Pasternack's PE11S3912 RF frequency Synthesizer module Phase Locked Loop (PLL) operates on the frequency range from 1 GHz to 6.4 GHz. With pout of > +15 dBm the serial peripheral interace (SPI) RF synthesizer comes with a 1 Hz output step and supports a 100 MHz External Reference for design flexibility. The SPI design provides high resolution with exceptional spurious rejection and phase noise performance.
Operating Voltage for PE11S3912 is +5Vdc with 200mA current. The rugged ultra-small synthesizer packs an impressive low Phase Noise of -90 dBc/Hz @ 1 kHz offset and low spurious rejection of -62 dBc. Pasternack offers a line of experts who can assist you with technical support for your PLL SMA Female RF frequency Synthesizer module or any other rf frequency synthesizer in our inventory. Contact our serial peripheral interface (SPI) synthesizer technical experts or download the PE11S3912 pdf technical data sheet for frequency synthesizer circuit CAD drawing, functional block diagram, and typical performance data.
Manufactured to the highest international standards your PE11S3912 SPI synthesizer ships same business day of order. Designed with Serial, TTL control the frequency Synthesizer comes with Coaxial package and supports SMA Female connectors. The PE11S3912 can be drop mounted onto a PWB, with DC bias pins, and a TTL controlled Lock pin. Additional pins available for command control functions through an SPI for signal enable, clock signal, and data.
The module operates across a wide temperature range of -40°C to 85°C and can withstand relative humidity exposure up to 95% maximum. Pasternack's SPI frequency Synthesizer specialists are on the line and ready to help you with any inquiries you may have on the 1 GHz to 6.4 GHz 15dBm Synthesizer. Order your SPI, 1 GHz to 6.4 GHz, 15dBm Pout, 1Hz Step Size, with 100MHz External Reference, -90 dBc/Hz Phase Noise, +5Vdc, SMA Frequency Synthesizer today. There is no MOQ (minimum order quantity) and the PE11S3912 RF frequency Synthesizer ships same day from our warehouse.