Spectrum emission mask – Agilent Technologies N9010A User Manual

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Chapter 25

DTMB Measurement Application

Measurements

Description

Specifications

Supplemental Information

Spectrum Emission Mask

(7.56 MHz transmission BW

RBW = 3.9 kHz)

4.2 MHz offset

Dynamic Range, relative

ab

86.9 dB

94.0 dB (typical)

Sensitivity, absolute

c

–105.5 dBm

–111.5 dBm(typical)

Accuracy

Relative

d

±0.18 dB

Absolute

(20 to 30°C)

±1.05 dB

±0.31 dB(95th percentile)

10 MHz offset

Dynamic Range, relative

e

89.3 dB

96.0 dB (typical)

Sensitivity, absolute

–105.5 dBm

–111.5 dBm (typical)

Accuracy

Relative

±0.21 dB

Absolute

(20 to 30°C)

±1.05 dB

±0.31 dB (95th percentile)

a. The dynamic range specification is the ratio of the channel power to the power in the offset specified.

The dynamic range depends on the measurement settings, such as peak power or integrated power.
Dynamic range specifications are based on default measurement settings, with detector set to average,
and depend on the mixer level. Default measurement settings include 3.9 kHz RBW.

b. This dynamic range specification applies for the optimum mixer level, which is about –16 dBm. Mixer

level is defined to be the average input power minus the input attenuation.

c. The sensitivity is specified with 0 dB input attenuation. It represents the noise limitations of the ana-

lyzer. It is tested without an input signal. The sensitivity at this offset is specified in the default 3.9 kHz
RBW, at a center frequency of 474 MHz.

d. The relative accuracy is a measure of the ratio of the power at the offset to the main channel power. It

applies for spectrum emission levels in the offsets that are well above the dynamic range limitation.

e. This dynamic range specification applies for the optimum mixer level, which is about –13 dBm. Mixer

level is defined to be the average input power minus the input attenuation.