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Chapter 9
Digital Routing and Clock Generation
Using RTSI as Outputs
RTSI <0..7> are bidirectional terminals. As an output, you can drive any of the following signals
to any RTSI terminal:
•
AI Start Trigger (ai/StartTrigger)
•
AI Reference Trigger (ai/ReferenceTrigger)
•
AI Convert Clock
*
(ai/ConvertClock)
•
AI Sample Clock (ai/SampleClock)
•
AI Pause Trigger (ai/PauseTrigger)
•
AO Sample Clock
*
(ao/SampleClock)
•
AO Start Trigger (ao/StartTrigger)
•
AO Pause Trigger (ao/PauseTrigger)
•
DI Start Trigger (di/StartTrigger)
•
DI Sample Clock (di/SampleClock)
•
DI Pause Trigger (di/PauseTrigger)
•
DI Reference Trigger (di/ReferenceTrigger)
•
DO Start Trigger (do/StartTrigger)
•
DO Sample Clock
*
(do/SampleClock)
•
DO Pause Trigger (do/PauseTrigger)
•
10 MHz Reference Clock
•
Counter
n
Source, Gate, Z, Internal Output
•
Change Detection Event
•
Analog Comparison Event
•
FREQ OUT
•
PFI <0..5>
Note
Signals with a
*
are inverted before being driven on the RTSI terminals.
Using RTSI Terminals as Timing Input Signals
You can use RTSI terminals to route external timing signals to many different X Series
functions. Each RTSI terminal can be routed to any of the following signals:
•
AI Convert Clock (ai/ConvertClock)
•
AI Sample Clock (ai/SampleClock)
•
AI Start Trigger (ai/StartTrigger)
•
AI Reference Trigger (ai/ReferenceTrigger)
•
AI Pause Trigger (ai/PauseTrigger)
•
AI Sample Clock Timebase (ai/SampleClockTimebase)
Summary of Contents for PCIe-6323
Page 1: ...PCIe 6323...