Oscillator IP for TSMC

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Compare 81 Oscillator IP for TSMC from 15 vendors (1 - 10)
  • Ultra low-power crystal-based 32 kHz oscillator in TSMC 12FFC+
    • OSC-XT-32k-T12FFC.01_TSMC_12_FFC+ is an ultra-low power crystal-based oscillator in TSMC 12FFC+ for accurate 32 kHz clock generation in the SoC Always-On domain (eg. implementation of RTC features).
    • An embedded auxiliary loop controls the voltage amplitude at the crystal terminals for maximizing the power efficiency for multiple crystals.
    Block Diagram -- Ultra low-power crystal-based 32 kHz oscillator in TSMC 12FFC+
  • Low-power 32 kHz RC low-drift oscillator in TSMC 22ULL
    • OSC-RC-32k-LD-A01-T22ULL.01_TSMC_22_ULL is a 32 kHz RC oscillator in TSMC 22ULL specifically designed for the implemenation of accurate time-based features in always-on domains.
    • With an overall precision better than 500 ppm on its full voltage and temperature operating ranges, Dolphin's IP meets the sleep clock accuracy requirements of the BLE standard, removing the need for an external crystal.
    Block Diagram -- Low-power 32 kHz RC low-drift oscillator in TSMC 22ULL
  • Low-power 32 kHz RC oscillator in TSMC 22ULL 1.8 V
    • OSC-RC-32k-A01-D18-T22ULL.03_TSMC_22_uLL1.8 is a 32 kHz RC oscillator in TSMC 22ULL with 1.8 V I/O MOSFET devices based on a low-power architecture for the implementation of always-on domains.
    • The IP informs the host when the frequency has reached a stable frequency value after leaving shutdown or standby mode.
    Block Diagram -- Low-power 32 kHz RC oscillator in TSMC 22ULL 1.8 V
  • 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
  • 18-40MHz Crystal Oscillator on TSMC CLN2P
    • 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 -- 18-40MHz Crystal Oscillator on TSMC CLN2P
  • 5MHz-35MHz Low Power Crystal Oscillator - TSMC 0.18µ
    • 4MHz-35MHz Frequency range.
    • No external bias or limit resistors required.
    • Current optimization for best power at frequency.
    • Amplitude control loop.
    • The OSCI pad input can be used as a CMOS input for test.
    • Uses single 1.8V supply.
    • Enable/power down provision.
    Block Diagram -- 5MHz-35MHz Low Power Crystal Oscillator - TSMC 0.18µ
  • 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
  • Crystal-less Low Power Oscillator on TSMC CLN12FFC
    • Crystal-less oscillator
    • Uses standard CMOS transistors
    • Accuracy within +/-35% untrimmed, +/-8% post-trim
    • Under 50uA active power
    Block Diagram -- Crystal-less Low Power Oscillator on TSMC CLN12FFC
  • Crystal Oscillator on TSMC CLN22ULL
    • Crystal Oscillator pad macro that supports an industry standard crystals
    • Uses standard CMOS transistors
    • Crystal Oscillation Mode: Fundamental
    • Power down option for IDDQ testing
    Block Diagram -- Crystal Oscillator on TSMC CLN22ULL
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