EL1508CLZ-T7 Datasheet EL1508CL, EL1508CL-T13, EL1508CL-T7 | P4-P6

4

FN7014.5

March 26, 2007

OUTPUT CHARACTERISTICS

V

OUT

Loaded Output Swing R

L

= 100Ω ±10.6 ±10.8 ±11.5 V

R

L

= 25Ω ±9.8 ±10.2 ±10.6 V

I

OL

Linear Output Current A

V

= 5, R

L

= 10Ω, f = 100kHz,

THD = -60dBc

450 mA

I

OUT

Output Current V

OUT

= 1V, R

L

= 1Ω 1A

DYNAMIC PERFORMANCE

BW -3 dB Bandwidth A

V

= +5 80 MHz

HD2 2nd Harmonic Distortion f

C

= 1MHz, R

L

= 100Ω, V

OUT

= 2V

P-P

-90 dBc

f

C

= 1MHz, R

L

= 25Ω, V

OUT

= 2V

P-P

-80 dBc

HD3 3rd Harmonic Distortion f

C

= 1MHz, R

L

= 100Ω, V

OUT

= 2V

P-P

-90 dBc

f

C

= 1MHz, R

L

= 25Ω, V

OUT

= 2V

P-P

-75 dBc

MTPR Multi-Tone Power Ratio 26kHz to 1.1MHz, R

LINE

= 100Ω,

P

LINE

= 20.4dBM

-70 dBc

SR Slewrate V

OUT

from -8V to +8V measured at ±4V 450 600 800 V/µs

Electrical Specifications V

S

= ±12V, R

F

= 2.2kΩ, R

L

= 65Ω, I

ADJL

= C

0

= C

1

= 0V, T

A

= 25°C. Amplifiers tested separately. (Continued)

PARAMETER DESCRIPTION CONDITIONS MIN TYP MAX UNIT

EL1508

5

FN7014.5

March 26, 2007

Pin Descriptions

16 Ld SOIC

(0.150")

20 Ld SOIC

(0.300") 24 Ld QFN PIN NAME FUNCTION CIRCUIT

1 1 23 VIN-A Channel A Inverting Input

CIRCUIT 1

2 2 24 VOUTA Channel A Output (Reference Circuit 1)

3 3 3 VS- Negative Supply

4, 5 4, 5, 6, 7 7 GND Ground Connection

6 8 8 VIN+A Channel A Non-inverting Input

CIRCUIT 2

7 9 9 C1 Current Control Bit 1

CIRCUIT 3

8 10 10 C0 Current Control Bit 2 (Reference Circuit 3)

9 11 1, 2, 4, 5, 6, 14,

15, 16, 18, 19, 22

NC Not Connected

10 12 11 IADJ Supply Current Control Pin

CIRCUIT 4

11 13 12 VIN+B Channel B Non-inverting Input (Reference Circuit 2)

12, 13 14, 15, 16, 17 13 GND Ground Connection

14 18 17 VS+ Positive Supply

15 19 20 VOUTB Channel B Output (Reference Circuit 1)

16 20 21 VIN-B Channel B Inverting Input (Reference Circuit 1)

V

S

+

V

S

-

V

S

+

6.7V

V

S

+

GND

I

ADJ

EL1508

6

FN7014.5

March 26, 2007

Typical Performance Curves

FIGURE 1. DIFFERENTIAL FREQUENCY RESPONSE vs R

F

(1/3 POWER MODE)

FIGURE 2. DIFFERENTIAL FREQUENCY RESPONSE

(1/3 POWER MODE)

FIGURE 3. DIFFERENTIAL FREQUENCY RESPONSE vs R

F

(2/3 POWER MODE)

FIGURE 4. DIFFERENTIAL FREQUENCY RESPONSE

(2/3 POWER MODE)

FIGURE 5. DIFFERENTIAL FREQUENCY RESPONSE vs R

F

(FULL POWER MODE)

FIGURE 6. DIFFERENTIAL FREQUENCY RESPONSE

(FULL POWER MODE)

14

16

18

20

22

24

100K 1M 10M 100M

FREQUENCY (Hz)

GAIN (dB)

A

V

=10

V

S

=±12V

R

L

=100Ω

R

ADJ

=0Ω

R

F

=1.5kΩ

R

F

=2.5kΩ

R

F

=3kΩ

R

F

=2kΩ

R

F

=2kΩ

R

F

=3kΩ

R

F

=3.5kΩ

R

F

=2.5kΩ

A

V

=5

V

S

=±12V

R

L

=100Ω

18

16

14

12

10

8

100K 1M 10M 100M

FREQUENCY (Hz)

GAIN (dB)

R

F

=4kΩ

14

16

18

20

22

24

100K 1M 10M 100M

FREQUENCY (Hz)

GAIN (dB)

A

V

=10

V

S

=±12V

R

L

=100Ω

R

ADJ

=0Ω

R

F

=1.5kΩR

F

=2kΩ

R

F

=2.5kΩ

R

F

=3kΩ

R

F

=2kΩ

R

F

=2.5kΩ

R

F

=3.5kΩ

R

F

=3kΩ

A

V

=5

V

S

=±12V

R

L

=100Ω

18

16

14

12

10

8

100K 1M 10M 100M

FREQUENCY (Hz)

GAIN (dB)

R

F

=4kΩ

14

16

18

20

22

24

100K 1M 10M 100M

FREQUENCY (Hz)

A

V

=10

V

S

=±12V

R

L

=100Ω

R

ADJ

=0Ω

R

F

=1.5kΩ

R

F

=2kΩ

R

F

=2.5kΩ

R

F

=3kΩ

GAIN (dB)

R

F

=2kΩ

R

F

=2.5kΩ

R

F

=3kΩ

R

F

=3.5kΩ

A

V

=5

V

S

=±12V

R

L

=100Ω

18

16

14

12

10

8

100K 1M 10M 100M

FREQUENCY (Hz)

GAIN (dB)

R

F

=4kΩ

EL1508

EL1508CLZ-T7

EL1508CLZ-T7

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