TX9PF 20 0.40 1.25 10 -20 TO +70 1.6 X 1.7 X .45
.928-.960 TX9Nl' 20 OAO 1.25 10 -20 TO +70 1.0 X 1.3 X .35
1.70-1.85 CIZVP 28 0.40 1.15 10 -30 TO +60 1.25X1.25X1.0
1.85-2.10 CIZV23 28 0.40 1.15 10 -30 TO +()() 1.25X1.25X1.0
1.90-2.10 TlZT1' 18 0.30 1.30 1 -20 TO +70 1.0 X 1.0 X .54
1.90-2.10 T2YPP 22 0.30 1.20 10 -40 TO +85 1.0 X 1.0 X .45 pdf
1.90-2.10 TlZT22 18 0.30 1.30 1 -20 TO +70 1.0 X 1.0 X .54
2.10-2.30 T2YP22 22 0.30 1.20 10 -40 TO +85 1.0 X 1.0 X .45
2.10-2.30 T2YL12 18 0.30 1.30 1 -20 TO +70 1.0 X 1.0 X .54
2.10-2.30 T2YL2' 18 0.30 1.30 1 -20 TO +70 1.0 X 1.0 X .54
2.40-2.50 T2YJlI 20 0.50 1.25 1 -10 TO +70 .75 X .75 X .25
2.40-2.50 C2YR2' 23 0.40 1.25 1 -10 TO +70 1.25 X 1.25 X 1.0
3.60-4.20 T3ZHI' 20 0.40 1.25 5 -30 TO +80 .75 X .75 X .25
3.60-4.20 TIZDP 20 0.40 1.25 2 -20 TO +70 .75 X .75 X .50
3.60-4.20 C3ZEl' 22 0.40 1.17 2 -20 TO +70 1.25 X 1.25 X 1.0
5.70-5.85 T5YQJ2 20 OAO 1.25 2 -20 TO +70 .75 X .75 X .50
5.70-5.90 C5YWP 20 0.40 1.25 2 -20 TO +70 .60 X .60 X .50
5.90-6.50 T5YLP 20 0.40 1.25 2 -20 TO +70 .60 X .60 X .50
6.50-6.90 T6YEP 20 0.40 1.25 2 -20 TO +70 .75 X .75 X .50
6.50-7.10 T6XW12
FREOUENCY
MODEL
CONNECTOR MINIMU~N MAXIMUM MAXIMUM POWER ISOLATOR OPERATING (WATTS)t SIZE
(GHZ) 'T' &. "E- TYPE ISOLATIO INSERTION VSWR TEMPERATURE
LxWxH CIAC~L!'TOR (DB) LOSS (DB) FWD REV RANGE CC) (IN.)
.192-.210 TX1Kl SMA 15 1.0 1.45:1 10 1 +10 to +50 3.25x3.25xO.75
.150·.160 CX1Gl N 20 0.30 1.25:1 150 150 oto +50 6.oox6.00x1.oo
.200-.240 CX2Bl N 18 0.50 1.25:1 100 100 010 +50 4.oox4.00xO.75
.216-.220 CX2C1 SMA 23 0.50 1.25:1 50 50 -4010 +50 2.60x2.60xO.75
.216-.220 TX2Gl N 45 1.0 1.25:1 150 150 -:10 to +60 5.oox2.80xO.80
.30-.40 TX3Bl SMA 18 0.50 1.30:1 10 10 -30 to +60 4.ooX4.OOxO.75
.32-.33 TX3F1 N 60 0.50 1.20:1 100 100 -3010 +60 4.50x2.500xl.oo
.39-.48 CX3Al N 18 0.50 1.25:1 100 100 oto +50 2.50x2.50xO.75
.47- F;S r.X4Rl TNC lA 0.60 1.30:1 100 100 -40 to .SO 2.oox1.95xO.75
.580-.736 CX5Al SC 20 0.40 1.22:1 1000 1000 010 +50 3.oox3.00xl.oo
.650-.750 TX601 SMA 20 0.50 1.25:1 50 1 oto +50 1.50x1.50xO.65
.800-1.000 TX8Bl N 18 0.40 1.25:1 150 150 010 +50 2.oox2.50xO.75
.800-1.000 TX8Z3 SMA 18 0.50 1.30:1 10 1 -1010 +60 1.60x1.70xO.45
96-1.215 CXOOl SMA 18 050 1.:10:1 1500 AO -30 to +60 150x1.50xO.50
.975-1.025 TX9A2 SMA 20 0.30 1.25:1 10 12 010 +50 1.20xl.25xO.57
1.0-2.0 T1XK3 SMA 18 0.60 1.30:1 10 1 +1010 +40 2.60x2.60xO.75
1.2-1.4 T1XVl SMA 23 0.30 1.15:1 10 1 -48 to +86 1.25xl.25xO.60
1.5-2.6 T1XJ2 SMA 20 0.50 1.25:1 10 1 +1010 +40 2.50x2.50xO.75
1.7-2.0 T2YGl SMA 20 0.40 1.25:1 10 1 oto +55 1.00xl.00xO.50
1 7.? "l T1X02 SMA 20 0.40 1.25:1 10 , 010 +50 1 50xl.75xO.75
1.9-2.1 T1ZTl SMA 18 0.30 1.30:1 16 1 oto +50 1.00x1.00xO.50
2.0-2.3 T2YG2 SMA 22 0.30 1.20:1 10 1 oto +55 1.00xl.00xO.54
2.0-4.0 T2XPl SMA 20 0.40 1.25:1 10 2 oto +50 1.63xl.63xO.75
2.0-5.5 T2XOl SMA 12 1.25 1.50:1 10 1 +20 to +60 2.00xl.86xO.55
2.0-7.0 E2XR1" SMA 12 1.50 1.35:1 10 10 +1010 +40 3.20xl.75xO.63
2.0-8.0 T2XC2 SMA 10 1.30 2.00:1 10 1 010 +60 2.00xl.85xO.55
2.0-8.0 E2XB2 SMA 20' 1.1 I 1.35:1 10 10 -20 to +70 3.20x1.75xO.63
2.0-10.0 E2XA1" SMA 20' 2.00 1.35:1 10 10 +10 to +40 3.20xl.75xO.63
2.3-2.7 T2YG3 SMA 20 0.40 1.20:1 10 1 010 +55 1.00x1.00xO.54
25-:15 T?yn, SMA 20 0.50 1.?5:1 10 10 -?O 10 .55 1.63.1.63xO.75
2.9-3.2 T2X01 SMA 18 0.60 1.30:1 10 1 -4010 +80 0.75xO.75xO.50
3.4-4.2 T3ZFl SMA 22 0.30 1.20:1 20 1 -30 to .65 1.oox1.00xO.50
3.4-4.2 T3XD1 N 18 0.40 1.30:1 10 1 oto +50 1.ooxl.13xO.75
3.5-7.0 T3XF1' SMA 40 0.80 1.25:1 10 1 010 +50 2.oox1.10xO.63
3.7-4.2 T3XBl SMA 20 0.30 1.30:1 10 1 -40 to +60 1.oox1.ooxO.56
4.0-8.0 T4XJl SMA 20 0.40 1.25:1 1 1 oto +50 1.oox1.10xO.63
4.0-9.0 T4XA1' SMA 35 1.10 1.35:1 10 1 010.50 2.ooxl.l0xO.63
4.0-18.0 E4XB1" SMA 15 1.50 1.50:1 10 10 -5410 +85 2.60x1.ooxO.53
44.50 T4l(Gl SMA 23 0:10 1 ?n'1 10 1 -54 to +85 1.OOx1 OOxO 56
5.4-5.9 T5XM4 SMA 20 0.30 1.20:1 10 1 oto +50 0.50xO.60xO.50
5.7-5.85 T5YOI SMA 20 0.40 1.50:1 10 2 -2010 +70 O.60xO.60xO.50
5.9-6.45 T5YBl SMA 24 0.40 1.15:1 10 1 010 +70 0.51x0.68xO.56
S.!!-1? 4 TSYFI SMA 17 O.fiO 1.:15:1 10 1 n to .70 0.6.1.0 AhO AD
6.0-18.0 T6X03 SMA 13 1.10 1.60:1 10 1 -54 to +85 0.50xO.58xO.38
7.0-12.4 T7XA3 SMA 20 0.40 1.25:1 10 1 010 +50 0.85xl.ooxO.63
7.25-7.75 T7XK6 SMA 20 0.40 1.20:1 10 1 oto +65 0.51 xO.68xO.56
7.5-18.0 T7XBl SMA 15 1.00 1.45:1 10 1 -20 to +85 0.51 xO.68xO.56
7.6-8.6 T7XG1 SMA 24 0.40 1.15:1 10 1 oto +65 0.60xO.75xO.50
8.0-12.0 T8XF2 SMA 20 0.40 1.25:1 10 1 -20 to +65 0.86x1.10xO.63
8.0-18.0 T8XMl SMA 15 0.80 1.45:1 10 1 oto +70 0.51 xO.68xO.56
8.0-20.0 T8XA2 SMA 15 1.00 1.45:1 10 1 oto +70 0.51 xO.68xO.56
10.0-14.0 Tl0Cl SMA 25 0.50 1.15:1 10 1 oto +70 0.51 xO.68xO.56
12.0·18.0 T12Dl' SMA 35 1.20 1.35:1 10 1 -20 to +65 1.25xO.80xO.50
14.0-14.5 T14G2 SMA 20 0.30 1.15:1 10 1 o to +50 0.50xO.60xO.50
14.0-16.0 T14Al SMA 20 0.40 1.20:1 10 1 -54 to +85 0.51 xO.68xO.56
17.0-18.0 T17Bl SMA 20 0.50 1.25:1 10 1 oto +50 0.51 xO.68xO.56
18.0·21.0 T18Bl SMA 20 0.50 1.25:1 10 1 oto +50 0.51 xO.68xO.56
20.0-24.0 T20C1
(GHZ) ISOLATlm INSERTION VSWR
(WATTS)
TEMPERATURE LxWxH
ISOLATOR CIRCULATOR (DB) LOSS (DB) AVERAGE RANGE (C) (IN.) m: :
~;; gm~ 1~ 8:~ 1:3~ 1~g :~g+gm H~~:g~:j~
.154- .170 CX1M1 20 0.4 1.25 150 -20 TO +85 5.5x5.0x.75
.338 - .378 CX3C1' 17 0.5 1.30 200 OTO +50 2.1x2.1x.5
.389 - .399 TX3D1 20 0.5 1.45 2 -30 TO+60 .787x.787x.35
.389 -.400 CX3E1 20 0.3 1.25 200 OTO +65 1.75x1.75x.5
.403 - .440 CX4K1 18 0.5 1.30 150 -20 TO +70 1.75x1.75x.5
.403 - .430 TX4L2 45 0.7 1.20 15 OTO +60 3.25x2.125x.55
.406 - .450 TX4K5 20 0.6 1.25 25 -25 TO +85 1.75x1.75x.5
.430 - .470 CX4K4 20 0.5 1.25 10 -10 TO +55 1.75x1.75x.5
.441 - .597 CX4Q1 18 0.7 1.25 200 -10TO +50 1.57x1.57x.98
.450 - .512 CX4K2 18 0.4 1.30 150 ·20 TO +70 1.75xl.75x.5
.450· .470 TX4L1 46 0.7 1.20 15 OTO +60 3.25x2.125x.55
.480 - .500 TX4N1 20 0.5 1.25 60 OTO +85 1.5x1.8x.4
.480 -.500 CX4P1 22 0.4 1.25 30 -20 TO +70 1.35x1.35x.4
.600 - .700 CX6A1 18 0.5 1.40 40 -20 TO +80 1.5x1.5x.50
.600 -.800 CX6C1 17 0.5 1.35 80 ·20 TO +80 1.6xl.5x.50
.700· .800 CX7C1 17 0.5 1.35 40 -20 TO +80 1.5x1.5x.50
1.028-1.032 T1AQ2 25 0.5 1.20 10 -40 TO +85 1.0x1.1 x.35
1.20·1.40 T1YJ1 17 0.5 1.35 1 OTO+50 .78x.78x.35
1.20 - 1.40 T1ZD1 20 0.5 1.20 10 -40 TO +85 1.0x1.0x.50
1.435 - 1.545 T1ZG1 20 0.5 1.20 10 -10 TO +70 .75x.75x.31
1.53 - 1.56 T1XP1 20 0.4 1.25 1 -40 TO +75 1.0x1.0x.50
1.58 - 1.79 TlYT2 20 0.5 1.25 1 ·10 TO +70 .75x.75x.32
1.60 - 1.64 C1XD1 20 0.5 1.25 50 -20 TO +60 1.3x1.4x.48
1.60 - 1.80 T1YE1 20 0.4 1.25 1 -10 TO +50 1.18x1.18x.30
1.62 - 1.66 T1YA1 20 0.4 1.25 40 ·15TO+70 .95x1.38x.56
1.62· 1.66 C1YF1 23 0.3 1.25 60 ·20 TO +85 .75x.75x.30
1.62 - 1.67 T1YQ1 20 0.3 1.20 30 -35 TO +85 1.0x1.3x.35
1.62 - 1.67 C1YK1 20 0.3 1.20 100 -50 TO +75 1.0x1.0x.40
1.70·2.10 T1YC1 20 0.5 1.20 5 -20 TO +70 1.18x1.48x.56
1.80 - 1.90 C1ZB1 20 0.4 1.25 50 ·20 TO +70 .75x.75x.35
1.80 - 2.20 T1XD1' 20 0.4 1.25 1 OTO +55 1.5x1.75x.75
2.00 - 2.30 T2YB1 20 0.6 1.25 10 oTO +50 .787x.787x.35
2.20·2.30 T2XL1 16 0.5 1.45 1 oTO +50 .75x.75x.25
3.10 - 3.50 C3XSl 20 0.3 1.20 15 OTO +50 .580 Dia.x.30
3.60 - 4.20 T3XK1 20
4.4-5.0 T4XKI IS 0.4 1.30 30 -40TO+S5 .50x.95x.24
4.4-5.0 C4XSI 20 0.35 1.25 50 -20 TO +75 .50x.7Ix.20
5.25-6.00 T5XN9 20 0.4 1.25 30 -20 TO +55 .5Ox.95x.24
5.90-6.40 T5XN5 20 0.4 1.25 20 OTO+70 .5Ox.95x.24
5.90-6.45 T5XN4 20 0.4 1.25 35 OTO+50 .50x.95x.24
5.90-6.45 T5XNII 20 0.4 1.25 10 -20 TO +75 .50x.95x.24
6.4-7.2 T6XB3 17 0.4 1.25 15 -20 TO +70 .35x.60x.20
lO.o-to.5 TIOQI
FREQUENCY MODEL MlNlMUM MAXIMUM MAXIMUM RATED POWER OPERATING SIZE
(GHz) UMBER ISOLATION I ERTION VSWR (WATTS) TEMPERATURE LxWxH
(DB) LOSS(DB) RA GE ("C) (I .)
210-216 CX1H2 20 0.5 1.25 700 oTO+50 6x4x1
470-596 CX4AI 20 0.4 1.25 1000 oTO+50 3x3xl
470-600 CX4A2 20 0.4 1.25 1000 oTO+50 3x3xl
494-502 CX4A3 20 0.4 1.25 1000 oTO+50 3x3xl
542-550 CX5Al 20 0.4 1.25 1000 oTO+50 3x3xl
558-566 CX5AI 20 0.4 1.25 1000 oTO+50 3x3xl
566-576 CX5AI 20 0.4 1.25 1000 OT0+50 3x3xl
574-582 CX5AI 20 0.4 1.25 1000 oTO+50 3x3xl
582-590 CX5Al 20 0.4 1.25 1000 oTO+50 3x3xl
620-628 CX5AI 20 0.4 1.25 1000 oTO+50 3x3xl
630-638 CX6Hl 20 0.4 1.25 1000 oTO+50 3x3xl
630-710 CX5AI 20 0.4 1.25 1000 oTO+50 3x3xl
646-654 CX5AI 20 0.4 1.25 1000 oTO+50 3x3xl
654-662 CX5Al 20 0.4 1.25 1000 oTO+50 3x3xl
686-694 CX5Al 20 0.4 1.25 1000 oTO+50 3x3xl
702-710 CX5Al 20 0.4 1.25 1000 oTO+50 3x3xl
718-726 CX5Al 20 0.4 1.25 1000 oTO+50 3x3xl
728-734 CX5Al 20 0.4 1.25 1000 OT0+50 3x3xl
734-742 CX5AI 20 0.4 1.25 1000 OTO+50 3x3xl
750-758 CX5HI 20 0.4 1.25 1000 oTO+50 3x3xl
788-794 CX5AI 20 0.4 1.25 1000 oTO+50 3x3xl
794-800 CX5Al
10.20-10.80 WR75 WT10Al 20 0.30 1.25 1 -20 TO +70 1.75 X 2.75 X 1.50
10.96-11.70 WR75 WTIOBI 20 0.30 1.25 1 -20 TO +70 1.75 X 2.75 X 1.50
11.46-11.96 WR75 WTllD3 20 0.30 1.25 1 -20 TO +70 1.75 X 2.75 X 1.50
11.70-12.20 WR75 WTIID4 20 0.30 1.25 1 -20 TO +70 1.75 X 2.75 X 1.50
12.25-12.75 WR75 WTI2C5 20 0.30 1.25 1 -20 TO +70 1.75 X 2.75 X 1.50
12.70-13.30 WR75 WT12D2 20 0.30 1.25 1 -20 TO +70 1.75 X 2.75 X 1.50
17.70-19.70 WR42 WT17A3 20 0.30 1.25 I -20 TO +70 1.0 X 1.49 X .89
21.20-23.60 WR42 WT2IC4 20 0.30 1.25 1 -20 TO +70 1.0 X 1.49 X .89
21.20-22.60 WR42 WT2ICI3 20 0.30 1.25 1 -20 TO +70 1.0 X 1.49 X .89
22.20-23.60 WR42 WT2ICI4 20 0.30 1.25 1 -20 TO +70 1.0 X 1.49 X .89
24.50-25.50 WR42 WT24Cl 20 0.30 1.25 1 -20 TO +70 1.0 X 1.49 X .89
25.50-26.50 WR42 WT24C2 20 0.30 1.25 1 -20 TO +70 1.0 X 1.49 X .89
26.50-27.50 WR28 WT26A4 20 0.30 1.25 1 -20 TO +70 .75 X 1.40 X .75
27.50-28.50 WR28 WT27C2 20 0.30 1.25 I -20 TO +70 .75 X 1.40 X .75
28.50-29.50 WR28 WT28AI 20 0.30 1.25 1 -20 TO +70 .75 X 1.40 X .75
31.00-31.80 WR28 WTIIA3
SONOMA SCIENTIFIC, INC
.851-.869 CY8Kl 20 0.30 1.25 160 OTO + 85 lC
.860-.890 TX8M6 23 0.35 1.22 65 -20 TO + 70 10
.860-.890 TY8Xl 22 0.35 1.22 5 -25 TO + 70 lC
.860-.890 TY8S2 40 0.60 1.25 65 -20 TO + 70 2B
.860-890 CY8S1 40 0.60 1.25 65 -20 TO + 70 2A
.860-.890 TY8U2 25 0.35 1.25 65 -20 TO +70 10
1.620-1.670 TIAJI 20 0.40 1.25 50 -40TO+85 lA
1.805-1.880 TlAVI 20 0.30 1.25 65 -30 TO + 100 lB
1.930-1.970 TlAV2 20 0.30 1.25 65 -30 TO + 100 lB
1.930-1.990 TlAV3
1.620-1.670 TlAK21 20 0.40 1.25 10 -55 TO + 85 .75 X .75 X .25
1.620-1.670 CIYF1' 23 0.30 1.25 60 -20 TO + 110 .75 X .75 X .30
1.620-1.670 TlYF1' 23 0.30 1.25 10 -20 TO + 110 .75 X .825 X.30
1.620-1.670 TlAZ41 20 0.50 1.25 5 -20 TO + 70 .75 X .83 X .25
1.620-1.670 TlZS1 1 20 0.30 1.25 30 -20 TO + 55 .75 X .90 X .35
1.620-1.670 TlAJl' 20 0.40 1.25 50 -40 TO + 85 .75 X 1.0 X .25
1.620-1.670 TlYQP 20 0.30 1.25 30 -35 TO + 85 1.0 X 1.3 X .35 Ie
1.620-1.670 TlAFP 20 0.20 1.22 40 -55 TO + 85 1.22 X 1.415 X .686
1.620-1.670 TlAF22
1.850-1.910 TlZU20' 20 0.30 1.22 1 OTO+ 70 .75 X .75 X .75
1.850-1.990 TlCNl' 20 0.25 1.22 1 OTO+70 1.0 X 1.0 X .35
1.900-2.300 TlAZ9' 20 0.50 1.20 7 -30TO+75 .75 X .83 X .25
1.930-1.990 CIZlA' 20 0.50 1.25 10 -20TO+70 .577 DlA X 0.21
1.930-1.990 TlZU21' 20 0.30 1.22 1 OTO+70 .75 X .75 X .25
1.930-1.990 ClBC2' 25 0.30 1.20 100 -20TO+70 .75 X .75 X .25
1.930-1.990 CIZU3' 22 0.35 1.17 100 -IOTO+ 70 .75 X .75 X .25
1.930-1.990 ClZU17' 22 0.35 1.20 5 -30 TO + 70 .75 X .75 X .25
1.930-1.990 TlZUl9' 20 0040 1.25 1 -20 TO + 70 .75 X .75 X .25
1.930-1.990 TIAZ5' 20 0.40 1.25 6 OTO+70 .75 X .83X .25
1.930-1.990 TlAZ2' 20 0040 1.25 20 -40TO+95 .75 X .83 X .25
1.930-1.990 TlBQ2' 20 0.40 1.25 45 -20 TO + 70 .75 X 1.0 X .25
1.930-1.990 CIYR4' 25 0.30 1.12 50 -20 TO + 85 .950 DlA. X .35
1.930-1.990 TlARl' 25 0.25 1.15 30 -20 TO + 70 1.0 X 1.0 X .50
1.930-1.990 TlCDl' 20 0.25 1.25 50 OTO+65 1.0 X 1.0 X .50
1.930-1.990 TIAH2' 25 0.30 1.25 50 -20 TO + 85 1.0 X 1.25 X .30
1.930-1.990 TlBJP 23 0.15 1.15 50 -10TO + 85 1.16 X 1.57 X .88
1.930-1.990 CICB54 50 0.50 1.20 10 -20 TO + 70 1.5 X .75 X .25
1.930-1.990 TlBE44 50 0.50 1.20 20 -20 TO + 70 1.5 X .94 X .25
1.930-1.990 TlCB54 50 0.50 1.25 10 -20 TO + 70 1.5 X .94 X .25
1.930-1.990 TlBFl' 23 0.25 1.15 25 -10 TO + 55 1.5 X 1.55X 1.1
1.930-1.990 TlAN3' 25 0.25 1.15 10 -IOTO+60 1.5 X 1.62 X 1.1
1.930-1.990 TICJ32
1.700-1.900 TlAB1' 20 0.40 1.25 I -20TO+70 .75 X .75 X .25
1.700-2.000 TlAU2' 20 0.25 1.25 5 -20 TO + 70 1.5 X 1.61 XLI
1.710-1.850 TlZU12' 22 0.35 1.15 5 -IOTO+60 .75 X .75 X .25
1.750-1850 CIBX3' 20 0.30 1.22 ISO -30 TO + 90 1.0 X 1.0 X .35
1.805-1.880 C1BCI' 25 0.30 1.12 100 -20 TO + 70 .75 X .75 X .25
1.805-1.880 C1ZU2' 23 0.35 1.15 10 -20 TO + 70 .75 X .75 X .25
1.805-1.880 ClZU1' 20 0.40 1.25 40 -20TO+70 .75 X .75 X .25
1.805-1.880 TlZU15' 20 0.30 1.25 2 -20 TO + 70 .75 X .75 X .26
1.805-1.880 TlAZ3' 20 0.40 1.25 6 -20 TO +70 .75 X .83 X .25
1.805-1.880 TIAZJ' 20 0.40 1.25 20 -20 TO + 70 .75 X .83 X .25
1.805-1.880 TIHQI' 20 0.40 1.25 45 -20 TO + 70 .75 X 1.0 X .25
1.805-1.880 TlCP1' 20 0.40 1.25 45 -20 TO + 70 .75 X 1.0 X .25
1.805-1.880 CIYR5' 25 0.30 1.12 50 -20 TO + 85 .950 OIA X .35
1.805-1.880 ClZE2' 20 0.50 1.25 40 -20 TO + 70 .950 orA X .35
1.805-1.880 CIYRI' 22 0.40 !.I 5 10 -10 TO + 85 .950 orA X .35
1.805-1.880 CIAR2' 23 0.30 1.20 45 -20TO+70 1.0 X 1.0 X .50
1.805-1.880 TtAHl' 25 0.30 1.25 50 -20TO+70 1.0 X 1.25 X .25
1.805-1.880 CleBJl 50 0.50 1.20 10 -20 TO + 70 1.5 X .75 X .25
1.805-1.880 TlCBP 50 0.50 1.20 lO -20 TO + 70 1.5 X .94 X .25
1.805-1.880 TIBE23 50 0.50 1.20 20 -20 TO +70 1.5 X .94 X .25
1.805- 1.880 TICBI5 'i0 0.50 1.25 6 -lOTO+80 1.5 X .94 X .25
1.805-1.880 TlANJ1
.800-.970 rrx8ZP 20 0.50 1.25 10 -10 TO +60 1.6 X 1.7 X .45
.825-.960 tY8FP 22 0.40 1.25 lO -30 TO +60 1.6 X 1.7 X .45
.880-.915 [rx9L8' 30 0.50 1.25 5 -20 TO +70 1.0 X 1.0 X .35
.880-.960 hx9L6' 20 0.50 1.25 5 -20 TO +70 1.0 X 1.0 X .35
.890-.960 tX8M24' 20 0.40 1.25 50 -20 TO +70 .950 OIA X .350
.890-.960 tX9A62 20 0.40 1.25 5 OTO+70 1.25 X 1.25 X .56
.917-.960 [rx8H8' 20 0.60 1.25 5 -30 TO +60 787 X .787 X .35
.917-.960 hx9PP 20 0.60 1.30 20 -30 TO +60 1.6 X 1.7 X .45
.925-.960 tX8M35' 20 0.40 1.25 20 -20 TO +70 .950 OIA X .35
.925-.960 hx9Xl' 20 0.30 1.25 12 -20 TO +85 1.0 X 1.25 X .30
.925-.960 tX9L12' 22 0.40 1.25 lO -40 TO +85 1.0 X 1.0 X .35
.925-.960 hx9L9' 30 0.50 1.25 5 -20 TO +60 1.0 X 1.0 X .35
.925-.960 hx9Vl' 20 0.30 1.25 65 -20 TO +85 1.0 X 1.25 X .30
.925-.960 nr9Al' 20 0.25 1.25 5 -30 TO +70 1.25 X 1.25 X .51
.925-.960 tX9Tl' 50 0.60 1.25 15 -20 TO +70 2.0 X 1.0 X .40
.925-.960 [rx9Tl' 50 0.80 1.25 6 -20 TO +70 2.0 X 1.0 X ,40
.925-.960 [rx9YI' 50 0.40 1.15 40 -20 TO +70 3.5 X 2.0 X 1.02
.925-.960 tX9LA' 20 0.40 1.22 30 -20 TO +70 1.0 X 1.0 X .35
.925-960 hY9BI ' 45 0.60 1.25 40 -20 TO +70 2.0 X 1.25 X.40
.928-.960 rrx9N3' 20 0.40 1.25 20 -20 TO +70 1.0 X 1.3 X .35
.935-.960 tX9Fl' 22 0.40 1.15 100 -20 TO +70 .950 OIA X .35
.935-.960 Ir::X9F4' 20 0.35 1.25 40 -20 TO +70 .950 DIA. X .35
.935-.960 tX9Ll' 20 0.35 1.25 40 -lOTO +60 1.0 X 1.0 X .35
.935-.960 rrx8G3' 25 0.40 1.15 65 OTO+70 1.0 X 1.3 X .35
.935-.960 ~X9Rl' 25 0.25 1.20 30 -20 TO +70 1.2 X 1.2 X.5
.935-.960 tX8M8'
.800-.850 TX8M25l 22 0.40 1.25 1 -20 TO +70 .950 DIA X .350
.800-.900 TY8R2' 20 0.40 1.25 1 OTO +50 1.6 X 1.7 X .45
.820-.900 TX8GIOl 20 0.40 1.25 5 OTO +50 1.0 X 1.3 X .35
.824-.849 TY8C2l 18 0.50 1.30 5 -20 TO +70 .787 X .787 X .3
.824-.849 TX8M283 20 0.40 1.25 1 -20 TO +70 .950 DIA X .35
.824-.849 TA8F2' 22 0.30 1.25 65 UTO +<is 1.0 X 1.25 X .3
.824-.849 TY8VP 20 0.30 1.25 1 OTO +<i0 1.0 X 1.25 X.30
.845-.896 TY8DP 20 0.40 1.25 30 -20 TO +90 1.0 X 1.0 X .40
.850-.870 TX8G9l 20 0.40 1.25 75 -30 TO +90 1.0 X 1.3 X .35
.851-.866 TY8C3' 20 0.40 1.25 5 -20 TO +70 .787 X .787 X.31
.851-.866 TY8Z1' 60 0.35 U5 30 OTO +50 3.5 X 2.0 X 1.0
.860-.900 TX8HP 20 0.60 1.30 5 -20 TO +70 .787 X .787 X .35
.860-.900 TX8G2' 25 0.40 1.30 65 -20 TO +70 1.0 X 1.0 X .35
.860-.900 TY8Ll' 20 0.40 1.25 10 -20 TO +70 1.0 X 1.0 X .35
.860-.900 TX8M63 23 0.35 1.25 50 -20 TO +S5 1.0 X 1.25 X .3
.860-.900 TX8G7' 20 0.40 1.25 50 OTO+SO 1.0 X 1.3.X .35
.860-.960 TASCi' 23 0.35 1.25 6 -20 TO +70 1.0 X 1.0 X.4
.864-.868 TX8M29' 23 0.40 1.15 l -20 TO +70 .950 DIA X .350
.86S-.895 TY8Al' 23 0.40 1.15 8 OTO+70 1.0 X 1.0 X .57
.869-.894 TX8M273 20 0.40 1.25 1 -20 TO +70 .950 DfA X .350
.869-.894 TASFP 22 0.30 1.25 65 OTO+75 1.0 X 1.25 X .3
.869-.895 TA8Hl'
770-.790 CX7HI 23 0.50 \.15 10 -20 TO +70 .950 X DIA .350
800-.850 CX8M21 22 0.40 1.25 200 -20 TO +70 .950 DIA X .350
800-.894 CX8M26 18 0.50 1.30 200 -20 TO +70 .950 DIA X .350
805-.815 CX8M18 23 0.40 1.15 200 -20 TO +70 .950 X DIA .350
806-.870 CX8M7 20 0040 1.25 5 -20 TO +70 .950 DIA X .350
820-.900 CX8M22 20 0.30 1.25 20 -10 TO +85 .950 DIA X .350
820-.900 CX8MI4 20 0.50 1.25 200 -20 TO +70 .950 DIA X .350
820-.900 CY8F4' 20 0.30 1.25 300 -20 TO +70 1.6 X 1.7 X .45
824-.849 CX8MI9 20 0.40 1.25 10 -30 TO +60 .950 DIA X .350
824-.849 CX8Mll 18 0.50 1.30 100 -20 TO +70 .950 DIA X .350
824-.849 CX8M23 25 0.30 1.25 50 -20 TO +70 .950 X DIA .350
824-.849 CX8M16 20 0.30 1.25 1 -20 TO +70 .950 X DIA .350
825-.960 CY8Fl' 20 0.40 1.25 10 -20 TO +70 1.6 X 1.7 X .45
849-.851 CX8M9 22 0.40 1.25 200 -20 TO +70 .950 X DIA .350
850-.870 CX8MIO 22 0.40 1.25 200 -30 TO +95 .950 X DIA .350
851-.866 CX8L22 25 0.25 1.15 150 -30 TO +60 1.6 X 1.7 X .45
86Q-.9oo CX8M4 22 0.35 1.25 200 -20 TO +70 .950 DIA X .350
86Q-.9oo CX8M24 20 0.40 1.25 200 -20 TO +70 .950 DIA X .350
865-.900 CX8LP 25 0.25 1.15 300 -30 TO +60 1.6 X 1.7 X .45
872-.950 CX8MI5
1.51 -1.56 C1XM2 NA 0.3 1.25 SMA 20 OTO+60 1.OX1.015x.54
l.SO· 1.66 C1XSl NA 0.3 1.25 NF . 20 OTO.60 1.SOx1.20x.75
1.37·1.58 C1XVJ NA 0.3 1.15 SMA 1 -45 TO.85 1.25xl .25x.60
1.50·1.70 C1ZEl NA 0.3 1.25 TAB 25 -40TO.60 950iax.35
1.20· 1.40 C1XVl NA 0.3 1.15 SMA 80 -45 TO .85 1.25x1.25x.60
2.90· 3.40 C2XJl NA 0.3 1.15 SMA 2 OTO.50 1.25xl .25x.63
2.45 - 2.47 C2XSl NA 0.3 1.25 NFIM 300 OTO.50 1.Oxl .3xl.0
3.70·6.50 C3XMl NA 0.4 1.25 SMA 1 OTO.60 1.0x1.0x.63
4.00·5.00 C4XGl NA 0.3 1.20 SMA 1 OTO.SO 1.0x1.0x.SO
17.SO - 21.SO C18B2 NA 0.5 1.25 SMA 1 OTO+SO .51 x.68x.56
21.20 - 23.60 C21Bl
GHZ) NUMBER
ISOLATION INSERTION VSWR TYPE /WATTS\ TEMPERATURE LxWxH
ISOLATOR (DB) LOSS (DB) AVERAGE RANGE ('C) (IN.)
1.435 - 2.40 T1XLl 20 0.5 1.30 NF-SMA 1 OTO+SO 2.51<2.52xl.0
1.62 - 1.66 T1YFl 25 0.4 1.25 TAB 10 ·20 TO +85 .75x.75x.30
1.70·2.40 T1XHl 20 0.4 1.25 SMA 1 ·20 TO +70 1.saxl .62x.63
1.60 - 1.80 T1XM4 20 0.4 1.25 SMA 2 -54 TO +85 1.0x1.015x.54
1.37·1.58 T1XU3 23 0.3 1.15 SMA 1 OTO+SO 1.25x1.25x.60
1.SO ·2.60 T1XL2 20 0.5 1.25 SMA 1 OTO+70 2.51<2.52x.l0
1.75-1.85 T1YHl 18 0.5 1.30 SMA·TNC 1 OTO+70 1.2xl.85x.95
1.00 - 1.40 T1YGl 16 0.5 1.35 NF lSO OTO+SO 2.0x2.5x.73
1.SO· 1.70 T1Xal 20 0.4 1.25 NF 1 OTO+SO 1.38xl .75x.75
1 40· 1.60 T1XMl 20 0.4 1.25 SMA 1 OTO+50 1.Ox1.01 5x.54
2.20·2.29 T2XF2 20 0.3 1.20 SPEC 1 OTO+50 .75x.75x.SO
2.20·2.30 T2XR4 20 0.5 1.20 TAB 5 -40 TO +70 .75x.75x.32
2.90·3.20 T2X02 18 0.6 1.30 SMA 1 OTO+70 .75x.75x.50
3.10·3.60 T3XHl 20 0.4 1.25 NF 75 OTO+50 1.751<2.25x.75
4.00·6.00 T4XMl 20 0.4 1.25 SMA 1 OTO+SO .71x.98x.75
4.875 - 5.125 T4XBl 20 0.3 1.20 SMA 1 OTO+SO .70x.87x..65
5.40·6.00 T5XMl 20 0.3 1.20 SMA 1 OTO+50 .SOx.6Ox.SO
5.00·7.00 T5YAl 20 0.5 1.25 SMA 1 OTO .SO 1.Oxl .0x.:>O
7.00·9.60 T7XF3 20 0.4 1.25 SMA 1 -54 TO +85 .85xl.OX.63
7.25·7.75 T7XHl 20 0.4 1.20 NM 1 OTO+SO 1.OXl .Oxl.0
7.25 -7.75 T7XK3 20 0.4 1.20 SMA 1 ·10 TO +SO .51 x.68x.56
7.00·11.00 T7XFl 15 0.4 1.30 SMA 30 -SO TO +85 .75xl .Oxl.0
7.40 ·17.50 T7XL1 16 .85 1.40 SMA 1 -10TO +85 .6Ox.77x.54
8.00 - 12.40 T8XOl 18 0.5 1.30 SMA 1 OTO+50 .asxl.16x.63
8.00 - 8.SO TaXRl 40 0.6 1.20 SMA 1 OTO.70 1.5x.9OX.SO
8.00 -18.00 T8XPl 32 1.4 1.35 SMA 1 OTO.SO 1.02x.68x.56
8.00 ? 18.SO T8XSl 16 0.8 1.40 SMA 1 oTO.SO .51 x.68x.56
8.00 - 14.00 T8XL1 17 0.7 1.35 SMA 1 OTO.SO .SOx.58x.30
9.15·9.35 T9XBl 23 0.2 1.15 SMA 1 OTO .SO .70xl.04x.65
9.00 - 13.00 T9XMl 40 1.0 1.25 SMA 1 OTO .SO 1.5x.90x.SO
9.00 - 13.00 T9XNl 20 0.4 1.20 SMA 1 OTO+SO .51x.68x.56
9.30 - 9.40 T9XOl 45 0.5 1.20 SMA 2 ·54 TO +85 1.5x.90x.SO
11.00 - 15.00 T11Al 23 0.5 1.25 SMA 1 OTO+SO .51 x.68x.56
12.SO·13.SO T12L1 25 0.35 1.20 SMA 1 OTO+SO .51 x.68x.56
12.60·13.10 T12Al 40 1.0 1.20 SMA 1 OTO+50 1.5x.90x.SO
17.60·21.60 T17Cl 23 0.5 1.20 SMA 1 OTO+SO .51x.68x.56
19.SO - 2O.SO T20Al
3.10 - 3.50 T4XFl 20 0.4 1.30 I TO +85 .592x.691x.265
T4XE2 20 0.4 1.25 I - .59x.59x.215
4.20 - 4.60 T4XR1 11 0.5 1.4 I 10TO.50 .500 DIAx.250
T5YG1 20 0.5 1.25 1 - .5x.515x. I25
4.40·5.00 T5YPI 20 0.4 1.25 2 10TO+60 .63x.315x.20
4.6 T5XCI 20 0.4 1.20 I . .623 Diax. I 5
·5.3 T5Xel 20 0.5 1.25 2 3OTO.10 .62Ox.315x.2I
5.0· T5XS3 20 0.5 1.25 1 0 .630x.630x.220
6.5 T5XP2 20 0.4 1.25 2 TO +65 .45x.1OX.20
5.2· C5XP1 20 0.4 1.25 3 - .50 Dia.x.I5
5.9 T5XPI 20 0.4 1.20 2 20 TO .10 .5Ox.10x.2O
T5YR2 20 0.4 1.25 2 - .315x.62x.21
5.40 - 5.60 T5XAI 20 0.4 1.20 2 2OTO.10 .623 Dia.x.15
T6XEl 18 0.6 1.30 I - .5Ox.50x.2O
5.40 - 5.90 T6XF2 20 0.5 1.30 I 40TO.10 .45x.1OX.2O
5.6 T1XCI 20 0.5 1.25 I . .4OX.50x.25
7.1 T1XPI 20 0.4 1.25 I 30 TO .10 .375x.60x.2O
T1XW1 10 0.4 1.25 2 - .35Ox.600x.200
5.825 - 6.425 T1XM2 20 0.5 1.20 I 4OTO.10 .63x.62x.23
T8XJ1 20 0.4 1.25 I - .350x.310x.100
5.825 ? 6.425 T9XRl 20 0.4 1.25 I 4OTO.10 .35x.6OX.20
5.90 T9XEl
.800 -.900 TX8NI 20 0.5 1.25 1 -20 TO +70 1.5x1.5x.3O
.824 - .849 TX8H2 18 0.6 1.25 10 -20 TO +70 .787x.787x.35
.850 - .870 TX8G5 20 0.4 1.25 100 -20 TO +70 1.0xl.3x.35
.850- .870 TX8Jl 40 0.7 1.25 55 -20 TO +70 3.9xl.73x.70
.850- .894 TX8Ul 40 1.0 1.30 50 ·20 TO +70 1.5xl.5x.50
.860 -.900 TX8G7 20 0.5 1.25 50 -20 TO +70 1.OX1.3x.35
.860 -.900 TX8Hl 20 0.6 1.30 5 -20 TO +70 .787x.787x.35
.860- .900 CX8Hl NA 0.8 1.30 25 -20 TO +70 ·787x.787x.35
.860- .900 TX8G2 25 0.4 1.30 65 -20 TO +70 1.OX1.3x.35
.860- .900 CXaM5 NA 0.35 125 200 -20 TO +70 .950 Cia. x.35
.860 -.900 TX8M6 23 0.35 1.25 50 -20 TO +70 1.OXl25x.3O
.860 -.900 CX8H4 NA 0.6 1.30 10 -20 TO +70 ·787x.787x.35
.869- .894 TX8G6 23 0.35 1.15 10 -20 TO +70 1.0xl.3x.35
.870- .895 TX8T1 40 0.9 1.30 10 -20 TO +70 .965x1. 1x.60
.872 - .915 TX8H7 20 0.6 1.30 5 -20 TO +70 ·787x.787x.35
.890- .915 TX8H5 20 0.6 1.30 5 -20 TO +70 ·787x.787x.35
.895- .935 CX9Kl NA 0.4 125 100 -20 TO +70 1.OX1.Ox.35
.900 - .930 CX9F2 NA 0.4 1.25 100 -20 TO +70 .950 Cia x.35
.915- .917 TX8G4 30 0.5 1.25 1 -20 TO +70 1.OX1.3x.35
.915- .917 TX9Jl 29 0.5 125 1 -20 TO +70 ·780x.780x.3O
.917- .953 CX9El NA 0.4 1.40 100 -20 TO +70 .950 Dis x.35
.917 - .960 TX8H8 20 0.6 1.30 5 -20 TO +70 .787x.787x.35
.935- .960 TX8G3 25 0.4 1.25 65 -20 TO +70 1.0xl.3x.35
.935- .960 CX9Fl NA 0.4 1.15 100 -20 TO +70 .950 Oia x.35
1.435 ? 1.545 T1ZGl 20 0.5 1.25 10 ·20 TO +70 .75x.75x.31
1.50-1.70 C1ZEl NA 0.4 1.25 25 -20 TO +70 .950 Dia x.35
1.53-1.56 T1XPl 20 0.4 1.25 1 -20 TO +70 1.2xl.2x.50
1.60- 1.64 TWOl 20 0.3 1.20 . 50 ·20 TO +70 12xl.2x.50
1.62 -1.66 T1YFl 20 0.3 1.25 10 -20 TO +70 .75x.825x.3O
1.62-1.66 C1YFl NA 0.3 1.25 60 -20 TO +70 .75x.75x.3O
1.62 -1.67 T1YQl 20 0.3 1.20 30 -20 TO +70 1.0xl.3x.35
1.70-2.10 T1YCl 20 0.5 1.20 5 -20 TO +70 1.18x1.48x.56
1.71-1.85 T1ZHl 20 0.7 1.25 10 -20 TO +70 .75x.75x.31
1.80-1.90 C1ZBl
Drop-in Isolators & Circulators .750 Package
Model Number
Frequecy (GHz)
Isolation (dB Min)
Ins. Loss (dB Max)
VSWR (Max)
Operating Temp (°C)
Power Watts (Avg)
Outline
C1BC5
1.330-1.530
20
0.4
1.22
-10 +70
10W
1
T1AZ14
1.350-1.520
20
0.5
1.25
-20 +70
1W
2
T1AZ6
1.375-1.535
20
0.5
1.25
-40 +85
10W
2
C1BC18
1.525-1.660
20
0.4
1.22
-40 +85
5W
1
C1BC14
1.610-1.630
20
0.4
1.22
-35 +70
80W
1
T1AZ13
1.620-1.680
20
0.5
1.25
-20 +70
1W
2
T1AZ23
1.627-1660
23
0.4
1.15
-20 +70
20W
2
T1AZ11
1.700-1.920
20
0.4
1.22
-20 +70
1W
2
C1BC20
1.710-1.785
23
0.3
1.17
-20 +70
1W
1
C1BC6
1.710-1.850
20
0.4
1.22
-20 +70
10W
1
C1BC17
1.710-1.880
20
0.4
1.25
-40 +85
20W
1
C1BC8
1.710-1.910
20
0.5
1.22
-20 +70
1W
1
C1BC13
1.800-1.900
20
0.4
1.22
-20 +70
50W
1
T1AZ10
1.800-2.000
20
0.4
1.25
-20 +70
1W
2
C1BC1
1.805-1.880
25
0.3
1.20
-20 +80
100W
1
T1AZ21
1.830-1880
25
0.3
1.12
-20 +80
10W
2
T1AZ15
1.850-1.910
23
0.35
1.20
-40 +85
1W
2
T1AZ9
1.900-2.300
20
0.5
1.20
-30 +75
10W
2
C1CB22
1.910-1.970
20
0.4
1.22
-20 +70
60W
1
T1AZ22
1.920-2000
25
0.3
1.12
-30 +80
10W
2
C1BC2
1.930-1.990
25
0.3
1.20
-20 +70
100W
1
T2AA3
2.100-2.200
20
0.3
1.25
-20 +70
20W
2
T2AG1
2.120 -2.200
25
0.35
1.15
-30 +85
10W
1
T2AG2
2.200-2.300
20
0.5
1.30
-40 +85
8W
1
T2AA2
2.200-2.500
20
0.5
1.25
-20 +70
5W
2
C2AB4
2.200-2300
25
0.3
1.12
-40 +85
50W
1
C2AE1
2.206-2.216
20
0.35
1.25
-30 +85
100W
1
C2AG5
2.250-2.650
20
0.5
1.25
-20 +80
5W
1
T2AA1
2.300-2.500
20
0.4
1.25
-20 +80
20W
2
C2AB2
2.300-2700
20
0.4
1.22
-20 +70
1W
1
T2AA4
2.400-2.500
20
0.3
1.25
-20 +70
20W
2
T2AA10
2.400-2.700
20
0.4
1.25
-20 +70
1W
2
C2AB1
2.500-2700
20
0.5
1.22
-30 +70
1W
1
T2AA6
2.700-3.100
20
0.3
1.25
-20 +70
10W
2
T3ZH11
3.094-3.505
21
0.6
1.25
-20 +70
1W
2
T3ZH13
3.100-3.600
20
0.5
1.25
-20 +70
15W
2
T3ZH14
3.300-4.300
20
0.4
1.25
-20 +70
1W
2
T3ZH6
3.350-3.550
20
0.4
1.22
-20 +70
20W
2
T3ZH4
3.400-3.600
20
0.3
1.25
-30 +70
10W
2
T3ZH9
3.400-4.200
20
0.4
1.25
-20 +70
20W
2
T3ZH2
C1BC24
RWF111 + Ember EM250: for ZigBee AMR
- RWF111 + Radio Pulse MG2455: for ZigBee
- RIF211 + TI/Chipcon CC2430/CC2400: for ZigBee and Binary-CDMA
- RIF211 + Jennic JN5139: for ZigBee
- RIF211 + Elan(EMC) EM198810: for 2.4GHz
- RIF211 + Nordic nRF24Z1: for Wireless Audio
- RIF211 + Nordic nRF24L01: for Wireless Data Streaming
RIM541 RF
nRF24L01 transceiver
RIM512 RF
RIM511
RBT811
RBS681
RBS671
RBS661
RBS641
RBS631 is
RBS611
PLV395 RFHIC 现货原装 08+
PLV160 RFHIC 现货原装 08+
PLV63 RFHIC 现货原装 08+
PLN25 Prewell 现货原装 08+
PLN20 Prewell 现货原装 08+
PLF25A Prewell 现货原装 08+
PLF20A Prewell 现货原装 08+
PLF18A Prewell 现货原装 08+
PLF16A Prewell 现货原装 08+
PLF09A Prewell 现货原装 08+
PLF08A Prewell 现货原装 08+
PS101-63 Prewell 现货原装 08+
PS103-63 Prewell 现货原装 08+
PS201-63 Prewell 现货原装 08+
PS204-63 Prewell 现货原装 08+
PS301-63 Prewell 现货原装 08+
PS304-63 Prewell 现货原装 08+
PS202 Prewell 现货原装 08+
PS205 Prewell 现货原装 08+
PS302 Prewell 现货原装 08+
PS303 Prewell 现货原装 08+
PS305 Prewell 现货原装 08+
PS401 Prewell 现货原装 08+
PS403 Prewell 现货原装 08+
PS404 Prewell 现货原装 08+
PW210 Prewell 现货原装 08+
PW250 Prewell 现货原装 08+
PW290 Prewell 现货原装 08+
PW350 Prewell 现货原装 08+
PW370 Prewell 现货原装 08+
PW410 Prewell 现货原装 08+
PW570 Prewell 现货原装 08+
PH230 Prewell 现货原装 08+
PH330 Prewell 现货原装 08+
PH435 Prewell 现货原装 08+
PH465 Prewell 现货原装 08+
PH480 Prewell 现货原装 08+
PH485 Prewell 现货原装 08+
PH520 Prewell 现货原装 08+
PH530-S8
PSV-5N745
PSV-5N760
PSV-5N815
PSV-5N860
PSV-5N1605
PSV-5N1705
PSV-5N1735
PSV-5N1815
PSV-5N1845
PSV-5N2035
1025. EU698048
1029. EU698049
1035. EU698050
1051. EU698051
1060. EU698052
1081. EU698053
1105. EU698054
1109. EU698055
1114. EU698056
1122. EU698057
1131. EU698058
1132. EU698059
1137. EU698060
1140. EU698061
1144. EU698062
1148. EU698063
1152. EU698064
1153. EU698065
1159. EU698066
1160. EU698067
1166. EU698068
1173. EU698069
1179. EU698070
1183. EU698071
1185. EU698072
1191. EU698073
1201. EU698074
1203. EU698075
1206. EU698076
1212. EU698077
1215. EU698078
1216. EU698079
1219. EU698080
1223. EU698081
1229. EU698082
2001. EU698083
2010. EU698084
2011. EU698085
2012. EU698086
2014. EU698087
2015. EU698088
2038. EU698089
2052. EU698090
2066. EU698091
2086. EU698092
2116. EU698093
2140. EU698094
2142. EU698095
2155. EU698096
2309. EU698097
2350. EU698098
2373. EU698099
2379. EU698100
2424. EU698101
2430. EU698102
2437. EU698103
2438. EU698104
2497. EU698105
2512. EU698106
2514. EU698107
252. EU698108
2633. EU698109
2636. EU698110
2638. EU698111
2647. EU698112
2650. EU698113
2651. EU698114
2688. EU698115
2689. EU698116
2693. EU698117
2708. EU698118
272. EU698119
2722. EU698120
2730. EU698121
2732. EU698122
985. EU698123
986. EU698124
J114 EU698125
J116 EU698126
J57 EU698127
PS003 EU698128
PS004 EU698129
PS012 EU698130
PS019 EU698131
file gag1-cds.sqn:
1003. EU698132
1029. EU698133
1048. EU698134
1051. EU698135
1058. EU698136
1060. EU698137
1063. EU698138
1073. EU698139
1081. EU698140
1093. EU698141
1114. EU698142
1116. EU698143
1117. EU698144
1118. EU698145
1122. EU698146
1132. EU698147
1133. EU698148
1137. EU698149
1138. EU698150
1140. EU698151
1148. EU698152
1152. EU698153
1153. EU698154
1158. EU698155
1160. EU698156
1173. EU698157
1185. EU698158
1201. EU698159
1204. EU698160
1206. EU698161
1219. EU698162
1231. EU698163
1232. EU698164
2013. EU698165
2014. EU698166
2015. EU698167
2017. EU698168
2038. EU698169
2098. EU698170
2213. EU698171
2245. EU698172
2256. EU698173
2344. EU698174
2373. EU698175
2446. EU698176
2497. EU698177
2514. EU698178
2590. EU698179
2635. EU698180
2637. EU698181
2638. EU698182
2647. EU698183
2651. EU698184
2688. EU698185
2702. EU698186
2711. EU698187
2720. EU698188
2732. EU698189
985. EU698190
A010 EU698191
A044 EU698192
A105 EU698193
A1109 EU698194
A1179 EU698195
A1186 EU698196
A1214 EU698197
A122 EU698198
A1335 EU698199
A1336 EU698200
A1347 EU698201
A1348 EU698202
A182 EU698203
A280 EU698204
A362 EU698205
A373 EU698206
A654 EU698207
A774 EU698208
A866 EU698209
A945 EU698210
J129 EU698211
PS002 EU698212
PS004 EU698213
PS009 EU698214
PS010 EU698215
PS011 EU698216
PS012 EU698217
PS019 EU698218
PS022 EU698219
PS028 EU698220
PS029 EU698221
PS031 EU698222
PS033 EU698223
PS035 EU698224
PS037 EU698225
PS038 EU698226
PS039 EU698227
PS041 EU698228
PS047 EU698229
PS053 EU698230
PS058 EU698231
PS060 EU698232
PS061 EU698233
PS062 EU698234
PS064 EU698235
PS065 EU698236
PS068 EU698237
PS069 EU698238
PS072 EU698239
PS076 EU698240
PS080 EU698241
PS087 EU698242
PS090 EU698243
PS093 EU698244
PS096 EU698245
PS098 EU698246
PS106 EU698247
PS107 EU698248
PS109 EU698249
PS110 EU698250
PS117 EU698251
PS120 EU698252
PS121 EU698253
PS129 EU698254
PS134 EU698255
PS137 EU698256
PS138 EU698257
PS139 EU698258
PS141 EU698259
PS142 EU698260
PS144 EU698261
PS145 EU698262
PS146 EU698263
PS147 EU698264
PS148 EU698265
PS150 EU698266
PS153 EU698267
PS156 EU698268
PS158 EU698269
PS159 EU698270
PS162 EU698271
PS163 EU698272
PS171 EU698273
PS173 EU698274
PS174 EU698275
PS175 EU698276
PS179 EU698277
PS180 EU698278
PS181 EU698279
PS182 EU698280
PS183 EU698281
PS184 EU698282
PS186 EU698283
PS191 EU698284
PS192 EU698285
PS203 EU698286
PS207 EU698287
PS209 EU698288
PS212 EU698289
PS213 EU698290
PS219 EU698291
PS300 EU698292
PS301 EU698293
PS305 EU698294
PS350 EU698295
PS351 EU698296
PS354 EU698297
PS356 EU698298
PS357 EU698299
PS358 EU698300
PS361 EU698301
PS362 EU698302
PS363 EU698303
PS365 EU698304
PS367 EU698305
PS368 EU698306
PS369 EU698307
PS370 EU698308
PS372 EU698309
PS373 EU698310
PS374 EU698311
PS376 EU698312
PS377 EU698313
PS379 EU698314
PS381 EU698315
PS383 EU698316
PS384 EU698317
PS386 EU698318
PS387 EU698319
PS390 EU698320
PS392 EU698321
PS393 EU698322
PS394 EU698323
PS395 EU698324
PS396 EU698325
PS397 EU698326
PS398 EU698327
PS399 EU698328
PS400 EU698329
PS401 EU698330
PS402 EU698331
PS403 EU698332
PS404 EU698333
PS405 EU698334
PS406 EU698335
PS407 EU698336
PS408 EU698337
PS409 EU698338
PS411 EU698339
PS412 EU698340
PS414 EU698341
PS415 EU698342
PS417 EU698343
PS418 EU698344
PS420 EU698345
PS421 EU698346
PS422 EU698347
PS424 EU698348
PS425 EU698349
PS426 EU698350
PS427 EU698351
PS428 EU698352
PS434 EU698353
PS436 EU698354
PS437 EU698355
PS438 EU698356
PS439 EU698357
PS441 EU698358
PS442 EU698359
PS443 EU698360
PS444 EU698361
PS445 EU698362
PS447 EU698363
PS449 EU698364
PS450 EU698365
PS451 EU698366
PS452 EU698367
PS455 EU698368
PS456 EU698369
PS457 EU698370
PS461 EU698371
PS462 EU698372
SK002 EU698373
SK035 EU698374
SK045 EU698375
SK059 EU698376
SK074 EU698377
SK119 EU698378
SK187 EU698379
SK218 EU698380
file gag2-cds.sqn:
1003. EU698381
1029. EU698382
1048. EU698383
1051. EU698384
1058. EU698385
1060. EU698386
1063. EU698387
1073. EU698388
1081. EU698389
1093. EU698390
1114. EU698391
1116. EU698392
1117. EU698393
1118. EU698394
1122. EU698395
1132. EU698396
1133. EU698397
1137. EU698398
1138. EU698399
1140. EU698400
1148. EU698401
1152. EU698402
1153. EU698403
1158. EU698404
1160. EU698405
1173. EU698406
1185. EU698407
1201. EU698408
1204. EU698409
1206. EU698410
1219. EU698411
1231. EU698412
1232. EU698413
2013. EU698414
2014. EU698415
2015. EU698416
2017. EU698417
2038. EU698418
2098. EU698419
2213. EU698420
2245. EU698421
2256. EU698422
2344. EU698423
2373. EU698424
2446. EU698425
2497. EU698426
2514. EU698427
2590. EU698428
2635. EU698429
2637. EU698430
2638. EU698431
2647. EU698432
2651. EU698433
2688. EU698434
2702. EU698435
2711. EU698436
2720. EU698437
2732. EU698438
985. EU698439
A010 EU698440
A011 EU698441
A044 EU698442
A105 EU698443
A1109 EU698444
A1179 EU698445
A1186 EU698446
A1214 EU698447
A122 EU698448
A1335 EU698449
A1336 EU698450
A1347 EU698451
A1348 EU698452
A182 EU698453
A280 EU698454
A362 EU698455
A373 EU698456
A654 EU698457
A774 EU698458
A866 EU698459
A945 EU698460
J129 EU698461
PS002 EU698462
PS004 EU698463
PS009 EU698464
PS010 EU698465
PS011 EU698466
PS012 EU698467
PS019 EU698468
PS022 EU698469
PS028 EU698470
PS029 EU698471
PS031 EU698472
PS033 EU698473
PS035 EU698474
PS037 EU698475
PS038 EU698476
PS039 EU698477
PS041 EU698478
PS047 EU698479
PS053 EU698480
PS058 EU698481
PS060 EU698482
PS061 EU698483
PS062 EU698484
PS064 EU698485
PS065 EU698486
PS068 EU698487
PS069 EU698488
PS072 EU698489
PS076 EU698490
PS080 EU698491
PS087 EU698492
PS090 EU698493
PS093 EU698494
PS096 EU698495
PS098 EU698496
PS101 EU698497
PS106 EU698498
PS107 EU698499
PS109 EU698500
PS110 EU698501
PS117 EU698502
PS120 EU698503
PS121 EU698504
PS129 EU698505
PS134 EU698506
PS137 EU698507
PS138 EU698508
PS139 EU698509
PS141 EU698510
PS142 EU698511
PS144 EU698512
PS145 EU698513
PS146 EU698514
PS147 EU698515
PS148 EU698516
PS150 EU698517
PS153 EU698518
PS156 EU698519
PS158 EU698520
PS159 EU698521
PS162 EU698522
PS163 EU698523
PS171 EU698524
PS173 EU698525
PS174 EU698526
PS175 EU698527
PS179 EU698528
PS180 EU698529
PS181 EU698530
PS182 EU698531
PS183 EU698532
PS184 EU698533
PS186 EU698534
PS191 EU698535
PS192 EU698536
PS203 EU698537
PS207 EU698538
PS209 EU698539
PS212 EU698540
PS213 EU698541
PS219 EU698542
PS300 EU698543
PS301 EU698544
PS305 EU698545
PS350 EU698546
PS351 EU698547
PS354 EU698548
PS356 EU698549
PS357 EU698550
PS358 EU698551
PS361 EU698552
PS362 EU698553
PS363 EU698554
PS365 EU698555
PS367 EU698556
PS368 EU698557
PS369 EU698558
PS370 EU698559
PS372 EU698560
PS374 EU698561
PS376 EU698562
PS377 EU698563
PS379 EU698564
PS381 EU698565
PS383 EU698566
PS384 EU698567
PS386 EU698568
PS387 EU698569
PS390 EU698570
PS392 EU698571
PS393 EU698572
PS394 EU698573
PS395 EU698574
PS396 EU698575
PS397 EU698576
PS398 EU698577
PS399 EU698578
PS400 EU698579
PS401 EU698580
PS402 EU698581
PS403 EU698582
PS404 EU698583
PS405 EU698584
PS406 EU698585
PS407 EU698586
PS408 EU698587
PS409 EU698588
PS411 EU698589
PS412 EU698590
PS414 EU698591
PS415 EU698592
PS417 EU698593
PS418 EU698594
PS420 EU698595
PS421 EU698596
PS422 EU698597
PS424 EU698598
PS425 EU698599
PS426 EU698600
PS427 EU698601
PS428 EU698602
PS430 EU698603
PS434 EU698604
PS436 EU698605
PS437 EU698606
PS438 EU698607
PS439 EU698608
PS441 EU698609
PS442 EU698610
PS443 EU698611
PS444 EU698612
PS445 EU698613
PS447 EU698614
PS449 EU698615
PS450 EU698616
PS452 EU698617
PS455 EU698618
PS456 EU698619
PS457 EU698620
PS461 EU698621
PS462 EU698622
PS463 EU698623
PS465 EU698624
PS599 EU698625
SK002 EU698626
SK035 EU698627
SK045 EU698628
SK059 EU698629
SK074 EU698630
SK119 EU698631
SK187 EU698632
SK218 EU698633
file nef-cds.sqn:
1020. EU698634
1035. EU698635
1048. EU698636
1051. EU698637
1060. EU698638
1068. EU698639
1073. EU698640
1083. EU698641
1093. EU698642
1105. EU698643
1109. EU698644
1114. EU698645
1116. EU698646
1117. EU698647
1122. EU698648
1131. EU698649
1132. EU698650
1133. EU698651
1136. EU698652
1137. EU698653
1138. EU698654
1140. EU698655
1148. EU698656
1152. EU698657
1153. EU698658
1154. EU698659
1159. EU698660
1166. EU698661
1169. EU698662
1173. EU698663
1177. EU698664
1185. EU698665
1190. EU698666
1199. EU698667
1203. EU698668
1206. EU698669
1213. EU698670
1215. EU698671
1216. EU698672
1219. EU698673
1226. EU698674
1227. EU698675
1229. EU698676
1230. EU698677
1231. EU698678
2001. EU698679
2006. EU698680
2010. EU698681
2014. EU698682
2015. EU698683
2017. EU698684
2052. EU698685
2069. EU698686
2086. EU698687
2113. EU698688
2116. EU698689
2140. EU698690
2142. EU698691
2199. EU698692
2203. EU698693
2213. EU698694
2245. EU698695
2250. EU698696
2309. EU698697
2344. EU698698
2350. EU698699
2352. EU698700
2376. EU698701
2424. EU698702
2430. EU698703
2446. EU698704
2514. EU698705
2528. EU698706
2590. EU698707
2637. EU698708
2638. EU698709
2647. EU698710
2650. EU698711
2651. EU698712
2689. EU698713
2693. EU698714
2695. EU698715
2705. EU698716
2708. EU698717
2711. EU698718
2713. EU698719
2719. EU698720
272. EU698721
2720. EU698722
2722. EU698723
2730. EU698724
985. EU698725
986. EU698726
J114 EU698727
J129 EU698728
PS002 EU698729
PS003 EU698730
PS009 EU698731
PS010 EU698732
PS011 EU698733
PS012 EU698734
PS019 EU698735
PS022 EU698736
file pol-cds.sqn:
A010 EU698737
A1109 EU698738
A1179 EU698739
A1186 EU698740
A1214 EU698741
A122 EU698742
A1335 EU698743
A1336 EU698744
A1347 EU698745
A1348 EU698746
A182 EU698747
A280 EU698748
A362 EU698749
A654 EU698750
A774 EU698751
A866 EU698752
A945 EU698753
PS002 EU698754
PS003 EU698755
PS004 EU698756
PS009 EU698757
PS010 EU698758
PS011 EU698759
PS012 EU698760
PS019 EU698761
PS022 EU698762
PS028 EU698763
PS029 EU698764
PS031 EU698765
PS033 EU698766
PS035 EU698767
PS036 EU698768
PS037 EU698769
PS038 EU698770
PS039 EU698771
PS040 EU698772
PS041 EU698773
PS047 EU698774
PS053 EU698775
PS058 EU698776
PS060 EU698777
PS061 EU698778
PS062 EU698779
PS064 EU698780
PS068 EU698781
PS069 EU698782
PS072 EU698783
PS076 EU698784
PS087 EU698785
PS090 EU698786
PS092 EU698787
PS093 EU698788
PS096 EU698789
PS098 EU698790
PS100 EU698791
PS101 EU698792
PS106 EU698793
PS107 EU698794
PS109 EU698795
PS110 EU698796
PS117 EU698797
PS120 EU698798
PS121 EU698799
PS141 EU698800
PS142 EU698801
PS145 EU698802
PS146 EU698803
PS147 EU698804
PS148 EU698805
PS154 EU698806
PS156 EU698807
PS158 EU698808
PS159 EU698809
PS162 EU698810
PS164 EU698811
PS171 EU698812
PS174 EU698813
PS175 EU698814
PS179 EU698815
PS180 EU698816
PS182 EU698817
PS184 EU698818
PS186 EU698819
PS191 EU698820
PS192 EU698821
PS203 EU698822
PS207 EU698823
PS209 EU698824
PS210 EU698825
PS212 EU698826
PS213 EU698827
PS219 EU698828
PS300 EU698829
PS301 EU698830
PS305 EU698831
PS350 EU698832
PS354 EU698833
PS356 EU698834
PS357 EU698835
PS362 EU698836
PS363 EU698837
PS365 EU698838
PS367 EU698839
PS368 EU698840
PS369 EU698841
PS370 EU698842
PS372 EU698843
PS374 EU698844
PS376 EU698845
PS379 EU698846
PS381 EU698847
PS384 EU698848
PS386 EU698849
PS387 EU698850
PS390 EU698851
PS392 EU698852
PS393 EU698853
PS395 EU698854
PS396 EU698855
PS397 EU698856
PS398 EU698857
PS399 EU698858
PS400 EU698859
PS401 EU698860
PS402 EU698861
PS403 EU698862
PS404 EU698863
PS406 EU698864
PS407 EU698865
PS409 EU698866
PS411 EU698867
PS412 EU698868
PS414 EU698869
PS420 EU698870
PS421 EU698871
PS425 EU698872
PS430 EU698873
PS434 EU698874
PS437 EU698875
PS438 EU698876
PS439 EU698877
PS442 EU698878
PS443 EU698879
PS445 EU698880
PS447 EU698881
PS449 EU698882
PS450 EU698883
PS452 EU698884
PS456 EU698885
PS457 EU698886
PS463 EU698887
PS465 EU698888
PW110 (DC-1GHz,Gain 26, P1dB 19, OIP3 33), SGA6586
PW210 (DC-3GHz,Gain 21, P1dB 16, OIP3 30), ECG001, ECG002,
NGA-386, GALI-33, GALI-55, HMC476, CGY62E6327, AGB3306, NBB-400
PW250 (DC-3GHz,Gain 18.5, P1dB 16, OIP3 30), ECG004, ECG006,
NGA-386, SGA-4286, SGA-4386, SGA-4486, GALI-19, GALI-29, GALI-S66,
ERA-33SM, CGY62E6327, RF3377
PW350(DC-3GHz,Gain 16.5, P1dB 17.5, OIP3 33), AG603, SGA5389,
SGA5489, GALI-3, GALI-4, GALI-5, HMC308, HMC311ST89, MBB-300, NLB-400
PW370(DC-3GHz,Gain 14.5, P1dB 17.5, OIP3 33), AG402, SGA5289,
GALI-1, GALI-2, GALI-21, MAV-11, RF3375, NLB-300, NLB-310
PW410(DC-3GHz,Gain 20.5, P1dB 19, OIP3 35), AG604, ECG005, EC1019,
SBW5089, SGA5489, SGA6489, SGA6589, GALI-5, GALI-59, HMC478, HMC479,
HMC480, HMC481, AGB3302, RF3374, NBB-500
PW450(DC-3GHz,Gain 18, P1dB 19, OIP3 35), AG603, AH2, AD10000, AP112
PW470(DC-3GHz,Gain 16, P1dB 19, OIP3 35), AG402, ECG040B, SBA4089,
SBB4089, SGA6289, SGA6389, AD10000, AP112
PW510(DC-3GHz,Gain 20.5, P1dB 20, OIP3 38)
PW550(DC-3GHz,Gain 18.2, P1dB 20, OIP3 38)
PW570(DC-3GHz,Gain 16.2, P1dB 20, OIP3 38)
PH230(1.5-2.5GHz,Gain 17, P1dB 22.5, OIP3 38) AM1, AH110, ECG014, HMC482, HMC478
PH430(1.5-2.5GHz,Gain 16.5, P1dB 25, OIP3 41) AH1, AH114, AH118,
ECG015, SXA389, HMC454, RF3315
PLF08A 800-900MHz 21.0 0.75 13.0 25.5 3 3 52 10x10x4 (mm)
PLF09A 880-1000MHz 20.0 0.75 13.0 25.5 3 3 52 10x10x4 (mm)
PLF16A 1500-1700MHz 16.5 0.80 14.0 27.5 3 3 35 10x10x4 (mm)
PLF18A 1750-1870MHz 15.3 0.80 14.0 29.0 3 3 35 10x10x4 (mm)
PLF20A 1920-2170MHz 14.4 0.80 14.0 29.0 3 3 35 10x10x4 (mm)
PLF25A 2300-2700MHz 13.0 0.90 14.0 29.0 3 3 30 10x10x4 (mm)
PG211 5 ~ 4000 MHz 21.8 3.5 13.9 25.7 4.5 4.5 35 SOT-89
PG311 5 ~ 4000 MHz 22.5 3.4 15.4 28.0 4.5 4.5 45 SOT-89
PG311 5 ~ 4000 MHz 22.7 3.5 18.5 32.8 5.0 4.7 60 SOT-89
PG331 5 ~ 4000 MHz 20.0 3.9 15.5 28.5 4.5 4.5 47 SOT-89
PG331 5 ~ 4000 MHz 20.2 4.0 18.0 33.0 5.0 4.8 60 SOT-89
PG371 5 ~ 4000 MHz 15.5 4.9 15.6 29.8 4.5 4.5 45 SOT-89
PG371 5 ~ 4000 MHz 15.7 5.0 17.5 33.9 5.0 4.8 60 SOT-89
PG411 5 ~ 4000 MHz 21.4 3.7 16.4 29.5 4.5 4.5 53 SOT-89
PG411 5 ~ 4000 MHz 21.5 3.8 18.8 34.6 5.0 4.7 70 SOT-89
PG471 5 ~ 4000 MHz 16.7 4.5 16.7 31.5 4.5 4.5 55 SOT-89
PG471 5 ~ 4000 MHz 16.8 4.7 18.4 35.3 5.0 4.7 68 SOT-89
PS101-63 DC-4000MHz 17.8 2.5 8.2 21.3 4.5 3.25 21 SOT-363
PS103-63 DC-4000MHz 21.0 2.1 8.5 21.2 4.5 3.35 21 SOT-363
PS201-63 DC-4000MHz 18.4 2.5 13.5 27.0 4.5 3.45 35 SOT-363
PS202 DC-4000MHz 18.6 2.5 13.0 26.5 4.5 3.3 35 SOT-89
PS204-63 DC-4000MHz 21.8 2.1 13.1 26.0 4.5 3.47 34 SOT-363
PS205 DC-4000MHz 22.2 2.1 13.0 26.4 4.5 3.5 35 SOT-89
PS301-63 DC-4000MHz 18.5 2.5 14.7 27.8 4.5 3.5 45 SOT-363
PS302 DC-4000MHz 18.7 2.5 14.0 28.4 4.5 3.4 45 SOT-89
PS303 DC-1000MHz 23.3 2.1 15.0 29.0 4.5 3.4 45 SOT-89
PS304-63 DC-4000MHz 22.2 2.3 15.0 27.7 4.5 3.5 45 SOT-363
PS305 DC-4000MHz 22.5 2.2 15.0 28.2 4.5 3.5 45 SOT-89
PS401 DC-4000MHz 19.0 2.5 15.0 29.5 4.5 3.7 60 SOT-89
PS403 DC-1000MHz 24.0 2.1 16.0 31.5 4.5 3.5 60 SOT-89
PS404 DC-4000MHz 22.4 2.3 15.0 29.2 4.5 3.6 59 SOT-89
PW110 DC-1000MHz 26.0 1.7 18.9 33.5 8.0 4.74 68 SOT-89
PW112 DC-1000MHz 26.0 3.1 19.5 35.7 5 4.74 86 SOT-89
PW113 DC-1000MHz 22.0 3.6 20.0 39.0 5.0 4.7 88 SOT-89
PW114 DC-1000MHz 19.1 3.6 19.7 40.0 5 4.8 86 SOT-89
PW115 DC-1000MHz 15.9 4.0 19.3 41.0 5 4.78 86 SOT-89
PW116 DC-1000MHz 26.6 2.8 20.0 40.0 5 4.61 108 SOT-89
PW117 DC-1000MHz 16.0 4.1 19.5 42.5 5.0 4.7 105 SOT-89
PW118 DC-500MHz 29.0 2.8 20.8 40.0 5.0 4.6 115 SOT-89
PW119 DC-500MHz 22.1 2.9 20.5 42.0 5.0 4.66 115 SOT-89
PW210 DC-4000MHz 21.0 3.0 16.0 30.0 5.0 4.7 46 SOT-89
PW250 DC-4000MHz 18.5 3.3 16.0 30.0 6.0 4.7 46 SOT-89
PW350 DC-4000MHz 16.7 3.3 17.6 33.5 5.3 4.8 58 SOT-89
PW370 DC-4000MHz 14.8 3.6 17.7 32.5 5.3 4.8 58 SOT-89
PW410 DC-4000MHz 20.5 3.4 19.0 35.5 5.3 4.9 70 SOT-89
PW450 DC-4000MHz 18.0 3.7 18.5 35.5 5.0 4.9 69 SOT-89
PW470 DC-4000MHz 16.0 3.5 19.2 35.0 5.3 5.0 69 SOT-89
PW510 DC-4000MHz 20.5 3.4 20.0 38.0 6.0 5.4 85 SOT-89
PW550 DC-4000MHz 18.2 3.5 20.0 37.5 6.0 5.3 85 SOT-89
PW570 DC-4000MHz 16.4 3.5 20.0 37.8 6.0 5.4 85 SOT-89
PH230 1500-3000MHz 17.2 3.2 22.5 38.0 5.0 5.0 82 SOT-89
PH330 500-3000MHz 14.5 3.0 22.5 41.5 5.0 5.0 110 SOT-89
PH435 1500-3000MHz 16.8 3.1 25.5 42.0 5.0 5.0 152 SOT-89
PH465 500-3000MHz 15.0 3.2 25.1 41.5 5.0 5.0 148 SOT-89
PH530-23 800-3000MHz 13.8 3.9 30.0 44.0 5.0 5.0 262 SOT-223
PH530-S8 800-3000MHz 15.7 3.9 29.5 46.0 5.0 5.0 260 SOIC-8
PH630-23 800-3000MHZ 12.8 4.3 31.5 49.0 5.5 5.5 350 SOT-223
PH630-S8 800-3000MHz 14.5 4.5 30.7 48.5 5.5 5.5 350 SOIC-8
PW120 DC-1000MHz 19.5 2.8 18.9 33.0 8.0 4.7 68 SOT-89
PW125 DC-1000MHz 21.2 2.8 5 4.5 120 SOT-89
PW450 DC-1000MHz 18.2 3.5 19.0 35.0 6.0 4.9 70 SOT-89
PW470 DC-1000MHz 15.9 3.5 19.0 35.0 6.0 5.0 70 SOT-89
PW510 DC-1000MHz 20.9 3.4 20.0 37.0 6.0 5.4 85 SOT-89
PW550 DC ~ 1000 MHz 18.4 3.4 20.0 37.0 6.0 5.3 85 SOT-89
PLD20RA1030
PLD20RA1030JC
PLD20RA10-30JC
PLD20RA1030PC
PLD20RA10-30PC
PLD20RA10-30PC
PLD20RA1035DMB
PLD20RA10-35DMB
PLD20RA10-35WMB
PLD20S
PLD20V815NS
PLD20V8A10LL
PLD20V8A-10LL
PLD20V8H-
PLD20V8H15JC
PLD20V8H-15JC
PLD21A29
PLD-21A29
PLD21A29W
PLD-21A29W
PLD21N30
PLD-21N30
PLD21N30P
PLD-21N30P
PLD21N30W
PLD-21N30W
PLD22
PLD-22
PLD22V10
PLD22V10-1
PLD22V10-10
PLD22V10150
PLD22V10-150
PLD22V1025
PLD22V10-25
PLD22V107
PLD22V10-7
PLD24
PLD240
PLD2-40
PLD24R
PLD24SZ
PLD-24SZ
PLD24SZP
PLD-24SZP
PLD24SZ-P
PLD24SZR
PLD24SZ-R
PLD24SZ-R24SZ-R
PLD2571
PLD26R
PLD26S
PLD26V12-20
PLD27128A
PLD278001
PLD27A35
PLD-27A35
PLD27A35P
PLD-27A35P
PLD27A35P-DB
PLD27A35W
PLD-27A35W
PLD27N35D
PLD27N35EP
PLD-27N35EP
PLD27N35ER
PLD-27N35ER
PLD27N35P
PLD-27N35P
PLD27N36
PLD-27N36
PLD27N36P
PLD-27N36P
PLD27N36W
PLD-27N36W
PLD-28
PLD2-80MD2X40
PLD28PL24DP
PLD-28PL-24DP
PLD28PL-24DP
PLD29
PLD-29
PLD2OV8H15JC
PLD2R2M250
PLD2S
PLD-3
PLD30
PLD300525PC2
PLD-301-060FIND9
PLD3020-01
PLD3042
PLD3042APQ100-6
PLD3064
PLD3064V
PLD3090
PLD309P300UG
PLD30C
PLD30R
PLD30S
PLD31
PLD20RA1030, PLD20RA1030, PLD20RA1030
PLD20RA1030JC, PLD20RA1030JC, PLD20RA1030JC
PLD20RA10-30JC, PLD20RA10-30JC, PLD20RA10-30JC
PLD20RA1030PC, PLD20RA1030PC, PLD20RA1030PC
PLD20RA10-30PC, PLD20RA10-30PC, PLD20RA10-30PC
PLD20RA10-30PC , PLD20RA10-30PC , PLD20RA10-30PC
PLD20RA1035DMB, PLD20RA1035DMB, PLD20RA1035DMB
PLD20RA10-35DMB, PLD20RA10-35DMB, PLD20RA10-35DMB
PLD20RA10-35WMB, PLD20RA10-35WMB, PLD20RA10-35WMB
PLD20S, PLD20S, PLD20S
PLD20V815NS, PLD20V815NS, PLD20V815NS
PLD20V8A10LL, PLD20V8A10LL, PLD20V8A10LL
PLD20V8A-10LL, PLD20V8A-10LL, PLD20V8A-10LL
PLD20V8H-, PLD20V8H-, PLD20V8H-
PLD20V8H15JC, PLD20V8H15JC, PLD20V8H15JC
PLD20V8H-15JC, PLD20V8H-15JC, PLD20V8H-15JC
PLD21A29, PLD21A29, PLD21A29
PLD-21A29, PLD-21A29, PLD-21A29
PLD21A29W, PLD21A29W, PLD21A29W
PLD-21A29W, PLD-21A29W, PLD-21A29W
PLD21N30, PLD21N30, PLD21N30
PLD-21N30, PLD-21N30, PLD-21N30
PLD21N30P, PLD21N30P, PLD21N30P
PLD-21N30P, PLD-21N30P, PLD-21N30P
PLD21N30W, PLD21N30W, PLD21N30W
PLD-21N30W, PLD-21N30W, PLD-21N30W
PLD22, PLD22, PLD22
PLD-22, PLD-22, PLD-22
PLD22V10, PLD22V10, PLD22V10
PLD22V10-1, PLD22V10-1, PLD22V10-1
PLD22V10-10, PLD22V10-10, PLD22V10-10
PLD22V10150, PLD22V10150, PLD22V10150
PLD22V10-150, PLD22V10-150, PLD22V10-150
PLD22V1025, PLD22V1025, PLD22V1025
PLD22V10-25, PLD22V10-25, PLD22V10-25
PLD22V107, PLD22V107, PLD22V107
PLD22V10-7, PLD22V10-7, PLD22V10-7
PLD24, PLD24, PLD24
PLD240, PLD240, PLD240
PLD2-40, PLD2-40, PLD2-40
PLD24R, PLD24R, PLD24R
PLD24SZ, PLD24SZ, PLD24SZ
PLD-24SZ, PLD-24SZ, PLD-24SZ
PLD24SZP, PLD24SZP, PLD24SZP
PLD-24SZP, PLD-24SZP, PLD-24SZP
PLD24SZ-P, PLD24SZ-P, PLD24SZ-P
PLD24SZR, PLD24SZR, PLD24SZR
PLD24SZ-R, PLD24SZ-R, PLD24SZ-R
PLD24SZ-R24SZ-R, PLD24SZ-R24SZ-R, PLD24SZ-R24SZ-R
PLD2571, PLD2571, PLD2571
PLD26R, PLD26R, PLD26R
PLD26S, PLD26S, PLD26S
PLD26V12-20, PLD26V12-20, PLD26V12-20
PLD27128A, PLD27128A, PLD27128A
PLD278001, PLD278001, PLD278001
PLD27A35, PLD27A35, PLD27A35
PLD-27A35, PLD-27A35, PLD-27A35
PLD27A35P, PLD27A35P, PLD27A35P
PLD-27A35P, PLD-27A35P, PLD-27A35P
PLD27A35P-DB, PLD27A35P-DB, PLD27A35P-DB
PLD27A35W, PLD27A35W, PLD27A35W
PLD-27A35W, PLD-27A35W, PLD-27A35W
PLD27N35D, PLD27N35D, PLD27N35D
PLD27N35EP, PLD27N35EP, PLD27N35EP
PLD-27N35EP, PLD-27N35EP, PLD-27N35EP
PLD27N35ER, PLD27N35ER, PLD27N35ER
PLD-27N35ER, PLD-27N35ER, PLD-27N35ER
PLD27N35P, PLD27N35P, PLD27N35P
PLD-27N35P, PLD-27N35P, PLD-27N35P
PLD27N36, PLD27N36, PLD27N36
PLD-27N36, PLD-27N36, PLD-27N36
PLD27N36P, PLD27N36P, PLD27N36P
PLD-27N36P, PLD-27N36P, PLD-27N36P
PLD27N36W, PLD27N36W, PLD27N36W
PLD-27N36W, PLD-27N36W, PLD-27N36W
PLD-28, PLD-28, PLD-28
PLD2-80MD2X40, PLD2-80MD2X40, PLD2-80MD2X40
PLD28PL24DP, PLD28PL24DP, PLD28PL24DP
PLD-28PL-24DP, PLD-28PL-24DP, PLD-28PL-24DP
PLD28PL-24DP, PLD28PL-24DP, PLD28PL-24DP
PLD29, PLD29, PLD29
PLD-29, PLD-29, PLD-29
PLD2OV8H15JC, PLD2OV8H15JC, PLD2OV8H15JC
PLD2R2M250, PLD2R2M250, PLD2R2M250
PLD2S, PLD2S, PLD2S
PLD-3, PLD-3, PLD-3
PLD30, PLD30, PLD30
PLD300525PC2, PLD300525PC2, PLD300525PC2
PLD-301-060FIND9, PLD-301-060FIND9, PLD-301-060FIND9
PLD3020-01, PLD3020-01, PLD3020-01
PLD3042, PLD3042, PLD3042
PLD3042APQ100-6, PLD3042APQ100-6, PLD3042APQ100-6
PLD3064, PLD3064, PLD3064
PLD3064V, PLD3064V, PLD3064V
PLD3090, PLD3090, PLD3090
PLD309P300UG, PLD309P300UG, PLD309P300UG
PLD30C, PLD30C, PLD30C
PLD30R, PLD30R, PLD30R
PLD30S, PLD30S, PLD30S
PLD31, PLD31, PLD31
PLD20RA1030
PLD20RA1030JC
PLD20RA10-30JC
PLD20RA1030PC
PLD20RA10-30PC
PLD20RA10-30PC
PLD20RA1035DMB
PLD20RA10-35DMB
PLD20RA10-35WMB
PLD20S
PLD20V815NS
PLD20V8A10LL
PLD20V8A-10LL
PLD20V8H-
PLD20V8H15JC
PLD20V8H-15JC
PLD21A29
PLD-21A29
PLD21A29W
PLD-21A29W
PLD21N30
PLD-21N30
PLD21N30P
PLD-21N30P
PLD21N30W
PLD-21N30W
PLD22
PLD-22
PLD22V10
PLD22V10-1
PLD22V10-10
PLD22V10150
PLD22V10-150
PLD22V1025
PLD22V10-25
PLD22V107
PLD22V10-7
PLD24
PLD240
PLD2-40
PLD24R
PLD24SZ
PLD-24SZ
PLD24SZP
PLD-24SZP
PLD24SZ-P
PLD24SZR
PLD24SZ-R
PLD24SZ-R24SZ-R
PLD2571
PLD26R
PLD26S
PLD26V12-20
PLD27128A
PLD278001
PLD27A35
PLD-27A35
PLD27A35P
PLD-27A35P
PLD27A35P-DB
PLD27A35W
PLD-27A35W
PLD27N35D
PLD27N35EP
PLD-27N35EP
PLD27N35ER
PLD-27N35ER
PLD27N35P
PLD-27N35P
PLD27N36
PLD-27N36
PLD27N36P
PLD-27N36P
PLD27N36W
PLD-27N36W
PLD-28
PLD2-80MD2X40
PLD28PL24DP
PLD-28PL-24DP
PLD28PL-24DP
PLD29
PLD-29
PLD2OV8H15JC
PLD2R2M250
PLD2S
PLD-3
PLD30
PLD300525PC2
PLD-301-060FIND9
PLD3020-01
PLD3042
PLD3042APQ100-6
PLD3064
PLD3064V
PLD3090
PLD309P300UG
PLD30C
PLD30R
PLD30S
PLD31
PS101-63 5 ~ 3000 MHz (test@900MHz) 17.8 8.2 21.3 2.5 4.5 3.25 21 SOT-363
PS103-63 5 ~ 3000 MHz (test@900MHz) 21 8.5 21.2 2.1 4.5 3.35 21 SOT-363
PS201-63 5 ~ 3000 MHz (test@900MHz) 18.4 13.5 27 2.5 4.5 3.45 35 SOT-363
PS202 5 ~ 3000 MHz (test@900MHz) 18.6 13 26.5 2.5 4.5 3.35 35 SOT-89
PS204-63 5 ~ 3000 MHz (test@900MHz) 21.8 13.1 26 2.1 4.5 3.47 34 SOT-363
PS205 5 ~ 3000 MHz (test@900MHz) 22.2 13 26.4 2.1 4.5 3.5 35 SOT-89
PS301-63 5 ~ 3000 MHz (test@900MHz) 18.5 14.7 27.8 2.5 4.5 3.53 45 SOT-363
PS302 5 ~ 3000 MHz (test@900MHz) 18.7 14 28.4 2.5 4.5 3.4 45 SOT-89
PS303 5 ~ 1000 MHz (test@900MHz) 21 14 27 2.2 4.5 3.46 45 SOT-89
PS304-63 5 ~ 3000 MHz (test@900MHz) 22.2 15 27.7 2.3 4.5 3.53 45 SOT-363
PS305 5 ~ 3000 MHz (test@900MHz) 22.5 15 28.2 2.2 4.5 3.5 45 SOT-89
PS401 5 ~ 3000 MHz (test@900MHz) 19 15 29.5 2.5 4.5 3.7 60 SOT-89
PS403 5 ~ 1000 MHz (test@900MHz) 22 15.5 28 2.1 4.5 3.51 60 SOT-89
PS404 5 ~ 3000 MHz (test@900MHz) 22.4 15 29.2 2.3 4.5 3.64 59 SOT-89
Part Number Frequency Gain P1dB OIP3 NF MIn. Vcc Vd Id Package
PW210 5 ~ 6000 MHz (test@900MHz) 21 16 30 3 5 4.74 46 SOT-89
PW250 5 ~ 6000 MHz (test@900MHz) 18.5 16 30 3.3 5 4.78 46 SOT-89
PW290 5 ~ 3000 MHz (test@900MHz) 13.5 15.4 31.3 3.5 5 4.37 45 SOT-89
PW350 5 ~ 3000 MHz (test@900MHz) 16.7 17.6 33.5 3.3 5.3 4.84 58 SOT-89
PW370 5 ~ 4000 MHz (test@900MHz) 14.8 17.7 32.5 3.6 5.3 4.83 58 SOT-89
PW410 5 ~ 6000 MHz (test@900MHz) 20.5 19 35.5 3.4 5.3 4.96 70 SOT-89
PW450 5 ~ 6000 MHz (test@900MHz) 18 18.5 35.5 3.7 5 4.94 69 SOT-89
PW470 5 ~ 4000 MHz (test@900MHz) 16 19.2 35 3.5 5.3 5 69 SOT-89
PW510 5 ~ 4000 MHz (test@900MHz) 20.5 20 38 3.4 6 5.4 85 SOT-89
PW550 5 ~ 4000 MHz (test@900MHz) 18.2 20 37.5 3.5 6 5.35 85 SOT-89
PW570 5 ~ 4000 MHz (test@900MHz) 16.4 20 37.8 3.5 6 5.4 85 SOT-89
PG Series InGaP Active Bias Gain Blocks:
Part Number Frequency Gain P1dB OIP3 NF MIn. Vcc Vd Id Package
PG211 5 ~ 4000 MHz (test@900MHz) 21.6 14 25.5 3.5 4.5 4.5 34 SOT-89
PG311 5 ~ 4000 22.4 15.3 28 3.4 4.5 4.5 45 SOT-89
PG331 5 ~ 4000 19.8 15.5 28.3 3.9 4.5 4.5 45 SOT-89
PG371 5 ~ 4000 MHz (test@900MHz) 15.5 15.5 29.7 4.8 4.5 4.5 50 SOT-89
PG411 5 ~ 4000 MHz (test@900MHz) 21.3 16.5 29.3 3.7 4.5 4.5 53 SOT-89
PG471 5 ~ 4000 MHz (Test @900MHz) 16.5 16.7 31.2 4.5 4.5 4.5 55 SOT-89
PG631 5 ~ 4000 MHz (test@900MHz) 20.2 18.8 34.2 3.7 5 5 68 SOT-89
PG671 5 ~ 4000 MHz (test@900MHz) 15.5 18 34.7 4.5 5 5 64 SOT-89
PG771
PLF08A 824 ~ 894 MHz (test@894MHz) 20 13 25.5 0.75 3 52 10 x 10 mm
PLF09A 880 ~ 960 MHz (test@960MHz) 19 13 25.5 0.75 3 52 10 x 10 mm
PLF16A 1500 ~ 1700 MHz (test@1700MHz) 15.5 14 27.5 0.8 3 35 10 x 10 mm
PLF18A 1750 ~ 1870 MHz (test@1870MHz) 14.6 14 29 0.8 3 35 10 x 10 mm
PLF20A 1920 ~ 2170 MHz (test@2170MHz) 13.4 14 29 0.8 3 35 10 x 10 mm
PLF25A 2300 ~ 2700 MHz (test@2700MHz) 11.5 14 29 0.9 3 30 10 x 10 mm
PLN20 1750 ~ 2170 MHz (test@2170MHz) 13 14 27 0.85 3 35 5.5 x 5.5 mm
PLN25
CS040G
CS040GT
CS050LX
CS600B
CS500E
CS600N
CS1000CF
CS1500FA
CS10000HB
A-CS300B
A-CS300E.HTM
A-KCS030LXT
直测可拆式霍尔电流传感器
CS500EK1
CS1000EK2
CS1000KF1
CS2500KF2
A-CS400EK1
A-CS800EK2
磁平衡式霍尔电流传感器
CSM005A
CSM025A
CSM025AY
CSM040G
CSM040GT
CSM050NPT
CSM050CG
CSM050LX
CSM100LA
CSM125LC
CSM300B
CSM300LT
CSM600FA
CSM500LTB
磁平衡式霍尔电压传感器
VSM025A
VSM500D
A-VSM500D
数字式霍尔电流传感器
A-KCS050CGT
A-KCS030LXT
直流漏电流霍尔传感器
DS-010LD
An 18 to 40GHz Double Balanced Mixer MMIC - Paper presented at the
IET Seminar on RF and Microwave IC Design, 28th February 2008
Adobe PDF Format 122KB
MMICs for Broadband Receiver Applications - Paper presented at
the RF and Microwave Society (ARMMS) Conference, November 2007
Adobe PDF Format 519KB
MM-Wave Super Harmonic Injection Locked Frequency Dividers -
Paper presented at the IET Seminar on MM-Wave Products and Technologies, 16th November 2006
Adobe PDF Format 168KB
The Design Of Single-Ended & Differential MMIC VCOs - Paper
presented at the RF and Microwave Society (ARMMS) Conference, November 2006
Adobe PDF Format 1,589KB
Efficient Mobile Mesh Networking: Testing Scalability Hypotheses - 6th
IETInternational Conference on 3G and Beyond, London, November 2005
Adobe PDF Format 559KB
Efficient Mobile Mesh Networking: Attractions, Myths and Techno-Economic
Roadmap to Successful Commercial Innovation - Proceedings of the first IEEE
International Symposium on New Frontiers in Dynamic Spectrum Access Networks
(DySPAN), Baltimore, November 2005
Adobe PDF Format 876KB
Low Loss, Low Cost, Discrete PIN diode based, Microwave SPDT and SP4T Switches -
Paper presented at the RF and Microwave Society (ARMMS) Conference, November 2005
Adobe PDF Format 212KB
Urban Propagation Measurements and Statistical Path Loss Model at 3.5 GHz - Paper
Presented at the 2005 IEEE AP-S International Symposium and USNC/URSI National
Radio Science Meeting, Omni Shoreham Hotel, Washington, DC, 3rd - 8th July 2005
Adobe PDF Format 296KB
The Development of a Remote Wireless Meter Reading System - Paper Presented at
the IETSeminar on Telemetry and Telematics, Savoy Place, London, April 11th 2005
Adobe PDF Format 417KB
MMIC Design for Wireless Broadband Access - Paper Presented at the 2004
Wireless Broadband Forum, November, 2004
Adobe PDF Format 469KB
Design Trade-offs for High Linearity PHEMT Switches - Paper presented at
the RF and Microwave Society (ARMMS) Conference, November 2004
Adobe PDF Format 255KB
Development of Blighter, a cost sensitive, high performance FMCW Radar -
Paper Presented at the 2004 European Microwave Conference, October, 2004
Adobe PDF Format 842KB
A universal GaAs HBT PA with active bias circuitry, covering 4.9-6 GHz -
Paper Presented at the 2004 European GaAs IC Conference, October, 2004
Adobe PDF Format 92KB
RF Filter Design Using Coupled Co-axial Resonators - Paper Presented at
the RF and Microwave Society (ARMMS) Conference, April 19th and 20th, 2004
Adobe PDF Format 298KB
Optical Ethernet Dash Shapes the Future for Optoelectronics Integration -
Paper presented at “MicroTech 2004” March 3rd - 4th 2004 at the Moller Centre in Cambridge, UK
Adobe PDF Format 188KB
The RF Development of a Multi-Band GSM Test Set - Published in "Microwave
Engineering Europe" March 2004, pp 21-25
Adobe PDF Format 271KB
How to Design Low-Cost MM-Wave Equipment - Paper Presented at the
"Second Broadband Wireless Forum" November 25th to 26th 2003 in Cambridge, UK
Adobe PDF Format 301KB
InGap HBT MMIC Development - Paper Presented at the RF and Microwave
Society ARMMS Conference 2003, November 3rd to 4th in Corby, Northamptonshire, UK
Adobe PDF Format 263KB
On Using the Classical Monopole for Comparison with Other Electrically Small
Self-Resonant Monopole Antennas of Equal Height - Paper Presented at the 2003
IEEE "International Antennas and Propagation Symposium" June 22nd to 27th in Columbus, Ohio, USA
Adobe PDF Format 128KB.
High Performance Digital Radio Channel Sounder for use at 2 and 5 GHz - Paper
Presented at the Twelfth "International Conference on Antennas and Propagation"
(ICAP) 2003, held at the University of Exeter, 31st March to 3rd April 2003
Adobe PDF Format 62KB.
An LTCC Based Differential Microwave DRO Module - Paper Presented at the
IETseminar on "Microwave Thick Film Materials and Cicruits" held on 9th October 2002
Adobe PDF Format 144KB.
A 2-18GHz Receiver Front-End - Paper presented at "The 2002 European
Microwave Confrence", September 2002
Adobe PDF Format 102KB.
A Monolithic, 2-18GHz Upconverter - Paper presented at MTT-S, June 2002
Adobe PDF Format 70KB.
Implementing 3G Layer 1 Signal Processing (Tx) - Paper presented at the
Wireless Design Conference 2002, London, May 2002
Adobe PDF Format 167KB.
A Monolithic, Dual Channel, DC to 20 GHz SPDT - Paper presented at the
Wireless Design Conference 2002, London, May 2002
Adobe PDF Format 167KB.
RF and Microwave Component in LTCC - Published at the 38th Annual IMAPS
Nordic Conference held in September 2001
Adobe PDF Format 376KB.
Low Loss Monolithic MM-Wave SP4Ts - Paper presented at the "Workshop on
Design for Broadband Wireless Access" held in Cambridge on May 3rd 2001
Adobe PDF Format 234KB.
A Monolithic, Dual Channel, 0.5 to 20GHz Limiter - Paper Presented at The
European MIcrowave Conference, October 2000.
Adobe PDF Format 156KB.
Impact of UMTS on Mobile Networks and the Environment - Paper presented at
the IBC Conference on Mobile Networks and the Environment, 5-6 June 2000.
Adobe PDF Format 28 KB.
Synthesiser Design - Paper presented at the The IETTraining Event -
"How to Design RF Circuits", 5th April2000.
Adobe PDF Format 212 KB.
The Basics of RF System Design - Paper presented at the The IETTraining Event
- "How to Design RF Circuits", 5th April2000.
Adobe PDF Format 64KB.
Oscillator Design - Paper presented at the The IETTraining Event -
"How to Design RF Circuits", 5th April2000.
Adobe PDF Format 153KB.
Practical RF PCB Design- Paper presented at the The IETTraining Event
- "How to Design RF Circuits", 5th April2000.
Adobe PDF Format 290KB.
RF Mixer Design - Paper presented at the The IETTraining Event -
"How to Design RF Circuits", 5th April2000.
Adobe PDF Format 382KB.
Manufacturing Practical 28GHz Multichip Modules - Published in “
Microwaves & RF”, December 1999, pp78-86.
Adobe PDF Format 468 KB.
Oscillator Design- Paper presented at the The IETColloquium on
“The Design of RFICs and MMICs” held at Savoy Place, London on Wednesday 24th November 1999.
Adobe PDF Format 117 KB.
Low Power Techniques for Silicon RFICs - Paper presented at the “The
IETColloquium on The Design of RFICs and MMICs” held at Savoy Place, London on Wednesday 24th November 1999.
Adobe PDF Format 62 KB.
The Design of Integrated Switches and Phase Shifters - Paper presented at the “The
IETColloquium on The Design of RFICs and MMICs” held at Savoy Place, London on Wednesday 24th November 1999.
Adobe PDF Format 394 KB.
Low Cost Microstrip Filters and Mixers at 43GHz- Paper presented at the IEE Colloquium on
“MM-Wave Circuits and Technology for Commercial Applications”, held at Savoy Place, London on 24th March 1999.
Adobe PDF Format 270 KB.
A 40 —45 GHz Monolithic Gilbert Cell Mixer- Paper presented at the IETColloquium on
“MM-Wave Circuits and Technology for Commercial Applications”, held at Savoy Place, London on 24th March 1999.
Adobe PDF Format 154 KB.
Multipath Measurements for High Data-Rate Wireless Communications - Paper presented at the 1999 Wireless Symposium
Adobe PDF Format 307 KB.
Improving BER - Paper presented as part of the Workshop on “DSP for RF Engineers”
at the 1998 Microwaves and RF Conference in September 1998.
Adobe PDF Format 72 KB.
Clock Extraction - Paper presented as part of the Workshop on "DSP for RF Engineers" at
the 1998 Microwaves and RF Conference in September 1998.
Adobe PDF Format 138 KB.
Introduction to Digital Modulation Schemes - Paper presented at The IETColloquium on
“The Design of Digital Cellular Handsets”, held on 4th of March 1998 at the IEE, Savoy Place, London
Adobe PDF Format 132 KB.
An RF to Baseband Design for a PCS1900 Handset - Paper presented at The Wireless
Symposium Portable by Design Conference Fall, Boston, 1998
Adobe PDF Format 752 KB.
RF ICs for Commercial Wireless Applications - Paper presented at The IET Colloquium on
Design of RFIC's and MMIC's, held on 6th of November 1997 at the IEE, Savoy Place, London
Adobe PDF Format 541 KB.
Digital Signal Processing Enhances a Tracking System - Paper presented at the
1997 ERA conference on Vehicular Security in April 1997
Adobe PDF Format 64 KB.
Enhancement to the TRACKER System - the provision of an uplink path - Paper
presented at the Security Automotive '97 Conference at the NEC in April 1997
Adobe PDF Format 40 KB.
Synthesised Frequency Sources in Digital Cellular Handsets - Paper
presented at the 1997 Microwaves and RF
PE4140 Quad CMOS FET array:
New! PE4140 : ultra-high linearity, passive broadband Quad CMOS FET array
with high dynamic range performance capable of operation beyond 6.0 GHz.
Peregrine PE4150 Quad MOSFET mixer:
New! PE4150: ultra-high linearity Quad MOSFET mixer with an integrated LO amplifier
SPDT High Power UltraCMOS:
PE4259 : DC-3.0GHz SPDT Reflective switch with integrated on-board CMOS control
logic with a low voltage CMOS-Compatible control interface. Ideal for a
broad range of applications including 802.15.4 and ZigBee.
Application Note Available:
AN27 : Using Blocking Capacitors with UltraCMOS? Devices
Extended 5 and 6-bit DSA Line:
New HaRP?-enhanced 50 ohm DSAs:
PE43502 : 5-bit, 0.5 dB steps to 15.5dB range
PE43503 : 5-bit, 1.0 dB steps to 31dB range
PE43602 : 6-bit, 0.5 dB steps to 31.5dB range
PE4309 : 6-bit, 0.5 dB steps to 31.5dB range
New High-Power RF Switch Line:
New 50 Watt devices ideal for mobile radio applications:
PE42510A : SPDT, 30MHz - 2000MHz
PE42650A : SP3T, 30MHz - 1000MHz
Extended UltraCMOS? Hi-Rel Switch Line:
New HaRP?-Enhanced SPDT Switch Operates to 8.5 GHz:
PE95420
Extended UltraCMOS? Hi-Rel Prescaler Line:
Ultra-low power device operates across Ku-band up to 13 GHz:
PE9309 : Divide-by-4 Prescaler, 3.5 to 13 GHz
Expanded UltraCMOS? Digital Step Attenuator Line:
7-bit DSA family features unique serial-addressable control interface:
PE43701 : 7-bit DSA, 0.25dB steps to 31.75dB
PE43702 : 7-bit DSA, 0.25dB steps to 31.75dB
PE43703 : 7-bit DSA, 0.25, 0.5, or 1.0dB steps to 31.75dB
Expanded broadband DSA portfolio:
PE43404 : New 4-bit Digital Step Attenuator, 1.0dB steps to 15dB
new PE42552 SPDT Switch for TE/ATE Applications:
PE42552 : Extended frequency range up to 7.5 GHz with excellent
low-frequency performance down to 9 kHz.
Now Available:
PE42641 : SP4T Antenna Tuning Switch
PE4257 : Low bias 3-Volt SPDT Absorptive switch for wireless applications
PE4259 : SPDT Reflective switch which integrates on-board CMOS control
logic with a low voltage CMOS-Compatible control interface
PE42641 : Exceptional linearity, IMD performance and Class 3, 4000 V
ESD ideal for GSM/EDGE/WCDMA and CDMA applications
Hi-Rel UltraCMOS? PLLs:
PE97022 : High-Performance Integer-N PLL
PE97042 : High-Performance Integer-N PLL
Read the new PE97022 Application Note and PE97042 Application Note to find out
more about compatibility with the previous generation of PLLs.
Marine - AL-7100 Product Line - Tx/Rx
OrSat-G (AL-7103-Ku)
1.15m (45”) Ku-Band Marine Stabilized Tx/Rx System.
A unique solution - Type Approved by Eutelsat, Intelsat, Anatel and others.
Designed for high performance, high-speed 2-way broadband communication, the OrSat-G system ensures
superior quality of connectivity for comprehensive on-board communication and entertainment applications.
The OrSat is now available in Global Version.
AL-7103-X
1.15m (45") X-Band Marine Stabilized Tx/Rx System.
A unique solution for high performance, high-speed 2-way broadband communication, the
AL-7103-X antenna ensures superior quality connectivity for comprehensive on-board
communication for defense applications.
AL-7106
1.8m C-Band Marine Stabilized Tx/Rx System, designed to provide continuous connectivity in
mid-ocean or in equatorial areas with heavy rains, Orbit's Marine's AL-7106 system ensures
superior 2-way, high-speed, broadband communication for vital onboard communication and entertainment services.
AL-7108
2.4m (96") C-Band Marine Stabilized Tx/Rx System.
Specially designed to provide continuous connectivity in mid-ocean or in equatorial areas with
heavy rains, Orbit's AL-7108 system ensures superior 2-way, high-speed, broadband
communication for vital onboard communication and entertainment services.
AL-7109
2.8m (110") C-Band Marine Stabilized Tx/Rx System.
Specially designed to provide unbroken connectivity while crossing mid-ocean or in
equatorial areas with heavy rains, AL-7109 ensures superior 2-way high-speed
broadband communications at all times, to all aboard ship.
Marine - AL-7200 Product Line - TVRO
AL-7203
0.82m (32") Quad Ku-Band Marine Stabilized TVRO System.
Specifically designed for superior quality uninterrupted communication and
entertainment reception of TV and data in limited space situations – aboard small,
medium or large vessels, the highly efficient, lightweight AL-7203 linear & circular
Ku-Band antenna can be deployed to support any number of end users.
AL-7204
1.3m (51") Quad Ku-Band Marine Stabilized TVRO System.
Orbit’s AL-7204 system offers high performance functionality, low maintenance demands
and a robust design, all of which comprise a cost-effective linear & circular Ku-Band antenna system.
AL-7205
1.5m (59") Quad Ku-Band/C-Band Marine Stabilized TVRO System.
Orbit’s unique state-of-the-art AL-7205 system enables unmatched quality satellite
TV and data reception for both military and commercial platforms.
AL-7207
2.0m (80") Quad Ku-Band & Dual C-Band Marine Stabilized TVRO System.
Orbit’s innovative AL-7207 system enables comprehensive global reception for a
full range of Data & TV reception services even in adverse whether conditions.
AL-7208
2.4m (96") Quad Ku-Band & Dual C-Band Marine Stabilized TVRO System.
Specifically designed for vessels crossing the oceans or based in equatorial areas with heavy
rains, Orbit’s state-of-the-art AL-7208 system enables true worldwide coverage
for uninterrupted high quality satellite reception.
AL-7209
2.8m (110") Quad Ku-Band & Dual C-Band Marine Stabilized TVRO System.
Providing the ultimate solution in superior quality TV and data reception
the AL-7209 system enables worldwide coverage and constant broadband satellite
connectivity aboard various types of marine vessels.
Train
AL-3602-TxRx
Ku-Band Train Satcom Antenna System.
Specifically designed to fit the train environment, this Orbit’s advanced and state-of-art
Satcom Antenna system allows uninterrupted broadband access on trains. Whether at home, at
work or traveling, Orbit’s Train Satcom solution keeps you in touch – always.
Airborne
AL-1614-TxRx
Ku-Band Airborne Satcom Antenna System.
A 36cm (14”) Airborne Satcom Antenna that is designed specifically to comply with the harsh
Positioners
AL-4012
AL-4012 is orbit’s new generation lightweight, high-dynamic elevation-over-azimuth
Digital Tracking Pedestal, equipped with brushless servomotors and a planetary gearbox as
well as an absolute encoder for each axis. High accuracy - can be hand carried by two persond if needed.
AL-4015
Light Load High Performance Tracking Pedestal.
AL-4016
The AL-4016 is orbit’s new generation lightweight, high-dynamic elevation-over-azimuth Digital
Tracking Pedestal, equipped with brushless servomotors and a planetary gearbox as well as an
absolute encoder for each axis. For high accuracy.
AL-4017
Medium Load Tracking Pedestal.
High performance Tracking Pedestal.
AL-4018
Medium load high performance with built in Digital Servo Amplifiers. A reliable and easily
maintained pedestal system with an internal Dual Drive Digital Servo Amplifier.
AL-4034
Heavy Load High Preformance Tracking Pedestal (with Built-In Digital Servo Amplifiers).
AL-4048
Heavy Load High Performance Tracking Pedestal (with Built-In Digital Servo Amplifiers).
Controllers
AL-2613-3J
Orbit’s compact and cost-effectively designed Controller.
A single 2U rack-mountable unit including both a controller and a motor drive.
Compatible with Orbit’s pedestals series AL-4015-1E and AL-4017-1E.
AL-4726-3TC
Orbit’s Antenna Control Unit (ACU) model AL-4726-3TC (indoor unit) is an
advanced tracking controller, designed to provide overall control of tracking
antenna motion, display position and tracking data.
AL-5005-3T
Orbit’s Antenna Control Unit (ACU) model AL-5005-3T (outdoor unit) is an advanced
tracking controller, designed to provide overall control of
tracking antenna motion, display position and tracking data.
Digital Servo Amplifier
Digital Servo Amplifier (DSA)
The Digital Servo Amplifier (DSA) is a new generation of the servo driver for brushless
motors with sinusoidal as well as trapezoidal commutation. The DSA is able to close not only
motor current loop, but also velocity and position loops providing overall control of a servo axis.
Dual Digital Servo Amplifier (DDSA)
Orbit’s AL-2006-DDSA-1A Dual Digital Servo Amplifier (DDSA) is a Digital servo driver
for brushless motors. It drives both axes of the pedestals.
The DDSA is a DSP-based unit responsible for motor current, motor velocity and axis position
control loops as well as comprehensive build-in test (BIT) of the entire pedestal.
The DDSA supports several digital serial interfaces: UART, SPI and CAN bus.
Hand Held
AL-3002-LCU
The AL-3002-LCU is an Ultra compact, cost effective Hand-Held Remote Control Unit designed to
manually control and display the position of Elevation over Azimuth Digital Tracking pedestals.
The LCU is ideal for service technicians and/or applications requiring manual operation only.
AL-3002-RCU Remote Control Unit
The AL-3002-RCU is an Ultra compact, cost effective Hand-Held Remote Control Unit designed to
manually control and display the position of an Elevation over Azimuth Digital Tracking pedestals.
The RCU is ideal for service technicians and/or applications requiring manual operation only. However,
the RCU can be also connected to a host computer via RS422 comm. link while switching the”
Local/Remote” switch to “Remote position”.
Airborne Systems
AL-1601-1
Airborne ultra-light azimuth positioner.
AL-1610-1E EL/AZ
Airborne Tracking Antenna System for air to ground data-link on an aircraft, in order to provide
360o coverage. The system incorporates two antennas per aircraft, one of which is mounted in the
tail-cone and the other in the forward belly radome. The antenna is a parabolic 10” dish with
a vertically polarized feed for 10.7 to 11.7 GHz frequency range.
AL-1612-1 Ultra-Light EL/AZ
Airborne ultra-light multi positioner system, consisting of 3 gimbals AL-1612-1, all
controlled by a single controller AL-1612-3.
AL-1615-1 Airborne MM Wave
Airborne Satellite Tracking Antenna System for communication with satellite.
The positioner supports a flat plate antenna, uniquely designed to require minimal
radome volume. The control system tracks a geosynchronous satellite while
subjected to the aircraft’s dynamic movements.
AL-1616-1AZ
Airborne light azimuth positioner.
AL-1621-1
Airborne Ku-
MLFR-0204 MLFR-0408 MLFR-0812 MLFR-1218
MLPB-0204 MLPB-0406 MLPB-0507 MLPB-0608
MLPM-0204 MLPM-0406 MLPM-0608
Frequency Range, Min. 2-4 GHz 4-6 GHz 6-8 GHz
Free Run Frequency 3 GHz 5 GHz 7 GHz
Power Output, Min. +14 dBm +14 dBm +13 dBm
Power Output Variation, Max. +/- 1 dB +/- 1 dB +/- 1 dB
Freq. Drift over Temp., Max. 20 MHz 20 MHz 20 MHz
Pulling Figure (12 dB RL), Typ. 1 MHz 1 MHz 1 MHz
Pushing Figure +12 Vdc, Typ. 0.1 MHz/V 0.1 MHz/V 0.1 MHz/V
2nd Harmonic, Min. -12 dBc -12 dBc -12 dBc
3rd Harmonic, Min. -20 dBc -20 dBc -20 dBc
Spurious Output, Min. -70 dBc -70 dBc -70 dBc
Phase Noise @ 10kHz Offset -103 dBc/Hz -100 dBc/Hz -98 dBc/Hz
@ 100kHz Offset -125 dBc/Hz -123 dBc/Hz -120 dBc/Hz
Main Coil
Sensitivity, Typ. 9 MHz/mA 9 MHz/mA 9 MHz/mA
Linearity, Typ. 1 MHz 1 MHz 1 MHz
Hysteresis, Typ. 1 MHz 1 MHz 1 MHz
Impedance @ 1 kHz, Typ. 70 Ohm/15 mH 70 Ohm/15 mH 70 Ohm/15 mH
FM Coil
Sensitivity, Typ. 310 kHz/ma 310 kHz/ma 310 kHz/ma
3 dB Bandwidth, Typ. 400 kHz 400 kHz 400 kHz
Deviation @ 400 kHz, Min. +/- 50 MHz +/- 50 MHz +/- 50 MHz
Impedance @ 1 MHz, Typ. 1Ohm/2 uH 1Ohm/2 uH 1Ohm/2 uH
DC Power, Max. +12 Vdc 100 mA 100 mA 100 mA
-5 Vdc - - -
YIG Heater Power
Input Voltage Range +15 Vdc +15 Vdc +15 Vdc
Current Surge/Steady State 250 mA/50 mA 250 mA/50 mA 250 mA/50 mA
Case Style 61-040-4 61-040-4 61-040-4
MLPM-0305
3-5 GHz
4 GHz
+14 dBm
+/- 1 dB
20 MHz
1 MHz
0.1 MHz/V
-12 dBc
-20 dBc
-70 dBc
-102 dBc/Hz
-124 dBc/Hz
9 MHz/mA
1 MHz
1 MHz
70 Ohm/15 mH
310 kHz/ma
400 kHz
+/- 50 MHz
1Ohm/2 uH
100 mA
-
+15 Vdc
250 mA/50 mA
61-040-4
MLPM-0507
5-7 GHz
6 GHz
+14 dBm
+/- 1 dB
20 MHz
1 MHz
0.1 MHz/V
-12 dBc
-20 dBc
-70 dBc
-100 dBc/Hz
-123 dBc/Hz
9 MHz/mA
1 MHz
1 MHz
70 Ohm/15 mH
310 kHz/ma
400 kHz
+/- 50 MHz
1Ohm/2 uH
100 mA
-
+15 Vdc
250 mA/50 mA
61-040-4
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