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In Circuit Test

In Circuit Test (ICT) and Part Programming Product Lines

Analyst In Circuit Test Systems

High-coverage In Circuit Test (ICT)

The CheckSum Analyst ems is designed to test all types of circuit assemblies. The system combines manufacturing process testing with TestJet Technology to test a single assembly or a panel of multiple assemblies.

MultiWriter Part Programming

In Circuit On-Board Part Programming
On-Board, Production Part Programming for up to 384 devices simultaneously means high-throughput at low cost.

Test fixtures


Reliability at low cost

Reliable low-cost test fixtures from CheckSum.

Turnkey support
Custom fixtures & test programs

Only CheckSum offers complete ready-to-run turnkey applications packages so your boards are in production fast.

In Circuit Test Strategy

New Circuit Board Technology Requires New Strategic Thinking

Circuit board technology evolves rapidly: more highly integrated devices, increasing package pin counts, denser placement of smaller components and thinner circuit traces. For boards ranging from simple to complex, the test and inspection process remains as critical as ever.  Bad parts still find their way onto boards. Assembly and soldering defects still occur. In-circuit test (ICT) is still the most cost effective means to identify component faults and manufacturing process defects.  And as long as there are circuit boards, ICT will continue to be the key to effective manufacturing process test.

But evolving technology requires a complete rethinking of in-circuit test strategy—and about the in-circuit tester itself.

Traditional ICT capabilities are increasingly expensive—and unnecessary

The Fault Spectrum Shift has basically negated the cost effectiveness of traditional ICT testers such as the Agilent 3070-series and Teradyne TestStation. Capabilities found on these testers such as high-accuracy analog and digital vector test are increasingly superfluous because they are designed to test for faults that rarely—if ever—occur on today’s boards.  In fact, traditional digital vector test is ineffective on today’s complex, highly integrated devices. And newer assembly defect classes such as cold solder joints and skewed components are simply invisible to in-circuit testers and must be diagnosed by other means such as automated imaging (AOI, AXI).

Evolving technologies aren’t the only reason you should reexamine your ICT strategy and equipment.  Today’s smaller test departments and constrained budgets demand lower ICT costs. In a fixed budget environment every dollar you spend unnecessarily on ICT means a dollar that you can’t invest in new inspection technologies like AOI and AXI.

The Low Cost ICT strategy

Seeking a lower-cost ICT strategy demands that you examine not only the purchase price of the tester, but also ongoing operating and applications cost, such as fixturing, programming, and support. Keep in mind that no matter how low the purchase price, “big iron” ICT still has high overhead costs from complex test fixtures and lengthy test programming processes—even when built-in capabilities like vector testing are not even used.

The good news about new board and parts technologies and the resulting Fault Spectrum Shift is that much lower cost ICT systems will do the job as effectively as old, expensive ones.  That’s where the CheckSum Analyst Low Cost In-Circuit Testers come in.  Check them out and see how CheckSum can reduce testing cost and help increase manufacturing margins.

In Circuit Test (ICT) plus Part Programming

Analyst ems 12KN
High-coverage in circuit test

Capable. Flexible. Straightforward. The CheckSum Analyst ems combines comprehensive manufacturing process testing with TestJet Technology for low cost in circuit test of today’s complex boards.

Analyst ems+ft 12KN 
In circuit and functional test

The Analyst ems+ft combines all the in circuit capability of the Analyst ems with versatile power-on functional test, including relays capable of switching up to 250VAC (rms), full DMM, function generator and counter-timer for simple test routines to full functional test sequences.

Analyst ems TR-3-Console
Vacuum-based in circuit test

The Analyst ems TR-3-Console is an integrated rack/console system with vacuum-based fixturing.

Analyst ils
In-line in circuit test

The Analyst ils integrates the in circuit testing capability of the Analyst platform into an automated in-line board handling system–at a price less than many manually operated in circuit testers.

Analyst ems 
In circuit test

The Analyst ems can be integrated with desktop pneumatic or mechanical type fixture systems. These low-cost test and fixture systems require a small space.

Customer Case Histories

How CheckSum customers increase productivity and reduce cost

Founded in 1987, CheckSum has been delivering reliable, cost-effective, and flexible in-circuit test and on-board, in-system programming solutions to OEMs and contract manufacturers (CM). With an installed base of over 3,000 test systems at more than 200 manufacturing sites in over 40 countries, CheckSum’s customers range from automotive electronics manufacturers to global EMS / CM providers.

CheckSum’s practical production test and on-board, in circuit, part programming solutions help its customers reduce total test and manufacturing costs and increase profit margins.

Read these customer case histories and newsletters to see how CheckSum delivers solutions that meet the demanding technical requirements while reducing total cost:

Tier 1 Contract Manufacturer Cuts Programming Cost by 66%

On-Board Part Programming with Pay-Per-Use

How One Manufacturer Slashed
In-Circuit Test Cost by 60%

CheckSum’s Analyst Works
Side-By-Side with ’Big Iron’ In Circuit
Testers at a Fraction of the Cost

An OEM finds the Analyst is the
Ideal Platform for Boundary Scan
Test and High Throughput In Circuit
Part Progamming

Contract Manufacturer (CM) Implements
Boundary Scan Test on a New Board with
CheckSum’s Analyst In Circuit Test System
Fault Coverage Improves 30%

Practical Ways to Reduce the Cost of Test

Managing Your Tester Portfolio and
Achieving a Low Cost Board Test Strategy

Many test engineers seek to „standardize” on a single brand or model in circuit tester. Intuitively, this makes sense: only one vendor to deal with, common fixturing, a single programming environment, simplified support. In order to deal with any board of any complexity, it seems to also make sense to standardize on traditional high-end in circuit tester that has all the reserve horsepower–high accuracy analog, sophisticated digital backdrive, functional test facilities, etc.–that the test engineer might ever need.
ICT Platform „Standardization” Means Higher Cost of Test

But traditional „big iron” ICT always drives up overall test cost–even when it’s the „standard” that’s supposed to reduce overall test cost. The theoretical savings of a “standard” rarely offsets the high fixturing, programming and support costs that traditional ICTs entail.  A high capability tester is absolutely right for a high complexity board.  But putting a simpler board on a „big iron” ICT is analogous to planting a rosebush with a backhoe: The job gets done, but it’s a lot more complicated and expensive compared to putting the less complex board on a less complex tester that has lower application and support costs.
Tester Portfolio Management is Straightforward

Just as a portfolio manager maximizes investor return by using a variety of investment vehicles, the „tester portfolio manager” will distribute test jobs between the „big iron” ICT and the Low Cost ICT based on criteria such as board complexity and production volume. This way, lower cost testers, fixtures and programs test boards that don’t require expensive capabilities like digital backdrive. Complex boards, such as those with specialized low-voltage chips are tested on machines with the required tester resources.
Tester Portfolio Management Saves Money

Tester Portfolio Management reduces total test cost by avoiding unnecessary tester overhead for test jobs that don’t require expensive „big iron” test capabilities–especially digital vector test (aka 'backdrive’). Because Low Cost ICT does away with the inherent complexity of digital test not only is the tester itself simpler and less expensive, but fixtures and programs, too. One user who implemented the same board on both types of testers experienced a greater than 75% cost savings in applications cost (fixture + test program) on the Low Cost ICT. Check out a similar case for yourself.
Consider Test Cost Up Front.  Not After It’s Too Late.

When implementing new test jobs seek the lowest cost test solution by evaluating the total test cost ahead of time– even if it means investing in a „non-standard” Low Cost ICT . Today, „big iron” and Low Cost ICT coexist on an increasing number of test floors delivering much lower total testing cost than a single high-end „standard.” Even though building a tester portfolio instead of a single standard seems counterintuitive. That’s what a major automotive electronics manufacturer thought until they reduced test cost by more than 60% without any increased „escapes” to functional test.

Test Economics

Improve manufacturing margins by reducing test cost

Test is necessary but wasteful because it adds no value to the product. In today’s world of tight manufacturing margins circuit board test is an ideal cost reduction target.  Yet, many OEMs and contract manufacturers (CMs) continue to generate unnecessary cost—and reduce their margins—by continuing to put every test job on their expensive ‘big iron’ in circuit testers with their high fixturing, programming and support costs.

CheckSum estimates that by sticking with traditional ‘big iron’ ICTs instead of investing in Low Cost ICT, OEMs and CMs unnecessarily spend more than $250 million per year in additional test cost.  In a world where every margin dollar makes a difference, reducing that unnecessary cost is an ideal way to improve the manufacturing bottom line.

The example at right illustrates how a contract manufacturer with 5% gross margins can add 40 basis points to its gross margin—an 8% improvement—by reducing circuit board test costs by just 10%.  One Tier 1 manufacturer found that it could reduce in circuit test cost by 60%. Even if ICT cost represents just half of total board test cost, that’s a 30% cost reduction.

CMs who have recognized and seized this cost reduction opportunity are enjoying both increased operating margins and competitive advantage.  OEMs who recognize that test costs can be reduced are well positioned to negotiate lower overall prices from their CM.

3 steps to reduce board test cost

  1. Senior managers at both CMs and OEMs recognize that board test is not a sacrosanct activity that cannot be tampered with because of groundless fears it might adversely impact product quality and reliability. Rather they should view it a viable cost-reduction opportunity.
  2. Manufacturing and test managers must understand the sources of existing test cost. The most critical aspect of understanding is, “know thy fault spectrum.” A Test Cost Comparison Model available from CheckSum is a helpful tool to organize and speed the cost analysis process.
  3. Understand the impact of the shifted fault spectrum on in circuit test and deploy test jobs to testers with expensive-to-use features like digital vector test only when the capability is actually needed. Tester Portfolio Management is the sensible strategy to ensure maximum test effectiveness at minimum test cost.

Strategia testu dwustopniowego

Myślenie poza jedną platformą w strategii testu.

Duże stałe testery obwodów sprzedawane są od lat jako platforma „robiąca wszystko”: analogowe w obwodzie; cyfrowy test wektorowy (backdrive), test wektorowy, programowanie ISP, skanowanie granic, test funkcjonalny oparty na oprzyrządowaniu itp.

Ujednolicenie wszystkich tych zadań może uprościć i ujednolicić zadanie grupy testowej, bez względu na to, jakie niespodziewane nowe technologie mogą wysłać projektanci produktu. Nie ma dodatkowego wyposażenia uzasadniającego zarządzanie i kupowanie. Personel jest już przeszkolony w zakresie korzystania z systemu. Wielki dostawca testerów stałych mówi: „Po prostu dodaj opcjonalny sprzęt i oprogramowanie, a będziesz gotowy”.

Próbuję zrobić wszystko na dużym, stałym testerze obwodów …

 

Ale rzeczywistość jest zawsze bardziej skomplikowana.

  • Twój duży tester stały nie jest najnowszym modelem i wymaga drogiej aktualizacji komputera, zanim będziesz mógł dodać potrzebne akcesoria.
  • Nowe karty kanałów, takie jak potrzebne do programowania ISP, oznaczają, że musisz zmodyfikować wyciskanie urządzenia testowego.
  • Opracowano zestaw testów skanowania granic, ale tester wymaga, aby testy te zostały „przetłumaczone” na rodzime środowisko wektorowe testera.
  • Integracja nowych procedur, takich jak skanowanie granic lub programowanie ISP z istniejącymi programami obwodowymi, zajmuje dużo czasu, ponieważ modyfikowanie plików programów wpływa również na wiele innych plików.
  • Odkrywasz, że tester dużych żelazek może zaprogramować tylko jedno urządzenie ISP na raz; drastycznie spowalnia przepustowość.
  • Podana cena za ulepszenia testera jest znacznie wyższa niż się spodziewano.

Strategia testu dwustopniowego

Na początku wydaje się to sprzeczne z intuicją, ale wdrożenie nowych testów na nowej, taniej platformie może drastycznie uprościć ogólne zadanie, przyspieszyć przepustowość i kosztować znacznie mniej niż próba zintegrowania wszystkiego w dużymstałym testerze. W jaki sposób?

Strategia dwustopniowa upraszcza konfigurację, przyspiesza przepustowość i zmniejsza całkowity koszt.
  • Elastyczna druga platforma została zaprojektowana z myślą o prostocie:
  • Sprzęt do programowania szeregowych układów ISP jest kompaktowy i umieszczony bezpośrednio w urządzeniu dla szybkich i czystych sygnałów
  • Platforma korzysta bezpośrednio z oprogramowania i sprzętu do skanowania granic, bez skomplikowanych tłumaczeń i ponownego debugowania.
  • Generowanie oprogramowania testowego i debugowanie jest proste.
  • Możesz programować wiele urządzeń ISP równolegle z efektywną szybkością zapisu danych, przyspieszając przepustowość.
  • Cały pakiet (platforma testowa, urządzenie i oprogramowanie) kosztuje mniej niż trzy lub cztery duże testy żelaza
    osprzęt.
  • Zobacz, jak masowy producent wykorzystał strategię dwustopniową do zwiększenia wydajności

In Circuit Test Strategy

New Circuit Board Technology Requires New Strategic Thinking

Circuit board technology evolves rapidly: more highly integrated devices, increasing package pin counts, denser placement of smaller components and thinner circuit traces. For boards ranging from simple to complex, the test and inspection process remains as critical as ever.  Bad parts still find their way onto boards. Assembly and soldering defects still occur. In-circuit test (ICT) is still the most cost effective means to identify component faults and manufacturing process defects.  And as long as there are circuit boards, ICT will continue to be the key to effective manufacturing process test.

But evolving technology requires a complete rethinking of in-circuit test strategy—and about the in-circuit tester itself.

Traditional ICT capabilities are increasingly expensive—and unnecessary

The Fault Spectrum Shifthas basically negated the cost effectiveness of traditional ICT testers such as the Agilent 3070-series and Teradyne TestStation. Capabilities found on these testers such as high-accuracy analog and digital vector test are increasingly superfluous because they are designed to test for faults that rarely—if ever—occur on today’s boards.  In fact, traditional digital vector test is ineffective on today’s complex, highly integrated devices. And newer assembly defect classes such as cold solder joints and skewed components are simply invisible to in-circuit testers and must be diagnosed by other means such as automated imaging (AOI, AXI).

Evolving technologies aren’t the only reason you should reexamine your ICT strategy and equipment.  Today’s smaller test departments and constrained budgets demand lower ICT costs. In a fixed budget environment every dollar you spend unnecessarily on ICT means a dollar that you can’t invest in new inspection technologies like AOI and AXI.

The Low Cost ICT strategy

Seeking a lower-cost ICT strategy demands that you examine not only the purchase price of the tester, but also ongoing operating and applications cost, such as fixturing, programming, and support. Keep in mind that no matter how low the purchase price, “big iron” ICT still has high overhead costs from complex test fixtures and lengthy test programming processes—even when built-in capabilities like vector testing are not even used.

The good news about new board and parts technologies and the resulting Fault Spectrum Shift is that much lower cost ICT systems will do the job as effectively as old, expensive ones.  That’s where the CheckSum Analyst Low Cost In-Circuit Testers come in.  Check them out and see how CheckSum can reduce testing cost and help increase manufacturing margins.

Today’s Test Reality

Today’s Circuit Board Test Reality

Circuit Boards Have Changed.
So Has The Board Test Fault Spectrum.

Over the past several years printed circuit board assembly yields have increased as component and assembly process defect rates have decreased as shown in the figure on the right. In addition, the distribution of fault types typically found on boards during the manufacturing and assembly process has shifted over the past several years as illustrated in the fault spectrum pie diagrams to the right.

  • Solder defect rate has increased as SMT opens predominate over through hole shorts.
  • Solder defects are now mainly quality-related such as cold solder.
  • SMT process defect rate is lower than through-hole rate.
  • Overall parts defect rate has decreased dramatically, especially for digital ICs.
  • Circuit boards are increasingly inaccessible by bed-of-nails fixtures.

Why Does the Shifted Fault Spectrum Matter? Because the Fault Coverage of Traditional In Circuit Testers Is Declining.

  1. Densely packed boards and higher device speeds effectively eliminate test pads needed for bed-of-nails fixtures.  Loss of Access (LoA) means less ICT coverage.
  2. New chip package types such as BGAs impair access as well.
  3. Increasingly complex digital and mixed signal chips such as SOC make digital vector tests impractical or extremely expensive and time-consuming to develop.

The Shifted Fault Spectrum also means that the faults that traditional ICT is adept at finding occur much less frequently—reducing overall tester effectiveness—but not cost.

  1. Out-of-tolerance analog components rarely happen.
  2. SMT has resulted in opens and other solder quality problems that ICT has difficulty finding.
  3. Digital backdrive is best at finding defects on “jelly bean” logic—but they almost never fail, so there’s not much reason to test them in the first place.

As a Result
Test engineers have eliminated almost all of the tests traditional ICT was designed to do well—resulting in simple in circuit programs that leave all that „big iron” ICT capability either under-used or unused. This mismatch between today’s fault spectrum and yesterday’s traditional ICT means high overhead costs for unused tester resources in the form of more complicated fixtures and programs and the higher support costs inherent in complex testers.

New Technologies Will Augment In Circuit Test (ICT) 
While ICT remains the most economical means to identify manufacturing and component defects, new technologies such as Automated X-Ray Inspection (AXI) and Automated Optical Inspection (AOI) are being integrated into assembly lines to deal with the new defect classes that ICT can no longer—or simply never could—identify.

What Does the Shifted Fault Spectrum Mean For ICT?
If test engineers continue to use traditional „big iron” ICT for every test job, OEMs and contract manufacturers will keep generating unnecessary test costs. For North America alone, CheckSum estimates that more than $250 million annually is spent unnecessarily on testers, tester support, test programs and fixtures by using „big iron” where Low Cost ICT will do the job. Employing Tester Portfolio Management will reduce total ICT cost while maintaining superior fault coverage–and free up budgets to fund the new AOI and AXI technologies that today’s new board technologies also require.

Produkty Checksum

Technologie

Strategia testu

If You Think In Circuit Test (ICT) is a “Solved Problem,” You’re Wasting Money.
Evolving board and component technologies aren’t the only reason you need to reexamine your ICT strategy and equipment. Today’s smaller test departments and constrained budgets demand lower ICT costs. In a fixed budget environment every dollar you spend unnecessarily on ICT means a dollar that you can’t invest in new inspection technologies like AOI and AXI. Seeking a lower-cost ICT strategy means examining not only the tester’s purchase, but also ongoing operating and applications cost, such as fixturing, programming, and support. Keep in mind that no matter how low the purchase price, traditional “big iron” ICT still has high overhead costs that are built into the system like complex test fixtures and lengthy test programming processes. You continue to generate additional cost even when “big iron” capabilities like digital vector test are left unused.

What’s needed: “True” Low-Cost Test
Savvy OEMs and contract manufacturers know that the Fault Spectrum Shift, today’s increasingly complex boards, and shrinking budgets demand a test strategy that simultaneously delivers improved test coverage while reducing total test expense. CheckSum’s Analyst True Low-Cost in circuit tester provides the test coverage today’s—and tomorrow’s— technology demands at a fraction the system price and operating cost of traditional “big iron ICT—even their so-called “low-cost” ICT. So-called “low-cost testers” from traditional ICT suppliers still require the same high-priced fixtures and complicated programming processes as their more expensive siblings. Since application and operating costs usually exceeds tester purchase price after just a few test jobs, this is hardly a “low cost solution” where it matters: ongoing cost of ownership. CheckSum carries its low-cost design philosophy that eliminates unneeded complexity wherever possible through the entire test and ISP programming strategy: tester, bed-of-nails fixtures, test program development, high throughput ISP programming and operating and maintenance costs. CheckSum’s Analyst systems deliver a complete test solution: standard in circuit test and available vectorless test, boundary scan and ISP programming capability in a compact, rugged package supported by CheckSum’s exclusive turnkey services. That’s why True Low-Cost Test™ from CheckSum is the preferred solution for manufacturers who are willing to go back and reexamine their existing ICT strategies and equipment. And they’ve found that the cost saving reward is great.

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