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Imago Praecipua Terminationis PIM Coaxialis Humilis
  • Terminus PIM Humilis Coaxialis
  • Terminus PIM Humilis Coaxialis
  • Terminus PIM Humilis Coaxialis
  • Terminus PIM Humilis Coaxialis
  • Terminus PIM Humilis Coaxialis
  • Terminus PIM Humilis Coaxialis

Terminus PIM Humilis Coaxialis

Onus intermodulationis humilis genus oneris coaxialis est. Hoc onus intermodulationis humilis destinatum est ad solvendum problema intermodulationis passivae et ad qualitatem atque efficaciam communicationis emendandam. Hodie, transmissio signorum multicanalis late in apparatu communicationis adhibetur. Tamen, onus probationis existens obnoxium est interferentiis ex condicionibus externis, quod ad eventus probationis malos ducit. Et onera intermodulationis humilis ad hoc problema solvendum adhiberi possunt. Praeterea, etiam sequentes proprietates onerum coaxialium habet. Onera coaxialia sunt instrumenta passiva unius portus pro micro-undis, late in circuitibus micro-undarum et apparatu micro-undarum adhibita.

Applicationes militares, spatiales et commerciales.

Designatio ad libitum praesto est ad petitionem.

 


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Detalia Producti

Etiquettae Productarum

Scheda Datorum

RFTYT DC-6GHz Terminus PIM Humilis
Potestas Typus Coniunctoris Frequentiae Spatium Impedentia
(Ω)		 SWR
maximum		 PIM
(dBc@2*43dBm)		 Gradus Impermeabilis Magnitudo dimensionis
(mm)		 Scheda Datorum Typus M Scheda Datorum Typus F
10W N DC-3G 50 1.20 ≥140dBc@2*33dBm IP65 Φ35.0*40.0 CT10W-RX3540-IP65-NJ-3G CT10W-RX3540-IP65-NK-3G
DIN DC-3G 50 1.20 ≥140dBc@2*33dBm IP65 Φ35.0*40.0 CT10W-RX3540-IP65-DINJ-3G CT10W-RX3540-IP65-DINK-3G
5-50W N 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ50.0*150.0 CT30W-RX5015-IP65-NJ/0.35-4G CT30W-RX5015-IP65-NK/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ50.0*150.0 CT30W-RX5015-IP65-NJ/0.35-6G CT30W-RX5015-IP65-NK/0.35-6G
4.3-10 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ50.0*150.0 CT30W-RX5015-IP65-4310J/0.35-4G CT30W-RX5015-IP65-4310K/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ50.0*150.0 CT30W-RX5015-IP65-4310J/0.35-6G CT30W-RX5015-IP65-4310K/0.35-6G
DIN 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ50.0*150.0 CT30W-RX5015-IP65-DINJ/0.35-4G CT30W-RX5015-IP65-DINK/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ50.0*150.0 CT30W-RX5015-IP65-DINJ/0.35-6G CT30W-RX5015-IP65-DINK/0.35-6G
50W N DC-3G 50 1.20 ≤-120 IP65 vel IP67 60.0*60.0*80.0 CT50W-FH6080-IP65-NJ-3G CT50W-FH6080-IP65-NK-3G
DIN DC-3G 50 1.20 ≤-120 IP65 vel IP67 60.0*60.0*80.0 CT50W-FH6080-IP65-DINJ-3G /
100W N 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT100W-RX8315-IP65-NJ/0.35-4G CT100W-RX8315-IP65-NK/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT100W-RX8315-IP65-NJ/0.35-6G CT100W-RX8315-IP65-NK/0.35-6G
4.3-10 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT100W-RX8315-IP65-4310J/0.35-4G CT100W-RX8315-IP65-4310K/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT100W-RX8315-IP65-4310J/0.35-6G CT100W-RX8315-IP65-4310K/0.35-6G
DIN 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT100W-RX8315-IP65-DINJ/0.35-4G CT100W-RX8315-IP65-DINK/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT100W-RX8315-IP65-DINJ/0.35-6G CT100W-RX8315-IP65-DINK/0.35-6G
200W N 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT200W-RX1720-IP65-NJ/0.35-4G CT200W-RX1720-IP65-NK/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT200W-RX1720-IP65-NJ/0.35-6G CT200W-RX1720-IP65-NK/0.35-6G
4.3-10 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT200W-RX1720-IP65-4310J/0.35-4G CT200W-RX1720-IP65-4310K/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT200W-RX1720-IP65-4310J/0.35-6G CT200W-RX1720-IP65-4310K/0.35-6G
DIN 0.35-4G 50 1.25 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT200W-RX1720-IP65-DINJ/0.35-4G CT200W-RX1720-IP65-DINK/0.35-4G
0.35-6G 50 1.30 ≤-150/-155/-160 IP65 vel IP67 Φ83.0*150.0 CT200W-RX1720-IP65-DINJ/0.35-6G CT200W-RX1720-IP65-DINK/0.35-6G

Conspectus

Onus coaxiale per connectores, dissipatores caloris, et fragmenta resistorum inclusa componitur. Secundum diversas frequentias et potentias, connectores typice utuntur generibus ut 2.92, SMA, N, DIN, 4.3-10, etc. Dissipator caloris cum dimensionibus dissipationis caloris congruentibus designatur secundum requisita dissipationis caloris variarum magnitudinum potentiarum. Fragmentum inclusum unum fragmentum vel plura fragmenta secundum diversas frequentias et requisita potentiae adoptat.

Propositum eius principale est vim systematum radiofrequentiae vel microundarum absorbere; vel ut onus fictum pro antennis et terminalibus transmittentis. In quibusdam probationibus RF, ne reflexio signalis fiat et eventus probationis afficiatur, portis inusitatis ut onera congruentia connectitur ad energiam portuum absorbendam. Etiam ut onus fictum in aestimanda efficacia systematis per terminales simulatos (velut antennas) fungi potest.

Producta seriei oneris coaxialis has proprietates habent: lata frequentia operativa, coefficiens undae stantis humilis, magna potentia, parva magnitudine, et non facile comburenda.

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