Lab

The implementation of a new product is a multi-stage process in which the development of an electronic device is only one of the steps. At FastLogic, thanks to a professional workshop and laboratory, we can conduct almost the whole process internally. Our facilities allow us to conduct preliminary validation tests (pre-compliance), which accelerates the introduction of the product to the market and significantly reduces implementation costs.

Validation tests of compliance with harmonized standards allow the product to be given the CE mark and, as a consequence, enable the product to be placed on the market.

FastLogic has a proprietary laboratory facility, which allows some of the conformity tests to be done locally. Launching, functional testing and pre-certification tests of made prototypes are carried out in the laboratory, including Electromagnetic Compatibility (EMC). Within the lab, we carry out multiple tests of the devices we’ve designed, but they we are also open for validation of external devices/systems. This can be useful when the given equipment needs additional diagnostics or the client just wants to check its device before it is sent to the accredited laboratory. Also in the case of “A” path of CE marking process (so-called Internal Production Control) FastLogic can assist in the process of internal validation of a product complementary to the manufacturer’s documentation.

 

We use high-quality measurement equipment mainly Tektronix, such as DPO7000 oscilloscope with 3.5GHz bandwidth (40GS/s), MDO4000 oscilloscope with 500MHz bandwidth extended by additional 3GHz RF analyzer which allows for simultaneous analysis of DUT in time and frequency domain, which is useful for EMC problems diagnosis. We also have RSA306 RF analyzer for separate RF analysis up to 6GHz with antennas, and near-field probes, professional power analyzer PA1000 and 6 1/2 digit multimeter for exact current measurements (pA) for battery supplied electronics and low resistances (uR).

We pattern our precompliance tests to the following standards:

Harmonic current emissions

ETSI EN 301 489-1 ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements,

PN-EN 61000-3-2:2014-10 Kompatybilność elektromagnetyczna (EMC) — Część 3-2: Poziomy dopuszczalne — Poziomy dopuszczalne emisji harmonicznych prądu (fazowy prąd zasilający odbiornika < lub = 16 A), PN-EN 61000- 4-7:2007 Kompatybilność elektromagnetyczna (EMC) — Część 4-7: Metody badań i pomiarów — Ogólny przewodnik dotyczący pomiarów harmonicznych i interharmonicznych oraz przyrządów pomiarowych, dla sieci zasilających i przyłączonych do nich urządzeń

Conducted disturbances emissions

ETSI EN 301 489-1 ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements,

PN-EN 55032:2015-09 Kompatybilność elektromagnetyczna urządzeń multimedialnych -- Wymagania dotyczące emisji,

CISPR 16-2-1:2008 Specification for radio disturbance and immunity measuring apparatus and meth-ods - Part 2-1: Methods of measurement of disturbances and immunity - Conducted disturbance measurements,

CISPR 16-1- 2:2003 Specification for radio disturbance and immunity measuring apparatus and methods - Part 1-2: Radio disturbance and immunity measuring apparatus - Coupling devices for conducted disturbance measurements

Immunity to radiated disturbances

ETSI EN 301 489-1 ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements,

PN-EN 61000-4-3:12.2007 (2006), Kompatybilność elektromagnetyczna (EMC) – Część 4-3: Metody badań i po-miarów – Badanie odporności na promieniowane pole elektromagnetyczne o częstotliwości radiowej;

PN-EN 55016-2-3:11.2007 Wymagania dotyczące aparatury pomiarowej i metod pomiaru zaburzeń radioelektrycznych oraz badania odporności na zaburzenia – Część 2-3: Metody pomiaru zaburzeń i badania odporności – Pomiary zaburzeń promieniowanych

PN-EN 55024:2000/A1:10:2004 (2001), Kompatybilność elektromagnetyczna (EMC) – Urządzenia informatyczne – Charakterystyki odporności – Metody pomiaru i poziomy dopuszczalne

Energy-efficiency

PN-EN 50564:2011, Elektryczny sprzęt domowy -- Pomiar poboru mocy sprzętu w stanie gotowości do pracy

Radiated disturbances emissions (to be implemented)

PN-EN 55011:2016-05 Urządzenia przemysłowe, naukowe i medyczne -- Charakterystyki zaburzeń o częstotliwości radiowej -- Poziomy dopuszczalne i metody pomiaru

PN-EN 55022:2006 Urządzenia informatyczne -- Charakterystyki zaburzeń radioelektrycznych -- Poziomy dopuszczalne i metody pomiaru

PN-EN 55015:2000 Kompatybilność elektromagnetyczna (EMC) -- Poziomy dopuszczalne i metody pomiarów zaburzeń radioelektrycznych wytwarzanych przez elektryczne urządzenia oświetleniowe i urządzenia podobne

We have our own storage with

57517

components of 1600 types

To reduce prototyping cost we have our own workshop facilities with a rich stock of components (currently over 57,500 components of more than 1600 types) and high-quality soldering tools, chemistry and other essential assembly materials. Work is carried out in a dedicated zone on sites with appropriate ESD protection in accordance with EN 61340-5-1: 2009. We can boast of a very high-quality assembly of electronics, which does not differ much from the precision of automatic assembly. Thanks to that the very first prototypes are suitable for testing on the customer side meeting either high technical and visual requirements.

 

In addition, for particularly high-tech projects, we use the BGA-Rework station ERSA HR600 / 2 for semi-automated, high-repeatability BGA assembly with the video component positioning system. The undoubted advantages of this machine are the dual temperature control of soldering process, which ensures that the assembly of even the most complex BGA components is safe and secure for chips themselves.

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