ADI AD9213BBPZ-6G
- Single-channel 12-bit ADC with 6.0 GSPS sampling rate
- RF input bandwidth up to 6.5 GHz for direct sampling
- Integrated DDC with 48-bit NCO and programmable decimation
- JESD204B interface supporting up to 16 Gbps lane rate
- Multichip synchronization with sample-level alignment
The ADI AD9213BBPZ-6G is a single-channel high-speed RF analog-to-digital converter engineered for aerospace and defense systems such as radar, electronic warfare, and advanced avionics receivers. With a 6 GSPS sampling rate and 12-bit resolution, it enables direct RF sampling architectures, eliminating multiple analog downconversion stages and significantly simplifying system design. Its wide input bandwidth of up to 6.5 GHz supports high-frequency signal capture required in modern EW and surveillance platforms.
Designed for high dynamic range and low conversion error rates, the device integrates advanced calibration, dithering, and digital downconversion. These features allow efficient signal extraction in dense RF environments while reducing FPGA processing overhead. With JESD204B high-speed output and precise multichip synchronization, it is well suited for scalable phased array radar and distributed receiver architectures.
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The ADI AD9213BBPZ-6G is a high-speed RF ADC designed for aerospace and defense applications requiring ultra-wideband signal capture. With 6 GSPS sampling and integrated digital downconversion, it enables direct RF sampling architectures that reduce analog complexity and improve system performance. Engineers searching for high-speed JESD204B ADCs for radar and electronic warfare will find this device ideal for next-generation receiver designs.
High-speed RF ADC for radar and EW systems
Modern radar and EW systems demand wide instantaneous bandwidth and high dynamic range. The AD9213BBPZ-6G delivers both through its 6.5 GHz input bandwidth and integrated DSP blocks. This allows efficient signal extraction in dense electromagnetic environments while reducing FPGA resource utilization. Its multichip synchronization capability makes it suitable for phased array systems requiring precise timing alignment.
AD9213BBPZ-6G vs similar high-speed ADCs
| Model | Resolution | Sample Rate | Channels | Interface |
|---|---|---|---|---|
| AD9213BBPZ-6G | 12-bit | 6 GSPS | 1 | JESD204B |
| AD9213BBPZ-10G | 12-bit | 10.25 GSPS | 1 | JESD204B |
| AD9208BBPZ-3000 | 14-bit | 3 GSPS | 2 | JESD204B |
Compared to dual-channel solutions, the AD9213BBPZ-6G focuses on ultra-wide bandwidth single-channel applications, making it ideal for systems prioritizing instantaneous spectrum coverage.
Reliable sourcing for high-speed ADC components
We supply fully traceable ADI components with anti-counterfeit inspection and Certificate of Conformance. The AD9213BBPZ-6G is available for global shipping with export compliance support, ensuring secure procurement for aerospace and defense programs. Our team responds within 24 hours to support urgent RF system requirements.
Contact us today to secure your high-speed ADC supply.
Bullet Points
- Enables ultra-wideband direct RF sampling architectures
- Optimized for high instantaneous bandwidth systems
- Reduces analog front-end complexity in EW receivers
- Advanced calibration improves spectral purity
- Supports scalable multi-channel synchronization
- Flexible decimation reduces downstream data rate
- Designed for harsh and extended temperature environments
- Ideal for next-generation radar and surveillance systems
FAQ
What applications benefit most from AD9213BBPZ-6G high-speed ADC
It is ideal for radar, electronic warfare, and wideband RF capture systems where high sampling rate and wide bandwidth are required.
How does AD9213BBPZ-6G simplify RF system design
By enabling direct RF sampling, it removes the need for multiple analog downconversion stages, reducing complexity and improving reliability.
What is the difference between 6G and 10G variants of AD9213
The 6G version targets lower bandwidth and power applications, while the 10.25 GSPS version supports ultra-wideband systems with higher instantaneous spectrum coverage.
Is this ADC suitable for phased array radar systems
Yes, it supports multichip synchronization with sample-level accuracy, making it suitable for phased array and distributed receiver architectures.
What should buyers verify before purchasing this ADC
Ensure full traceability, anti-counterfeit verification, and CoC documentation to meet aerospace and defense compliance requirements.