LTC5593IUH#PBF Linear Technology, LTC5593IUH#PBF Datasheet - Page 22

LTC5593IUH#PBF

Manufacturer Part Number

LTC5593IUH#PBF

Description

Manufacturer

Linear Technology

Datasheet

1.LTC5593IUHPBF.pdf (28 pages)

Specifications of LTC5593IUH#PBF

Operating Supply Voltage

3.3V

Operating Temperature (min)

-40C

Operating Temperature Classification

Industrial

Lead Free Status / Rohs Status

Compliant

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LTC5593

APPLICATIONS INFORMATION

from 3.4GHz to 3.8GHz, the LO port can be well matched

by using C2 = 0.6pF and L4 = 10nH.

The secondary of the transformer drives a pair of high

speed limiting differential amplifiers for channels A and B.

The LTC5593’s LO amplifiers are optimized for the 2.1GHz

to 3.8GHz LO frequency range; however, LO frequencies

outside this frequency range may be used with degraded

performance.

The LO port is always 50Ω matched, even when one or

both of the channels is disabled. This helps to reduce fre-

quency pulling of the LO source when the mixer is switched

between different operating states. Figure 7 illustrates the

LO port return loss for the different operating modes.

The nominal LO input level is 0dBm, though the limiting

amplifiers will deliver excellent performance over a ±6dBm

input power range. Table 2 lists the LO input impedance

and input reflection coefficient versus frequency.

Table 2. LO Input Impedance vs Frequency

(at Pin 16, No External Matching, ENA = ENB = High)

FREQUENCY

(GHz)

2.0

2.2

2.4

2.6

2.8

3.0

3.2

3.4

3.6

3.8

4.0

IMPEDANCE

33.8 + j22.8

34.8 + j22.2

34.5 + j21.8

32.5 + j22.8

30.7 + j25.9

29.6 + j30.1

29.3 + j34.8

29.3 + j38.7

30.7 + j43.1

33.0 + j46.9

36.1 + j49.8

INPUT

MAG

0.32

0.31

0.34

0.38

0.43

0.47

0.50

0.52

S11

ANGLE

110.3

109.7

110.9

111.9

108.8

103.4

97.1

92.1

86.0

80.5

75.6

IF Outputs

The IF amplifiers in channels A and B are identical. The IF

amplifier for channel A, shown in Figure 8, has differen-

tial open collector outputs (IFA

return pin (IFGNDA), and a pin for adjusting the internal

bias (IFBA). The IF outputs must be biased at the sup-

ply voltage (V

inductors L1A and L2A. Alternatively, the IF outputs can

be biased through the center tap of a transformer (T1A).

The common node of L1A and L2A can be connected to

the center tap of the transformer. Each IF output pin draws

approximately 50mA of DC supply current (100mA total).

An external load resistor, R2A, can be used to improve

impedance matching if desired.

IFGNDA (Pin 23) must be grounded or the amplifier will

not draw DC current. Inductor L3A may improve LO-IF

and RF-IF leakage performance in some applications, but

is otherwise not necessary. Inductors should have small

resistance for DC. High DC resistance in L3A will reduce

the IF amplifier supply current, which will degrade RF

performance.

2.0

CCIFA

Figure 7. LO Input Return Loss

2.2

BOTH CHANNELS ON

ONE CHANNEL ON

BOTH CHANNELS OFF

2.4 2.6

), which is applied through matching

C2 = 1.5pF

L4 = OPEN

LO FREQUENCY (GHz)

2.8

3.0

3.2

and IFA

3.4

C2 = 0.6pF

L4 = 10nH

3.6

3.8 4.0

5593 F07

–

), a DC ground

5593p

LTC5593IUH#PBF Linear Technology, LTC5593IUH#PBF Datasheet - Page 22

LTC5593IUH#PBF

Specifications of LTC5593IUH#PBF

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