Instructions

ManualsBrandsRigol ManualsFunction GeneratorsRigol DG2052 Mains-powered 0.000001 Hz - 50 MHz 2-channel Sinus, Rectangle, Noise, Pulse, Triangle, Arbitrary

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RIGOL Chapter 2 Front Panel Operations

2-84 DG2000 User Guide

is (the basic waveform frequency÷2

). Wherein, n represents the

frequency dividing coefficient and it is 1 when the frequency of the basic

waveform is greater than 30 MHz and less than or equal to 60 MHz.

3) Noise: there is no sync signal output.

2. Harmonic

For harmonics, the sync signal is a Square with 50% duty cycle, and its

frequency is the same as that of the fundamental waveform. When the first

waveform point is output, the sync signal is TTL high level.

3. Arbitrary Waveform

For arbitrary waveforms, the sync signal is a Square with 50% duty cycle, and

its frequency is the same as that of the arbitrary waveform. When the first

waveform point is output, the sync signal is TTL high level.

4. Modulated Waveform

1) When internal modulation source is selected, the sync signal is a Square

with 50% duty cycle.

 For AM, FM, PM, and PWM, the frequency of the sync signal is the

modulating frequency.

 For ASK, FSK, and PSK, the frequency of the sync signal is the

modulating rate.

2) When external modulation source is selected:

The terminal is used to receive the external modulation signal, and there

is no sync signal output.

5. Sweep Output Waveform

1) When the internal or manual trigger source is selected:

 For the sweep with "Marker Freq" off:

The sync signal is a Square with 50% duty cycle. The sync signal is

TTL high level at the start of the sweep and changes to low level at

the mid-point of the sweep. The frequency of the sync signal is the

reciprocal of the sum of the specified sweep time, return time, start

hold, and stop hold time.

 For the sweep with "Marker Freq" on:

For linear and log sweep, the sync signal is TTL high level at the start

of the sweep and changes to low level at the marker frequency.

For step sweep (the sweep points determined by the start frequency,

stop frequency, and step respectively are f

, f

, ……, f

, f

n+1

……), if

the marker frequency setting is one of the sweep points values, the

sync signal is TTL high level at the start of the sweep and will change

to low level at the marker frequency point. If the set marker

frequency is not equal to the value at the sweep point, the sync

signal will change to low level at the sweep point which is closest to