Analog Devices Inc./Maxim Integrated

The receive path consists of two independent, wide bandwidth (BW), direct conversion receivers with state-of-the-art dynamic range. The complete receive subsystem includes automatic and manual attenuation control, dc offset correction, quadrature error correction (QEC), and digital filtering, eliminating the need for these functions in the digital baseband. RF front-end control and several auxiliary functions such as analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and general-purpose input/outputs (GPIOs) for the power amplifier (PA) are also integrated.In addition to automatic gain control (AGC), the ADRV9008-1 also features flexible external gain control modes, allowing significant flexibility in setting system level gain dynamically.The received signals are digitized with a set of four high dynamic range, continuous time, sigma-delta (Σ-Δ) ADCs that provide inherent antialiasing. The combination of the direct conversion architecture, which does not suffer from out of band image mixing, and the lack of aliasing relaxes the requirements of the RF filters compared to traditional intermediate frequency (IF) receivers.The fully integrated phase-locked loop (PLL) provides high per-formance, low power, fractional-N, RF synthesis for the receiver signal paths. An additional synthesizer generates the clocks needed for the converters, digital circuits, and the serial interface. A multi-chip synchronization mechanism synchronizes the phase of the RF local oscillator (LO) and baseband clocks between multiple ADRV9008-1 chips. Precautions are taken to provide the isolation required in high performance base station applications. All voltage controlled oscillators (VCOs) and loop filter components are integrated.The high speed JESD204B interface supports up to 12.288 Gbps lane rates, resulting in two lanes per transmitter and a single lane per receiver in the widest bandwidth mode. The interface also supports interleaved mode for lower bandwidths, reducing the total number of high speed data interface lanes to one. Both fixed and floating point data formats are supported. The floating point format allows internal AGC to be invisible to the demodulator device.The core of the ADRV9008-1 can be powered directly from 1.3 V and 1.8 V regulators and is controlled via a standard 4-wire serial port. Comprehensive power-down modes are included to mini-mize power consumption during normal use. The ADRV9008-1 is packaged in a 12 mm × 12 mm, 196-ball chip scale ball grid array (CSP_BGA).Applications3G, 4G, and 5G FDD, macrocell base stationsWide band active antenna systemsMassive multiple input, multiple output (MIMO)Phased array radarElectronic warfareMilitary communicationsPortable test equipment

The receive path consists of two independent, wide bandwidth (BW), direct conversion receivers with state-of-the-art dynamic range. The complete receive subsystem includes automatic and manual attenuation control, dc offset correction, quadrature error correction (QEC), and digital filtering, eliminating the need for these functions in the digital baseband. RF front-end control and several auxiliary functions such as analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and general-purpose input/outputs (GPIOs) for the power amplifier (PA) are also integrated.In addition to automatic gain control (AGC), the ADRV9008-1 also features flexible external gain control modes, allowing significant flexibility in setting system level gain dynamically.The received signals are digitized with a set of four high dynamic range, continuous time, sigma-delta (Σ-Δ) ADCs that provide inherent antialiasing. The combination of the direct conversion architecture, which does not suffer from out of band image mixing, and the lack of aliasing relaxes the requirements of the RF filters compared to traditional intermediate frequency (IF) receivers.The fully integrated phase-locked loop (PLL) provides high per-formance, low power, fractional-N, RF synthesis for the receiver signal paths. An additional synthesizer generates the clocks needed for the converters, digital circuits, and the serial interface. A multi-chip synchronization mechanism synchronizes the phase of the RF local oscillator (LO) and baseband clocks between multiple ADRV9008-1 chips. Precautions are taken to provide the isolation required in high performance base station applications. All voltage controlled oscillators (VCOs) and loop filter components are integrated.The high speed JESD204B interface supports up to 12.288 Gbps lane rates, resulting in two lanes per transmitter and a single lane per receiver in the widest bandwidth mode. The interface also supports interleaved mode for lower bandwidths, reducing the total number of high speed data interface lanes to one. Both fixed and floating point data formats are supported. The floating point format allows internal AGC to be invisible to the demodulator device.The core of the ADRV9008-1 can be powered directly from 1.3 V and 1.8 V regulators and is controlled via a standard 4-wire serial port. Comprehensive power-down modes are included to mini-mize power consumption during normal use. The ADRV9008-1 is packaged in a 12 mm × 12 mm, 196-ball chip scale ball grid array (CSP_BGA).Applications3G, 4G, and 5G FDD, macrocell base stationsWide band active antenna systemsMassive multiple input, multiple output (MIMO)Phased array radarElectronic warfareMilitary communicationsPortable test equipment

The ADRV9008-2 is a highly integrated, RF agile transmit subsystem offering dual channel transmitters, observation path receiver, integrated synthesizers, and digital signal processing functions. The IC delivers a versatile combination of high performance and low power consumption demanded by 2G, 3G and 4G macro-cell base stations, and active antenna, applications.The transmitters use an innovative direct conversion modulator that achieves multi-carrier macro-base-station quality performance and very low power. In 3G/4G mode, the maximum large-signal bandwidth is 200MHz. In MC-GSM mode, which has higher in-band SFDR, the maximum large-signal bandwidth is 75MHz.The observation path consists of a wide bandwidth direct-conversion receiver with state-of-the-art dynamic range. The complete receive subsystem includes dc offset correction, quadrature correction, and digital filtering thus eliminating the need for these functions in the digital baseband. Several auxiliary functions such as ADCs, DACs, and GPIOs for PA and RF-front-end control are also integrated.The fully integrated phase locked loops (PLLs) provide high performance, low power fractional-N RF frequency synthesis for the transmitter and receiver sections. An additional synthesizer is used to generate the clocks needed for the converters, digital circuits, and the serial interface. Special precautions have been taken to provide the isolation demanded in high performance base station applications. All VCO and loop filter components are integrated.The high-speed JESD204B interface supports up to 12.288 Gbps lane rates resulting in two lanes per transmitter in the widest bandwidth mode and two lanes for the observation path receiver in the widest bandwidth mode.The core of the ADRV9008-2 can be powered directly from 1.3 V and 1.8 V regulators and is controlled via a standard 4 wire serial port. Comprehensive power-down modes are included to minimize power consumption in normal use. The ADRV9008-2 is packaged in a 12mm × 12 mm, 196-ball chip scale ball grid array (CSP_BGA).