Wiki

This version (10 Apr 2018 05:01) was approved by trishacabildo.

CN0263 Evaluation Board Guide

Overview

CN0263 is a circuit that provides a very robust solution, with integrated overvoltage (short-to-battery [STB]) protection, for receiving CBVS video signals in harsh environments. It follows the traditional, proven architecture of isolating/separating a low voltage integrated circuit from the outside world and using an amplifier circuit for signal conditioning and protection.

ADA4830-1 is a single monolithic, high speed difference amplifier that integrates input overvoltage (short-to-battery) protection of up to 18 V with a wide input common-mode voltage range and excellent ESD robustness. It is intended for use as a receiver for differential or pseudo differential CVBS and other high speed video signals in harsh, noisy environments, such as automotive infotainment and vision systems. The ADA4830-1 combines high speed and precision, which allows for accurate reproduction of CVBS video signals, yet rejects unwanted common-mode error voltages.

ADV7180 automatically detects and converts standard analog baseband television signals compatible with worldwide NTSC, PAL, and SECAM standards into 4:2:2 component video data compatible with the 8-bit ITU-R BT.656 interface standard. The simple digital output interface connects gluelessly to a wide range of MPEG encoders, codecs, mobile video processors, and Analog Devices, Inc., digital video encoders, such as the ADV7391.

The ADV7180 and ADA4830-1 are fully automotive qualified, which makes both products ideal for infotainment and visionbased safety systems for automotive applications.

The EVAL-CN0263-EB1Z Board connects to mini-USB connector and is powered by a +7.5 V supply or +7.5 V “wall wart”.


Required Equipment

  • Power Supply (Maximum)
    • 7.5 V or 7.5 V “Wall wart”
  • Triple Power Supply
    • Agilent E3631A Power supply
  • Video Signal Generator
    • Astrodesign VG-828 Programmable Video Signal Generator
  • Function generator
    • Hewlett-Packard 3314A Function Generator
  • A video source for signal and common-mode error voltage
  • PC with the following Minimum Requirements
    • Windows 7 (32-bit), Windows Vista (32-bit) or Windows XP
    • USB interface
  • A video display for observing the analog video output of the EVAL-CN0263-EB1Z board.

General Setup

Block assignments


  • The EVAL-CN0263-EB1Z Board (CN-0263 Board) connects to the PC via USB connection
  • Terminal block J1 is RCA jack for the video output
  • Terminal block J2 is the +7.5 V barrel connector for wall wart supply input
  • Terminal block J3 is mini DIN connector for S-video input
  • Terminal block J4 RCA jack for the video input
  • Terminal block J5 is the jumper for power-down mode of ADV7180
  • Terminal block J6 is mini AB USB port connecting the board to PC
  • Terminal block J7 is the jumper for FIELD pin of ADV7180
  • Terminal block J8 is the Video Pixel Output Port of ADV7180. Has output configurations for 8-bit or 16-bit mode
  • Terminal block J9 is the RCA jack for CVBS input for ADA4830-2
  • Terminal block J10 is the jumper for logic high or low in the chip data address pin of serial EEPROM 24LC64
  • Terminal block J11 is the jumper for power-down/disable mode of ADA4417-3
  • Terminal block J12 is the jumper for output DC offset enable pin of ADA4417-3
  • Terminal block J13 is the RCA jack for CVBS input to ADA4433-1, a differential video filter
  • Terminal block J14 is the RCA jack for processed output CVBS signal in ADA4432-1
  • Terminal block J15 is the RCA jack for positive differential output of ADA4433-1, a differential video filter
  • Terminal block J16 is the RCA jack for negative differential output of ADA4433-1, a differential video filter
  • Terminal block J17 is mini DIN connector for S-video output of DAC1 from ADA4433-1
  • Terminal block J18 is the jumper for grounding second positive differential input of ADA4830-2
  • Terminal block J19 is the jumper for grounding second negative differential input of ADA4830-2


Jumper settings

See the table in the image below for the jumper settings. Values in red are the default settings for the EVAL-CN0263-SDPZ.


Jumper 8 is for the P7 to P0 Output/Input Pin Mapping of ADV7180. Table below summarizes the output/input mapping depending on chosen format and mode of operation.



Test setup


  1. Connect the output of the power supply or wall wart to the +7.5V DC connector jumper on the EVAL-CN0263-SDPZ Evaluation Board
  2. Flick the switch next to the “+7.5V DC” connector so that the nearby LED turns on. The EVAL-CN0263-SDPZ Evaluation Board board is now powered up.
  3. Connect the Universal Serial Bus (USB) cable from your computer (the computer where ADV Register Control software is installed) to the mini USB connector on the EVAL-CN0263-SDPZ Evaluation Board. An LED near the USB connector on the board should turn on.
  4. Connect video input and output cables
  5. Launch the evaluation software

Installing the Evaluation Software

  1. Extract the file CN0263_Evaluation_Software.zip and open the file setup.bat.

    NOTE: It is recommended that you install the software to the default directory path C:\Program Files (x86)\Analog Devices\ADV Register Control 7.0\ and all National Instruments products to C:\Program Files\National Instruments\


  2. Click Next to view the installation review page



  3. Click Next to start the installation




Using the Evaluation Software

Main Tab






Running the System

  1. Open the ADV Register Control Software
  2. When the ADV Register Control opens a window called ADV Register Program Configuration opens, make sure that the “USB Connected” indicator is green
  3. If indicator doesn't light up, redo the power-up and connect to your computer sequence
  4. Select the proper script according to the model type of your ADV7180. In the case of CN0263 board, ADV7180_ADV7180@_ADV7393-VER.1.0LQFP64.txt shall be selected.
  5. To program the CN0263 evaluation board press Setting → Scripts
  6. Select which script you want to run on the drop down menu. The desired script depends on the analog video inputted to the ADV7180, and the desired analog video output from the video encoder on the evaluation board

Schematic, PCB Layout, Bill of Materials

EVAL-CN0263-SDPZ Design & Integration Files

  • Schematics
  • PCB Layout
  • Bill of Materials
  • PADS project

End of Document

resources/eval/user-guides/circuits-from-the-lab/cn0263.txt · Last modified: 28 Dec 2017 00:29 by trishacabildo