1、ITL.80 95 0724150 05247b7 559 = 1 ANSUNAPM ZT1.80- ml 995 for Photography (Photofinishing) - Identification of Customer Order Components for Automatic Matching in a Centralized Photofinishing Plant - -m -IA American National Standards Institute 11 West 42nd Street New York, New York 10036 ANSI ITL-B
2、O 95 0724350 0524768 495 H American National Approval of an American National Standard requires verification by ANSI that the requirements for due process, consensus, and other criteria for approval have been met by the standards developer. Standard Consensus is established when, in the iudgment of
3、the ANSI Board of Standards Review, substantial agreement has bee, reached by directly and materially affected interests. Substantial agreement means much more than a simple majority, but not necessarily unanimity. Consensus requires that all views and objections be considered, and that a concerted
4、effort be made toward their resolution. The use of American National Standards is completely voluntary; their existence does not in any respect preclude anyone, whether he has approved the standards or not, from manufacturing, marketing, purchasing, or using products, processes, or procedures not co
5、nforming to the standards. The American National Standards Institute does not develop standards and will in no circumstances give an interpretation of any American National Standard. Moreover, no person shall have the right or authority to issue an interpretation of an American National Standard in
6、the name of the American National Standards Institute. Requests for interpretations should be addressed to the secretariat or sponsor whose name appears on the title page of this standard. CAUTION NOTICE: This American National Standard may be revised or withdrawn at any time. The procedures of the
7、American National Standards Institute require that action be taken periodically to reaffirm, revise, or withdraw this standard. Purchasers of American National Standards may receive current information on all standards by calling or writing the American National Standards Institute. Published by Ame
8、rican National Standards Institute 11 West 42nd Street, New York, New York 10036 Copyright O1 996 by American National Standards Institute All rights reserved. No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without prior written permission
9、of the publisher. Printed in the United States of America ANSI IT3-BO 95 0724350 05247b9 321 W ANS I/N A P M IT1.80-1995 American National Standard for Photography (Photofinishing) - Identification of Customer Order Components for Automatic Matching in a Centralized Photofinishing Plant Secretariat
10、National Association of Photographic Manufacturers Approved October 27, 1995 American National Standards Institute, Inc. Contents Page Foreword . 111 . Scope 1 Normative references . 1 Definitions and acronyms . 1 Conditions for measurement of dimensions . 2 FID number on order envelope . 2 Wallet p
11、roduct code specifications 2 Bar code splicing tape 2 FID number encoding on paper . 3 Figures 1 2 3 4 Annex A Bibliography 8 FID number on order envelope . 4 Bar code splicing tape 5 Wallet product code . 6 Sample FID number encoding on paper 7 II ANSI IT1mAO 95 U 0724150 0524773 TBT W Foreword (Th
12、is foreword is not part of American National Standard This new standard has been developed by the IT1 Ad Hoc Committee for Photofinishing. The group which began this work was named the IPESC (International Photofinishing Equipment Standards Committee). This standard was created in order to improve q
13、uality (prevent mixes) and to increase productivity at centralized photofinishing operations. In the past, different techniques were selected in order to match the components of an order at final packaging. Photofinishers found they could not com- bine packer, splicer, and printer equipment from dif
14、ferent manufacturers. This was not reasonable from a customer perspective, so this standard was developed in order to enhance system compatibility. This standard contains one annex which is for information only and is not considered part of this standard. Suggestions for improvement of this standard
15、 will be welcome. They should be sent to the National Association of Photographic Manufacturers, Inc., 550 Mamaroneck Avenue, Suite 307, Harrison, New York 10528-1 61 2. This standard was processed and approved for submittal to ANSI by NAPM Technical Committee IT1 on Photographic Films, Papers and P
16、lates. Committee approval of this standard does not necessarily imply that all members voted for its approval. At the time it approved this stan- dard, NAPMAT1 Technical Committee had the following members: ANSVNAPM IT1.80-1995.) Neale K. Burkhardt, Chair Robert J. Alston, Vice-Chair John Gignac, Se
17、cretary Organization Represented Name of Representative Agfa-Gevaert AG . Klaus Nieswandt Association for Information and Image Management Judy Kilpatrick Canadian Standards Association (Liaison) . David Somers John H. Auer (Alt.) Association of Reproduction Materials Gretag Imaging . Ray Crochetier
18、e International Society of Photogrammetry and Remote Sensing . Francis J. Parrish Japan Camera Industry Association . Katsumasa Kaga National Association of Photographic Manufacturers Robert J. Alston Manufacturers, Inc. . Phillip P. Nowers Cinzia Cuneo (Alt.) Gilbert G. Leiter (Alt.) Jeffrey H. Bel
19、l Neale K. Burkhardt James J. Leonard, Jr. (Alt.) David W. Butcher Peter Krause (Alt.) Juliet Rogers (Alt.) Kazuo Kat0 Toshiyuki Ikariya (Alt.) G. Richard Kramer Joseph J. McKinney Kevin Lewis (Alt.) Nobuhiko Minagawa Kenji Yokoo (Alt.) John R. Pierce I. V. Runyan iii ANSI ITL.80 95 m 0724350 052477
20、2 9Lb m Organization Represented Name of Representative National Information Standards Photographic Marketing Association International Herb Stein U.S. Defense Logistics Agency James N. McBee U.S. General Services Administration - Organization (Liaison) . Patricia Harris Professionai Photographers o
21、f America, Inc. Robert M. Opfer Federal Supply Services Martin Robinson Wolf X-Ray Corporation . Martin Wolf This standard was created by the IT1 Ad Hoc Committee for Photofinishing, which includes the following experts: Ray Crochetiere, Chair Vanni Beggiao Neale Burkhardt Gunnar Gudmundson Rene Heu
22、sser Jim Leonard Nobuhiko Minagawa Hans Peter Murbach Ken Phipps John Renn Maurice Rochman Tom Roule Atsushi Saito Herb Stein Atsuo Sugimoto Andrew Tabor Helmut Trieber Harry Walker iv ANSI ITL.80 95 W 0724350 0524773 852 AMERICAN NATIONAL STANDARD ANSIMAPM IT1.80-1995 American National Standard for
23、 Photography (Photofinishing) - Identification of Customer Order Components for Automatic Matching in a Centralized Photofinishing Plant 1 Scope This standard specifies dimensions, locations, and specifications for bar codes, dot pattern codes, and label areas on photofinishing order envelopes, film
24、 splicing tapes, wallets for finished prints, and photographic paper (prior to cutting into final prints). 2 Normative references The following standards contain provisions which, through reference in this text, constitute provisions of this American National Standard. At the time of publication, th
25、e editions indicated were valid. All standards are subject to revision, and parties to agreements based on this American National Standard are encouraged to investigate the possibility of applying the most recent editions of the standards listed below. ANSI MH10.8M-1993, Materials handling - Unit lo
26、ads and fransporf packages - Bar code symbols IS0 554: 1976, Standard atmospheres for conditioning and/or testing - Specifications l) 3 Definitions and acronyms 3.1 Automatic print count (APC): These APC marks encode the number of prints of each image to be made in this customer order. 3.2 bar code:
27、 An array of parallel rectangular bars and spaces that together represent data elements or characters in a particular symbology. The bars and spaces are arranged in a predetermined pattern following unambiguous rules defined by the symbology. 3.3 BCD: Binary coded decimal. 3.4 chop mark: A chop mark
28、 is a mark made on the paper that is read by the paper cutter to enable proper cutting. 3.5 European article number (EAN): A numeric bar code symbology that is the international standard for bar code identification of goods that will be scanned at point-of-sale (similar to UPC). 3.6 Film identificat
29、ion number (FID number): A unique order identifier within a lab. 3.7 Monarch-codabar: A bar code that encodes numbers, six special characters, and four different start and stop characters for specialized applications. 3.8 Universal product code (UPC): A numeric bar code symbology (administered by th
30、e Uniform Code Council) that is the North American standard for bar code identification of goods that will be scanned at point of sale (sirnilar to EAN). Available from American National Standards Institute, 11 West 42nd Street, New York, NY 10036. ANSI ITL.80 95 = 0724350 0524774 799 ANSVNAPM IT1.8
31、0-1995 4 Conditions for measurement of dimensions The dimensions and tolerances specified in this standard shall apply at the time of manufacture (except where specifically stated otherwise), when measured under atmospheric conditions of 23C f 2C and 50% I5% relative humidity, as specified in IS0 55
32、4. 5 FID is the film identification. The areas and dimensions for FID identification are shown in figure 1; are located on the back side of the envelope; and are referenced from the bottom of the envelope. FID number on order envelope 5.1 The bar code and data printing areas of the envelope are indi
33、cated as area A in figure 1. The glued seam area of the envelope shall be smooth and flat and shall have a white background. Viewing window(s) shall not be cut or bonded on the backside of the envelope. Bar code and data printing areas 5.2 Label area for UPWEAN The label area for UPWEAN is indicated
34、 as area B in figure 1. The shaded area is that which is allowed for label placement. 5.3 Code: Monarch-codabar The area for the Monarch-codabar codes is indicated as area C of figure 1. Order number and client number are from four to seven digits, with added start and stop characters. Printing the
35、eye readable number “upside down“ is acceptable. The identification number can also be placed either in front of or behind the codabar code. 5.4 Interleaved 2-of-5 code The area for the interleaved 2-of-5 code (see ANSI MH10.8M) is indicated as area D in figure 1. This identification number is six d
36、igits with bar height at least 9 millimeters. 5.5 Reading length for scanner The reading length for the scanner is described in figure 1 as dimension E. 6 Bar code splicing tape Use of a bar code splicing tape on film, applied prior to processing, is recognized. Dimensions plus locations for the fea
37、tures of such a splicing tape are shown in figure 2. The bar code identifies the order. APC marks are used by photofinishers to indicate the number of prints requested by the customer. 7 Wallet product code specifications The area, dimensions and specifications for an order identification bar code a
38、re shown in figure 3. The bar code consists either of two, or four, “2-of-5 interleaved“ digits in accordance with ANSI MH10.8M. Width of the narrow bars shall be at least 0.3 mm. The wide bars shall be at least 2.25 times the narrow bars. All measuring instrument calibrations shall be conducted at
39、a temperature of 20C (as specified in IS0 1) and a relative humidity of 50%. 2 ANSI IT3.BO 95 = 0724350 0524775 625 W ANSVNAPM IT1.80-1995 The bar code shall be printed in black on a white background and in the W * T area of figure 3. The margin M of the white background, to the right and to the lef
40、t of the code, shall be at least ten times the width of the narrow bars, but not less than four millimeters away from the actual code. The code shall be parallel to the lower edge of the pocket and located in a visible position at any point between the 20 mm and the 100 mm positions indicated in fig
41、ure 3. The dimensions “20 mm“ and “100 mm“ refer to the distance of the code from its center to the edge of the wallet. Bar codes shall be accompanied by alphanumeric characters which are to be printed either above or below the code. 8 The film identification number can be encoded into photographic
42、paper prior to cutting into final parts. FID number encoding on paper The FID is put on paper using the cut marks for encoding. Looking in the paper traveling direction with the image side up, a cut-mark on the right side represents a binary “O“, and a cut mark on the left side represents a binary “
43、1“. A cut mark on both sides represents an order delimiter. As a minimum, the least three significant digits of the FID number are transferred onto the paper. Each of these three digits is converted into four bits (BCD), each of these nibbles being followed by a “O“ as a frame bit. Code punching sta
44、rts with the least significant bit of the least significant digit. This requires fifteen bits to represent the three digits (1 6 pictures). This coding shall be repeated after a “sync-sequence“ consisting of four or more “1s“ followed by a “O“, until the end of order is reached. The sync-sequence ca
45、n also occur at any position on the paper to indicate a new coding sequence. This may be used in case of exceptional conditions on the printer. In case of an unreadable FID number, the sync-sequence shall be punched repeatedly. In order to skip unused pieces of paper (e.g., due to a splice or a manu
46、al paper advance), the distance of consecutive marks may be longer than one piture.) Examples are shown in figure 4. 3, Option: The marks can be placed at the beginning and at the end of unused paper, repeating once at a distance of 12.7 mm k 1 mm, to delimit the unused part (double-mark). Within th
47、e unused paper, no additional marks are allowed. Placeholder-prints (synchro/forced prints) are not considered unused paper. 3 ANSI ITL-BO 95 0724L50 0.524776 5bL = ANSVNAPM IT1.80-1995 125 min to 205 max 14 4 F 51 nominal Area for data printing Dead zone No additional (must be code or text wh te) a
48、dmissible NOTE - Areas C-C-D can be reversed (D-C-C) in order. Figure 1 - FID number on order envelope 4, (dimensions in millimeters) 4) See clause 5. 4 ANSI ITl1.80 95 m 0724350 0524777 4T8 m ANSVNAPM IT1.80-1995 4 Film travel in splicer 7.62 i 0.50 (2 places) - 2.54 min- 3.81 * 0.38 (2 places)- 3.
49、18 * 0.25 (2 places) Reference edge of film Chop mark altemate location See note 3 3.00 min See note 4 Scale: 2 x size 18.29 * - 0.76 k- 25.20 -4 Linear units: mm I f 0.20 = Quiet zone NOTES 1 Six digit interleaved 2 of 5 bar code per ANSI MH10.8M throughout the photofinishing process. 2 The splicer locates the appropriate edge of the chop mark with k 0.30 mm accuracy. The point on the chop mark indicates the associated order. 3 Chop mark may be placed at the top or bottom depending on the splicer requirements. 4 To assure high bar-code read reliability, this quiet zone dimension
