Cena s DPH / bez DPH
Hlavní stránka>BS EN 60749-40:2011 Semiconductor devices. Mechanical and climatic test methods Board level drop test method using a strain gauge
Sponsored link
sklademVydáno: 2011-09-30
BS EN 60749-40:2011 Semiconductor devices. Mechanical and climatic test methods Board level drop test method using a strain gauge

BS EN 60749-40:2011

Semiconductor devices. Mechanical and climatic test methods Board level drop test method using a strain gauge

Formát
Dostupnost
Cena a měna
Anglicky Zabezpečené PDF
K okamžitému stažení
6448 Kč
Čtěte normu po dobu 1 hodiny. Více informací v kategorii E-READING
Čtení normy
na 1 hodinu
644.80 Kč
Čtěte normu po dobu 24 hodin. Více informací v kategorii E-READING
Čtení normy
na 24 hodin
1934.40 Kč
Anglicky Tisk
Skladem
6448 Kč
Označení normy:BS EN 60749-40:2011
Počet stran:26
Vydáno:2011-09-30
ISBN:978 0 580 64629 4
Status:Standard
Popis

BS EN 60749-40:2011


This standard BS EN 60749-40:2011 Semiconductor devices. Mechanical and climatic test methods is classified in these ICS categories:
  • 31.080.01 Semiconductor devices in general

This part of IEC 60749 is intended to evaluate and compare drop performance of a surface mount semiconductor device for handheld electronic product applications in an accelerated test environment, where excessive flexure of a circuit board causes product failure. The purpose is to standardize test methodology to provide a reproducible assessment of the drop test performance of a surface mounted semiconductor devices while duplicating the failure modes normally observed during product level test.

This international standard uses a strain gauge to measure the strain and strain rate of a board in the vicinity of a component. Test method IEC 60749-37 uses an accelerometer to measure the mechanical shock duration and magnitude applied which is proportional to the stress on a given component mounted on a standard board. The detailed specification shall state which test method is to be used.

NOTE 1 Although this test can evaluate a structure where the mounting method and its conditions, the design of a printed wired board, solder material, the mounting capability of a semiconductor device, etc. are combined, it does not solely evaluate the mounting capability of a semiconductor device.

NOTE 2 The result of this test is strongly influenced by the differences between soldering conditions, the design of the land pattern of a printed wired board, solder material, etc. Therefore, in carrying out this test, it is necessary to recognize that this test cannot intrinsically guarantee the reliability of the solder joint of the semiconductor devices.

NOTE 3 When the mechanical stress which is generated by this test does not occur in the actual application of the device, implementation of this test is unnecessary.