RADAR technology is used in many diverse applications including astronomy, marine, air-defense, ocean and space surveillance (Synthetic Aperture RADAR), meteorological, flight control systems, and autonomous vehicles.
To extract useful information, it is important to utilize efficient digital signal processing techniques to process the received analog signals.
Wide analog bandwidth for flexibility in selecting the IF bandwidth
High spurious free dynamic range to resolve low level signals
Digital down converter to reduce the sample frequency and increase signal to noise ratio
Decimation filtering for improved ENOB
Open FPGA for custom real-time digital signal processing
High data transfer rate is needed to support fast post-processing
For information about the optional firmware packages and development kit see here
In high-speed, multi-digitizer systems, distributing trigger signals with precision is critical to maintaining synchronization and data integrity. Traditional methods of splitting trigger signals often introduce timing mismatches and jitter, especially at gigahertz sampling rates.
To overcome these limitations, our systems implement a Daisy Chain Trigger Mechanism. In this configuration, a single primary digitizer receives the external trigger and then propagates it digitally to subsequent digitizers in a chain. This approach eliminates the fan-out problem and ensures consistent timing across all devices, achieving trigger timing precision better than 50 picoseconds even in large-scale systems.
By combining this mechanism with a shared 10 MHz reference clock distributed to all boards, we maintain a unified time base and enable synchronized data acquisition across hundreds of channels. This is essential for applications requiring ultra-precise timing, such as radar, fusion diagnostics, and high-energy physics experiments.
For a deeper dive into our synchronization and triggering technologies, visit our Multi-Channel Data Acquisition page.
배송안내
배송 지역 | 대한민국 전지역
배송비 | 2,500원 (50,000원 이상 결제시 무료배송)
배송기간 | 주말 공휴일 제외 2~5일
- 모든 배송은 택배사 사정으로 지연될 수 있습니다.
교환 및 반품 안내
- 고객 변심으로 인한 교환/반품은 상품 수령 후 14일 이내 가능합니다.
- 고객 귀책 사유로 인한 반품의 경우 왕복 택배비는 고객 부담입니다.
- 반품접수 기한이 지난 경우, 제품 및 패키지 훼손, 사용 흔적이 있는 제품은 교환/반품이 불가합니다.
RADAR technology is used in many diverse applications including astronomy, marine, air-defense, ocean and space surveillance (Synthetic Aperture RADAR), meteorological, flight control systems, and autonomous vehicles.
To extract useful information, it is important to utilize efficient digital signal processing techniques to process the received analog signals.
Wide analog bandwidth for flexibility in selecting the IF bandwidth
High spurious free dynamic range to resolve low level signals
Digital down converter to reduce the sample frequency and increase signal to noise ratio
Decimation filtering for improved ENOB
Open FPGA for custom real-time digital signal processing
High data transfer rate is needed to support fast post-processing
For information about the optional firmware packages and development kit see here
In high-speed, multi-digitizer systems, distributing trigger signals with precision is critical to maintaining synchronization and data integrity. Traditional methods of splitting trigger signals often introduce timing mismatches and jitter, especially at gigahertz sampling rates.
To overcome these limitations, our systems implement a Daisy Chain Trigger Mechanism. In this configuration, a single primary digitizer receives the external trigger and then propagates it digitally to subsequent digitizers in a chain. This approach eliminates the fan-out problem and ensures consistent timing across all devices, achieving trigger timing precision better than 50 picoseconds even in large-scale systems.
By combining this mechanism with a shared 10 MHz reference clock distributed to all boards, we maintain a unified time base and enable synchronized data acquisition across hundreds of channels. This is essential for applications requiring ultra-precise timing, such as radar, fusion diagnostics, and high-energy physics experiments.
For a deeper dive into our synchronization and triggering technologies, visit our Multi-Channel Data Acquisition page.
배송안내
배송 지역 | 대한민국 전지역
배송비 | 2,500원 (50,000원 이상 결제시 무료배송)
배송기간 | 주말 공휴일 제외 2~5일
- 모든 배송은 택배사 사정으로 지연될 수 있습니다.
교환 및 반품 안내
- 고객 변심으로 인한 교환/반품은 상품 수령 후 14일 이내 가능합니다.
- 고객 귀책 사유로 인한 반품의 경우 왕복 택배비는 고객 부담입니다.
- 반품접수 기한이 지난 경우, 제품 및 패키지 훼손, 사용 흔적이 있는 제품은 교환/반품이 불가합니다.
