Engineering & Materials Science
Networks (circuits)
100%
Aging of materials
64%
Electric potential
64%
Sensors
60%
DC-DC converters
57%
Transceivers
43%
Optical feedback
39%
Degradation
36%
Electronic circuit tracking
31%
Low noise amplifiers
31%
Recovery
31%
Resistors
31%
Power amplifiers
29%
Digital to analog conversion
29%
Maximum power point trackers
28%
Built-in self test
28%
Photovoltaic cells
28%
Integrated circuits
25%
Monitoring
24%
Insertion losses
24%
Modulators
23%
Energy harvesting
23%
Light emitting diodes
22%
Bandwidth
22%
Hysteresis
21%
Accelerometers
21%
MEMS
21%
Diodes
21%
Transient analysis
20%
Microwaves
20%
Internet of things
19%
Transmitters
19%
Specifications
18%
Antennas
17%
MOSFET devices
17%
System-on-chip
17%
Capacitors
16%
Phase shift
16%
Electric current measurement
16%
Controllers
14%
Analog circuits
14%
Acoustic impedance
14%
Wearable technology
13%
Electric power utilization
13%
Phase noise
13%
Capacitance
13%
Power management
11%
Resonators
10%
Agglomeration
9%
Rails
9%
Natural frequencies
9%
Transconductance
9%
Power integrated circuits
8%
Digital signal processors
8%
Field effect transistors
8%
Bluetooth
8%
Lighting
7%
Clocks
7%
Voltage control
7%
Microwave sensors
6%
Feedback
6%
Weigh-in-motion (WIM)
6%
Analytical models
6%
Flexible electronics
6%
Air
6%
Differential amplifiers
6%
Communication
6%
Measurement errors
5%
Quadrature phase shift keying
5%
Noise figure
5%
Analog to digital conversion
5%
Physics & Astronomy
transmitter receivers
53%
self tests
38%
accelerometers
27%
cancellation
23%
microelectromechanical systems
22%
integrated circuits
21%
stimuli
21%
leakage
18%
light emitting diodes
18%
low noise
15%
power amplifiers
15%
sensitivity
13%
amplifiers
13%
sensors
13%
microwaves
12%
characterization
12%
output
11%
receivers
10%
phase shift
9%
prototypes
9%
CMOS
8%
heart rate
7%
clutter
7%
illumination
7%
respiration
7%
estimates
6%
microwave sensors
6%
quadratures
5%
readout
5%
engineering
5%
analogs
5%
echoes
5%