HPMX-2005 Datasheet, PDF(9/12 Page) Agilent(Hewlett-Packard) – Silicon Bipolar RFIC 100 MHz Vector Modulator

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HPMX-2005 Datasheet, PDF (9/12 Pages) Agilent(Hewlett-Packard) – Silicon Bipolar RFIC 100 MHz Vector Modulator

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HPMX-2005 Using Offsets

to Improve LO Leakage

It is possible to improve on the

excellent performance of the

HPMX-2005 for applications that

are particularly sensitive to LO

leakage. The amount and nature

of the improvement are best un-

derstood by examining figures 28

and 29, below.

LO leakage results when normal

variations in the wafer fabrication

process cause small shifts in the

values of the modulator ICâs inter-

nal components. These random

variations create an effect equiva-

lent to slight DC imbalances at the

input of each (I and Q) mixer. The

DC imbalances at the mixer in-

puts are multiplied by Â± 1 at the

LO frequency and show up at the

output of the IC as LO leakage.

It is possible to externally apply

small DC signals to the I and Q in-

puts and exactly cancel the inter-

nally generated DC offsets. This

will result in sharply decreased

LO leakage at precisely the fre-

quency and temperature where

the offsets were applied (see fig-

ure 28).

This improvement is not very

useful if it doesnât hold up over

frequency and temperature

changes. The lower curve in figure

28 shows how the offset-adjusted

LO leakage varies versus

frequency. Note that it remains

below -60â£ dBm over most of the

frequency range shown. In the

20â£ MHz range centered at

100â£ MHz, the level is closer to

-70â£ dBm.

Figure 29 shows the performance

of the offset adjusted LO leakage

over temperature. Note that the

adjusted curve is at a level near -

70 dBm over the entire tempera-

ture range.

The net result of using exter-

nally applied offsets with the

HPMX-2005 is that an LO

leakage level below -50 dBm

can typically be achieved over

both frequency and

temperature.

The magnitude of the required ex-

ternal offset varies randomly from

part to part and between the I and

Q mixers on any given IC. Offsets

can range from -35 mV to +35 mV.

External offsets may be applied

either by varying the average level

of the I and Q modulating signals,

or by varying the voltages at the

Iref and Qref pins of the modulator.

0

0

POUT

-20

-20

-40

NO OFFSETS

-40 PLO

-60

-80

WITH OFFSETS

-60

PLO (OFFSET)

-100

0

50

100

150

200

FREQUENCY (MHz)

-80

-55 -35 -15 5 25 45 65 85

TEMPERATURE (Â°C)

Figure 28. LO Leakage vs. Frequency

Without DC Offsets and LO Leakage

vs. Frequency with DC Offsets

Adjusted for Minimum LO Leakage at

100 MHz. VCC = 5 V, LO = -12 dBm,

VIrefâ£ = VQref = 2.5 V, TA = 25Â°C.

Figure 29. LO Leakage with No DC

Offsets at 100 MHz vs. Temperature

(Upper Curve) and LO Leakage with

DC Offsets Adjusted for Minimum

Leakage at 25Â°C vs. Temperature

(Lower Curve). VCC = 5 V,

LOâ£ =â£ -12â£ dBm, VIref = VQref= 2.5 V.

7-62

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