AD6640ST Analog Devices, AD6640ST Datasheet - Page 13

AD6640ST

Manufacturer Part Number

AD6640ST

Description

12-Bit/ 65 MSPS IF Sampling A/D Converter

Manufacturer

Analog Devices

Datasheet

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REV. 0

the sides should be implemented. The addition of small value

resistors between the AD9631 and the AD6640 will prevent

oscillation due to the capacitive input of the ADC.

Power Supplies

Care should be taken when selecting a power source. Linear

supplies are strongly recommended as switching supplies tend to

have radiated components that may be “received” by the

AD6640. Each of the power supply pins should be decoupled as

closely to the package as possible using 0.1 F chip capacitors.

The AD6640 has separate digital and analog +5 V pins. The

analog supplies are denoted AV

are denoted DV

tied together, best performance is achieved when the supplies

are separate. This is because the fast digital output swings can

couple switching noise back into the analog supplies. Note that

supply may be varied according to output digital logic family

(i.e., DV

tal circuitry). The AD6640 is specified for DV

is a common supply for digital ASICs.

Output Loading

Care must be taken when designing the data receivers for the

AD6640. It is recommended that the digital outputs drive a

series resistor (e.g. 348 ohms) followed by a gate like the

74LCX574. To minimize capacitive loading, there should only

be one gate on each output pin. An example of this is shown in

the evaluation board schematic shown in Figure 36. The digital

outputs of the AD6640 have a constant rise time output stage.

The output slew rate is about 1 V/ns when DV

typical CMOS gate combined with PCB trace and through hole

will have a load of approximately 10 pF. Therefore as each bit

switches, 10 mA

SOURCE

10 pF

SIGNAL

must be held within 5% of 5 volts; however the DV

Figure 35. DC-Coupled Analog Input Circuit

1ns of dynamic current per bit will flow in or out of

350

should be connected to the same supply as the digi-

0.1 F

. Although analog and digital supplies may be

OP279

(1/2)

1000

467

127

425

750

OP279

(1/2)

AD9631

350

AD9631

and the digital supply pins

350

0.1 F

0.01 F

= 3.3 V as this

= +5 V. A

AIN

AD6640

REF

–13–

the device. A full-scale transition can cause up to 120 mA

(12 bits

output stages. The series resistor will minimize the output

currents that can flow in the output stage. These switching

currents are confined between ground and the DV

dard TTL gates should be avoided since they can appreciably

add to the dynamic switching currents of the AD6640.

Layout Information

The schematic of the evaluation board (Figure 36) represents a

typical implementation of the AD6640. The pinout of the

AD6640 facilitates ease of use and the implementation of high

frequency/high resolution design practices. All of the digital

outputs are on one side while the other sides contain all of the

inputs. It is highly recommended that high quality ceramic chip

capacitors be used to decouple each supply pin to ground di-

rectly at the device. Depending on the configuration used for

the encode and analog inputs, one or more capacitors are required

on those input pins. The capacitors used on the ENCODE and

previously in the data sheet.

A multilayer board is recommended to achieve best results. Care

should be taken when placing the digital output runs. Because

the digital outputs have such a high slew rate, the capacitive

loading on the digital outputs should be minimized. Circuit

traces for the digital outputs should be kept short and connect

directly to the receiving gate (broken only by the insertion of the

series resistor). Digital data lines should be kept clear of analog

and encode traces.

Evaluation Boards

The evaluation board for the AD6640 is very straightforward,

consisting of power, signal inputs and digital outputs. The

evaluation board includes the option for an onboard clock oscil-

lator for the encode.

Power to the analog supply pins is connected via banana jacks.

The analog supply powers the crystal oscillator and the AV

pins of the AD6640.

The DV

digital supply connection also powers the digital gates on the

PCB. By maintaining separate analog and digital power supplies,

degradation in SNR and SFDR is kept to a minimum. Total

power requirement is approximately 200 mA. This configuration

allows for easy evaluation of different logic families (i.e., con-

nection to a 3.3 volt logic board).

The analog input is connected via J2 and is transformer-coupled

to the AD6640 (see Driving the Analog Input). The onboard

termination resistor is 270 . This resistor, in parallel with the

AD6640’s input resistance (900 ), provides a 50

analog source driving the 1:4 transformer. If a different input

impedance is required, replace R16 by using the following

equation

where Z is desired input impedance (200

former with 50

REF

pins must be a low inductance chip capacitor as referenced

10 mA/bit) of current to flow through the digital

power is supplied via J3, the digital interface. This

source).

R16

900

for a 4:1 trans-

AD6640

load to the

pin. Stan-

AD6640ST Analog Devices, AD6640ST Datasheet - Page 13

AD6640ST

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