Abstract: A method and apparatus to characterize a synchronous device after it is packaged. For synchronous devices, such as SDRAMs implementing a Delay Locked Loop (DLL) to synchronize one signal, such as an external clock signal with a second signal, such as a data signal, a counter is coupled to the phase detector of the DLL to track the entry point of the delay line. The entry point information can be taken over a variety of voltages, temperatures, and frequencies to characterize the DLL. The counter may be located on the synchronous device or external to the device.

Abstract: A delay locked loop circuit includes a plurality of delay cells connected in series. Each of the delay cells connects to an input node which provides a clock signal. A shift register selects one of the delay cells to allow the clock signal to enter the selected delay cell and propagate to an output node, such that internal gates of delay cells preceding the selected delay cell are not toggling.

Abstract: A method and apparatus to characterize a synchronous device after it is packaged. For synchronous devices, such as SDRAMs implementing a Delay Locked Loop (DLL) to synchronize one signal, such as an external clock signal with a second signal, such as a data signal, a counter is coupled to the phase detector of the DLL to track the entry point of the delay line. The entry point information can be taken over a variety of voltages, temperatures, and frequencies to characterize the DLL. The counter may be located on the synchronous device or external to the device.

Abstract: A delay circuit that includes a plurality of delay cells connected in series. Each of the delay cells connects to an input node which provides a clock signal. A shift register selects one of the delay cells to allow the clock signal to enter the selected delay cell and propagate to an output node, such that internal gates of delay cells preceding the selected delay cell are not toggling.

Abstract: A method and apparatus to characterize a synchronous device after it is packaged. For synchronous devices, such as SDRAMs implementing a Delay Locked Loop (DLL) to synchronize one signal, such as an external clock signal with a second signal, such as a data signal, a counter is coupled to the phase detector of the DLL to track the entry point of the delay line. The entry point information can be taken over a variety of voltages, temperatures, and frequencies to characterize the DLL. The counter may be located on the synchronous device or external to the device.

Abstract: A method and apparatus to characterize a synchronous device after it is packaged. For synchronous devices, such as SDRAMs implementing a Delay Locked Loop (DLL) to synchronize one signal, such as an external clock signal with a second signal, such as a data signal, a counter is coupled to the phase detector of the DLL to track the entry point of the delay line. The entry point information can be taken over a variety of voltages, temperatures, and frequencies to characterize the DLL. The counter may be located on the synchronous device or external to the device.

Abstract: A delay locked loop circuit includes a plurality of delay cells connected in series. Each of the delay cells connects to an input node which provides a clock signal. A shift register selects one of the delay cells to allow the clock signal to enter the selected delay cell and propagate to an output node, such that internal gates of delay cells preceding the selected delay cell are not toggling.

Abstract: A delay circuit that includes a plurality of delay cells connected in series. Each of the delay cells connects to an input node which provides a clock signal. A shift register selects one of the delay cells to allow the clock signal to enter the selected delay cell and propagate to an output node, such that internal gates of delay cells preceding the selected delay cell are not toggling.