Sony CXA1386P, CXA1386K Datasheet

8-bit 75MSPS Flash A/D Converter

CXA1386P/K

Description

The CXA1386P/K are 8-bit high-speed flash A/D
converter ICs capable of digitizing analog signals at
the maximum rate of 75MSPS. The digital I/O levels
of these A/D converters are compatible with the
ECL 100K/10KH/10K.

The CXA1386P/K is pin-compatible with the
earlier models CXA1056P/K, CXA1016P/K,
respectively. They can be replaced by the
CXA1386P/K without any design changes, in most
cases. Compared with the earlier models, these
new models have been greatly improved in
performance, by incorporating advanced process,
new circuit design and carefully considered layout.

Features

• Differential linearity error: ±1/2LSB or less

• Integral linearity error: ±1/2LSB or less

• High-speed operation with maximum conversion

rate of 75MSPS (Min.)

• Wide analog input bandwidth: 150MHz (Min. for

full-scale input)

• Low Power consumption: 580mW (Typ.)

• Single power supply: –5.2V

• Low input capacitance: 17pF (Typ.)

• Built-in integral linearity conpensation circuit

• Low error rate

• Operable at 50% clock duty cycle

• Good temperature characteristics

• Capable of driving 50Ω loads

CXA1386P

28 pin DIP (Plastic)

CXA1386K

44 pin LCC (Ceramic)

Structure

Bipolar silicon monolithic IC

Applications

• Digital oscilloscopes

• HDTV (high-definition TVs)

• Other apparatus requiring high-speed A/D

conversion

Pin Configuration

Pins with name are NC pins (not connected).

LINV

1

DVEE

2

DGND

(LSB) D0

(MSB) D7

DGND

Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by
any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the
operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.

D1
D2
D3
D4
D5
D6

DV

EE

MINV

10
11
12
13
14

3
4

5
6
7
8
9

CXA1386P

26
25

20
19
18
17
16
15

28
27

24
23
22
21

AVEE

RT

V
AVEE
AGND

IN

V
AGND

RM

V
AGND

IN

V
AGND

EE

AV
VRB
CLK
CLK

AV

EE

AVEE

VRT

AVEE

LINV

DV

EE

DGND1
DGND2

RM

39

38 37 36 35 34 33 32 31 30 29

40
41
42
43
44

1
2
3
4
5
6

8 9 10 11 12 13 14 15 16 17

7

IN

AGND

V

CXA1386K

D2

D1

(LSB) D0

V

AGND

D3

D4

AGND

D5

IN

AGND

V

D6

(MSB) D7

28
27
26
25
24
23
22
21
20
19
18

DGND2

EE

AV
AVEE
VRB

CLK
CLK
MINV
DV

EE

DGND1

– 1 –

E90114C54-ST

Absolute Maximum Ratings (Ta = 25°C)

• Supply voltage AVEE, DVEE –7 to +0.5 V

• Analog input voltage VIN –2.7 to +0.5 V

• Reference input voltage VRT, VRB, VRM –2.7 to +0.5 V

I VRT – VRB I 2.5 V

• Digital input voltage CLK, CLK, MINV, LINV –4 to +0.5 V
I CLK – CLK I 2.7 V

• VRM pin input current IVRM –3 to +3 mA

• Digital output current ID0 to ID7 –30 to 0 mA

• Storage temperature Tstg –65 to +150 °C

Recommended Operating Conditions Min. Typ. Max. Unit

• Supply voltage AVEE, DVEE –5.5 –5.2 –4.95 V

AVEE – DVEE –0.05 0 +0.05 V
AGND – DGND –0.05 0 +0.05 V

• Reference input voltage VRT –0.1 0 +0.1 V

VRB –2.2 –2.0 –1.8 V

• Analog input voltage VIN VRB VRT

• Pulse width of clock TPW1 6.6 ns

TPW0 6.6 ns

• Operating temperature Tc (CXA1386K) –20 +100 °C

Ta (CXA1386P) –20 +75 °C

CXA1386P/K

– 2 –

Block Diagram

CXA1386P/K

MINV

r1

V

RT

Comparator

r/2

r

VIN

VRM

VIN

63

64

65

126

127

128

129

191

192

193

254

1

2

•

•

•

•

•

•

OUTPUT

ENCODE LOGIC

•

•

•

•

•

•

D7 (MSB)

D6

D5

D4

D3

D2

D1

D0 (LSB)

r

r

r

r

r

r

r2

r

r

r

r

r

r

r

VRB

CLK
CLK

r3

r/2

CLOCK

DRIVER

255

LINV

– 3 –

Pin Description and I/O pin Equivalent circuit

CXA1386P/K

Pin No

DIPLCC

31, 33,

35, 37

27, 28,
40, 41,

44

23 CLK

19, 21,

23, 25

18, 26,

28

16

Standard

Symbol I/O

voltage

level

AGND — 0V

AVEE — –5.2V

Equivalent circuit Description

Anlog GND.
Used as GND for input
buffers and latches of
comparators.
Isolated from DGND or
DGND 1/2.

Analog VEE
–5.2V (Typ.).
Internally connected
with DVEE
(resistance: 4 to 6Ω).
Ceramic chip
capacitors of at least

0.1µF should be used
to connect to AGND
and be placed near
the pins.

DGND (DG ND1)

CLK input

22 CLK

15

3, 12— DGND — 0V

—5, 19 DGND1 — 0V

—6, 16 DGND2 — 0V

I ECL

CL K

CL K

DV

EE

r r
r
r

r r

Input complementary
to CLK.
With open connection,
kept at threshold
voltage (–1.3V).
Device is operable
without CLK input, but
use of complementary
inputs of CLK and CLK
is recommended to
obtain the stable high­speed operation.

Digital GND (Used for
internal circuits and
output transistors)

Digital GND (Used for
internal circuits)

Digital GND (Used for
output buffers)

– 4 –

CXA1386P/K

Pin No

Symbol I/O

Standard

voltage

DIPLCC

2, 134, 20 DVEE — –5.2V

8D0

9
10
11

4

5
6
7

D1
D2
D3

O ECL

12
13

8
9

D4
D5

level

Equivalent circuit Description

Digital VEE
Internally connected
with AVEE
(resistance: 4 to 6Ω)
Ceramic chip
capacitors of at least

0.1µF should be used
to connect to DGND
and be placed near the
pins.

DGND (DG ND2)

LSB of data outputs.
External pull-down
resistor is required.

Di

Data outputs.
External pull-down
resistors are required.

14

15 D7

3 LINV I ECL

10

11

1

D6

1421 MINV I ECL

DGND (DG ND1)

LINV

or

MIN V

DVEE

MSB of data outputs.

DV

EE

External pull-down
resistor is required.

Input pin for D0 (LSB)
to D6 output polarity
inversion (see output
code table).

r
r
r

–1.3V

With open connection,
kept at "L" level.

Input pin for D7 (MSB)
output polarity
inversion (see output

r

code table).
With open connection,
kept at "L" level.

– 5 –

CXA1386P/K

Pin No.

Symbol I/O

DIPLCC

32, 36 VIN I

26 VRB

34

42

20, 24

17

22

27

VRM IVRB/2

VRT I0V

I

Standard

voltage

level

VRT

to

VRB

–2V

VIN

VIN

VRT

VRM

VRB

Equivalent circuit Description

AGND

Analog input pins.
These two pins must
be connected
externally, since they
are not internally
connected.
See Application Note
for precautions.

AVEE

Reference voltage
(bottom)
Typically –2V

r1

r/2

r

Comparator 1

r

Comparator 2

r

r2

3

r

Comparator 127

r

Comparator 128

r

Comparator 129

r

Comparator 130

r

Comparator 255

r/2

A ceramic capacitor of
at least 0.1µF and a
tantalus capacitor of at
least 10µF should be
used to connect to
AGND and be placed
near the pins.

•

Reference voltage mid

•

•

point be used as a pin
for integral linearity
compensation

Reference voltage
(top) Typically 0V
When a voltage

•

•

different from AGND is

•

•

applied to this pin, a

•

•

ceramic capacitor of at

•

least 0.1µF and a
tantalus capacitor of at
least 10µF should be
used to connect to
AGND and be placed
near the pins.

1, 2,

7, 17,
18, 24,
25, 29,

30, 38
39, 43

NC — —

Unused pins
No internal connections
have been made to
these pins.
Connecting them to
AGND or DGND on PC
board is recommended.

– 6 –

CXA1386P/K

Electrical Characteristics (Ta = 25°C, AVEE = DVEE = –5.2V, VRT = 0V, VRB = –2V)

Item

Resolution
DC characteristics

Integral linearity error
Differential linearity error

Analg input

Analog input capacitance
Analog input resistance
Input bias current

Reference inputs

Reference resistance
Offset voltage VRT

VRB

Digital inputs

Logic H level
Logic L level
Logic H current
Logic L current
Input capacitance

Switching characteristics

Maximum conversion rate
Aperture jitter
Sampling delay
Output delay
H pulse width of clock
L pulse width of clock

Symbol Condition Min. Typ. Max. Unit

n

EIL
EDL

CIN
RIN
IIN

RREF
EOT
EOB

VIH
VIL
IIH
IIL

Fc
Taj
Tds
Tdo
TPW1
TPW0

Fc = 75MSPS
Fc = 75MSPS

VIN = –1V + 0.07Vrms
VIN = –1V

Input connected to –0.8V
Input connected to –1.6V

Error rate 10–9TPS

∗1

75

8
0

–1.13

0

–50

75

4.0

6.6

6.6

8

±0.3
±0.3

17

390

110

18
10

7

10

3.0

6.5

±0.5
±0.5

200

155

32
24

–1.50

50
50

9.0

bits

LSB
LSB

pF
kΩ
µA

Ω

mV
mV

V

V
µA
µA
pF

MSPS

ps
ns
ns
ns
ns

Digital outputs

Logic H level
Logic L level
Output rising time
Output falling time

Dynamic characteristics

Input bandwidth
S/N ratio

Error rate

Differential gain error
Differential phase error

Power supply

Supply current
Power consumption

∗1

TPS: Times Per Sample

∗2

Pd = IEE · VEE +

(VRT – VRB)

∗2

RREF

VOH
VOL
Tr
Tf

DG
DP

IEE
Pd

2

RL = 620Ω to DVEE
RL = 620Ω to DVEE
RL = 620Ω to DVEE, 20% to 80%
RL = 620Ω to DVEE, 80% to 20%

VIN = 2Vp-p
Input frequency at –3dB

Input = 1MHz, FS

{

Clock = 75MHz
Input = 18.75MHz, FS

{

Clock = 75MHz
Input = 18.749MHz, FS
Error > 16LSB

{

Clock = 75MHz
NTSC 40IRE mod. ramp,

}

Fc = 75MSPS

–1.03

150

–150

0.9

2.1

46
40

1.0

0.5

–104

580

–1.62

–9

10

V

V
ns
ns

MHz

dB
dB

TPS

%

deg

mA

mW

∗1

– 7 –