MGX QFN 48 ChipMGX QFN 48 has a smaller thermal lug of 4 mm squared designed to define cleanliness levels under similar package styles.
MGX QFN 48-1 ChipMGX QFN 48-1 Chip is one of the more challenging components to clean with a standoff gap lower than 50µms, flux residues bridge the lands and thermal lug. The residues tend to be active due to poor outgassing channels.
MGX QFN 48-11 ChipMGX QFN 48-11 Chip is one of the more challenging components to clean with a standoff gap lower than 50μms, flux residues bridge the lands and thermal lug. The residues tend to be active due to poor outgassing channels.
MGX QFN 88-1 ChipMGX QFN 88-1 Chip is a larger QFN with 88 signal pins and 10.5 mm squared thermal lug designed to define cleanliness levels under similar package styles.
MGX QFN DR 124-1 ChipMGX QFN DR 124-1 Chip is a dual row QFN with 124 signal pins and large 7 mm squared ground lug designed to define cleanliness levels under similar package styles.
MGX BGA 244 ChipWith a center lug, MGX BGA 244 has a high standoff gap and easier to clean. This component tends to be representative of the BGA family of components. The center lug adds some degree of complexity by obstructing flow channels.
MGX BGA 256 ChipMGX BGA 256 is a 256 I/O array designed to be used for both BGA and LGA component designs. The 256 I/O is optimal for defining cleanliness levels under similar package styles.
MGX BGA 572 ChipMGX BGA 572 is a 572 I/O array designed to be used for both BGA and LGA component designs. By increasing the I/O to 572, the residue set will be a more rigorous test for both clean and no-clean designs.
MGX BGA 1020 ChipMGX BGA 1020 is a 1020 I/O array designed to be used for both BGA and LGA component designs. As the I/O increases to 1020, the package presents a greater challenge for both clean and no-clean designs.
MGX BGA 1932 ChipMGX BGA 1932 is a 1932 I/O array designed to be used for both BGA and LGA component designs. As the I/O increases to 1932, the challenge for both clean and no-clean widens making for a worst-case condition.
MGX QFP 80 ChipMGX QFP 80 is a challenging component due to the 0.65 mm pitch and large pad size of 0.45 mm by 1.8 mm and SIR comb under the component termination. Unlike the leaded component, the lands are screen printed around the peripheral of the part. These components are excellent for detecting cleaning and rinsing issues.
MGX QFP 80-1 ChipMGX QFP 80-1 is representative of the leaded QFN 80 components with smaller pad size of 0.25 mm by 1.0 mm and SIR comb under the component termination. This component is designed to detect cleaning and rinsing issues.
MGX QFP 160 ChipMGX QFP 160 is a challenging component due to the 0.65 mm pitch and large pad size of 0.45 mm by 2 mm and SIR comb under the component termination. Unlike the leaded component, the lands are screen printed around the peripheral of the part. These components are excellent for detecting cleaning and rinsing issues.
MGX QFP 160-1 ChipMGX QFP 160-1 is representative of the leaded QFN 80 components with smaller pad size of 0.3 mm by 1.0 mm and SIR comb under the component termination. This component is designed to detect cleaning and rinsing issues.
MGX Custom 64 SMT ConnectorMGX Custom 64 SMT is representative of surface mount connectors. The large pad dimensions of 0.36 mm by 2.2 mm can trap process residues pin to pin. This component is designed to define cleanliness levels on similar connector designs.
MGX SMT TH-40 Pin Custom ConnectorMGX SMT TH-40 Pin is representative of a surface mount and thru-hole connector. This is a challenging component due to the large SMT pad size 0.5 mm by 2 mm. In addition, the wave or selective flux can wet through the barrel and intermix with the SMT flux.
0402/10 PF-480 PF Capacitor ChipAre common on all circuit designs. These caps have low standoff gaps under 50µms. The tighter pitch in combination with the low standoff can underfill and block outgassing channels. The caps are excellent for characterizing both clean and no-clean process residues under similar component styles.
0603/10 PF-480 PF Capacitor ChipAre common on all circuit designs. These caps have low standoff gaps under 50µms. The tighter pitch in combination with the low standoff can underfill and block outgassing channels. The caps are excellent for characterizing both clean and no-clean process residues under similar component styles.
0805/10 PF-480 PF Capacitor ChipAre common on all circuit designs. These caps have low standoff gaps under 50µms. The tighter pitch in combination with the low standoff can underfill and block outgassing channels. The caps are excellent for characterizing both clean and no-clean process residues under similar component styles.
1206/10 PF-480 PF Capacitor ChipIs representative of capacitor caps that exhibit a low standoff gap. As the pitch tightens in combination with the low standoff, flux residues can underfill and block outgassing channels. This component is designed to characterize both clean and no-clean process residues under similar component package styles.
0201/10 PF-480 PF Capacitor ChipIs a miniaturized cap with a very tight pitch between the conductors of opposite polarity. Flux often bridges the conductive paths, but this component is good for both clean and no-clean process residues.
0508/10 PF-480 PF Capacitor Array ChipIs a miniaturized cap with a very tight pitch between the conductors of opposite polarity. This design tests for fluid that can be trapped in the body of the component located under an RF Shield.
MGX 2 Pin Header Shunt (Jumper)The pin header shunt allows the user to turn on or off one or more components across the net of components in a specific quadrant. Should you have a failure, the shunt will allow you to determine the component from which that failure occurred. The header shunt is not designed across every board. It is commonly used on custom-designed highly dense test boards.
