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Nikon NASA F4

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Nikon NASA F4 front view with DA-20 action finder, Electronics Box and lenses.

Nikon NASA F4 together with HERCULES measurement and ring laser gyroscope right, its Electronics Box in the center and the laptop mounted atop the HERCULES Playback-Downlink Unit and Attitude Processor left.

Nikon NASA F4 back view with DA-20 action finder and Electronics Box.

The Nikon NASA F4 Electronic Still Camera was one of the first and rarest fully digital cameras with development started in 1987.^[1] While Nikon delivered a modified Nikon F4 body, most of the electronics for the digital camera and housings were designed and built by NASA at the Johnson Space Center and other suppliers. It was first flown in September 1991 on board the Space Shuttle Discovery, mission STS-48.^[2]^[3] Later the cameras were flown on several other Shuttle missions^[4] including STS-44, 45, 42, 49, 53,^[5] 56^[6] and 61.^[7]

Although the camera was often used alone mounted with its Electronics Box, the HERCULES system^[8]^[9] was built around it: Hand-held Earth-oriented Real-time Cooperative, User-friendly, Location, targeting, and Environmental System.^[10] It includes one of the first laptops in space^[11] mounted atop the Playback-Downlink Unit (PDU) and the kit also included the HERCULES Attitude Processor (HAP, a gyro based geolocation processor with initialization through star alignment and GPS data, giving up to 0.005 degrees per hour precision^[12]), Electronic Still Camera (ESC) Electronics Box (ESCEB) including removable imagery data storage disks, NRL HERCULES Inertial Measurement Unit (HIMU) with the three-axis ring laser gyroscope, DA-20 action finder, a night vision image intensifier as well as assorted lenses and cables. It was flown on the STS-53 and 56 mission and was replaced by the HERCULES-B.^[13]

History

Nikon has been a supplier of space (EVA) capable cameras^[14] for the NASA since 1971, when they delivered a modified Nikon F SLR Photomic FTN camera^[15]^[16] with center-weighted TTL metering system,^[17] which was first used on the Apollo 15 mission.^[18] In 1973, a newer modified version of the Nikon F with a motor drive was delivered for use in Skylab. In 1980^[19] and 1989, Nikon delivered modified, space capable F3^[20] (big and small version) respectively F4 cameras to NASA, which were used in the Space Shuttle.

Nikon's first digital camera (still video camera, with analog storage) was the Nikon Still Video Camera (SVC) Model 1, a prototype which was first presented at Photokina 1986.^[21]^[22] The follower Nikon QV-1000C Still Video Camera was produced since 1988 mainly for professional press use.^[23] Both cameras used QV mount lenses, a variant of Nikon F-mount lenses. Via an adapter (QM-100) other F-mount lenses can be fitted.

The NASA Electronic Still Camera / Nikon NASA F4 was followed by the NASA-used Nikon-based Kodak DCS 460, DCS 660 and DCS 760, Nikon D1, D2X, D2Xs, D3, D3X and the D3S. The Nikon F-mount is the only 35mm SLR or DSLR lens mount ever used by NASA.^[24]

Technology

The camera was based on a modified F4 with standard F-mount and had a digital camera back with a monochrome CCD image sensor with 1024 x 1024 pixels on an area of 15 x 15mm developed by Ford Aerospace.^[3] ISO 200 was the only light sensitivity, without infrared filter ISO 400.^[1] Removable IDE hard-disks were used for digital storage of 40 images each with 8 bits per pixel. The camera's imaging sensor interface was based on an Altera Stand Alone Microsequencer and employed a 1 image SRAM storage buffer. The removable hard drive, RS-232 interface, LCD display, Ku-Band downlink interface and remaining camera control were accomplished with a Wildcard 88 (Intel 80C88 8 MHz CPU) single board computer. Images were transmitted to the ground via the Orbiter Ku-Band digital downlink at a rate of 2Mbit/s.^[2] Within 1 hour the images were processed at Johnson Space Center's Pixar Image Computer and laser printed.^[1]

Three copies of the NASA Electronic Still Camera were produced. The original development team included NASA Civil Servant electronic and mechanical design and fabrication, Lockheed development of the Electronic Still Camera ground station, Nikon Engineering supplying in total 14 modified Nikon F4 camera bodies also for prototypes, and Ford Aerospace and JPL development of the CCD image sensor.^[1]

Developed upgrades included a 2048 x 2048 CCD sensor, a colour CCD and architecture changes, but finally the Kodak DCS 460 was preferred.^[1]

References

^ ^a ^b ^c ^d ^e NASA Nikon F4 Electronic Still Camera

^ ^a ^b "SPACE SHUTTLE MISSION STS-48 PRESS KIT SEPTEMBER 1991". Retrieved 21 March 2012.

^ ^a ^b NASA F4 Electronic Still Camera Nikonweb

^ Space Shuttle Launches NASA

^ "SPACE SHUTTLE MISSION STS-53 PRESS KIT". Retrieved 21 March 2012.

^ "SPACE SHUTTLE MISSION STS-56 PRESS KIT". Retrieved 21 March 2012.

^ "SPACE SHUTTLE MISSION STS-61 PRESS KIT". Retrieved 21 March 2012.

^ HERCULES - a Joint Army-NAVY-NASA experiment on the space Shuttle (1985-1995): Status Mac

^ Sky Camera Maps Targets: HERCULES Popular Mechanics Sep 1993

^ Application of Space Shuttle Project HERCULES imagery in the investigation of ship cloud tracks Whitmeyer

^ Additional information on the NASA F4 in NHS issue 95. The F4 from flight STS-053. Nikon Historical Society

^ HERCULES attitude processor: gyro data processing system for real-time geolocation of images captured by astronauts

^ STS-70 Press Kit NASA

^ How Does NASA Get a Nikon D2Xs DSLR Ready to Go to Space? Popphoto.com

^ Nikon Photomic FTN Nikon

^ Nikon F - Nikon FTn Meter Finder/Prisms Mir

^ Nikon cameras and NASA TATENO, Yokoyuki, Apphotnum

^ Vol. 12. Special titanium Nikon cameras and NASA cameras Nikon

^ Corporate History Nikon

^ Nikon F3 NASA 250 Mir.com

^ Additional information on Nikon Video Still Camera Model 1 & Nikon QV-1000C Still Video Camera MIR

^ Nikon Still Video Camera (prototype) Nikonweb

^ Nikon QV-1000C? Never heard of it. Nikonweb

^ Cameras Used on the ISS and Shuttle Missions by NASA astronauts to photograph Earth NASA

External links

Wikimedia Commons has media related to Nikon NASA F4 and Taken with Nikon NASA F4.

Nikon DSLR timeline (comparison)

Sensor	Class	2001	2002	2003		2004		2005			2006				2007		2008			2009				2010		2011		2012				2013			2014			2015	2016			2017			2018		2019	2020		2021	2022	2023	2024

FX (Full- frame)	Flagship																		D3X ^−P
																D3 ^−P							D3S ^−P					D4							D4S				D5^T										D6^T
	Professional																											D800 / D800E								D810 / D810A								D850 ^AT
																																		Df
	High-end																	D700 ^−P																			D750 ^A											D780 ^AT
																														D600				D610
DX (APS-C)	Flagship	D1X ^−E					D2X ^−E					D2Xs ^−E
		D1H ^−E			D2H ^−E			D2Hs ^−E
	Professional		D100^−E							D200 ^−E						D300 ^−P						D300S ^−P																	D500 ^AT
	Enthusiast					D70^−E			D70s^−E				D80^−E					D90^−E							D7000 ^−P								D7100					D7200					D7500 ^AT
	Upper-entry^*								D50^−E						D40X^−E*		D60^−E*				D5000 ^A−P*						D5100^A−P*				D5200 ^A-P*			D5300 ^A*				D5500 ^AT*			D5600 ^AT*
	Entry-level^*													D40^−E*								D3000^−E*			D3100^−P*				D3200^−P*						D3300^*					D3400^*						D3500^*
	Early models	Nikon SVC (prototype; 1986) Nikon QV-1000C (1988) Nikon NASA F4 (1991) Nikon E2/E2S (1995) Nikon E2N/E2NS (1996) Nikon E3/E3S (1998) D1 (1999)
Sensor	Class
		2001	2002	2003		2004		2005			2006				2007		2008			2009				2010		2011		2012				2013			2014			2015	2016			2017			2018		2019	2020		2021	2022	2023	2024

PROCESSOR: Pre-EXPEED | EXPEED | EXPEED 2 | EXPEED 3 | EXPEED 4 | EXPEED 5 | EXPEED 6
VIDEO: HD video / Video AF / Uncompressed / 4k video ⋅ SCREEN: Articulating^A, Touchscreen^T ⋅ BODY FEATURE: Weather Sealed
Without full AF-P lens support^−P ⋅ Without AF-P and without E-type lens support^−E ⋅ Without an AF motor (needs lenses with integrated motor, except D50)^*

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