Guide to Minolta Cameras or What They Didnt Tell Us in Their Docs

Compiled by Petr Holub

2002 2003
This guide is based on experiences of people around the Internet mostly from Minolta Yahoo group. This guide is dedicated to this group in hope that it could help to bring back discussions to the photography instead of lost expectations about D-SLRs and similar things.
I WOULD LIKE TO THANK TO all the people that contributed to this guide in any way and all the people that participate in Minolta Yahoo group discussions. P. H.

Contents

I would like to thank to. Contents List of Tables List of Figures 1 Foreword 2 Information on bodies and lenses 2.1 Minolta AF bodies. 2.1.1 Overview of Minolta AF bodies. 2.1.2 Batteries for Minolta equipment. 2.2 Minolta Dynax/Maxxum 600si (507si, 650si). 2.2.1 Beyond the Owners Manual: Tips and Tricks 2.3 Dynax/Maxxum Lens Chart. 2.3.1 G Series. 2.3.2 D-Series. 2.3.3 RS = Re-Styled Lenses. 2.3.4 Maxxum Lens Glossary. i ii iv v 27 27
3 Flash-less photography 3.1 Photographing with M42 / Minolta AF lens reduction. 3.1.1 Comment on M42. 3.2 More on photographing with M42 / Minolta AF lens reduction 3.3 Alternative testing of vignetting. 3.4 Setting Minolta DiMAGE Scan Dual with VueScan. 3.4.1 Scanning Fuji Provia. 3.5 Minolta mounts. 3.6 Disabling the lens mount check. 3.7 Remote release cord. 3.7.1 Building your own Remote Cord (v. 1). 3.7.2 Building your own Remote Cord (v. 2). 3.7.3 Building your own Remote Cord (v. 3). 4 Flash photography 4.1 FlashAmbient Control 4.1.1 P Mode Flash. 4.1.2 A Mode Flash. 4.1.3 S Mode Flash. 4.1.4 M Mode Flash 4.1.5 Fill Flash.

CONTENTS

4.2 4.3
4.1.6 Slow-Shutter Sync. 4.1.7 Other comment. Short summary on using ll-in ash. Short summary on using wireless ash
A Flash-less experiments A.1 INI les for Minolta DiMAGE Scan Dual with VueScan A.1.1 Settings for Fuji Provia 100F. A.1.2 Settings for Konica Centuria 100. A.1.3 Settings for Konica Centuria 200. A.1.4 Settings for Konica Centuria 400. A.1.5 Settings for Konica VX 100. A.1.6 Settings for Fuji Superia 1600. A.2 Reciprocity Corrections Brooks Institute. B Flash experiments B.1 Wireless ash experiment. B.1.1 Experiment setup. B.1.2 Experiment results and discussion. B.2 Flash Test ADI/Pre-Flash/Bounce/Wireless.
Bibliography Literature about Minolta and Minolta-compatible equipment Web links about Minolta and Minolta-compatible equipment Camera bodies. Lens. Flash. Interesting books on photography.

List of Tables

2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 3.1 3.2 4.1 4.2 Minolta AF Bodies in Chronological Release Date Order Batteries for Minolta equipment. Fixed focal length lenses. Zoom lenses. Macro lenses. Teleconvertors. xi zoom lenses. G lenses (I). G lenses (II). G lenses (III). D lenses. 45
VueScan parameters for scanning Fuji Provia using Minolta Scan Dual. Disabling the lens mount check. Flashambient compensations performed by camera. Changing Program Flash Control with the Custom xi card.
A.1 Reciprocity Corrections Brooks Institute (1/2). A.2 Reciprocity Corrections Brooks Institute (2/2). B.1 B.2 B.3 B.4 B.5 B.6 Wireless ash experiment setup. Wireless ash experiment: observations of camera and ashes behavior Wireless ash experiment: results. Flash experiment: 2485 lens. Flash experiment: 2880D lens. Flash experiment: Wireless.

List of Figures

3.1 3.2 Results of M42 adapter tests (1). Results of M42 adapter tests (2). 40
B.1 Wireless ash experiment setup.

Chapter 1

Foreword
As noticed by many photographers around the world Minolta produces high quality products for photographers. What they lack are people capable of writing documentation of reasonable quality. After hearing many discussions like: My camera of this brand is much better that your of that brand! and after seeing many master-pieces of photography shot with some of old all-manual cameras the point I feel as the most important is to get acquainted with the camera you already have (unless its really crippled) and to know exactly what it will do under (almost) any situation and how to make it do what you need and want. I hope that this guide will help us at least a bit to have our Minolta cameras working in this manner. Heres the list of people whose contributions has been included in this guide: Chingfeng Au (cfau1974@hotmail.com)

Phil Brandon (??) Chuck Cole cncole@earthlink.net) CyberSimian (CyberSimian@BTinternet.com) Gary Friedman (gary@friedmanarchives.com) Petr Holub (hopet@ics.muni.cz) Csaba JOZSA (??) Scott Kimball (SCOTTK@MAINE.maine.edu) Peter Blaise Monahon (peterblaise@yahoo.com) Dario Piantanida (ario@logic.it) Marat R. Saulin (??) Magnus Wedberg (mw@9000.org)

2.2. MINOLTA DYNAX/MAXXUM 600SI (507SI, 650SI)
1 AA 1 AA and 1 PXPXMN10LPX1.35 V mercury cell: PX1 or RM1
Notes: PX625 and other PX- type button batteries, as used in many older manual focus SLRs, contain mercury and slowly being outlawed around the world for obvious environmental reasons. A possible solution is the air cell, made by Wein in the USA. Ask for WeinCell MRB625 (to replace a PX625), MRB675 (PX675) or MRB400 (PX400). Some discontinued AF bodies use a separate internal button battery to provide memory backup for settings, etc. Although they last a long time, they do eventually need replacing. The individual requirements of these particualr bodies are not listed in the table above, but I would be glad to add them. Avoid the cheap types of button cells made for virtual pets or market-stall watches. They are not the same as those intended for photographic use: their output voltage varies underload and this will lead to incorrect meter readings.
2.2 Minolta Dynax/Maxxum 600si (507si, 650si)
2.2.1 Beyond the Owners Manual: Tips and Tricks
[Author(s): Peter Blaise Monahon, taken from [12].]
LCD Displays Check: On the Minolta 507si, 600si, and 650si camera, to check the valid functioning of every LCD Liquid Crystal Display element: 1. Set the Drive Mode Selector to Multiple Exposure, 2. Press and hold the ISO Film Speed Button while opening and closing the battery door. All displays appear in the Body and Viewnder Data Panels. 3. Open and close the battery door to return the displays to normal. Auto Exposure Lock: Only the AEL Auto Exposure Lock button will lock exposure when the Minolta 507si, 600si, and 650si camera is set for Center-Weighted Average Metering Mode or Spot Metering Mode. Pressing the AEL Auto Exposure Lock Button locks the exposure settings and switches the meter to Spot Metering Mode. The AEL Auto Exposure Lock control has no function in M Manual Exposure Mode. You have three options for locking and holding the desired exposure value on the Minolta 507si, 600si, and 650si camera: 1. Using M Manual Exposure Mode, once set, the camera auto functions will not override your Aperture and Shutter Speed selections.
. continued from previous page Body or Meter TC-1 Digital Cameras Dimge V RD-175 Exposure Meters Flashmeter V, Autometer IV F, Spotmeter F Flashmeter IV Autometer IIIF, III and II, Spotmeter M Colormeter II, Flashmeter II Flashmeter III Booster II Viewmeter 9
Batteries Used CR123A AA 2CR5
2. Using 14 Segment Honeycomb Metering Mode and an attached automatic lens in AF Auto Focus mode, you can lock the exposure reading in P Program Exposure Mode, A Aperture priority Exposure Mode, or in S Shutter Speed Priority Exposure Mode by pressing the Shutter Release Button part way down. 3. Center-Weighted Metering Mode and Spot Metering Mode readings can be locked using only a third method pressing the AEL Auto Exposure Lock Button, marked AEL to the right of the eyepiece. You can use the AEL Auto Exposure Lock Button to lock the exposure setting in any of the Minolta 507si, 600si, and 650si cameras three metering systems. AEL Auto Exposure Lock is especially useful in the automatic exposure modes, Program, A Aperture priority, or S Shutter priority, when you want to take a meter reading from one part of your chosen photographic subject scene and then focus on another part. You can do this by focusing, and possibly zooming in, on the detail you want to meter and then pressing and holding the AEL button. [AEL] appears in the Viewnder Data Panel. You must maintain pressure on the AEL button until you release the shutter to the picture. Then aim the focusing target at your subject and press the shutter release part way down to lock focus. You can then reframe and adjust the lens zoom if necessary to get the image you want. Then press the shutter release all the way down and make your exposure. By Minolta factory default, the AEL Auto Exposure Lock feature is effective only while you hold it down. To reset the AEL Auto Exposure Lock feature to toggle AEL on at rst press, off at second press hold ISO Button switch and tap AEL Auto Exposure Lock Button. Front and Rear Control Dial Rules: Generally, both front and rear control dials increase the numeric value being controlled when rotated to the right, and decrease the numeric value being controlled when rotated to the left. The Front and Rear dials Control Dials on the Minolta 507si, 600si, and 650si camera can be used interchangeably to set camera body Shutter speed and an attached automatic lens Aperture in all Exposure Modes and operations except M Manual Exposure Mode. In M Manual Exposure Mode, the Front Control Dial sets the camera body Shutter Speed and the Rear Control Dial sets an attached automatic lens Aperture. For guidance from the Metering system, rotate the Control Dials in the direction of the arrows in the Viewnder Data Panel to obtain a Shutter Speed and attached automatic lens Aperture to correspond with the camera Metering systems assessment of your chosen photographic subject. Viewnder Long Eye Relief: The viewnder image and all displays can be seen in their entirety from a distance of 0.9 inch (22.7 mm), appropriate for photographers wearing glasses. Setting Viewnder Diopter: You can easily set the diopter correction without a lens on the camera. Point it toward a bright light source and turn the small diopter adjustment dial (next to the eyepiece) until the brackets etched on the viewing screen appear sharpest. The dial sets correction factors between and diopters. High Shutter Speed Flash: The Minolta 5400HS accessory ash unit emits a short pre-ash in HSS High Speed Synchronization Mode, which res when the cameras Shutter Release Button is depressed half way. This allows the camera metering system to measure the subjects illumination at this instant and select a ash intensity and Shutter Speed for balanced illumination of the subject and the background. If, while in P Program or Aperture priority Exposure Mode, a Flash to Shutter synchronization speed faster than second is called for, the system automatically shifts into High Speed Synchronization Mode. High Speed Synchronization Mode Flash differs from conventional ash by ring a series of highfrequency pulses at 50 k Hz that resemble a constant light source. Even illumination across the lm frame is assured during the entire time the cameras shutter curtains are open to record the image.

2.3. DYNAX/MAXXUM LENS CHART
blur a distracting background while keeping both the subjects nose and ears in focus. In selecting an aperture-shutter speed combination, the system considers such factors as focal length, subject reectance and contrast, subject distance and type, and the reproduction ratio, or degree of magnication. The system then selects an appropriate combination of aperture and shutter speed for the situation, however it will try to maintain a hand-holdable shutter speed, such as second shutter speed with a 50 mm lens, to reduce the risk of blur from hand held camera shake. To disable AF Auto Focus lens to Shutter interlock, hold the ISO Button and the Lens Mount Button while turning the camera ON. Automatic Exposure Bracketing: Automatic Exposure Bracketing drive mode exposed 3 consecutive images, one at normal EV Exposure Value, plus one at stop EV Exposure Value and then one at stop EV Exposure Value, which is a rather narrow exposure range best suited for the sensitivity and dynamic range of slide lm. For other lm, you can use manual Exposure Compensation control, perhaps taking two additional frames, one at +1 or greater and the other at the +2 or greater setting. Multiple Multiple Exposures: Although you can pre-set a maximum of nine exposures on one frame of lm, you can actually achieve any number. If you want to shoot 16, for example, merely reset the Multiple Exposure feature to 8 after shooting the rst 8. Body Depth: The depth of the Minolta lens mount to lm plane is 44.7mm. Setting DX Film For More Than 24 or 36 Frames: The Minolta 507si, 600si and 650si camera will rewind the lm immediately after the last frame of 24 or 36 exposures as sensed by the DX coding on the lm can. The selected Aperture and Shutter Speed values will disappear immediately after the last exposure when rewind begins preventing you from viewing and recording these values. To wind to the true end of your lm and expose additional available frames, scrape the paint off the lm can DX sections 8, 9 and 10. The camera will then rewind only when lm advance is not possible due to reaching the true end of the lm, or if you manually press the Rewind Button. This permits you to manually rewind after recording your Aperture and Shutter Settings after the nal frame, either 24 or 36, or to expose an additional frame. However, be aware that rewind will begin immediately after the nal exposure, so watch for and record you nal frame Aperture and Shutter Speed before or during the nal exposure.
2.3 Dynax/Maxxum Lens Chart
[Author(s): Minolta Corp.]
Used abbreviations: * Discontinued RS Restyled HS High Speed For detailed explanation see section 2.3.3 (page 14).
Table 2.3: Fixed focal length lenses Lens Elements / Groups 11/8 10/9 10/9 8/8 8/8 9/9 5/5 10/8 10/8 7/6 7/6 7/6 7/6 6/5 6/5 7/6 7/6 Angle Of View

1/7.14

integral

1/6.25

3.28 2.85

1/6.25 1/4

55 mm 72 mm
29/16 31/4 31/8 315/16 51/4 51/4 93/8 93/8 811/16

3.3 2.62

1/7.7 1/5.88

55 mm 55 mm

25/213/16 31/16
*85mm f/1.4 7/6 G [RS] *100mm f/2 7/6 100mm f/2.8 7/7 Soft *135mm f/2.8 5/7 135mm f/2.8 8/6 [T4.5] STF *200mm f/2.8 8/7 APO 200mm f/2.8 8/7 APO G [HS] *300mm f/2.8 11/9 APO 300mm f/2.8 11/9 APO G [HS] 300mm f/4 9/7 APO G continued on next page.

1/7.81

1/6.66

1.5 1.5

1/6.66 1/6.66

49 mm 49 mm

25/8 25/8

49 mm 55 mm

29/16 29/16

1/5.88 1/5.88

115/16 115/16 11/2 11/2 19/16 19/16 12/3 213/16 213/16

1/7.7 1/7.7 1/5

55 mm 49 mm 55 mm
25/8 115/16 29/16 111/16 29/3

1/6.5 1/6.5

1/7.7 1/7.7

72 mm 72 mm

31/6 31/6
16mm f/2.8 Fisheye *20mm f/2.8 20mm f/2.8 [RS] *24mm f/2.8 24mm f/2.8 [RS] 28mm f/2 28mm f/2.8 *35mm f/1.4 G 35mm f/1.4 G [RS] *35mm f/2 35mm f/2 [RS] *50mm f/1.4 50mm f/1.4 [RS] *50mm f/1.7 *50mm f/1.7 [RS] *50mm f/1.4 [RS] *85mm f/1.4

215/16

Min. Focus [ft].7

Max. Magnication 1/6.6

Filter (dia.)
Dimensions (dia. length) [in]

Weight [oz]

25/8 201/8 21/8 13/4 13/4
141/10 19/16 19/16 101/16 61/2 169/16 179/16 87/16 81/2 85/16 85/6 85/16 193/8 193/8 1615/16 151/2 127/8 253/4 177/8 177/8 871/2 871/2 493/4
Table 2.4: Zoom lenses Lens Elements / Groups Angle Of View Min. Focus [ft].98

27/8 31/8 27/8 31/8

2.6(.8)

1/8.3(1/4)

211/16 33/8 211/16 33/8

2.6(1.2) 1.3

1/9(1/4)

1/5.88

1/5.55
211/16 23/8 211/16 23/8 27/8 27/8 27/8 27/8 213/16 211/16 31/4 49/16 211/16 21/16 29/16 211/16 27/16 29/16

1/12.3

1735mm 15/12 f/3.5 G 2035mm 13/11 f/3.54.5 *2450mm 7/7 f/4 2450mm 7/7 f/4[RS] *2485mm 14/12 f/3.44.5 2485mm 14/12 f/3.44.5[RS] 24105mm 12/11 f/3.44.5[D] 2870mm 16/11 f/2.8 G *2880mm 7/7 f/45.6 MZ 2880mm 10/10 f/3.55.6 II 2880mm 8/7 f/3.55.6 (D) (S) *2885mm 13/10 f/3.54.5 *2885mm 13/10 f/3.54.5 [RS] *28105mm 13/10 f/3.54.5 MZ 28105mm 13/10 f/3.54.5[RS] continued on next page.

104 63

Max. Magnication

10/9 10/9

1/9 1/9

integral integral

65/8 65/8
400mm f/4.5 APO G 500mm f/8 Mirror Reex *600mm f/4 600mm f/4 G [HS]
. continued from previous page Lens EleAngle ments / Of Groups View

33/8 45/8 33/4 (W H D)

mm (3X) mm (1X)

1 (3X) 1.6 (1X)

.75 1.2 1.2

1/2 1/1 1/1

55 mm 55 mm 55 mm

25/8 23/16 213/16 37/8 213/16 37/8 37/8 72/3
*50mm f/2.8 50mm f/2.8 [RS] 50mm f/3.5 *100mm f/2.8 100mm f/2.8 [RS] 100mm f/2.8 (D) 200mm f/4 APO G Zoom f/1.7 2.8

211/16 25/16 23/4 23/8

Min. Focus [ft].65.65

Max. Magnication 1/1 1/1

31/8 57/8
100300mm f/4.55.6 APO (D) 100400mm f/4.56.7 APO
Dimensions (dia. length) [in] 27/8 4
105/16 117/185/16 185/403/16 3813/16
. continued from previous page Lens Elements / Dimensions (dia. Groups length) [in]
Compatibility 300 f/4 APO G 400 f/4.5 APO G 600 f/4 APO G 200 f/2.8 APO G 300 f/2.8 APO G 300 f/4 APO G 400 f/4.5 APO G 600 f/4 APO G 200 f/2.8 APO G 300 f/2.8 APO G 300 f/4 APO G 400 f/4.5 APO G 600 f/4 APO G
Manual focus only Table 2.7: xi zoom lenses Lens Elements / Groups Elements/ Groups 8/8 Angle Of View Min. Focus [ft] Min. Focus (ft) 1.6

Angle of View

Sold with xi cameras. Not true xi lens as zoom drive was camera AF motor. No motor in lens.

2.3.1 G Series

G-series lenses are Minoltas high-performance class optics. They have the best specications, feature special advanced technology, and offer the best image quality of all Minolta lenses. G-series lenses are designed to meet the high expectations of the most demanding professional. The quality of the image they produce is among the nest in the industry. Each G-series lens incorporates one or more of the following features: circular aperture, double oating and oating-focusing systems, Internal focus, Anomalous Dispersion (AD) glass, aspheric elements, and
215/16 311/16 27/8 33/16 215/16 315/16
1.6 (f/28) 1.6 (f/35) 4.9

213/16 25/8 27/8 3

*3580mm f/45.6 Power Zoom *2880mm f/45.6 *28105mm f/3.54.5 *35200mm f/4.55.6 *80200mm f/4.55.6 *100300mm f/4.55.6

II APO [HS]

111/16
Dimensions (dia. length) [in] Dimensions (in) (dia. length) 25/8 21/8

Weight (oz)

911/16 157/8 175/8 109/16 151/2
focus-hold buttons. Minolta will continue to expand its G-series as the needs and demands of professional photographers grow. Table 2.8: G lenses (I) AF 1735mm f/3.5 APO Circular Aperture Floating focus Internal Focus Anomalous Dispersion Glass Asperhic Elements Focus Hold Button Yes No No Yes Yes Yes AF 35mm f/1.4 Yes Yes No No Yes No AF 85mm f/1.4 (D) Yes Yes No No No Yes AF 2870mm f/2.8 Yes Yes No No Yes Yes AF 80200mm f/2.8 APO Yes No No Yes No Yes

Table 2.9: G lenses (II) AF 200mm f/2.8 APO No No Yes Yes No Yes AF Macro 200mm f/4 APO Yes No Yes Yes No Yes AF 300mm f/2.8 APO No No Yes Yes No Yes AF 300mm f/4 APO Yes No Yes Yes No Yes AF 400mm f/4.5 APO Yes No Yes Yes No Yes AF 600mm f/4 APO No No Yes Yes No Yes
Circular Aperture Floating focus Internal Focus Anomalous Dispersion Glass Asperhic Elements Focus Hold Button
Table 2.10: G lenses (III) Lens Elements / Groups Angle Of View Min. Focus [ft] 1 2.30 4.9 8.2 8.2 9.9
23/8 51/4 51/16 93/8 39/16 811/16 41/4 103/4
35mm f/1.4 G 10/8 85mm f/1.4 G 7/6 (D) 200mm f/4 13/8 MACRO APO G 200mm f/2.8 8/7 APO G 300mm f/2.8 11/9 APO G 300mm f/4 9/7 APO G 400mm f/4.5 9/7 APO G continued on next page.

f/22 f/22

Dimensions (dia. length) [in] 29/31/16 213/16 31/8 72/3

169/16 193/4 403/16

177/8 871/2 493/4 67

2.3.2 D-Series

D-Series lenses include new distance-encoding device which enables improved calculation for ash exposure with Maxxum 5 and 7 cameras when used with 3600HS D and 5600HS D ashes. Table 2.11: D lenses Lens Elements / Groups 12/11 8/7 Angle Of View Min. Focus [ft] 1.6
Manual focus ring does not rotate during AF
2.3.3 RS = Re-Styled Lenses
Fixed Focal Length Lenses AF 20mm f/2.8 RS Rubber focusing grip. Circular aperture up to f/5.6. Revised Foot/Meter focus scale in all white paint. The new lens is optically the same as the original. AF 24mm f/2.8 RS Rubber focusing grip. ABS plastic focusing barrel. Circular aperture up to f/5.6. Revised Foot/Meter focus scale in all white paint. The new lens is optically the same as the original. AF 35mm f/1.4 RS AF lock/lens function button on lens. Rubber focusing grip. Circular aperture up to

31/5 213/16 213/16 37/8

213/16 413/16 4
24105mm f/3.54.5 (D) 2880mm f/3.55.6 (D) (S) 75300mm f/4.55.6 (D) (S) 100300mm f/4.55.6 APO (D) 85mm f/1.4 G (D) 100mm f/2.8 Macro (D)
Dimensions (dia. length) [in] 25/8 25/8 27/16 29/16
1735mm f/3.5G 2870mm f/2.8 G 80200mm f/2.8 APO G

600mm f/4 G

Dimensions (dia. length) [in] 65/8 1711/16 31/4 31/5 31/4 49/16 31/2 69/16

194 211/16 267/16 451/8

13 15/16 611/16

171/10

APO Tele Converter

The converters were redesigned with new gear and IC ROMs. External changes include TYPE II designation. It is OK to use old-style converters on new lenses. Using a new converter on an old, nonupgraded lens will cause slower focusing Warning: THE APO CONVERTERS CANNOT BE USED WITH THE 80-200MM APO LENSES. If mounted together, the front element of the converter will contact back element of the lens and damage both.
2.3.4 Maxxum Lens Glossary
Circular Aperture Defocused background highlights take the shape of the diaphragm in wide-aperture portrait shots. The 9-blade apertures found in some of the G-lenses is specially designed to provide a circular opening at widest apertures (small f-numbers). A circular aperture produces softer, more natural-looking backgrounds at wider apertures than a lens having a standard 5-, 6-, 7-, or 9-bladed aperture. Floating Optical Design Rather than moving all lens groups as a single unit, designated optical groups in some of the G-lenses move independently as the lens focuses. This oating movement provides an extremely at image at the lm plane thus assuring corner-to-corner sharpness. It also provides a high degree of control over sagittal are, and eliminates coma, an aberration that causes off-axis object points to appear as short comet-like images on lm. Reducing sagittal are and coma provides an extremely sharp, high-contrast image which more effectively separates the subject from its background at large apertures. Internal Focusing The AF 200mm, 300mm, and 600mm APOs internal focusing system moves lighter internal lens elements to focus the image instead of the larger front elements used in conventional systems. This along with a high-ratio lens drive provides quick, accurate focusing of fast moving subjects. In addition, a focus limiter permits selecting a focusing range for even faster response. Anomalous Dispersion (AD) Glass Different wavelengths of light come into focus at different planes. This effect is know as Chromatic aberration and can cause a rainbow halo around points of light and reduced sharpness. Standard achromatic telephotos are corrected to bring the red and blue components into focus at the lm plane. The Anomalous Dispersion (AD) glass, used G-Series APO telephotos and zooms as well as the 100-300mm APO and 100-400mm APO virtually eliminates the effects of lateral and longitudinal chromatic aberration, providing increased sharpness and extremely accurate color rendition. Aspheric Design Different than the smooth continuous arc of a normal lens element surface, the curvature of an aspherical lens element changes shape across its surface. This irregular surface helps to correct spherical aberration and coma, an aberration that causes off-axis object points to appear as short comet-like images on lm. It also reduces sagittal are. The inclusion of aspheric elements in a lens design enables designers to reduce the amount of elements in the design. This in turn reduces the amount of are producing surfaces, two per element, which increases the contrast and snap to the nal image. The reduction in elements also makes the lens smaller and lighter. Focus-Hold Button When pressed, it locks focus or can be used to select spot focus or continuous AF (with Custom Function Card or Customize Function Card xi). Distance Encoding Distance encoding with new and revised D lenses provides rened multi-segment metering for manual focus operation and depth-of-eld display on Navigation Display with the Maxxum 7 as well as ADI ash functions when the new 5600(D) and 3600(D) ashes. Integral Filters Because a front-mounted lter would be expensive and would cause excessive are, the 300mm and 600mm Apo lenses have a built-in lter holder. Six lters are provided: NORMAL (clear), Y52 (yellow), O56 (orange), R60 (red), 1B (skylight) and ND4X (2-stop neutral density). Achromatic Coating Minoltas Achromatic, multi-layer coating provides remarkably accurate color rendition and excellent contrast by virtually eliminating reections between lens elements.

3.7. REMOTE RELEASE CORD

. continued from previous page Camera Procedure 505si Super Press and hold Self Timer and SPOT buttons and move power switch from LOCK to ON. XTsi Press and hold the Selftimer-Drive Mode button and Spot/AE button while sliding the Main Switch to ON (OFF appears in LCD panel). 600si Press and hold the LENS RELEASE button and FILM SPEED button with the lens removed and move the power switch from LOCK to ON. (OFF appears in LCD panel) 700si Press and hold SPOT and CARD buttons and move power switch from LOCK to ON. 800si Press and hold SUBJECT PROGRAM and AEL buttons and move power switch from LOCK to ON.(OFF appears in LCD panel) Vectis S-1 Press ON/OFF to turn camera ON. Open door that covers hidden buttons. Press the Drive Mode button (fathest on the left) and the MODE button together. ON will appear in the LCD panel. Press the SEL button (second from right in hidden buttons). OFF Will appear in the LCD panel. Vectis S-100 Subject Program and +/-, then press any other button to conrm; displays on in display even with adapted manual lens attached. RD-175 Press and hold DRIVE/SELFTIMER and AV buttons and move power switch from LOCK to ON. (ON appears in LCD panel)

3.7 Remote release cord

3.7.1 Building your own Remote Cord (v. 1)
[Author(s): Unknown, taken from Minolta AF FAQ [4]; Csaba JOZSA.]
The meaning of each pin is : Back of the camera o C o F o S Front of the camera
C for Common F for Focus S for Shutter release. The way to activate focus is to connect C and F, and for the release, C and S. But there is still a problem: The question of the switch is not so trivial : The Minolta remote cord allow, on the same switch, to focus, and if pushed a bit more, to release the shutter. And to lock the switch with shutter released for long pause. Its possible to implement this with 2 switches, but what appens if the focus switch is held when the release switch is pushed ? Or if the focus switch is held while the shutter is released in pause mode ? I dont want to try this sort of experimentation on my camera. Scott, did you nd a switch with all these functions ? or do you have 2 switches ?
Anyway, for the connector, I had another solution from the news : Its to buy the cord which connect the camera to the IC R1 infrared remote device. The only problem is that this device only deal with the shutter release and Im afraid that this cord only have two pins connected. November 2002, Csaba JOZSA adds: I would like to add a comment: on the Dynax cameras (at least on the Maxxum/Dynax 5) the shutter release works only if the focussing is not switched off. Thus, the procedure is: connect focus pin to common focussing , connect shutter pin to common without disconnecting the focus pin exposing. Its a bit unhandy, since you are obliged to always focus before shutter release, aldo, if you focus with AF and then switch to MF mode, the camera wont change the focus setting. (On switching back to AF, he will.)

Exposure control

4.1. FLASHAMBIENT CONTROL
Function number 5 Backlight ll-in EV 1 EV or less EV or less Yes Yes Yes Yes Yes Yes Yes Frontlight ll-in EV 1 EV No adjust Low light ll-in 0 EV 1 EV or less No adjust Yes Main Flash light subject Ambient light Backgroud (ambient) P mode + Auto ash P mode + Forced ash A mode + Flash ON S mode + Flash ON P mode + SLOW SYNC A mode + SLOW SYNC S mode + SLOW SYNC Backlight ll-in Frontlight ll-in Lowlight ll-in Night ll-in Daylight situation when the main subject is much darker than background Daylight situation when there is no big difference between subject and background brightness Dark condition or a situation which may cause blur due to camera shake Lowlight situation when background exposure is desired as much as the main subject.
Night scene EV No adjust 0 EV
TABLE 4.1: Flashambient compensations performed by camera
Control Program ash Control

Mode and operation

Yes Yes Yes Yes

Setting 1 2

Action Auto Switchover Manual Switchover
TABLE 4.2: Changing Program Flash Control with the Custom xi card

4.1.2 A Mode Flash

In A Mode, the photographer sets the aperture and the camera automatically selects the fastest sync speed between 1/200 and 1/60 second that ambient light levels will allow. This provides the advantages of full depth-of-eld control while the Expert exposure system uses multi-pattern metering or center-weighted metering to automatically determine ambient exposure and the necessary ash output. Basically, the system is designed to reduce ambient light exposure by one stop (by increasing the shutter speed) and, if possible, maintain it at this level for backlight, frontlight, and lowlight ll-in. In backlight and frontlight conditions, the ash brightness is reduced from 1/4 to 3/4 stop to produce a pleasing subject exposure. The background will be up to 1-1/2 stops brighter than the subject exposure. For indoor photography, ash brightness is at its normal rating while the shutter speed is controlled to reduce and maintain ambient light brightness by one stop. The slowest shutter speed available in A mode is 1/60 sec. Ambient levels requiring longer speeds will be underexpose to a greater degree. When the SPOT button is pressed for slow-sync ash photography, ash brightness is reduced by 3/4 stop and shutter is set to a speed slow enough to allow normal background exposure.

ash compensation or you can set
4.3. SHORT SUMMARY ON USING WIRELESS FLASH
P and A mode (called No-Brainer mode by Gary Walts in [15]). Just press the force ash button on camera body. The result will habe about one stop underexposed background/ambient light so its not what you usually want as daylight-balanced ll-in ash. But its great for backlight.
In P and A mode you can use SLOW SYNC method. SLOW SYNC is designed to make your shutter speed long enough to get proper exposure of ambient light 1. According to Phil Brandons notes on ash programing (Table 4.1 on page 26 and 4.1.6 on page 28) the ambient light in this mode should be exposed without any compensation (in my experiences it is sometimes up to EV underexposed) the same situation you probably want with daylight ll-in ash. In my experiences it worked O. K. except for the high-speed sync (HSS mode) when it has usually no effect on shutter speed 2. When you want especially subtle ll-in you can dial 1 or even 2 EV ash compensation. P and A mode You need to compensate (ambient) exposure decrease invoked automatically by the camera in those modes when ash is turned on. Amount of compensation varies on ambient light level but usualy you need to set about 1 EV. Unless you have Maxxum/Dynax 7 with ash compensation detached from ambient compensation bear in mind that ash output increases by the same amount as the ambient compensation set. Now you need to compensate ash for both the automatic increase due to ambient exposure compensation and the ash compensation that you want to dial in. In case of 1 ambient compensation you need to dial 1 ash compensation to get original ash power. Than you can go further with your intended ash compensation if you want to have ash power increased by you need to dial-in total ash compensation. Disadvantage of this approach is in the fact that overall exposure compensation that camera sets after turning on the ash may be exactely one stop (if camera decides its frontlight situation) but it may be even more so you never know what compensation exactely should be set unless you do the measurement with ash turned off.
Most precise ll-in ash can be obtained using M (Brainer mode) mode described above but its the most time consuming. For faster work SLOW-SYNC would be probably the choice. Notes: When ash is the main (only) source of light you can achieve following results with compentsation (C) and ash compensation (FC)

C C C C

0; FC 0; FC 0; FC
0 properly exposed picture 1 one stop underexposed picture
1 one stop overexposed picture 1 properly exposed picture (no effect)
(this is based on tests with Dynax 600si/3600HS(D)/Kodak Ektoachrome E200 slide lm).
4.3 Short summary on using wireless ash
[Author(s): Gary Friedman. Reviewed by: Petr Holub.]
Well, embedded within these comments lie two other misconceptions about Minoltas wireless ash which will be debunked in the forthcoming article. However, Ill outline them briey here:
1 Intent behind described in Minolta manuals is night photography with some foreground object e. g. person lit by ash; both foreground and background should be properly exposed 2 This behavior can be expected because of primary raison d tre of SLOW SYNC mode, i.e. low-light photography, when you e wouldnt have your ash in HSS mode.
As misleading as Minoltas documentation is, you do NOT need to buy the wireless IR ash controller in order to control more than one off-camera ash! Your built-in ash can do this unaided. Just put all of your off-camera ashes on automatic and aim them at the subject, and during exposure the cameras built-in ash will send the All Off command whenever it detects that enough light has hit the lm regardless of which ash (or combination of ashes) produced the light.
Armed with this knowledge you can also set up 1:3, 1:6, or 1:Anything ash ratios just by changing the ash-to-subject distances, and the camera will send the all off signal when the light is sufcient (usually this will be the light from the closest ash - the ash that is further away will be turned off before it has a chance to put out enough light hence the ratio.) This technique also means you can achieve automatic ash ratios using HSS off-camera; youre not tied to Minoltas built-in 1/60 th of a second (1/30th of a second on the Maxxum 9) ash synch limitation. When used as a controller, the built-in ash puts out a negligible amount of light as compared to what is required for a proper exposure. That is why you cant see any evidence of the on-camera ash being present in any of the examples. To prove this to yourself, take a ash meter (in cumulative mode) and measure the total amount of light coming out of the built-in ash, both when in wireless controller mode and in normal mode, and compare the results.
Since the Wireless IR ash controller will also PREVENT you from using off-camera high-speed synch on the Dynax 7, there is no really good reason to buy one. I have found it to be very useful in only one situation which is not very common: When using Minolta wireless ashes in manual mode (say, in a studio situation), and you want to use a ashmeter to measure the light hitting the subject, the in-band signals used to control the off-camera ashes will interfere with the handheld ashmeters reading. Since most ashmeters employ IR lters near the sensor, using the wireless IR ash controller will completely eliminate this problem. I have found the 5600HS ashes to be excellent wireless studio ashes, by the way. Check out some samples at my other website, http://www.NotYourOrdinary.com. Great examples of using wireless ash can be found on Garys web site [18]. Similar experiences of other people can be found here: [3, 15] and quite thorough guide by Gary Walts [15].

The built-in ash works in fact as a real wireless controller, so it is possible to use 1:2 ratio between two remote units. Though the it works the best with the 5600 set to (2) and 5400 set to (1). With reversed setting the effect of the ratio is much less prominent, but this way it is possible to play with lighting in a more exible way, IMHO. When both ashes are set to the equal power (i.e. without any ratio, just plain wireless mode) they provide equal illumination.

> > > >

Thanks for posting the results of your flash test, Marat. My conclusion is that, contrary to what has been stated earlier and often on this e-group, Minolta flash results are very unpredictable unless using a D lens.
Yes, they are. Unpredictable they become only with the pre-ash and a non-D lens. Now, as long as I dont have a D-lens, I have switched the ash metering to the 4-segment one - at least it gives very consistent and predictable results, though it tends to overexpose a bit. But still the 4- segment metering is much better than the centerweighted one in all Minolta cameras prior to the 9. Table B.4: Flash experiment: 2485 lens # 2485 Bounce 5400 picture # 2485 Bounce 5600 picture

2485 Preash 5400

# 2485 Preash 5600

2485 4S 5400

Table B.5: Flash experiment: 2880D lens # picture # picture
2485 Preash 5600 Vertical

2485 4S 5600 Vertical

2485 4S 5600

# 2880D Preash 5400

2880D 4S 5400

2880D ADI 5600

Table B.6: Flash experiment: Wireless # picture # picture
WL 5400ctrl(1) 5600slv(2)
WL 5600ctrl(1) 5400slv(2)

2880D 4S 5600

WL 5400(1) 5600(2)

WL 5600(1) 5400(2)

WL 5600(1) 5400(1) Built-in(1)

WL 5400 = 5600

Bibliography
Literature about Minolta and Minolta-compatible equipment
[1] Maschke T., Burian P. K., Magic Lantern Guide to Minolta Maxxum 600si, Magic Lantern Guides (A Laterna magica R book), 1995, ISBN 1-883403-34-0 [2] Damian Dinning, Complete Minolta Users Guide: Minolta Dynax/Maxxum 600Si (Hove Users Guide), Watson-Guptill Pubns, ASIN: 1874031606, February 1996, ISBN: 1-874031-60-6