1-VIA’s broad portfolio of general-purpose and optimized LC-PLLs offer a wide range of clocking solutions.
The Integer-N high-speed PLL creates quadrature clocks with good duty cycle and excellent jitter characteristics for high-speed, source-synchronous interfaces and other high-speed logic applications.
The PLL is implemented using 1-VIA’s proprietary architecture, utilizing an integrated Low-Dropout (LDO) regulator and bandgap reference generator. This architecture helps achieve exceptional jitter performance whilst also reducing power consumption.
14GHz Integer-N High-Speed PLL
Overview
Key Features
- Type II hybrid Integer-N LC-PLL
- Quadrature clocks at 14GHz and 7GHz
- Fast locking
- Low-power and ultra-low-jitter (<50fs-rms)
- Analog and digital lock-detector for calibration and DSP purposes
- Auto-calibration at start-up and “in background” for PVT drift
Benefits
- Wide functional range allows all frequencies in a system to be synthesized with one PLL macro
- Low area on chip -- keepouts = DRC limit in most cases
- No external components required
- No additional supply decoupling required
- Self biased and automatically adjusts for any input frequency, so no complicated programming is required
Block Diagram
Applications
- Artificial Intelligence (AI)
- Internet of Things (IoT)
- Medical
- Analogue-to-Digital Converter (ADC)
- RF ASICs
- Automotive
- Wireless
- Digital-to-Analog Converter (DAC)
- Mixed-signal ASICs
- SoCs
- SerDes
Deliverables
- Datasheet
- Characterization report
- Layout view (GDSII)
- Abstract view (LEF)
- Behavioural model (VerilogA)
- Integration guidelines and support
Technical Specifications
Foundry, Node
TSMC: 7nm; 10nm; 12nm; 16nm; 22nm; 28nm (CLN28HPC); 28nm (CLN28HPC+); 28nm (CLN28HPM); 40nm (CLN40G); 40nm (CLN40LP); 45nm (CLN45GS); 45nm (CLN45LP); 55nm (CLN55GP); 55nm (CLN55LP); 65nm (CLN65G); 65nm (CLN65GP);
TSMC
Pre-Silicon:
7nm
,
10nm
,
12nm
,
16nm
,
20nm
,
22nm
,
28nm
,
28nm
HP
,
28nm
HPC
,
28nm
HPCP
,
28nm
HPL
,
28nm
HPM
,
28nm
LP
,
40nm
G
,
40nm
LP
,
45nm
GS
,
45nm
LP
,
55nm
FL
,
55nm
G
,
55nm
GP
,
55nm
LP
,
55nm
NF
,
55nm
ULP
,
55nm
ULPEF
,
55nm
UP
,
65nm
G
,
65nm
GP
,
65nm
LP