|Maker||Canon Camera K. K.|
|Lens mount||Canon FD|
|ASA/ISO range||ISO 25 to 3200 [manual]|
|Exposure||Shutter priority, manual|
|EV1 to EV18 @ ASA 100|
|Flash||Hot shoe, PC socket|
|Flash synchronization||1/60 s|
|Frame rate||Manual lever winding, unmodified.|
|Shutter speed range||2 s to 1/1000 s|
|Battery||4xLR44/4xSR44 6V battery|
|Dimensions||87 × 141 × 47.5 mm|
Canon uses the second letter for the year. Canon started with A in 1960 and made it to Z by 1985. In 1986 they started again at A and today, in 2007, have made it. 4 - Wikipedia. 4 is an interface standard for a serial bus for high- speed communications and isochronous real- time data transfer. It was developed in the late 1. Apple, which called it Fire. 4 interface is also known by the brand i. LINK (Sony), and Lynx (Texas Instruments). It has a serial number, 5,781,916 and on the inside by the film spool area an inked mark (Omega Symbol, or possibly a horseshoe) X668H (or possibly II. Feb 08, 2009 Best Answer: It first went on sale in 1976 and was available up to the mid-1980's. A professional photography store (ie not circuit city) can establish the exact year of manufacture of your example using the serial number. In a few years, the EOS 650 will take Canon's flash system decades ahead of the AE-1 Program. For the AE-1 Program, you're stuck with 1/60 sync speed, and no TTL control. Best Answer: It first went on sale in 1976 and was available up to the mid-1980's. A professional photography store (ie not circuit city) can establish the exact year of manufacture of your example using the serial number.
The Canon AE-1 is a 35 mm single-lens reflex (SLR) film camera for use with interchangeable lenses. It was manufactured by Canon Camera K. K. (today Canon Incorporated) in Japan from April 1976 to 1984. It uses an electronically controlled, electromagnet horizontal cloth focal plane shutter, with a speed range of 2 to 1/1000 second plus Bulb and flashX-sync of 1/60th second. The camera body is 87 mm tall, 141 mm wide, and 48 mm deep; it weighs 590 g. Most are black with chrome trim, but some are all black.
The AE-1 is a historically significant SLR, both because it was the first microprocessor-equipped SLR and because of its sales, backed by a major advertising campaign, the AE-1 sold over one million units,:66 which made it an unprecedented success in the SLR market.
- 2Design history
The AE-1 has a Canon FD breech-lock lens mount and accepts any FD or New FD (FDn) lens. It is not compatible with Canon's later Canon EF lens mount, though adapters made by independent manufacturers can be found. The camera will also accept Canon's earlier FL-mount lenses through the use of stop-down metering. Original FD lenses, introduced in 1971, did not rotate in the mounting process; instead, a locking ring at the base was turned to attach the lens. This was often criticized as being slower than the bayonet mounts of competing cameras.:201 The counter argument, though, was that as the lens/body mating surfaces did not rotate, there was no wear that could affect the critical distance from lens to film plane. In 1979, Canon introduced the New FD series of lenses that rotate the whole outer lens barrel to lock. The inner lens barrel remained stationary, and thus the signal levers and pins still did not rotate. During the late 1970s, there were over 50 Canon FD lenses available for purchase. They ranged from a Fisheye FD 15 mm f/2.8 SSC to a FD 800 mm f/5.6 SSC, plus special purpose lenses such as a 7.5mm circular fisheye and a 35 mm tilt and shift lens.
Accessories for the AE-1 included the Canon Winder A (motorized single frame film advance up to 2 frames per second), the Canon Databack A (sequential numbering or date stamping on the film), and the Canon Speedlite 155A (guide number 56/17 (feet/meters) at ASA 100) and Canon Speedlite 177A (guide number 83/25 (feet/meters) at ASA 100) electronic flashes. The later Power winder A2 was also compatible, but the Motor Drive MA was not.
The AE-1 is a battery-powered (one 4LR44 or 4SR44) microprocessor-controlled manual focus SLR. It supports either manual exposure control or shutter priority auto exposure. The exposure control system consists of a needle pointing along a vertical f-stop scale on the right side of the viewfinder to indicate the readings of the built-in light meter (center-weighted with a silicon photocell). The viewfinder used by the AE-1 is Canon's standard split image rangefinder with microprism collar focusing aids.
The AE-1 was the first in what became a complete overhaul of Canon's line of SLRs. The 1970s and 1980s were an era of intense competition between the major Japanese SLR brands: Canon, Nikon, Minolta, Pentax and Olympus. Between 1975 and 1985, there was a dramatic departure from heavy all-metal manual mechanical camera bodies to much more compact bodies with integrated circuit (IC) electronic automation. In addition, due to rapid advances in electronics, the brands leap-frogged each other with successively more automated models.
Although Canon Camera K. K. had been making quality 35 mm cameras for decades, it had always been overshadowed by their rival Nippon Kokagu K. K. and their Nikon cameras. While Canons easily led in the amateur compact fixed-lens rangefinder market (where Nikons did not compete), Canon SLRs had far less cachet than Nikon SLRs. Nikon, with its solid reputation for quality of material and workmanship, held a stranglehold on the prestigious professional SLR market that competitors could not break.
The AE-1 was the vanguard of the landmark Canon amateur level A-series SLRs and led Canon's charge into the emerging electronically controlled SLR market. The other members of the A-series were the AT-1 (released 1977), A-1 (1978), AV-1 (1979), AE-1 Program (1981) and AL-1 (1982). They all used the same compact aluminum alloy chassis, but with different feature levels and outer cosmetic plastic top panel. By sharing most major components, including an inexpensive horizontal cloth-curtain shutter, viewfinder information display, and autoflash control, Canon further reduced costs and could undercut the price of the more expensive SLRs then on the market.
In keeping with its cost-cutting philosophy, Canon designed the AE-1 to use a significant amount of structural plastic for a lighter and cheaper camera at the expense of being less impact resistant. Canon went to great effort to disguise the use of plastic - the injection-molded acrylonitrile-butadiene-styrene (ABS) for the top panel finished with either satin chrome (or black enameled) to give the look and feel of metal. The bottom plate were made of brass and then finished with satin chrome (or black enameled). Extensive use of electronics also allowed simpler modular internal construction instead of mechanical linkages. Five major and 25 minor internal modules reduced the individual parts count by over 300. Modular construction, in turn, allowed automated production lines in order to reduce cost. Unfortunately, cost concerns also resulted in the use of plastic in some of the moving/operating mechanisms.
The AE-1 was never designed to be a professional camera. However, it was made to have relatively straightforward controls and automatic aperture for newcomers, with various manual controls and system accessories to appeal to more experienced photographers. The AE-1 was the first SLR purchased by millions of amateur photographers, persuaded by its feature list and low price.
In many ways, the AE-1 represented the confluence of two streams of Canon camera development. The first generation electronically controlled 35 mm SLR Canon EF (1973) merged with the final generation rangefinder Canonet G-III QL17 (1972). After decades of chasing Nikon for Japanese optical supremacy, Canon finally hit upon a formula for success: high technology for ease of use, cheaper internal parts and electronics for lower price, and heavy advertising to get the message out. Despite outcries from traditionalist photographers who complained about an “excess” of automation ruining the art of photography, automation proved to be the only way to entice the amateur photographer.
The AE-1 had only one pointer needle used to indicate the light meter recommended f-stop, and neither a follower needle to indicate the actual lens set f-stop, nor plus/minus indicators for over/underexposure. The shutter-priority system of the AE-1 was more suited to sports action than to preserving depth-of-field, yet the 1/1000 s top speed of its horizontally traveling shutter limited its use for such activities. The battery door design was subject to frequent breakage, and over time owners have reported instances of shutter and mechanical gremlins, including mirror linkage wear (the 'Canon squeal'). Canon's eventual abandonment of the FD lens mount for the EOS autofocus design also had an effect on prices for the AE-1 on the used market.
Canon AE-1 in detail, with Canon FD 35-70mm
Canon AE-1 in detail
Canon AE-1 with lens cap of the 1980 Olympic Winter Games
Black model with 50 mm f/1.8
From the top showing controls
From the bottom with the black rewind button with the small white dot on the bottom left
From the back
From the back with the film cover open
With a flash.
Apple sound designer Jim Reekes recorded the screen snapshot sound used on Macintosh computers and iPhones from the AE-1 he used as a high school student.
- ^ abShell, Bob, Compendium, Handbook of the Canon System. East Sussex, England: Hove Books, 1994.
- ^Canon AE-1 Owner's Manual. p. 24.
- ^Pettitt, Jeniece (2018-03-24). 'Meet the man who created Apple's most iconic sounds: Sosumi, the camera click and the start-up chord'. CNBC. Retrieved 2018-03-24.
|Wikimedia Commons has media related to Canon AE-1.|
- The Canon AE-1 - Index Page. Retrieved December 26, 2015.
- Canon AE-1 Film Camera on Porter Electronics (Website where they are still available)
- Canon AE-1 at Canon Classics
Canon F seriesF series with pellicle mirrorCanon T seriesCanon A series
See also:Early Canon film SLR cameras Canon EOS film cameras Canon EOS digital cameras
How old is your Canon lens? With either the lens' serial number or date code, that question can be answered.
Canon has been transitioning to a 10-digit lens serial number (starting in 2008 with the Canon EF-S 18-200mm f/3.5-5.6 IS Lens) and ending the inclusion of a separate manufacturing date code. While date codes and the shorter serial number are still found on some lenses, this inclusion will likely end completely. We loved the date code because it made aging a lens easy. However, now we can age a lens based on the serial number alone.
For information on determining the age of a pre-10-digit serial number lens, see the section on interpreting the old date code below.
Determine the age of a Canon lens based on the 10-digit serial number
To age a Canon lens using the 10-digital serial number, we dissect the serial number as follows:
DD C SSSSSSS
Serial Number Lookup
The DD is the key to the date the lens was manufactured - the production date code. The Canon lens date code chart is shown below.
These dates should be viewed as approximations and should be used for your amusement as the estimates are not guaranteed correct. Please send any discrepancies you find. Note that Canon EOS DSLR camera body serial numbers, at least for 2013, do not follow this chart. Also please note that future dates shown in the table are predictions/expectations.
Kumpulan Serial Number Idm
The third digit in the serial number, C, may be a charge/batch type of number. Canon has been using this number to indicate lenses needing specific service-related updates such as firmware.
The remaining digits in the serial number, SSSSSSS, are a uniquely-identifying number of the lens – likely within the production month.
Please note that, while the overall chart is holding out nicely with the lenses we've checked (including several late-2014 models), it is a work-in-process. In part, the numbers might be shifted by a month or so. Again, please send us any discrepancies you find.
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Special thanks go out to friend-of-the-site Norbert for his role in the development of this chart.
To determine the age of a pre-10-digit serial number Canon lens bearing a date code
Canon Ae 1 Serial Number Years Bankruptcy Affects
Until phasing out the practice starting in 2008, Canon included a date code beside the rear lens element of many (but not all) lenses (note that some 2012-manufactured lenses retain the date code). The date code (as seen below) is in the form of 'UR0902'. This code is also present on some other Canon products including camera bodies.
The first letter, 'U', indicates that the lens was made in Canon's Utsunomiya, Japan factory. Prior to 1986, this letter is moved to the last position of the date code.
U = Utsunomiya, Japan
F = Fukushima, Japan
O = Oita, Japan
The second letter, 'R', is a year code that indicates the year of manufacture. Canon increments this letter each year starting with A in 1986 and prior to that, A in 1960 without the leading factory code. Here is a table to make things simple:
A = 2012, 1986, 1960
B = 2013, 1987, 1961
C = 2014, 1988, 1962
D = 2015, 1989, 1963
E = 2016, 1990, 1964
F = 2017, 1991, 1965
G = 2018, 1992, 1966
H = 2019, 1993, 1967
I = 1994, 1968
J = 1995, 1969
K = 1996, 1970
L = 1997, 1971
M = 1998, 1972
N = 1999, 1973
O = 2000, 1974
P = 2001, 1975
Q = 2002, 1976
R = 2003, 1977
S = 2004, 1978
T = 2005, 1979
U = 2006, 1980
V = 2007, 1981
W = 2008, 1982
X = 2009, 1983
Y = 2010, 1984
Z = 2011, 1985
The first two numbers, '09', is the month number the lens was manufactured in. Month 02 is February, month 11 = November. The leading zero of the month code is sometimes omitted.
The next two numbers, '02', are meaningless in determining how old a Canon lens is. This is a Canon internal code (that is occasionally omitted).
You now know the manufacture date for your lens - But - You cannot know how long the lens was in inventory, in shipping transit and on a shelf until it was originally purchased (without having the original receipt or a reputable person accurately informing you).
The Canon lens date code in the sample picture indicates that this Canon EF 24-70mm f/2.8L Lens (I know the lens model because I took the picture - not from the date code) was made in Utsunomiya, Japan in September 2003.