Triggering - The TRIGger Subsystem

Measurement Operations & Settings

trig:conf:ext #H2,#H0,#H0 trig2:outp dis

trig2:inp next sour2:wav:swe star trig1:outp stf trig1:inp ign sour1:wav:swe star

trig:conf:ext #H2,#H0,#H0 is described by Figure 4-1 and sets one bit:

for Node A Input Configuration:

Bit 1 - an event at slot 1 can trigger Node A. As trig1:outp stf is set, Node A can be triggered if a sweep step finishes for a tunable laser module installed in slot 1.

The following explanation explains the sequence with which actions are triggered.

1sour2:wav:swe star arms the sweep for for the tunable laser module in slot 2. Because trig2:inp next is set, the module waits for a trigger until it performs the first step of the sweep.

2sour1:wav:swe star commands the tunable laser module in slot 1 to start sweeping. Because trig1:inp ign is set, the module performs a sweep as normal.

3When the module in slot 1 finishes a step, because trig1:outp stf is set, Node A is triggered.

4Node A triggers all modules because the Output Matrix Configuration is set to zero. Node A triggers the tunable laser module in slot 2 to perform a sweep step because trig2:inp next is set.

5The sequence starts again at step 3 and continues until the sweep ends.

Agilent 8163A/B, 8164A/B & 8166A/B Mainframes, Fifth Edition

183

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Agilent Technologies 8164A, B, 8166A, 8163A manual 183, Trigconfext #H2,#H0,#H0 is described by -1 and sets one bit
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8163A, 8164A, 8166A, B specifications

Agilent Technologies B,86100A is a high-performance oscilloscope and signal integrity analyzer designed primarily for advanced digital communications applications. As a versatile tool, it supports a wide range of testing needs, making it indispensable for engineers and researchers involved in the development and testing of high-speed digital signals.

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