AD7880CRZ Analog Devices Inc, AD7880CRZ Datasheet - Page 11

AD7880CRZ

Manufacturer Part Number

AD7880CRZ

Description

IC,A/D CONVERTER,SINGLE,12-BIT,BICMOS,SOP,24PIN

Manufacturer

Analog Devices Inc

Datasheet

1.AD7880BRZ-REEL.pdf (16 pages)

Specifications of AD7880CRZ

Number Of Bits

Sampling Rate (per Second)

66k

Data Interface

Parallel

Number Of Converters

Power Dissipation (max)

50mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-SOIC (0.300", 7.50mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATION HINTS

Good printed circuit board (PCB) layout is as important as the

circuit design itself in achieving high speed A/D performance.

The AD7880’s comparator is required to make bit decisions on

an LSB size of 1.22 mV. To achieve this, the designer must be

conscious of noise both in the ADC itself and in the preceding

analog circuitry. Switching mode power supplies are not recom-

mended, as the switching spikes will feed through to the com-

parator causing noisy code transitions. Other causes of concern

are ground loops and digital feedthrough from microprocessors.

These are factors which influence any ADC, and a proper PCB

layout which minimizes these effects is essential for best

performance.

LAYOUT HINTS

Ensure that the layout for the printed circuit board has the digi-

tal and analog signal lines separated as much as possible. Take

care not to run digital tracks alongside analog signal tracks.

Guard (screen) the analog input with AGND.

Establish a single point analog ground (star ground) separate

from the logic system ground at the AD7880 AGND pin or as

close as possible to the AD7880. Connect all other grounds and

the AD7880 DGND to this single analog ground point. Do not

connect any other digital grounds to this analog ground point.

Low impedance analog and digital power supply common re-

turns are essential to low noise operation of the ADC, so make

the foil width for these tracks as wide as possible. The use of

ground planes minimizes impedance paths and also guards the

analog circuitry from digital noise. The circuit layout of Fig-

ures 26 and 27 have both analog and digital ground planes

which are kept separated and only joined together at the

AD7880 AGND pin.

NOISE

Keep the input signal leads to V

AGND as short as possible to minimize input noise coupling. In

applications where this is not possible, use a shielded cable be-

tween the source and the ADC. Reduce the ground circuit im-

pedance as much as possible since any potential difference in

grounds between the signal source and the ADC appears as an

error voltage in series with the input signal.

ANALOG INPUT BUFFERING

To achieve specified performance, it is recommended that the

analog input (V

source. This necessitates the use of an input buffer amplifier.

The choice of op amp will be a function of the particular appli-

cation and the desired analog input range. The data acquisition

circuit, described in this data sheet allows for various op amp

configurations. Figure 21 shows the analog input buffer circuit.

The options available to drive the supply of the op amp are:

The simplest configuration is the 0 V to 5 V range of Figure 5.

A single supply 5 V op amp is recommended for such an imple-

mentation. This will allow for operation of the AD7880 in the 0

V to 5 V unipolar range without supplying an external supply to

V+ and V–. The 5 V supply is derived from the systems

+5 V V

Single +5 V (derived from PCB 5 V supply)

Dual Supply (externally supplied to V+ and V–)

5 V, 12 V or 15 V

supply.

INA

, V

INB

) be driven from a low impedance

and signal return leads from

–11–

When it is required to drive the AD7880 with the 0 V to 10 V

input range, an external supply must be connected to V+ (see

Figure 21).

In bipolar operation, positive and negative supplies must be

connected to V+ and V–.

The AD711 is a general purpose op amp which could be used

to drive the analog input of the AD7880.

POWER-DOWN CONTROL (MODE INPUT)

The AD7880 is designed for systems which need to have mini-

mum power consumption. This includes such applications as

hand held, portable battery powered systems and remote moni-

toring systems. As well as consuming minimum power under

normal operating conditions, typically 20 mW, the AD7880

can be put into a power-down or sleep mode when not required

to convert signals. When in this power-down mode, the

AD7880 consumes approximately 2 mW of power.

The AD7880 is powered down by bringing the MODE input

pin to a Logic Low in conjunction with keeping the RD input

control High. The AD7880 will remain in the power-down

mode until MODE is brought to a Logic High again. The

MODE input should be driven with CD4000 or HCMOS logic

levels.

It is recommended that one “dummy” conversion be imple-

mented before reading conversion data from the AD7880 after

it has been in the power-down mode. This is required to reset

all internal logic and control circuitry. In a remote monitoring

system where, say, 10 conversions are required to be taken with

a sampling interval of 1 second, an additional 11th conversion

must be carried out. Figure 22 gives a plot of power consumption

CONSUMPTION – mW

Figure 22. Power Consumption for Normal Operation

and Power-Down Operation vs. Time

POWER

SKT1

ANALOG

Figure 21. Analog Input Buffering

INPUT

CONVERTING

1.65 x 10

LK1

V+

V–

–

POWER-DOWN

–

IC1

A B

LK2

LK3

10µF

V–

V+

TIME – secs

CONVERTING

TO ADC

0.1µF

POWER-DOWN

AD7880

AD7880CRZ Analog Devices Inc, AD7880CRZ Datasheet - Page 11

AD7880CRZ

Specifications of AD7880CRZ

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