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TPA2012D2RTJT Datasheet(PDF) 13 Page - Texas Instruments |
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TPA2012D2RTJT Datasheet(HTML) 13 Page - Texas Instruments |
13 / 20 page www.ti.com BOARD LAYOUT Copper Trace Width Solder Mask Thickness Solder Pad Width Solder Mask Opening Copper Trace Thickness Component Location TPA2012D2 SLOS438C – DECEMBER 2004 – REVISED MARCH 2007 In making the pad size for the WCSP balls, it is recommended that the layout use nonsolder mask defined (NSMD) land. With this method, the solder mask opening is made larger than the desired land area, and the opening size is defined by the copper pad width. Figure 36 and Table 2 shows the appropriate diameters for a WCSP layout. The TPA2012D2 evaluation module (EVM) layout is shown in the next section as a layout example. Figure 36. Land Pattern Dimensions Table 2. Land Pattern Dimensions(1)(2)(3)(4) SOLDER PAD COPPER SOLDER MASK (5) COPPER STENCIL (6)(7) STENCIL DEFINITIONS PAD OPENING THICKNESS OPENING THICKNESS Nonsolder mask 275 µm 275 µm x 275 µm Sq. 375 µm (+0.0, -25 µm) 1 oz max (32 µm) 125 µm thick defined (NSMD) (+0.0, -25 µm) (rounded corners) (1) Circuit traces from NSMD defined PWB lands should be 75 µm to 100 µm wide in the exposed area inside the solder mask opening. Wider trace widths reduce device stand off and impact reliability. (2) Best reliability results are achieved when the PWB laminate glass transition temperature is above the operating the range of the intended application. (3) Recommend solder paste is Type 3 or Type 4. (4) For a PWB using a Ni/Au surface finish, the gold thickness should be less 0.5 mm to avoid a reduction in thermal fatigue performance. (5) Solder mask thickness should be less than 20 µm on top of the copper circuit pattern (6) Best solder stencil performance is achieved using laser cut stencils with electro polishing. Use of chemically etched stencils results in inferior solder paste volume control. (7) Trace routing away from WCSP device should be balanced in X and Y directions to avoid unintentional component movement due to solder wetting forces. Place all the external components very close to the TPA2012D2. Placing the decoupling capacitor, CS, close to the TPA2012D2 is important for the efficiency of the Class-D amplifier. Any resistance or inductance in the trace between the device and the capacitor can cause a loss in efficiency. 13 Submit Documentation Feedback |
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