PE42742 - The PE42742 isA SPDT Switch designed for CATV applications. It offers high isolation and low insertion loss in bothA powered andA unique unpowered default state. The PE42742 coversA broad frequency range from near DC to beyond 2.2 GHz withA single positive supply and two-pin CMOS control. InA typical CATV application, the PE42742 providesA smaller, cost effective, more reliable and manufacturable alternative to mechanical relays. It is offered inA 20-lead 4x4 QFN package.
PE9763 - 3.2 Ghz Delta-sigma Modulated Fractional-n Frequency Synthesizer For Low Phase Noise Applications
PE97632 - PE976323.0 GHz Delta-Sigma modulated Fractional-N PLL Frequency Synthesizer for Low Phase Noise ApplicationsPeregrine\'s PE97632 isA high performance fractional-N PLL capable of frequency synthesis up to 3.0 GHz. The device is designed for ultra-low phase noise performance and is drop in compatable with the PE9763.The PE97632 featuresA 10/11 dual modulus prescaler, counters,A delta sigma modulator, andA phase comparator. Counter values are programmable through eitherA serial interface or directly hard-
PE97632ES - PE976323.0 GHz Delta-Sigma modulated Fractional-N PLL Frequency Synthesizer for Low Phase Noise ApplicationsPeregrine\'s PE97632 isA high performance fractional-N PLL capable of frequency synthesis up to 3.0 GHz. The device is designed for ultra-low phase noise performance and is drop in compatable with the PE9763.The PE97632 featuresA 10/11 dual modulus prescaler, counters,A delta sigma modulator, andA phase comparator. Counter values are programmable through eitherA serial interface or directly hard-
PE9763EK - 3.2 GHz Delta-Sigma modulated Fractional-N Frequency Synthesizer for Low Phase Noise Applications
PE9763ES - 3.2 GHz Delta-Sigma modulated Fractional-N Frequency Synthesizer for Low Phase Noise Applications
PI5A4765 - CSP Low Voltage Dual SPDT Audio Clickless Analog Switch with Headphone/Mute Detection, 2:1 Mux/DeMux Bus Switchfast single-pole double throw (SPDT) CMOS switch. It can be used as an analog switch or asA low-delay bus switch. Specified overA wide operating power supply voltage, 1.65V to 5.5V, the PI5A4765 hasA low On-Resistance of 0.6§Щ @ 2.7V.Break-before-make switching prevents both switches being enabled simultaneously. This eliminates signal disruption during switching. The control input, INX, tolerat
PI6C3420 - 27 MHz Spread Spectrum Clock Synthesizer The PI6C3420 and PI6C3421 are spread spectrum clock synthesizers targeted for video and graphics applications. The primary purpose of the spread spectrum is to minimize EMI emissions. Both devices generate two 27.000MHz outputs:A 27.000MHz down spread spectrum output andA 27.000MHz non-spread spectrum output. The PI6C3421 down spread range from -0.25% to -1.0%. The PI6C3420 generates down spread range from -1.0% to -1.75%. Spread spectrums are selectable through ex
PI6C3420TE - 27 MHz Spread Spectrum Clock Synthesizer The PI6C3420 and PI6C3421 are spread spectrum clock synthesizers targeted for video and graphics applications. The primary purpose of the spread spectrum is to minimize EMI emissions. Both devices generate two 27.000MHz outputs:A 27.000MHz down spread spectrum output andA 27.000MHz non-spread spectrum output. The PI6C3421 down spread range from -0.25% to -1.0%. The PI6C3420 generates down spread range from -1.0% to -1.75%. Spread spectrums are selectable through ex
PI6C3421 - 27 MHz Spread Spectrum Clock Synthesizer The PI6C3420 and PI6C3421 are spread spectrum clock synthesizers targeted for video and graphics applications. The primary purpose of the spread spectrum is to minimize EMI emissions. Both devices generate two 27.000MHz outputs:A 27.000MHz down spread spectrum output andA 27.000MHz non-spread spectrum output. The PI6C3421 down spread range from -0.25% to -1.0%. The PI6C3420 generates down spread range from -1.0% to -1.75%. Spread spectrums are selectable through ex
PI6C3421TE - 27 MHz Spread Spectrum Clock Synthesizer The PI6C3420 and PI6C3421 are spread spectrum clock synthesizers targeted for video and graphics applications. The primary purpose of the spread spectrum is to minimize EMI emissions. Both devices generate two 27.000MHz outputs:A 27.000MHz down spread spectrum output andA 27.000MHz non-spread spectrum output. The PI6C3421 down spread range from -0.25% to -1.0%. The PI6C3420 generates down spread range from -1.0% to -1.75%. Spread spectrums are selectable through ex