ADC08L060CIMT National Semiconductor, ADC08L060CIMT Datasheet - Page 17

ADC08L060CIMT

Manufacturer Part Number

ADC08L060CIMT

Description

8-Bit/ 10 MSPS to 60 MSPS/ 0.65 mW/MSPS A/D Converter with Internal Sample-and-Hold

Manufacturer

National Semiconductor

Datasheet

1.ADC08L060CIMT.pdf (19 pages)

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Applications Information

(rms) of jitter. For best ac performance, isolating the ADC

clock from any digital circuitry should be done with adequate

buffers, as with a clock tree. See Figure 6.

It is good practice to keep the ADC clock line as short as

possible and to keep it well away from any other signals.

Other signals can introduce jitter into the clock signal. The

clock signal can also introduce noise into the analog path.

7.0 COMMON APPLICATION PITFALLS

Driving the inputs (analog or digital) beyond the power

supply rails. For proper operation, all inputs should not go

more than 300 mV below the ground pins or 300 mV above

the supply pins. Exceeding these limits on even a transient

basis may cause faulty or erratic operation. It is not uncom-

mon for high speed digital circuits (e.g., 74F and 74AC

devices) to exhibit undershoot that goes more than a volt

below ground. A 51Ω resistor in series with the offending

digital input will usually eliminate the problem.

FIGURE 6. Isolating the ADC Clock from Digital

Circuitry

(Continued)

20041737

Care should be taken not to overdrive the inputs of the

ADC08L060. Such practice may lead to conversion inaccu-

racies and even to device damage.

Attempting to drive a high capacitance digital data bus.

The more capacitance the output drivers must charge for

each conversion, the more instantaneous digital current is

required from V

rent spikes can couple into the analog section, degrading

dynamic performance. Buffering the digital data outputs (with

a 74F541, for example) may be necessary if the data bus

capacitance exceeds 5 pF. Dynamic performance can also

be improved by adding 33Ω to 47Ω series resistors at each

digital output, reducing the energy coupled back into the

converter input pins.

Using an inadequate amplifier to drive the analog input.

As explained in Section 2.0, the capacitance seen at the

input alternates between 3 pF and 4 pF with the clock. This

dynamic capacitance is more difficult to drive than is a fixed

capacitance, and should be considered when choosing a

driving device.

Driving the V

not source or sink the current required by the ladder. As

mentioned in Section 1.0, care should be taken to see that

any driving devices can source sufficient current into the V

pin and sink sufficient current from the V

are not driven with devices than can handle the required

current, these reference pins will not be stable, resulting in a

reduction of dynamic performance.

Using a clock source with excessive jitter, using an

excessively long clock signal trace, or having other

signals coupled to the clock signal trace. This will cause

the sampling interval to vary, causing excessive output noise

and a reduction in SNR performance. The use of simple

gates with RC timing is generally inadequate as a clock

source.

pin or the V

and DR GND. These large charging cur-

pin with devices that can

pin. If these pins

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ADC08L060CIMT National Semiconductor, ADC08L060CIMT Datasheet - Page 17

ADC08L060CIMT

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