LT5575EUF#PBF Linear Technology, LT5575EUF#PBF Datasheet - Page 11

LT5575EUF#PBF

Manufacturer Part Number

LT5575EUF#PBF

Description

IQ QUADRATURE DEMODULATOR, QFN-16

Manufacturer

Linear Technology

Datasheet

1.LT5575EUFPBF.pdf (16 pages)

Specifications of LT5575EUF#PBF

Frequency Range

0.8GHz To 2.7GHz

Rf Type

Quadrature

Supply Voltage Range

4.5V To 5.25V

Rf Ic Case Style

QFN

No. Of Pins

Operating Temperature Range

-40Â°C To +85Â°C

Svhc

No SVHC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATIONS INFORMATION

The LT5575 is a direct I/Q demodulator targeting high

linearity receiver applications, such as RFID readers and

wireless infrastructure. It consists of RF transconductance

ampliﬁ ers, I/Q mixers, a quadrature LO phase shifter, and

bias circuitry.

The RF signal is applied to the inputs of the RF

transconductance ampliﬁ ers and is then demodulated

into I/Q baseband signals using quadrature LO signals

which are internally generated from an external LO source

by precision 90° phase-shifters. The demodulated I/Q

signals are single-pole low-pass ﬁ ltered on-chip with a

–3dB bandwidth of 490MHz. The differential outputs of the

I-channel and Q-channel are well matched in amplitude;

their phases are 90° apart.

Broadband transformers are integrated on-chip at both

the RF and LO inputs to enable single-ended RF and LO

interfaces. In the high frequency band (1.5GHz to 2.7GHz),

both RF and LO ports are internally matched to 50Ω. No

external matching components are needed. For the lower

frequency bands (800MHz to 1.5GHz), a simple network

with series and/or shunt capacitors can be used as the

impedance matching network.

RF Input Port

Figure 4 shows the demodulator’s RF input which con-

sists of an integrated transformer and high linearity

transconductance ampliﬁ ers. The primary side of the

transformer is connected to the RF input pin. The second-

ary side of the transformer is connected to the differential

inputs of the transconductance ampliﬁ ers. Under no cir-

cumstances should an external DC voltage be applied to

the RF input pin. DC current ﬂ owing into the primary side

of the transformer may cause damage to the integrated

transformer. A series blocking capacitor should be used

to AC-couple the RF input port to the RF signal source.

The RF input port is internally matched over a wide fre-

quency range from 1.5GHz to 2.7GHz with input return loss

typically better than 10dB. No external matching network is

needed for this frequency range. When the part is operated

at lower frequencies, however, the input return loss can

be improved with the matching network shown in Figure

4. Shunt capacitor C10 and series capacitor C11 can be

selected for optimum input impedance matching at the

desired frequency as illustrated in Figure 5. For lower fre-

quency band operation, the external matching component

C11 can serve as a series DC blocking capacitor.

INPUT

Figure 5. RF Input Return Loss with External Matching

C11

LOW BAND AND

NETWORK FOR

MATCHING

EXTERNAL

MID BAND

–10

–15

–20

–25

–30

–5

0.5

C10

Figure 4. RF Input Interface

1.0

FREQUENCY (GHz)

1.5

C11 = 5.6pF;

C10 = 4.7pF

C11 = 3.9pF;

NO SHUNT CAP

2.0

NO EXTERNAL

MATCHING

2.5

5575 F05

LT5575

3.0

TO I-MIXER

TO Q-MIXER

5575 F04

5575f

LT5575EUF#PBF Linear Technology, LT5575EUF#PBF Datasheet - Page 11

LT5575EUF#PBF

Specifications of LT5575EUF#PBF

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