As the economy becomes increasingly global, ISO 14644 and 14698 will allow accurate apples-to-apples comparisons of cleanrooms around the world
by Chris Anderson
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No one ever thought writing a set of global standards for cleanrooms or controlled environments would be easy or fast. In fact, as we stand on the brink of 2002, it has been more than eight years since contamination-control professionals from varied industries and from around the world first convened to draw up ISO standards 14644 and 14698. And it could still be another six months or more until the last of the 10 separate standards are released.
Interestingly, the ISO cleanroom standards derive their power from their very basic and general language. As Dick Matthews, chairman of ISO Technical Committee 209 which is charged with writing the standards points out, the standards are not created to describe how a company must manage its cleanroom operations. Instead, the standards are in place to create a basic framework of cleanroom operation one that allows for the accurate apples-to-apples comparisons of cleanrooms operating in England, France, Singapore and the United States or any ISO-participating country.
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Dick Matthews, chairman of ISO Technical Committee 209, which is charged with writing the ISO cleanrooms standards.
As the economy becomes increasingly global, having ISO 14644 and 14698 in place allows worldwide buyers of components and products to have a single source for measuring supplier companies' operations without having to understand the myriad country-specific standards that have held sway in the past.
In short, global standards are good for business.
Between buyers and sellers
The challenges in writing a set of global standards are many. First, both 14644 and 14698 need to serve cleanroom operations in the broadest spectrum of industries. This includes everything from manufacturers of integrated circuits with sub-micron line widths, to automotive spray-paint booths that merely want a cleaner environment that will prevent blemishes in finishand every cleanroom application in between. For this reason the standards are created as generic documents whose purpose is to create a wide range of parameters applicable, as needed, across this broad spectrum.
Still, some businesses might take issue with the contents of many of the standards. But Matthews is quick to point out that this is not a problem. “Some things won't apply to some of the industries,” he says. “We are basically providing a menu and industry-specific people can generate whatever they need to provide clean space for their business.”
The ISO standards serve as a way for everyone to converse about topics using the same terminology, while providing accurate comparisons of operations in different parts of the world. Mike Fitzpatrick, program director of Lockwood Greene Advanced Technologies (Tempe, AZ), admits he was shocked by the sheer number of standards suggested in ISO 14644-4 for the design and construction of cleanrooms.
“When I looked at them I felt that if you were to implement all of those requirements to the letter you would spend more on ISO validation than you would building a facility,” he says. But a subsequent conversation with a customer enlightened him to the real uses of this particular standard. “When I asked him if he had read 14644-4 he said he had,” Fitzpatrick explains. “When I asked if he wanted me to do all that, he said 'No, I want you to go to table such and such and give me that portion.' So I see that people will be picking and choosing which parts to apply.”
This is music to Matthews' ears, as this is exactly how the standards are meant to be used. “The selection of items is strictly between the buyer and seller,” Matthews says. “It's not 'you will do it this way or else,' there is no policing function as such with these standards.”
Further, some see the standards as a way to bring industry newcomers charged with creating cleanrooms up to speed. “There are an awful lot of people coming into the industry right now that don't have cleanroom experience,” says Roger Diener, contamination control engineer with Analog Devices (Wilmington, MA). “These documents give a very organized framework for them to start thinking about how they are going to operate that cleanroom: what kind of systems they need in place; what they need to know about [garments]; what equipment they can bring in and out and what they need to know about personnel.”
While eight of the 10 standards for cleanroom operation serve in an advisory capacity, the first two standards releasedISO 14644-1 which establishes air-quality classifications and 14644-2 which sets forth the testing methods necessary to prove compliance with 14644-1are set in stone. Partly because there is no room left for interpretation and partly because the two standards are well conceived, both have received very favorable reviews from the industry. “14644-1 is a great document in my opinion,” says Fitzpatrick. “But in one sense it is easier for it to be a great document because it is based on sciencethere is no room for interpretation.”
Standards for today's technology
Though word of its official demise has not yet come from the General Services Administration, the creation of ISO standards 14644-1 and 14644-2 may have sounded the death knell for Federal Standard 209E. Used as the de facto standard for cleanroom operations in many countries outside the United States, 209E provided clear guidance for years. While the two standards are similar in many ways, ISO 14644-1 goes it three better. Three, since it contains three new classifications of air cleanliness beyond the bounds of FS 209Etwo are cleaner then 209E's Class 1 and one less clean than Class 100,000.
The two cleaner air classifications are significant. “Companies have moved off Class 1 to creating environments cleaner than that in recent years,” says Ken Goldstein, principal with Cleanroom Consultants Inc. (Phoenix). “Well, once you go off the scale, there are no definitions to describe what you are doing.” To combat this, ISO 14644-1's two cleaner classifications ISO Class 1 and ISO Class 2, now clearly define these cleaner levels and allow companies that are pushing the envelope of air cleanliness to show exactly how clean their controlled environments are.
To make extrapolation between FS 209 (which counted particles 0.5 micron per square foot), ISO 14644-1 lowers the size limit to 0.1 micron and measures particles in volumes of square meters. Measuring for smaller particles in a clean environment is very important considering the shrinking geometries of today's ICs says Chuck Berndt, principal of C.W. Berndt Associates (Highland Park, IL). “Since 209E, we are making smaller chips with smaller geometries,” he says. “These days we're talking about pushing 0.13 microns. You can't do these things in the old 209E Class 1 cleanroom and certainly not in Class 10. What 14644-1 brings to the party are the tools that we didn't have before in which these kinds of new technologies can effectively flourish.”
Goldstein says the 0.5-micron size was no longer pertinent for another reason. “For the microelectronics people, 0.5-micron particles are not a significant problem anyway,” he says. “There aren't enough of them in the air to worry about, which is why people have been concerned with 0.2- and 0.1-micron particles for a long time.”
While high-tech lauds the inclusion of two cleaner air standards introduced by 14644-1, there are other industries that equally appreciate the introduction of a “dirtier' air standard that goes beyond the 209E's Class 100,000. This class, ISO Class 9, is the equivalent of a room with 1,000,000 particle per square foot and is applicable for the production of bulk powders and other substances to ensure their relative purity.
Previously, if these industries wanted to adhere to a standard for air cleanliness they would have needed to be 209E Class 100,000. “The new standard is for baseline people entering the contamination-control world at a level that is not as stringent as the inhabitants of the previous world,” says Goldstein. He notes that those who stretched to reach Class 100,000 even though the operation didn't need to be anywhere near that clean were “using sledgehammers for thumbtacks.”
“Now [with ISO Class 9] they have something acceptable that actually defines cleanrooms that are as applicable to them are the [lower classes] are to Intel,” Goldstein says.
Also, since all ISO standards come up for review every five years, ISO 14644-1 is not locked into the nine classes it currently lists, though it seems unlikely there will be new classes added anytime soon. “Once you get to Class 9, there are some office buildings that are cleaner than that,” says Bob Mielke, senior metrology engineer with Abbott Laboratories (North Chicago, IL). “So the chance of going higher than Class 9 are slim.”
On the cleaner side, there are other limits with which to contend. First, existing optical-particle counters are operating very near their limit when dealing with 0.1-micron particles. And ISO Class 1 is extremely clean. “Anybody who claims they have an ISO Class 1 is either talking about an extremely small area or is lying about it,” says Goldstein. Both of which indicate it may be some time before manufacturers are stretching the limits of ISO Class 1.
What does it all mean?
So how will the operations of manufacturers with cleanrooms be affected by the new standard? Probably not significantly, say those in the industry. For longtime cleanroom operators it may be merely writing down a plan that shows all of their policies and procedures for manufacturing in their cleanrooms, along with the regular monitoring of the clean environments to support their cleanliness classification.
The pharmaceutical industrysince it is government-regulatedis watching closely to see how regulatory agencies respond to ISO 14644 and 14698. So far there is no word from the Food and Drug Administration (FDA) regarding the cleanroom standards and Mielke, for one, is not surprised. “Let's say hypothetically that the FDA adopts 14644 part 1 and part 2. They may not say it publicly, but you'll start hearing that they are writing [violation notices] because you aren't meeting those standards, so you'd better start. If that happens, in effect, it will become the de facto regulatory standard,” he says.
Mielke anticipates that there will continue to be some small discrepancies between regulatory agencies from different countries, but the benefit will be that all pharmaceutical manufacturers around the world will be measuring their cleanrooms using the same criteria and using the same scientific vocabulary.
Meaning that the most lasting benefits for pharmaceutical companies will be the same as it is for other industries adhering to the ISO cleanroom standards. “When all is said and done, no matter what else, the ISO classes mean we still have the same number of particles per cubic meter within each class, no matter where that air is used and no matter what industry,” says Matthews. Combined with the more than 400 pages of supporting information in all the standards, ISO 14644 and 14698 are powerful tools. “When taken all together it's a tool that allows anybody, at any place in the world to operate a cleanroom to a common-denominator criteria,” Matthews says.
Chris Anderson is a special correspondent to CleanRooms Magazine. He resides in Portland, Maine.
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IEST's role undiluted by global cleanroom standards release
MOUNT PROSPECT, ILYears ago, when the idea of developing global cleanroom standards first emerged, some in the industry openly wondered what the prospects were for the Institute of Environmental Sciences and Technology (IEST). Indeed, some thought global standards would supersede the work of the 48-year-old educational standards and practices organization and lead to its demise.
Nothing could be further from the truth. In fact, the release of ISO standards 14644 and 14698 should highlight the importance of IEST's ongoing work of developing recommended practices for the wide range of cleanroom operational issues.
Dick Matthews, chairman of ISO Technical Committee (TC) 209, which is responsible for writing the ISO standards, likens them to a skeleton that specific industries will flesh out with their own specific manufacturing needs.
“The fact is ISO, which is fantastic, just gets us all on the same page,” says Chuck Berndt of C.W Berndt Associates and chair of IEST's Standards and Practices Committee 5: Environmental Control. “But the very substantive underpinnings for these standards are documents like the IEST's recommended practices which are a more specific road map for operations.”
IEST also serves as the secretariat in the United States for ISO TC 209, and in some cases has provided documents and direction for particular standards writing to ISO working groups. Mike Fitzpatrick of Lockwood Greene is the chair of IEST's Working Group 28, which provides recommended practices for minienvironments. “About half way through our document, I contacted Dave Ensor [currently working on ISO 14644-7 for minienvironments] and we did a gut check with each other to make sure we didn't have any contradictory information in either documents.”
Fitzpatrick sees his group's soon-to-be-released recommended practice (RP) 28 for minienvironments as an important addendum to ISO 14644-7 when it's published. “We tried to cover minienvironments from both the microelectronics side and the pharmaceutical side, but soon realized that there was just two much separating the two industries to do it in one document,” says Fitzpatrick. “So we ended up focusing on microelectronics.”
From Fitzpatrick's view, the coming ISO 14644-7 has taken a decidedly pharmaceutical slant. The result is that many companies using minienvironments for microelectronic processing will find more specific, pertinent information for their operations contained in IEST's RP 28.
“The ISO standards are, by design, broad brush and generic,” Fitzpatrick notes. “The IEST, through the working groups and recommended practices, will fill in the gaps more definitively for particular markets and particular applications.”
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The ISO cleanroom standards
ISO 14644 Cleanrooms and associated controlled environments
14644-1: Classes of Air Cleanliness. One of the few standards with mandatory criteria, part 1 defines nine ISO cleanroom classes, two cleaner and one “dirtier than Federal Standard 209E.”
14644-2: Specification for testing and monitoring to prove compliance with ISO 14644-1. This standard specifies the testing requirements to show compliance with 14644-1 and the mandatory tests needed to show compliance.
14644-3: Metrology and Test Methods. Specifies the metrology and testing methods for characterizing the performance of cleanrooms and clean zones.
14644-4: Design and Construction. Covers all the aspects and specifies the requirements of cleanroom design and construction.
14644-5: Cleanroom Operations. Covers the basic requirements of operating a cleanroom regardless of the class of cleanliness.
14644-6: Terms, definitions, & units. Defines those terms that require more specific description than is found in normal dictionary sources
14644- 7: Separative enclosures (clean-air hoods, glove boxes, isolators and minienvironments). Specifies the minimum requirements for the design, construction, installation, testing and approval of separative enclosures in those respects where they differ from cleanrooms.
14644-8: Classification of airborne molecular contamination. Covers the classification of molecular contamination in terms of airborne concentrations of specific compounds or chemicals and provides a protocol that includes test methods and analysis.
ISO-14698 Cleanrooms and associated controlled environmentsBiocontamination control
14698-1: General principles and methods. Describes the principles and basic methodology for a formal system to assess and control biocontamination in cleanrooms.
14698-2: Evaluation and interpretation of biocontamination data. Gives guidance on basic principles and methodology requirements for all microbiological data evaluation obtained from sampling for viable particles in specified risk zones in cleanrooms.
Editor's note: Standards in bold have been released.