Characteristics – Philips TDA8767 User Manual

1999 Feb 16

7

Philips Semiconductors

Preliminary specification

12-bit high-speed Analog-to-Digital
Converter (ADC)

TDA8767

CHARACTERISTICS

V

CCA

= V

2

to V

44

, V

9

to V

10

, V

3

to V

4

and V

41

to V

40

= 4.75 to 5.25 V; V

CCD

= V

37

to V

38

and V

15

to V

17

= 4.75 to 5.25 V;

V

CCO

= V

33

to V

34

= 3.0 to 5.25 V; AGND and DGND shorted together; T

amb

= 0 to +70

°

C; typical values measured at

V

CCA

= V

CCD

= 5 V and V

CCO

= 3.3 V; V

i(p-p)

−

V

i(p-p)

= 2.0 V; C

L

= 15 pF and T

amb

= 25

°

C; unless otherwise specified.

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

Supply

V

CCA

analog supply voltage

4.75

5.0

5.25

V

V

CCD

digital supply voltage

4.75

5.0

5.25

V

V

CCO

output supply voltage

3.0

3.3

5.25

V

I

CCA

analog supply current

−

40

tbf

mA

I

CCD

digital supply current

−

22

tbf

mA

I

CCO

output supply current

f

clk

= 20 MHz; f

i

= 4.43 MHz

−

12

tbf

mA

Inputs

CLK (

REFERENCED TO

DGND)

V

IL

LOW-level input voltage

0

−

0.8

V

V

IH

HIGH-level input voltage

2.0

−

V

CCD

V

I

IL

LOW-level input current

V

clk

= 0.3V

CCD

−

400

−

−

µ

A

I

IH

HIGH-level input current

V

clk

= 0.7V

CCD

−

−

100

µ

A

V

clk

= V

CCD

−

−

300

µ

A

Z

i

input impedance

f

clk

= 30 MHz

−

2

−

k

Ω

C

i

input capacitance

f

clk

= 30 MHz

−

2

−

pF

TC; SH

AND

OE (

REFERENCED TO

DGND); see Tables 3 and 4

V

IL

LOW-level input voltage

0

−

0.8

V

V

IH

HIGH-level input voltage

2.0

−

V

CCD

V

I

IL

LOW-level input current

V

IL

= 0.3V

CCD

−

400

−

−

µ

A

I

IH

HIGH-level input current

V

IH

= 0.7V

CCD

−

−

20

µ

A

V

I

AND

V

I

(

REFERENCED TO

AGND; see Tables 1

AND

2); V

ref

= V

CCA

−

2 V

I

IL

LOW-level input current

V

i

= V

i

−

10

−

µ

A

I

IH

HIGH-level input current

V

i

= V

i

−

10

−

µ

A

Z

i

input impedance

f

i

= 4.43 MHz

−

10

−

k

Ω

C

i

input capacitance

f

i

= 4.43 MHz

−

2

−

pF

V

ios(d)

input offset voltage in
differential mode

V

I

= V

I

; output code 2047

V

CCA

= 5 V

tbf

2.5

tbf

V

V

CCA

= 4.75 V

tbf

2.25

tbf

V

V

CCA

= 5.25 V

tbf

2.75

tbf

V

V

ios(s)

input offset voltage in single
mode

V

I

= V

ios(s)

; output

code 2047

V

CCA

= 5 V

tbf

2.5

tbf

V

V

CCA

= 4.75 V

tbf

2.25

tbf

V

V

CCA

= 5.25 V

tbf

2.75

tbf

V