EL5372IUZ Datasheet EL5172ISZ-T7, EL5172IYZ-T7, EL5172ISZ | P7-P9

7

FN7311.11

August 11, 2015

FIGURE 7. FREQUENCY RESPONSE FOR V

REF

FIGURE 8. OPEN LOOP GAIN

FIGURE 9. OUTPUT IMPEDANCE vs FREQUENCY FIGURE 10. PSRR vs FREQUENCY

FIGURE 11. CMRR vs FREQUENCY FIGURE 12. VOLTAGE AND CURRENT NOISE vs FREQUENCY

Typical Performance Curves (Continued)

4

3

1

0

-2

-3

-5

-6

10M 100M 1G

NORMINALIZED GAIN (dB)

FREQUENCY (Hz)

-4

-1

2

1M

V

S

= ±2.5V

V

S

= ±5V

A

V

= 1, R

L

= 500, C

L

= 2.7pF

60

50

30

20

0

-10

-30

-40

100k 10M 500M

GAIN (dB)

FREQUENCY (Hz)

-20

10

40

10k

1M

100M

270

225

135

90

0

-45

-135

-180

-90

45

180

PHASE (°)

100

10

1

0.1

100k 1M 100M

IMPEDANCE ()

FREQUENCY (Hz)

10k

10M

0

-10

-30

-50

-60

-80

-90

10k 1M 100M

PSRR (dB)

FREQUENCY (Hz)

-70

-40

-20

1k

100k

10M

PSRR+

PSRR-

1M 100M

CMRR (dB)

FREQUENCY (Hz)

100k

10M

1G

100

90

70

60

40

30

10

0

20

50

80

1k

100

10

1

VOLTAGE NOISE (nV/Hz)

100 100k 10M

FREQUENCY (Hz)

10

10k

1M

1k

E

N

I

N

CURRENT NOISE (pA/Hz)

EL5172, EL5372

8

FN7311.11

August 11, 2015

FIGURE 13. CHANNEL ISOLATION vs FREQUENCY FIGURE 14. HARMONIC DISTORTION vs OUTPUT VOLTAGE

FIGURE 15. HARMONIC DISTORTION vs LOAD RESISTANCE FIGURE 16. HARMONIC DISTORTION vs FREQUENCY

FIGURE 17. SMALL SIGNAL TRANSIENT RESPONSE FIGURE 18. LARGE SIGNAL TRANSIENT RESPONSE

Typical Performance Curves (Continued)

1M 100M

GAIN (dB)

FREQUENCY (Hz)

100k

10M

1G

0

-10

-30

-40

-60

-70

-90

-100

-80

-50

-20

CH1 <=> CH2, CH2 <=> CH3

CH1 <=> CH3

-45

-50

-60

-70

-80

-85

DISTORTION (dB)

-75

-65

-55

25

V

OP-P

(V)

1

4

6

3

7

H

D

2

(

A

V

=

2

)

H

D

3

(

A

V

=

2

)

HD

2

(

A

V

=

1

)

HD3 (A

V

= 1)

V

S

= ±5V, R

L

= 500, f = 5MHz

-45

-50

-60

-70

-80

-85

DISTORTION (dB)

-75

-65

-55

200 700

R

LOAD

()

100 600 900400 1000

HD3 (A

V

= 1)

-80

300 500 800

H

D

3

(

A

V

=

2

)

V

S

= ±5V, f = 5MHz, V

OP-P

= 1V @A

V

= 1,

V

OP-P

= 2V @A

V

= 2

H

D

2

(

A

V

=

2

)

H

D

2

(

A

V

=

1

)

-40

-50

-60

-70

-90

DISTORTION (dB)

-80

525

FREQUENCY (MHz)

03515 40

-100

10 20 30

H

D

2

(

A

V

=

2

)

HD3 (A

V

= 1)

H

D

2

(

A

V

=

1

)

V

S

= ±5V, R

L

= 500, V

OP-P

= 1V FOR A

V

= 1,

V

OP-P

= 2V for A

V

= 2

H

D

3

(

A

V

=

2

)

50mV/DIV

10ns/DIV

0.5V/DIV

10ns/DIV

EL5172, EL5372

9

FN7311.11

August 11, 2015

Simplified Schematic

FIGURE 19. ENABLED RESPONSE FIGURE 20. DISABLED RESPONSE

FIGURE 21. PACKAGE POWER DISSIPATION vs AMBIENT

TEMPERATURE

FIGURE 22. PACKAGE POWER DISSIPATION vs AMBIENT

TEMPERATURE

Typical Performance Curves (Continued)

CH1

CH2

100ns/DIV

M = 100ns, CH1 = 200mV/DIV, CH2 = 5V/DIV

CH1

CH2

400ns/DIV

M = 400ns, CH1 = 200mV/DIV, CH2 = 5V/DIV

486mW



JA

= +206°C/W

MSOP8

870mW



JA

= +115°C/W

QSOP24

1.2

1.0

0.8

0.6

0.4

0

0 255075100 150

AMBIENT TEMPERATURE (°C)

POWER DISSIPATION (W)

12585

JEDEC JESD51-3 LOW EFFECTIVE THERMAL

CONDUCTIVITY TEST BOARD

0.2

625mW



JA

= +160°C/W

SOIC8

1.136W



JA

= +88°C/W

QSOP24

1.4

1.2

1.0

0.8

0.6

0.2

0

0 255075100 150

AMBIENT TEMPERATURE (°C)

POWER DISSIPATION (W)

12585

JEDEC JESD51-7 HIGH EFFECTIVE THERMAL

CONDUCTIVITY TEST BOARD

0.4

909mW



JA

= +110°C/W

SOIC8

870mW



JA

= +115°C/W

MSOP8/10

R

2

R

1

R

4

R

3

R

D2

R

D1

Q

8

FBN

Q

4

FBP

Q

3

VIN-

Q

2

VIN+

Q

1

Q

6

V

S

+

I

4

I

3

I

2

I

1

Q

7

V

B1

V

S

-

25

Q

9

V

B2

x1 V

OUT

C

EL5172, EL5372

EL5372IUZ

EL5372IUZ

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