ADC08D1000EVAL National Semiconductor, ADC08D1000EVAL Datasheet - Page 19

ADC08D1000EVAL

Manufacturer Part Number

ADC08D1000EVAL

Description

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

Manufacturer

National Semiconductor

Datasheet

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1.0 Functional Description

controls are disabled. These pins are OutV (pin 3), OutEdge/

DDR (pin 4), FSR (pin 14) and CalDly/DES (pin 127). See

Section 1.2 for details on the Extended Control mode.

1.1.4 The Analog Inputs

The ADC08D1000 must be driven with a differential input

signal. Operation with a single-ended signal is not recom-

mended. It is important that the inputs either be a.c. coupled

to the inputs with the V

the V

voltage equal to the V

Two full-scale range settings are provided with pin 14 (FSR).

A high on pin 14 causes an input full-scale range setting of

800 mV

range setting of 600 mV

operates equally on both ADCs.

In the Extended Control mode, the full-scale input range can

be set to values between 560 mV

a serial interface. See Section 2.2

1.1.5 Clocking

The ADC08D1000 must be driven with an a.c. coupled,

differential clock signal. Section 2.3 describes the use of the

clock input pins. A differential LVDS output clock is available

for use in latching the ADC output data into whatever device

is used to receive the data.

1.1.5.2 OutEdge Setting

To help ease data capture in the SDR mode, the output data

may be caused to transition on either the positive or the

negative edge of the output data clock (DCLK). This is

chosen with the OutEdge input (pin 4). A high on the Out-

Edge input causes the output data to transition on the rising

edge of DCLK, while grounding this input causes the output

to transition on the falling edge of DCLK. See Section 2.4.3.

* Note that, in the Dual-Edge Sampling (DES) mode, the "Q" channel input can only be selected for sampling in the

Extended Control Mode.

sourced with respect to

CMO

Data Outputs (Always

P-P

, while grounding pin 14 causes an input full-scale

pin not grounded and an input common mode

fall of DCLK)

DQd

DId

CMO

P-P

pin grounded or d.c. coupled with

output.

. The full-scale range setting

TABLE 1. Input Channel Samples Produced at Data Outputs

P-P

"I" Input Sampled with Fall

of CLK 13 cycles earlier.

"I" Input Sampled with Fall

of CLK 14 cycles earlier.

"Q" Input Sampled with Fall

of CLK 13 cycles earlier.

"Q" Input Sampled with Fall

of CLK 14 14 CLK cycles

after being sampled.

Normal Sampling Mode

and 840 mV

(Continued)

P-P

through

"I" Input Sampled with Fall

of CLK 13 cycles earlier.

"I" Input Sampled with Fall

of CLK 14 cycles earlier.

"I" Input Sampled with Rise

of CLK 13.5 cycles earlier.

"I" Input Sampled with Rise

of CLK 14.5 cycles earlier.

The ADC08D1000 offers options for input and output clock-

ing. These options include a choice of Dual Edge Sampling

(DES) or interleaved mode where the ADC08D1000 per-

forms as a single device converting at twice the input clock

rate and a choice of which DCLK (DCLK) edge the output

data transitions on and choice of Single Data Rate (SDR) or

Double Data Rate (DDR) outputs.

The ADC08D1000 also has the option to use a duty cycle

corrected clock receiver as part of the input clock circuit. This

feature is enabled by default and provides improved ADC

clocking especially in the Dual-Edge Sampling mode (DES).

1.1.5.1 Dual-Edge Sampling

The DES mode allows one of the ADC08D1000’s inputs (I or

Q Channel) to be sampled by both ADCs. One ADC samples

the input on the positive edge of the input clock and the other

ADC samples the same input on the other edge of the input

clock. A single input is thus sampled twice per input clock

cycle, resulting in an overall sample rate of twice the input

clock frequency, or 2 GSPS with a 1 GHz input clock.

In this mode the outputs are interleaved such that the data is

effectively demultiplexed 4:1. Since the sample rate is

doubled, each of the 4 output buses have a 500 MSPS

output rate with a 1 GHz input clock. All data is available in

parallel. The four bytes of parallel data that is output with

each clock is in the following sampling order, from the earli-

est to the latest: DQd, DId, DQ, DI. Table 1 indicates what

the outputs represent for the various sampling possibilities.

In the non-extended mode of operation only the "I" input can

be sampled in the DES mode. In the extended mode of

operation the user can select which input is sampled.

The ADC08D1000 also includes an automatic clock phase

background calibration feature which can be used in DES

mode to automatically and continuously adjust the clock

phase of the I and Q channel. This feature removes the need

to adjust the clock phase setting manually and provides

optimal Dual-Edge Sampling ENOB performance.

1.1.5.3 Double Data Rate

A choice of single data rate (SDR) or double data rate (DDR)

output is offered. With single data rate the output clock

(DCLK) frequency is the same as the data rate of the two

output buses. With double data rate the DCLK frequency is

half the data rate and data is sent to the outputs on both

input clock edges. DDR clocking is enabled by allowing pin 4

to float.

I-Channel Selected

Dual-Edge Sampling Mode

"Q" Input Sampled with Fall

of CLK 13 cycles earlier.

"Q" Input Sampled with Fall

of CLK 14 cycles earlier.

"Q" Input Sampled with Rise

of CLK 13.5 cycles earlier.

"Q" Input Sampled with Rise

of CLK 14.5 cycles earlier.

Q-Channel Selected *

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ADC08D1000EVAL National Semiconductor, ADC08D1000EVAL Datasheet - Page 19

ADC08D1000EVAL

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