Rainbow Electronics ADC10065 User Manual

ADC10065
10-Bit 65 MSPS 3V A/D Converter

ADC10065 10-Bit 65 MSPS 3V A/D Converter

November 2004

General Description

The ADC10065 is a monolithic CMOS analog-to-digital con­verter capable of converting analog input signals into 10-bit
digital words at 65 Megasamples per second (MSPS). This
converter uses a differential, pipeline architecture with digital
error correction and an on-chip sample-and-hold circuit to
provide a complete conversion solution, and to minimize
power consumption, while providing excellent dynamic per­formance. A unique sample-and-hold stage yields a full­power bandwidth of 400 MHz. Operating on a single 3.0V
power supply, this device consumes just 68.4 mW at
65 MSPS, including the reference current. The Standby
feature reduces power consumption to just 14 .1 mW.

The differential inputs provide a full scale selectable input
swing of 2.0 V
single-ended input. Full use of the differential input is recom­mended for optimum performance. An internal +1.2V preci­sion bandgap reference is used to set the ADC full-scale
range, and also allows the user to supply a buffered refer­enced voltage for those applications requiring increased ac­curacy. The output data format is 10-bit offset binary, or two’s
complement.

This device is available in the 28-lead TSSOP package and
will operate over the industrial temperature range of −40˚C to
+85˚C.

P-P

, 1.5 V

P-P

, 1.0 V

, with the possibility of a

P-P

Features

n Single +3.0V operation
n Selectable 2.0 V

swing

n 400 MHz −3 dB input bandwidth
n Low power consumption
n Standby mode
n On-chip reference and sample-and-hold amplifier
n Offset binary or two’s complement data format
n Separate adjustable output driver supply to

accommodate 2.5V and 3.3V logic families

n 28-pin TSSOP package

P-P

, 1.5 V

, or 1.0 V

P-P

full-scale input

P-P

Key Specifications

n Resolution 10 Bits
n Conversion Rate 65 MSPS
n Full Power Bandwidth 400 MHz
n DNL
n SNR (f
n SFDR (f
n Data Latency 6 Clock Cycles
n Supply Voltage +3.0V
n Power Consumption, 65 MHz 68.4 mW

= 11 MHz) 59.6 dB (typ)

IN

= 11 MHz) −80 dB (typ)

IN

±

0.3 LSB (typ)

Applications

n Ultrasound and Imaging
n Instrumentation
n Cellular Based Stations/Communications Receivers
n Sonar/Radar
n xDSL
n Wireless Local Loops
n Data Acquisition Systems
n DSP Front Ends

Connection Diagram

20077901

© 2004 National Semiconductor Corporation DS200779 www.national.com

Ordering Information

ADC10065

Block Diagram

Industrial (−40˚C ≤ TA≤ +85˚C) NS Package

ADC10065CIMT 28 Pin TSSOP

ADC10065CIMTX 28 Pin TSSOP Tape & Reel

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20077902

Pin Descriptions and Equivalent Circuits

Pin No. Symbol Equivalent Circuit Description

ANALOG I/O

Inverting analog input signal. With a 1.2V reference the

12 V

−

IN

full-scale input signal level is 1.0 V

(pin 4) for single-ended operation.

V

COM

. This pin may be tied to

P-P

ADC10065

13 V

6V

7V

4V

8V

IN

REF

REFT

COM

REFB

+

Non-inverting analog input signal. With a 1.2V reference the
full-scale input signal level is 1.0 V

Reference input. This pin should be bypassed to V

0.1 µF monolithic capacitor. V

.

P-P

is 1.20V nominal. This pin

REF

SSA

with a

may be driven by a 1.20V external reference if desired.

V

REFT

and V

are high impedance reference bypass pins

REFB

only. Connect a 0.1 µF capacitor from each of these pins to

.These pins should not be loaded. V

V

SSA

bypassed with a 0.1 µF capacitor to V
to set the input common voltage V

CM

SSA.VCOM

.

should also be

COM

may be used

DIGITAL I/O

1 CLK

15 DF

28 STBY

5

IRS (Input Range

Select)

Digital clock input. The range of frequencies for this input is
20 MHz to 65 MHz. The input is sampled on the rising edge
of this input.

DF = “1” Two’s Complement
DF = “0” Offset Binary

This is the standby pin. When high, this pin sets the converter
into standby mode. When this pin is low, the converter is in
active mode.

IRS=“V
IRS=“V

DDA

SSA

” 2.0 V

” 1.5 V
IRS = “Floating” 1.0 V
If using both V

IN

input range

P-P

input range

P-P

input range

P-P

+ and VIN- pins, (or differential mode), then

the peak-to-peak voltage refers to the differential voltage

+-VIN-).

(V

IN

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Pin Descriptions and Equivalent Circuits (Continued)

Pin No. Symbol Equivalent Circuit Description

ADC10065

16–20,

23–27

ANALOG POWER

2, 9, 10 V

3, 11, 14 V

DIGITAL POWER

22 V

21 V

D0–D9

DDA

SSA

DDIO

SSIO

Digital output data. D0 is the LSB and D9 is the MSB of the
binary output word.

Positive analog supply pins. These pins should be connected
to a quiet 3.0V source and bypassed to analog ground with a

0.1 µF monolithic capacitor located within 1 cm of these pins.
A 4.7 µF capacitor should also be used in parallel.

Ground return for the analog supply.

Positive digital supply pins for the ADC10065’s output drivers.
This pin should be bypassed to digital ground with a 0.1 µF
monolithic capacitor located within 1 cm of this pin. A 4.7 µF
capacitor should also be used in parallel. The voltage on this
pin should never exceed the voltage on V

by more than

DDA

300 mV.

The ground return for the digital supply for the output drivers.
This pin should be connected to the digital ground, but not
near the analog ground.

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ADC10065

Absolute Maximum Ratings (Notes 1,

2)

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.

V

DDIO

DDA

+0.3V

±

25 mA

±

50 mA

3.9V

or

V

DDA,VDDIO

Voltage on Any Pin to GND −0.3V to V

Input Current on Any Pin

Package Input Current (Note 3)

Package Dissipation at T = 25˚C See (Note 4)

Operating Ratings

Operating Temperature Range −40˚C ≤ TA≤ +85˚C

V

(Supply Voltage) +2.7V to +3.6V

DDA

V

(Output Driver Supply

DDIO

Voltage) +2.5V to V

V

REF

|V

SSA–VSSIO

NOTE: Absolute maximum ratings are limiting values, to be applied individu­ally, and beyond which the serviceability of the circuit may be impaired.
Functional operability under any of these conditions is not necessarily im­plied. Exposure to maximum ratings for extended periods may affect device
reliability.

| ≤ 100 mV

1.20V

ESD Susceptibility

Human Body Model (Note 5) 2500V

Machine Model (Note 5) 250V

Soldering Temperature

Infrared, 10 sec. (Note 6) 235˚C

Storage Temperature −65˚C to +150˚C

Converter Electrical Characteristics

Unless otherwise specified, the following specifications apply for V

=2V

V

IN

apply for T

, STBY = 0V, V

P-P

A=TMIN

to T

= 1.20V, (External Supply) f

REF

: all other limits TA= 25˚C.

MAX

SSA=VSSIO

= 65 MHz, 50% Duty Cycle, CL= 10 pF/pin. Boldface limits

CLK

Symbol Parameter Conditions Min Typ Max Units

STATIC CONVERTER CHARACTERISTICS

No Missing Codes Guaranteed 10 Bits

F

= 500 kHz, −0 dB Full

INL Integral Non-Linearity (Note 12)

DNL Differential Non-Linearity

GE Gain Error

OE Offset Error (V

+=VIN−) −1.4 0.2 +1.7 %FS

IN

IN

Scale

F

= 500 kHz, −0 dB Full

IN

Scale

Positive Error −1.5 +0.4 +1.9 %FS

Negative Error −1.5 +0.03 +1.9 %FS

Under Range Output Code 0

Over Range Output Code 1023

FPBW Full Power Bandwidth 400 MHz

REFERENCE AND INPUT CHARACTERISTICS

V

V

V

V

CM

COM

REF

REFTC

Common Mode Input Voltage 0.5 1.5 V

Output Voltage for use as an input
common mode voltage (Note 17)

Reference Voltage 1.2 V

Reference Voltage Temperature
Coefficient

POWER SUPPLY CHARACTERISTICS

I

VDDA

I

VDDIO

Analog Supply Current

Digital Supply Current

PWR Power Consumption

STBY = 1 4.7 6.0 mA

STBY = 0 22 29 mA

STBY=1,f

STBY 0, f

=0Hz 0 mA

IN

= 0 Hz 0.97 1.2 mA

IN

STBY = 1 14.1 18.0 mW

STBY = 0 68.4 90 mW

= 0V, V

−1.0

−0.9

= +3.0V, V

DDA

±

±

DDIO

0.3 +1.1 LSB

0.3 +0.9 LSB

1.45 V

±

80 ppm/˚C

= +2.5V,

DDA

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DC and Logic Electrical Characteristics Unless otherwise specified, the following specifications

apply for V

= 65 MHz, 50% Duty Cycle, CL= 10 pF/pin. Boldface limits apply for TA=T

f

CLK

ADC10065

SSA=VSSIO

= 0V, V

Symbol Parameter Conditions Min Typ Max Units

CLK, DF, STBY, SENSE

Logical “1” Input Voltage 2 V

Logical “0” Input Voltage 0.8 V

Logical “1” Input Current +10 µA

Logical “0” Input Current −10 µA

D0–D9 OUTPUT CHARACTERISTICS

Logical “1” Output Voltage I

Logical “0” Output Voltage I

DYNAMIC CONVERTER CHARACTERISTICS

ENOB Effective Number of Bits

SNR Signal-to-Noise Ratio

SINAD Signal-to-Noise Ratio + Distortion

2nd HD 2nd Harmonic

3rd HD 3rd Harmonic

THD

SFDR

Total Harmonic Distortion (First 6
Harmonics)

Spurious Free Dynamic Range
(Excluding 2nd and 3rd Harmonic)

DDA

= +3.0V, V

= +2.5V, VIN=2V

DDIO

, STBY = 0V, V

P-P

MIN

= −0.5 mA V

OUT

= 1.6 mA 0.4 V

OUT

f

= 11 MHz 9.4, 9.3 9.6 Bits

IN

f

= 32 MHz 9.3, 9.2 9.5 Bits

IN

f

= 11 MHz 58.6, 58 59.6 dB

IN

f

= 32 MHz 58.5, 57.9 59.3 dB

IN

f

= 11 MHz 58.3, 57.6 59.4 dB

IN

f

= 32 MHz 58, 57.4 59 dB

IN

f

=11MHz

IN

fIN=32MHz

=11MHz

f

IN

f

= 32 MHz −65.4,

IN

=11MHz

f

IN

=32MHz

f

IN

=11MHz

f

IN

fIN=32MHz

= 1.20V, (Externally Supplied)

REF

to T

DDIO

: all other limits TA= 25˚C

MAX

−0.2 V

−75.6,

−69.7

−72.7,

−68.9

−66.2,

−63

−63.3

−66.2,

−63

−65.4,

−63.3

−75.8,

−74.5

−74.4,

−73.3

−90 dBc

−82 dBc

−74 dBc

−72 dBc

−74 dB

−72 dB

−80 dBc

−80 dBc

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