a 1-v 15 w high-precision temperature switch d. schinkel, r.p. de boer, a.j. annema and a.j.m. van...
TRANSCRIPT
![Page 1: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/1.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
A 1-V 15 A 1-V 15 W High-Precision W High-Precision Temperature SwitchTemperature Switch
D. Schinkel, R.P. de Boer,
A.J. Annema and A.J.M. van Tuijl
Philips Research
University of Twente, Faculty of Electrical Engineering
![Page 2: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/2.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
ContentsContents
• Introduction
• Circuit fundamentals
• Design strategy
• Implementation
• Specifications
• Conclusions
• Introduction
• Circuit fundamentals
• Design strategy
• Implementation
• Specifications
• Conclusions
![Page 3: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/3.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
IntroductionIntroduction
– enable thermal protection (shutdown,clock frequency lowering etc.)
– use in integrated measurement or control devices
Why need integrated CMOS temperature
indicator?
![Page 4: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/4.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
IntroductionIntroduction
– Thermal protection only requires threshold temperature detection (125 °C)
– Multiple threshold values together form a digital temperature indicator
Why design switch and not a linear temperature dependent output?
![Page 5: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/5.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
Design goalsDesign goals
• Standard 0.18 m CMOS process
• Low voltage, Low power, Small area
• High accuracy
• Portable
• Switch temperature of 125 °C
• Extendable:adjustable switch temperaturemultiple switch temperatures
high accuracy over large T range
![Page 6: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/6.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
A
=
(1) (n)
R
IPTAT
k*R
Circuit FundamentalsCircuit Fundamentals
Use bandgap principle:
V
T
Vbe
V
T
Vgap,0
V
T
Vptat
![Page 7: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/7.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
Circuit FundamentalsCircuit Fundamentals
Detect crossing of Vptat with Vbe
A
=
(1) (n)
R1
IPTAT
R2
=
Binaryout
V
T
Vptat
V
T
Vbe
![Page 8: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/8.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
Design strategyDesign strategy
– Bipolar transistor Vbe spread
– Resistor matching & spread– Offset and noise of MOST devices
Establish quantitative relation for optimal MOST area distribution
Identify accuracy limitations:
![Page 9: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/9.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
Design strategyDesign strategy
A
=
(1) (n)
R1
R2
=
Binaryout
Vo1
Vo2
Io Io Io
2
2
2
122
2
1
2222
)ln(21
12R
n
RR
R
RooocompV IVV
![Page 10: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/10.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
Design strategyDesign strategyAssume:
WL
A
WL
A II
vV DGS
22 ,
Find equivalent offset (or flicker noise):
3
3
2
2
1
12
Area
X
Area
X
Area
Xtot
Minimal total given fixed Areatotal when:
23
322
221
1
Area
X
Area
X
Area
X
![Page 11: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/11.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
ImplementationImplementation
– High amplifier gain; speed may be low.– High supply and substrate noise rejection.
Implementation limitations:– Low supply voltage cascoding difficult.
– Folded cascodes not desirable
Implementation goals:
![Page 12: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/12.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
ImplementationImplementation
A
=
(1) (n)
R1
IPTAT
R2
=
Binaryout
![Page 13: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/13.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
ImplementationImplementation
A
Iout
Vdd
Iout
Vin-
Vin+
Positive feedback;
high gain, small bandwidth
![Page 14: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/14.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
ImplementationImplementation
– Robust circuit, easy to port
– Small flicker noise & offsetstraightforward use of large transistors instead of using
complex dynamic offset cancellation techniques.
– No cascoding or shielding low supply voltage
– All matched transistors have matched conditions at threshold temperature
Strong points:
![Page 15: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/15.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
ImplementationImplementation
Weak point:
– Nested inner loop stability analysis not straightforward
![Page 16: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/16.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
Chip photographChip photograph
Transconductance
amplifier
Comparator
Resistors Diode
connected
BJTs
150 m
190 m
![Page 17: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/17.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
SpecificationsSpecifications
![Page 18: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/18.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
ConclusionsConclusions
• Efficient & Robust Design strategy
• Very low power circuit– can decrease further with duty-cycle mode
• Good performance without calibration– 3 intra-batch deviation of only 1.1 C
• Design is well-suited for multiple thresholds extension
![Page 19: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/19.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
![Page 20: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/20.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
A 1-V 15 A 1-V 15 W High-Precision W High-Precision Temperature SwitchTemperature Switch
D. Schinkel, R.P. de Boer,
A.J. Annema and A.J.M. van Tuijl
Philips Research
University of Twente, Faculty of Electrical Engineering
![Page 21: A 1-V 15 W High-Precision Temperature Switch D. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl A 1-V 15 W High-Precision Temperature Switch](https://reader034.vdocument.in/reader034/viewer/2022051401/56649ef05503460f94c011d3/html5/thumbnails/21.jpg)
A 1-V 15W High-Precision Temperature SwitchD. Schinkel, R.P. de Boer, A.J. Annema and A.J.M. van Tuijl
A 1-V 15 A 1-V 15 W High-Precision W High-Precision Temperature SwitchTemperature Switch
D. Schinkel, R.P. de Boer,
A.J. Annema and A.J.M. van Tuijl
Philips Research
University of Twente, Faculty of Electrical Engineering