LMV221SDX National Semiconductor, LMV221SDX Datasheet - Page 25

LMV221SDX

Manufacturer Part Number

LMV221SDX

Description

Manufacturer

National Semiconductor

Datasheet

1.LMV221SDX.pdf (32 pages)

Specifications of LMV221SDX

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

LLP EP

Lead Free Status / RoHS Status

Not Compliant

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In a practical power measurement system, temperature com-

pensation is usually only applied to a small power range

around the maximum power level for two reasons:

•

The table in the datasheet specifies the temperature sensi-

tivity for the aforementioned two segments at an input power

level of -10 dBm (near the top-end of the detector dynamic

range). The typical value represents the mean which is to be

used for calibration.

2.5 Differential Power Errors

Many third generation communication systems contain a

power control loop through the base station and mobile unit

that requests both to frequently update the transmit power

level by a small amount (typically 1 dB). For such applications

it is important that the actual change of the transmit power is

sufficiently close to the requested power change.

The error metrics in the datasheet that describe the accuracy

of the detector for a change in the input power are E

a 1 dB change in the input power) and E

or ten consecutive steps of 1 dB). Since it can be assumed

that the temperature does not change during the power step

The core of the LMV221 is a progressive compression LOG-

detector consisting of four gain stages. Each of these satu-

rating stages has a gain of approximately 10 dB and therefore

realizes about 10 dB of the detector dynamic range. The five

diode cells perform the actual detection and convert the RF

signal to a DC current. This DC current is subsequently sup-

plied to the transimpedance amplifier at the output, that con-

verts it into an output voltage. In addition, the amplifier

provides buffering of and applies filtering to the detector out-

put signal. To prevent discharge of filtering capacitors be-

tween OUT and GND in shutdown, a switch is inserted at the

amplifier input that opens in shutdown to realize a high

impedance output of the device.

3.2 RF Input

RF parts typically use a characteristic impedance of 50Ω. To

comply with this standard the LMV221 has an input

impedance of 50Ω. Using a characteristic impedance other

then 50Ω will cause a shift of the logarithmic intercept with

The various communication standards require the highest

accuracy in this range to limit interference.

The temperature sensitivity itself is a function of the power

level it becomes impractical to store a large number of

different temperature sensitivity values for different power

levels.

10 dB

FIGURE 10. Block Diagram of the LMV221

(for a 10 dB step,

1 dB

(for

the differential error equals the difference of the drift error at

the two involved power levels:

It should be noted that the step error increases significantly

when one (or both) power levels in the above expression are

outside the detector dynamic range. For E

when P

of the dynamic range, P

3.0 DETECTOR INTERFACING

For optimal performance of the LMV221, it is important that

all its pins are connected to the surrounding circuitry in the

appropriate way. This section discusses guidelines and re-

quirements for the electrical connection of each pin of the

LMV221 to ensure proper operation of the device. Starting

from a block diagram, the function of each pin is elaborated.

Subsequently, the details of the electrical interfacing are sep-

arately discussed for each pin. Special attention will be paid

to the output filtering options and the differences between

single ended and differential interfacing with an ADC.

3.1 Block Diagram of the LMV221

The block diagram of the LMV221 is depicted in Figure 10.

respect to the value given in the electrical characteristics ta-

ble. This intercept shift can be calculated according to the

following formula: .

The intercept will shift to higher power levels for

3.3 Shutdown

To save power, the LMV221 can be brought into a low-power

shutdown mode. The device is active for EN = HIGH

LOW (V

switched to a high impedance mode. Using the shutdown

SOURCE

>1.1V) and in the low-power shutdown mode for EN =

< 50Ω.

is less than 10 dB below the maximum input power

> 50Ω, and will shift to lower power levels for

< 0.6V). In this state the output of the LMV221 is

20173703

MAX

10 dB

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LMV221SDX National Semiconductor, LMV221SDX Datasheet - Page 25

LMV221SDX

Specifications of LMV221SDX

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