HI5767/2IAZ Datasheet HI5767/6CBZ-T, HI5767/4CBZ-T, HI5767/4CBZ | P7-P9

7

Maximum Output Current - - 0.2 mA

DIGITAL INPUTS

Input Logic High Voltage, V

IH

CLK, DFS, OE 2.0 - - V

Input Logic Low Voltage, V

IL

CLK, DFS, OE - - 0.8 V

Input Logic High Current, I

IH

CLK, DFS, OE, V

IH

= 5V -10.0 - +10.0 A

Input Logic Low Current, I

IL

CLK, DFS, OE, V

IL

= 0V -10.0 - +10.0 A

Input Capacitance, C

IN

- 7 - pF

DIGITAL OUTPUTS

Output Logic High Voltage, V

OH

I

OH

= 100A; DV

CC2

= 5V 4.0 - - V

Output Logic Low Voltage, V

OL

I

OL

= 100A; DV

CC2

= 5V - - 0.8 V

Output Three-State Leakage Current, I

OZ

V

O

= 0/5V; DV

CC2

= 5V -10 1 10 A

Output Logic High Voltage, V

OH

I

OH

= 100A; DV

CC2

= 3V 2.4 - - V

Output Logic Low Voltage, V

OL

I

OL

= 100A; DV

CC2

= 3V - - 0.5 V

Output Three-State Leakage Current, I

OZ

V

O

= 0/5V; DV

CC2

= 3V -10 1 10 A

Output Capacitance, C

OUT

- 10 - pF

TIMING CHARACTERISTICS

Aperture Delay, t

AP

- 5 - ns

Aperture Jitter, t

AJ

- 5 - ps

RMS

Data Output Hold, t

H

- 5 - ns

Data Output Delay, t

OD

- 6 - ns

Data Output Enable Time, t

EN

- 5 - ns

Data Output Enable Time, t

DIS

- 5 - ns

Data Latency, t

LAT

For a Valid Sample (Note 2) - - 7 Cycles

Power-Up Initialization Data Invalid Time (Note 2) - - 20 Cycles

Sample Clock Pulse Width (Low) f

S

= 40MSPS 11.3 12.5 - ns

Sample Clock Pulse Width (High) f

S

= 40MSPS 11.3 12.5 - ns

Sample Clock Duty Cycle Variation f

S

= 40MSPS - 5 - %

POWER SUPPLY CHARACTERISTICS

Analog Supply Voltage, AV

CC

4.75 5.0 5.25 V

Digital Supply Voltage, DV

CC1

4.75 5.0 5.25 V

Digital Output Supply Voltage, DV

CC2

At 3.0V 2.7 3.0 3.3 V

At 5.0V 4.75 5.0 5.25 V

Supply Current, I

CC

f

IN

= 1MHz and DFS = “0” - 62 - mA

Power Dissipation f

IN

= 1MHz and DFS = “0” - 310 - mW

Offset Error Sensitivity, V

OS

AV

CC

or DV

CC

= 5V 5% - 0.7 - LSB

Gain Error Sensitivity, FSE AV

CC

or DV

CC

= 5V 5% - 0.1 - LSB

NOTES:

2. Parameter guaranteed by design or characterization and not production tested.

3. With the clock low and DC input.

Electrical Specifications AV

CC

= DV

CC1

= 5.0V, DV

CC2

= 3.0V; V

REFIN

= V

REFOUT

; f

S

= 40MSPS at 50% Duty Cycle;

C

L

= 10pF; T

A

= 25

o

C; Differential Analog Input; Typical Values are Test Results at 25

o

C,

Unless Otherwise Specified (Continued)

PARAMETER TEST CONDITIONS MIN TYP MAX UNITS

HI5767

8

Timing Waveforms

FIGURE 1. INPUT TO OUTPUT TIMING

Typical Performance Curves

FIGURE 2. EFFECTIVE NUMBER OF BITS (ENOB) AND

SINAD vs SAMPLING FREQUENCY

FIGURE 3. SNR vs SAMPLING FREQUENCY

FIGURE 4. -THD vs SAMPLING FREQUENCY FIGURE 5. SFDR vs SAMPLING FREQUENCY

t

OD

t

H

DATA N-1

DATA N

CLOCK

INPUT

DATA

OUTPUT

1.5V

t

AP

ANALOG

INPUT

t

AJ

1.5V

2.4V

0.5V

SAMPLING FREQUENCY (MSPS)

ENOB (BITS)

9.5

9.0

8.5

8.0

7.5

7.0

6.5

10 20 30 40 50 60 70 80

59

53

47

41

SINAD (dB)

f

IN

= 1MHz

f

IN

= 5MHz

f

IN

= 10MHz

f

IN

= 15MHz

T

A

= 25

o

C

SAMPLING FREQUENCY (MSPS)

SNR (dB)

60

55

50

45

40

10 20 30 40 50 60 70 80

f

IN

= 1MHz

f

IN

= 15MHz

T

A

= 25

o

C

f

IN

= 10MHz

f

IN

= 5MHz

SAMPLING FREQUENCY (MSPS)

-THD (dBc)

80

75

70

65

60

55

50

10 20 30 40 50 60 70 80

f

IN

= 1MHz

T

A

= 25

o

C

f

IN

= 10MHz

f

IN

= 15MHz

f

IN

= 5MHz

SAMPLING FREQUENCY (MSPS)

SFDR (dBc)

80

75

70

65

60

55

50

10 20 30 40 50 60 70 80

f

IN

= 1MHz

T

A

= 25

o

C

f

IN

= 15MHz

f

IN

= 10MHz

f

IN

= 5MHz

HI5767

9

FIGURE 6. EFFECTIVE NUMBER OF BITS (ENOB) vs

SAMPLE CLOCK DUTY CYCLE

FIGURE 7. EFFECTIVE NUMBER OF BITS (ENOB) vs

ANALOG INPUT COMMON MODE VOLTAGE

FIGURE 8. SUPPLY CURRENT vs SAMPLE CLOCK

FREQUENCY

FIGURE 9. EFFECTIVE NUMBER OF BITS (ENOB) vs

TEMPERATURE

FIGURE 10. INTERNAL REFERENCE VOLTAGE (V

REFOUT

) vs

TEMPERATURE

FIGURE 11. DC BIAS VOLTAGE (V

DC

) vs TEMPERATURE

Typical Performance Curves (Continued)

40MSPS

DUTY CYCLE (%, t

H

/t

CLK

)

ENOB (BITS)

9.5

8.0

7.5

7.0

6.5

6.0

5.5

30 35 40 45 50 55 60 70

T

A

= 25

o

C, f

IN

= 10MHz

9.0

8.5

65

60MSPS

20MSPS

V

CM

(V)

ENOB (BITS)

9.1

8.8

8.7

8.6

8.5

8.4

8.3

0.25 0.75 1.25 1.75 2.25 2.75 3.25 4.75

9.0

8.9

3.75

20MSPS

4.25

40MSPS

60MSPS

T

A

= 25

o

C, f

IN

= 10MHz

DIFFERENTIAL ANALOG INPUT

f

S

(MSPS)

SUPPLY CURRENT (mA)

80

50

40

30

20

10

0

10 15 20 25 30 35 40 55

70

60

45

50

DI

CC1

DI

CC2

I

CC

AI

CC

T

A

= 25

o

C, 1MHz < f

IN

< 15MHz

60

TEMPERATURE (

o

C)

ENOB (BITS)

9.2

8.6

8.4

8.2

8.0

-40 -20 0 20 40 80

9.0

8.8

60

60MSPS

40MSPS

f

IN

= 10MHz, V

REFIN

= V

REFOUT

DIFFERENTIAL ANALOG INPUT

20MSPS

TEMPERATURE (

o

C)

REFERENCE VOLTAGE, (V

REFOUT

) (V)

2.530

2.515

2.510

-40 -20 0 20 40 80

2.525

2.520

60

V

REFOUT

TEMPERATURE (

o

C)

V

DC

(V)

3.1

2.9

-40 -20 0 20 40 80

3.0

60

V

DC

HI5767

HI5767/2IAZ

HI5767/2IAZ

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