401 10.0

Frac-N SSCG PLL - TSMC N5 Analog Bits’ low power Fractional-N / SSCG PLL addresses power sensitive designs required for IOT, mobile and other low power applications needing non...

402 10.0

FracN/SSCG PLL - TSMC CLN4P Analog Bits’ low power Fractional-N SSCG PLL addresses power sensitive designs required for IOT, mobile and other low power applications needing non-i...

403 10.0

FracN/SSCG PLL - TSMC CLN5A Analog Bits’ low power Fractional-N SSCG PLL addresses power sensitive designs required for IOT, mobile and other low power applications needing non-i...

404 10.0

Fractional-N PLL - TSMC 28 CLN28HPC The programmable Fractional-N divider allows the PLL to lock to an incoming clock source and produce an output clock with a non-integer multiplication...

405 10.0

Fractional-N PLL - TSMC CLN16FFC The programmable Fractional-N divider allows the PLL to lock to an incoming clock source and produce an output clock with a non-integer multiplication...

406 10.0

Process Detector (For DVFS and monitoring process variation), TSMC 16FFC An embedded process detector circuit which helps Integrated Circuit (IC) developers to address the problem of process variability on low-geometry CMOS...

407 10.0

Process Detector (For DVFS and monitoring process variation), TSMC N3 An embedded process detector circuit which helps Integrated Circuit (IC) developers to address the problem of process variability on low-geometry CMOS...

408 10.0

Process Detector (For DVFS and monitoring process variation), TSMC N3EP An embedded process detector circuit which helps Integrated Circuit (IC) developers to address the problem of process variability on low-geometry CMOS...

409 10.0

Process Detector (For DVFS and monitoring process variation), TSMC N4P An embedded process detector circuit which helps Integrated Circuit (IC) developers to address the problem of process variability on low-geometry CMOS...

410 10.0

Process Detector (For DVFS and monitoring process variation), TSMC N5 An embedded process detector circuit which helps Integrated Circuit (IC) developers to address the problem of process variability on low-geometry CMOS...

411 10.0

Process Detector (For DVFS and monitoring process variation), TSMC N6 An embedded process detector circuit which helps Integrated Circuit (IC) developers to address the problem of process variability on low-geometry CMOS...

412 10.0

Process Detector P/N Skew, TSMC N5 An embedded process detector circuit which helps Integrated Circuit (IC) developers to address the problem of process variability on low-geometry CMOS...

413 10.0

Droop Detector - TSMC CLN2P Analog Bits’ Droop Detector macro addresses SOC power supply and other voltage droop monitoring needs in a fully integrated easy-to-use macro. The Dro...

414 10.0

Droop Detector - TSMC CLN3A Analog Bits’ Droop Detector macro addresses SOC power supply and other voltage droop monitoring needs in a fully integrated easy-to-use macro. The Dro...

415 10.0

Droop Detector - TSMC CLN3E Analog Bits’ Droop Detector macro addresses SOC power supply and other voltage droop monitoring needs in a fully integrated easy-to-use macro. The Dro...

416 10.0

Droop Detector - TSMC CLN3P Analog Bits’ Droop Detector macro addresses SOC power supply and other voltage droop monitoring needs in a fully integrated easy-to-use macro. The Dro...

417 10.0

Droop Detector - TSMC CLN4P Analog Bits’ Droop Detector macro addresses SOC power supply and other voltage droop monitoring needs in a fully integrated easy-to-use macro. The Dro...

418 10.0

Crystal Oscillator - TSMC 6FF High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...

419 10.0

Crystal Oscillator - TSMC N5 High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...

420 10.0

Crystal Oscillator Pad - TSMC 7FF High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...

421 10.0

Crystal-less Oscillator - TSMC 12FFC Analog Bits Crystal-less low power oscillator addresses a variety of applications that include low power consumer and professional applications that r...

422 10.0

Crystal-less Oscillator - TSMC CLN16FFC Analog Bits Crystal-less low power oscillator addresses a variety of applications that include low power consumer and professional applications that r...

423 10.0

USB 2.0 femtoPHY in TSMC (16nm, N7) for Automotive The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...

424 10.0

USB 2.0 femtoPHY in TSMC (40nm, 28nm, 22nm, 16nm, 12nm, 10nm, N7, N6, N6C, N5, N3P) The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...

425 10.0

USB 2.0 nanoPHY in TSMC (65nm, 55nm, 40nm) The Synopsys USB 2.0 nanoPHY provides designers with a complete Physical Layer (PHY) IP solution, designed for low-power mobile and consumer applicati...

426 10.0

USB 2.0 picoPHY in TSMC (40nm, 28nm) The Synopsys USB 2.0 picoPHY provides designers with a complete physical (PHY) layer IP solution, designed for low power mobile and consumer applicati...

427 10.0

USB 3.0 femtoPHY in TSMC (28nm, 22nm, 16nm, 12nm) The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...

428 10.0

USB-C 3.0 femtoPHY in Type-C in TSMC (28nm, 16nm, 12nm) The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...

429 10.0

USB-C 3.1 SS/SSP PHY in Type-C in TSMC (16nm, 12nm, N7, N6, N5, N5A, N3A) The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...

430 10.0

USB-C 3.1/DP TX PHY in TSMC (16nm, 12nm, N7, N6) The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...

431 10.0

USB-C 3.2 DP/TX PHY ebdaux in TSMC (N5, N4C) The Synopsys USB-C 3.2/DisplayPort 1.4 IP solution consists of USB-C 3.2/DisplayPort 1.4 PHYs, USB-C 3.2/DisplayPort 1.4 controllers (Device, Host, or...

432 10.0

SSCG PLL - TSMC CLN3E Analog Bits’ PCIe REF PLL addresses stringent performance requirements in high-speed serial link applications that support the PCI Express Gen4 and Ge...

433 10.0

SSCG PLL - TSMC CLN3P Analog Bits’ PCIe REF PLL addresses stringent performance requirements in high-speed serial link applications that support the PCI Express Gen4 and Ge...

434 10.0

TSMC CLN16FFCLL 16nm Clock Generator PLL - 800MHz-4000MHz The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...

435 10.0

TSMC CLN28HPC 28nm Clock Generator PLL - 175MHz-875MHz The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...

436 10.0

TSMC CLN28HPC 28nm Clock Generator PLL - 350MHz-1750MHz The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...

437 10.0

TSMC CLN28HPC 28nm Clock Generator PLL - 700MHz-3500MHz The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...

438 10.0

TSMC CLN28HPC 28nm DDR DLL - 150MHz-750MHz The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...

439 10.0

TSMC CLN28HPC 28nm DDR DLL - 200MHz-1000MHz The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...

440 10.0

TSMC CLN28HPC 28nm DDR DLL - 316MHz-1580MHz The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...

441 10.0

TSMC CLN28HPC 28nm Deskew PLL - 175MHz-875MHz The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...

442 10.0

TSMC CLN28HPC 28nm Deskew PLL - 350MHz-1750MHz The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...

443 10.0

TSMC CLN28HPC 28nm Deskew PLL - 700MHz-3500MHz The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...

444 10.0

TSMC CLN28HPC 28nm General Purpose PLL - 350MHz-1750MHz The General Purpose PLL is a wide range clock multiplier with deskew capability. It contains a 1-16 divider at the reference clock input, a 1-64 divid...

445 10.0

TSMC CLN28HPC 28nm Multi Phase DLL - 175MHz-875MHz The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....

446 10.0

TSMC CLN28HPC 28nm Multi Phase DLL - 350MHz-1750MHz The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....

447 10.0

TSMC CLN28HPC 28nm Multi Phase DLL - 700MHz-3500MHz The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....

448 10.0

TSMC CLN28HPC 28nm Spread Spectrum PLL - 150MHz-750MHz The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...

449 10.0

TSMC CLN28HPC 28nm Spread Spectrum PLL - 300MHz-1500MHz The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...

450 10.0

TSMC CLN28HPC 28nm Spread Spectrum PLL - 600MHz-3000MHz The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...