LTC5593IUH#TRPBF Datasheet LTC5593IUH#PBF, LTC5593IUH#TRPBF | P10-P12

LTC5593

10

5593f

TYPICAL AC PERFORMANCE CHARACTERISTICS

2.3GHz to 2.7GHz, high side LO. 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 2-tone IIP3 tests, ∆f = 2MHz), IF = 190MHz, unless otherwise noted. Test circuit shown in Figure 1.

Conversion Gain and IIP3

vs RF Frequency SSB NF vs RF Frequency

Channel Isolation

vs RF Frequency

RF FREQUENCY (GHz)

2.2

16

IIP3 (dBm)

G

C

(dB)

18

20

22

24

28

IIP3

2.3

2.4 2.5 2.6

5593 G28

2.7 2.8

26

5

7

9

11

13

17

15

105°C

85°C

25°C

–40°C

G

C

RF FREQUENCY (GHz)

2.2

6

SSB NF (dB)

8

10

12

14

16

2.3

2.4 2.5 2.6

5593 G29

2.7 2.8

105°C

85°C

25°C

–40°C

RF FREQUENCY (GHz)

2.2

40

ISOLATION (dB)

47

54

61

68

2.3 2.4 2.5 2.6

5593 G30

2.7 2.8

105°C

85°C

25°C

–40°C

2300MHz Conversion Gain,

IIP3 and NF vs LO Power

2500MHz Conversion Gain,

IIP3 and NF vs LO Power

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

22

–2 2–4 0 4

5593 G31

6

26

8

12

16

20

24

28

0

4

8

12

16

20

2

6

10

14

18

22

IIP3

NF

85°C

25°C

–40°C

G

C

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

22

–2 2–4 0 4

5593 G32

6

26

8

12

16

20

24

28

0

4

8

12

16

20

2

6

10

14

18

22

IIP3

85°C

25°C

–40°C

G

C

NF

2700MHz Conversion Gain,

IIP3 and NF vs LO Power

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

22

–2 2–4 0 4

5593 G33

6

26

8

12

16

20

24

28

0

4

8

12

16

20

2

6

10

14

18

22

85°C

25°C

–40°C

G

C

NF

IIP3

Conversion Gain, IIP3 and RF

Input P1dB vs Temperature

Conversion Gain, IIP3 and NF

vs Supply Voltage (Single Supply)

RF Isolation and LO Leakage

vs Frequency

V

CC

, V

CCIF

SUPPLY VOLTAGE (V)

3.0

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

3.1

3.2

3.3 3.4

5593 G34

3.5

22

26

8

12

16

20

24

IIP3

0

4

8

12

16

20

2

6

10

14

18

3.6

85°C

25°C

–40°C

NF

G

C

RF = 2500MHz

V

CC

= V

CCIF

CASE TEMPERATURE (°C)

–40

G

C

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

18

22

26

80

5593 G35

14

10

16

20

24

12

8

6

–10–25

205

50 65 95

35

110

V

CCIF

= 5V

V

CCIF

= 3.3V

RF = 2500MHz

IIP3

P1dB

G

C

RF, LO FREQUENCY (GHz)

2.1

LO LEAKAGE (dBm)

RF ISOLATION (dB)

–20

–10

0 70

2.4 2.6

5593 G36

–30

–40

2.2 2.3

2.5 2.7 2.8

–50

–60

50

60

40

30

20

10

RF-LO

LO-RF

RF-IF

LO-IF

LTC5593

11

5593f

TYPICAL AC PERFORMANCE CHARACTERISTICS

2.3GHz to 2.7GHz, high side LO, I

SEL

= high (low power mode). V

CC

= 3.3V, V

CCIF

= 3.3V, ENA = ENB = high, T

C

= 25°C, P

LO

= 0dBm,

P

RF

= –3dBm (–3dBm/tone for 2-tone IIP3 tests, ∆f = 2MHz), IF = 190MHz, unless otherwise noted. Test circuit shown in Figure 1.

2700MHz Conversion Gain,

IIP3 and NF vs LO Power

Conversion Gain, IIP3 and NF

vs Supply Voltage (Single Supply)

SSB NF vs RF Frequency

Conversion Gain and IIP3

vs RF Frequency

Channel Isolation

vs RF Frequency

2300MHz Conversion Gain,

IIP3 and NF vs LO Power

2500MHz Conversion Gain,

IIP3 and NF vs LO Power

RF FREQUENCY (GHz)

2.2

13

IIP3 (dBm)

G

C

(dB)

15

17

19

21

23

5

7

9

11

13

IIP3

G

C

15

2.3

2.4 2.5 2.6

5593 G37

2.7 2.8

105°C

85°C

25°C

–40°C

RF FREQUENCY (GHz)

2.2

6

SSB NF (dB)

8

10

12

14

16

2.3

2.4 2.5 2.6

5593 G38

2.7 2.8

105°C

85°C

25°C

–40°C

RF FREQUENCY (GHz)

2.2

40

ISOLATION (dB)

47

54

68

61

2.3 2.4 2.5 2.6

5593 G39

2.7 2.8

105°C

85°C

25°C

–40°C

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

8

12

14

16

2

24

5593 G40

10

–2

–4

4

0 6

18

20

22

2

4

8

10

12

20

NF

6

14

16

18

85°C

25°C

–40°C

G

C

IIP3

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

8

12

14

16

2

24

5593 G41

10

–2

–4

4

0 6

18

20

22

2

4

8

10

12

20

NF

6

14

16

18

85°C

25°C

–40°C

G

C

IIP3

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

8

12

14

16

2

24

5593 G42

10

–2

–4

4

0 6

18

20

22

2

4

8

10

12

20

NF

6

14

16

18

85°C

25°C

–40°C

G

C

IIP3

V

CC

, V

CCIF

SUPPLY VOLTAGE (V)

3.0

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

8

12

14

16

3.4

24

5593 G43

10

3.2

3.1

3.5

3.3 3.6

18

20

22

2

4

8

10

12

20

NF

6

14

16

18

85°C

25°C

–40°C

G

C

IIP3

RF = 2500MHz

V

CC

= V

CCIF

Conversion Gain, IIP3 and RF

Input P1dB vs Temperature

RF Isolation and LO Leakage

vs Frequency

CASE TEMPERATURE (°C)

–40

G

C

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

18

22

26

80

5593 G44

14

10

16

20

24

12

8

6

–10–25

205

50 65 95

35

110

V

CCIF

= 5V

V

CCIF

= 3.3V

RF = 2500MHz

IIP3

P1dB

G

C

RF, LO FREQUENCY (GHz)

2.1

LO LEAKAGE (dBm)

RF ISOLATION (dB)

–20

–10

0 70

2.4 2.6

5593 G45

–30

–40

2.2 2.3

2.5 2.7 2.8

–50

–60

50

60

40

30

20

10

RF-LO

LO-RF

RF-IF

LO-IF

LTC5593

12

5593f

TYPICAL AC PERFORMANCE CHARACTERISTICS

2.7GHz to 4GHz, low side LO. 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 2-tone IIP3 tests, ∆f = 2MHz), IF = 190MHz, unless otherwise noted. Test circuit shown in Figure 1.

SSB NF vs RF Frequency

Conversion Gain and IIP3

vs RF Frequency

Channel Isolation

vs RF Frequency

3200MHz Conversion Gain,

IIP3 and NF vs LO Power

3500MHz Conversion Gain,

IIP3 and NF vs LO Power

RF FREQUENCY (GHz)

2.6 2.8

18

IIP3 (dBm)

G

C

(dB)

22

28

IIP3

G

C

3.0

3.4

3.6

5593 G46

20

26

24

6

10

16

8

14

12

3.2

3.8

4.0

105°C

85°C

25°C

–40°C

RF FREQUENCY (GHz)

2.6 2.8

6

SSB NF (dB)

10

16

3.0

3.4

3.6

5593 G47

8

14

12

3.2

3.8

4.0

105°C

85°C

25°C

–40°C

RF FREQUENCY (GHz)

2.6 2.8

40

ISOLATION (dB)

44

50

3.0

3.4

3.6

5593 G48

42

48

46

3.2

3.8

4.0

105°C

85°C

25°C

–40°C

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

22

–2 2–4 0 4

5593 G49

6

26

8

12

16

20

24

28

0

4

8

12

16

20

2

6

10

14

18

22

IIP3

NF

85°C

25°C

–40°C

G

C

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

22

–2 2–4 0 4

5593 G50

6

26

8

12

16

20

24

28

0

4

8

12

16

20

2

6

10

14

18

22

IIP3

NF

85°C

25°C

–40°C

G

C

3800MHz Conversion Gain,

IIP3 and NF vs LO Power

LO INPUT POWER (dBm)

–6

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

22

–2 2–4 0 4

5593 G51

6

26

8

12

16

20

24

28

0

4

8

12

16

20

2

6

10

14

18

22

IIP3

85°C

25°C

–40°C

G

C

NF

Conversion Gain, IIP3 and NF

vs Supply Voltage (Single Supply)

V

CC

, V

CCIF

SUPPLY VOLTAGE (V)

3.0

6

G

C

(dB), IIP3 (dBm)

SSB NF (dB)

10

14

18

22

3.2 3.43.1 3.3 3.5

5593 G52

3.6

26

8

12

16

20

24

28

0

4

8

12

16

20

2

6

10

14

18

22

IIP3

85°C

25°C

–40°C

G

C

NF

RF = 3500MHz

V

CC

= V

CCIF

Conversion Gain, IIP3 and RF

Input P1dB vs Temperature

RF Isolation and LO Leakage

vs Frequency

CASE TEMPERATURE (°C)

–40 –25

G

C

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

12

24

26

28

5

50

65 80

5593 G53

8

20

16

10

22

6

18

14

–10

20 35

95

110

V

CCIF

= 5V

V

CCIF

= 3.3V

RF = 2500MHz

IIP3

P1dB

G

C

RF, LO FREQUENCY (GHz)

2.6

LO LEAKAGE (dBm)

RF ISOLATION (dB)

–20

–10

0 70

3.2 3.6

5593 G54

–30

–40

2.8 3.0

3.4 3.8 4.0

–50

–60

50

60

40

30

20

10

RF-LO

LO-RF

RF-IF

LO-IF

LTC5593IUH#TRPBF

LTC5593IUH#TRPBF

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