Microe 3500Si Mercury Bedienungsanleitung PDF herunterladen (Seite 16)

Trigger Communication Approach:

The Trigger Approach can be used in applications where synchronization of the position data to an event is required. Often, this mode is used

when a fixed latency between a clock signal and the sampled position data is required. The customer can choose this mode of operation by using

the optional SmartPrecision Software. In this mode, triggering is controlled by the n_spiEnable signal.

The n_spiEnable signal starts the process by immediately resetting the internal calculators and acquiring the latest AD converter information. Old

data in the calculation chain is discarded and the initiation of a new position calculation is started.

The new data is ready in 1180ns. The n_spiEnable signal for retrieving the data must be asserted within 340ns after the new data is ready or the

triggered acquisition will be over written by new data.

Shifting the data out of the interpolator's serial port is accomplished exactly as in the Standard Communication mode of operation. In order to

sample the next position, n_spiEnable must be brought high and then reasserted. See the Trigger Approach timing diagram below.

n_spiEnable

spiClock

spiDataOut

tTDR

Symbol Parameter Minimum Maximum Units

tspiH SCK High Time 25 ns

tspiL SCK Low Time 25 ns

tTDR n_spiEndable to DataReady 1180 1520 ns

tW n_spiEnable width 50 ns

tCSD n_spiEnable to DataValid 50 ns

↓SCK to Data Valid

25 ns

tCCS SCK to n_CS 0 ns

tCS n_CS High 50 ns

tDNA n_CS to HiZ (no HiZ) 50 ns

Trigger Approch Timming Diagram

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Microe 3500Si Mercury Bedienungsanleitung Seite 16