Key characteristics – Atec Agilent-N6030A User Manual

8

Sequence jump modes

Sequence jumps determine how

a sequence responds to a jump

trigger. There are no discontinuities

in a sequence jump other than those

imposed by the waveform data.

Three modes are available to

control sequence jumps:

• Jump immediate

Jumps immediately to the next

specified sequence address with

a fixed latency.

• End of segment

The current segment (including

waveform repeats) is completed

before jumping to a new

sequence.

• End of sequence

The current sequence is

completed before jumping to a

new sequence. Jump latency

is the longer of either the jump

immediate latency or the length

of the remaining sequence.

• Dynamic Sequencing

(Option 300)

Input: 20-pin mini-D connector

Input levels: All pins configured

as 2.5 volt LVCMOS inputs. A

logic low must fall within the

-0.2 to +0.5 volt window. A logic

high must be within the window

of +2.0 to +2.8 volts.

Number of address bits:

13 bits per channel

Total number of addressable

scenarios: 16 k

Data rate for dynamic data:

100 ns

Data latency: same as front panel

trigger inputs

Software pointers may also be

used to point to pre-defined

scenarios over the PCI backplane

though latencies are not

deterministic.

• Direct Digital Synthesis

(Option 330)

Output frequency resolution:

1 Hz

Frequency modulation:

Deviation from 0 to 125 MHz

(250 MHz peak-peak)

Phase modulation:

Deviation from -180 to +180

degrees in 0.022 degree steps

Amplitude modulation:

Modulation depth from 0 to 100%

with 15 bit resolution

Single channel bandwidth:

400 MHz (800 MHz I/Q)

Key characteristics

(continued)