LTC5590IUH#TRPBF Linear Technology, LTC5590IUH#TRPBF Datasheet - Page 13

LTC5590IUH#TRPBF

Manufacturer Part Number

LTC5590IUH#TRPBF

Description

Manufacturer

Linear Technology

Datasheet

1.LTC5590IUHTRPBF.pdf (20 pages)

Specifications of LTC5590IUH#TRPBF

Operating Supply Voltage

3.3V

Operating Temperature (min)

-40C

Operating Temperature Classification

Industrial

Lead Free Status / Rohs Status

Compliant

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applicaTions inForMaTion

Introduction

The LTC5590 consists of two identical mixer channels

driven by a common LO input signal. Each high linearity

mixer consists of a passive double-balanced mixer core,

IF buffer amplifier, LO buffer amplifier and bias/enable

circuits. See the Pin Functions and Block Diagram sections

for a description of each pin. Each of the mixers can be

shutdown independently to reduce power consumption and

low current mode can be selected that allows a trade-off

between performance and power consumption. The RF and

LO inputs are single-ended and are internally matched to

50Ω. Low side or high side LO injection can be used. The

IF outputs are differential. The evaluation circuit, shown in

Figure 1, utilizes bandpass IF output matching and an IF

transformer to realize a 50Ω single-ended IF output. The

evaluation board layout is shown in Figure 2.

RF Inputs

The RF inputs of channels A and B are identical. The RF

input of channel A, shown in Figure 3, is connected to the

primary winding of an integrated transformer. A 50Ω match

is realized when a series external capacitor, C1A, is con-

nected to the RF input. C1A is also needed for DC blocking

if the source has DC voltage present, since the primary

side of the RF transformer is internally DC-grounded. The

DC resistance of the primary is approximately 4.5Ω.

Figure 2. Evaluation Board Layout

5590 F02

The secondary winding of the RF transformer is internally

connected to the channel A passive mixer core. The center-

tap of the transformer secondary is connected to Pin 2

(CTA) to allow the connection of bypass capacitor, C8A.

The value of C8A is LO frequency-dependent and is not

required for most applications, though it can improve IIP3

in some cases. When used, it should be located within

2mm of Pin 2 for proper high frequency decoupling. The

nominal DC voltage on the CTA pin is 1.2V.

For the RF inputs to be properly matched, the appropriate

LO signal must be applied to the LO input. A broadband

input match is realized with C1A = 100pF . The measured

input return loss is shown in Figure 4 for LO frequencies

of 0.7GHz, 1.09GHz and 1.5GHz. These LO frequencies

correspond to lower, middle and upper values in the LO

range. As shown in Figure 4, the RF input impedance is

dependent on LO frequency, although a single value of

C1A is adequate to cover the 700MHz to 1.5GHz RF band.

RFA

C1A

Figure 3. Channel A RF Input Schematic

–10

–20

–25

–15

C8A

–5

600

C1 = 100pF

Figure 4. RF Port Return Loss

RFA

CTA

700

800 900 1000

FREQUENCY (MHz)

LTC5590

1100

TO CHANNEL A

LO = 700MHz

LO = 1090MHz

LO = 1500MHz

MIXER

1200 1300 1400

5590 F03

LTC5590

5590 F04

5590p

LTC5590IUH#TRPBF Linear Technology, LTC5590IUH#TRPBF Datasheet - Page 13

LTC5590IUH#TRPBF

Specifications of LTC5590IUH#TRPBF

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