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Compare 486 Other from 33 vendors (1 - 10)
  • 32Gbps, 31 order, Pseudo Random Bit Sequence Generator / Checker
    • This unit generates and checks Pseudo Random Bit Sequence (PRBS) of 31 order, up to 32Gbps. Error count is accurate: no double counts or omissions regardless of error sequence or frequency of occurrence.
    • Can be used as Generator, Checker or both. No inductors are used minimizing area and EM interference. Simple control interface, with low frequency asynchronous signals only.
    Block Diagram -- 32Gbps, 31 order, Pseudo Random Bit Sequence Generator / Checker
  • 32Gbps Pseudo Random Bit Sequence Generator/Checker
    • PRBS order: 7 or 15 based on formulas: X1=X6^X7; X1=X14^X15
    • Full bit rate at input and output up to 32Gbps
    • Generator, Checker and Counter functions
    • Accurate error count: no omissions or double counts
    • Full rate CMOS differential input data, centered with half-rate CMOS differential clock
    • Full rate CMOS differential output data, aligned with half-rate CMOS differential clock
    • Asynchronous low frequency CMOS control interface
    • Supply voltage: 0.9V
    Block Diagram -- 32Gbps Pseudo Random Bit Sequence Generator/Checker
  • 32Gbps, 7/15/31 order, Pseudo Random Bit Sequence Generator/Checker
    • PRBS order: 7, 15 or 31 based on formulas: X1=X6^X7; X1=X14^X15; X1=X28^X31
    • Full bit rate at input and output up to 32Gbps
    • Generator, Checker and Counter functions
    • Accurate error count: no omissions or double counts
    • Full rate CMOS differential input data, centered with half-rate CMOS differential clock
    • Full rate CMOS differential output data, aligned with half-rate CMOS differential clock
    Block Diagram -- 32Gbps, 7/15/31 order, Pseudo Random Bit Sequence Generator/Checker
  • Combined Power On Reset and Brown Out Reset
    • A flexible offering enabling to implement only the relevant features
    • Ultra low power consumption of 13 μA in normal mode and 5 nA in low power mode enabling to optimize the overall consumption of the Always-On
    • Possibility to disable the BOR monitoring during low power mode in order to save power
    • High programmability: POR, PON and BOR thresholds are all programmable. BOR allows a dynamic programming to comply with the supply voltage of the power domain
    Block Diagram -- Combined Power On Reset and Brown Out Reset
  • 10 to 40 MHz crystal oscillator
    • Supply voltage 3.3V
    • Output frequency 10-40MHz
    • GF 180nm MCU CMOS technology
    Block Diagram -- 10 to 40 MHz crystal oscillator
  • 100 MHz RC oscillator
    • Global Foundries CMOS 55nm
    • Low current consumption
    • Low temperature dependence
    • High accuracy (after trimming)
    Block Diagram -- 100 MHz RC oscillator
  • 32.768 kHz Crystal oscillator
    • TSMC CMOS 40LP technology
    • Precise frequency 32.768 kHz
    • Low power consumption (<1 uA)
    Block Diagram -- 32.768 kHz Crystal oscillator
  • 1.16 V Bandgap voltage reference
    • TSMC SiGe BiCMOS 0.18 um
    • Output voltage 1.16 V
    • Compensated in wide temperature range
    • Based on n-p-n bipolar transistors
    Block Diagram -- 1.16 V Bandgap voltage reference
  • 1.19 V Reference voltage source
    • SMIC CMOS 0.18 um
    • Output voltage 1.2 V
    • Temperature-compensated voltage in a wide temperature range
    • Low current consumption
    Block Diagram -- 1.19 V Reference voltage source
  • 7 to 20 MHz Intermediate frequency amplifier
    • SMIC CMOS 180 nm technology
    • Wide gain range (0…62 dB)
    • Low input noise figure
    • Low group delay time ripple vs. frequency and gain
    Block Diagram -- 7 to 20 MHz Intermediate frequency amplifier
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