Keyphrases
Low Power
77%
Supply Voltage
64%
CMOS Process
58%
Phase-locked Loop
57%
Low Voltage
53%
Power Consumption
42%
Fast Lock
41%
Voltage-controlled Oscillator
35%
Clock Generator
33%
Power Dissipation
31%
All-digital
27%
All-digital Phase-locked Loop (ADPLL)
27%
Delay-locked Loop
26%
Timing Resolution
25%
Peak-to-peak Jitter
24%
CMOS Technology
24%
Wide Operation Range
24%
Low Jitter
23%
Synchronous Mirror Delay
23%
Lock Time
22%
Duty Cycle
22%
Jitter
22%
Power Delay Product
21%
Current Sensing
21%
Build-in Jitter Measurement
21%
Clock Frequency
19%
Split Path
19%
RMS Jitter
18%
Chip Area
18%
SPICE Model
18%
Charge Pump
18%
Complementary Pass Transistor Logic
18%
High-speed Applications
17%
On chip
16%
Multi-phase Outputs
16%
Operation Speed
16%
Time-to-digital Converter
16%
Mixed Mode
15%
90-nm CMOS Technology
15%
Low Power Consumption
15%
Circuit Design
15%
System-on-chip
15%
Operating Frequency
15%
Measurement Results
15%
Frequency multiplier
14%
Measuring Circuit
14%
Current Mode
14%
Spread Spectrum Clock Generator
14%
64-bit
14%
CMOS Buffer
13%
Engineering
Supply Voltage
100%
Phase Locked Loop
97%
Electric Power Utilization
67%
Oscillator
54%
Duty Cycle
46%
Simulation Result
46%
Energy Dissipation
38%
Voltage-Controlled Oscillator
33%
Locked Loop
33%
Phase Error
30%
Power Supply
30%
Adders
28%
Operating Frequency
27%
Range Operation
25%
Clock Cycle
25%
Logic Circuit
24%
Speed Operation
23%
Amplifier
22%
Chip Area
21%
Clock Frequency
21%
Digital Converter
19%
Speed Application
19%
System-on-Chip
18%
Circuit Design
18%
Charge Pump
17%
Nodes
17%
Frequency Multiplier
17%
Clock Signal
17%
Mixed Mode
15%
Electric Delay Lines
15%
Current Mirror
15%
High Resolution
15%
Spread Spectrum
14%
Low Power Consumption
13%
Energy Engineering
13%
Equalizers
12%
Dynamic Random Access Memory
12%
Output Phase
11%
Transceiver
11%
Frequency Operation
11%
Control Loop
10%
Output Stage
10%
Logic Function
10%
Logic Synthesis
10%
Process Variation
10%
Internal Clock
10%
Resistive
10%
Phase Detector
10%
Reference Clock
10%
Delay Circuits
9%