Weather Satellite Decoder

ALPHA: Weather Satellite capture is experimental and may fail depending on SatDump version, SDR driver support, and pass conditions.

Receive and decode Meteor LRPT weather imagery. Uses SatDump for live SDR capture and image processing, and also shows Meteor imagery produced by the ground-station scheduler.

Satellite

Antenna Guide

137 MHz band — your stock SDR antenna will NOT work.

Weather satellites transmit at 137.1–137.9 MHz. The quarter-wave at this frequency is ~53 cm, far longer than the small telescopic antenna shipped with most SDRs (tuned for ~1 GHz). You need a purpose-built antenna.

V-Dipole (Easiest — ~$5)
coax to SDR | ===+=== feed point / \ / 120 \ / \ / deg \ 53.4cm 53.4cm
  • Element length: 53.4 cm each (quarter wavelength at 137 MHz)
  • Angle: 120° between elements (not 180°)
  • Material: Any stiff wire, coat hanger, or copper rod
  • Orientation: Lay flat or tilt 30° toward expected pass direction
  • Polarization: The 120° angle gives partial RHCP match to satellite signal
  • Connection: Solder elements to coax center + shield, connect to SDR via SMA

Best starter antenna. Good enough for a clean Meteor LRPT pass when the satellite gets high overhead.

Turnstile / Crossed Dipole (~$10-15)
53.4cm <---------> ====+==== dipole 1 | ====+==== dipole 2 <---------> 90 deg rotated + reflector below
  • Elements: Two crossed dipoles, each 53.4 cm per side (4 elements total)
  • Angle: 90° between the two dipole pairs
  • Phasing: Feed dipole 2 with a 90° delay (quarter-wave coax section ~37 cm of RG-58)
  • Reflector: Place ~52 cm below elements (ground plane or wire grid)
  • Polarization: Circular (RHCP) — matches satellite transmission

Better than V-dipole. The reflector rejects ground noise and the RHCP phasing matches the satellite signal.

QFH — Quadrifilar Helix (Best — ~$20-30)
___ / \ two helix loops | | | twisted 90 deg | | | around a mast \___/ | coax
  • Design: Two bifilar helical loops, offset 90°
  • Material: Copper pipe (10mm), copper wire, or coax outer shield
  • Total height: ~46 cm (for 137 MHz)
  • Loop dimensions: Use a QFH calculator for exact bending measurements
  • Polarization: True RHCP omnidirectional — ideal for overhead satellite passes
  • Gain pattern: Hemispherical upward coverage, rejects ground interference

Gold standard for weather satellite reception. No tracking needed — covers the whole sky.

Placement & LNA
  • Location: OUTDOORS with clear sky view is critical. Roof/balcony/open field.
  • Height: Higher is better but not critical — clear horizon line matters more
  • Antenna up: Point the antenna straight UP (zenith) for best overhead coverage
  • Avoid: Metal roofs, power lines, buildings blocking the sky
  • Coax length: Keep short (<10m). Signal loss at 137 MHz is ~3 dB per 10m of RG-58
  • LNA: Mount at the antenna feed point, NOT at the SDR end. Recommended: a low-noise 137 MHz filtered LNA near the antenna feed point
  • Bias-T: Enable the Bias-T checkbox above if your LNA is powered via the coax from the SDR
Quick Reference
Wavelength (137 MHz) 218.8 cm
Quarter wave (element length) 53.4 cm
Best pass elevation > 30°
Typical pass duration 10-15 min
Polarization RHCP
Meteor (LRPT) bandwidth ~140 kHz

Test Decode (File)

Auto-Scheduler

Automatically capture satellite passes based on predictions. Set your location above and toggle AUTO in the strip bar.

Disabled

Resources

SatDump Documentation Meteor Reception Guide