ADC08D1000DEV NSC [National Semiconductor], ADC08D1000DEV Datasheet - Page 35

ADC08D1000DEV

Manufacturer Part Number

ADC08D1000DEV

Description

High Performance, Low Power, Dual 8-Bit, 1 GSPS A/D Converter

Manufacturer

NSC [National Semiconductor]

Datasheet

1.ADC08D1000DEV.pdf (40 pages)

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other LVDS bus. This means that, the word rate at each LVDS

bus is 1/2 the ADC08D1000 input clock rate and the two bus-

es must be multiplexed to obtain the entire 1 GSPS conver-

sion result.

Since the minimum recommended input clock rate for this

device is 200 MSPS (normal non DES mode), the effective

rate can be reduced to as low as 100 MSPS by using the

results available on just one of the two LVDS buses and a 200

MHz input clock, decimating the 200 MSPS data by two.

There is one LVDS output clock pair (DCLK+/-) available for

use to latch the LVDS outputs on all buses. Whether the data

is sent at the rising or falling edge of DCLK is determined by

the sense of the OutEdge pin, as described in Section 2.4.3.

DDR (Double Data Rate) clocking can also be used. In this

mode a word of data is presented with each edge of DCLK,

reducing the DCLK frequency to 1/4 the input clock frequency.

See the Timing Diagram section for details.

The OutV pin is used to set the LVDS differential output levels.

See 2.4.4 LVDS Output Level Control.

The output format is Offset Binary. Accordingly, a full-scale

input level with V

an output code of all ones, a full-scale input level with V

positive with respect to V

zeros and when V

vary between codes 127 and 128.

2.6 POWER CONSIDERATIONS

A/D converters draw sufficient transient current to corrupt

their own power supplies if not adequately bypassed. A 33 µF

capacitor should be placed within an inch (2.5 cm) of the A/D

converter power pins. A 0.1 µF capacitor should be placed as

close as possible to each V

centimeter. Leadless chip capacitors are preferred because

they have low lead inductance.

The V

other to prevent any digital noise from being coupled into the

analog portions of the ADC. A ferrite choke, such as the JW

Miller FB20009-3B, is recommended between these supply

lines when a common source is used for them.

As is the case with all high speed converters, the AD-

C08D1000 should be assumed to have little power supply

noise rejection. Any power supply used for digital circuitry in

a system where a lot of digital power is being consumed

should not be used to supply power to the ADC08D1000. The

ADC supplies should be the same supply used for other ana-

log circuitry, if not a dedicated supply.

2.6.1 Supply Voltage

The ADC08D1000 is specified to operate with a supply volt-

age of 1.9V ±0.1V. It is very important to note that, while this

device will function with slightly higher supply voltages, these

higher supply voltages may reduce product lifetime.

No pin should ever have a voltage on it that is in excess of the

supply voltage or below ground by more than 150 mV, not

even on a transient basis. This can be a problem upon appli-

cation of power and power shut-down. Be sure that the sup-

plies to circuits driving any of the input pins, analog or digital,

do not come up any faster than does the voltage at the AD-

C08D1000 power pins.

The Absolute Maximum Ratings should be strictly observed,

even during power up and power down. A power supply that

produces a voltage spike at turn-on and/or turn-off of power

can destroy the ADC08D1000. The circuit of Figure 17 will

provide supply overshoot protection.

and V

supply pins should be isolated from each

+ positive with respect to V

+ and V

+ will produce an output code of all

− are equal, the output code will

pin, preferably within one-half

− will produce

−

Many linear regulators will produce output spiking at power-

on unless there is a minimum load provided. Active devices

draw very little current until their supply voltages reach a few

hundred millivolts. The result can be a turn-on spike that can

destroy the ADC08D1000, unless a minimum load is provided

for the supply. The 100Ω resistor at the regulator output pro-

vides a minimum output current during power-up to ensure

there is no turn-on spiking.

In the circuit of Figure 17, an LM317 linear regulator is satis-

factory if its input supply voltage is 4V to 5V. If a 3.3V supply

is used, an LM1086 linear regulator is recommended.

The output drivers should have a supply voltage, V

within the range specified in the Operating Ratings table. This

voltage should not exceed the V

If the power is applied to the device without an input clock

signal present, the current drawn by the device might be be-

low 200 mA. This is because the ADC08D1000 gets reset

through clocked logic and its initial state is unknown. If the

reset logic comes up in the "on" state, it will cause most of the

analog circuitry to be powered down, resulting in less than

100 mA of current draw. This current is greater than the power

down current because not all of the ADC is powered down.

The device current will be normal after the input clock is es-

tablished.

2.6.2 Thermal Management

The ADC08D1000 is capable of impressive speeds and per-

formance at very low power levels for its speed. However, the

power consumption is still high enough to require attention to

thermal management. For reliability reasons, the die temper-

ature should be kept to a maximum of 130°C. That is, T

(ambient temperature) plus ADC power consumption times

ceed 130°C. This is not a problem if the ambient temperature

is kept to a maximum of +85°C as specified in the Operating

Ratings section.

As a convenience to the user, the ADC08D100 incorporates

a thermal diode to aid in temperature measurement. Howev-

er, this diode has not been characterized and National Semi-

conductor has no information to provide regarding its

characteristics. Hence, no information is available as to the

temperature accuracy attainable when using this diode.

Please note that the following are general recommendations

for mounting exposed pad devices onto a PCB. This should

be considered the starting point in PCB and assembly pro-

cess development. It is recommended that the process be

developed based upon past experience in package mounting.

The package of the ADC08D1000 has an exposed pad on its

back that provides the primary heat removal path as well as

excellent electrical grounding to the printed circuit board. The

land pattern design for lead attachment to the PCB should be

the same as for a conventional LQFP, but the exposed pad

must be attached to the board to remove the maximum

(junction to ambient thermal resistance) should not ex-

FIGURE 17. Non-Spiking Power Supply

supply voltage.

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ADC08D1000DEV NSC [National Semiconductor], ADC08D1000DEV Datasheet - Page 35

ADC08D1000DEV

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