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Products/Services for Fairchild F8
...describes the aperture of the lens as controlled by the iris. F-numbers conform to an international aperture scale in discrete values such as F1, F1.4, F2, F2.8, F4, F4.6, F8, F11, and F16. As a rule, smaller F-numbers indicate larger apertures... Search by Specification | Learn More
...protection against electrostatic discharge (ESD). Selecting digital comparators requires an analysis of logic families. Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital... Search by Specification | Learn More
...specifications (MIL-SPEC). EPROM chips vary in terms of supply voltage, logic family, and package type. Common logic families include standard, fast, high-speed and advanced CMOS; emitter coupled logic (ECL); TTL and Fairchild advanced Schottky TTL... Search by Specification | Learn More
...memory chips vary in terms of logic family and IC package type. Common logic families include standard, fast, high-speed and advanced CMOS; emitter coupled logic (ECL); TTL and Fairchild advanced Schottky TTL (FAST); gunning technology (GTL); and crossbar... Search by Specification | Learn More
...an analysis of logic families. Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled logic (ECL) uses transistors to steer current... Search by Specification | Learn More
...and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled logic (ECL) uses transistors to steer current through gates that compute logical functions. Another logic family... Search by Specification | Learn More
Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled logic (ECL) uses transistors to steer current through gates that compute... Search by Specification | Learn More
...requires an analysis of logic families. Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, binary adders with emitter coupled logic (ECL) use... Search by Specification | Learn More
Selecting parity checkers and generators requires an analysis of logic families. Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled... Search by Specification | Learn More
Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled logic (ECL) uses transistors to steer current through gates that compute logical... Search by Specification | Learn More
...in watts (W) or milliwatts (mW). Operating temperature is a full-required range. Selecting arithmetic logic units requires an analysis of logic families. Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL... Search by Specification | Learn More
...transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled logic (ECL) uses transistors to steer current through gates that compute logical... Search by Specification | Learn More
...speed and advanced CMOS; emitter coupled logic (ECL); TTL and Fairchild advanced Schottky TTL (FAST); gunning technology; and crossbar switch technology (CBT). Common package types include ball grid array (BGA), quad flat package (QFP), single in-line... Search by Specification | Learn More
...families. Transistor-transistor logic (TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled logic (ECL) uses transistors to steer current through gates that compute... Search by Specification | Learn More
TTL) and related technologies such as Fairchild advanced Schottky TTL (FAST) use transistors as digital switches. By contrast, emitter coupled logic (ECL) uses transistors to steer current through gates that compute logical functions. Another logic... Search by Specification | Learn More
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Ultra 16: Cine Lenses for Super 16 format Carl Zeiss Camera Lens Division
Distagon T* 2/28 Wide-Angle Lens Carl Zeiss Camera Lens Division
Zeiss Customized Solutions Carl Zeiss Camera Lens Division
Distagon T* 2,8/21 Super Wide Angle Lens Carl Zeiss Camera Lens Division
Distagon T* 2,8/25 ZF Lens Carl Zeiss Camera Lens Division
Carl Zeiss ZE-Lenses for Industrial Applications Carl Zeiss Camera Lens Division
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Product News for Fairchild F8
Fairchild FHP3194
Industry's first 1.2GHz 4:1 analog multiplexer with 800MHz small-signal and 500MHz large-signal with 3dB bandwidth (at G=2). (read more)
Focal Plane Arrays
No matter your choice, a Fairchild Imaging focal plane array can be perfectly suited to your aerospace, industrial, medical or scientific imaging application. (read more)
Digital microscopes to the Hubble
A testament to the high quality results of Fairchild Imaging technology is represented in the imagery displayed in Fairchild Imaging's Gallery. See fascinating actual images taken from cameras and systems that incorporate Fairchild Imaging CCDs. (read more)
High Performance Scientific Image Sensor
Fairchild Imaging announced the release of their latest 2k x 2k CCD, the CCD 3041. This four megapixel device is the next evolution of Fairchild Imaging's family of high performance scientific image sensors.
The CCD 3041 is a full-frame multiport charge coupled device (CCD) designed for advanced scientific, medical and industrial digital imaging applications.
(read more)
Osprey 2k TDI CCD Line Scan Camera
Fairchild Imaging, a manufacturer of CCD, CMOS and OEM CCD cameras, presents the Osprey, a 2k TDI CCD line scan camera for challenging machine vision and industrial inspection applications. (read more)
CMOS 1421 Linear Sensor
The CMOS 1421 device features Active Reset™ CMOS technology providing low noise and high sensitivity. The architecture is a 2048 element linear array with 7 µm pixels. (read more)
CCD 21241 High Speed TDI Sensor
The CCD 21241 is a 24,000 by 64 pixel high speed TDI (Time Delay and Integration) sensor. With 16 outputs, each running at 18MHz, the CCD 21241 can provide a total data rate of 300MHz enabling the CCD to run at better than 12KHz line rate. (read more)
Fiber-optic coupled camera - largest available CCD
The Condor 485 is a fiber-optic coupled camera for use in X-ray imaging applications that demand a large field of view and high throughput. The camera is based upon the CCD 485, a state-of-the-art, scientific grade sensor. At more than 60 x 60 mm2, the 485 is the largest commercially available CCD (read more)
Imaging phosphors, xray & electron scintillators.
Applications that demand a large field of view and high optical throughput particularly benefit from the size and sensitivity of the Condor™ 486EF. At more than 36 cm2 , the 486 is the largest commercially available CCD, and when coupled to a 1:1 imaging fiberoptic, it delivers unsurpassed optical throughput (read more)
Breakthrough in CMOS Image Sensor Technology
CMOS image sensor (CIS) technology is on the brink of fulfilling its potential to become the global detector platform of choice for scientific photonics applications requiringe world class sensitivity, speed, dynamic range, resolution, and field of view. The results of pioneering work is shared in a ground-breaking white paper. (read more)
Parts by Number for Fairchild F8
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Fairchild Semiconductor - Wikipedia, the free encyclopedia It inherits the Fairchild name of the original Fairchild Camera and Instrument Corporation, which had been the cornerstone of the semiconductor |
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Fairchild Channel F - Wikipedia, the free encyclopedia CPU Fairchild F8 Controller input Joystick/Paddle Keypad (Canceled) |
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Great moments in microprocessor history See International Business Machines Corp. Information |
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Microsystems Opinion: Critique of the F8 Microprocessor Country: USA Issue: 8 Item Abstract: The Fairchild F8 is a control microprocessor whose architecture is considerably different from most machines in |
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Microprocessor Control of a Three-Phase Inverter in Induction... |
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Upto11.net - Wikipedia Article for Fairchild Channel F The Channel F was based on the Fairchild F8 CPU, invented by Robert Noyce before he left Fairchild to start his own company, Intel. |
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Xilinx UG130 Spartan-3 FPGA Starter Kit Board User Guide See Xilinx, Inc. Information |
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4 3 2 1 4 3 2 1 Video Input Output Daughter Card Block Diagram... See Xilinx, Inc. Information |
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RCA Studio II Video Game System from 1976 performance to the F8 processor used in the Fairchild Channel F. You might wonder why RCA used an instruction-set clone of the F8 in their first |
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Channel-F Home FAIRCHILD CHANNEL-F Manufacturer: Fairchild CPU: F8 processor, running at 1.79 Mhz Memory: 64bytes, 2Kilobytes of VRAM |
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