Presentation is loading. Please wait.

Presentation is loading. Please wait.

TEA Systems Corp. Confidential LithoWorks PEB PEB and CD analysis of two plates August 14, 2003 Thermal analysis of two PEB plates: 093-08_peb_bake7.csv.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "TEA Systems Corp. Confidential LithoWorks PEB PEB and CD analysis of two plates August 14, 2003 Thermal analysis of two PEB plates: 093-08_peb_bake7.csv."— Presentation transcript:

1 TEA Systems Corp. Confidential LithoWorks PEB PEB and CD analysis of two plates August 14, 2003 Thermal analysis of two PEB plates: 093-08_peb_bake7.csv 093-08_peb_bake8.csv

2 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -2- Summary These are preliminary results The first half of this analysis addresses PEB thermal analysis for PEB’s 7 & 8 ?Investigates Temperature cycle ?Energy installed into the wafer (Temp * Time) ?Variation in energy installed ?Temperature over time contour plots The second half of the analysis examines two Nanometrics OCD data sets ?Fixed focus analysis of wafers 12,16 Wafer 12 = PEB 8 Wafer 16 = PEB 7 ?The data has been modeled for across wafer variation ?Residuals to the wafer model illustrate the anticipated, non-PEB influenced performance Statement based upon expected whole-wafer variation of PEB temperature The last slide touches on Wafer 13 & 17 ?These are FEM arrays and warrant further study.

3 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -3- Initial Observations PEB Thermal Analysis ?The Bake cycle was examined as a function of: Time-Temperature curve Time-temp variations across wafer. Total energy (integrated time * temperature) delivered to the wafer Energy variation across wafer due to non-uniform heating. ?PEB 7 is more uniform than PEB 8 Not observed in the temperature or the total energy delivered Can be seen in the plots of temperature variation from wafer mean over time and in the Energy Variation plots. ?Neither bake plate is allowing enough time for the bake temperature to achieve steady state. See slides 26 to 28 Feature Response ?Note: The On-Wafer sensor orientation has not been corrected or adjusted for this analysis.

4 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -4- Feature Response and Correlation Feature Response ?Note: The On-Wafer sensor orientation has not been corrected or adjusted for this analysis. ?Examined wafers 12 (PEB 8) and wafer 16 (PEB 7) ?Each feature’s variation was modeled for whole-wafer variations Wafer-model should correlate to PEB energy variations Residuals to wafer model should be approximate equal in response –if both wafers were exposed on same scanner Residuals to wafer model should show exposure tool performance. ?MSE Behavior Differs significantly for Vertical (group 1) and Horizontal (group 2) features. –May be the result of scanner slit vs scan sensitivity of feature edges. –May also be from metrology tool algorithm. ?There is no strong and obvious visual correlation of PEB energy and feature response. ?There is a suggestion of PEB energy variation and SWA Further studies ?More thought must be given to these correlations. ?FEM wafers need to be studied.

5 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -5- PEB #7

6 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -6- PEB #7 overview Left graphic ?Details location of sensor points Right graphic ?Summary of rise/fall times vs temperature

7 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -7- Sensor variation from wafer mean Each site contains a plot of delta-temp versus time Area ?product of (degrees * seconds), summed over all sites. This is proportional to the energy entered into the wafer during the bake. Area Variance ?Energy variation across the wafer ?Summed deg-sec’s over all sites reporting total variation from mean- temperature over time.

8 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -8- Corresponding points on the graph Moving the mouse to a point on the temp-time curve will highlight the corresponding points on the delta-temp wafer plot (50.1 sec, 113 C)

9 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -9- On-Wafer thermal loading? Notice how the 7 wafer-center sites are the first to rise in temperature. Note also the two sites located over the On-Wafer sensor packed lag in heading and also lag in cooling. This area also does not reach uniformity until the end of the heading cycle. ?This is most probably due to the thermal-mass loading of the sensor packet. The red-dot on each plot marks the same relative point on each site. Area of sensor packet

10 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -10- PEB 7; Thermal Energy Delivered Plot of thermal area (deg- sec) across wafer. Notice that there is a range of 168,714 deg-sec with the upper left of the wafer receiving the most energy Thermal-package sensor area is relatively cool No activation threshold was set for this plot thermal sensor area

11 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -11- PEB 7; Thermal Energy Delivered Plot of area (deg-sec) integrated over time Notice that there is a range of 168,174 deg-sec with the upper left of the wafer receiving the most energy

12 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -12- PEB 7: Thermal Energy Variance across wafer Variation in energy (integrated temperature*time) delivered Variation is greatest at wafer’s upper left corner, least in center & right.

13 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -13- Thermal Energy Variance Across Wafer - Contour

14 TEA Systems Corp. Confidential PEB 8 Data

15 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -15- Plate PEB 8, Bake Curve Top: PEB 8 Bottom: PEB 7 Curves appear very similar in shape.

16 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -16- PEB 8; Delta-Temperature Response (50.1 sec, 113 C) Same point is marked on the time- temp curve. ?Distribution in upper left of wafer is now very uniform.

17 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -17- Comparison PEB 8 vs PEB 7 Time-Temp Area Differences PEB 8 ?has a higher energy area. ?Exhibits greater excursion range and variation across the plate. PEB 8PEB 7

18 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -18- Comparison: Delta temperature with time PEB 8 exhibits more variation at the bottom of the wafer. PEB 8PEB 7

19 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -19- PEB 8; Thermal energy delivered

20 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -20- Thermal Energy Delivered – Bake 8 Contour

21 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -21- PEB 8 Thermal Energy

22 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -22- PEB 8; Thermal Energy Variation

23 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -23- Comparison: Thermal Energy Delivered – PEB 8/ PEB 7 Both wafers as plotted on the same scale. More thermal energy delivered to PEB 7 PEB 8PEB 7

24 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -24- Thermal Energy Variation – Bake 8 Contour Energy delivered as a delta from the wafer average temperature. Energy = Sum((Temperature-Activation Temp.) * DeltaTime) ?DeltaTime = time interval of sample

25 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -25- PEB 8: Greatest variation in thermal energy

26 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -26- Comparison: Thermal Energy Variation – PEB 8/ PEB 7 Scales vary but characteristic is same PEB 7 has has significantly better energy uniformity PEB 8PEB 7

27 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -27- Comparison energy variation statistics PEB 8 exhibits ?A greater mean temperature, range and variance of temperature than PEB 7 PEB 8PEB 7

28 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -28- PEB 8/ PEB 7; thermal variation PEB 8 and 7 variations plotted to the same scale. PEB 8PEB 7

29 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -29- Thermal range study Bake8 Temperature range about the average temperature of the wafer at each time- slice. The cycled-temperature rose a total of 98.07 degrees. Steady state uniformity is 0.18 degree across wafer. Notice that the wafer at 121 degrees (max. temp at 134 sec.) did not reach steady-state uniformity.

30 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -30- Thermal range study Bake7 Same study with PEB 7 This study shows a red square at each transition start/stop point on the curve.

31 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -31- Range Uniformity Summary Plots exhibit the thermal range across the wafer at each time-slice Both plates exhibit the same steady-state thermal resolution. ?Thermal range and maximum temperatures differs by approximately one degree Neither plate reaches steady state while at the maximum temperature. Bake 8 has ?greater across-wafer variations (9.6 v 7.0 degrees) ?Greater range at the final temperature (0.9 v 0.6 degree) ?Smoother cooling curves than 7 ?Near identical rise/cool thermal slopes and time at the maximum temperature compared with Bake 7 Conclusion: Bake 8 has more thermal variation across the wafer. Bake 8Bake 7 Bake 8

32 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -32- Thermal Uniformity at any point in time Generate single or matrix graphics of all of the plots. A “movie” video will also be added to allow you to watch wafer heating.

33 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -33- PEB 8 – Steady State Temperature

34 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -34- PEB 8 Steady State Temp

35 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -35- Thermal changes during the up-ramp

36 TEA Systems Corp. Confidential CD data review

37 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -37- Data Setup and Organization Wafer 12: processed on PEB plate 8, const. exp/focus 18.5/0 Wafer 13: processed on PEB plate 8, FEM 18.5/0 +- 0.5/0.05 Wafer 16: processed on PEB plate 7, const. exp/focus 18.5/0 Wafer 17: processed on PEB plate 7, FEM 18.5/0 +- 0.5/0.05 The measurements are taken on a nominal 150:150 grating, ?somewhat overexposed here (~140nm average linewidth). All wafers have PAB step on plate 1, also attached. For the PEB data, there are several measurements for each plate, each corresponding to a different orientation of the sensor wafer. ?'3_oclock', for example, means that the wafer module is at the 3o'clock position relative to the cassette. ?1-2 o'clock is the position between 1 and 2, which appears to be 3/4 of a full rotation from the orientation of the process wafer when it's on the PEB plate-since OnWafer formats the data such that the module is situated at 3 o'clock, this means we just have to rotate the 1-2 data 180 degrees and should have the right orientation. Within the Nanometrics data set, there are two "groups" of data for each wafer ?group 1 corresponds to measurements made on gratings with lines of vertical orientation ?group 2 corresponds to the horizontal orientation.

38 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -38- Wafers 13,15; Assumed Dose and Focus layout Wafers 12 & 16 are fixed focus/dose

39 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -39- MSE behavior (12 & 16) MSA can be used to determine the measurement quality Variation is in fact a little better for the FEM wafers than the fixed exposure. ?Probably due to the bi-modal distribution of the fixed-exposure data. Layout, all sites

40 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -40- MSE; Wafer 12 (PEB 8) Horizontal and vertical features are responding differently to MSE

41 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -41- Wafer 12, TCD (fixed focus, Group #1) Vertical Features All features

42 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -42- Wafer 12, TCD group 2 (Horizontal) Field layout is shown on the left.

43 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -43- Wafer #12 –T3 (PR) Photoresist thickness behaves quite differently for vertical vs horizontal feature orientation. Group 1 Group 2

44 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -44- Wafer 12, BCD Have about 3 nm of difference in mean values. Range of values is the same to within 0.7 nm

45 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -45- Wafer #12, BCD Residuals to Wafer variation Aberrations of scan or slit are influencing the CD variation Left = vertical features so edges are influenced by the scan Right = horizontal features so there is more slit influence.

46 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -46- Wafer 12; SWA

47 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -47- Wafer #12; SWA Residuals to wafer model The horizontal line behavior (right) is very surprising. ?Metrology Algorithm?

48 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -48- Wafer #12 model; BARC T2 Good, repeatable to about 0.1 nm

49 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -49- Wafer #12; BARC residuals Vertical features (#1) have characteristic ring. Ring is not as evident in the horizontal features on the left. ?Scale on left is wider because of the difference in noise.

50 TEA Systems Corp. Confidential Wafer #16 (PEB 7)

51 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -51- Wafer 16 BARC and PR

52 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -52- Wafer #16; Modeled wafer SWA (Group 1)

53 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -53- Wafer #16; Modeled wafer BCD & TCD (Group 1)

54 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -54- Wafer 16; Residuals to wafer BCD & TCD (Group 1)

55 TEA Systems Corp. Confidential August 2003LithoWorks PEB - Two plate studyPage -55- Wafer #13 FEM; in-die groups 1 & 2 Different behavior and sampling of groups 1 & 2 Vertical Horizontal

Download ppt "TEA Systems Corp. Confidential LithoWorks PEB PEB and CD analysis of two plates August 14, 2003 Thermal analysis of two PEB plates: 093-08_peb_bake7.csv."

Similar presentations

Weir PSFM Zspin side analysis II Dataset:Integrated_FEM_V_S4_Modified.csv Features:Focus Dose Matrix TEA Systems Corp. 65 Schlossburg St. Alburtis, PA.

Weir PSFM Zspin side analysis II Dataset:Integrated_FEM_V_S4_Modified.csv Features:Focus Dose Matrix TEA Systems Corp. 65 Schlossburg St. Alburtis, PA.
TEA Systems Corp. Confidential LithoWorks PEB On-Wafer analysis of two wafers August 8, 2003 Thermal analysis of two PEB plates: 093-08_peb_bake7.csv 093-08_peb_bake8.csv.

TEA Systems Corp. Confidential LithoWorks PEB On-Wafer analysis of two wafers August 8, 2003 Thermal analysis of two PEB plates: _peb_bake7.csv _peb_bake8.csv.
Weir PW Analysis of wafer-chuck influence on features Dataset:80_D2_1_2 Features: Device: 8-25 6x5 1:1 / Level: ASML AMD 100 1-2 T 320-640nm LotName No:80D2_1_2.

Weir PW Analysis of wafer-chuck influence on features Dataset:80_D2_1_2 Features: Device: x5 1:1 / Level: ASML AMD T nm LotName No:80D2_1_2.
Weiring Analysis Process Window Analysis Dataset:Several involving 1:1, 1:2 and 1:3 duty cycles Features:Focus Dose Matrix and Process Window Analysis.

Weiring Analysis Process Window Analysis Dataset:Several involving 1:1, 1:2 and 1:3 duty cycles Features:Focus Dose Matrix and Process Window Analysis.
Describing Quantitative Variables

Describing Quantitative Variables
Chris A. Mack, Fundamental Principles of Optical Lithography, (c) 2007

Chris A. Mack, Fundamental Principles of Optical Lithography, (c) 2007
Displaying data and calculations  How many trials have been performed?  Were there enough to satisfy the IB Internal Assessment criteria? FYI: IB wants.

Displaying data and calculations  How many trials have been performed?  Were there enough to satisfy the IB Internal Assessment criteria? FYI: IB wants.
Chris A. Mack, Fundamental Principles of Optical Lithography, (c) 2007

Chris A. Mack, Fundamental Principles of Optical Lithography, (c) 2007
Chapter 6 Sampling and Sampling Distributions

Chapter 6 Sampling and Sampling Distributions
Weir PSFM Fixed Focus Analysis Dataset:blanketfocmon.XLS Features:Full-wafer exposure, fixed focus Sections: Comparison of PSFM 180, 160 and PGM response.

Weir PSFM Fixed Focus Analysis Dataset:blanketfocmon.XLS Features:Full-wafer exposure, fixed focus Sections: Comparison of PSFM 180, 160 and PGM response.
BPS - 5th Ed. Chapter 241 One-Way Analysis of Variance: Comparing Several Means.

BPS - 5th Ed. Chapter 241 One-Way Analysis of Variance: Comparing Several Means.
Inference for Regression

Inference for Regression
Random Sampling and Data Description

Random Sampling and Data Description
Pacific Secular Variation A result of hot lower mantle David Gubbins School of Earth Sciences University of Leeds.

Pacific Secular Variation A result of hot lower mantle David Gubbins School of Earth Sciences University of Leeds.
Chapter 4: Image Enhancement

Chapter 4: Image Enhancement
Terrence E. Zavecz Weir TR Temporal and Sequential Data Analysis and Performance Matching Interfaces of.

Terrence E. Zavecz Weir TR Temporal and Sequential Data Analysis and Performance Matching Interfaces of.
RHESSI/GOES Observations of the Non-flaring Sun from 2002 to 2006. J. McTiernan SSL/UCB.

RHESSI/GOES Observations of the Non-flaring Sun from 2002 to J. McTiernan SSL/UCB.
Lecture 23: Tues., Dec. 2 Today: Thursday:

Lecture 23: Tues., Dec. 2 Today: Thursday:
Chapter 7 Sampling and Sampling Distributions

Chapter 7 Sampling and Sampling Distributions
Lecture 24: Thurs. Dec. 4 Extra sum of squares F-tests (10.3) R-squared statistic (10.4.1) Residual plots (11.2) Influential observations (11.3, 11.4.3.

Lecture 24: Thurs. Dec. 4 Extra sum of squares F-tests (10.3) R-squared statistic (10.4.1) Residual plots (11.2) Influential observations (11.3,

Similar presentations

Ads by Google