LTC5592IUH#PBF Datasheet LTC5592IUH#PBF, LTC5592IUH#TRPBF | P4-P6

LTC5592

4

5592fa

For more information www.linear.com/LTC5592

PARAMETER CONDITIONS MIN TYP MAX UNITS

Conversion Gain RF = 2350MHz 7.1 dB

Input 3rd Order Intercept RF = 2350MHz 22.3 dBm

SSB Noise Figure RF = 2350MHz 10.2 dB

Input 1dB Compression RF = 2350MHz, V

CCIF

= 3.3V

RF = 2350MHz, V

CCIF

= 5V

11.3

12.6

dBm

Note 1: Stresses beyond those listed under Absolute Maximum Ratings

may cause permanent damage to the device. Exposure to any Absolute

Maximum Rating condition for extended periods may affect device

reliability and lifetime.

Note 2: The LTC5592 is guaranteed functional over the case operating

temperature range of –40°C to 105°C (θ

JC

= 7°C/W).

Note 3: SSB Noise Figure measured with a small-signal noise source,

bandpass filter and 6dB matching pad on RF input, bandpass filter and

6dB matching pad on the LO input, and no other RF signals applied.

Note 4: Channel A to channel B isolation is measured as the relative IF

output power of channel B to channel A, with the RF input signal applied to

channel A. The RF input of channel B is 50Ω terminated and both mixers

are enabled.

ac elecTrical characTerisTics

V

CC

= 3.3V, V

CCIF

= 3.3V, ENA = ENB = High, T

C

= 25°C, P

LO

= 0dBm,

P

RF

= –3dBm (∆f = 2MHz for two tone IIP3 tests), unless otherwise noted. Test circuit shown in Figure 1. (Notes 2, 3)

PARAMETER CONDITIONS MIN TYP MAX UNITS

SSB Noise Figure Under Blocking f

RF

= 2400MHz, f

LO

= 2210MHz, f

BLOCK

= 2500MHz

P

BLOCK

= 5dBm

P

BLOCK

= 10dBm

15.3

21.2

dB

2RF-2LO Output Spurious Product

(f

RF

= f

LO

+ f

IF

/2)

f

RF

= 2255MHz at –10dBm, f

LO

= 2160MHz,

f

IF

= 190MHz

–68 dBc

3RF-3LO Output Spurious Product

(f

RF

= f

LO

+ f

IF

/3)

f

RF

= 2223.33MHz at –10dBm, f

LO

= 2160MHz,

f

IF

= 190MHz

–74 dBc

Input 1dB Compression f

RF

= 2350MHz, V

CCIF

= 3.3V

f

RF

= 2350MHz, V

CCIF

= 5V

11

14.6

dBm

Low Side LO Downmixer Application: I

SEL

= Low, RF = 1900MHz to 2700MHz, IF = 190MHz, f

LO

= f

RF

– f

IF

Low Power Mode, Low Side LO Downmixer Application: I

SEL

= High, RF = 1900MHz to 2700MHz, IF = 190MHz, f

LO

= f

RF

– f

IF

PARAMETER CONDITIONS MIN TYP MAX UNITS

Conversion Gain RF = 1750MHz

RF = 1950MHz

RF = 2150MHz

9.1

8.7

8.3

dB

Conversion Gain Flatness RF =

1950 ±30MHz, LO = 2140MHz, IF = 190 ±30MHz ±0.33 dB

Conversion Gain vs Temperature T

C

= –40ºC to 105ºC, RF = 1900MHz –0.005 dB/°C

Input 3rd Order Intercept RF = 1750MHz

RF = 1950MHz

RF = 2150MHz

25.3

25.4

25.1

dBm

SSB Noise Figure RF = 1750MHz

RF = 1950MHz

RF = 2150MHz

9.2

9.8

10.4

dB

SSB Noise Figure Under Blocking f

RF

= 1950MHz, f

LO

= 2140MHz, f

BLOCK

= 1850MHz

P

BLOCK

= 5dBm

P

BLOCK

= 10dBm

16.5

22.7

dB

2LO-2RF Output Spurious Product

(f

RF

= f

LO

– f

IF

/2)

f

RF

= 2045MHz at –10dBm, f

LO

= 2140MHz,

f

IF

= 190MHz

–68 dBc

3LO-3RF Output Spurious Product

(f

RF

= f

LO

– f

IF

/3)

f

RF

= 2076.67MHz at –10dBm, f

LO

= 2140MHz,

f

IF

= 190MHz

–75 dBc

Input 1dB Compression RF = 1950MHz, V

CCIF

= 3.3V

RF = 1950MHz, V

CCIF

= 5V

10.6

14.0

dBm

High Side LO Downmixer Application: I

SEL

= Low, RF = 1600MHz to 2300MHz, IF = 190MHz, f

LO

= f

RF

+ f

IF

LTC5592

5

5592fa

For more information www.linear.com/LTC5592

RF FREQUENCY (MHz)

1900

35

ISOLATION (dB)

45

2300

5592 G03

40

2100

2500

2700

55

50

–40°C

25°C

85°C

Conversion Gain and IIP3 vs

RF Frequency

SSB NF vs RF Frequency

Channel Isolation vs RF Frequency

1950MHz Conversion Gain, IIP3

and NF vs LO Power

2350MHz Conversion Gain, IIP3

and NF vs LO Power

2550MHz Conversion Gain, IIP3

and NF vs LO Power

Low Side LO

Typical ac perForMance characTerisTics

V

CC

= 3.3V, V

CCIF

= 3.3V, ENA = ENB = High, I

SEL

= Low, T

C

= 25°C, P

LO

= 0dBm, P

RF

= –3dBm (–3dBm/tone for two-tone IIP3 tests,

∆f = 2MHz), IF = 190MHz, unless otherwise noted. Test circuit shown in Figure 1.

Conversion Gain, IIP3 and NF vs

Supply Voltage (Single Supply)

Conversion Gain, IIP3 and NF vs

Supply Voltage (Dual Supply)

Conversion Gain, IIP3 and RF Input

P1dB vs Temperature

RF FREQUENCY (MHz)

1500

6

8

10

IIP3 (dBm)

G

C

(dB)

14

16

18

24

22

20

1700

2100

5592 G01

12

1900

2300

2500

2700

28

26

6

7

8

10

11

12

15

14

13

9

17

16

G

C

IIP3

–40°C

25°C

85°C

105°C

6

7

8

SSB NF (dB)

10

11

12

15

14

13

5592 G02

9

16

RF FREQUENCY (MHz)

1500 1700

2100

1900

2300

2500

2700

–40°C

25°C

85°C

105°C

LO INPUT POWER (dBm)

–6

6

8

10

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

14

16

18

24

22

20

26

–4

0

5592 G04

12

–2

2

4

6

28

0

8

12

16

4

20

2

10

14

18

6

22

–40°C

25°C

85°C

NF

G

C

IIP3

LO INPUT POWER (dBm)

–6

6

8

10

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

14

16

18

24

22

20

26

–4

0

5592 G05

12

–2

2

4

6

28

0

8

12

16

4

20

2

10

14

18

6

22

–40°C

25°C

85°C

G

C

NF

IIP3

LO INPUT POWER (dBm)

–6

6

8

10

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

14

16

18

24

22

20

26

–4

0

5592 G06

12

–2

2

4

6

28

0

8

12

16

4

20

2

10

14

18

6

22

–40°C

25°C

85°C

IIP3

G

C

NF

V

CCIF

SUPPLY VOLTAGE (V)

3

6

8

10

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

14

16

18

24

22

20

26

3.5

4.5

5592 G08

12

4

5

5.5

30

28

0

8

12

16

4

20

2

10

14

18

6

24

22

–40°C

25°C

85°C

IIP3

G

C

NF

RF = 2350MHz

V

CC

= 3.3V

CASE TEMPERATURE (°C)

–40

6

8

10

G

C

(dB), IIP3 (dBm), P1dB (dBm)

14

16

18

24

22

20

26

–10

50

5592 G09

12

20

80

110

30

28

IIP3

P1dB

G

C

V

CCIF

= 3.3V

V

CCIF

= 5V

RF = 2350MHz

V

CC

, V

CCIF

SUPPLY VOLTAGE (V)

3

6

8

10

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

14

16

18

24

22

20

26

3.1

3.3

5592 G07

12

3.2

3.4

3.5

3.6

28

0

8

12

16

4

20

2

10

14

18

6

22

–40°C

25°C

85°C

G

C

NF

IIP3

RF = 2350MHz

V

CC

= V

CCIF

LTC5592

6

5592fa

For more information www.linear.com/LTC5592

SSB Noise Figure vs RF Blocker

Power LO Leakage vs LO Frequency RF Isolation vs RF Frequency

Conversion Gain Distribution

IIP3 Distribution

SSB Noise Figure Distribution

2-Tone IF Output Power, IM3 and

IM5 vs RF Input Power

Single-Tone IF Output Power, 2 × 2

and 3 × 3 Spurs vs RF Input Power

2 × 2 and 3 × 3 Spur Suppression

vs LO Input Power

Low Side LO

Typical ac perForMance characTerisTics

V

CC

= 3.3V, V

CCIF

= 3.3V, ENA = ENB = High, I

SEL

= Low, T

C

= 25°C, P

LO

= 0dBm, P

RF

= –3dBm (–3dBm/tone for two-tone IIP3 tests,

∆f = 2MHz), IF = 190MHz, unless otherwise noted. Test circuit shown in Figure 1.

RF FREQUENCY (MHz)

1500

0

10

20

ISOLATION (dB)

30

50

60

40

1700

21001900 2300

5592 G15

2500

2700

70

RF-IF

RF-LO

GAIN (dB)

7.5

0

5

10

DISTRIBUTION (%)

15

25

20

8 8.5

5592 G16

9

RF = 2350MHz

85°C

25°C

–40°C

NOISE FIGURE (dB)

7

0

15

10

5

20

DISTRIBUTION (%)

25

35

30

8 109

5592 G18

1211

50

40

45

RF = 2350MHz

85°C

25°C

–40°C

RF INPUT POWER (dBm/TONE)

–12

–80

–70

–50

–60

OUTPUT POWER (dBm/TONE)

–40

–30

–20

–10

10

0

–9

–3 0

5592 G10

–6

3

6

20

IF

OUT

RF1 = 2349MHz

RF2 = 2351MHz

LO = 2160MHz

IM5

IM3

RF INPUT POWER (dBm)

–12

–80

–70

–60

OUTPUT POWER (dBm)

–40

–30

0

–10

–20

10

–9

–3

5592 G11

–50

–6

0 3

6

20

IF

OUT

(RF = 2350MHz)

LO = 2160MHz

3RF-3LO

(RF = 2223.33MHz)

2RF-2LO

(RF = 2255MHz)

LO INPUT POWER (dBm)

–6

–85

–80

RELATIVE SPUR LEVEL (dBc)

–75

–65

–70

–3

0

5592 G12

3

6

–55

–60

IF = 190MHz

P

RF

= –10dBm

LO = 2160MHz

3RF-3LO

(RF = 2223.33MHz)

2RF-2LO

(RF = 2255MHz)

IIP3 (dBm)

24.5

0

15

10

5

20

DISTRIBUTION (%)

25

35

30

25.5 27.526.5

5592 G17

28.5

40

RF = 2350MHz

85°C

25°C

–40°C

RF BLOCKER POWER (dBm)

–20

8

10

12

14

SSB NF (dB)

16

22

20

18

–15

–5–10 0

5592 G13

5

10

24

P

LO

= –3dBm

P

LO

= 0dBm

P

LO

= 3dBm

P

LO

= 6dBm

RF = 2400MHz

BLOCKER = 2500MHz

LO FREQUENCY (MHz)

1500

–50

–40

LO LEAKAGE (dBm)

–30

–10

–20

1700

1900 2100

5592 G14

25002300

0

LO-IF

LO-RF

LTC5592IUH#PBF

LTC5592IUH#PBF

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