It is a multiplier that multiplies the reference signal by 512 or 1024 and outputs it. Each multiplier can combine from 2 times to 8 times.
This is a multiplier that multiplies the reference signal by 512 or 1024 and outputs it. It has three multipliers (for 512) or four multipliers (for 1024), and each multiplier can be combined from 2x to 8x (optional). The input signal is TTL, making the interface easy. 【Features】 Input Frequency: 10MHz (specifiable) Level: TTL (LV-TTL, LV-CMOS can be specified) Output 1 Frequency: 80MHz (×8) Output Level: -9dBm to -4dBm Output 2 Frequency: 640MHz (×64) Output Level: -9dBm to -4dBm Output 3 Frequency: 5.12GHz (×512) or 10.24GHz (×1024) Output Level: -9dBm to -4dBm Signal Connector: SMA (female) Power Supply: +12V Dimensions: 100mm × 70mm × 8.5mm (excluding connectors and protrusions) *For more details, please contact us.
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For more details, please contact us.
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Applications/Examples of results
Usage ■ Generation of local signals for wireless devices such as communication equipment and radar ■ Generation of coherent clock signals
Company information
Sakura Tech has been developing imaging sensors and high-performance microwave/millimeter-wave components using ultra-wideband technology since its founding in October 2008. In particular, we developed a compact and high-performance radar platform (miRadar(R)8) using Multiple-Input Multiple-Output (MIMO) technology, which has been commercialized as an obstacle monitoring radar. Using the same radar platform, we developed an algorithm capable of simultaneously measuring the vital signs (heart rate, respiration) of multiple individuals, and we have been the first in the world to sell evaluation kits, receiving positive feedback from many manufacturers. Radio wave sensors have become essential in the fields of autonomous driving sensors, security aiming for a safe and secure society, and monitoring the elderly in the IoT society. Moving forward, Sakura Tech will continue to provide and contribute to society with human-friendly, high-performance sensors that utilize radio waves.