Thermal sensor system and method based on current ratio
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01K-007/00
G01K-007/01
G01K-001/02
출원번호
US-0628814
(2012-09-27)
등록번호
US-9116049
(2015-08-25)
발명자
/ 주소
Sanchez, Hector
Mai, Khoi
출원인 / 주소
FREESCALE SEMICONDUCTOR, INC.
인용정보
피인용 횟수 :
0인용 특허 :
27
초록▼
A thermal sensor system which includes a thermal sensor and a voltage control network which applies a reference voltage level and a delta voltage level to the same or different thermal sensors. The thermal sensor develops a reference current signal in response to the reference voltage level and a de
A thermal sensor system which includes a thermal sensor and a voltage control network which applies a reference voltage level and a delta voltage level to the same or different thermal sensors. The thermal sensor develops a reference current signal in response to the reference voltage level and a delta current signal in response to the delta voltage level. A current gain network adjusts gain of the delta current signal. A current compare sensor, which is responsive to the reference current signal and the delta current signal, provides a comparison metric. A controller controls the current gain network to adjust gain of the delta current signal while monitoring the comparison metric to determine a gain differential value indicative of a current ratio between the current signals. The controller determines a temperature value based on the gain differential value. A LUT may be used to retrieve the temperature.
대표청구항▼
1. A thermal sensor system, comprising: at least one thermal sensor;a voltage control network which applies a reference voltage level and a delta voltage level to said at least one thermal sensor, wherein said at least one thermal sensor develops a reference current signal in response to said refere
1. A thermal sensor system, comprising: at least one thermal sensor;a voltage control network which applies a reference voltage level and a delta voltage level to said at least one thermal sensor, wherein said at least one thermal sensor develops a reference current signal in response to said reference voltage level and a delta current signal in response to said delta voltage level;a current gain network configured to adjust gain of said delta current signal relative to said reference current signal;a current compare sensor responsive to said reference current signal and said delta current signal which is configured to provide a comparison metric; anda controller which is configured to control said current gain network to adjust gain of said delta current signal while monitoring said comparison metric to determine a gain differential value indicative of a current ratio of said reference current signal and said delta current signal, wherein said controller determines a temperature value based on said gain differential value. 2. The thermal sensor system of claim 1, wherein said at least one thermal sensor comprises at least one diode. 3. The thermal sensor system of claim 1, wherein said current gain network comprises: at least one current mirror which mirrors said reference current signal and said delta current signal; anda programmable gain block which applies a programmed gain to said delta current signal. 4. The thermal sensor system of claim 1, wherein said current compare sensor comprises a comparator responsive to a differential between said reference current signal and said delta current signal. 5. The thermal sensor system of claim 1, wherein said current compare sensor comprises at least one voltage controlled oscillator responsive said reference current signal and delta current signal. 6. The thermal sensor system of claim 1, further comprising: a memory storing a plurality of temperature values including one temperature value for each of a plurality of gain values; andwherein said controller is configured to use said gain differential value to retrieve a corresponding temperature value from said memory. 7. The thermal sensor system of claim 1, wherein: said at least one thermal sensor comprises first and second thermal sensors;wherein said voltage control network comprises a first amplifier which applies said reference voltage level to said first thermal sensor and a second amplifier which applies said delta voltage level to said second thermal sensor; andwherein said current gain network comprises a first programmable current mirror which adjusts gain of said delta current signal. 8. The thermal sensor system of claim 7, wherein said current gain network further comprises a second programmable current mirror which applies an offset compensation gain to said reference current signal. 9. The thermal sensor system of claim 1, further comprising: said at least one thermal sensor comprising a plurality of distributed thermal sensors; andselect logic configured to select at least one of said plurality of distributed thermal sensors for temperature measurement. 10. The thermal sensor system of claim 9, wherein: said plurality of distributed thermal sensors comprises a plurality of distributed reference thermal sensors and a plurality of delta thermal sensors; andwherein said select logic is configured to select a co-located pair of said plurality of distributed reference thermal sensors and said plurality of delta thermal sensors for each temperature measurement. 11. A thermal sensor system, comprising: a central control block, comprising: a control and measurement network which provides a gain value, a voltage select value, and a site select value, and which receives a selected comparison metric;a voltage control network which receives said voltage select value and which provides a corresponding central control voltage; anda gain block which receives said gain value and which provides a central gain voltage indicative thereof;a plurality of local measurement blocks, each comprising: a thermal sensor;a current device which applies a selected control voltage to said thermal sensor which develops a sensor current;a current mirror network which amplifies said sensor current based on a selected gain voltage and which provides a corresponding drive current; anda current compare sensor which receives said drive current and which provides a local comparison metric indicative thereof; andselect logic which receives said site select signal, and which selectively interfaces said central control voltage, said central gain voltage, and said selected comparison metric to said selected control voltage, said selected gain voltage, and said local comparison metric, respectively, between said central control block and a selected one of said plurality of local measurement blocks. 12. The thermal sensor system of claim 11, wherein said control and measurement network is configured to provide a reference gain value and a reference voltage select value and to receive a corresponding reference comparison metric, and then to provide a delta voltage value and to adjust said gain value relative to said reference gain value until said selected comparison metric is substantially equal to said reference comparison metric to determine a gain differential value indicative of a temperature level. 13. The thermal sensor system of claim 12, further comprising: a memory storing a plurality of temperature values including one temperature value for each of a plurality of gain values; andwherein said control network is configured to use said gain differential value to retrieve a corresponding temperature value from said memory. 14. A method of measuring temperature, comprising: applying a reference voltage level and a delta voltage level to at least one thermal sensor which develops a reference current signal and a delta current signal;comparing the reference current signal and the delta current signal and providing a comparison metric;adjusting a gain of the delta current signal until it substantially matches the reference current signal as indicated by the comparison metric and determining a gain differential between the delta and reference current signals; anddetermining a temperature value based on the gain differential. 15. The method of claim 14, wherein said applying a reference voltage level and a delta voltage level comprises: applying the reference voltage level to a first thermal sensor; andapplying the delta voltage level to a second thermal sensor. 16. The method of claim 14, wherein said applying a reference voltage level and a delta voltage level comprises applying the reference voltage level to a first thermal sensor and then applying the delta voltage level to the first thermal sensor. 17. The method of claim 14, wherein said comparing the reference current signal and the delta current signal comprises applying the reference voltage level and the delta voltage level to at least one voltage controlled oscillator which develops an oscillating signal indicative thereof. 18. The method of claim 14, wherein said adjusting gain comprises programming a gain of a current mirror which mirrors said delta current signal. 19. The method of claim 14, wherein said determining a temperature value comprises retrieving the temperature value from a memory using the gain differential. 20. The method of claim 14, further comprising applying an offset compensation to the reference current signal.
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