Engineering
Active Area
23%
Amplifier
29%
Analog-to-Digital Converter
36%
Bit Error Rate
18%
Buck Converter
28%
Charge Pump
31%
Clock Frequency
39%
Comparator
66%
Conversion Ratio
17%
Corrector
21%
Current Load
17%
Data Rate
30%
DC-to-DC Converter
46%
Decision Feedback Equalizers
42%
Digital Converter
39%
Duty Cycle
26%
Electric Delay Lines
33%
Electric Power Utilization
80%
Energy Conservation
37%
Energy Dissipation
23%
Energy Efficiency
34%
Energy Engineering
97%
Energy Harvesting
95%
Equalizers
49%
Feedforward
18%
Flip Flop Circuits
33%
High Resolution
19%
Input Frequency
28%
Input Range
17%
Input Voltage
28%
Internet-Of-Things
29%
Locked Loop
68%
Maximum Power Point Tracking
45%
Memory Interface
50%
Network-on-Chip
23%
Oscillator
27%
Output Voltage
29%
Phase Detector
27%
Phase Locked Loop
69%
Power Conversion Efficiency
21%
Pulse Amplitude Modulation
22%
Reference Voltage
18%
Response Time
19%
Spread Spectrum
35%
Successive Approximation
29%
Supply Voltage
44%
Switched Capacitor
27%
Synthetic Aperture Radar
27%
Thermoelectricity
21%
Transceiver
77%
Keyphrases
28 Nm CMOS
34%
65nm CMOS
37%
Active Area
23%
Adaptive Equalizer
23%
All-digital
41%
Charge Pump
27%
Clock Frequency
31%
Clock Generator
60%
Clock Recovery
30%
CMOS Process
91%
CMOS Technology
61%
Controller
20%
DC-DC Converter
31%
Decision Feedback Equalizer
31%
Delay Line
30%
Delay-locked Loop
54%
DRAM Interface
23%
Dynamic Voltage Frequency Scaling
21%
Energy Consumption Reduction
24%
Energy Efficiency
25%
Energy Efficient
41%
Energy Harvesting System
29%
Equalizer
22%
Fast Lock
22%
Flip-flop
21%
Fully Integrated
22%
Input Frequency
22%
Input Voltage
22%
Jitter
52%
Lock Time
36%
Low Jitter
27%
Low Power
100%
Maximum Power Point Tracking
45%
Memory Interface
38%
Network on chip
25%
On chip
21%
One-cycle
20%
Output Driver
42%
Output Voltage
21%
Phase-locked Loop
21%
Power Consumption
73%
Reference-free
32%
SAR ADC
35%
Small Area
31%
Spread Spectrum Clock Generator
38%
Static Logic
27%
Supply Voltage
38%
Transceiver
66%
Transistor
21%
Transmitter
29%