SDUS32 KMHX 280845 N1PMHX NL{' wӴN\5L{+L{(       # ( 2 < P x L< sha   qP( q 2 q < q F q P a0Z a0d q n a0x a0             q  q   q " a0, a06 a @ a0J a0T q ^ h r a0| a0 Q@ 1`            !A `Q  q& @10 : D APN Ё0X  !Pb 1l !v  A 1 P1      p  p   0` p !P ``1P ! `* ` 4 @! > APH 1@R A  \ AQf A !"1p A!!z AQ  1 !!  1б 1!р 1q a ! PQ !!p!  !1! !@0P A0 !"aA  A2!@! !БB"р  #2#"p 1$r 2bѠ pB#` $ "3bq0q` . 1P"$BP 8 !`QB#1"P B 1@aR"1!0a L !@q2"10 V !@q"$A ` !@q$&1j !05$1 t 1 q&"A~ 1 q%#Q  1 q"1"B  !0a$"!r  1 Q##A0 10A321Pq 1@1321pQ"a 101#"A  1 !2#"A0!0!  1 31@Ѣ  132A@‘  1$"1BQ  11"SQ0  1!!"S2#R0  !!3!2#BC20  !!#A@  Q 1Q@   1#Aґ` ( 011BґP2  12AB23p < !BA"23pF !R1BұpP 1#212 A Z 1#21"BQA d !B1RAa n !!"q"QR x !31""q2q  "#2  "q0   !"RQ"  01##"@   123rR@   !B!@ 0!RQaq0 PRQ"A  `12Q2!  pA"Q  `Q"Aұ0  pA21#r#B0  pQ2"320 ABS0  A"$3AR  A2Q " Ab!0, A%R10 6 13"10@ A%3"10J 1#"A0 T 1#2a0 ^ !2#"2q h !B#2ABr AR#"AB| !RC!B 1!C2b  QC"r  123"r  Q#2rq  0A"#2" `132 `!S" C"  $" 42 $2 #" q "  !  1q""&   Qb"0 PQ"a: 12D 1BN 11"12X  qA"b 0l Pv ` Q a Q A             P`  Ѡ* 4 > H R \ f p z           !p  !p 1`  0     $  .  8  B !p L AP V AP ` !p j  t  ~         @  0!@ Q@  p  p    1`  1` ( 1` 2 !p < !p F !p P 1` Z !p d !p n !p x !p    1` AP 1` Q@ AP !P 1` !p Q@ AP  Q@  Q@  Q@ " a0 , 1` 6 !!@ @ Q@ J !!@ T AP ^ AP h ! @ r Q@ | !P !p !P AP Q@ Q@ Q@ AP AP 1` !p !p 1` p  p  1`   & !P 0 p :  D  N  X  b  l ! v !                    *  4  >  H  R  \  f  p  z            q  a0 a0 a0 k wӴk5L{+L{<P 1-HOUR PRECIPITATION ACCUMULATION 09/28/23 08:45 P P P GAGE/RADAR BIAS ESTIMATE ......................... 1.837 P SAMPLE SIZE (EFFECTIVE NO. GAGE/RADAR PAIRS) ..... 161.426 P MEMORY SPAN (HOURS) OVER WHICH BIAS DETERMINED ... 168.006 P PRODUCT ADJUSTED BY BIAS ESTIMATE? ............... NO PRADAR HALF POWER BEAM WIDTH................................. 0.90 DEG PMAXIMUM ALLOWABLE PERCENT OF BEAM BLOCKAGE................. 50.00 % PMAXIMUM ALLOWABLE PERCENT LIKELIHOOD OF CLUTTER............. 50.00 % PPERCENT OF BEAM REQUIRED TO COMPUTE AVERAGE POWER........... 50.00 % PPERCENT OF HYBRID SCAN NEEDED TO BE CONSIDERED FULL......... 99.90 % PLOW REFLECTIVITY THRESHOLD (dBZ) FOR BASE DATA.............. -32.00 dBZ PREFLECTIVITY (dBZ) REPRESENTING SIGNIFICANT RAIN............ 20.00 dBZ PAREA WITH REFLECTIVITY EXCEEDING SIGNIFICANT RAIN THRESHOLD. 230.00 KM**2 PTHRESHOLD TIME WITHOUT RAIN FOR RESETTING STP .............. 60.00 MINUTES PREFLECT-TO-PRECIP RATE CONVERSION MULTIPLICATIVE COEFFICIENT 300.00 PREFLECT-TO-PRECIP RATE CONVERSION POWER COEFFICIENT......... 1.40 PMIN DBZ FOR CONVERTING TO PRECIP RATE (VIA TABLE LOOKUP).... 0.00 dBZ PMAX DBZ FOR CONVERTING TO PRECIP RATE (VIA TABLE LOOKUP).... 70.00 dBZ PNUMBER OF EXCLUSION ZONES................................... 0.00 PRANGE BEYOND WHICH TO APPLY RANGE-EFFECT CORRECTION......... 230.00 KM P1ST COEFFICIENT OF RANGE-EFFECT FUNCTION.................... 0.00 dBR P2ND COEFFICIENT OF RANGE-EFFECT FUNCTION.................... 1.00 dBR P3RD COEFFICIENT OF RANGE-EFFECT FUNCTION.................... 0.00 dBR PMIN RATE SIGNIFYING PRECIPITATION........................... 0.00 MM/Hr PMAX PRECIPITATION RATE...................................... 200.00 MM/Hr PREINITIALIZATION TIME LAPSE THRESHOLD (FOR ACCUM PROCESS)... 60.00 MINUTES PMAX TIME DIFFERENCE BETWEEN SCANS FOR INTERPOLATION......... 30.00 MINUTES PMIN TIME NEEDED TO ACCUMULATE HOURLY TOTALS................. 54.00 MINUTES PTHRESHOLD FOR HOURLY OUTLIER ACCUMULATION................... 400.00 MM PHOURLY GAGE ACCUMULATION SCAN ENDING TIME................... 0.00 MINUTES PMAX ACCUMULATION PER SCAN-TO-SCAN PERIOD.................... 400.00 MM PMAX ACCUMULATION PER HOURLY PERIOD.......................... 800.00 MM PMINUTES AFTER CLOCK HOUR WHEN BIAS IS UPDATED............... 50.00 MINUTES PTHRESHOLD # OF GAGE/RADAR PAIRS NEEDED TO SELECT BIAS....... 10.00 PRESET VALUE OF GAGE/RADAR BIAS ESTIMATE..................... 1.00 PLONGEST ALLOWABLE LAG FOR USE OF BIAS FROM BIAS TABLE....... 168.00 HOURS PMOST RECENT BIAS SOURCE..................................... LAR