Abstract: A delay line with some external logic can be combined to implement a one-shot function. This article outlines how to perform this configuration and make the required calculations to develop the pulse width needed for a certain application. The article gives an example of a one-shot developed using a fixed delay line for a fixed one-shot output. Programmable delay lines such as the DS1020, DS1021 and DS1023 are available, which could be configured in the same manner to provide a programmable one-shot circuit which could be used as the duty cycle modulator in a pulse-width modulator (PWM) circuit. Some external logic can be combined with a delay line to implement a one-shot function. This approach has the advantage that it eliminates the need for RC timing components and can offer improved accuracy. If a tapped delay line is used, it can be combined with a multiplexer, DIP switches, or jumpers to offer several different output pulse widths, under system control or hard-wired. The realizable accuracy will be determined by how the logic is implemented and the associated propagation delays through it compared to the chosen delay time. Ideally, the external propagation delays should be small compared to the delay time, in which case the output pulse width will be close to the delay time used. The various propagation delays have the following effects on overall system performance: the inverter propagation delay (tPD1) directly affects the output pulse width; the NOR gate propagation delay (tPD2), in conjunction with the inverter propagation delay, will affect the skew between input and output. TTL logic, although easy to implement, suffers from relatively large propagation delays depending on family, (e.g., LS, FAST) and from wide tolerances at room temperature and over the operating range. For shorter pulse widths and tighter tolerance, it may be preferable to implement the function using discrete transistors (RTL). One member of the Silicon Timed Circuit family, the DS1040 preconfigured as a one-shot, and offers similar functionality without requiring external components. Related Parts   APP 977: Feb 22, 2002 DS1020 Programmable 8 bit Silicon Delay Line Full Data Sheet (PDF, 200kB) DS1021 Programmable 8 bit Silicon Delay Line Full Data Sheet (PDF, 208kB) DS1023 8-Bit Programmable Timing Element Full Data Sheet (PDF, 256kB) Free Samples DS1040 Programmable One-Shot Pulse Generator Full Data Sheet (PDF, 160kB) DS1100 5-Tap Economy Timing Element (Delay Line) Full Data Sheet (PDF, 168kB) Free Samples DS1135 3-in-1 High-Speed Silicon Delay Line Full Data Sheet (PDF, 136kB) Free Samples Automatic Updates Would you like to be automatically notified when new application notes are published in your areas of interest? Sign up for EE-Mail™. We Want Your Feedback!   Download, PDF Format (33kB)  AN977, AN 977, APP977, Appnote977, Appnote 977