|Industry||Photographic equipment and supplies|
|Products||Cameras, lenses and scanners|
|Revenue||SEK290 million (2011)|
|SEK44 million (2011)|
|SEK40 million (2011)|
|Owner||DJI, Ventizz Capital Fund IV L.P.|
Number of employees
|Subsidiaries||Hasselblad A/S, Hasselblad Bron Inc, Hasselblad Vertriebsgesellschaft mbH, Hasselblad (UK) Ltd, Hasselblad France SAS, Hasselblad Japan KK|
Victor Hasselblad AB is a Swedish manufacturer of medium format cameras, photographic equipment and image scanners based in Gothenburg, Sweden. The company originally became known for its classic analog medium format cameras that used a unique waist level viewfinder. Perhaps the most famous use of the Hasselblad camera was during the Apollo program missions when the first humans landed on the Moon. Almost all of the still photographs taken during these missions used modified Hasselblad cameras. In 2016, Hasselblad introduced the world's first digital compact mirrorless medium format camera, the X1D-50c, changing the portability of medium format photography. Hasselblad only produces about 10,000 cameras a year out of a small three story building.
The company was established in 1841 in Gothenburg, Sweden, by Fritz Wiktor Hasselblad, as a trading company, F. W. Hasselblad and Co. The founder's son, Arvid Viktor Hasselblad, was interested in photography and started the photographic division of the company. Hasselblad's corporate website quotes him as saying, "I certainly don’t think that we will earn much money on this, but at least it will allow us to take pictures for free."
In 1877, Arvid Hasselblad commissioned the construction of Hasselblad's long-time headquarters building, in use until 2002. While on honeymoon, Arvid Hasselblad met George Eastman, founder of Eastman Kodak. In 1888, Hasselblad became the sole Swedish distributor of Eastman's products. The business was so successful that in 1908, the photographic operations were spun off into their own corporation, Fotografiska AB. Operations included a nationwide network of shops and photo labs. Management of the company eventually passed to Karl Erik Hasselblad, Arvid's son (grandson of founder F. W.). Karl Erik wanted his son, Victor Hasselblad, to have a wide understanding of the camera business, and sent him to Dresden, Germany, then the world center of the optics industry, at age 18 (c. 1924).
Victor spent the next several years studying and working in various photography related endeavors in Europe and the US, including Rochester, New York, with George Eastman, before returning to work at the family business. Due to disputes within the family, particularly with his father, Victor left the business and in 1937 started his own photo store and lab in Gothenburg, Victor Foto.
World War II
During World War II, the Swedish military captured a fully functioning German aerial surveillance camera from a downed German plane. This was probably a Handkammer HK 12.5 cm/7x9, which bore the codename GXN and the military account number Fl.38510.
The Swedish government realised the strategic advantage of developing an aerial camera for their own use, and in the spring of 1940 approached Victor Hasselblad to help create one. In April 1940, Victor Hasselblad established a camera workshop in Gothenburg called Ross AB in a shed at an automobile shop, working in the evenings in cooperation with a mechanic from the shop and his brother, began designing the HK7 camera.
By late 1941, the operation had over 20 employees and the Swedish Air Force asked for another camera, one which would have a larger negative and could be permanently mounted to an aircraft. This model was the SKa4. Between 1941 and 1945, Hasselblad delivered 342 cameras to the Swedish military.
In 1942, Karl Erik Hasselblad died and Victor took control of the family business. During the war, in addition to the military cameras, Hasselblad produced watch and clock parts, over 95,000 by the war's end.
Victor Hasselblad's real ambition was to make high-quality civilian cameras. In 1945–1946, the first design drawings and wooden models were made for a camera to be called the Rossex. An internal design competition was held for elements of the camera; one of the winners was Sixten Sason, the designer of the original Saab bodywork.
In 1948, the camera later known as the 1600 F was released. The new design was complex, and many small improvements were needed to create a reliable product; the watchmaking background of many of the designers produced a design which was sophisticated, but more delicate than what was required for a camera. Only around 50 units were produced in 1949, and perhaps 220 in 1950, of what collectors have now designated the Series One camera. The Series Two versions of the 1600 F, perhaps as many as 3300 made from 1950 to 1953, were more reliable but still subject to frequent repairs, with many units having been cannibalized or modified by the factory. The biggest problem was its shutter, a focal-plane shutter that was hard to keep accurate. Using 120 size film it was formatted to a square 6 cm x 6 cm or 2 & ¼ by 2 & ¼ inches which meant there was no more need to turn the camera on its side.
In 1954, they mated the groundbreaking new 38mm Biogon lens designed by Dr. Bertele of Zeiss to a shallow non-reflex body to produce the SWA (Supreme Wide Angle, later changed to Super Wide Angle). Though a specialty product not intended to sell in large numbers, the SWA was an impressive achievement, and derivatives were sold for decades. Hasselblad took their two products to the 1954 photokina trade show in Germany, and word began to spread.
In 1953, a much-improved camera, the 1000 F was released. It too had a focal-plane shutter which led to its final replacement by the 500 C but nonetheless provided a big leg up in the medium format. It had a very fine 200mm f4 Sonnar sport lens that made it a great wildlife camera. Lenses ranged from a 60mm Distagon, standard 80mm Planar, and on up to the 200 mm.
In December 1954, the 1000 F camera received a rave review from the influential American photography magazine, Modern Photography. They put over 500 rolls of film through their test unit, and intentionally dropped it twice, and it continued to function. But the 1000 F also had shutter problems and finally gave way to the lens-mounted, tried-and-true Compur shutter, retaining its focal-plane shutter/curtain only to mask the film until the Compur shutter closed, then opened to expose the film. This was a far more dependable system, even though it meant having a shutter in each lens.
The Hasselblad camera comes into its own
The real turning point for the company occurred in 1957. The 1000 F was replaced by the 500 C. The landmark 500 C design formed the basis for Hasselblad's product line for the next sixty years, with variants being produced until 2013. It was not until 1960, though, that Hasselblad's cameras became profitable; prior to this point, the company was still being entirely supported by sales of imported photographic supplies, including their distribution of Kodak products.
In 1962, NASA began to use Hasselblad cameras on space flights, and to request design modifications. The first motor-driven camera, the 500 EL, appeared in 1965 as a result of NASA requests. While Hasselblad had enjoyed a slowly but steadily growing reputation among professional photographers through the 1950s, the publicity created by NASA's use of Hasselblad products dramatically increased name recognition for the brand.
In 1966, with the increasing success of the camera division, Hasselblad exited the photographic supply and retailing industry, selling Hasselblad Fotografiska AB to Kodak.
In 1976, Victor Hasselblad sold Hasselblad AB to a Swedish investment company, Säfveån AB. When he died in 1978, he left much of his fortune to the Hasselblad Foundation.
In 1977, the 2000 series of focal plane shutter equipped models was introduced. The 2000-series cameras had been intended to provide full exposure automation. The 2000 FC however was rushed and introduced without the automated features, partly because of a rethink about the way the automation should be accomplished (electronic vs. electro-mechanical). It was the last new camera produced during Victor Hasselblad's lifetime.
In 1984, Victor Hasselblad AB went public, with 42.5% of the company being sold on the Swedish stock exchange. The next year, Swedish corporation Incentive AB bought 58.1% of Hasselblad, and in 1991, they acquired the remainder of the shares, taking VHAB back to being a private corporation.
In 1985 Hasselblad established the subsidiary, Hasselblad Electronic Imaging AB, to focus on digital imaging and transmission systems.
In 1991, the 200 series of automated focal plane shutter equipped models was introduced. This was the last major technical development in the course of the classic (now known as "V-System", after Victor) Hasselblad camera.
Fuji, Shriro, Imacon, and the digital age
In 1998, Hasselblad began selling the XPan, a camera designed and made in Japan by Fujifilm.
In 2002, they introduced the H-System, retroactively renaming their original camera line the V-System. The H-System marked an essential transition for the company. It dropped the traditional Hasselblad square negative format, instead using 6×4.5 cm film and a new series of lenses. The then owners had no confidence in Hasselblad's already advanced digital project returning a profit, and, seeing the relative success in the market of the modern (i.e. fully automated) 645 cameras made by manufacturers like Pentax and Mamiya, closed down Hasselblad's digital department and directed all effort towards making this 645 film camera. The H-System is largely designed and manufactured by Hasselblad, with Fuji's involvement being limited to finalizing Hasselblad's lens designs and producing the glass for the lenses and viewfinders. Fuji was allowed under the agreement to sell the H1 under their name in Japan only.
In January 2003, the Shriro Group acquired a majority shareholding in Hasselblad. The group had been the distributors for Hasselblad in Japan, Hong Kong, China, Taiwan ROC, Singapore, and Malaysia for over 45 years.
The following year, in August 2004, Shriro Sweden, the holding company of Victor Hasselblad AB, and Swedish subsidiary of Shriro Group, announced the acquisition of high-end scanner and digital cameraback manufacturer, Imacon. The intent of the move was to correct the mistake the previous owners made when they thought there was no money to be made selling digital products and put a stop to Hasselblad's own advanced digital project, and to renew Hasselblad's ambitions in the professional digital photographic sector.
The move was perceived as part of an industry-wide move to respond to the trend away from film to digital. Christian Poulsen, chief executive of Hasselblad after the merger, said, "They finally realized there was no future. It was impossible to keep Hasselblad alive without digital".
This has secured their market position, with nearly all of their previous medium format camera competition going through sale (Mamiya), closure (Contax, Bronica, Exakta 66, Kiev), or greatly reduced market presence (Rollei, Pentax (which was also sold, to Hoya)), and other medium format digital back makers being faced with accordingly restricted markets. Despite this Hasselblad has struggled to turn a profit relative to the market share leader Phase One 
In late 2015, aerial photography and drone manufacturer DJI acquired a minority interest in Hasselblad. In early January 2017, some reports, citing reliable sources, indicated that DJI had since acquired the majority interest. These reports have not been verified by either company to date but have not been denied. In July 2018, DJI's Mavic 2 PRO drone was advertised by UK based retail shopping company Argos. This drone was the first to carry a camera featuring the Hasselblad branding.
Hasselblad cameras in space
Several different models of Hasselblad cameras were taken into space, all specially modified for the task.
The Hasselblad cameras were selected by NASA because of their interchangeable lenses and magazines. Modifications were made to permit ease of use in cramped conditions while wearing spacesuits, such as the replacement of the reflex mirror with an eye-level finder.
Modifications by NASA technicians were further refined and incorporated into new models by Hasselblad. For example, development of a 70 mm magazine was accelerated to meet the space program.
The first modified (in fact simplified) Hasselblad 500 C cameras were used on the last two Project Mercury missions in 1962 and 1963. They continued to be used throughout the Gemini spaceflights in 1965 and 1966.
A general program of reliability and safety was implemented following the Apollo 1 fire in 1967, addressing such issues as reliability and safe operation of electrical equipment in a high-oxygen environment.
EL electric cameras were used for the first time on Apollo 8. A heavily modified 500 EL, the so-called Hasselblad Electric Camera (HEC) was used from Apollo 8 on board the spacecraft. Three 500 EL cameras were carried on Apollo 11. An even more extensively modified Hasselblad EL Data Camera (HDC), equipped with a special Zeiss 5.6/60 mm Biogon lens and film magazines for 150–200 exposures, was used on the Moon surface on the Apollo 11 mission. This command module camera, carried on Apollo 11, was a simplified version of the commercial Hasselblad 500 EL motorized film advance camera. Used for color still photography, it could operate in the command module or in the vacuum of space.
All following NASA missions also had Hasselblad cameras on board. The photographic equipment and films used on the five subsequent flights were similar to that taken on Apollo 11. On Apollo 15, the 500 mm telelens was added. During the Space Shuttle period cameras based on the 500 EL/M, 553 ELX, 205 TCC and 203 FE have been used.
- HK-7 (1941–1945)
- SKa4 (1941–1945)
- 1600F (1948–1953)
- 1000F (1953–1957)
- V System 500 (1957–present)
- V System 2000 and 200 (1977–2004)
- V System Superwide (1954–2006)
- V System Flexbody (1995–2003)
- XPan (1998–2006) (designed and manufactured by Fujifilm)
- H System (2002–present)
- Lunar (announced September 2012, shipped early 2013)
- X1D-50c (June 2016–June 2019) – the world's first digital compact medium format mirrorless camera
- H6D-400c MS (2018–present) – Multi-Shot technology camera capturing 400-megapixel images, an industry standard in art reproduction and cultural heritage
- X1D II 50C (announced June 2019) – the next generation of the world's first digital compact medium format mirrorless camera, the X1D-50c
- 907X and CFV II 50C (announced June 2019) – combining Hasselblad's photographic history into one system with Hasselblad's smallest camera body ever, the 907X, and the refreshed CFV II 50C digital back
HK-7 and SKa4 military cameras
The HK-7 put a 7 cm tall by 9 cm wide image on 80 mm film. It has interchangeable lenses, generally a 135 mm Zeiss Biotessar, with the second being either a 240 mm f/4 Meyer Tele-Megor or a 250 mm f/5 Schneider Tele-Xenar.
The SKa4 has interchangeable film magazines, a key feature of later Hasselblad cameras.
1600F and 1000F
Hasselblad's first civilian camera was launched in 1948. Born from the idea of Victor Hasselblad to create the "ideal camera", it was a 6×6 cm format focal-plane shutter SLR camera that was six inches long. First simply known as the "Hasselblad Camera" it was later named "1600F" after its highest shutter speed of 1/1600 sec and "F" for "focal plane". The camera was revolutionary for the time with its modular design that allowed exchanging lenses, viewfinders and film magazines. The shutter was made of thin stainless steel which was light and durable enough to withstand the high acceleration forces of this fast shutter.
The 1600F cameras did show a couple of problems (especially the first series) so a number of changes were introduced during the production period that lasted from 1949–1953. The 1600F was initially released with the Kodak Ektar 2.8/80 mm and the Ektar 3.5/135 mm lenses. Only prototypes were made of the Ektar 6.3/55 mm and the 5.6/254 mm lenses.
The successor of the 1600F was the 1000F (1953–1957). The 1000F was named after its reduced shortest shutter speed of 1/1000 s. The 1000F has a different shutter mechanism and proved to be more reliable and robust than its predecessor. During production of the 1600F, Carl Zeiss in Oberkochen had become a supplier of lenses for the 1600F/1000F cameras. Zeiss supplied the lenses Distagon 5.6/60 mm, Tessar 2.8/80 mm, Sonnar 3.5/135, Sonnar 4.0/250 and Sonnar 5.6/250 mm. Towards the end of the 1000 F production period a Dallmeyer 5.6/508 mm lens made by Cook and Perkins, England, was also available, but did not fully cover the full film format.
Hasselblad 1000F and especially 1600F cameras are very rare on the secondhand market and usually not in working condition because of age, neglect, and a lack of spare parts and qualified repairmen. Many cameras suffer from corrosion of the chrome rims. A lot of lenses suffer from scratches, fungus, discoloration and separation. Cameras in good condition can therefore fetch fairly high prices.
The 500C was produced to replace the F-series cameras. It changed the troublesome focal plane shutter for a leaf shutter in each C lens. The camera has continued for over 40 years with only minor improvements. A variation of the 500C was used by NASA for all their Gemini and Apollo missions. Most lenses were made by Zeiss in Germany but the very early 1600F lenses were made by Kodak.
- 1600F (1948/1949–1953, 1/1600 s shutter speed)
- 1000F (1953–1957, 1/1000 s shutter speed)
The designation 'V System' was not used until the launch of the H System. The name "V System" was not created until the development of the "H System"; with a new system premiering, Hasselblad needed a designation to differentiate the older product line. The Hasselblad V-System evolved out of Victor Hasselblad's desire to develop a small camera with fast lenses and shutters, that was as easily hand-holdable as a Leica, but with a larger film format. The Rolleiflex's 6×6 format was deemed ideal: large enough to provide high image quality, but small enough to fit inside a compact camera. The Rolleiflex's leaf shutter lacked the fast shutter speeds focal plane shutters could provide, and neither Leica rangefinder nor Rolleiflex TLR provided the(TTL) through the (taking) lens viewing that the slow to use, big Graflex SLR provided. These considerations led to the 1600 F and a flexible camera system that includes interchangeable bodies, lenses, viewfinders, winders, film magazines and holders, and other accessories. Problems with the focal plane shutters in the 1600 F and 1000 F cameras and especially the increasing importance of electronic flash led to the development of the manual leaf shutter-based medium-format 6×6 (6×6 cm or 2¼×2¼ inches) 500 C SLR camera in 1957 which offered flash synchronization at all shutter speeds. The 500 C was joined by the motor-driven 500 EL SLR camera in 1964. Apart from the housing that incorporates the motor drive and the NiCd batteries, this camera is similar in appearance and operation to the Hasselblad 500 C and uses the same magazines, lenses and viewfinders. These two cameras, together with the Superwide Camera (SWC) which was introduced in 1954 as a wide angle camera using the Carl Zeiss Biogon 38 mm f/4.5 lens and built-in levels for exacting architecture photography, formed the core of the V-system and shared most accessories (with a few exceptions).
Throughout the life of the V Series, Hasselblad incrementally updated the cameras. The 500C gave way to the 500C/M, the 503CX and 503CXi, the 501C and 501CM, and finally the 503CW as the basic manual. The SWC was replaced by the SWC/M, the 903 SWC, and finally by the 905 SWC. The 500 EL's replacements included the 500EL/M, 500ELX,553 ELX, and the 555ELD. First introduced in the 500ELX, TTL/OTF (through the lens/off the film) flash metering was also a feature of the 503CX, which was replaced by the 503CXi and finally the 503CW. Alongside these 500-series cameras, a series of focal plane shutter cameras was introduced. They marked the return to Victor Hasselblad's original desire to have a small camera with fast shutter speeds (1/2000 s) and fast lenses. This 2000-series started with the 2000 FC, and progressed to the 2000 FC/M, 2000 FCW and 2003 FCW. Though much of the 20 years between the discontinuation of the 1000F and the introduction of the 2000 FC was spent designing an improved focal plane shutter, the 2000-series again used corrugated metal foil as material for the shutter curtains, though now titanium replaced the original stainless steel. As before, the metal shutter curtains proved to be quite easily damaged by clumsy fingers, which is why all 2000-series cameras except the 2000FC have a safety feature that retracts the shutter curtains as soon as the magazine is taken off. The 2000-series cameras were replaced by the 200-series cameras (with rubberized cloth shutter curtains), which included the 201 F, 202 FA, 203 FE, and 205 TCC/205 FCC. While the 201 F was a manual control camera, the other three 200-series models added a level of metering and exposure automation to the V series.
There were also two series of medium format view cameras developed related to the V series: the FlexBody and the ArcBody.
The last V System camera, the 503CW, was officially discontinued on April 29, 2013.
- 500C (1957–1970, Leaf Shutter)
- 500C/M (1970–1994, Leaf Shutter)
- 500 Classic (1990–1992, Leaf Shutter)
- 501C (1994–1997, Leaf Shutter)
- 501CM (1997–2005, Leaf Shutter)
- 503CX (1988–1994, Leaf Shutter, TTL OTF flash system)
- 503CXi (1994–1996, Leaf Shutter, TTL OTF flash system)
- 503CW (1996–2005, Leaf Shutter, TTL OTF flash system)
- 503CXD (2006, Leaf Shutter, TTL OTF flash system)
2000 Series Cameras with Titanium Focal Plane Shutter
- 2000 FC (1977–1982, Titanium Focal Plane Shutter)
- 2000 FC/M (1982–1984, Titanium Focal Plane Shutter)
- 2000 FCW (1984–1988, Titanium Focal Plane Shutter)
- 2003 FCW (1988–1991, Titanium Focal Plane Shutter)
200 Series Cameras with Rubberized Cloth Focal Plane Shutter
- 205 TCC (1991–1994, Rubberized Cloth Focal Plane Shutter)
- 201 F (1994–1998, Rubberized Cloth Focal Plane Shutter)
- 203 FE (1994–2004, Rubberized Cloth Focal Plane Shutter)
- 205 FCC (1995–2004, Rubberized Cloth Focal Plane Shutter)
- 202 FA (1998–2002, Rubberized Cloth Focal Plane Shutter)
Super Wide-angle (SW) cameras with fixed lenses
- SWA & SW (1954–1958, Leaf Shutter, fixed Carl Zeiss Biogon f/4.5 38 mm wide angle lens)
- SWC (1959–1979, Leaf Shutter)
- SWC/M (1980–1988, Leaf Shutter)
- 903 SWC (1988–2001, Leaf Shutter)
- 905 SWC (2001–2006, Leaf Shutter)
- FlexBody (1995–2003, Tilt and shift possible, Normal Hasselblad mount )
- ArcBody (1997–2001, Tilt and shift possible, Special mount with only 3 Rodenstock lenses with wider image circle)
- 500EL (1964–1970)
- 500EL/M (1971–1984, introduced user-interchangeable screen),
- 500ELX (1984–1988, introduced TTL-flash sensor and larger non-vignetting mirror),
- 553ELX (1988–1999, introduced new internal light-absorbing coating and use of AA-batteries), and
- 555ELD (1998–2006, introduced new mirror mechanics and electronic contacts for communication with digital backs)
500EL and its successors have been and still are used mainly as workhorses in photo studios. This camera type became also very famous when a heavily modified version of it was used in the U.S. Apollo lunar exploration program. In 1968 it was used by astronaut William Anders to take the image known as Earthrise. As an outgrowth of the experience with NASA cameras, a photogrammetric version of the Hasselblad 500 EL/M, the Hasselblad MK 70, was constructed with specially calibrated components.
The dual-format XPan and XPan II were Hasselblad's first cameras to use 35mm film. Built with a rubber-covered titanium and aluminium body, they were designed as a coupled rangefinder camera with interchangeable, compact lenses.
The XPan cameras are re-branded versions of the Fuji TX-1 and TX-2. The XPan II has every feature of the original, but grants the user the ability to record thirty-minute exposures compared to the old limit of three minutes. Electronic exposure information in the viewfinder is another additional feature of the XPan II.
The XPan reverted to the focal plane shutter, offering 8–1/1000 s, and flash sync from B (max. 270 s) – 1/125 s.
The intent in releasing the XPan was to provide medium format image quality on 35mm film. The XPan utilised the entire area of the 35mm film for either panorama or 35mm format, providing a panorama effect without masking the film or reducing image quality. This technique produced a panorama negative almost three times larger than traditional masking and over five times larger than that of APS cameras.
The XPan is now discontinued.
- XPan (1998, focal plane shutter, 35mm, Panoramic capability)
- XPan II (2003, focal plane shutter, 35mm, Panoramic capability)
Hasselblad launched the H System at photokina in September 2002.
The H1 departed from previous Hasselblad cameras in several respects. Hasselblad moved away from the traditional 6×6 format to 6×4.5 cm, and included autofocus lenses.
The camera used Fujinon manufactured lenses and prisms, thus departing from Hasselblad's long association with Carl Zeiss when it comes to lens manufacturing. The shutter in the lenses was still manufactured by Hasselblad as well as the body. Hasselblad initially invited both PhaseOne and Kodak to develop digital backs for the H-System.
The H1 had a number of other innovations, including:
- replacement of the removable dark slide with a fold-out lever
- inserts and backs that could accept both 120 and 220 film
- automatic film advance
- digital back integration
- electronic leaf shutters with timing from 1/800 seconds down to 18 hours
As with the V-series, most H1- and H2-series components were compatible with one another.
Identical to the H1, but sold bundled with a Hasselblad-branded Imacon 22Mp iXpress back which coupled with a 40GB Image Bank allowed shooting of up to 850 images in one session. The camera could only be used with the included digital back. This was Hasselblad's first integrated DSLR.
Hasselblad has built into the H2 cross-platform camera a new single-battery operation of the camera with the new Ixpress CFH digital back, offering one on/off switch and one operating system, facilitating streamlined, integrated operation. With existing digital backs already in the market, the H2 delivers the exact functionality of the H1. The H2 camera was discontinued in October 2007.
First Hasselblad camera to shoot to new Raw format called the 3FR. Conversions to 3F files could be done in Flexcolor or Phocus. Can utilize a CF card. No longer necessary to shoot to an Image Bank via link cable. Firewire 800 capable. New metering patterns to match the larger sensors. A new lithium ion 1,850 mAh battery was introduced that would power both the H2D body and digital back. 2nd generation integrated DSLR.
The H2F can be used either as a film camera or as a digital camera when mated with a Hasselblad CF31, CF22, CF22 MS, CF39, or CF39 MS back. It is completely identical to the H2, but this camera was created to "lock out" other digital back providers from the H-series platform. The H2F is compatible with all of the H lenses, including the HCD 24mm, HCD 28mm, and the new HCD 35-90mm zoom lens.
The new H3D offered some (software) functionality that provided better integration between camera, viewfinder and back than the earlier H1 or H2 could provide. These two early H-System cameras, after all, were not primarily designed as digital cameras, with the H2 carrying the 'legacy' of the H1. Hasselblad's official position on the move was:
"In truth, [the H1] was a great film camera to which a digital back could be fitted, and...Hasselblad started to look at ways that image quality and functionality could be enhanced even more through better integration...The H2 camera has not, in any way, been diminished by Hasselblad's separate development of functions specifically for the integrated H3D. However, lacking the necessary integration of the new camera engine and Hasselblad Flexcolor software, these functions cannot work on the H2."
3rd generation integrated DSLR.
In 2007, Hasselblad introduced the H3DII product line. The H3DII systems have a higher level of integration between the camera and the image sensor than stand-alone digital camera backs, but a disadvantage is that film backs are not usable in the H3DII.
• Larger and improved 3" TFT display.
• New heat sink replaces the fan from the original H3D, making the digital back quieter and also improving the image file.
• Improved the quality of the CF card door.
• Improved the Firewire 800 port.
• Drive button is now the WB/ISO. Drive functions are now in the Menu.
• New ability to use the GIL (Global Image Locator)
4th generation integrated DSLR.
The current H3DII products include:
|Model||Sensor||ISO range||ISO range
|Capture speed||HC lens factor||Eq. focal length||Display||Storage|
|H3DII 31||33.1 mm × 44.2 mm, 31 megapixels, 16 bit||100–800||100–1600||1.2 seconds||1.3||31 mm||3" OLED||CF|
|H3DII 39||36.8 mm × 49.0 mm, 39 megapixels, 16 bit||50–400||50–800||1.4 seconds||1.1||28 mm|
|H3DII-50||36.8 mm × 49.0 mm, 50 megapixels, 16 bit||50–400||50–800||1.1 second||1.1||28 mm|
In 2009, Hasselblad introduced the H4D product line. The current H4D products include H4D-31, H4D-40, H4D-50, H4D-50MS, H4D-60 and H4D-200MS. 5th generation integrated DSLR.
|Model||Sensor||ISO range||ISO range
|Capture speed||HC lens factor||Eq. focal length||Display||Storage||Video recording|
|H4D-50||36.8 mm × 49.1 mm, 50 megapixels, 16 bit||50–400||50–800||1.1 second||1.1||28 mm||3"||CF|
|H4D-60||40.2 mm × 53.7 mm, 60 megapixels, 16 bit||50–400||50–800||1.1 second||1.0||28 mm||3"||CF|
|H4D-200MS||36.7 mm × 49.1 mm, 50 megapixels, 16 bit
200 megapixels in multishot mode
|50–400||50–800||1.1 second||1.0||28 mm||3"||CF||None|
In October 27, 2011, Hasselblad introduced the H4X as a replacement H1, H2 and H2F.
In 2012, Hasselblad introduced the H5D product line. The current H5D products include H5D-40, H5D-50, H5D-50MS, H5D-60 and H5D-200MS. 6th generation integrated DSLR.
|Model||Sensor||ISO range||ISO range
|Capture speed||HC lens factor||Eq. focal length||Display||Storage||Video recording|
|H5D-40||32.9 mm × 43.8 mm, 40 megapixels, 16 bit||100–800||100–1600||1.1 second||1.3||31 mm||3"||CF|
|H5D-50||36.8 mm × 49.1 mm, 50 megapixels, 16 bit||50–400||50–800||1.1 second||1.1||28 mm||3"||CF|
|H5D-60||40.2 mm × 53.7 mm, 60 megapixels, 16 bit||50–400||50–800||1.1 second||1.0||28 mm||3"||CF|
|H5D-200MS||36.7 mm × 49.1 mm, 50 megapixels, 16 bit
200 megapixels in multishot mode
|50–400||50–800||1.1 second||1.0||28 mm||3"||CF||None|
In January 2014, Hasselblad introduced the H5D-50C, which was the first medium format CMOS camera system to be publicly announced. Due to production delays the Phase One IQ250 shipped several months before the H5D-50c. 
In September 9, 2014, Hasselblad introduced the H5X as a replacement H1, H2, H2F and H4X.
• Backup camera for H5D users.
• True Focus
• Full HC and HCD lens compatibility, including HCD 24; HCD 28 and the HCD 35-90 zoom lens.
• HVD 90x viewfinder optimised for 36x48 mm format.
• HV 90x-II viewfinder optimised for the film and 40.2×53.7 mm format.
• High power AF illumination.
• The H5X features eight memory banks (Profiles) for easy access to previously saved camera settings.
• All new programmable button options available with an H5D sensor unit (not with third party backs).
In September 16, 2014, Hasselblad introduced the H5D-50C WiFi. 
H6D-50c, H6D-100c, and H6D-400c MS
|Model||Sensor||ISO range||Capture speed||Shutter Speed||Flash Sync Speed||Display||Storage||Video recording||Host Connection Type|
|H6D-50C||CMOS, 50 megapixels (8272 x 6200 pixels, 5.3 x 5.3 μm),43.8 x 32.9 mm, 16 bit||100-6400||1.7–2.3 capture rate per second||60 min to 1/2000 sec||Flash can be used at all shutter speed||3''||CFast card, SD card or tethered to Mac or PC||HD (1920 x 1080p)||USB 3.0 (5 Gbit/s) Type-C connector, Mini HDMI, Audio In/Out|
|H6D-100C||CMOS, 100 megapixels (11600 x 8700 pixels, 4.6 x 4.6 μm), 53.4 x 40.0 mm, 16 bit||64-12800||TBD||60 min to 1/2000 sec||Flash can be used at all shutter speed||3''||CFast card, SD card or tethered to Mac or PC||HD (1920 x 1080p), UHD / 4K (3840 x 2160p)||USB 3.0 (5 Gbit/s) Type-C connector, Mini HDMI, Audio In/Out|
|H6D-400c MS||CMOS, 100 megapixels (11600 x 8700 pixels, 4.6 x 4.6 μm), 53.4 x 40.0 mm, 16 bit
4-shot 100 MP
6-shot 400 MP
|64-12800||60 min to 1/2000 sec||Flash can be used at all shutter speed||3''||CFast card, SD card or tethered to Mac or PC||HD (1920 x 1080p), UHD / 4K (3840 x 2160p)||USB 3.0 (5 Gbit/s) Type-C connector, Mini HDMI, Audio In/Out|
This camera is a variant of the H6D-100c with the ability to shift the sensor by half a pixel to extrapolate a higher resolution with multiple captures (a method commonly known as "pixel shifting"). However it is not a true 400 megapixel camera as the name might suggest.
The X System is a new line of relatively small mirrorless cameras built around a 43.8 by 32.9 mm medium format sensor. It was announced in June 2016. Along with the cameras, Hasselblad released a new "XCD" lens mount which is specifically designed for a smaller flange distance compared to the larger "HCD" lens mount. The company sells an additional adapter to mount HCD lenes onto XCD lens mounts while retaining autofocus capabilities. At the time of launch two lenses were available, a 45mm and a 90mm option. As of October 2019, there are 8 lenses available ranging from a 21mm focal length wide angle lens to a 135mm focal length short telephoto lens. Hasselblad also announced a zoom lens with an focal length range of 35 to 75mm.
In June 2016, Hasselblad announced the X1D-50c, the first of a new line of medium format mirrorless cameras. The X1D is comparable in size to current full-frame digital SLRs, but is equipped with a 43.8 x 32.9 mm CMOS sensor. The camera uses a new XCD mount, with two lenses initially available for sale. At the same time, an H Mount adapter was announced, allowing H System Lenses to be used with full autofocus. Currently, there are eight XCD Lenses available with the ninth XCD 35-75 Zoom Lens details revealed in June 2019 . Hasselblad announced the X1D II 50c in June 2019, an upgraded variant of the original camera with the exact same sensor but faster electronics and a lower price point.
|Model||Sensor||ISO range||Capture speed||Shutter Speed||Flash Sync Speed||Display||Storage||Video recording||Host Connection Type|
|X1D-50c||CMOS, 51 megapixels (8272 x 6200 pixels, 5.3 x 5.3 μm), 43.8 x 32.9 mm, 16 bit||100-25600||2.0 fps||60 min to 1/2000 sec||Flash can be used at all shutter speeds||3.0''||Dual SD/SDHC/SDXC||HD (1920 x 1080p)||USB 3.0 (5 Gbit/s) Type-C connector, Mini HDMI, Audio In/Out|
|X1D II 50C||CMOS, 51 megapixels (8272 × 6200 pixels, 5.3 × 5.3 μm), 43.8 × 32.9 mm||100-25600||2.7 fps||60 min to 1/2000 sec||Flash can be used at all shutter speeds||3.6"||Dual UHS-II SD||To be enabled at a later date.||USB 3.0 (5 Gbit/s) Type-C connector, Audio In/Out|
When Hasselblad merged with Imacon in 2004, it acquired Imacon's existing range of Flextight scanners. In 2006, Hasselblad launched two additional Flextight models, the X1 and the X5.
- The X1 had the ability to scan positive/negative film at 6300 dpi optical resolution, and a 60 MB/minute scan speed.
- The X5 added A4 reflective scanning, a batch / slide feeder, active cooling to keep noise down, 8000 dpi optical resolution, and a 300 MB/minute scan speed.
Hasselblad also produces its own advanced image processing software called Phocus. The latest version of Phocus is available on Microsoft Windows and Mac OS X, and by taking advantage of the operating system's raw image format library, the Mac OS X version of Phocus supports raw image formats from other DSLR manufacturers. Phocus is available as a free download from the Hasselblad homepage.
In 2010, Hasselblad announced that future Windows versions of Phocus will provide raw file support for 3rd-party cameras.
Phocus Mobile 2
In June 2019, Hasselblad announced the new Phocus Mobile 2, enabling a more portable workflow via USB-C and Wi-Fi connection for the traveling photographer. With Phocus Mobile 2, users can import, edit and rate RAW images and import and rate full quality JPEG images directly on their iPad Pro or iPad Air 2019 model. In addition, Phocus Mobile 2 supports full quality image export, tethered shooting and direct camera control.
Collaboration with Sony
Since 2012, Hasselblad has been marketing redesigned versions of Sony digital cameras.
At the 2012 photokina trade show in Germany, Hasselblad announced it would release a new mirrorless interchangeable-lens camera (MILC) using the Sony E-mount. The camera, called the Lunar, is based on the Sony NEX-7, including its 24.3 MP APS-C sensor, processing engine and user interface. The Lunar, which is marketed as an "ultimate luxury" model, was released in summer 2013.
On 3 February 2014, Hasselblad introduced a restyled Sony α99 as the Hasselblad HV. According to the company's press-release, their version of the α99 is "tough as nails", featuring more robust construction than the original.
On 26 November 2014, Hasselblad announced the Stellar II based on the DSC-RX100M2. As of now,[when?] there is no Stellar III or IV based on the already released DSC-RX100M3 and M4.
Unlike Leica in a similar partnership with Panasonic, Hasselblad doesn't make claims of reprogrammed image processing. The company, however, uses the same marketing strategy selling the OEM cameras under their brand at the prices two or three times higher than those of the original Sony cameras.
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