High bandwidth tolerance, for 5.5G/6G/LEO application.
Antennas play a crucial role in advancing technology, propelling industries towards a future of seamless connectivity. At Swiftlink, we pave the way for next-gen communication solutions.
Antenna Array
The Antenna Array is a multi-polarization phased array antenna system, expertly designed to cover the full band of millimeter-wave (mmWave) frequencies. Leveraging flip-chip packaging technology, it boasts an ultra-compact size without compromising its broad frequency coverage and high performance. Its scalable design means it can easily be extended to support Multiple-Input, Multiple-Output (MIMO) systems or hybrid phased arrays. This level of adaptability makes it ideal for meeting diverse network requirements. By optimizing both space and functionality, the Antenna Array paves the way for next-generation wireless communication systems, offering enhanced capacity, coverage, and data rates.
SLK1201: Full-band, Dual-polarized 2×2 Array
4-element linear array with dual-polarization operation.
Operating bandwidth: 24 – 44 GHz.
Supported bands: n257, n258, n259, n260, n261.
Maximum realized gain: 13.9 dBi
Stable radiation patterns over the full band
Wide-angle scanning performance
SLK2301: Full-band, Single-polarized 2×4 Array
4-element linear array with dual-polarization operation.
Operating bandwidth: 24 – 44 GHz.
Supported bands: n257, n258, n259, n260, n261.
Maximum realized gain: 13.9 dBi
Stable radiation patterns over the full band
Wide-angle scanning performance
SLK320x (SLK3201 & SLK3202): Dual-band, dual-polarization 2×2 Array
Individually accessible 4 H and 4 V 1×4 divider integrated module with a single
ports supported by coax/ mini SMP end-launch connector for each of the H and V
connectors. ports.
4-element 2×2 array with dual-band, dual-polarization operation.
Operating bandwidth: 26.5 – 29.5 GHz and 37 – 40 GHz.
Supported bands: n257, n260.
Low band maximum realized gain: 1~1.5 dBi.
High band maximum realized gain: ~13.0 dBi.
Frequency stable radiation patterns in both bands.
Below -15 dB inter-element coupling.
SLK3204: Dual-band, dual-polarization 4-element Linear Array
4-element linear array with dual-band, dual-polarization operation.
Operating bandwidth: 26.5 – 29.5 GHz and 37 – 40 GHz.
Supported bands: n257, n260.
Low band maximum realized gain > 10 dBi.
High band maximum realized gain > 12 dBi.
Frequency stable radiation patterns in both bands
Below -12 dB inter-element coupling.
SLK1201: Full-band, Dual-polarized 2×2 Array
4-element linear array with dual-polarization
operation.
Operating bandwidth: 24 – 44 GHz.
Supported bands: n257, n258, n259, n260, n261.
Maximum realized gain: 13.9 dBi
Stable radiation patterns over the full band
Wide-angle scanning performance
SLK2301: Full-band, Single-polarized 2×4 Array
4-element linear array with dual-polarization
operation.
Operating bandwidth: 24 – 44 GHz.
Supported bands: n257, n258, n259, n260, n261.
Maximum realized gain: 13.9 dBi
Stable radiation patterns over the full band
Wide-angle scanning performance
SLK320x (SLK3201 & SLK3202): Dual-band, dual-polarization 2×2 Array
Individually accessible 4 H and 4 V ports
supported by coax/ mini SMP connectors.
Operating bandwidth: 26.5 – 29.5 GHz.
1×4 divider integrated module with a
single end-launch connector for each of
the H and V ports.
Operating bandwidth: 37 – 40 GHz.
4-element 2×2 array with dual-band, dual-
polarization operation.
Supported bands: n257, n260.
Low band maximum realized gain: 1~1.5
dBi.
High band maximum realized gain: ~13.0
dBi.
Frequency stable radiation patterns in both
bands.
Below -15 dB inter-element coupling.
SLK3204: Dual-band, dual-polarization 4-element Linear Array
4-element linear array with dual-band, dual-
polarization operation.
Operating bandwidth: 26.5 – 29.5 GHz and
37 – 40 GHz.
Supported bands: n257, n260.
Low band maximum realized gain > 10 dBi.
High band maximum realized gain > 12 dBi.
Frequency stable radiation patterns in both
bands
Below -12 dB inter-element coupling.