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Clocking IP for TSMC

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Compare 59 Clocking IP for TSMC from 10 vendors (1 - 10)
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  • 7nm
  • Crystal Oscillators
    • The crystal oscillator macros are available in a wide range of industry-standard quartz crystals and MEMS resonators operating in the fundamental mode in the 32 kHz to 80 MHz range.
    • These oscillators, which are both power and area efficient, have a programmable transconductance to allow users to find the optimal balance between jitter and power consumption.
    Block Diagram -- Crystal Oscillators
  • Free running oscillators
    • Compact and low power
    • No external components
    • Baseline CMOS logic process masks only
    • Excellent frequency precision over PVT after trimming
    Block Diagram -- Free running oscillators
  • Xtal Oscillator on TSMC CLN7FF
    • Crystal Oscillator pad macro that supports industry standard crystals
    • Uses standard CMOS transistors
    • Crystal Oscillation Mode: Fundamental
    • Power down option for IDDQ testing
    Block Diagram -- Xtal Oscillator on TSMC CLN7FF
  • Core Powered FracN/SSCG PLL on TSMC CLN7FF
    • Electrically Programmable PLL with Fractional-N divide and Spread Spectrum Clock Generation
    • Wide Ranges of Input and Output Frequency for diverse clocking needs
    • Very fine precision: near 1 part per billion resolution
    • Fully integrated 32-bit datapath (8-bit integer plus 24-bit fractional)
    Block Diagram -- Core Powered FracN/SSCG PLL on TSMC CLN7FF
  • 4.8GHz low jitter fractional-N, Digital PLL, TSMC N7, 0.75V, N/S orientation
    • Pure core voltage design
    • Compact IP size (< 0.013mm²) and low power consumption (1.1mW @ 3GHz)
    • Compatible with commonly used crystal oscillator frequencies
    • Good power noise immunity for period jitter (< ±15%/V)
    Block Diagram -- 4.8GHz low jitter fractional-N, Digital PLL, TSMC N7, 0.75V, N/S orientation
  • Block Diagram -- Analog-PLL for Spread Spectrum Clock 4.3GHz
  • 14GHz Integer-N High-Speed PLL
    • Type II hybrid Integer-N LC-PLL
    • Quadrature clocks at 14GHz and 7GHz
    • Fast locking
    Block Diagram -- 14GHz Integer-N High-Speed PLL
  • Fractional-N PLL for Performance Computing in TSMC N6/N7
    • Frequencies up to 4GHz
    • Low jitter (< 10ps RMS)
    • Small size (< 0.01 sq mm)
    Block Diagram -- Fractional-N PLL for Performance Computing in TSMC N6/N7
  • Low Voltage, Low Power Fractional-N PLLs
    • Low power, suitable for IoT applications
    • Good jitter, suitable for clocking digital logic.
    • Extremely small die area (< 0.005 sq mm), using a ring oscillator
    • Output frequency can be from 1 to 400 times the input reference, up to 1.5GHz
    Block Diagram -- Low Voltage, Low Power Fractional-N PLLs
  • General Purpose Fractional-N PLLs
    • Low power, suitable for logic clocking applications
    • Extremely small die area, using a ring oscillator
    • Twelve bits fractional resolution
    Block Diagram -- General Purpose Fractional-N PLLs
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