - Method for testing multiple signal transceiver devices under test (DUTs), such as data packet signal transceivers, with a shared DUT testing resource, such as a tester having a single vector signal generator (VSG) and a single vector signal analyzer (VSA). Requests by the DUTs for access to tester resources (e.g., to receive signals from the signal generator or provide signals to the signal analyzer) are prioritized based upon tester availability and whether the requesting DUT requires sole access or can share access to the tester. If the tester is unavailable, DUT requests are queued according to their respective priorities to await tester availability. As a result, access to shared tester resources can be managed dynamically to minimize test time while testing multiple DUTs concurrently. | 08-27-2015 |
20150192639 | SYSTEM AND METHOD FOR TESTING DATA PACKET TRANSCEIVERS HAVING VARIED PERFORMANCE CHARACTERISTICS AND REQUIREMENTS USING STANDARD TEST EQUIPMENT - A system and method for testing a wireless data packet signal transceiver device under test (DUT) by using DUT control circuitry separate from a tester to access and execute test program instructions for controlling the DUT during testing with the tester. The test program instructions can be provided previously and stored for subsequent access and execution under control of the tester or an external control source, such a personal computer. Alternatively, the test program instructions can be provided by the tester or external control source immediately prior to testing, such as when beginning testing of a DUT with new or different performance characteristics or requirements. Accordingly, specialized testing of different DUTs while accounting for differences among various chipsets employed by the DUTs can be performed in coordination with a standard tester configuration without need for reconfiguring or reprogramming of the tester. | 07-09-2015 |
20150189524 | SYSTEM AND METHOD FOR CONCURRENTLY TESTING MULTIPLE PACKET DATA SIGNAL TRANSCEIVERS CAPABLE OF COMMUNICATING VIA MULTIPLE RADIO ACCESS TECHNOLOGIES - System and method for using a shared packet data signal source to test multiple packet data signal transceiver devices under test (DUTs) capable of communicating using multiple radio access technologies (RATs). The signal source provides a packet data signal that includes a plurality of sequential signal segments having respective signal timing parameters and mutually distinct signal characteristics in accordance with the RATs. Based upon the signal timing parameters, at least a portion of each signal segment is routed to a respective one of multiple signal connections for conveyance to a corresponding DUT. | 07-02-2015 |
20150180591 | SYSTEM AND METHOD FOR TESTING A RADIO FREQUENCY (RF) MULTIPLE-INPUT-MULTIPLE-OUTPUT (MIMO) DEVICE UNDER TEST (DUT) - A system and method for testing a radio frequency (RF) multiple-input-multiple-output (MIMO) device under test (DUT) in which system costs are minimized by using fewer precision RF MIMO testing subsystems together with lower precision integrated RF MIMO signal conversion circuitry to test the DUT. | 06-25-2015 |
20150149839 | SYSTEM AND METHOD FOR DYNAMIC SIGNAL INTERFERENCE DETECTION DURING TESTING OF A DATA PACKET SIGNAL TRANSCEIVER - A system and method for testing multiple wireless data packet signal transceiver devices under test (DUTs) with dynamic signal interference compensation. Transmit data packets originating from other DUTs are monitored during receive signal testing of a selected DUT for concurrent occurrences of transmit and receive data packets. From this, it can be determined whether a failure to receive a responsive data packet, such as an acknowledgement, from the selected DUT is likely due to interference from a transmit data packet from another DUT being at least substantially concurrent with the receive data packet to which the selected DUT was expected to respond. If so, one or more receive data packets can be added to the receive signal sequence to extend the test and determine an accurate packet error rate (PER) without requiring a repeat of the full test. | 05-28-2015 |
20150139023 | SYSTEM AND METHOD FOR DATA PACKET TRANSCEIVER TESTING AFTER SIGNAL CALIBRATION AND POWER SETTLING TO MINIMIZE TEST TIME - A system and method for testing one or more wireless data packet signal transceiver devices under test (DUTs). Incoming data packets from a DUT are monitored to discern between data packets transmitted as part of a DUT calibration cycle or initial data packets being transmitted as the DUT transmitter circuitry settles at its new settings (e.g., transmit signal frequency or power), and later data packets transmitted following completion of the DUT calibration cycle or settling of the DUT transmitter circuitry. Following identification of these later data packets, the tester is so notified and begins the test procedure, e.g., capturing the data packets for analysis. Meanwhile, the tester has been allowed to remain in active use for other test purposes during DUT calibration cycles and settling intervals, thereby increasing testing efficiency and reducing overall test time. | 05-21-2015 |
20150138998 | SYSTEM AND METHOD FOR ENABLING TESTING A DATA LINK OF A DATA PACKET SIGNAL TRANSCEIVER - A system and method for enabling testing a data link of a data packet signal transceiver device under test (DUT). A RX data packet signal originating from a reference device is conveyed for reception by a DUT, and a TX data packet signal originating from the DUT is conveyed for reception by the reference device. At least a portion of the RX data packet signal is conveyed with a signal attenuation and at least a portion of the TX data packet signal is conveyed with a different signal attenuation. | 05-21-2015 |
20150078196 | SYSTEM AND METHOD FOR TESTING WIDE BAND DATA PACKET SIGNAL TRANSCEIVERS USING NARROW BAND TESTERS - System and method for using multiple data packet signal testers having narrower data packet signal bandwidths for testing multiple data packet signal transmitters having wider data packet signal bandwidths. Using multiple data packet signal testers with narrower receiver bandwidths to process respective portions of the wider bandwidth of the data packet signals produced by the devices under test (DUTs) enables use of lower cost, narrower-bandwidth test equipment to test wide-bandwidth signals. | 03-19-2015 |
20150063133 | METHOD FOR TESTING DATA PACKET SIGNAL TRANSCEIVERS USING INTERLEAVED DEVICE SETUP AND TESTING - A method of using tester data packet signals and control instructions for testing multiple data packet signal transceiver devices under test (DUTs). During mutually alternating time intervals, selected ones of which are substantially contemporaneous, multiple tester data packet signals and DUT control instructions are used for concurrent testing of multiple DUTs. | 03-05-2015 |
20150058691 | METHOD FOR TESTING DATA PACKET SIGNAL TRANSCEIVER USING COORDINATED TRANSMITTED DATA PACKET SIGNAL POWER - A method for testing a data packet signal transceiver device under test (DUT) that minimizes time lost due to waiting for respective power levels of data packets transmitted by the DUT to settle at the desired nominal value for transmit signal testing. In accordance with exemplary embodiments, signals transmitted by the DUT during receive signal testing, e.g., as acknowledgement data packets, are transmitted at the nominal value for transmit signal testing, thereby allowing sufficient time for individual data packet signal power levels to settle and remain consistent at the nominal value by the time receive signal testing is completed and transmit signal testing is to begin. | 02-26-2015 |
20150036729 | METHOD FOR TESTING SENSITIVITY OF A DATA PACKET SIGNAL TRANSCEIVER - A method for using a test data packet signal to test a data packet signal transceiver device under test (DUT) having an operating characteristic defined by a data packet error rate (PER) as a function of data packet signal power (PWR). The test data packet signal power is varied and a test PER is computed as a function of DUT response data packets and test data packets until a measured test PER or a computed test PER extrapolated from measured PERs is equal to a predetermined PER less than and greater than maximum and minimum PERs, respectively. | 02-05-2015 |
20140327429 | VECTOR NETWORK POWER METER - System and method for implementing a Vector Network Power Meter (VNPM) as a new class of electronic test instrument that uses a novel topology based upon a reflectometer to combine the functionality of a Power Meter with that of a Vector Network Analyzer (VNA). The VNPM overcomes application limitations of the two existing classes of test instruments, including parallel and simultaneous measurement capability, in-circuit operation, and improved accuracy and repeatability by eliminating the calibration of interconnecting cabling. Also provided are alternate implementations of a correlator for the reflectometer which reduce the size and complexity of the correlator while extending its frequency range without limit. | 11-06-2014 |
20140273873 | SYSTEM AND METHOD FOR TESTING RADIO FREQUENCY WIRELESS SIGNAL TRANSCEIVERS USING WIRELESS TEST SIGNALS - A system and method for facilitating wireless testing of a radio frequency (RF) signal transceiver device under test (DUT). Using multiple antennas within a shielded enclosure containing the DUT, multiple wireless RF test signals resulting from a RF test signal radiated from the DUT can be captured and have their respective signal phases controlled in accordance with one or more signal characteristics, including their respective signal power levels, their respective signal phases as received, and a signal power level of a combination of the received signals. Such phase control of the captured wireless RF test signals can be performed individually for any DUT tested within the shielded enclosure, thereby providing compensation for the multipath signal environment within the shielded enclosure irrespective of the placement of the DUT, and thereby simulating a wired test signal path during wireless testing of the DUT. | 09-18-2014 |
20140269365 | SYSTEM AND METHOD FOR TESTING A DATA PACKET SIGNAL TRANSCEIVER - A system and method for testing signal reception by a data packet signal transceiver. By monitoring signals provided to and returning from a device under test (DUT), e.g., stimulus and response signals, respectively, it can be determined whether and when the DUT has received a faulty data packet or received a valid data packet in a faulty manner. When such events occur, appropriate control signals are provided for instructing the test signal reception and analysis subsystem (e.g., a vector signal analyzer) to capture and retain for analysis such faulty data packet or valid data packet received in a faulty manner. This enables the data packet reception test results to identify the number of data packets correctly received within the prescribed time interval and identify which data packet reception faults are due to reception of a faulty data packet or reception of a valid data packet in a faulty manner. | 09-18-2014 |
20140266930 | SYSTEM AND METHOD FOR TESTING RADIO FREQUENCY WIRELESS SIGNAL TRANSCEIVERS USING WIRELESS TEST SIGNALS - A system and method to facilitate wireless testing of a radio frequency (RF) signal transceiver device under test (DUT). With the DUT operating in a controlled electromagnetic environment, the tester exchanges multiple test signals wirelessly with the DUT. Signal phases of the respective test signals are controlled in accordance with feedback signals from the DUT and test equipment. Magnitudes of the respective test signals can also be controlled in accordance with such feedback signals, thereby enabling minimizing of apparent signal path loss between the tester and DUT to effectively simulate an electrically conductive signal path. | 09-18-2014 |
20140266929 | SYSTEM AND METHOD FOR TESTING RADIO FREQUENCY WIRELESS SIGNAL TRANSCEIVERS USING WIRELESS TEST SIGNALS - A system and method to facilitate wireless testing of a radio frequency (RF) multiple-input, multiple-output (MIMO) signal transceiver device under test (DUT). With the DUT operating in a controlled electromagnetic environment, the tester transmits multiple test signals wirelessly to the DUT. Signal phases of the respective test signals transmitted by the tester are controlled in accordance with feedback signal data from the DUT. Magnitudes of the respective test signals can also be controlled in accordance with such feedback signal data, thereby enabling dynamic optimization of the wireless communication channel condition number k(H). | 09-18-2014 |
20140256269 | SYSTEM AND METHOD FOR CONFIRMING RADIO FREQUENCY (RF) SIGNAL CONNECTIVITY WITH DEVICE UNDER TEST (DUT) - A system and method for confirming radio frequency (RF) signal connectivity integrity with a device under test (DUT). An output RF signal is provided to a RF signal port and looped back for analysis along with an input RF signal, which includes a reflected signal component related to the output RF signal, from the RF signal port. By measuring magnitudes of combinations of the input and loopback RF signals, e.g., at multiple signal frequencies, it can be determined whether the RF signal port is properly terminated by the DUT. | 09-11-2014 |
20140256268 | SYSTEM AND METHOD FOR CONFIRMING RADIO FREQUENCY (RF) SIGNAL CONNECTION INTEGRITY WITH MULTIPLE DEVICES UNDER TEST (DUTS) TO BE TESTED CONCURRENTLY - System and method for confirming radio frequency (RF) signal connections with multiple devices under test (DUTs) tested concurrently using replicas of a RF test signal. Cabled signal connections between the signal source and the DUTs are monitored by sensing levels of outgoing and related reflection RF signals. These signal levels are compared against similar signal levels when the outgoing RF signals are provided to reference impedances. Alternatively, the cabled signal connections have lengths of known signal wavelengths and the RF test signal frequency is swept such that minimum and maximum time delays between the outgoing and reflection RF signals go through minimum and maximum signal cycles with a difference of at least one full cycle. The reflection RF signal magnitude and phase are monitored, from which peak and valley signal level differences and phase changes are identified to determine return loss and phase changes indicative of DUT connection. | 09-11-2014 |
20140233405 | SYSTEM AND METHOD FOR TESTING MULTIPLE DATA PACKET SIGNAL TRANSCEIVERS CONCURRENTLY - A system and method for testing multiple data packet signal transceivers concurrently in which scalar and vector signal testing are separated. Concurrent testing of scalar signal characteristics of multiple data packet signals from the data packet signal transceivers can be performed while also performing testing of vector signal characteristics of portions of each of the multiple data packet signals, thereby requiring less test time for performing all desired signal tests. | 08-21-2014 |
20140181601 | METHOD OF TESTING MULTIPLE DATA PACKET SIGNAL TRANSCEIVERS CONCURRENTLY - A method of testing, such as for a bit error rate (BER), of multiple data packet signal transceivers during which a tester and the data packet signal transceivers exchange sequences of test data packets and summary data packets. The tester provides the test data packets which contain respective pluralities of data bits with respective predetermined bit patterns. Responsive thereto, the data packet signal transceivers provide the summary data packets which contain respective summary data indicative of the number of data bits with the respective predetermined bit patterns that are correctly received by corresponding ones of the data packet signal transceivers. | 06-26-2014 |
20140169182 | SYSTEM AND METHOD FOR PARALLEL TESTING OF MULTIPLE DATA PACKET SIGNAL TRANSCEIVERS - System and method for facilitating testing of multiple data packet signal transceivers involving data-packet-signal replication and one or more status signals indicating successful and unsuccessful receptions of confirmation signals. Based upon the one or more status signals, one or more control signals cause the replicated data packet signals to be distributed to the devices under test (DUTs) such that, following successful and unsuccessful receptions of confirmation signals, corresponding replicated data packet signals are caused to fail to conform in part or to conform, respectively, with a predetermined data packet signal standard. | 06-19-2014 |
20140169181 | METHOD OF FACILITATING TESTING OF MULTIPLE TIME-DIVISION-DUPLEX (TDD) DATA PACKET SIGNAL TRANSCEIVERS - Method and system for facilitating testing of multiple time-division-duplex (TDD) data packet signal transceivers. Replicas of a data packet signal are transmitted by a tester to multiple TDD devices under test (DUTs), where the replicated signal is either a null or TDD data packet signal. In one embodiment, replica null data packet signals are transmitted for a predetermined time interval sufficient for the DUTs to synchronize with the tester. In another embodiment, following successful and unsuccessful receptions of responsive signals from respective DUTs indicating successful reception of their respective replica TDD data packet signals and, therefore, synchronization with the tester, corresponding replica TDD data packet signals are provided with data packet signal characteristics causing such replica data packet signals to fail to conform or to conform, respectively, with a predetermined data packet signal standard. Following synchronization, test and responsive data packet signals can be exchanged between the tester and DUTs. | 06-19-2014 |
20140059397 | SYSTEM AND METHOD FOR TESTING RADIO FREQUENCY DEVICE UNDER TEST CAPABLE OF COMMUNICATING USING MULTIPLE RADIO ACCESS TECHNOLOGIES - System and method for testing a radio frequency (RF) device under test (DUT) communicating using multiple radio access technologies (RATs). Single data signal sequences having characteristics of multiple RATs as prescribed by signal standards are exchanged between a tester and DUT. The tester and DUT process received signal sequences substantially in parallel with their reception. A pattern of contemporaneous signal sequence reception and processing continues for as many RATs as the DUT is capable of supporting. | 02-27-2014 |
20140024315 | SYSTEM AND METHOD FOR FACILITATING COMPARISON OF RADIO FREQUENCY (RF) DATA SIGNALS TRANSMITTED BY A DEVICE UNDER TEST (DUT) AND RECEIVED BY A TEST SYSTEM - A system and method for facilitating comparison of radio frequency (RF) data signals transmitted by a device under test (DUT) and received by a test system. A RF data signal received from a DUT is analyzed to provide analysis data indicative of conformance of the DUT operation with one or more applicable signal standards. The RF data signal is also converted to related conversion data that can be stored with state machine data corresponding to states of the signal testing subsystem. This state machine data can then be processed as needed with the analysis data and conversion data for off-line tasks such as debugging new test programs and procedures. | 01-23-2014 |
20130326290 | SYSTEM AND METHOD FOR EXECUTION OF USER-DEFINED INSTRUMENT COMMAND SEQUENCES USING MULTIPLE HARDWARE AND ANALYSIS MODULES - A system and method for the execution of a program comprises a user-defined sequence of standard hardware and analysis module commands of an instrument, in the context of a tester comprising a plurality of VSAs and VSGs, or other hardware measurement modules types, where the coordination of command execution and resource availability is built into the system as an inherent part of its overall architecture. As such, the commands are the same as those ordinarily executed in piecemeal fashion, but are now automatically and sequentially executed in an atomic and deterministic manner through the coordinated interaction of embodiments of the invention. | 12-05-2013 |
20130326274 | METHOD FOR TRANSFERRING AND CONFIRMING TRANSFER OF PREDEFINED DATA TO A DEVICE UNDER TEST (DUT) DURING A TEST SEQUENCE - A method for testing a device under test (DUT) during a test sequence. In accordance with one embodiment, during a regular, pre-defined test sequence, data packets are transferred from a tester to a device under test (DUT) containing data related to at least one of an identification parameter of the DUT, an operational characteristic of the DUT and a request for data. Examples of such transferred data include address data for identifying the DUT (e.g., a unique media access control (MAC) address) and calibration data for controlling an operational characteristic of the DUT (e.g., signal power levels, signal frequencies or signal modulation characteristics). In accordance with another embodiment, the DUT retrieves and transmits data to the tester, either in response to the request for data or as a preprogrammed response to its synchronization with the tester. | 12-05-2013 |
20130301694 | SYSTEM AND METHOD FOR TESTING A RADIO FREQUENCY (RF) MULTIPLE-INPUT-MULTIPLE-OUTPUT (MIMO) DEVICE UNDER TEST (DUT) - A system and method for testing a radio frequency (RF) multiple-input-multiple-output (MIMO) device under test (DUT) in which system costs are minimized by using fewer precision RF MIMO testing subsystems together with lower precision integrated RF MIMO signal conversion circuitry to test the DUT. | 11-14-2013 |
20130295858 | SYSTEM AND METHOD FOR SYNCHRONIZED TRIGGERING OF TEST EQUIPMENT FOR TESTING MIMO TRANSCEIVERS - A system and method for testing multiple-input-multiple-output (MIMO) devices under test (DUTs) with multiple radio frequency (RF) signal testers. Each tester receives one or more RF signals from one or more of the DUTs, and the testers are mutually coupled in a ring such that successive ones receive a trigger input signal from an upstream tester and provide a trigger output signal to a downstream tester. Each tester is responsive to its input trigger signal and its one or more RF signals by providing its output trigger signal such that its output trigger signal has an asserted state initiated in response to an assertion of its input trigger signal and a transcending of a predetermined magnitude by at least one of the one or more RF signals. | 11-07-2013 |
20130294255 | METHOD FOR EFFICIENT PARALLEL TESTING OF TIME DIVISION DUPLEX (TDD) COMMUNICATIONS SYSTEMS - The invention described herein utilizes devices under test (DUTs) outfitted with stored, predefined test sequences, testers equipped with vector-signal generation (VSG) and vector-signal analysis (VSA) functionality, and novel methods for combining loopback and single-ended test functions in order to obtain higher testing efficiency for DUTs using Bluetooth or other time-division duplex (TDD) based communications. | 11-07-2013 |
20130294252 | SYSTEM AND METHOD FOR INITIATING TESTING OF MULTIPLE COMMUNICATION DEVICES - A system and method for initiating testing of a plurality of communication devices. The tester and devices under test (DUTs) are first synchronized as a way of confirming test readiness on the part of the DUTs, Following that, a test sequence is initiated by the tester. The synchronization and test initiation can be accomplished using signals with differing signal magnitudes or device identifiers. The test sequence can be a DUT transmit signal test in which each DUT transmits data packets in accordance with one or more predefined test sequences. Alternatively, the test sequence can be a DUT receive signal test in which the tester transmits data packets to the DUTs with differing signal frequencies or signal magnitudes. | 11-07-2013 |
20130259097 | METHOD FOR ENABLING A DEVICE UNDER TEST (DUT) TO RETRY A PORTION OF A PRE-DEFINED TEST SEQUENCE - Execution of a block test “retry” in a test environment with each block in the test sequence sent after the tester has determined that the previous block of data packets has met one or more prescribed test criterion. If a block sent by the DUT has not met the test criterion, a retry sequence is initiated to re-test the block. In another embodiment, a block test “retry” is executed where each block in the test sequence is sent and analysis of previously sent blocks is done in parallel with the sending of a subsequent block. If a previous block has not met the test criterion, a retry sequence is initiated whereby the tester and DUT step back to the block that failed to meet the test criterion and retry that block. If the retry meets test criterion, testing continues by resuming with the next untested block in the sequence. | 10-03-2013 |
20130234728 | METHOD FOR IDENTIFYING SELF-GENERATED SPURIOUS SIGNALS - A local oscillator (LO) of a test system is set to an initial frequency whereupon a device under test (DUT) transmits a radio frequency (RF) signal to the test system. Characteristics of the RF signal are measured with the test system and used to identify magnitudes and frequencies of spurious signal products. The LO of the test system is reset to one or more subsequent frequencies that are offset from the initial frequency. One or more subsequent RF signals are transmitted from the DUT to the test system, with the DUT maintaining its original signal settings. Characteristics of the subsequent RF signals are measured with the test system and used to identify magnitudes and frequencies of spurious signal products for each of the subsequent LO frequencies. The spurious signal products that have shifted in frequency for each of the subsequent LO frequencies as self-generated signal products can then be identified. | 09-12-2013 |
20130188678 | SYSTEM AND METHOD OF MAINTAINING CORRECTION OF DC OFFSETS IN FREQUENCY DOWN-CONVERTED DATA SIGNALS - Circuitry and method for reduce test time for wireless signal systems by using dynamic adaptive correction of DC offsets generated by the test instrument. The data signal is sampled for downstream processing including during pre-, inter-, or post-packet time intervals where no packet-data signal is occurring and where the device's power amplifier is turned off. The sampled data signal is measured for a DC offset occurring during these inter-packet time gaps. Compensating DC offset values are stored in a table indexed by frequency, gain and temperature range. When a subsequent test is carried out at that frequency, gain, and temperature range, the stored compensation value is used to correct the signal. DC offsets continue to be measured, stored and applied to captured signals, continuously refining the compensation values and decreasing the need for time-intensive calibrations. When a measured DC offset exceeds pre-determined limits, the instrument undergo a calibration step. | 07-25-2013 |
20130028100 | SYSTEM AND METHOD FOR DETERMINISTIC TESTING OF PACKET ERROR RATE IN ELECTRONIC DEVICES - A method and system for testing packet error rate in electronic devices by transmitting a series of data packets from a testing device to a device under test (DUT) and setting a predefined number of received error-free data packets; evaluating whether a number of data packets from the series of data packets received error-free by the DUT equals the predefined number of received error-free data packets and transmitting additional data packets from the testing device to the DUT, at a power level known to produce zero received-packet errors in a correctly operating DUT, if the number of data packets from the series of data packets received error-free by the DUT does not equal the predefined number of received error-free data packets. Additional possible embodiments include evaluating whether a total number of data packets from the series of data packets and the additional error-free-power-level data packets received error-free by the DUT equals the predefined number of received error-free data packets and transmitting a confirmation data packet to the testing device in response to reception by the DUT of the predefined number of received error-free data packets. | 01-31-2013 |
20120269288 | SYSTEM AND METHOD FOR SIMULTANEOUS MIMO SIGNAL TESTING WITH SINGLE VECTOR SIGNAL ANALYZER - Signal conversion circuitry and method for converting a multiple input, multiple output (MIMO) packet data signal transmission to a plurality of complex data samples for processing by shared test equipment, e.g., a single vector signal analyzer (VSA). | 10-25-2012 |
20120213112 | METHOD FOR MEASURING SENSITIVITY OF DATA PACKET SIGNAL RECEIVER - Methods for measuring the sensitivity of a data packet signal receiver are provided by varying the power level or modulation or both of a received data packet signal in a predetermined controlled sequence of data packet signals. | 08-23-2012 |
20120121001 | DIGITAL COMMUNICATIONS TEST SYSTEM FOR MULTIPLE INPUT, MULTIPLE OUTPUT (MIMO) SYSTEMS - A digital communications test system and method for testing a plurality of devices under test (DUTs) in which multiple sets of a single vector signal analyzer (VSA) and single vector signal generator (VSG) can be used together to perform error vector magnitude (EVM) measurements for one or more DUTs in parallel, including one or more of composite, switched and multiple input multiple output (MIMO) EVM measurements. This allows N pairs of a VSA and VSG to test N DUTs with N×N MIMO in substantially the sane time as a single VSA and VSG pair can test a single DUT, thereby allowing a substantial increase in testing throughput as compared to that possible with only a single VSA and VSG set. | 05-17-2012 |
20120121000 | DIGITAL COMMUNICATIONS TEST SYSTEM FOR MULTIPLE INPUT, MULTIPLE OUTPUT (MIMO) SYSTEMS - A digital communications test system and method for testing a plurality of devices under test (DUTs) in which multiple sets of a single vector signal analyzer (VSA) and single vector signal generator (VSG) can be used together to perform error vector magnitude (EVM) measurements for one or more DUTs in parallel, including one or more of composite, switched and multiple input multiple output (MIMO) EVM measurements. This allows N pairs of a VSA and VSG to test N DUTs with N×N MIMO in substantially the sane time as a single VSA and VSG pair can test a single DUT, thereby allowing a substantial increase in testing throughput as compared to that possible with only a single VSA and VSG set. | 05-17-2012 |
20120113829 | Achieving Greater Test Efficiencies Using ACK Signal Suppression - A method and system for testing a wireless data packet transceiver as a device under test (DUT) adapted to operate in conformance with a wireless signal standard such that a transmitted signal, when received by an intended receiver, is to result in a responsive signal transmission acknowledging such signal reception. During testing, responsive signal transmissions, e.g., acknowledgement signals, are withheld by the test system until after a predetermined number of data packets have been captured from the DUT, until a predetermined time interval has passed, or until data packets at a predetermined number of data rates have been captured from the DUT. | 05-10-2012 |
20110314333 | System and Method of Providing Driver Software to Test Controller to Facilitate Testing by Wireless Transceiver Tester of a Device Under Test - A system and method of providing driver software to a test controller to facilitate testing by a wireless transceiver tester of a device under test (DUT). Using the wireless transceiver tester, executable tester instructions are accessed from one or more computer readable media and in accordance therewith bi-directional signal communications are established between the wireless transceiver tester and the test controller, and between the wireless transceiver tester and the DUT. Further accessed are executable driver instructions, including a plurality of executable driver program instructions for driving at least one of the wireless transceiver tester and the DUT, which are communicated to the test controller. | 12-22-2011 |
20110292809 | System and Method for Using Multiple Network Addresses To Establish Synchronization of a Device Under Test and Test Equipment Controlling the Test - A system and method for testing a data packet signal transceiver in which multiple network addresses (e.g., media access control, or MAC, addresses) are used to establish synchronization of the device under test and the test equipment controlling the test. In accordance with an exemplary embodiment, synchronization is established using a first MAC address, following which testing is conducted using a second MAC address. | 12-01-2011 |
20110096821 | DIGITAL COMMUNICATIONS TEST SYSTEM FOR MULTIPLE INPUT, MULTIPLE OUTPUT (MIMO) SYSTEMS - A digital communications test system and method for testing a plurality of devices under test (DUTs) in which multiple sets of a single vector signal analyzer (VSA) and single vector signal generator (VSG) can be used together to perform error vector magnitude (EVM) measurements for one or more DUTs in parallel, including one or more of composite, switched and multiple input multiple output (MIMO) EVM measurements. This allows N pairs of a VSA and VSG to test N DUTs with NxN MIMO in substantially the sane time as a single VSA and VSG pair can test a single DUT, thereby allowing a substantial increase in testing throughput as compared to that possible with only a single VSA and VSG set. | 04-28-2011 |
20110090799 | SYSTEM AND METHOD FOR TESTING MULTIPLE DIGITAL SIGNAL TRANSCEIVERS IN PARALLEL - A method for contemporaneously testing multiple digital data packet transceivers using predefined UL test sequences of synchronized data packets by pre-configuring test measurements, and multiplexing and interleaving portions of the data packets from the devices under test (DUTs). | 04-21-2011 |
20110069624 | METHOD AND SYSTEM FOR TESTING MULTIPLE DATA PACKET TRANSCEIVERS TOGETHER DURING A PREDETERMINED TIME INTERVAL - A method and system for testing multiple data packet transceivers together during a predetermined time interval. A sequence of downlink data packets are generated and distributed as corresponding sequences of downlink data packets for reception by multiple data packet transceivers each one of which is responsive during at least a respective portion of a predetermined time interval to a respective one of the corresponding sequences of downlink data packets by transmitting a respective one of multiple corresponding sequences of uplink data packets. At least a portion of each of the corresponding sequences of uplink data packets are combined to provide a sequence of test data packets of which at least one signal parameter is measured. | 03-24-2011 |
20100261431 | METHOD AND APPARATUS FOR TESTING MULTIPLE DATA SIGNAL TRANSCEIVERS SUBSTANTIALLY SIMULTANEOUSLY WITH COMMON TRANSCEIVER TESTER - A method and apparatus for testing multiple data signal transceivers substantially simultaneously with a common transceiver tester by analyzing previously captured data signal transmissions from some of the data signal transceivers while continuing to capture further data signal transmissions from additional ones of the data signal transceivers. | 10-14-2010 |
20100123471 | Digital Communications Test System for Multiple Input, Multiple Output (MIMO) Systems - A digital communications test system and method for testing a plurality of devices under test (DUTs) in which multiple sets of a single vector signal analyzer (VSA) and single vector signal generator (VSG) can be used together to perform error vector magnitude (EVM) measurements for one or more DUTs in parallel, including one or more of composite, switched and multiple input multiple output (MIMO) EVM measurements. This allows N pairs of a VSA and VSG to test N DUTs with N×N MIMO in substantially the sane time as a single VSA and VSG pair can test a single DUT, thereby allowing a substantial increase in testing throughput as compared to that possible with only a single VSA and VSG set. | 05-20-2010 |
20100008237 | METHOD FOR TESTING DATA PACKET TRANSCEIVER USING LOOP BACK PACKET GENERATION - A method for testing a data packet transceiver as a device under test (DUT) by communicating, between one or more test instruments and the DUT, multiple data packets having at least one mutually distinct signal characteristic, such as data packet type, transmission power or transmission frequency. | 01-14-2010 |
20100007355 | METHOD FOR TESTING RADIO FREQUENCY (RF) RECEIVER TO PROVIDE POWER CORRECTION DATA - A method for testing a radio frequency (RF) receiver as a device under test (DUT) with one or more test instruments to provide a plurality of relative power correction factors, a plurality of received signal strength indication (RSSI) calibration factors, or both. | 01-14-2010 |
20090319826 | APPARATUS AND METHOD FOR TESTING A COMMUNICATION CIRCUIT - An apparatus for testing a communication circuit includes a detection module and a capture module. The detection module provides an enable signal in response to receiving at least one predetermined plurality of data from a communication device under test. The capture module captures at least one other predetermined plurality of data in response to the enable signal. | 12-24-2009 |
20090307331 | SYSTEM, METHOD AND ARTICLE OF MANUFACTURE FOR UTILIZING AN INTERFACE CLIENT IN AN INTERFACE ROAMING NETWORK FRAMEWORK - A system, method and article of manufacture are provided for utilizing an interface client in an interface roaming network. In general, an interface client in the interface roaming network submits information about the interface client to a wireless link in vicinity to the interface client. The interface client may then subsequently receive content and then display the content on a display. | 12-10-2009 |