The design and experimental demonstration of a low-power pulse-to-static conversion latch circuit is described. The circuit includes self-timed control and a 64-bit latch array, both designed utilizing self-resetting CMOS (SRCMOS) circuit techniques. The self-timed feature of the control requires only one system clock input. The evaluation, reset and write-enable controls are all generated within a control macro. The latch is level sensitive scan design (LSSD) compatible and complies with SRCMOS test modes. Use of these latches facilitates the synchronization, pipelined operation, power-management, and testing of advanced digital systems employing a mix of static and dynamic circuits to achieve high performance. An experimental 64-bit latch array and self-timed control macro, designed for 2.5 V-0.5 /spl mu/m CMOS technology, has been successfully fabricated and tested. The full circuit occupies an area of 1.704 mm/spl times/0.07 mm, and the size of latch bit cell is 21.6 /spl mu/m/spl times/70 /spl mu/m. Experimental results have shown the conversion latch to function properly, capturing 1.2 ns output pulses from an SRCMOS register file, and properly converting them to static levels. The measured delay from global clock to static output was 725 ps.
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机译:描述了一种低功率脉冲-静态转换锁存电路的设计和实验演示。该电路包括自定时控制和64位锁存器阵列,两者均利用自复位CMOS(SRCMOS)电路技术进行设计。控件的自定时功能仅需要一个系统时钟输入。评估,重置和启用写入的控件均在控件宏中生成。该锁存器与电平敏感扫描设计(LSSD)兼容,并符合SRCMOS测试模式。这些锁存器的使用促进了采用静态和动态电路混合以实现高性能的高级数字系统的同步,流水线操作,电源管理和测试。已成功制造并测试了针对2.5 V-0.5 / spl mu / m CMOS技术设计的实验性64位锁存器阵列和自定时控制宏。整个电路的面积为1.704 mm / spl倍/0.07 mm,锁存位单元的大小为21.6 / spl mu / m / spl倍/ 70 / spl mu / m。实验结果表明,转换锁存器可以正常工作,从SRCMOS寄存器文件捕获1.2 ns输出脉冲,并将其正确转换为静态电平。从全局时钟到静态输出的测量延迟为725 ps。
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