PerkinElmer


PerkinElmer, Inc., previously styled Perkin-Elmer, is an American global corporation that was founded in 1937 and originally focused on precision optics. Over the years it went into and out of several different businesses via acquisitions and divestitures; these included defense products, semiconductors, computer systems, and others. By the 21st century, PerkinElmer was focused in the business areas of diagnostics, life science research, food, environmental and industrial testing. Its capabilities include detection, imaging, informatics, and service. It produced analytical instruments, genetic testing and diagnostic tools, medical imaging components, software, instruments, and consumables for multiple end markets. PerkinElmer was part of the S&P 500 Index and operated in 190 countries.
Over its history, PerkinElmer has been split in two twice. In 1999, PerkinElmer merged with EG&G, with the ongoing Analytical Instruments Division of Perkin-Elmer keeping that name, while the life sciences division of the company became the separate PE Corporation. In 2022, a split of PerkinElmer resulted in one part, comprising applied, food and enterprise services businesses, being sold to the private equity firm New Mountain Capital for $2.45 billion and thus no longer being public but kept the PerkinElmer name. The other part, comprising life sciences and diagnostics businesses, remained public but required a new name, which in 2023 was announced as Revvity, Inc.

History

Founding

was attending the Pratt Institute in Brooklyn to study chemical engineering, but left after a year to try his hand on Wall Street. Still interested in the sciences, he gave public lectures on various topics. Charles Elmer ran a firm that supplied court reporters and was nearing retirement when he attended one of Perkin's lectures on astronomy being held at the Brooklyn Institute of Arts and Sciences.
The two struck up a friendship over their shared interest in astronomy, and eventually came up with the idea of starting a firm to produce precision optics. Perkin raised US$15,000 from his relatives, while Elmer added US$5,000, and the firm was initially set up as a partnership on 19 April 1937. Initially, they worked from a small office in Manhattan, but soon opened a production facility in Jersey City. They incorporated the growing firm on 13 December 1939. A further move to Glenbrook in Connecticut in 1941 was quickly followed by another move to Norwalk, Connecticut, where the company remained until 2000. The opening of World War II led to significant expansion as the company produced optics for range finders, bombsights, and reconnaissance systems. This work led to the U.S. Navy awarding them the first "E" for Excellence award in 1942.
Image:Underwater Ice Station Zebra, 21 - Flickr - The Central Intelligence Agency.jpg|thumb|left|Perkin-Elmer designed recovery hook intended to salvage a sunken film capsule, 1972
Perkin-Elmer retained a strong presence in the military field through the 1960s and at the same time was significantly involved with OAO-3 a 36-inch Ultra Violet Space Telescope, Skylab and their major contribution to the Apollo program was the sensor that saved the astronauts during the Apollo 13 failure. They were a primary supplier of the optical systems used in many reconnaissance platforms, first in aircraft and high-altitude balloons, and then in reconnaissance satellites. A significant advance was 1955's Transverse Panoramic Camera, which took images on wide frames that provided single-frame images from horizon to horizon from an aircraft flying at 40,000 ft altitude. Such systems remained a major part of the company's income, capped by the installation of laser retroreflectors on the Moon as part of the Apollo 11 mission.
Elmer died at age 83 in 1954, and the company began trading shares over the counter. The company was listed on the New York Stock Exchange on 13 December 1960. Perkin remained as president and CEO until June 1961, when Robert Lewis, previously of Argus Camera and Sylvania Electric Products, took over these roles. Perkin remained the chairman of the board until his death in 1969.

Semiconductor manufacturing

In 1967, the U.S. Air Force asked Perkin-Elmer to produce an all-optical "masking" system for semiconductor fabrication. Previous systems used a pattern, the "mask", which was pressed onto the surface of the silicon wafer as part of the photolithography process. Small bits of dirt or photoresist would stick the mask and ruin the patterning for subsequent chips, and it was not uncommon for the vast majority of the chips from a given wafer to malfunction. The Air Force, which by the late 1960s was highly reliant on integrated circuits, desired a more reliable system.
Perkin-Elmer responded with the Microprojector, which was essentially a large photocopier system. The mask was placed in a holder and never touched the surface of the chip. Instead, the image was projected onto the surface. Making this work required a complex 16-element lens system that focussed a narrow range of wavelengths of light onto the mask. The remainder of the light from the 1,000 watt mercury-vapor lamp was filtered out.
Harold Hemstreet was convinced that the concept could be simplified, and Abe Offner began the development of a system using mirrors instead of lenses, which did not suffer from the multispectral focussing problems of lenses. The result of this research was the Projection Scanning Aligner, or Micralign, which made chip making an assembly-line task and improved the number of working chips from perhaps 10% to 70% overnight. Chip prices plummeted as a result, with examples like the MOS 6502 selling for about US$20 while the previous generation of designs like the Motorola 6800 sold for around US$250.
The Micralign was so successful that Perkin-Elmer became the largest single vendor in the chip space in three years. In spite of this success, the company was largely a has-been by the 1980s due to their late response to the introduction of the stepping aligner, which allowed a single small mask to be stepped across the wafer, rather than requiring a single large mask covering the entire wafer. The company never regained their lead, and sold the division to The Silicon Valley Group.

Lab equipment

In the early 1990s, partnered with Cetus Corporation to pioneer the polymerase chain reaction equipment industry. Analytical-instruments business was also operated from 1954 to 2001 in Germany, by the Bodenseewerk Perkin-Elmer GmbH located in Überlingen at Lake Constance, and England at Beaconsfield in Buckinghamshire.

Computer Systems Division

Perkin-Elmer was involved in computer manufacture for a time. The Perkin-Elmer Computer Systems Division was formed through the purchase of Interdata, Inc., an independent computer manufacturer, in 1973–1974 for some US$63 million. This merger made Perkin-Elmer's annual sales rise to over US$200 million. This was also known as Perkin-Elmer's Data Systems Group. The 32-bit computers were very similar to an IBM System/370, but ran the OS/32MT operating system.
Image:PerkinElmer 7700 Professional Computer.jpg|thumb|left|Perkin Elmer 7700 Professional Computer, c. 1983
The Computer Systems Division had a large presence in Monmouth County, New Jersey, with some 1,700 staff making it one of the county's largest private employers. Its plant in Oceanport had 800 employees alone. By the early-mid-1980s the computing group had sales of $259 million; while profitable, it tended to have reduced visibility within the computing industry due to being owned by a diversified parent.
The Wollongong Group provided the commercial version of the Unix port to the Interdata 7/32 hardware, known as Edition 7 Unix. The port was originally done by the University of Wollongong in New South Wales, Australia, and was the first UNIX port to hardware other than the Digital Equipment Corporation PDP family. By 1982, the Wollongong Group Edition 7 Unix and Programmer's Workbench were available on models such as the Perkin-Elmer 3210 and 3240 minicomputers.
In 1985, the computing division of Perkin-Elmer was spun off as Concurrent Computer Corporation, with the goal of giving it and the parallel processing product a clearer identification within the computer industry. At first, the new company was a wholly owned subsidiary of Perkin-Elmer, but with the intentions of putting a minority ownership in the company up for a public stock sale. This was done one in February 1986, with Perkin-Elmer retaining an 82 percent stake in Concurrent. In 1988, there was a merger between Concurrent Computer Corporation and MASSCOMP; as part of the deal, Perkin-Elmer's share in Concurrent was bought out. At that point, Perkin-Elmer said they had culminated their multi-year process of exiting from computer market, allowing them to focus on their primary business segments.

1999

Modern PerkinElmer traces its history back to a merger between divisions of what had been two S&P 500 companies, EG&G Inc. of Wellesley, Massachusetts and Perkin-Elmer of Norwalk, Connecticut. On May 28, 1999, the non-government side of EG&G Inc. purchased the Analytical Instruments Division of Perkin-Elmer, its traditional business segment, for US$425 million, also assuming the Perkin-Elmer name and forming the new PerkinElmer company, with new officers and a new board of directors. At the time, EG&G made products for diverse industries including automotive, medical, aerospace and photography.
The old Perkin-Elmer Board of Directors and Officers remained at that reorganized company under its new name, PE Corporation. It had been the Life Sciences division of Perkin-Elmer, and its two component tracking stock business groups, Celera Genomics and PE Biosystems, were centrally involved in the highest profile biotechnology events of the decade, the intense race against the Human Genome Project consortium, which then resulted in the genomics segment of the technology bubble. Perkin-Elmer purchased the Boston operations of NEN Life Sciences in 2001.