ad7868bq Analog Devices, Inc., ad7868bq Datasheet - Page 12

ad7868bq

Manufacturer Part Number

ad7868bq

Description

Lc2mos Complete, 12-bit Analog I/o System

Manufacturer

Analog Devices, Inc.

Datasheet

1.AD7868BQ.pdf (16 pages)

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AD7868

AD7868—TMS32020/TMS320C25 Interface

Figure 18 shows an interface which is suitable for the

TMS32020/TMS320C25 processors. This interface is config-

ured for synchronous, continuous clock operation. Note, the

AD7868 will not interface correctly to these processors if the

AD7868 is configured for a noncontinuous clock. Conversion

starts and DAC updating are controlled by an external timer.

APPLICATION HINTS

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

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

The AD7868’s comparator is required to make bit decisions on

an LSB size of 1.465 mV. To achieve this, the designer has to

be conscious of noise both in the ADC itself and in the preced-

ing analog circuitry. Switching mode power supplies are not rec-

ommended as the switching spikes will feed through to the

comparator causing noisy code transitions. Other causes of con-

cern are ground loops and digital feedthrough from micropro-

cessors. 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 any digital track alongside an analog signal track.

Guard (screen) the analog input with AGND.

Establish a single point analog ground (star ground) separate

from the logic system ground as close as possible to the AD7868

AGND pins. Connect all other grounds and the AD7868

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

Figure 18. AD7868—TMS32020/TMS320C25 Interface

*ADDITIONAL PINS OMITTED FOR CLARITY

TMS320C25

TMS32020

CLKR

CLKX

FSR

FSX

4.7k

TIMER

–

4.7k

CONVST

LDAC

CONTROL

RFS

RCLK

TFS

TCLK

AD7868*

–12–

analog circuitry from digital noise. The circuit layout of Figures

22 and 23 have both analog and digital ground planes which are

kept separated and only joined together at the AD7868 AGND

pins.

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.

INPUT/OUTPUT BOARD

Figure 19 shows an analog I/O board based on the AD7868.

The corresponding printed circuit board (PCB) layout and

silkscreen are shown in Figures 21 to 23.

The analog input to the AD7868 is buffered with an AD711 op

amp. There is a component grid provided near the analog input

on the PCB which may be used for an antialiasing filter for the

ADC or a reconstruction filter for the DAC or any other condi-

tioning circuitry. To facilitate this option, there are two wire

links (labeled LK1 and LK2) required on the analog input and

output tracks.

The board contains a SHA circuit which can be used on the

output of the AD7868 DAC to extend the very good perfor-

mance of the part over a wider frequency range. The increased

performance from the SHA can be seen in Figures 14 and 15 of

this data sheet. A wire link (labeled LK3) connects the board

output to either the SHA output or directly to the AD7868

DAC output.

There are three LDAC link options on the board; LDAC can be

driven from an external source independent of CONVST,

LDAC can be tied to CONVST or LDAC can be tied to GND.

Choosing the latter option of tying LDAC to GND disables the

SHA operation, and places the SHA permanently in the track

mode.

Microprocessor connections to the board are made by a 9-way

D-type connector. The pinout is shown in Figure 20. The

ADC’s digital outputs are buffered with 74HC4050s. These

buffers provide a higher current output capability for high

capacitance loads or cables. Normally, these buffers are not

required as the AD7868 will be sitting on the same board as the

processor.

POWER SUPPLY CONNECTIONS

The PCB requires two analog power supplies and one 5 V digi-

tal supply. Connections to the analog supply are made directly

to the PCB as shown on the silkscreen in Figure 21. The con-

nections are labeled V+ and V– and the range for both of these

supplies is 12 V to 15 V. Connections to the 5 V digital supply

are made through the D-type connector SKT6. The 5 V ana-

log supply required by the AD7868 are generated from two volt-

age regulators on the V+ and V– supplies.

and signal return leads from

REV. B

ad7868bq Analog Devices, Inc., ad7868bq Datasheet - Page 12

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