Maintenance and Performance Checks 5-8
4.
Tune the spectrum analyzer to the carrier
frequency and adjust the gain so the fundamental
corresponds to 0 dB.
5.
Connect the Model 3152 output to spectrum
analyzer input through a 20dB feedthrough
attenuator.
6.
Set the Model 3152 FREQ setting and verify the
harmonic distortions levels as follows:
FREQ SETTING
HARMONICS LEVEL
5.000 MHz
<50 dB
50.00 MHz
<28 dB
Sine Flatness
Level Flatness: ±1% to 1.000 MHz; ±5% to 10.00 MHz; ±15% to
50.00 MHz
Equipment: Oscilloscope
1.
Configure the Model 3152 as follows:
Function:
Sine wave
Frequency:
1.000 KHz
Amplitude:
6 V
Remote Commands:
:RES
:OUTP ON
:FREQ 10e3
:VOLT 6
2.
Connect the Model 3152 OUTPUT to the
oscilloscope, set the oscilloscope input impedance
to 50
S
, and set the oscilloscope to display the
sinewave within exactly 6 vertical divisions.
3.
Change the Model 3152 FREQ setting to 1.000
MHz. Verify that peak-to-peak of the displayed
sinewave is within 5.9 to 6.1 divisions.
4.
Change the Model 3152 FREQ setting to 10.00
MHz. Verify that peak-to-peak of the displayed
sinewave is within 5.7 to 6.3 divisions.
5.
Change the Model 3152 FREQ setting to 50.00
MHz. Verify that peak-to-peak of the displayed
sinewave is within 5.1 to 6.9 divisions.
Trig, Gate and Burst
Characteristics
Triggered - Each transition at the front panel TRIG IN connector
stimulates the Model 3152 to generate one complete output
waveform.
Revised 7/25/00
Summary of Contents for 3152
Page 16: ...Getting Started 1 7 Figure 1 1 Segment 1 Sin x x Waveform Figure 1 2 Segment 2 Sine Waveform...
Page 25: ...Configuring The Instrument 2 6 This page was intentionally left blank...
Page 63: ...Using The Instrument 3 38 This page was intentionally left blank...
Page 80: ...SCPI Command Reference 4 17 Figure 4 1 SCPI Status Registers...
Page 121: ...Specifications A 12 This page was intentionally left blank...