AD9214BRSZ-80 Datasheet AD9214BRSZ-80, AD9214BRSZ-RL80, AD9214BRSZ-RL105 | P10-P12

REV. D

AD9214

–9–

FREQUENCY – MHz

0

dB

52.5

–100

–50

0

–90

–80

–70

–60

–40

–30

–20

–10

ENCODE: 105MSPS

A

IN

: 50.3MHz @ –0.5dBFS

SNR: 53.0dB

ENOB: 8.5 BITS

SFDR: 64dBFS

TPC 1. FFT: f

S

= 105 MSPS, f

IN

= ~50.3 MHz; A

IN

= –0.5 dBFS

Differential, 1 V p-p Analog Input Range

0

40

–100

–50

0

–90

–80

–70

–60

–40

–30

–20

–10

ENCODE: 80MSPS

A

IN

: 70.3MHz @ –0.5dBFS

SNR: 54.0dB

ENOB: 8.5 BITS

SFDR: 64dBFS

FREQUENCY – MHz

dB

TPC 2. FFT: f

S

= 80 MSPS, f

IN

= 70 MHz; A

IN

= –0.5 dBFS,

1 V p-p Analog Input Range

FREQUENCY– MHz

0

dB

52.5

–100

–50

0

–90

–80

–70

–60

–40

–30

–20

–10

ENCODE: 105MSPS

A

IN

: 70.3MHz @ –0.5dBFS

SNR: 52.6dB

ENOB: 8.4 BITS

SFDR: 62.6dBFS

TPC 3. FFT: f

S

= 105 MSPS; f

IN

= 70 MHz (1 V p-p)

Typical Performance Characteristics–

FREQUENCY– MHz

0

dB

52.5

–100

–50

0

–90

–80

–70

–60

–40

–30

–20

–10

ENCODE: 65MSPS

A

IN

: 15.3MHz @ –0.5dBFS

SNR: 56.9dB

ENOB: 9.2 BITS

SFDR: 70dB

TPC 4. FFT: f

S

= 65 MSPS, f

IN

= 15.3 MHz (2 V p-p) with

AD8138 Driving A

IN

A

IN

FREQUENCY – MHz

0

dB

70

50

100

40

60

70

80

90

605040302010

3RD

SFDR

2ND

TPC 5. Harmonic Distortion (Second and Third) and SFDR

vs. A

IN

Frequency (1 V p-p, f

S

= 105 MSPS)

A

IN

FREQUENCY – MHz

0

dB

60

85

40

65

70

75

80

755025

2ND

SFDR

55

50

45

3RD

TPC 6. Harmonic Distortion (Second and Third) and SFDR

vs. A

IN

Frequency (1 V p-p, f

S

= 80 MSPS)

REV. D

AD9214

–10–

FREQUENCY – MHz

0

dB

70

40

80

90

100

604020

60

50

80

3RD

SFDR

2ND

TPC 7. Harmonic Distortion (Second and Third) and SFDR

vs. A

IN

Frequency (1 V p-p and 2 V p-p, f

S

= 65 MSPS)

dB

–100

–50

0

–90

–80

–70

–60

–40

–30

–20

–10

ENCODE: 80MSPS

A

IN

: 29.3MHz @ –6dBFS

30.3MHz @ –6dBFS

SFDR: 74dBFS

FREQUENCY – MHz

0

40

TPC 8. Two-Tone Intermodulation Distortion (29.3 MHz,

30.3 MHz; 1 V p-p, f

S

= 80 MSPS)

dB

–100

–50

0

–90

–80

–70

–60

–40

–30

–20

–10

FREQUENCY – MHz

0

52.5

ENCODE: 105MSPS

A

IN

: 30MHz @ –6dBFS

31MHz @ –6dBFS

SFDR: 73dBFS

TPC 9. Two-Tone Intermodulation Distortion (30 MHz and

31 MHz; 1 V p-p, f

S

= 105 MSPS)

ENCODE RATE – MSPS

SIGNAL LEVEL – dB

80

45

75

40

55

60

65

70

604020

50

SINAD – 2V p–p

SINAD – 1V p–p

SFDR – 2V p–p

SFDR – 1V p–p

100 120

TPC 10. SINAD and SFDR vs. Encode Rate (f

IN

= 10.3 MHz;

1 V p-p and 2 V p-p)

SIGNAL LEVEL – dB

45

75

55

60

65

70

50

PULSEWIDTH HIGH – ns

246810

40

35

30

SINAD – 105MSPS

SINAD – 80MSPS

SFDR – 105MSPS

SFDR – 80MSPS

TPC 11. SINAD and SFDR vs. Encode Pulsewidth High

(1 V p-p)

I

AVDD

– mA

40

120

80

100

60

ENCODE RATE – MSPS

0 20 120

20

0

I

AVDD

4

12

8

10

6

2

0

I

DrVDD

– mA

40 60 80 100

I

DrVDD

TPC 12. I

AVDD

and I

DrV

DD

vs. Encode Rate (f

AIN

= 10.3 MHz,

–0.5 dBFS, and –3 dBFS) C

LOAD

on Digital Outputs ~7 pF

REV. D

AD9214

–11–

TEMPERATURE – ⴗC

–40

SIGNAL LEVEL – dB

46

58

44

48

50

52

54

80400

56

SINAD 10.3MHz/105MSPS

SNR 10.3MHz/105MSPS

TPC 13. SINAD/SNR vs. Temperature (f

AIN

= 10.3 MHz,

f

ENCODE

= 105 MSPS, 1 V p-p)

TEMPERATURE – ⴗC

–40

% FULL SCALE

0.5

4.0

0.0

1.0

1.5

2.0

2.5

80400

3.0

3.5

TPC 14. ADC Gain vs. Temperature (with External 1.25 V

Reference)

TEMPERATURE – ⴗC

–40

REFERENCE VOLTAGE – V

1.240

1.220

1.225

1.230

80

40

0

1.235

TPC 15. ADC Reference vs. Temperature (with 200

µ

A Load)

I

REF

– ␮A

–500

V

REF

– V

1.40

1.10

1.15

1.25

1.35

1.30

1.20

–400 –300 –200 –100 0 100 200 300 400 500

TPC 16. ADC Reference vs. Current Load

CODE

0

INL – LSB

1.00

–1.00

–0.75

0.00

0.75

0.25

–0.25

128 256 384 512 640 768 896 1024

0.50

–0.50

TPC 17. INL @ 80 MSPS

CODE

0

DNL – LSB

1.00

–1.00

–0.75

0.00

0.75

0.25

–0.25

128 256 384 512 640 768 896 1024

0.50

–0.50

TPC 18. DNL @ 80 MSPS

AD9214BRSZ-80

AD9214BRSZ-80

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