Device Interface Board for Wireless LAN Testing Team May Client ECpE Department Faculty Advisor Dr. Weber Team Members Matthew Dahms – EE Justine Skibbe – EE Joseph Chongo – EE Srisarath Patneedi – CprE December 06, 2005
Presentation Outline Project Overview Introduction Problem Statement Assumptions and Limitations System Considerations User Considerations End-Product Description Overview of Existing Work May Team’s Accomplishments Parallel-Serial Conversion Transmitters and Receivers FPGA Project Activities Technology Considerations Present Accomplishments Hardware Software Planned Activities Design Closure Materials Schedule Closing Summary
Definitions ASK modulation – Amplitude shift keying. In this modulation scheme the amplitude is varied to indicate logic 0’s and 1’s DUT – Device under test (positive edge D flip-flop) Header – Preamble bits sent prior to the sending of information in a data packet time D3 D2 D1 D0 Data Packet Header voltage Data Packet and Header
Definitions (cont.) NRZ – Non-return to zero. Using NRZ, a logic 1 bit is sent as a high value and a logic 0 bit is sent as a low value. PLL – Phase-locked loop RZ – Return to zero. This is the opposite of NRZ data. The signal state is determined by the voltage during the first half of each data binary digit. The signal returns to a resting state (called zero) during the second half of each bit.
Project Overview
Acknowledgement Dr. Weber Nathaniel Gibbs (GibbaHertz) Jason Boyd
Introduction Teradyne Integra J750 Digital Tester Donated to Iowa State Desire to test wireless chips using J750 May 05 project was first step toward that goal Created send/receive network to test digital device remotely Programmed FPGA for simple tests Teradyne Integra J750
Project Overview Problem Statement S/R network exists but no method is available for clock recovery Must develop a clock recovering circuit and integrate it with current system Investigate realistic range of operation for the wireless interface
Project Overview System Constraints The Teradyne J750 must operate within +/- 3° C of calibrated temperature (30° C). The maximum rate at which data may be sent is at Kbps. The Tx and Rx networks communicate at & 916MHz. Nearby wireless signals at similar frequencies may disrupt the setup. The IG-XL software shall be used in writing the test data sets for the Teradyne J750. Only one FPGA will be provided.
Project Overview Users Assumptions The user has knowledge in electrical and/or computer engineering. The user has previous experience testing circuits with the Teradyne J750. The user has read the Teradyne J750 instruction manual and will observe all necessary safety precautions as prescribed in that manual. Intended Uses Functional test of a digital device (Future) Wireless chipset test
Project Overview End-Product and Other Deliverables Wireless interface with clock recovery circuit Demonstration of wireless test Update the manual for wireless test operation Cover page of wireless manual
Overview of Existing Work
May Accomplishments Parallel-Serial Conversion Transmitters and Receivers Processing Device
Overview of Existing Work Parallel-Serial Conversion Needed to convert parallel test data into serial test data Chose to use a shift register Shift Register attached to daughterboard
Overview of Existing Work Transmitters and Receivers TRM1 TRM2 RCV1 RCV2
Overview of Existing Work FPGA Used to recognize header signal Identifies test data Presents test data to DUT Presents reply to S/R network
Final System Setup
Project Activities
Project Definition Part of the May 05 team’s project definition was to include a clock recovery circuit, but due to timing constraints was unable to do so. May 06 goal is to integrate a PLL for clock recovery with the existing network.
Project Activities Design
Project Activities Technology Considerations Manchester vs. PLL NRZ to RZ Conversion Software
Project Activities Original SignalValue Sent Logic 00 to 1 (upward transition at bit centre) Logic 11 to 0 (downward transition at bit centre) The waveform for a Manchester encoded bit stream carrying the sequence of bits Manchester Encoding
Very easy to implement Clock phase and frequency are both present Too fast for current transmitters and receivers! Project Activities
Phase Locked Loop Must be “trained” Test data must follow a training signal More difficult to implement Don’t have to build new transmitters and receivers
Project Activities Present Accomplishments Hardware Previous team’s project setup and tested PLL Monostable Multivibrators Software Prototype control software for FPGA written IG-XL test template written
Project Activities Internal Components of a PLL
Project Activities Phase Detector Type I – XOR *Type II – Generates lead or lag pulses Voltage Controlled Oscillator (VCO) Centered at KHz Frequencies too far off of center frequency will not lock
Project Activities
Monostable Multivibrators Chosen to convert NRZ data to RZ data Must use an external RC combination to specify pulse widths
Project Activities NRZ to RZ converter circuit with I/O waveforms
Project Activities Software FPGA serves as “brains” of system Verilog chosen to program FPGA Prototype code complete
Project Activities
Planned Design/Test Activities Build and Test NRZ to RZ Converter Build and Test PLL Circuitry Integrate Clock Recovering Circuitry Modify FPGA Code as Necessary Test Functional Range of Wireless Interface
NRZ/RZ PLL
Closure Materials
Schedule Expected Actual Updated
Closure Materials Expected Actual Updated Schedule (cont.)
Closing Materials Lessons Learned What technical knowledge was gained? FPGA implementation Teradyne Integra J750 usage Clock recovery methods System integration
Closing Materials Lessons Learned What went well? May05 System still works! Teamwork Learned to work in arctic environments (19 degrees C inside Teradyne lab) What did not go well? Locating May05 equipment Initial Teradyne J750 setup and test Uploading program to FPGA FPGA inputs pins
Closing Materials Closing Summary Problem – Integrate clock recovery circuitry into current system Solution Use PLL for clock recovery Modify FPGA program to incorporate new components
Questions? Questions???
Thank You