Subtotal: 1000 Ft
A compact ultra-broadband SMA quintuplexer (pentaplexer/fiveplexer) splitting a DC to 25 GHz input signal into 5 contiguous passbands with crossovers at 4, 6, 8, and 12 GHz, plus a high pass at 2 GHz and a low pass at 18 GHz. It provides low insertion loss of less than 1.5 dB, return loss exceeding 13 dB, and steep roll-off with high stopband rejection of more than 50 dB reached within 300 MHz of each crossover.
An ultra-compact, ultra-broadband SMA quintuplexer (pentaplexer/fiveplexer) splitting a DC to 25 GHz input signal into 5 contiguous passbands with crossovers at 4, 6, 8, and 12 GHz, plus a high pass at 2 GHz and a low pass at 18 GHz. It provides low insertion loss of less than 1.35 dB, return loss exceeding 14 dB (VSWR 1.5:1), and steep roll-off with high stopband rejection of more than 50 dB reached within 300 MHz of each crossover. The housing is only 7.5 mm (0.3”) thick and the crossover frequencies are accurate to within ±1%.
A sextuplexer (hexaplexer) processing a DC – 40 GHz input signal into 6 contiguous passbands with crossovers at 2, 3.5, 6, 10, and 18 GHz, and an additional high pass at 0.5 GHz. All channels achieve more than 50 dB rejection, with most channels achieving more than 60 dB, and each passband has low losses.
The input and CH6 connectors are 2.92 mm and the others are SMA.
An ultra-broadband SMA sextuplexer (hexaplexer) splitting a DC to 26 GHz input signal into 6 contiguous passbands with crossovers at 1, 2, 4, 8, and 12 GHz, plus a high pass at 0.5 GHz and a low pass at 18 GHz. It provides low insertion loss of less than 1.5 dB, return loss exceeding 12 dB, and high stopband rejection of typically more than 60 dB.
An ultra-broadband SMA(F) triplexer processing a DC – 18.8 GHz input signal into 3 contiguous passbands with crossovers at 1 and 8 GHz, low insertion loss of less than 1.5 dB, return loss exceeding 10 dB, and high stopband rejection of typically more than 60 dB.
Plexsa’s only hybrid technology SMA triplexer that processes a DC – 1 GHz input signal into 3 contiguous passbands with crossovers at 30 and 500 MHz and high rejection to -60 dB typically.
An SMA triplexer processing a DC – 18 GHz input signal into 3 contiguous passbands with crossovers at 2 and 6 GHz, an additional high pass at 0.5 GHz, low losses, and high rejection to -60 dB typically.
An SMA triplexer processing a DC – 18 GHz input signal into 3 contiguous passbands with crossovers at 2 and 9 GHz, an additional high pass at 0.5 GHz, low losses, and high rejection to -60 dB typically.
An ultra-broadband triplexer processing a DC – 18 GHz input signal into 3 contiguous passbands with crossovers at 2 and 8 GHz, an additional high pass at 1.1 GHz, low insertion loss of less than 1.5 dB, return loss exceeding 10 dB, and high stopband rejection of typically more than 60 dB. Crossover accuracy is stringent to 1%, and connectors are SMA female at input and SMA male at output.
A 2.4mm triplexer processing a DC – 50 GHz input signal into 3 contiguous passbands with crossovers at 18 and 33 GHz, low losses, and high rejection to -55 dB typically.
A non-contiguous triplexer with passbands DC – 21.5 GHz, 29 – 39 GHz, and 47 – 67 GHz. Each band has low losses and connectors are SMA, 2.92mm, and 1.85mm.
A 2.92mm triplexer processing a DC – 40 GHz input signal into 3 contiguous passbands with crossovers at 26.5 and 34 GHz, an additional high pass at 18 GHz, low losses, and high rejection to -55 dB.