IEEE Circuits and Systems Magazine - Q3 2018 - 42

42

Ieee cIRcuITs anD sysTems magazIne

THIRD quaRTeR 2018

Self-Vth cancellation

Energy investing
switched-inductor

Frequency upconversion

P-SSHI

buck-boost DCM
converter, MPPT

SSHI, bias generator,
peak detector, PTAT
current-generator

NVC, DCM buck-boost

Active diodes, boost
converter

MPPT, energy aware
interface

MS-SECE

P-SSHI

[49]
. J. L. Wardlaw and
A. I. Karsilayan

[50] D. Kwon and
G. A. Rincón-Mora

[63] Ping Li et al.

[75] N. Krihely and
S. Ben-Yaakov

[91] H. Yu et al.

[93] D. Kwon and
G. A. Rincón-Mora

[95] I. M. Darmayuda et al.

[100] Y. Rao and D. P.
Arnold

[101] Z. J. Chew and M.
Zhu

[104] P. Gasnier et al.

[105] C. Lu et al.

SSHC

MPPT, buck-boost

[48] M. Shim et al.

[106] S. Du et al.

Architecture

Reference

92

225

1-150

10-100

1-100 k

95

100

234.5

230

32

143

20

100-400

Frequency
(Hz)

Self-powered
Pin > 2.6 nW

Self-powered interface
quiescent current
<4.9 nA

Self-powered
Pin > 1 nW

Self-powered -

Self-powered Vin > 1V

Self-powered
Vin > 0.9 V

Self-powered
Vin > 0.35 V

Self-powered -

Self-powered
Pin = 1.7 mW

Self-powered -

Self-powered
Vin > 0.57 V

Self-powered Vin > 0.1V

Self-powered Vin > 1V,
Pin > 33 nW

Start-Up Requirements

Table IV.
Comparison of the selected state-of-the-art piezoelectric harvesting circuits.

Conversion efficiency
85.3%

5.8 × efficiency
enhancements
compared to a FB
rectifier

Discrete components

0.35 nm CMOS area
4.25 mm2

Health
monitoring

Conversion efficiency
61%
0.35 nm CMOS area
1.9 mm2

(Continued)

Consumer
electronics

Automotive
systems

Transportation
systems

Aerospace
systems

Transportation
systems

Rectifier efficiency
92%, conversion
efficiency 54%
Rectifier efficiency
90%, conversion
efficiency 60%

Transportation
systems

Conversion efficiency
49%

Automotive
systems

Automotive
systems

Structural
monitoring

Conversion efficiency
66%

Discrete components

0.5 nm ON Semi 3M-2P
CMOS area 0.026 mm2 +
0.117 mm2

0.18 nm CMOS active
area 0.05 mm2

2 nm BiCMOS area
940 # 960 nm 2

Conversion efficiency
64.95%

Power gain of 230%
Compared to DET

Discrete components
Discrete components

Conversion efficiency
44.7%

Health
monitoring

Transportation
systems

Conversion efficiency
24%
Conversion efficiency
66-69%

Wearable
electronics

Possible Target
Application

MPPT efficiency 99%,
conversion efficiency
80%

Efficiency

Discrete components

0.35 nm CMOS area
1.8 × 1.3 mm2, package
25.4 × 3.8 × 0.25 mm3

0.5 nm CMOS -

0.35 nm BCDMOS
2.35 mm2

Process and Chip-Area



Table of Contents for the Digital Edition of IEEE Circuits and Systems Magazine - Q3 2018

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