Humidity indicator card

Humidity indicator card

A humidity indicator card (HIC) is a card on which a moisture-sensitive chemical is impregnated such that it will change color when the indicated relative humidity is exceeded. This item is an inexpensive way to quantify relative humidity levels inside sealed packaging. They are available in many configurations and used in many applications, especially military and semiconductor.

The most common humidity indicator cards change color from blue (less than indicated RH level) to pink (greater than indicated RH level). Base chemical is cobalt(II) chloride). United States Military Specification [http://assist.daps.dla.mil/quicksearch/basic_profile.cfm?ident_number=7337 Mil-I-8835A] is the governing specification for a humidity indicator card. The humidity indicator card is also specified for use in [http://www.jedec.org/download/default.cfm J-STD-033] which is the standard for Handling, Packing, Shipping and Use of Moisture/Reflow Sensitive Surface Mount Devices, also known generically as semiconductors. This is a joint standard developed by the Joint Electron Device Engineering Council and [http://www.ipc.org/ IPC] and is used in semiconductor packaging.

History

The need for an easily read humidity indicator that could not be damaged by vibration was identified during World War II. Rear Admiral Welford C. Blinn, at that time the Commander of the USS Pope, became concerned about the poor condition of the weapons and ammunition arriving in the Pacific Theater. High humidity in the South Pacific, coupled with poor packaging methods, was causing corrosion and moisture damage. A significant amount of ordinance was arriving in an unstable, and sometimes dangerous, condition. Following the end of the war R. Admiral Blinn was assigned to Washington, D.C. where he had the use of a research lab. There he developed the concept for the first color change humidity indicator, a simple “go/no-go” method of monitoring humidity.

In the late 1940’s, Relative Humidity in the range of 30-35% was the concern because this is when corrosion can begin. For 50 years, industrial and military applications for color change humidity indicators were the primary market for these products. R. Admiral Blinn founded Humidial Corporation in 1948 Acquired by [http://www.sud-chemie.com/scmcms/web/content.jsp?nodeId=5994&lang=en Süd-Chemie, Inc.] in 1989 to commercialize humidity indicators.

In the mid-1980’s decedents of R. Admiral Blinn, began working with manufactures of semiconductors to identify and resolve the problem of “pop corning”. It was determined that the solder mounting of semiconductors, also known as devices, onto boards can cause "pop corning" of certain types of surface mount packages if they have been improperly stored or handled. This package delamination occurs as excessive moisture within the package expands as a result of the rapid thermal changes experienced during solder mount operations. As a result an industry wide standard for packaging of semiconductors was released in 1989. This standard, EIA 583, called for the use of humidity indicator card that would indicate as low as 10%. Adherence to proper storage and handling methods immediately reduced the number of failures in the semiconductors, but over the years it became apparent that even humidity levels under 10% were detrimental to the devices. Once again, the Joint Electron Device Engineering Council (JEDEC), now the standards body for semiconductor packaging, went to the decedents of R. Admiral Blinn to determine the feasibility of making a 5% color change humidity indicator. In April 1999, J-STD-033 was released with a 5, 10, 15% color change indicator card specified.

Cobalt Free Humidity Indicator Cards

Cobalt-free brown to azure(copper (II) chloride base) HIC's can be found on the market. In the year 1998 European Community (EC) has issued a directive (adapting to technical progress for the 25th time Council Directive 67/548/EEC on the approximation of the laws, regulations and administrative provisions relating to the classification, packaging and labeling of dangerous substances) which classifies cobalt(II) chloride compounds containing Cobalt Chloride percentages (w/w) between 0,01 and 1 as an T (Toxic) and R49 (may cause cancer if inhaled).As a consequence new cobalt-free humidity indicator cards have been developed by some companies.

Although the EC issued this directive, it does not ban humidity indicators that contain cobalt(II) chloride which has been a common misconception. The only effect the EC directive has on a humidity indicator card that contains cobalt(II) chloride is setting labeling requirement thresholds. There are two way of considering the EC directive:1) The cobalt based HIC producers says that if a humidity indicator is considered an article in the EC definition and therefore has no labeling requirements if the % of cobalt(II) chloride by weight is <0.25%. The T (toxic) and R49 (may cause cancer if inhaled) is not applicable because a humidity indicator cannot be inhaled.2) On the other hand, if you consider HIC as a chemical (indicating spot) on a paper card (indicator) the consequence is that it should be considered as a is a preparation, the concentation limit changes to 0,01 Cobalt and it should be labeled as T (toxic) and R49 (may cause cancer if inhaled). Moreover it is clear that the HIC can not be ihaled, but the regulation is about the content of substances and is a warning for used, for example if they know the harmful substances in the HIC they will avoid to burn them.

HICs in Semiconductor Packaging

For semiconductor packaging, HICs are packed inside a moisture-sensitive bag, along with the desiccant, to aid in determining the level of moisture to which the moisture-sensitive devices have been subjected.

JEDEC is the leading developer of standards for the solid-state industry and sets the standards for semiconductor packaging. The latest JEDEC standard, the Joint Industry Standard for the “Handling, Packing, Shipping and Use of Moisture/Reflow Sensitive Surface Mount Devices” J-STD-033B, sets forth the use and testing of humidity indicator cards in the dry packaging of semiconductors. HICs are used to ensure that the humidity within dry packed barrier bags remains at safe levels for surface mount devices. In the past, HICs for the semiconductor industry have indicated relative humidity (RH) levels of 5, 10 and 15 percent. However, JEDEC and IPC released JSTD-033B in 2005, which requires the use of an HIC that indicates RH levels of 5, 10 and 60 percent.

The standard includes the use and testing of humidity indicator (HI) cards in the dry packaging of semiconductors. The methods outlined in the standard are prescribed by JEDEC and IPC to avoid damage—like cracks and delamination—from moisture absorption and exposure to solder reflow temperatures that can result in yield and reliability degradation.

The stipulations of J-STD-003B state:

1) HICs must adhere to a standard, minimum color-change quality level to ensure accuracy and readability between dry and humid states: The Color Meter Test Method, quantitatively determines the accuracy of color change HICs. The levels, as outlined in the J-STD-033B revision, require a “significant, perceptible change in color” between noted humidity levels. Manufacturers are required to test their cards for accuracy using a colorimeter device and be required to provide a test report to the customer certifying that the HIC meets quality requirements.

2) HICs must indicate humidity levels for MSL 2 Parts, in addition to MSL 2a to 5a: Whereas previous cards used a 5, 10 and 15 percent relative humidity spot system to indicate humidity exposure levels for moisture sensitive components, the new HIC will now feature spots indicating 5, 10 and 60 percent. The change means that cards will now indicate humidity exposure for Level 2 MSL devices. Additionally, a positive reading on the 60 percent spot indicates that cards should not be re-used, as the high levels of humidity to which the card has been exposed will jeopardize the accuracy of low (5% RH) readings. The 5, 10, 60 percent cards are complaint with Europen Community Council Directive 67/548/EEC as long as they do not contain more than the applicable amount of cobalt chloride.

The full standard can be downloaded from [http://www.jedec.org/ JEDEC] .

Maximum Irreversible Humidity Indicator Cards

Maximum Humidity Indicator Cards are specially designed cards that monitor relative humidity levels in cargo applications. Each level of humidity is represented by a blue crystal that dissolves to create a large blue spot that clearly indicates the highest relative humidity level that has been reached. Maximum Humidity Indicator Cards are irreversible, thus indicating the highest level of humidity experienced by cargo during its voyage, regardless of current (potentially lower) humidity levels. Maximum Humidity Indicator Cards provide a clear, unmistakable means of determining if goods have been exposed to damaging humidity levels during their journey. If the card indicates high levels of humidity, users know check their products for possible damage or modify their packaging regimen accordingly.

External links

* [http://www.levosil.com/english/indicatori-di-umidita.php Levosil Company]
* [http://www.multisorb.com/products/desiccants/cards/humonitor_html Multisorb]
* [http://www.sud-chemie.com/scmcms/web/content.jsp?nodeId=6254&lang=en Sud-Chemie]
* [http://www.desiccare.com/hic.html Desiccare]
* [http://www.gpne.co.kr/new2006/eng/bu_01.php GP&E]


Wikimedia Foundation. 2010.

Игры ⚽ Поможем сделать НИР

Look at other dictionaries:

  • Humidity indicator — A humidity indicator is a moisture sensitive chemical that changes color when the indicated relative humidity is exceeded. Some chemicals are: cobalt(II) chloride (toxic) (blue to pink) copper(II) chloride (yellow to blue) There are other colors… …   Wikipedia

  • Desiccant — Silica gel A desiccant is a hygroscopic substance that induces or sustains a state of dryness (desiccation) in its local vicinity in a moderately well sealed container. Commonly encountered pre packaged desiccants are solids, and work through… …   Wikipedia

  • Compass — This article is about the direction finding instrument used in navigation. For other uses, see Compass (disambiguation). A simple dry magnetic pocket compass …   Wikipedia

  • Phoenix (spacecraft) — This article is about the Mars lander. For the Star Trek spacecraft, see Phoenix (Star Trek). For other uses, see Phoenix (disambiguation). Phoenix Mars Mission Artist s impression of the Phoenix spacecraft as it lands on Mars Operator NASA …   Wikipedia

  • Business and Industry Review — ▪ 1999 Introduction Overview        Annual Average Rates of Growth of Manufacturing Output, 1980 97, Table Pattern of Output, 1994 97, Table Index Numbers of Production, Employment, and Productivity in Manufacturing Industries, Table (For Annual… …   Universalium

  • Health and Disease — ▪ 2009 Introduction Food and Drug Safety.       In 2008 the contamination of infant formula and related dairy products with melamine in China led to widespread health problems in children, including urinary problems and possible renal tube… …   Universalium

  • United States — a republic in the N Western Hemisphere comprising 48 conterminous states, the District of Columbia, and Alaska in North America, and Hawaii in the N Pacific. 267,954,767; conterminous United States, 3,022,387 sq. mi. (7,827,982 sq. km); with… …   Universalium

  • Germany — /jerr meuh nee/, n. a republic in central Europe: after World War II divided into four zones, British, French, U.S., and Soviet, and in 1949 into East Germany and West Germany; East and West Germany were reunited in 1990. 84,068,216; 137,852 sq.… …   Universalium

  • Operation Shed Light — Part of the Vietnam War Tropic Moon III B 57G aircraft with FLIR and LLLTV in nose …   Wikipedia

  • Heat illness — Calenture redirects here. For the album by The Triffids, see Calenture (album). Heatstroke and Heatstrokes redirect here. For the film, see Heatstroke (film). For the song by Krokus, see Metal Rendez vous. Sunstroke redirects here. For other uses …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”