1S1: Difference between revisions

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it allows the output signal at one equivalent time instant to be processed in the time domain.   
it allows the output signal at one equivalent time instant to be processed in the time domain.   
For example, this allows the voltage to be low-pass filtered, so that it can be more accurately measured.   
For example, this allows the voltage to be low-pass filtered, so that it can be more accurately measured.   
The other reason why one might want a signal the consists of multiple sequential measurements  
The other reason why one might want a signal that consists of multiple sequential measurements  
of the same equivalent-time instant is that statistics can be calculated on these observations.   
of the same equivalent-time instant is that statistics can be calculated on these observations.   
For example, one might want to know, when testing a logic gate, what is the propagation delay  
For example, one might want to know, when testing a logic gate, what is the propagation delay  

Revision as of 13:32, 16 May 2011

The 1S1 is a sampling plug-in for 500-series scopes. It is essentially one channel of a sampling unit and a timing unit from a 661. It has its own trigger and timebase. The oscilloscope's timebase is usually set to a relatively slow sweep rate when using a 1S1. Alternatively, the sweep on the oscilloscope can be free-run, and the horizontal voltage from the oscilloscope can be used to control the 1S1, as described below. The 1S1 has a 50-Ohm GR-874 connector for signal input. The plug-in supplies power (+100V and -12.6V) to active probes such as the P6032 cathode follower probe.

The 1S1 can operate in normal self-swept mode or an external sweep signal can be applied to the 1S1. With the 1S1's internal sweep disabled, the horizontal-in and vertical-out connections can be used so the the 1S1 acts as a lookup table, a mapping of x to y, a function. The 661 also has this capability, in its "A vert/B horiz" mode, which is like X-Y mode for a sampler. In this mode, the horizontal-in voltage controls to the time after the trigger event when the sample should be taken, and the vertical-out voltage corresponds to the voltage measured at that instant. This allows a waveform to be digitized using an arbitrarily slow DAC to generate the horizontal voltage and ADC to read the sampled output. But perhaps more importantly, by setting a constant horizontal-in voltage, it allows the output signal at one equivalent time instant to be processed in the time domain. For example, this allows the voltage to be low-pass filtered, so that it can be more accurately measured. The other reason why one might want a signal that consists of multiple sequential measurements of the same equivalent-time instant is that statistics can be calculated on these observations. For example, one might want to know, when testing a logic gate, what is the propagation delay such that 99.9% of the transitions happen faster than this. The horizontal-in voltage can also be produced, in "manual" mode, by setting a knob on the 1S1.

The sampler in the 1S1 is quite different from the sampler in the 1S2. The 1S1 uses a four-diode sampling bridge, terminated within the 1S1. The 1S2 uses a two-diode feed-through sampler, typical for TDR instruments.

Type 1S1 was introduced in 1965 and sold through 1973.