BGX710X データシートの表示(PDF) - NXP Semiconductors.
部品番号
コンポーネント説明
メーカー
BGX710X Datasheet PDF : 2 Pages
| |||
NXP 5 V wideband IQ
modulators BGX710x
Strong RF performance
with flexible DAC interfacing
Designed for high linearity and low noise floor, these IQ modulators operate between
400 MHz and 4 GHz, while consuming 10% less current than the closest competition competitive
solution (<1 W). The power down mode enables even greater levels of power reductions down
to more than 6 mA. Strong RF performance is achieved due to the monotonic IP3o behavior
versus frequency, the lowest unadjusted carrier feed through and highest unadjusted sideband
suppression in the market. Additionally, flexibility interfacing with any DAC is possible from the
RF performance independent of common mode voltage.
Key features
`` IQ modulator performances independent of the IQ common
mode voltage (Vcm = 0.25 to 3.3 V)
`` High linearity (IP3o = 27 dBm)
`` Flat gain between 400 MHz and 4 GHz (less than 0.5dB variation)
`` High RF output power for 1Vpp differential I/Q input
(BGX7101: 4 dBm, BGX7100: -0.2 dBm)
`` Very low noise floor (-158 dBm/Hz)
`` Monotonic IP3o behavior vs frequency
`` Lowest unadjusted Carrier Feedthrough (-50 dBm at -7 dBm
output power @ 1960 MHz)
`` Best in class unadjusted sideband suppression (45 dBc at
-7 dBm output power @ 1960 MHz)
`` 1dB IQ baseband bandwidth (BGX7101: 650 MHz, BGX7100:
400 MHz)
`` Low power consumption of < 1 W
`` Fast power-down feature (<1µs) via Pon/off pin
`` ESD protection >2 kV HBM, 650 V FCDM on all pins
Applications
`` Macro, micro, and femto base stations
`` Point-to-point backhaul repeaters
`` Software-defined radios
`` Telecom towers, remote radio units
`` Cable modem termination system
`` RF vector signal generators and other measurement
instruments
The NXP BGX710x family is a series of 5 V wideband IQ
modulators that operate between 400 MHz and 4 GHz while
consuming 10% less current than their closest competitors
(< 1 W). The power-down mode increases power savings
further, lowering consumption to just 6 mA during a receive
slot in TDD systems. The power savings are made possible by
a fast power-down of less than 1µs.
Share Link: 