IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0916691
(2010-11-01)
|
등록번호 |
US-8547233
(2013-10-01)
|
우선권정보 |
TW-99128541 A (2010-08-25) |
발명자
/ 주소 |
- Lee, Jui-Chung
- Tu, Wen-Hung
- Huang, Guo-Zhen
|
출원인 / 주소 |
- Macronix International Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
5 |
초록
▼
An integrated circuit includes a thermal-effect unit and a processing unit. The thermal-effect unit generates an electrical energy and forms a temporary channel when experiencing a thermal cycle. The processing unit has a thermal-cycle number, and updates the thermal-cycle number through the tempora
An integrated circuit includes a thermal-effect unit and a processing unit. The thermal-effect unit generates an electrical energy and forms a temporary channel when experiencing a thermal cycle. The processing unit has a thermal-cycle number, and updates the thermal-cycle number through the temporary channel in response to the electrical energy.
대표청구항
▼
1. An integrated circuit, comprising: a thermal-effect unit generating an electrical energy and forming a temporary channel when experiencing a thermal cycle; anda processing unit having a thermal-cycle number, and updating the thermal-cycle number through the temporary channel in response to the el
1. An integrated circuit, comprising: a thermal-effect unit generating an electrical energy and forming a temporary channel when experiencing a thermal cycle; anda processing unit having a thermal-cycle number, and updating the thermal-cycle number through the temporary channel in response to the electrical energy, wherein the thermal cycle has a temperature gradient, a variable temperature, a first time point and a second time point, and the variable temperature becomes a first threshold temperature and a second threshold temperature respectively at the first and the second time points. 2. An integrated circuit according to claim 1, fixed to a plastic carrier. 3. An integrated circuit according to claim 2, wherein the thermal-effect unit comprises: an electrical-energy mechanism generating the electrical energy in response to the temperature gradient, and storing the electrical energy; anda thermal detection unit forming the temporary channel to transmit the electrical energy to the processing unit when the variable temperature is higher than the first threshold temperature. 4. An integrated circuit according to claim 3, wherein the electrical-energy mechanism comprises: a thermoelectric unit generating the electrical energy in response to the temperature gradient; andan energy-storage unit temporarily storing the electrical energy. 5. An integrated circuit according to claim 4, wherein the energy-storage unit comprises a capacitor coupled to the thermoelectric unit. 6. An integrated circuit according to claim 3, wherein the thermal detection unit comprises: a thermal switch coupled between the electrical-energy mechanism and the processing unit, and forming the temporary channel and turned on when the variable temperature is higher than the first threshold temperature. 7. An integrated circuit according to claim 6, wherein the thermal switch comprises: two thermal detection conduction structures touching each other to turn on the thermal switch when the variable temperature is higher than the first threshold temperature, and electrically isolated from each other to turn off the thermal switch when the variable temperature is lower than the second threshold temperature, wherein the second threshold temperature is lower than the first threshold temperature. 8. An integrated circuit according to claim 1, wherein the processing unit comprises a passive radio frequency identification unit. 9. An integrated circuit according to claim 8, wherein the passive radio frequency identification unit comprises: an antenna;a modulation circuit coupled to the antenna;a power controller coupled to the modulation circuit;a memory unit coupled to the power controller, storing the thermal-cycle number and a thermal-cycle limit number; anda logic unit coupled to the modulation circuit, the memory unit and the thermal detection unit, responding to the electrical energy through the temporary channel to update the thermal-cycle number by adding 1, and sending out a signal when the thermal-cycle number reaches the thermal-cycle limit number. 10. A method of operating an integrated circuit, comprising steps of: providing a thermal-cycle number;generating an electrical energy and forming a temporary channel when experiencing a thermal cycle; andupdating the thermal-cycle number through the temporary channel in response to the electrical energy, wherein the thermal cycle has a temperature gradient, a variable temperature, a first time point and a second time point, and the variable temperature becomes a first threshold temperature and a second threshold temperature respectively at the first and the second time points. 11. A method according to claim 10, further comprising steps of: generating the electrical energy by an thermoelectric effect in response to the temperature gradient;storing the electrical energy;forming the temporary channel and transmitting the electrical energy through the temporary channel when the variable temperature is higher than the first threshold temperature; andturning off the temporary channel when the variable temperature is lower than the second threshold temperature, wherein the second threshold temperature is lower than the first threshold temperature. 12. A method according to claim 10, wherein the thermal-cycle number is updated by adding 1, and the method further comprises steps of: providing a thermal-cycle limit number; andsending out a signal when the thermal-cycle number reaches the thermal-cycle limit number. 13. An integrated circuit, comprising: a circuit unit having a thermal-cycle number, and generating an electrical energy and temporarily conducting the electrical energy for updating the thermal-cycle number when experiencing a thermal cycle, wherein the thermal cycle has a temperature gradient, a variable temperature, a first time point and a second time point, and the variable temperature becomes a first threshold temperature and a second threshold temperature respectively at the first and the second time points. 14. An integrated circuit according to claim 13, wherein the circuit unit comprises: a thermal-effect unit generating the electrical energy and forming a temporary channel when experiencing the thermal cycle; anda processing unit having the thermal-cycle number, and updating the thermal-cycle number through the temporary channel in response to the electrical energy. 15. An integrated circuit according to claim 14, fixed to a plastic carrier. 16. An integrated circuit according to claim 15, wherein the thermal-effect unit comprises: an electrical-energy mechanism generating the electrical energy in response to the temperature gradient, and storing the electrical energy; anda thermal detection unit forming the temporary channel to transmit the electrical energy to the processing unit when the variable temperature is higher than the first threshold temperature. 17. An integrated circuit according to claim 16, wherein the electrical-energy mechanism comprises: a thermoelectric unit generating the electrical energy in response to the temperature gradient; andan energy-storage unit temporarily storing the electrical energy. 18. An integrated circuit according to claim 17, wherein the energy-storage unit comprises a capacitor coupled to the thermoelectric unit. 19. An integrated circuit according to claim 16, wherein the thermal detection unit comprises: a thermal switch coupled between the electrical-energy mechanism and the processing unit, and forming the temporary channel and turned on when the variable temperature is higher than the first threshold temperature. 20. An integrated circuit according to claim 19, wherein the thermal switch comprises: two thermal detection conduction structures touching each other to turn on the thermal switch when the variable temperature is higher than the first threshold temperature, and electrically isolated from each other to turn off the thermal switch when the variable temperature is lower than the second threshold temperature, wherein the second threshold temperature is lower than the first threshold temperature.
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