LMH2110_15 Datasheet, PDF(24/36 Page) Texas Instruments – LMH2110 8-GHz Logarithmic RMS Power Detector with 45-dB Dynamic Range

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LMH2110_15 Datasheet, PDF (24/36 Pages) Texas Instruments – LMH2110 8-GHz Logarithmic RMS Power Detector with 45-dB Dynamic Range

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LMH2110

SNWS022D â JANUARY 2010 â REVISED JUNE 2015

www.ti.com

2.4

2.0

1.6

-40Â°C 25Â°C

1.2

0.8

-1

85Â°C

0.4

-2

0.0

-40

-30 -20 -10

RF INPUT POWER (dBm)

-3

Figure 46. VOUT and ELC vs. RF input Power at 1900 MHz

8.2.1.2.1.3 Variation Over Temperature Error

In contrast to the log conformance error, the variation over temperature error (EVOT) purely measures the error

due to temperature variation. The measured output voltage at 25Â°C is subtracted from the output voltage at

another temperature. Subsequently, it is translated into an input referred error by dividing it by KSLOPE at 25Â°C.

Variation over temperature is given by Equation 11:

EVOT = (VOUT_TEMP â VOUT 25Â°C) / KSLOPE 25Â°C

(11)

The variation over temperature is shown in Figure 47, where a dynamic range of 41 dB is obtained

(from PMIN = â36 dBm) for EVOT = Â±0.5 dB.

2.0

1.5

1.0

-40Â°C

0.5

0.0

-0.5

85Â°C

-1.0

-1.5

-2.0

-40 -30 -20 -10

RF INPUT POWER (dBm)

Figure 47. EVOT vs. RF Input Power at 1900 MHz

8.2.1.2.1.4 1-dB Step Error

This parameter is a measure for the error for a 1-dB power step. According to a 3GPP specification, the error

must be less than Â±0.3 dB. Often, this condition is used to define a useful dynamic range of the detector.

The 1-dB step error is calculated in 3 steps:

1. Determine the maximum sensitivity.

2. Determine average sensitivity.

3. Calculate the 1-dB step error.

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