ISO 1007:1995
(Main)Photography — 135-size film and magazine — Specifications
Photography — 135-size film and magazine — Specifications
Photographie — Film et cartouche de format 135 — Spécifications
General Information
Relations
Standards Content (Sample)
INTERNATIONAL ISO
STANDARD
1007
Second edition
1995-11-01
Photography - 135size film and
magazine - Specifications
Photographie - Film et cartouche de forma t 135 - Spkcifications
Reference number
ISO 1007:1995(E)
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ISO 1007:1995(Ej)
Contents
Pa
8
1
1 Scope . .
1
2 Normative references .
............................ 1
3 Conditions for measurement of dimensions
...... ........................ ................. 2
4 Film and perforating dimensions
2
Latent-image frame numbering .
5
................................. ................. 2
Latent-image digital bar-codes
6
....................... 4
7 Magazine dimensions .
4
Magazine bar-code requirements .
8
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Camera auto-sensing (CAS) areas
9
10 Information Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
............................................ ....................... 6
11 Film pull-out forte
............................. ................. 6
12 Film-spool attachment strength
Annexes
Methods for measurement of key characteristics of 135-size film
A
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
magazines and film
B Historical dimensions used to design magazines and cameras 29
. . . . . . . . . . . . . . . . . . . . . . . . . . . 30
C Assignment of combination code numbers
0 ISO 1995
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced
or utilized in any form or by any means, electronie or mechanical, including photocopying and
microfilm, without Permission in writing from the publisher.
International Organization for Standardization
Case Postale 56 l CH-l 211 Geneve 20 l Switzerland
Printed in Switzerland
ii
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0 ISO
ISO 1007:1995(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide
federation of national Standards bodies (ISO member bodies). The work
of preparing International Standards is normally carried out through ISO
technical committees. Esch member body interested in a subject for
which a technical committee has been established has the right to be
represented on that committee. International organizations, governmental
and non-governmental, in liaison with ISO, also take part in the work. ISO
collaborates closely with the International Electrotechnical Commission
(IEC) on all matters of electrotechnical standardization.
Draft Internation al Standards adopted by the technical committees are
circul ted to the m ember bodies for voting. Pu blication a s an International
Standard requires approval by at least 75 % of the member bodies casting
a vote.
International Standard ISO 1007 was prepared by Technical Committee
ISO/TC 42, Photography.
This second edition cancels and replaces the first edition
(ISO 1007:1979), which has been technically revised as explained below.
This edition of ISO 1007 includes the following significant additions and
changes.
Addition of product features which are now referred to as “DX ”:
4
- a latent-image digital bar-code, which tan be used by
photofinishers to optimize colour printing of developed colour
negative films; to include optional frame number bar-code Systems;
- specifications for a bar-code on the magazine; this feature facili-
tates the photofinisher ’s presort operations by identifying the
product and the number of exposures contained within the maga-
zine;
- specifications for an electrically readable binary code on the maga-
zine (CAS Code) to encode Speed, number of exposures and ex-
posure latitude;
- specifications for an information Panel on the magazine. The
photographer tan read the Panel through a window on the Camera,
thereby identifying the camera ’s contents.
b) The manner of describing magazine dimensions has been reworked
completely to a series of references from datum planes. A number of
new dimensions have been added.
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0 ISO
ISO 1007:1995(E)
c) The film dimensions have also been referenced to a magazine datum
plane:
- a new dimension, Y7, has been added to figure 1; this specifices the
amount of film extending from the magazine when the film is in its
initial Position;
- several new dimensions define corner-rounding requirements for
the tip of the tongue;
- all dimensions are in millimetres only. Both inch references and
“number of Perforation pitches” have been removed.
The specification for film pull-out forte has been improved.
d)
A new specification for film-spool attachment strength has been
d
added.
The informative annexes have been expanded and improved.
Annexes A, B and C of this International Standard are for information only.
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ISO 1007:1995(E)
INTERNATIONAL STANDARD 0 ISO
- 135size film and magazine -
Photography
Specifications
This International Standard is not intended to apply to
1 Scope
“bulk” 35-mm film for reloading into 135-magazines
nor to the reloadable magazines themselves.
NOTE 1 It is not intended in this International Standard
This International Standard specifies the following.
to specify the actual location of photographic images on
film.
Dimensions of four Standard film lengths normally
4
supplied. The film lengths provide, respectively, a
nominal number of twelve, twenty, twenty-four 2 Normative references
or thirty-six 24 mm x 36 mm full-frame exposures
The following Standards contain provisions which,
or twenty-four, forty, forty-eight or seventy-two
through reference in this text, constitute provisions
18 mm x 24 mm half-frame exposures.
of this International Standard. At the time of publi-
Latent-image frame numbering.
b) cation, the editions indicated were valid. All Standards
are subject to revision, and Parties to agreements
Latent-image digital bar-codes to identify the film
d based on this International Standard are encouraged
product class and the individual film product, in
to investigate the possibility of applying the most re-
the case of colour negative films.
cent editions of the Standards indicated below.
Members of IEC and ISO maintain registers of cur-
Dimensions of daylight-loading film magazines for
d)
rently valid International Standards.
use in 35-mm still-picture cameras.
ISO 1: 1975, Standard reference temperature for in-
Magazine bar-codes to identify the film product
d
dustrial length measuremen ts.
and the nominal number of exposures in the roll.
ISO 554: 1976, Standard atmospheres for conditioning
Camera autosensing areas, which provide an
and/or tes ting - Specifica tions.
electrically readable encodement of ISO Speed,
number of exposures and recommended ex-
ISO 89711988, Photography - Roll films, 126, 7 70
posure latitude setting for appropriately designed
and 135 size films - Identification of the image-
cameras.
bearing side.
Information Panel on which the film identification,
9)
3 Conditions for measurement of
ISO Speed and number of exposures are visible
dimensions
through a window in the back of the Camera.
The dimensions and tolerantes specified in this Inter-
Film pull-out forte specification.
hl
national Standard apply at the time of manufacture
(except where specifically stated otherwise)
Film-spool attachment strength specification.
i) P
1
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0 ISO
ISO 1007:1995(E)
The first set shall be provided on the edge nearest to
measured under atmospheric conditions of
the C datum plane (see figure4). lt shall be numbered
(23 + 2) “C and (50 + 5) % relative humidity, as
in a half-frame series (1, IA, 2, 2A, . . . . 36, 36A), which
specified in ISO 554 ’).
increases in sequence from 1 to 12A (or 20A, 24A,
36A) interspersed at four-Perforation intervals. A sec-
4 Film and perforating dimensions
ond set may be provided on the edge opposite the
first set. If provided, it may be numbered either in a
full-frame series (1, 2, . . . . 36) which increases in se-
4.1 Film dimensions
quence from 1 to 12 (or 20, 24, 36) at intervals of
eight perforations or, if provided as part of the optional
The film shall conform to the dimensions shown in
Single-track latent-image frame number bar-code (see
figure 1 and given in table 1 as weil as figure 2 and
6.2), it may be numbered in a half-frame series (1, 1 A,
table 2.
2, 2A, . . . . etc.).
4.1.1 Leader
The image-bearing side of colour negative films shall
be designated by an arrow, placed adjacent to each
The leader length dimension (Y1 + Y4) is that part of
half-frame Character (IA, 2A, 3A, etc.) and shall be
the film that precedes full-frame number 1 and in-
oriented as shown in figure 1 c) in accordance with
cludes the tongue. lt is used for threading the Camera
ISO 897. Use of the arrow for other than colour
‘and protecting the picture area from unintentional ex-
negative films is preferred, but not required.
posure. The film manufacturer may utilize the Portion
of the leader extending from the magazine for identi-
Portions of the leader, the trailer, or both may be
fication purposes, provided that the identification
identified at full-frame or half-frame intervals, or both,
technique Causes no functional Problems.
at the manufacturer ’s discretion.
The numerals shall read correctly from the non-
4.1.2 Tongue
image-bearing side.
The tongue is the narrow part of the leader, dimen-
The Position of the frame number is defined as the
sion Ys in width and dimension YJ in length, shaped
centre of each full-frame or half-frame identification (1,
to facilitate threading the Camera. The Profile at the
IA, 2, 2A, etc.).
corners of the extreme end of the film tongue shall
be rounded within the limits shown in figure 1 b) and
given in table 1. The corners shall have no stepped or
sharp features. The tut across the end of the tongue
6 Latent-image digital bar-codes
shall not have Steps that exceed 1,27 mm.
A 23-bit, dual-track, latent-image bar-code, which
4.1.3 Trailer identifies the manufacturer/fiIm type, shall be located
on the edge nearest the C datum plane adjacent to
The trailer, dimension Y3 in length, is that part of the
each full-frame and half-frame number on films de-
film that extends from the last full-frame number to
signed for colour negative processing. After the film
the B datum plane when the film has been pulled out
has been processed, the bar-code is visible. When
as far as possible from the magazine. The trailer shall
processed film is used with an appropriate film code
be composed entirely of full-width film to assure
reader and an automatic Printer, colour printing tan
proper rewinding into the magazine.
be optimized for each specific film so identified.
Frame-number information may also be incorporated
4.1.4 Width and perforating dimensions
in different ways. One method is to expand the basic
23-bit, dual-track latent-image code by adding eight
The film width and perforations shall conform to the
more bits for frame-number information. Another
dimensions shown in figure 2 and given in table2.
method would be to print a 13-bit Single-track, modi-
fied 3-of-9 latent-image code on the film edge op-
5 Latent-image frame numbering
posite the 23-bit (or expanded 31-bit) dual-track Code.
Two sets of frame-number sequences, together with Use of latent-image bar-codes on films other than
their location and orientation, are shown in figure 1 c). colour negative films is optional.
1) All measuring instrument calibrations should be referred to a temperature of 20 “C (as specified in ISO 1) and a relative
humidity of 50 %.
2
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0 ISO
ISO 1007:1995(E)
The 16 possible combinations of the specifier array
The latent-image bar Codes shall have the locations
are coded as a 4-bit binar-y number, with bar Position
and the dimensions shown in figure 1, c) to h).
number 9 representing the most significant bit, and
bar Position number 12 representing the least signifi-
6.1 Dual-track latent-image bar-code
cant bit.
The dual-track bar-code consists of adjacent data and
The film-product-class array may be used indepen-
clock tracks, each with 23 equal-width bar elements
dently, without employing the specifier array. The
(31 in the expanded Code). Esch bar element rep-
specifier array Codes, however, shall not be used un-
resents a digital binary bit, with exposed bars rep-
less accompanied by the film-product-class array, be-
resenting a 1 bit and unexposed bars representing a
Cause this could Cause bar-code readers to
0 (Zero) bit.
misinterpret the array. Therefore, a specifier combi-
nation code number will not be assigned unless the
manufacturer has already obtained an appropriate
6.1.1 Description of data track
film-product-class code number for the film.
6.1.1 .l Entry Pattern
CAUTION - lt is possible that the Same specifier
array may be combined with different film-product-
The 6-bit entry Pattern is used by a bar-code reader
class arrays to represent film products of different
to detect the beginning of a code sequence.
manufacturers. Therefore, it is the combination of
the two arrays that is unique to any given product.
6.1 A.2 Identification array for film-product-class
6.1.1.5 Identification array for frame number
This 7-bit array shall encode the specific combination
code number specified in table3 that has been as-
This optional -/-bit array may be added to encode
signed to the film-product-class under the procedure
whole and half-frame numbers in accordance with the
described in annex C. Any individua/ location assigned
Patterns specified in table 6. Bar positions 13 to 18 are
as part of the combination code number shall rep-
a 6-bit binar-y representation of the frame number,
resent an exposed bar. A dash (-) in table3 rep-
with Position number 13 representing the most sig-
resents an unexposed bar. A manufacturer may use
nificant bit, and Position number 18 representing the
a Single combination code number to identify several
least significant bit. Frame numbers Prior to the zero
individual film products which may be developed in
frame number are derived by successive binar-y sub-
the same photographic process.
traction. Bar Position number 19 is exposed in those
For convenience in referencing, the 128 possible arrays that encode half-frame numbers (half-frame
combinations of the film-product-class array are sys- .
flag)
tematically arranged in an ascending binary sequence
in table3. Bar Position number 1 is part of the entry
6.1 .1.6 Second unassigned bit
Pattern and always remains unexposed. In the binary
sequence, an exposed bar represents a l-bit, with bar
A second unassigned bit shall be included only if the
Position number 2 representing the most significant
optional frame number array is included. This second
bit, and bar Position number 8 representing the least
unassigned bit shall be an unexposed bar.
significant bit. Bar Position number 1, since it is
always unexposed, is not included in the binary bit
6.1.1.7 Parity bit
string.
This shall be provided, using an exposed bar, to create
6.1 .1.3 Unassigned bit
even parity with data bits 1 to 12 inclusive. (The total
number of exposed bars in data positions 1 to 12, plus
This unassigned bit shall be an unexposed bar.
the parity Position, shall be an even number.) Under
the optional, dual-track, frame numbering System, the
6.1 .1.4 Identification array for film specifier
parity bit is used to create even parity with data bits
1 to 19 inclusive.
This 4-bit array shall encode the specific combination
code number in table4 that has been assigned to the
product under the procedure described in annex C. 6.1.1.8 Exit Pattern
Any individua/ location assigned as part of the combi-
The 4-bit exit Pattern is used by a bar-code reader to
nation code number shall represent an exposed bar.
detect the end of a code sequence.
A dash (-) in table4 represents an unexposed bar.
3
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0 ISO
ISO 1007:1995(E)
6.2.1.3 Exit Pattern
6.1.2 Description of clock track
The exit Pattern consists of one narrow space fol-
The clock track shall be comprised of 23 bits if the
lowed by one narrow bar. lt is used by a bar-code
data track does not contain optional frame number
reader to detect the end of a code sequence.
encoding, or 31 bits if frame number encoding is in-
cluded in the data track. Esch Change in clock track
density signifies the location of a data bit in the data
6.2.2 Definition of quiet zones
track. [See figure 1 e) and f).]
Quiet zones shall be provided on both ends of the
bar-code, as shown in figure 1 g) and given in table 1.
6.1.3 Description of quiet zones
provided on both ends of the
Quiet zones shall be
6.3 Density specifications
figure 1 d) and given in table 1.
bar-code, as shown in
The Status M red (640 nm) density of the unexposed
bars (D min.) shall not exceed 0,50 and the delta
density between an unexposed bar and an exposed
6.2 Single-track latent-image frame number
bar shall be a minimum of 0,50.
bar-code
The 690 nm density of the unexposed bars (D min.)
The optional Single-track frame number bar-code con-
shall not exceed 0,65 and the delta density between
sists of seven bar elements interleaved with six space
an unexposed bar and an exposed bar shall be a
elements. Bar and space elements are either wide or
minimum of 0,90.
narrow. Esch element represents a digital binary bit,
with wide elements representing a 1 bit and narrow
These conditions apply at the time of photofinishing,
elements representing a 0 bit.
assuming the product has been kept under the
manufacturer ’s recommended storage conditions and
that the expiration date has not been exceeded.
6.2.1 Definition of data Patterns
7 Magazine dimensions
6.2.1 .l Entry Pattern
Magazine dimensions shall conform to those shown
The entry Pattern consists of one wide bar followed
in figure 3 and given in table 7.
by one narrow space. lt is used by a bar-code reader
to detect the beginning of a code sequence.
8 Magazine bar-code requirements
6.2.1.2 Frame number sequence
This is a machine-readable, interleaved 2-of-5 bar-code
The frame number sequence consists of five bar el-
Pattern, which provides a unique product identification
ements interleaved with four space elements. There
number and the number of full-frame exposures con-
are three wide elements (3-of-9) and six narrow el-
tained within the magazine. This information is help-
ements in each of the valid frame number sequences. ful, particularly to the photofinisher in presort
The Pattern of each of the valid frame number se-
operations.
quences is given in tables 5 and 6, where a number
in the bit column designates a 1 bit (wide element)
8.1 Magazine bar-code requirements
and a dash (--) designates a 0 bit (narrow element).
An optional end of roll sequence is provided for use The bar-code shall have the locations and the dimen-
at a location one full-frame pitch beyond the last full- sions shown in figure4 and given in table 8. The bar
frame number bar-code sequence (frame number E in height is specified by dimensions Ws and WC, and the
table 5). total bar-code width is specified by dimension W4.
Alternative frame number sequences are provided for Quiet zones shall be provided on either side of the
the last full-frame and half-frame numbers to indicate bar-code as shown in figure4. The quiet zone is the
end of roll in 12, 20 and 24 exposure lengths. These area immediately preceding the Start Character and
following the stop Character. These quiet zones shall
alternative Codes are marked with asterisks in
contain no markings.
table 5.
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0 ISO ISO 1007:1995(E)
The human-readable interpretation of the bar-code
9 Camera auto-sensing (CAS) areas
shall be located between the lip of the magazine and
the edge of the magazine bar-code. lt shall be nom- Camera auto-sensing utilizes a set of electrical probes,
inally centred on the bar-code.
in an appropriately designed 135-size Camera, that
contacts a Pattern of conductive or insulated areas on
the magazine. The arrangement of these areas pro-
vides an electrically readable encodement of ISO
8.2 Bar-code print requirements
Speed or manufacturer ’s recommended exposure
index, number of exposures and recommended ex-
posure latitude.
8.2.1 Reflectance
The minimum reflectance of the spaces shall be
9.1 Dimensions
35 %. The maximum allowable reflectance of the dark
bars is related to the reflectance of the bar-code
Dimensions of the Camera auto-sensing areas and the
spaces and should be calculated from the following:
limits of the Camera probe locations shall conform to
R, = R,/4
the values shown in figure 5 and given in table IO. The
areas limiting probe locations (X7 x X,,) are much
smaller than the sensing areas on the magazine. This
allows for variations in
R, is the maximum bar reflectance;
dimensions of the magazine chamber in the cam-
a)
is the space reflectance.
RL
era,
b) dimensions of magazines from different manu-
8.2.2 Contrast
facturers, and
The minimum print contrast Signal (PCs) is 75 %.
c) alternative Systems of seating magazines in dif-
Symbol aberrations are acceptable if all or patt of one
ferent cameras.
imperfection is included in the following tests.
Without this factor of safety, it would be possible for
Print contrast: Minimum contrast specification
d
a probe to read the wrong block in the CAS area.
shall be met.
b) Spate reflectance: If the imperfection lies in a
9.2 ILocation and code assignments
space, the minimum space reflectance specifi-
cation shall be met.
These are identified in figure5 by the view “Typical
magazine sensing area” and by tables IO to 13. In
each table, a number under the sensing area rep-
resents a conducting area; a dash (----) represents an
8.3 Bar-code identification System
insulated area. Numbers 1 and 7 are common/return
The bar-code provides six digits of information which contact areas. Sensing areas 2 to 6 encode the ISO
identify the film and the number of exposures con- Speed or manufacturer ’s recommended exposure
tained in the magazine. index, as assigned in table 11. Sensing areas 8 to IO
encode the number of exposures, as shown in
Digit 1 is always 0.
table 12. Sensing areas 11 and 12 encode exposure
latitude, as described in table 13.
Digits 2 to 5 yield a number which is the “film-
identif ication combination code
product-class
number” multiplied by 16, plus the “film-specifier
9.3 DC electrical characteristics
identification combination code number ”, as de-
scribed in clause 6.
Conductive areas are defined by the potential drop
(VOL) across the series combination of the common
Digit 6 is the numerical equivalent assigned to corre-
contacts and any other contact (see figure6).
late with the number of exposures (table 9).
lnsulated areas are defined by the insulation resist-
CAUTION - New lengths no% listed in table9 are
ante (Ri). The insulation resistance is calculated as
becoming more popular. Coding of digit 6 may vary in
Order to accomodate these new lengths.
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0 ISO
ISO 1007:1995(E)
where I,,c is the measured current through the con- IO.2 Contents of the information Panel
tact series combination of the common contacts and
The human-readable data located within the infor-
any other contact.
mation Panel shall contain the following:
Open current voltage is
a) film identification;
VDc = 1,5 V min. and 9,0 V max.
ISO Speed or manufacturer ’s recommended ex-
b)
Limited current is
posure index;
V,,IR,,) = 15 PA min. and IO mA max.
number of exposures.
d
where
If the ISO Speed or exposure index is included in the
film identification a), it need not be repeated to
Voc is the DC voltage used in the power supply
fulfil b).
of the test circuit;
is the resistance of a current-limiting re-
11 Film pull-out forte
kL
sistor used to limit current flow in the test
The initial forte to begin pulling the film out of the
circuit.
magazine lip shall be 5,0 N max. After 100 mm of film
has been extracted from the magazine, this forte shall
not exceed 2,5 N throughout the balance of the roll.
10 Information Panel These specifications apply both at the time of manu-
facture and throughout the manufacturer ’s specified
This area displays key information about the film con-
product life (when stored according to the manufac-
tained within the magazine. lt is visible through a
turer’s recommendations for storage).
window in the back of any appropriately designed
Camera.
12 Film-spool attachment strength
A pulling forte of 40 N on the film shall not break the
film-spool attachment. The 40 N specification applies
10.1 Location and dimensions
both at the time of manufacture and throughout the
manufacturer ’s specified product life (when stored
The information Panel area shall be located on the
according to the manufacturer ’s recommendations for
magazine surface and shall have the dimensions
storage).
shown in figure 7 and given in table 14.
6
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ISO 1007:1995(E)
Table 1 - Dimensions of 135-size film and latent-image identification (see figure 1)
Dimensions in mittimetres
Symbol Min. Basic Max. Remarks
Symbol Min. Basic Max. Remarks
161,5 185,25 See note 1 2,06 2,60
T3
See note 2 0,38 Quiet zone
T4
418 12 exposures Quiet zone
L5
T5
722 20 exposures 0,95 1,ll Wide element
T6
0,38 Narrow element
874 24 exposures 0,54
T7
1 330 36 exposures
NOTES
See note 3
72,41
1 Reference Point for the dimensions is the full-frame
number 1 (see clause 5).
See note 4
38,lO 1 1 40,77 1
2 Distance from the first designated full-frame number
to the last designated full-frame number.
1 23 1 See note 5
rs
3 Distance from the last designated full-frame number
See note 6
'6
to the B datum plane.
4 Distance from the end of the film to the leading edge
12 exposures
689,91
of the first Perforation in the full-width Portion of the film.
993,91 1 1 - 1 20 exposures
5 The measurement of tongue width is made at the
extreme end. The shape of the rest of the tongue is op-
1 145,91 24 exposures
tional.
1 601,91 36 exposures 6 Reference dimension is the minimum total film length
from the end of the tongue to the B datum plane when
Ti.91 1 1 71,76 1 See note 7
the film is fully extended from the magazine.
7 Distance from the end of the tongue to the B datum
5
y8
I I
plane when the film is in initial Position.
3
8 Dimensions Y,3 and Y,4 refer to dual-track latent-
rs
image bar-codes. Y,4 includes quiet zones. Y,3 is not
113
YlO
specified under the optional frame-number bar-code
System.
03
Yl 1
9 Full-frame (Y,5) and half-frame (Y16) pitch are basic di-
mensions.
Y
12
10 Y,7 and Y18 are used to define the centreline of the
See note 8
~~~ 6,35 1 1 - 1
y13
I I
eye-readable frame number.
11 Y.,g is always a positive number.
See note 8
111,431 1
I
12 T, is the width of any bar (exposed or unexposed) in
Y See note 9
15
I 1381 I I the clock track or data track, or both. In Order to enhance
the effectiveness of some bar-code readers, the edge
See note 9
Y
16
I 114 I I
of any bar in the data track should be linear with an edge
of a bar in the clock track.
Y See note 10
17
CAUTION - The measurement method for element
See note 10
y18
width is critical. Technical experts are contemplating in-
itiation of a study to improve the recommendations for
59 0,5 See note 11
element-width measurement and are considering modi-
0,38 / 1 0,53 1 See note 12 1 fication to the specification for the minimum element
Tl
~ I
width, such that narrower elements may be allowed.
075 1
I 1 126 1 - 1
T2
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ISO 1007:1995(E)
Location of full frame No.
Reference Point Location of full frame No. 1
12, 20, 24 or 36
B (first mandated number)
(last mandated number)
/
y6
P
T?
Last
Imaginary magazine U
exposure
-l
5= --
(initial position)
B
tQT---+
(2q-JsF a) Fdilm imensions ’
b) Limits of rounded corners on tongue
h-f
h8
-track latent-
e-track latent-
8
X
c) Bar-code location, frame number and arrow orientation
Figure 1 -
Dimensions of 135size film and latent image bar-codes (continued)
8
---------------------- Page: 12 ----------------------
ISO 1007:1995(E)
Unassigned
Identification
array for film
Exit product class Entry
\L_ Quiet zone (both sides)
Y
e) Latent-imaqe dual-track bar-code
d) Dual-track bar-code dimensions
Unassigned Unassigned
I
Film Identification
Parity
Frame-number specifier array for film
11
Exit 1 1 identification array product class Entry
1 1-m
t ttt tt 1 bit
rw--l Corresponding
191817 1615 14131211 IO 9 8?654321-
assignment number
-Data track
-Glock track
f) Latent-imaae dual-track bar-code with optional frame number l)
Quiet zone (both sides)
A
--t-+-I
h) Optional latent-image Single-track bar-code
a) ODtional
...
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