ANSI SMPTE ST 165-1999 Motion-Picture Film (35-mm) - Perforated 8-mm Type S 5R (1-3-5-7-0).pdf

上传人:progressking105 文档编号:437931 上传时间:2018-11-14 格式:PDF 页数:3 大小:207.06KB
下载 相关 举报
ANSI SMPTE ST 165-1999 Motion-Picture Film (35-mm) - Perforated 8-mm Type S 5R (1-3-5-7-0).pdf_第1页
第1页 / 共3页
ANSI SMPTE ST 165-1999 Motion-Picture Film (35-mm) - Perforated 8-mm Type S 5R (1-3-5-7-0).pdf_第2页
第2页 / 共3页
ANSI SMPTE ST 165-1999 Motion-Picture Film (35-mm) - Perforated 8-mm Type S 5R (1-3-5-7-0).pdf_第3页
第3页 / 共3页
亲,该文档总共3页,全部预览完了,如果喜欢就下载吧!
资源描述

1、SMPTE STANDARD SMPTE 165-1 999 Revision of ANSIISMPTE 165-1994 for Motion-Picture Film (35-mm) - Perforated 8-mm Types, 5R (1 -3-5-7-0) 1 Scope This standard specifies the cutting and perforating dimensions for 35-mm motion-picture film with four rows of 8-mm type S perforations and one row of speci

2、al perforations having a perforation pitch of either 0.1664 in or 0.1 667 in (4.227 rnm or 4.234 mm). The film stock described in this standard is intended for the production of prints. The width of the 8-mm strip after processing and slitting is also specified. 2 Dimensions 2.1 The dimensions shall

3、 be as given in figure 1 and table 1. 2.2 The dimensions pertain to a safety film as defined in ANSI/SMPTE 223M. 2.3 Except for dimensions A and E, dimensions apply at the time of cutting and perforating for film adjusted to a temperature of 23C f 1C (nominally converted to 73F C_ 2F and a relative

4、humidity of (50 f 2)%. The manufacturer may indicate other nominal temperature and humidity conditions under which the dimensions apply. NOTES 1 The title of this standard was established by the appli- cation of a nomenclature system developed for all film dimension standards. Each title provides an

5、 indication of Page 1 of 3 pages the film width, a code designation for the perforation shape (BH, KS, DH, or CS) or the number of rows of petforations (lR, 2R, etc.), depending upon which is the significant factor, and the perforation pitch without the decimal point. The numerals (1-3-5-7-0) have b

6、een added to the title of this standard to specify how the rows of perforations are placed on the film. The designation is necessary only when the film stock is wider than its end use and more than one combination of perforation rows is possible. For 8-mm type S perforations on 35-mm width film, a m

7、aximum of four usable rows of perforations is possible. The perforation rows shall be numbered starting at the reference edge. The reference edge is the edge nearest to that row of perfora- tions which is retained in one of the 8-mm strips that may be generated by appropriate slitting of the parent

8、35-mm film. A row of perforations which is discarded will always be given the number O. Negative or intermediate films which are not slit may contain a O-numbered row of perforations if that perforated row corresponds to the discard row of perforations on the subsequent print stock. For all films wi

9、th nonsymmetrical perforation rows, there can be two different windings for the same numbered rows of perforations. Film perforated 1-0 would be 1-0 regard- less of winding, but depending upon the location of the reference edge, the winding could be A or B, according to ANSIISMPTE 75M. 2 The metric

10、conversion of dimension A is purposely chosen and shown to three decimal places to prevent the maximum width dimension from exceeding 35 mm. 3 Notwithstanding accumulation of tolerances, dimensions A and E shall be as specified. I Copyright0 1999 by THE SOCIETY OF MOTION PICTURE AND TELEVISION ENGIN

11、EERS 595 W. Hartsdale Ave., White Plains, NY 10607 (914) 761-1 100 Approved April 21,1999 STD*SNPTE 365-ENGL 3999 8357403 0003509 T8b = SMPTE 165-1 999 PERFORATION ROWS d SPECIAL 8mm TYPE S E PERFORATION PERFORATIONS (ROW O) (ROWS 1-3-5-7) PROCESSED FILM SLIT WIDTH Figure 1 - 35-mm film perforated 8

12、-mm type S Table 1 - Specifications Dimensions Inches Mill i meters Film width 1.377 f 0.001 34.975 f 0.025 A A B B C C D E E F G L L M N N-M O O-N P P-o R Film width after processing and slitting Perforation pitch (long) Perforation pitch (short) Perf orat ion width Special perforation width Perfor

13、ation height Edge to perforation Edge to perforation after processing and slitting Edge to perforation Perforation skewness 1 O0 consecutive perforation pitches (long) 100 consecutive perforation pitches (short) Lateral perforation displacement Lateral perforation displacement Functional tolerance L

14、ateral perforation displacement Functional tolerance Lateral perforation displacement Functional tolerance Radius of Derforation fillet 0.31 4 O. 1 667 O. 1664 0.0360 0.0450 0.0450 0.050 0.020 0.031 0.001 5 16.670 16.640 0.314 0.628 0.314 0.942 0.314 1.251 0.309 f 0.002 f 0.0004 f 0.0004 f 0.0004 f

15、0.0004 - + 0.0004 f 0.002 f 0.002 nom m ax f 0.017 f 0.017 f 0.001 f 0.001 f 0.001 f 0.001 f 0.001 f 0.001 f 0.001 7.98 4.234 4.227 0.914 1.143 1.143 1.27 0.51 0.79 0.038 423.42 422.66 7.98 15.95 7.98 23.93 7.98 31.78 7.85 f f f f f f I f f f f f f f f f f 0.05 0.01 o 0.010 0.01 o 0.010 0.010 0.05 0

16、.05 nom m ax 0.43 0.43 0.03 0.03 0.03 0.03 0.03 0.03 0.03 0.005 f 0.001 0.13 f 0.03 Page 2 of 3 pages STD-SMPTE 165-ENGL 1999 m 8357401 00035LO 7TB W CMPTE 165-1 999 Annex A (informative) Additional data A.l The dimensions given in this standard, excluding dimensions A and E, represent the practice

17、of film manufacturers in that the dimensions and tolerances are for film stock immediately after perforation. The punches and dies themselves are made to tolerances considerably smaller than those given, but since film is a plastic material, the dimensions of the slit and perforated film stock never

18、 agree exactly with the dimensions of the slitters, punches, and dies. Film can shrink or swell due to loss or gain in moisture content or can shrink due to loss of solvent. These changes invariably result in changes in the dimen- sions during the life of the film. The change is generally uniform th

19、roughout a roll. A.2 It will be noted that among the various standards for slitting and perforating film stock there are often two standards that seem much alike in wording. The differ- ence lies in the longitudinal pitch which is either 0.1664 in or 0.1667 in (4.227 mm or 4.234 mm). In general, the

20、 longer pitch is for print stock and the shorter pitch is for negative or intermediate stock. The choice of pitch for negative or intermediate motion- picture film depends, within certain limits, on the type of printer to be used. Where release step-printers are used and the film is stationary when

21、exposed, the choice of pitch is not strictly limited. Where the film moves continuously over a cylindrical surface at the time of printing (sprocket-type contact printer), there are three major considerations involved in choosing the pitch. These considerations are: (1) the sprocket diameter and too

22、th engagement, (2) the film thickness, and (3) the film shrinkage and the rate at which shrinkage occurs. Maximum steadiness and definition are secured on a sprocket-type printer when the negative stock is somewhat shorter in pitch than the positive stock in the approximate proportion of the thickne

23、ss of the film to the radius of curvature. For printing on a 72-tooth sprocket (circumfer- ence of about 12 in 305 mm) with film 0.0055 in to 0.0065 in (0.140 mm to 0.165 mm) thick, the optimum pitch differ- ential is 0.3%. The use of the ideal pitch differential for the negative would minimize slip

24、page between the positive stock and negative during the printing operation, thus reducing the amount of blurring and jumping in the vertical axis of the picture or sound image. (This error is to be differentiated from the jump caused by nonuniformity of successive pitches, dimension B.) Experience h

25、as shown that the average pitch derived from dimension L of the intermediate can vary f 0.1% from the Annex B (informative) Bibliography ideal pitch, which is 0.3% shorter than the positive stock, without blurring of picture and sound image being easily detected. For many years, this desired differe

26、nce in pitch was caused by the shrinkage of the negative film during processing and aging. Current film bases shrink less than the earlier ones and hence a shorter initial pitch becomes desirable. To satisfy this requirement for picture or sound negatives, it is common manufacturing practice to aim

27、for a pitch value 0.2% shorter than the positive stock onto which they will be printed. The additional shrinkage that occurs during proc- essing and the aging that takes place before the release prints are made then bring the pitch differential close to the optimum and desired value of 0.3%. Accordi

28、ngly, the pitch chosen for the negative or intermediate stock is 0.1664 in (4.227 mm). Low-shrinkage negative film perforated to these dimensions should not thereafter shrink appreciably more than 0.2% under normal use conditions, and for a reasonable life span, so that the optimum pitch differentia

29、l from the positive stock of 0.3Y0f 0.o/ is maintained. (The film should be measured after equilibration with air at the conditions prevailing at the time of perforating.) A.3 The uniformity of pitch, hole size, and margin (dimen- sions 6, C, D, and E) is an important variable affecting steadiness.

30、Variations in these dimensions, from roll to roll, are of little significance compared to variations from one perforation to the next within any small group of consecutive perforations. As an example, the uniformity of the margin is uniquely critica) for optical printing. During the printing process

31、, the placement of the image on the film is usually with respect to successive lateral pairs of perforations at one-frame intervals. During subsequent projection, how- ever, the portion of the image projected is usually located, not by these perforations, but by the edge of the film. The lateral ste

32、adiness of the projected image is, therefore, directly related to the frame-to-frame uniformity of the margin. AA The tolerance for the slit width after processing was established to provide the laboratory with the maximum flexibility for the least critical application of commercial 8-mm type S prin

33、ts. For some commercial applications, such as photographic sound use, it will be necessary for the laboratory to consider much tighter tolerances. For these more critical uses, film shrinkage characteristics must be taken into account, and the film slit within IO.001 in (0.03 mm) variability. ANSVSMPTE 75M-i 994, Motion-Picture Film - Raw Stock - Designation of A and B Windings ANSIISMPTE 223M-1996, Motion-Picture Film - Safety Film I Page 3 of 3 pages

展开阅读全文
相关资源
  • ANSI Z97 1-2009 American National Standard for Safety Glazing Materials used in Buildings - Safety Performance Specifications and Methods of Test《建筑物中窗用玻璃材料安全性用.pdfANSI Z97 1-2009 American National Standard for Safety Glazing Materials used in Buildings - Safety Performance Specifications and Methods of Test《建筑物中窗用玻璃材料安全性用.pdf
  • ANSI Z97 1 ERTA-2010 Re ANSI Z97 1 - 2009 Errata《修订版 美国国家标准学会Z97 1-2009标准的勘误表》.pdfANSI Z97 1 ERTA-2010 Re ANSI Z97 1 - 2009 Errata《修订版 美国国家标准学会Z97 1-2009标准的勘误表》.pdf
  • ANSI Z21 40 2a-1997 Gas-Fired Work Activated Air-Conditioning and Heat Pump Appliances (Same as CGA 2 92a)《燃气、工作激活空气调节和热泵器具(同 CGA 2 92a)》.pdfANSI Z21 40 2a-1997 Gas-Fired Work Activated Air-Conditioning and Heat Pump Appliances (Same as CGA 2 92a)《燃气、工作激活空气调节和热泵器具(同 CGA 2 92a)》.pdf
  • ANSI Z124 9-2004 American National Standard for Plastic Urinal Fixtures《塑料小便器用美国国家标准》.pdfANSI Z124 9-2004 American National Standard for Plastic Urinal Fixtures《塑料小便器用美国国家标准》.pdf
  • ANSI Z124 4-2006 American National Standard for Plastic Water Closet Bowls and Tanks《塑料抽水马桶和水箱用美国国家标准》.pdfANSI Z124 4-2006 American National Standard for Plastic Water Closet Bowls and Tanks《塑料抽水马桶和水箱用美国国家标准》.pdf
  • ANSI Z124 3-2005 American National Standard for Plastic Lavatories《塑料洗脸盆用美国国家标准》.pdfANSI Z124 3-2005 American National Standard for Plastic Lavatories《塑料洗脸盆用美国国家标准》.pdf
  • ANSI T1 659-1996 Telecommunications - Mobility Management Application Protocol (MMAP) RCF-RACF Operations《电信 可移动管理应用协议(MMAP) RCF-RACF操作》.pdfANSI T1 659-1996 Telecommunications - Mobility Management Application Protocol (MMAP) RCF-RACF Operations《电信 可移动管理应用协议(MMAP) RCF-RACF操作》.pdf
  • ANSI T1 651-1996 Telecommunications – Mobility Management Application Protocol (MMAP)《电信 可移动性管理应用协议》.pdfANSI T1 651-1996 Telecommunications – Mobility Management Application Protocol (MMAP)《电信 可移动性管理应用协议》.pdf
  • ANSI T1 609-1999 Interworking between the ISDN User-Network Interface Protocol and the Signalling System Number 7 ISDN User Part《电信 ISDN用户间网络接口协议和7号信令系统ISDN用户部分.pdfANSI T1 609-1999 Interworking between the ISDN User-Network Interface Protocol and the Signalling System Number 7 ISDN User Part《电信 ISDN用户间网络接口协议和7号信令系统ISDN用户部分.pdf
  • ANSI T1 605-1991 Integrated Services Digital Network (ISDN) - Basic Access Interface for S and T Reference Points (Layer 1 Specification)《综合服务数字网络(ISDN) S和T基准点的.pdfANSI T1 605-1991 Integrated Services Digital Network (ISDN) - Basic Access Interface for S and T Reference Points (Layer 1 Specification)《综合服务数字网络(ISDN) S和T基准点的.pdf
  • 猜你喜欢
    相关搜索

    当前位置:首页 > 标准规范 > 国际标准 > ANSI

    copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
    备案/许可证编号:苏ICP备17064731号-1