Product Details
●The AD9276 is designed for low cost, low power, small size, and ease of use. It contains eight channels of a variable gain amplifier (VGA) with a low noise preamplifier (LNA); an anti-aliasing filter (AAF); a 12-bit, 10 MSPS to 80 MSPS analog-to-digital converter (ADC); and an I/Q demodulator with programmable phase rotation.
●Each channel features a variable gain range of 42 dB, a fully differential signal path, an active input preamplifier termination, a maximum gain of up to 52 dB, and an ADC with a conversion rate of up to 80 MSPS. The channel is optimized for dynamic performance and low power in applications where a small package size is critical.
●The LNA has a single-ended-to-differential gain that is selectable through the SPI. The LNA input noise is typically 0.75 nV/√Hz at a gain of 21.3 dB, and the combined input-referred noise of the entire channel is 0.85 nV/√Hz at maximum gain. Assuming a 15 MHz noise bandwidth (NBW) and a 21.3 dB LNA gain, the input SNR is roughly 92 dB. In CW Doppler mode, each LNA output drives an I/Q demodulator. Each demodulator has inde-pendently programmable phase rotation through the SPI with 16 phase settings.
●The AD9276 requires a LVPECL-/CMOS-/LVDS-compatible sample rate clock for full performance operation. No external reference or driver components are required for many applications.
●The ADC automatically multiplies the sample rate clock for the appropriate LVDS serial data rate. A data clock (DCO±) for capturing data on the output and a frame clock (FCO±) trigger for signaling a new output byte are provided.
●Powering down individual channels is supported to increase battery life for portable applications. A standby mode option allows quick power-up for power cycling. In CW Doppler opera-tion, the VGA, AAF, and ADC are powered down. The power of the TGC path scales with selectable ADC speed power modes.
●The ADC contains several features designed to maximize flexibility and minimize system cost, such as a programmable clock, data alignment, and programmable digital test pattern generation. The digital test patterns include built-in fixed patterns, built-in pseudo-random patterns, and custom user-defined test patterns entered via the serial port interface.
●Fabricated in an advanced CMOS process, the AD9276 is available in a 16 mm × 16 mm, RoHS compliant, 100-lead TQFP. It is specified over the industrial temperature range of −40°C to +85°C.
●Product Highlights
● 1. Small Footprint - Eight channels are contained in a small, space-saving package. Full TGC path, ADC, and I/Q demodulator contained within a 100-lead, 16 mm × 16 mm TQFP
● 2. Low Power - In TGC mode, low power of 195 mW per channel at 40 MSPS. In CW mode, ultralow power of 94 mW per channel
● 3. Integrated High Dynamic Range I/Q Demodulator with Phase Rotation
● 4. Ease of Use - A data clock output (DCO±) operates up to 480 MHz and supports double data rate (DDR) operation
● 5. User Flexibility - Serial port interface (SPI) control offers a wide range of flexible features to meet specific system requirements
● 6. Integrated Second-Order Antialiasing Filter - This filter is placed before the ADC and is programmable from 8 MHz to 18 MHz.
●Applications
● Medical imaging/ultrasound
● Automotive radar
●### Features and Benefits
● 8 channels of LNA, VGA, AAF, ADC and I&Q Demodulator
● Low noise preamplifier (LNA) - Please see data sheet for additional information.
● Variable gain amplifier (VGA)
●Attenuator range: −42 dB to 0 dB
●Postamp gain: 21 dB/24 dB/27 dB/30 dB
●Linear-in-dB gain control
● Antialiasing filter (AAF)
●Programmable second-order LPF from 8 MHz to 18 MHz
●Programmable HPF
● Analog-to-digital converter (ADC) - Please see data sheet for additional information.
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● CW Mode I & Q demodulator
●Invididual programmable phase rotation
●Output dynamic range per channel >160 dBFS/√Hz
● Low power, 195 mW per channel at 12 bits/40 MSPS (TGC), 94 mW per channel for CW Doppler
● Flexible power-down modes
● Overload recovery in <10 ns
● Fast recovery from low power standby mode, <2 μs
● 100-lead TQFP-EP
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