National ADC12040 User Manual

4.1.2 Dual Input

must

be the same as that provided from the Digital

Interface Board.

To look at intermodulation performance, moving shorting

jumpers of JP3 and JP4 to pins 2 and 3 of JP3. Connect

different signals to J1 and J3 from 50-Ohm sources.

When looking at the ADC output with two different signals

at the input, the dynamic performance parameters (SNR,

SINAD, THD and SFDR) are meaningless. With two input

signals we are looking for any spurs in the frequency

domain plot (FFT). The simple method used here to mix

two signals is not adequate to completely evaluate IMD of

these converters. Consequently, the actual IMD

performance of the A/D converter is better than would be

indicated by using this method. Most high speed ADCs

exhibit high spurious content under these conditions

unless the total input swing is very low compared with full

scale.

See

Section 6.1

for information on capturing data with a

clock that is not synchronized to the clock of the Digital

Interface Board.

4.5 Digital Data Output

The digital output data from the ADC12040 is available at

the 96-pin Euro connector J2. Series resistors RP1 and

RP2 isolate the ADC from the load circuit to reduce noise

coupling into the ADC.

4.5 Power Supply Connections

Power to this board is supplied through power connector

P1. The only supply needed is +5V at pin 1 for the

ADC12040, ADC12010 or the ADC12020, or +3.3V at pin

1 for the ADC12L063, plus ground at pin 2 for either. Any

circuitry you breadboard may need a negative voltage at

the -V supply pin 4.

As mentioned in

Section 5.0

, it is important to use a

bandpass filter at BNC J1 (and BNC J3, if this input is

used) to ensure the quality of the signal presented to the

ADC and to get meaningful test results.

4.2 ADC reference circuitry

When using the ADC12040 Evaluation Board with the

Digital Interface Board, a 5V logic power supply for the

interface board is needed at pin 3 of P1. This supply

voltage is passed through J2 to the Digital Interface

Board.

An adjustable reference circuit is provided on the board.

The simple circuit here is not temperature stable and is

not recommended for your final design solution. When

using the resistor values shown in

Figure 1

, the reference

circuit will generate a nominal reference voltage in the

range of 0 to 2.4 Volts for the ADC12040, ADC12010 and

ADC12020 or 0 to 1.2 Volts for the ADC12L063. The

ADC12040, ADC12010 and ADC12020 are specified to

operate with VREF in the range of 1.0 to 2.4 V, with a

nominal value of 2.0V while the ADC12L063 is specified

to operate with VREF in the range of 0.8 to 1.2 V, with a

nominal value of 1.0V. The reference voltage can be

monitored at test point TP1 and is set with VR1.

The supply voltages are protected by shunt diodes and

can be measured at TP8, TP9 and TP10. If a

breadboarded circuit requires voltages greater than 5V,

they will have to be separately provided by the user.

4.6 Power Requirements

Voltage and current requirements for the ADC12040

Evaluation Board mode are:

For the ADC12040, ADC12010 and the ADC12020:

4.3 ADC clock circuit

•

+5.0V at 100 mA [+V]

•

+5.0V at 30 mA (1A when connected to the Digital

Interface Board) [+5V].

The clock signal applied to the ADC is selected with

jumper JP2. A standard crystal oscillator can be installed

at Y1 and selected with jumper JP2 pins 2 and 3 shorted

together. To use a different clock source, connect the

signal to pin B23 of J2 and select pins 1 and 2 of jumper

JP2. The ADC clock frequency can be monitored at test

point TP7. R13 and C13 are used for high frequency

termination of the clock line. In the Computer mode of

operation using the Digital Interface Board, JP2 can have

pins 1 and 2 shorted together to use the clock from the

Digital Interface Board, but this is not recommended, as

discussed in

Section 6.1

.

For the ADC12L063:

•

+3.3V at 120 mA [+V]

•

+5.0V at 30 mA (1A when connected to the Digital

Interface Board) [+5V].

There is no need for a negative supply for either ADC,

unless it may be needed for the breadboard area.

5.0 Installing the ADC12040 Evaluation Board

The evaluation board requires power supplies as

described in

Section 4.6

. An appropriate signal source

should be connected to the Analog Input BNC J1. When

evaluating dynamic performance, an appropriate signal

generator (such as the HP8644B, HP8662A or the R&S

SME-03) with 50 Ohm source impedance should be

connected to the Analog Input BNC J1 and/or J3 through

Note that any external clock source must have

TTL/CMOS levels. Also, if using the Digital Interface

Board from National Semiconductor to capture data, the

oscillator at Y1 should be removed, the external clock

signal supplied at pin 3 of that socket and pins 2 and 3 of

JP2 should be selected. Additionally, the clock frequency

5

http://www.national.com