Philips TDA8716T-C1, TDA8716-C1 Datasheet

DATA SH EET

Product specification
Supersedes data of April 1993
File under Integrated Circuits, IC02

1996 Aug 26

INTEGRATED CIRCUITS

TDA8716

8-bit high-speed analog-to-digital
converter

1996 Aug 26 2

Philips Semiconductors Product specification

8-bit high-speed analog-to-digital
converter

TDA8716

FEATURES

• 8-bit resolution

• Sampling rate up to 120 MHz

• ECL (10 K family) compatible digital inputs and outputs

• Overflow/Underflow output

• Low power dissipation

• Low input capacitance (13 pF typ.).

APPLICATIONS

• High speed analog-to-digital convertion

• Video signal digitizing

• Radar pulse analysis

• Transient signal analysis

• High energy physics research

• Medical systems

• Industrial instrumentation.

GENERAL DESCRIPTION

The TDA8716 is an 8-bit high-speed Analog-to-Digital
Converter (ADC) designed for HDTV and professional
applications. The device converts the analog input signal
into 8-bit binary coded digital words at a sampling rate of
120 MHz. All digital outputs are ECL compatible.

QUICK REFERENCE DATA

Measured over full voltage and temperature ranges, unless otherwise specified.

ORDERING INFORMATION

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

V

EEA

analog supply voltage −5.45 −5.2 −4.95 V

V

EED

digital supply voltage −5.45 −5.2 −4.95 V

I

EEA

analog supply current − 50 55 mA

I

EED

digital supply current − 100 110 mA

I

EEO

output supply current RL = 2.2 kΩ−20 25 mA

V

RB

reference voltage BOTTOM −−3.130 − V

V

RT

reference voltage TOP −−1.870 − V
ILE DC integral linearity error see Fig.8 −±0.5 ±1 LSB
DLE DC differential linearity error see Fig.9 −±0.25 ±0.45 LSB
EB effective bit f

i

= 20 MHz;

f

CLK

= 100 MHz

− 7 − bits

f

CLK

maximum clock frequency 120 −−MHz
P

tot

total power dissipation excluding load − 780 900 mW

TYPE NUMBER

PACKAGE

NAME DESCRIPTION VERSION

TDA8716 DIP24 plastic dual in-line package; 24 leads (600 mil) SOT101-1

TDA8716T SO32L plastic small outline package; 32 leads; body width 7.5 mm SOT287-1

1996 Aug 26 3

Philips Semiconductors Product specification

8-bit high-speed analog-to-digital converter TDA8716

BLOCK DIAGRAM

Fig.1 Block diagram; TDA8716.

handbook, full pagewidth

TDA8716

OUTPUT LATCHES

DIGITAL PROCESSING

LATCHES

CLOCK

BUFFER

MSB ANALOG
PROCESSING

LSB ANALOG
PROCESSING

folding and interpolation

SAMPLE LATCHES

LSB BINARY

ENCODER

MSB BINARY

ENCODER

ECL BUFFERS

63

14 15 16 17 18 20 21 22 23

digital outputs

D0 to D7

IN range

MCD265 - 2

1

2

CLK input

CLKinput

analog input

7
11

5



13
24

3

12

4

19

analog ground

digital ground

analog negative
supply voltage
(– 5.2 V)

output ground
supply voltage
(0 V)

digital negative
supply voltage
(– 5.2 V)

two's complement
output select

10
9
6

8



voltage

reference top

voltage

reference middle

voltage

reference bottom

1996 Aug 26 4

Philips Semiconductors Product specification

8-bit high-speed analog-to-digital converter TDA8716

PINNING TDA8716

SYMBOL PIN DESCRIPTION

CLK 1 complementary clock input
CLK 2 clock input
V

EED1

3 digital negative supply voltage

(−5.2 V)

C

PLT2

4 two's complement output select

(active HIGH)

V

EEA

5 analog negative supply voltage

(−5.2 V)

V

RB

6 reference voltage BOTTOM
AGND1 7 analog ground 1
V

I

8 analog input
V

RM

9 reference voltage MIDDLE

decoupling

V

RT

10 reference voltage TOP
AGND2 11 analog ground 2
V

EED2

12 digital negative supply voltage

(−5.2 V)
DGND1 13 digital ground 1
D0 14 digital output (LSB)
D1 15 digital output
D2 16 digital output
D3 17 digital output
D4 18 digital output
OGND 19 output ground supply voltage (0 V)
D5 20 digital output
D6 21 digital output
D7 22 digital output (MSB)
IR 23 IN range
DGND2 24 digital ground 2

Fig.2 Pin configuration; TDA8716.

handbook, halfpage

1
2
3
4
5
6
7
8

9
10
11
12

24
23
22
21
20
19
18
17
16
15
14
13

MCD259

CLK

V

EED1

C

PLT2

AGND1

V

I

EEA

V

AGND2

RM

V

RT

V

RB

V

CLK

DGND2
IR
D7

DGND1

D6
D5

D4
D3
D2
D1
D0

TDA8716

EED2

V

OGND

1996 Aug 26 5

Philips Semiconductors Product specification

8-bit high-speed analog-to-digital converter TDA8716

PINNING TDA8716T

SYMBOL PIN DESCRIPTION

CLK 1 complementary clock input
CLK 2 clock input
V

EED1

3 digital negative supply voltage

(−5.2 V)
n.c. 4 not connected
n.c. 5 not connected
C

PLT2

6 two's complement output select

(active HIGH)
V

EEA

7 analog negative supply voltage

(−5.2 V)
V

RB

8 reference voltage BOTTOM
AGND1 9 analog ground 1
V

I

10 analog input

V

RM

11 reference voltage MIDDLE

decoupling
n.c. 12 not connected
n.c. 13 not connected
V

RT

14 reference voltage TOP
AGND2 15 analog ground 2
V

EED2

16 digital negative supply voltage

(−5.2 V)
DGND1 17 digital ground 1
D0 18 digital output (LSB)
D1 19 digital output
n.c. 20 not connected
n.c. 21 not connected
D2 22 digital output
D3 23 digital output
D4 24 digital output
OGND 25 output ground supply voltage (0 V)
D5 26 digital output
D6 27 digital output
n.c. 28 not connected
n.c. 29 not connected
D7 30 digital output (MSB)
IR 31 IN range
DGND2 32 digital ground 2

Fig.3 Pin configuration; TDA8716T.

handbook, halfpage

1
2
3
4
5
6
7
8

9
10
11
12

13
14
15
16

32
31
30
29
28
27

17

18

19

20

21

22

23

24

25

26

TDA8716T

MBC742 - 2

V

EED2

AGND2

V

RT

n.c.

n.c.

RM

V

V

I

AGND1

V

RB

V

EEA

C

PLT2

n.c.

EED1

V

CLK

CLK

DGND1

D0

D1

n.c.

n.c.

D2

D3

D4

OGND

D5

D6

n.c.

n.c.

D7

IR

DGND2

n.c.

1996 Aug 26 6

Philips Semiconductors Product specification

8-bit high-speed analog-to-digital converter TDA8716

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134).

Note

1. The circuit has two clock inputs: CLK and

CLK. Sampling takes place on the rising edge of the clock input signal:

CLK and CLK are two's complementary ECL signals.

THERMAL CHARACTERISTICS

HANDLING

Inputs and outputs are protected against electrostatic discharge in normal handling. However, to be totally safe, it is
desirable to take normal precautions appropriate to handling integrated circuits.

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

V

EEA

analog supply voltage −7.0 +0.3 V

V

EED1,VEED2

digital supply voltage −7.0 +0.3 V

V

EEA

− V

EED1

;

V

EEA

− V

EED2

supply voltage differences −1+1V

V

I

input voltage referenced to

AGND

V

EEA

0V

V

CLK; CLK(p-p)

input voltage for differential clock drive
(peak-to-peak value)

note 1 − 2.0 V

I

O

output current (each output stage) − 10 mA

T

stg

storage temperature −55 +150 °C

T

amb

operating ambient temperature 0 +70 °C

T

j

junction temperature − +150 °C

SYMBOL PARAMETER CONDITIONS VALUE UNIT

R

th j-a

from junction to ambient in free air

SOT101 35 K/W
SOT287 (see Fig.4) 65 K/W

1996 Aug 26 7

Philips Semiconductors Product specification

8-bit high-speed analog-to-digital converter TDA8716

CHARACTERISTICS

V

EEA

= −4.95 to −5.45 V; V

EED1

, V

EED2

= −4.95 to −5.45 V; AGND, DGND and OGND shorted together;

T

amb

= 0 to +70 °C; unless otherwise specified. (Typical values taken at V

EEA

= −5.2 V; V

EED1

, V

EED2

= −5.2 V;

T

amb

=25°C).

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

Supply

V

EEA

analog supply voltage −5.45 −5.2 −4.95 V

V

EED1,VEED2

digital supply voltage −5.45 −5.2 −4.95 V

I

EEA

analog supply current − 50 55 mA

I

EED1,IEED2

digital supply current − 100 110 mA

I

EE

output supply current RL= 2.2 kΩ−20 25 mA

V

diff

supply voltage differential V

EEA

− V

EED1

; V

EEA

− V

EED2

−0.5 0 +0.5 V

Reference voltages for the resistor ladder

V

RB

reference voltage BOTTOM −3.5 −3.13 − V

V

RT

reference voltage TOP −−1.87 −1.5 V

V

ref

reference voltage differential VRT− V

RB

− 1.26 − V

V

OB

voltage offset BOTTOM note 1 − 130 − mV

V

OT

voltage offset TOP note 1 − 130 − mV

V

I(p-p)

input voltage amplitude
(peak-to-peak value)

0.95 1.0 1.5 V

I

ref

reference current − 15 − mA

R

LAD

resistor ladder − 85 −Ω

TC

RL

temperature coefficient of the
resistor ladder

− 0.18 −Ω/K

Inputs

CLK and

CLK input

V

IL

LOW level input voltage −1850 −1770 −1650 mV

V

IH

HIGH level input voltage −960 −880 −810 mV

I

IL

LOW level input current V

CLK

= −1.77 V − 1 −µA

I

IH

HIGH level input current V

CLK

= −0.88 V − 10 −µA

R

I

input resistance − 20 − kΩ

C

I

input capacitance − 2 − pF

V

CLK(p-p)

differential clock input
V

CLK

− V

CLK

(peak-to-peak value)

− 900 − mV

Analog input; note 2
I

IB

input current BOTTOM VRB= −3.13 V − 0 −µA

I

IT

input current TOP VRT= −1.87 V − 170 −µA

R

I

input resistance − 7 − kΩ

C

I

input capacitance − 13 20 pF