AD7575JPZ Datasheet AD7575AQ, AD7575BQ, AD7575JNZ | P1-P3

REV. B

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MOS

5 ␮s 8-Bit ADC with Track/Hold

AD7575

FUNCTIONAL BLOCK DIAGRAM

TRACK

AND

HOLD

CLOCK

OSCILLATOR

DAC

SAR

COMP

CONTROL

LOGIC

LATCH AND

THREE STATE

OUTPUT DRIVERS

AD7575

AIN

AGND

REF

CLK

BUSY

DGND

DB7

DB0

GENERAL DESCRIPTION

The AD7575 is a high speed 8-bit ADC with a built-in track/

hold function. The successive approximation conversion tech-

nique is used to achieve a fast conversion time of 5 µs, while the

built-in track/hold allows full-scale signals up to 50 kHz (386 mV/µs

slew rate) to be digitized. The AD7575 requires only a single +5 V

supply and a low cost, 1.23 V bandgap reference in order to convert

an input signal range of 0 to 2 V

REF

The AD7575 is designed for easy interfacing to all popular 8-bit

microprocessors using standard microprocessor control signals

(

CS and RD) to control starting of the conversion and reading of

the data. The interface logic allows the AD7575 to be easily

configured as a memory mapped device, and the part can be

interfaced as SLOW-MEMORY or ROM. All data outputs of

the AD7575 are latched and three-state buffered to allow direct

connection to a microprocessor data bus or I/O port.

The AD7575 is fabricated in an advanced, all ion-implanted high

speed Linear Compatible CMOS (LC

MOS) process and is

available in a small, 0.3" wide, 18-lead DIP, 18-lead SOIC or in

other 20-terminal surface mount packages.

FEATURES

Fast Conversion Time: 5 ␮s

On-Chip Track/Hold

Low Total Unadjusted Error: 1 LSB

Full Power Signal Bandwidth: 50 kHz

Single +5 V Supply

100 ns Data Access Time

Low Power (15 mW typ)

Low Cost

Standard 18-Lead DlPs or 20-Terminal

Surface Mount Packages

PRODUCT HIGHLIGHTS

1. Fast Conversion Time/Low Power

The fast, 5 µs, conversion time of the AD7575 makes it

suitable for digitizing wideband signals at audio and ultra-

sonic frequencies while retaining the advantage of low

CMOS power consumption.

2. On-Chip Track/Hold

The on-chip track/hold function is completely self-contained

and requires no external hold capacitor. Signals with slew

rates up to 386 mV/µs (e.g., 2.46 V peak-to-peak 50 kHz sine

waves) can be digitized with full accuracy.

3. Low Total Unadjusted Error

The zero, full-scale and linearity errors of the AD7575 are so

low that the total unadjusted error at any point on the trans-

fer function is less than 1 LSB, and offset and gain adjust-

ments are not required.

4. Single Supply Operation

Operation from a single +5 V supply with a low cost +1.23 V

bandgap reference allows the AD7575 to be used in 5 V

microprocessor systems without any additional power

supplies.

5. Fast Digital Interface

Fast interface timing allows the AD7575 to interface easily to

the fast versions of most popular microprocessors such as the

Z80H, 8085A-2, 6502B, 68B09 and the DSP processor, the

TMS32010.

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.

Tel: 781/329-4700 World Wide Web Site: http://www.analog.com

Fax: 781/326-8703 © Analog Devices, Inc., 1998

AD7575* PRODUCT PAGE QUICK LINKS

Last Content Update: 02/23/2017

COMPARABLE PARTS

View a parametric search of comparable parts.

DOCUMENTATION

Application Notes

• AN-223: AD7575 Operation with an Offset Signal Ground

for Disk Drive Applications

Data Sheet

• AD7575: CMOS, 5µs 8-Bit Sampling ADC Data Sheet

• AD7575: Military Data Sheet

REFERENCE MATERIALS

Technical Articles

• MS-2210: Designing Power Supplies for High Speed ADC

DESIGN RESOURCES

• AD7575 Material Declaration

• PCN-PDN Information

• Quality And Reliability

• Symbols and Footprints

DISCUSSIONS

View all AD7575 EngineerZone Discussions.

SAMPLE AND BUY

Visit the product page to see pricing options.

TECHNICAL SUPPORT

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number.

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REV. B

–2–

AD7575–SPECIFICATIONS

= +5 V, V

REF

= +1.23 V, AGND = DGND = 0 V; f

CLK

= 4 MHz external;

all specifications T

MIN

to T

MAX

unless otherwise noted)

Parameter J, A Versions

K, B Versions S Version T Version Units Conditions/Comments

ACCURACY

Resolution 8 8 8 8 Bits

Total Unadjusted Error ±2 ±1 ±2 ±1 LSB max

Relative Accuracy ±1 ±1/2 ±1 ±1/2 LSB max

Minimum Resolution for Which

No Missing Codes Is Guaranteed 8 8 8 8 Bits max

Full-Scale Error

+25°C ±1 ±1 ±1 ±1 LSB max Full-Scale TC Is Typically 5 ppm/°C

MIN

to T

MAX

±1 ±1 ±1 ±1 LSB max

Offset Error

+25°C ±1/2 ±1/2 ±1/2 ±1/2 LSB max Offset TC Is Typically 5 ppm/°C

MIN

to T

MAX

±1/2 ±1/2 ±1/2 ±1/2 LSB max

ANALOG INPUT

Voltage Range 0 to 2 V

REF

0 to 2 V

REF

0 to 2 V

REF

0 to 2 V

REF

Volts 1 LSB = 2 V

REF

/256; See Figure 16

DC Input Impedance 10 10 10 10 MΩ min

Slew Rate, Tracking 0.386 0.386 0.386 0.386 V/µs max

SNR

45 45 45 45 dB min V

= 2.46 V p-p @ 10 kHz; See Figure 11

REFERENCE INPUT

REF

(For Specified Performance) 1.23 1.23 1.23 1.23 Volts ±5%

REF

500 500 500 500 µA max

LOGIC INPUTS

CS, RD

INL

, Input Low Voltage 0.8 0.8 0.8 0.8 V max

INH

, Input High Voltage 2.4 2.4 2.4 2.4 V min

, Input Current

+25°C ±1 ±1 ±1 ±1 µA max V

= 0 or V

MIN

to T

MAX

±10 ±10 ±10 ±10 µA max V

= 0 or V

, Input Capacitance

10 10 10 10 pF max

CLK

lNL

, Input Low Voltage 0.8 0.8 0.8 0.8 V max

INH

, Input High Voltage 2.4 2.4 2.4 2.4 V min

INL

, Input Low Current 700 700 800 800 µA max V

INL

= 0 V

INH

, Input High Current 700 700 800 800 µA max V

INH

= V

LOGIC OUTPUTS

BUSY, DB0 to DB7

, Output Low Voltage 0.4 0.4 0.4 0.4 V max I

SINK

= 1.6 mA

, Output High Voltage 4.0 4.0 4.0 4.0 V min I

SOURCE

= 40 µA

DB0 to DB7

Floating State Leakage Current ±1 ±1 ±10 ±10 µA max V

OUT

= 0 to V

Floating State Output

Capacitance

10 10 10 10 pF max

CONVERSION TIME

With External Clock 5 5 5 5 µsf

CLK

= 4 MHz

With Internal Clock, T

= +25°C5 5 5 5 µs min Using Recommended Clock

15 15 15 15 µs max Components Shown in Figure 15

POWER REQUIREMENTS

+5 +5 +5 +5 Volts ±5% for Specified Performance

6 6 7 7 mA max Typically 3 mA with V

= +5 V

Power Dissipation 15 15 15 15 mW typ

Power Supply Rejection ±1/4 ±1/4 ±1/4 ±1/4 LSB max 4.75 V ≤ V

≤ 5.25 V

NOTES

Temperature ranges are as follows:

J, K Versions; 0°C to +70°C

A, B Versions; –25°C to +85°C

S, T Versions; –55°C to +125°C

Offset error is measured with respect to an ideal first code transition that occurs at 1/2 LSB.

Sample tested at +25°C to ensure compliance.

Accuracy may degrade at conversion times other than those specified.

Power supply current is measured when AD7575 is inactive i.e., when CS = RD = BUSY = logic HIGH.

Specifications subject to change without notice.

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AD7575JPZ

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