9. Technical Data
9.1 Signal Processing
Table 72 Signal Processing
Feature Description
Azimuth averaging 2 ... 1024 pulses
Clutter filters IIR, fixed, and adaptive width GMAP > dB rejection
Data outputs (8 and 16 bit) Ah/v, Azdr, CCOR, CSP, CSR, dBT, dBZ, dBZt, KDP, LDR, LOG, PHIH/V,
PHIDP, PMI, R, RHOHV, SNR, SQI, T, V, VC, W, Z, ZC, ZDR,ZDRC,Zh, Zv, Zhv
Ah/v, Azdr, CCOR, CSP, CSR, dBT, dBZ, dBZt, LOG, R, SNR, SQI, T, V, VC,
W, Z, ZC,Zh, Zv
Dual polarization Alternating, Simultaneous, H-Only, V-Only
Dual PRF velocity de-aliasing 2:3, 3:4, or 4:5 for 2X, 3X, or 4X de-aliasing
High sensitivity Zhv STAR
Rhv STARmode processing
> 3 dB improvement detection gain
IF digitizing 16 bits, 100 MHz in 5 channels
Number of range bins Up to 4200
Optional data outputs HCLASS, I/Q
Processing modes PPP, FFT/DFT, Random Phase 2nd trip filtering/recovery
Range resolution N*15 m
Range dealiasing by random phase
9.2 RVP900 Processing Algorithms
Table 73 Processing Algorithms
Algorithm Description
I/Q signal correction options • Amplitude jitter correction based on running average of transmit power
from burst pulse
• Interference correction for single pulseinterference
• Saturation correction (3 ... 5dB)
Chapter 9 – Technical Data
329
To Next Page
Loading...