Determining exposure time of wafer photolithography process
원문보기
IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
G06F-017/50
H01L-021/302
출원번호
US-0218376
(2002-08-12)
공개번호
US-0036270
(2003-02-20)
우선권정보
TW-090120147 (2001-08-16)
발명자
/ 주소
Yu, Jiunn Yann
Yeh, Chi Jui
Li, Kam Tung
출원인 / 주소
MOSEL VITELIC, INC.
대리인 / 주소
TOWNSEND AND TOWNSEND AND CREW, LLP
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
Embodiments of the present invention relate to a method and a system for determining an exposure time of a wafer photolithography process is applied to a wafer photolithography system and is used to determine the preferred exposure time for the L(N) batch production wafer. In one embodiment, at leas
Embodiments of the present invention relate to a method and a system for determining an exposure time of a wafer photolithography process is applied to a wafer photolithography system and is used to determine the preferred exposure time for the L(N) batch production wafer. In one embodiment, at least three batches of the batch test wafers are recalled in a time sequence and the corresponding test values are obtained. A mean value of the test values corresponding to the at least three batches of the batch test wafers is calculated with a predetermined mathematical model. The calculated mean value is compared with a predetermined qualified examination value, and a margin value between the mean value and the qualified examination value is thus determined to adjust and generate an appropriate process exposure time. The preferred process exposure time is then employed as the exposure time of the L(N) batch production wafer. In this way, the trend of parameter variations of the entire system in the wafer photolithography process can be captured so that conservative adjustments upon the process exposure time can be achieved to reduce the influences of system perturbations.
대표청구항▼
1. A method for determining an exposure time of a wafer photolithography process, which is applied to a wafer photolithography system, said system including a production line and an inspection line, said production line proceeding in turn with said photolithography processes upon a plurality of batc
1. A method for determining an exposure time of a wafer photolithography process, which is applied to a wafer photolithography system, said system including a production line and an inspection line, said production line proceeding in turn with said photolithography processes upon a plurality of batch production wafers ( . . . L(N−4), L(N−3), L(N−2), L(N−1), L(N), . . . where N denotes a batch number), said inspection line sampling in turn said batch production wafers after completion of said photolithography processes from said production line to fabricate corresponding batch test wafers ( . . . T(N−4), T(N−3), T(N−2), T(N−1), T(N), . . . ), each of said batch test wafers corresponding to one said exposure time for producing a corresponding batch production wafer, said batch test wafer generating a respective test value for comparison with a qualified examination value, said method for determining said exposure time of said L(N) batch production wafer comprising:recalling in a time sequence at least three batches of said batch test wafers prior to said L(N) batch production wafer and obtaining corresponding test values for said at least three batches of said batch test wafers; calculating a mean value of said test values corresponding to said at least three batches of said batch test wafers with a predetermined mathematical model; comparing said mean value with said qualified examination value and determining a margin value between said mean value and said qualified examination value to adjust and generate an appropriate process exposure time; and employing said process exposure time as said exposure time of said L(N) batch production wafer. 2. The method of claim 1 wherein recalling said at least three batches of said batch test wafers comprises, when the difference of said test value corresponding to one of said batch test wafers from said qualified examination value goes beyond a predetermined tolerance, excluding said batch test wafer from said at least three batches. 3. The method of claim 2 wherein when the difference of said test value corresponding to said batch test wafer from said qualified examination value going beyond another predetermined tolerance is detected, an alarm signal is generated. 4. The method of claim 1 wherein said predetermined mathematical model is a calculation model of an arithmetical mean. 5. The method of claim 1 wherein said predetermined mathematical model is a calculation model of a geometrical mean. 6. The method of claim 1 wherein said predetermined mathematical model is a calculation model of a weighting average. 7. The method of claim 1 wherein recalling said at least three batches of said batch test wafers prior to said L(N) batch production wafer comprises recalling said T(N−3), T(N−4) and T(N−5) batch test wafers. 8. The method of claim 1 wherein said appropriate process exposure time is adjusted and generated by adjusting said exposure time used to produce said L(N−1) batch production wafer by said margin value. 9. The method of claim 1 wherein said appropr iate process exposure time is adjusted and generated by adjusting said exposure time used to produce said L(N−2) batch production wafer by said margin value. 10. The method of claim 1 wherein said appropriate process exposure time is adjusted and generated by obtaining an average exposure time of said exposure times respectively corresponding to said test values of said at least three batches of said batch test wafers with said predetermined mathematical model, and adjusting said average exposure time by means of said margin value and to generate said process exposure time. 11. A method for determining an exposure time of a wafer photolithography process, which is applied to a wafer photolithography system, said system including a production line and an inspection line, said production line proceeding in turn with said photolithography processes upon a plurality of batch production wafers ( . . . L(N−4), L(N−3), L(N−2), L(N−1), L(N), . . . where N denotes a batch number), said inspection line sampling in turn said batch production wafers after completion of said photolithography processes from said production line to fabricate corresponding batch test wafers ( . . . T(N−4), T(N−3), T(N−2), T(N−1), T(N), . . . ), each of said batch test wafers corresponding to an exposure time for producing said corresponding batch production wafer, said batch test wafer generating a respective test value, said method for determining said exposure time of said L(N) batch production wafer comprising:comparing said test value corresponding to each of said batch test wafers with a qualified examination value and determining a margin value between said test value and said qualified examination value to adjust said exposure time used for said batch production wafer corresponding to said batch test wafer to be an estimated exposure time; recalling in time sequence at least three batches of said batch test wafers prior to said L(N) batch production wafer and obtaining said corresponding estimated exposure times; calculating a mean value of said estimated exposure times corresponding to said at least three batches of said batch test wafers with a predetermined mathematical model; and employing said mean value as said exposure time of said L(N) batch production wafer. 12. The method of claim 11 wherein recalling said at least three batches of said batch test wafers comprises, when the difference of said test value corresponding to one of said batch test wafers from said qualified examination value goes beyond a predetermined tolerance, excluding said batch test wafer from said at least three batches. 13. The method of claim 12 wherein when the difference of said test value corresponding to said batch test wafer from said qualified examination value going beyond another predetermined tolerance is detected, an alarm signal is generated. 14. The method of claim 11 wherein said predetermined mathematical model is one of a calculation model of an arithmetical mean, a calculation model of a geometrical mean, and a calculation model of a weighting ave rage. 15. The method of claim 11 wherein recalling said at least three batches of said batch test wafers prior to said L(N) batch production wafer comprises recalling said T(N−3), T(N−4) and T(N−5) batch test wafers. 16. A system for determining an exposure time of a wafer photolithography process, which is applied to a wafer photolithography system, said photolithography system including a production line and an inspection line, said production line proceeding in turn with said photolithography processes of a plurality of batch production wafers ( . . . L(N−4), L(N−3), L(N−2), L(N−1), L(N), . . . where N denotes a batch number), said inspection line sampling in turn said batch production wafers after completion of said photolithography processes from said production line to fabricate corresponding batch test wafers ( . . . T(N−4), T(N−3), T(N−2), T(N−1), T(N), . . . ), each of said batch test wafers corresponding to an exposure time for producing said corresponding batch production wafer, said batch test wafer generating a respective test value, said system for determining said exposure time of said wafer photolithography process comprising:a qualification determining unit, which is connected to said inspection line and is configured to receive said test value and said exposure time corresponding to each of said batch test wafers and to compare said test value with a qualified examination value; a storing unit, which is connected to said qualification determining unit and is configured to store said test value and said exposure time corresponding to said batch test wafer; and a parameter determining unit, which is connected to said storing unit and is used to recall in time sequence and obtain said test values and said exposure times corresponding to at least three batches of said batch test wafers stored in said storing unit, to determine a process exposure time from said test values and said exposure times with a predetermined mathematical model, and then to transmit said process exposure time to said production line for employment. 17. The system of claim 16 wherein said storing unit is configured to store said test value and said exposure time corresponding to said batch test wafer whose test value differs from said qualified examination value within a predetermined tolerance. 18. The system of claim 17 further including an alarming unit which is connected to said qualification determining unit and is configured to generate an alarm signal when detecting that the difference of said test value of said batch test wafer from said qualified examination value goes beyond another predetermined tolerance. 19. The system of claim 16 wherein the parameter determining unit is configured to recall said T(N−3), T(N−4) and T(N−5) batch test wafers. 20. The system of claim 16 wherein said predetermined mathematical model of said parameter determining unit is one of a calculation model of an arithmetical mean, a calculation model of a geometrical mean, and a calculation model of a weighting average.
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