ADC14V155HFEB/NOPB National Semiconductor, ADC14V155HFEB/NOPB Datasheet - Page 3

ADC14V155HFEB/NOPB

Manufacturer Part Number

ADC14V155HFEB/NOPB

Description

BOARD EVAL ADC12V155HF >150MHZ

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheets

1.ADC14V155CISQNOPB.pdf (24 pages)

2.ADC14V155HFEBNOPB.pdf (15 pages)

Specifications of ADC14V155HFEB/NOPB

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

155M

Data Interface

Parallel

Inputs Per Adc

1 Differential

Power (typ) @ Conditions

951mW @ 155MSPS

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

ADC14V155

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

ADC14V155HFEB

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1.0 Introduction

The ADC14V155 Evaluation Board is designed to

support the ADC14V155 14-bit 155 Mega Sample Per

Second (MSPS) Analog to Digital Converter with LVDS

Outputs.

The ADC14V155 Evaluation Board comes in two

versions:

The digital data from the ADC14V155 evaluation board

can be captured with a suitable instrument, such as a

logic analyzer, or with National Semiconductor’s

WaveVision signal path data acquisition hardware and

software platform. The ADC14V155 evaluation board

can be connected to the data acquisition hardware

through the FutureBus connector (schematic reference

designator FB).

The

Semiconductor’s WaveVision 5.1 and higher Signal

Path

WaveVision

ADC14V155 board is not compatible with previous

versions of the WaveVision hardware (WaveVision 4.x

Digital Interface Boards).

The WaveVision hardware and software package

allows fast and easy data acquisition and analysis. The

WaveVision hardware connects to a host PC via a USB

cable and is fully configured and controlled by the latest

WaveVision software.

WaveVision software is included in this evaluation kit

on a CD-ROM. The WaveVision 5.1 Signal Path Digital

Interface hardware is available through the National

Semiconductor website (part number: WAVEVSN 5.1).

2.0 Board Assembly

Each evaluation board from the factory is configured for

single-ended clock operation and is populated with an

analog input network which has been optimized for one

of two analog input frequencies ranges:

Please refer

described in the Analog Input Section (4.2) of

guide.

ADC14V155

1. ADC14V155HFEB (high frequency version)

2. ADC14V155LFEB (low frequency version) for

1. ADC14V155HFEB (high frequency version)

2. ADC14V155LFEB (low frequency version) for

Digital

for input frequencies greater than 150 MHz.

input frequencies less than 150 MHz.

for input frequencies greater than 150 MHz.

input frequencies less than 150 MHz.

software.

to the input circuit configurations

Interface

compatible

The latest version of the

Board

Please

and

note

with

associated

that

National

this

the

ADC14V155 Evaluation Board User’s Guide

- 3 -

The location and description of the components on the

ADC14V155 evaluation board can be found in Figure 1

as well as Section 5.0 (Schematic) and Section 7.0 (Bill

of Materials) of this user’s guide.

3.0 Quick Start

The ADC14V155 evaluation board enables easy set up

for evaluating the performance of the ADC14V155.

If the WaveVision data acquisition and data analysis

system is to be used for capturing data, please follow

the Quick Start Guide in the WaveVision User’s Guide

to install the required software and to connect the

WaveVision Digital Interface Board to the PC and to

the ADC14V155 evaluation board. Please note that the

ADC14V155 evaluation board is only compatible with

National Semiconductor’s WaveVision 5.1 and higher

Signal Path Digital Interface boards.

3.1 Evaluation Board Jumper Positions

The ADC14V155 evaluation board jumpers should be

configured as follows. Please refer to Figure 1 for the

exact jumper locations.

1. J1 on the reverse of the board should be shorted.

2. The PD jumper places the ADC14V155 into either

3. CLK_SEL/DF pin jumpers select the output data

* As assembled from factory.

powerdown or sleep mode. Table 1 below shows

how to select between the power modes.

format (2’s complement or offset binary) and clock

mode (single-ended or differential). Table 2 below

shows how to select between the clock modes and

output data formats.

ADC14V155 evaluation board is delivered with the

ADC14V155 clock input configured for single-

ended operation and Offset Binary output data

format (Jumper 7-8).

CLK_SEL/DF

Jumper

Setting

1-2

3-4

5-6

7-8*

Table 1. CLK_SEL/DF Selection Table

Table 2. CLK_SEL/DF Selection Table

Setting

Open

1-2

3-4

Jumper

Clock Mode

Differential

Single-Ended

Mode

Normal Operation

Power-down

Sleep

Please note that the

www.national.com

Output Data

Format

2’s Complement

Offset Binary

2’s Complement

Offset Binary

Rev 0.3

ADC14V155HFEB/NOPB National Semiconductor, ADC14V155HFEB/NOPB Datasheet - Page 3

ADC14V155HFEB/NOPB

Specifications of ADC14V155HFEB/NOPB

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