LMV225TLEVAL National Semiconductor, LMV225TLEVAL Datasheet - Page 24

LMV225TLEVAL

Manufacturer Part Number

LMV225TLEVAL

Description

BOARD EVAL FOR LMV225 MICRO SMD

Manufacturer

National Semiconductor

Type

Power Detector, CDMAr

Datasheets

1.LMV225TLNOPB.pdf (28 pages)

2.LMV225TLEVAL.pdf (4 pages)

Specifications of LMV225TLEVAL

Frequency

450MHz ~ 2GHz

For Use With/related Products

LMV225

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Application Notes

The output voltage variation ∆V

input signals that fall within the linear range (in dB) of the

detector. In other words, the output variation is independent

of the absolute RF input signal:

In which V

error is usually much smaller than the ripple due to AM

modulation. In case of the LMV225/LMV228, V

dB. With ∆P

valid for all V

Output Ripple with Additional Filtering

The calculated result above is for an unfiltered configuration.

When a low pass filter is used by shunting a capacitor of e.g.

ground, this ripple is further attenuated. The cut-off fre-

quency follows from:

With the output resistance of the LMV225/LMV228 R

19.8 kΩ typical and C

equals f

ated by 5.36/100 or 25.4 dB. The remaining ripple will be

less than 20 mV. With a slope of 40 mV/dB this translates

into an error of less than

low output impedance buffer, a capacitor to reduce the ripple

will not be effective.

Output Ripple Measurement

Figure 6 shows the ripple reduction that can be achieved by

adding additional capacitance at the output of the LMV225/

LMV228. The RF signal of 900 MHz is AM modulated with a

100 kHz sinewave and a modulation index of 0.3. The RF

input power is swept while the modulation index remains

unchanged. Without the output capacitor the ripple is about

200 mV

ground, results in a ripple of 12 mV

OUT

= 1.5 nF at the output of the LMV225/LMV228 to

FIGURE 5. V

= 5.36 kHz. A 100 kHz AM signal then gets attenu-

. Connecting a capacitor of 1.5 nF at the output to

is the slope of the curve. The log-conformance

OUT

= 5 dB for CDMA, ∆V

∆V

OUT

vs. RF Input Power P

= V

0.5 dB. Since the LMV226 has a

= 1.5 nF, the cut-off frequency

OUT

· ∆P

(Continued)

OUT

is thus identical for RF

. The attenuation with

= 200 mV

= 40 mV/

20076018

. This is

(7)

(8)

a 1.5 nF capacitor is then 20 • log (200/12) = 24.4 dB. This

is very close to the calculated number of the previous para-

graph.

PRINCIPLE OF OPERATION

The logarithmic response of the LMV225/LMV226/LMV228

is implemented by a logarithmic amplifier as shown in Figure

7. The logarithmic amplifier consists of a number of cas-

caded linear gain cells. With these gain cells, a piecewise

approximation of the logarithmic function is constructed.

Every gain cell has a response according to Figure 8. At a

certain threshold (E

means that the gain drops to zero. The output of gain cell 1

is connected to the input of gain cell 2 and so on.

FIGURE 6. Output Ripple vs. RF Input Power

FIGURE 7. Logarithmic Amplifier

), the gain cell starts to saturate, which

20076025

20076019

LMV225TLEVAL National Semiconductor, LMV225TLEVAL Datasheet - Page 24

LMV225TLEVAL

Specifications of LMV225TLEVAL

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