Integrated Low Noise Amplifier O282SM5H
The O282SM5H is a low noise amplifier operating from 5 to 6 GHz. At a +5V operating voltage, it provides 24dB of small signal gain, 11dBm of P-1 output power, and a typical noise figure of 1.0dB.
Related products
GaN Monolithic Integrated Driver Amplifier O562
The O562 is a GaN monolithic integrated driver amplifier operating at 5.0-6.0 GHz delivering 21dB of power gain and 29dBm of saturated output power at + 28V operating voltage.
The chip uses on-chip through-hole metallization process to ensure a good grounding, do not need additional grounding measures, easy to use. The back of the chip was metallized, suitable for eutectic sintering or conductive adhesive bonding process.
GaN Monolithic Integrated Power Amplifier O251
The O251 is a GaN monolithic integrated power amplifier chip operating at 5.0-6.5GHz. It provides 22dB power gain and 36dBm saturated output power at a continuous wave, +28V operating voltage, and a power-added efficiency of 48%.
The chip uses on-chip via metallization process to ensure a good grounding, no additional grounding measures, easy to use. The backside of the chip is metallized and is suitable for eutectic sintering processes.
GaN Monolithic Integrated Driver Amplifier O575
The O575 is a GaN monolithic integrated driver amplifier chip, dual power supply +28 V work, operating frequency coverage 2 ~ 6GHz. At 130mA operating current, can provide 18dB power gain, 26dBm of saturated output power.
The chip uses on-chip through-hole metallization process to ensure a good grounding, do not need additional grounding measures, easy to use. The back of the chip was metallized, suitable for eutectic sintering process.
GaN Monolithic Integrated Power Amplifier O1194
The O1194 is a GaN monolithic integrated power amplifier chip working on 1.2-1.6GHz. It provides 26dB power gain and 40dBm saturated output power with pulse width of 100us, duty cycle of 10% and +28V operating voltage. Power-added efficiency 50%.
The power amplifier chip adopts an on-chip via hole metallization process to ensure good grounding, no additional grounding measures are needed, and the use is simple and convenient. The backside of the chip is metallized and is suitable for eutectic sintering processes.
GaAs Monolithic Integrated Power Amplifier O239
The O239 is a gallium arsenide PHEMT power amplifier chip operating at 1.0 ~ 1.4GHz, providing 25dB power gain and 28dBm saturated output power at + 5V working voltage
48% power added efficiency.
The chip uses on-chip through-hole metallization process to ensure a good grounding, do not need additional grounding measures, easy to use. The back of the chip was metallized, suitable for eutectic sintering or conductive adhesive bonding process.
GaAs Monolithic Integrated Power Amplifier O224
The O224 is a GaAs monolithic integrated power amplifier operating at 12.8 to 14.6GHz and delivers 23dB of power gain and 32dBm of saturated output power at a + 5V operating voltage.
The chip uses on-chip through-hole metallization process to ensure a good grounding, do not need additional grounding measures, easy to use. The back of the chip was metallized, suitable for eutectic sintering process.
GaN Monolithic Integrated Power Amplifier O252
The O252 is a GaN monolithic integrated power amplifier chip working on 4.4-6.0GHz. It provides 22dB power gain and 43dBm saturated output power with pulse width of 100us, duty cycle of 10%, and +28V operating voltage. Power-added efficiency 48%.
The chip uses on-chip via metallization process to ensure a good grounding, no additional grounding measures, easy to use. The backside of the chip is metallized and is suitable for eutectic sintering processes.
GaN Monolithic Integrated Driver Amplifier O571
The O571 is a GaN monolithic integrated driver amplifier operating at 8.0-12.0GHz delivering 16dB of power gain and 26dBm of saturated output power at + 28V operating voltage.
The chip uses on-chip through-hole metallization process to ensure a good grounding, do not need additional grounding measures, easy to use. The back of the chip was metallized, suitable for eutectic sintering or conductive adhesive bonding process.