Difference between revisions of "RF Noise Generator"
Jump to navigation
Jump to search
Blwikiadmin (talk | contribs) |
Blwikiadmin (talk | contribs) |
||
| Line 71: | Line 71: | ||
=== Toroid winding === | === Toroid winding === | ||
| + | |||
| + | * T37 cores, approx .5" per turn, plus tails | ||
[[file:Toroid-6.8uH.PNG]] | [[file:Toroid-6.8uH.PNG]] | ||
Revision as of 23:30, 21 August 2021
Contents
Design
- Useful as a filter test signal source
- Pass filters
- Crystal filters
- From Experimental Methods in RF Design
- Fig 7.72
- Described as "not flat"
- "Junk box" parts
- (2) 2N3904 transistors
- (2) 5V (nominal) zener diodes
- Noise figure -50 dBm @ 10 MHz
Schematic
Prototype
- Unique nodes in red
- Prototype on single sided copper clad PCB
- KiCAD zener packages have backwards silkscreen (will need to fix on OshPark PCBs)
Meaurements
- 12V, 43mA current draw
- Rigol DS1054Z
- 50 MHz scope with mods
- UltraScope settings
- SCAL 1.00 V
- H 200nS
- FFT settings
- CF = 16 MHz
- 2 MHz start, 50 MHz stop
- RBW 416.6 KHz
- Background noise
- Generator off
- Average ~ -64 dB
- Noise Generator On
- Falls off with frequency, but better than -50 dB
- Measured performance per EMiRFD (predicted - 50 dB)
High Pass Filter
Design Inputs
- High Pass filter
- 5th Order Chebyshev filter
- Fc = 1 MHz
- 3 Inductors, 2 Capacitors
Schematic - 5% Standard parts
Predicted Response
Toroid winding
- T37 cores, approx .5" per turn, plus tails
