Lens data requested |
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Dorset Mike
Senior Member Joined: 20 February 2007 Country: United Kingdom Location: Poole, Dorset Status: Offline Posts: 535 |
Post Options Quote Reply Posted: 18 November 2008 at 00:00 | |
@ albnok, if it ever stops raining here!!!!!!!!!
I did do this with the 55-200, but I've not had the 70-300 all that long. |
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Cheers MIKE,
5D, A350: 50/1.7; 28-75/2.8;80-200/2.8 APO Kit; 500/8; Tam 17-50/2.8; 18-280; 70-300/4-5.6: 90/2.8; MC7 2X; Tokina 11-16/2.8: 80-400/4-5.6; Kenko 1.4X: Min A200 bridge |
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Dorset Mike
Senior Member Joined: 20 February 2007 Country: United Kingdom Location: Poole, Dorset Status: Offline Posts: 535 |
Post Options Quote Reply Posted: 19 November 2008 at 14:37 | |
OK results for Tamron 70-300/4-5.6
f4 70-135 f4.5 135-210 f5 210-280 f5.6 280-300 These values do not change when Macro is selected (between 180-300) Also interesting is that the EXIF reader I was using (Photome) changed its mind about the lens, depending on the focal length set at 70 & 135 it suggested either 18-250 55-200 or 70-300 at 210 it suggested 18-250 70-300 or 200-500 at 280 it suggested 70-300 or 200-500 From that I assume that the Photome looks at the lens ID (in this case 255) and is also inteligent enough to take the FL set into account, it also must have some way of determining Tamron as IIRC there are other lenses with ID of 255. The Tokina 80-400, at 80mm was shown as either the Min 28-85 or Tok 80-400, above 90mm only as itself, Max aperture change points f4.5 80-150, f5 150-280, 5.6 280-400 The Sigma 600 mirror is not correctly recognised at all being shown as Min 300/2.8 Sig 50-500, Sig 170-500 or Sig 500/4.5 although the focal length is shown correctly elsewhere! For what it's worth a couple of chipped M42 adapters, one from Hongkong showed as a Min 50/1.7, the Haoda showed as Min 50/1.4. |
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Cheers MIKE,
5D, A350: 50/1.7; 28-75/2.8;80-200/2.8 APO Kit; 500/8; Tam 17-50/2.8; 18-280; 70-300/4-5.6: 90/2.8; MC7 2X; Tokina 11-16/2.8: 80-400/4-5.6; Kenko 1.4X: Min A200 bridge |
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Velocina
Groupie Joined: 04 September 2012 Country: Italy Location: Friuli Status: Offline Posts: 62 |
Post Options Quote Reply Posted: 12 March 2013 at 21:00 | |
I see there is no activity on this post in the last four years....
but I think this is the right place for a technical question: I have a Microchip "Pickit2" USB programmer for PICs, that can also be used to read/program 25LC0xx SPI serial EEPROMs. Can I use it to read data (EEPROM dump) from Minolta/Sony lenses's ROMs ? Here some hints from Pickit2 ver.2.61 software release readme: Connections for 25LC devices --------------------------------------- PICkit 2 Pin 25LC Device Pin (DIP) (1) VPP 1 nCS (2) Vdd 8 Vcc (3) GND 4 Vss (4) PGD 2 SO (5) PGC 6 SCK (6) AUX 5 SI 7 nHOLD - disabled (Vdd) 3 nWP - disabled (Vdd) ( I think that nCS means negate CS, as !SS in Minolta pinout means negate Slave Select ) I'm planning to try to make an universal Adaptall-2 lens to Sony A mount universal adapter with embedded lens data base and mechanical diaphgram coupling using a metal eight contacts bayonet from an old Xi zoom and an original Olympus Adaptall-2 coupler ( that have a nice lever, close to the Sony-Minolta one )... Bye. Luca |
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matthiaspaul
Senior Member Joined: 08 September 2006 Country: Germany Status: Offline Posts: 940 |
Post Options Quote Reply Posted: 13 March 2013 at 00:38 | |
This depends on the programmer. The Minolta lenses use a variation of the SPI protocol (with a somewhat non-standard timing), but different protocols and timings are used for extended data formats available in more modern lenses. Therefore, we have switched to use data loggers to trace the raw signals and then process these raw trace files and extract the binary information from them using some scripts. Nevertheless, the "core data" (32 or 45 bytes) can be read out using many SPI programmers as well. Here are a few more threads (in German) which provide more in-deep information on the electrical interface, lens protocols, lens data and emulators: http://www.mi-fo.de/forum/index.php?showtopic=26450 http://www.mi-fo.de/forum/index.php?showtopic=14914 http://www.mi-fo.de/forum/index.php?showtopic=3695&view=findpost&p=40879
Yes. Pinout: http://www.mi-fo.de/forum/index.php?showtopic=26450&view=findpost&p=260161 "L1": "LSIN"/"MISO" (serial SPI data from lens to camera), also "UDP" (Interchip USB with Dynax 7 in conjunction with DS-100) "L2": "LVDD1"/"VDD1" (switched power supply for ROM/CPU: regulated +3.3V or +5.0V, default 5.0V, switchable in newer bodies, http://www.mi-fo.de/forum/index.php?showtopic=26450&view=findpost&p=260238) "L3": "LSCK"/"SCK" (SPI clock from camera to lens) "L4": "CSLNS"/"SS" (SPI select line from camera to lens, also interrupt line from lens to camera with newer cameras, low active) "L5": "DGND" (digital ground for "L2") "L6": "LSOUT"/"MOSI" (serial SPI data from camera to lens, only with newer cameras), also "UDN" (Interchip USB with Dynax 7 in conjunction with DS-100) "L7": "LVDD0"/"VDD0" (switched power supply for power electronics and motors in lenses: unregulated ca. +6V. Lenses should be able to cope with +5.0V to +8.4V at least. Lenses should be powered with +6.0V, http://www.mi-fo.de/forum/index.php?showtopic=26450&view=findpost&p=260238) "L8": "PGND" (power ground for "L7") Hope it helps, Matthias |
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Minolta-Forum (MiFo) - German forum for the Minolta, Konica, Konica Minolta and Sony world of photography: http://www.mi-fo.de |
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Velocina
Groupie Joined: 04 September 2012 Country: Italy Location: Friuli Status: Offline Posts: 62 |
Post Options Quote Reply Posted: 19 March 2013 at 00:54 | |
Hi Matthias,
I've made a lens contact connector, using a female bayonet from a low-priced macro tube kit , then I've wired the serial interface circuit for PonyProg (with SS to transistor and pull-up on transistor collector to positive supply ) and then I made some ROM dumps from Minolta lenses. As described in this forum (the old thread), I've used PonyProg with settings for Serial EEprom, type 25080: done calibration and choosed to reverse data input to have "00" instead of "FF" in memory dump file. I've first used my Sony Vaio notebook with an USB to serial adapter, but, while PonyProg correctly works with windows API I/O selected, data reading is slow, slow, frustrating slow (exactly as described in PonyProg manual), so I've resumed an old '486DX2-50 notebook with Windows 95 and a "real" RS232 port and all has gone better. I've switched to IcProg instead of PonyProg because with IcProg 1.06 you can copy and past data directly from data window, while with PonyProg not and you have to save to a file first, resulting in time wasting. JDM prog is right hardware setting to use the same interface as PonyProg. Choosing 25080 as device in IcProg results in double-byte displayng of data content location (that is "0000" or "FFFF" for each addressable location , instead of "00" or "FF" for PonyProg), but data on the same dump are identical if you suppress the most significative two zeroes. Checksum of the entire dump do not correspond betweem the two softwares, but this is probabilly due to a diverse computing algorithm. Sice here all ok, but now the bad news: I've tried to dump data from some Minolta lenses and I cannot compare them to forum's ones because of structure is not the same and I don't know where I'm going wrong. A leading "FF" followed by a "80" or a "81" is what I hope to see, but this data don't comes out from lenses..... Again I can see a 32 Bytes pattern refrain from first chip addressable location until all locations are filled, but in one test I've seen a 64 bytes pattern. Bytes count includes the locations filled with "00" until pattern repetition occurs. Furthermore data extraction is possible from an eight-contact 28-80/4-5.6 Xi zoom, but from eight contacts "D" lenses I obtain all "00" (tried 28-80 and 28-100 "D" kit lenses and 17-35/2.8-4 (D)). Here the dump from my 35-105/3.5-4.5 old (Beercan-like with Macro switch): 35_105_35mm (3.5) DFA0 35f3.61 0A 00 78 88 F8 4C 34 00 DF 96 6F 00 00 66 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_40mm (4.0) E3A0 40f4.00 0A 80 78 88 F8 2C 34 00 DF A6 1F 00 00 66 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_45mm 0FA0 45f4.00 0A 80 78 88 F8 6C 34 00 DF 86 DF 00 00 E6 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_50mm DE20 50f4.00 0A 80 78 88 F8 1C 34 00 DF 7A 7F 00 00 16 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_55mm E240 50f4.00 0A 40 78 88 F8 5C 34 00 DF 9A 40 00 00 56 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_55mm F440 60f4.00 0A 40 78 88 F8 3C 34 00 DF AA 60 00 00 D6 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_62mm 0A40 60f4.00 0A C0 78 88 F8 7C 34 00 DF 8A 90 00 00 B6 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_68mm F400 70f4.00 0A C0 78 88 F8 02 34 00 DF 72 30 00 00 F6 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_72mm (4.5) EF00 75f4.34 0A 20 78 88 F8 42 34 00 DF 92 B0 00 00 8E 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_80mm D100 85f4.34 0A 20 78 88 F8 22 34 00 DF A2 30 00 00 2E 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_90mm E700 90f4.34 0A 20 78 88 F8 62 34 00 DF A2 30 00 00 2E 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_100mm E840 100f4.34 0A A0 78 88 F8 12 34 00 DF 7C 90 00 00 3E 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 35_105_105mm F2A0 105f4.34 0A A0 78 88 F8 92 34 00 DF 3C E0 00 00 01 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 Macro_105+ E2A0 105f4.34 0A A0 78 88 F8 92 34 00 5F 3C E0 00 00 01 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 Bytes changing are the ones in positions 2,6,10,11 and 14 , starting from the leading "0A" as position 1. Byte in position 9 changes only entering "Macro" mode, last four bytes are unchanged across all zoom range. Note that focal lenght indicated as 35_105_55mm is extimated by me, the (e.g.) E240 is IcProg checksum and 50f4.00 is from Exif. I've first made a dump everytime the data changed, then I've mounted the lens on the camera (Dynax 7D) and taken a picture at every step. I've also reported when maximum aperture reduces with focal lenght. Can you explain me why I don't see the leading "FF" and the subsequential "80" or "81" bytes in my dump ? A special data formatting is required ? Here is the dump of my 24-85/3.5-4.5 RS zoom: 24_85_24mm (3.5) 1690 24f3.61 0A 00 78 84 08 E4 D4 01 FF 4A 60 00 40 A2 00 05 00 C0 F4 1B D0 C4 52 24 04 00 FD 00 88 CD 40 C0 70 F1 D0 84 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_26mm (4.0) 0A70 26f4.00 0A 80 78 84 08 54 D4 01 FF F2 C0 00 40 A2 00 05 00 C0 F4 1B FF 24 52 24 04 00 FD 00 88 CD 40 BF 70 89 30 44 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_28mm 0170 26f4.00 0A C0 78 84 08 34 D4 01 FF 52 40 00 40 62 00 05 00 C0 F4 1B CF 24 52 24 04 00 FD 00 88 CD 40 9F 70 C9 F0 44 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_30mm 0F70 28f4.00 0A C0 78 84 08 74 D4 01 FF 62 40 00 40 E2 00 05 00 C0 F4 1B F7 24 52 24 04 00 FD 00 88 CD 40 EF 70 A9 C8 24 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_35mm FEF0 35f4.00 0A C0 78 84 08 0C D4 01 FF 42 C0 00 40 12 00 05 00 C0 F4 1B F7 24 52 24 04 00 FD 00 88 CD 40 AF 70 19 E8 A4 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_38mm FDF0 35f4.00 0A C0 78 84 08 4C D4 01 FF 02 20 00 40 52 00 05 00 C0 F4 1B F7 24 52 24 04 00 FD 00 88 CD 40 AF 70 D9 B8 64 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_45mm (4.5) 0790 50f4.34 0A 20 78 84 08 1C D4 01 FF 2C D0 00 40 8A 00 05 00 C0 F4 1B F7 A4 52 24 04 00 FD 00 88 CD 40 AF 70 25 D4 D4 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_50mm FA90 50f4.34 0A 20 78 84 08 5C D4 01 FF 8C 30 00 40 CA 00 05 00 C0 F4 1B 8F A4 52 24 04 00 FD 00 88 CD 40 AF 70 65 8C 34 A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_65mm 0D50 50f4.34 0A A0 78 84 08 22 D4 01 FF 84 90 00 40 EA 00 05 00 C0 F4 1B F7 64 52 24 04 00 FD 00 88 CD 40 CF 70 2D 52 CC A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_70mm FCD0 75f4.34 0A A0 78 84 08 42 D4 01 FF C4 70 00 40 1A 00 05 00 C0 F4 1B 8F 64 52 24 04 00 FD 00 88 CD 40 AF 70 0D C2 8C A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 24_85_80mm 0D50 85f4.34 0A A0 78 84 08 22 D4 01 FF 84 90 00 40 EA 00 05 00 C0 F4 1B F7 64 52 24 04 00 FD 00 88 CD 40 CF 70 2D 52 CC A9 00 00 00 40 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 81 64 This time the pattern is composed of 64 Bytes, then refrains. Bytes that changes are in position 2,6,21,22,32,34,35,36. No leading "FF" too. This is the dump from my Minolta 50/1.4 old (no RS): 50mm (1.4) D4C0 0A 00 90 FF 0C 9C 28 00 DF 02 7F 00 00 E2 0F 95 00 00 00 00 00 00 00 00 00 00 00 00 A8 26 01 88 For all lens I see "0A" as leading byte instead of "FF": can you suggest me how to make data format compatible with forum's one ? I've see PERL script, but I don't know that programming language: please tell me how I can do, if necessary, a manual data reformatting. If you have an aperture table (aperture vs. Hex) and a focal lenght one (mm. vs. Hex), please post it. PS: I'm Italian, I know a little English, but not German, so I must translate from the others forums with Bing or other translators, with some cryptic results.... Bye. Luca Puntin |
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Velocina
Groupie Joined: 04 September 2012 Country: Italy Location: Friuli Status: Offline Posts: 62 |
Post Options Quote Reply Posted: 24 April 2013 at 22:59 | |
Hi to all Sony/Minolta lens data hackers....
After a long reading of the "dark side" of this thread ( that is the german discussion about this argument ) and some tries to understand what the decoding Perl script does over lens data dump, I'm finally aligned with forum's data streams. For those who want to try recover data from lenses, I suggest to build a different hardware interface between serial pc RS232 port and the lens under investigation, to avoid possible damage to the elctronics inside the lens itself: RS232 signals range is between -3 and -20 volts for the logic "1" and between +3 and +20 volts for logic "0", but usually voltage don't exceed -12/+12 volts por desktops pc ports and -9/+9 volts for portable devices. Lense's signals range is 0 volts for the logic "0" and +5 volts for the "1" logic, but 3,3 volts are supplied to the lens when camera enters stand-by mode. Using the interface suggested by "PonyProg" help and in this forum brings to work with lens MISO directly connected to a RS232 pin, that may have pull-ups or pull-downs supplied to pc port from/to -12/+12 volts sources, and this may be dangerous for lens electronics that is intended to work between 0 and +5 volts. !SS and SCK are protected by 5,1 Volts zeners and 4,7 kOmhs resistors, but voltage limitation is efective only for positive RS232 signals, but when they go into negative field (e.g.: -12 Volts) zeners are no long working and the only protection is the resistor. I suggest an other HW RS232 to lens interface, bitly more complex, but electically safe, derived by me from the original, that is this one: I've done lens data dump with PonyProg (or ICPROG )from "D" lenses and from an adaptor's (chinese) chip, where the previous (PonyProg) hardware failed (no data, all 00's or FF's). The only thing to remember is that interface settings require to invert signals to work. Bye. Luca Edited by Velocina - 24 April 2013 at 23:05 |
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Velocina
Groupie Joined: 04 September 2012 Country: Italy Location: Friuli Status: Offline Posts: 62 |
Post Options Quote Reply Posted: 24 April 2013 at 23:43 | |
....
with the updated hardware, now lens data dump is more easy and reliable: looking at 25LC080 EEPROM datasheet, one can see that memory serial chip requires three bytes of configuration before been clocked for data read: first byte is a configuration one ( that presets chip for reading, writing, erasing, etc. ), second and third one are a 16-bit adress to start reading or writing operation from. Emulate lens as this kind of EEPROM make first 3 bytes invisible, because PonyProg (or IcProg) masks them (not display them) as pure protocol data, but for lens are valid data... So one must apply an offset of 30 bytes to a 32 bytes data stream and add a leading "FF" to have a pure lens data stream. During data serialization/deserialization to obtain parallel Bytes grouping (e.g.: data in octets of bits, that is "byte" organized) single bits from EEPROM's data out have to be inverted, so if you read 0A 00 78 88 F8 4C 34 00 DF 96 6F 00 00 66 00 63 Memory dump 25080 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 mode 0A 00 78 88 F8 4C 34 00 DF 96 6F 00 00 66 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 01 64 ......... (and so on to 1024 Bytes of the 1024x8 EEPROM ) 01 64 0A 00 78 88 F8 4C 34 00 DF 96 6F 00 00 66 Reading from 1F 00 63 00 00 00 00 00 00 00 00 00 00 00 00 A3 C6 (offset 30 dec) 10 46 A0 00 87 88 8F C4 43 00 FD 69 F6 00 00 66 Inverting nibbles 00 36 00 00 00 00 00 00 00 00 00 00 00 00 3A 6C 80 26 50 00 17 11 1F 32 2C 00 FB 69 F6 00 00 66 Inverting bits 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 (D0_D7 to D7_D0) .... and you have obtain the right data stream to work on, as the Perl script can do for you. Remember to add a leading "FF" to complete lens to camera communication protocol. So, if you want to compare data of the lens I've posted a bit of time ago, these are the correct dumps: For the 35-105/3.5-4.5 old (Beercan-like with Macro switch): 35_105_35mm (3.5) 80 26 50 00 17 11 1F 32 2C 00 FB 69 F6 00 00 66 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_40mm (4.0) 80 26 50 01 17 11 1F 34 2C 00 FB 63 F8 00 00 66 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_45mm 80 26 50 01 17 11 1F 36 2C 00 FB 61 FB 00 00 67 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_50mm 80 26 50 01 17 11 1F 38 2C 00 FB 5E FE 00 00 68 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_55mm 80 26 50 02 17 11 1F 3A 2C 00 FB 59 02 00 00 6A 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_55mm 80 26 50 02 17 11 1F 3C 2C 00 FB 55 06 00 00 6B 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_62mm 80 26 50 03 17 11 1F 3E 2C 00 FB 51 09 00 00 6D 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_68mm 80 26 50 03 17 11 1F 40 2C 00 FB 4E 0C 00 00 6F 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_72mm (4.5) 80 26 50 04 17 11 1F 42 2C 00 FB 49 0D 00 00 71 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_80mm 80 26 50 04 17 11 1F 44 2C 00 FB 45 0C 00 00 74 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_90mm 80 26 50 04 17 11 1F 46 2C 00 FB 45 0C 00 00 74 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_100mm 80 26 50 05 17 11 1F 48 2C 00 FB 3E 09 00 00 7C 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 35_105_105mm 80 26 50 05 17 11 1F 49 2C 00 FB 3C 07 00 00 80 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 Macro_105+ 80 26 50 05 17 11 1F 49 2C 00 FA 3C 07 00 00 80 00 C6 00 00 00 00 00 00 00 00 00 00 00 00 C5 63 For the 24-85 / 3.5-4.5 (22) : 24_85_24mm (3.5) 81 26 50 00 1E 21 10 27 2B 80 FF 52 06 00 02 43 00 A0 00 03 2F D8 0B 23 4A 24 20 00 BF 00 11 B3 02 03 0E 8F 0B 21 95 00 00 00 02 00 06 24_85_26mm (4.0) 81 26 50 01 1E 21 10 2A 2B 80 FF 4F 03 00 02 45 00 A0 00 03 2F D8 FF 24 4A 24 20 00 BF 00 11 B3 02 FD 0E 91 0C 22 95 00 00 00 02 00 06 24_85_28mm 81 26 50 03 1E 21 10 2C 2B 80 FF 4A 02 00 02 46 00 A0 00 03 2F D8 F3 24 4A 24 20 00 BF 00 11 B3 02 F9 0E 93 0F 22 95 00 00 00 02 00 06 24_85_30mm 81 26 50 03 1E 21 10 2E 2B 80 FF 46 02 00 02 47 00 05 00 C0 F4 1B EF 24 4A 24 20 00 BF 00 11 B3 02 F7 0E 95 13 24 95 00 00 00 02 00 06 24_85_35mm 81 26 50 03 1E 21 10 30 2B 80 FF 42 03 00 02 48 00 05 00 C0 F4 1B EF 24 4A 24 20 00 BF 00 11 B3 02 F5 0E 98 17 25 95 00 00 00 02 00 06 24_85_38mm 81 26 50 03 1E 21 10 32 2B 80 FF 40 04 00 02 4A 00 05 00 C0 F4 1B EF 24 4A 24 20 00 BF 00 11 B3 02 F5 0E 9B 1D 26 95 00 00 00 02 00 06 24_85_45mm (4.5) 81 26 50 04 1E 21 10 38 2B 80 FF 34 0B 00 02 51 00 05 00 C0 F4 1B EF 25 4A 24 20 00 BF 00 11 B3 02 F5 0E A4 2B 2B 95 00 00 00 02 00 06 24_85_50mm 81 26 50 04 1E 21 10 3A 2B 80 FF 31 0C 00 02 53 00 05 00 C0 F4 1B F1 25 4A 24 20 00 BF 00 11 B3 02 F5 0E A6 31 2C 95 00 00 00 02 00 06 24_85_65mm 81 26 50 05 1E 21 10 44 2B 80 FF 21 09 00 02 57 00 0500 C0 F4 1B EF 26 4A 24 20 00 BF 00 11 B3 02 F3 0E B4 4A 33 95 00 00 00 02 00 06 24_85_70mm 81 26 50 05 1E 21 10 42 2B 80 FF 23 0E 00 02 58 00 05 00 C0 F4 1B 1F 62 4A 24 20 00 BF 00 11 B3 02 F5 0E B0 43 31 95 00 00 00 02 00 06 24_85_80mm 81 26 50 05 1E 21 10 44 2B 80 FF 21 09 00 02 57 00 05 00 C0 F4 1B EF 26 4A 24 20 00 BF 00 11 B3 02 F3 0E B4 4A 33 95 00 00 00 02 00 06 (note that this is a 45+1 data stream instead of a 32+1 one, that is a different offset is required) ... and finally the 50/1.4 (22) lens: 50mm (1.4) 80 11 50 00 09 FF 30 39 14 00 FB 40 FE 00 00 47 00 00 00 00 00 00 00 00 00 00 00 00 15 64 F0 A9 for the moment this is the only contibute I've doneto this forum, but I hope not the last.... Bye. Luca |
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