PulseGen

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Fast Pulse Generator/Coax Tester

  • Uses of the Fast Pulse Generator
    • Start at 15:12

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PulseGen 5242-720px.JPG

Features

  • Power Supply from 2V to 6V range so battery operation is possible eliminating need for power supply, etc
  • 5mm Terminal Block for power allows for batteries, etc to be easily connected without soldering
  • Very fast pulse edge (typical 2 nS rise time) and symmetric high/low drive.
  • 50 or 75 Ohm (other values could be made, send us your specs and we can add them)
  • BNC connectors on both ends
  • Connectors are a stuffing option with either BNC or SMA connectors (SMA is a special order so contact us)
  • Four mounting holes - 4-40 holes
  • Rounded corners fit more easily into plastic enclosures with inside radius at the corners
  • Nuts and washers for BNC mounting included
  • Small size (1.8" x 1.3)

What is it?

Fast Edge Pulse Generator for use as a Time Domain Reflectometer (TDR). Used to measure cable length and test continuity/termination of 50 or 75 Ohm coax cables.

Requires a fast oscilloscope for precision measurement. To use it, plug one BNC using male-to-male adapter into a scope and attach a cable to the other BNC connector. Allows measurement of the cable and determination if there is a cable defect (open/short, termination, Etc.).

3D Printed Case

PulseGenInCaseP1030838.JPG

3D Printed case in picture not included - printer files are here.

  • Case

PulseGenCase-X4.PNG

  • Lid

PulseGenCase-X5.PNG

Why did you make it?

The video, by W2AEW, inspired me to want to make a Pulse Generator for use with an oscilloscope as a Time Domain Reflectometer (TDR). There were some DIY boards available but none that are as good as this design.

What makes it special?

Within a month of first building this board, I had a bad piece of RG-8X coax and it was difficult to diagnose the problem. I used an ohmmeter to verify that the coax was good from a DC perspective and it looked fine while I was testing with the meter. It was connected end to end and there were no opens or shorts that I could see with the meter.

However, I knew the cable was bad because I swapped it out for another cable and the other cable worked just fine. When I went to use the broken cable, I could jiggle the cable and make it work and then it would flake out but it was far from consistent. Intermittent problems are the worst sort of problems, aren't they? As they say - Murphy's Law is a universal constant.

I decided to hook the questionable coax up to this Pulse Generator board and the results were impressive to say the least. When I flexed the cable the waveform went from a nice stepped waveform to nearly flat on my oscilloscope (a little bump which went down quickly). That told me that the problem was on the near end of the cable and that it was a short between the center conductor and the shield. In the end the problem was a short at the PL-259 connector which (once found) was easily repaired.


Factory Acceptance Test (FAT) Procedure

Factory test of the PulseGen

Hardware

  • Specialized Test Equipment (STE) - Tester
  • 9V DC Power Supply
  • Terminator - dependent on build option
    • 50 Ohms
    • 75 Ohms
  • Unit Under Test (UUT)

Specialized Test Equipment (STE)

  • NANO-BKOUT
  • Arduino Nano
  • MyMenu
    • 0.96" OLED
    • 5 pushbutton switches
  • 3 LEDs
  • Cable
    • A0 - Analog Input - samples
    • A1 - +5V, GND

Test Steps

  • Connect Power from STE to UUT
  • Connect 9V power supply to STE power jack
  • Screen shows unloaded results
  • Add terminator
  • Screen shows loaded results

Assembly Sheet