ZHCSPI9A December 2021 – December 2022 OPT4001
PRODUCTION DATA
Before understanding the layout requirement for OPT4001, understanding the placement on the PCB is critical.
In case of the SOT-5X3 package variant the device, since the lighting sensitive area and the device pins are on opposite sides of each other, a conventional placement on the PCB makes sure of good light collection. In case of the PicoStar™ variant of the device, since the light sensitive area and the device pins are on the same side, special arrangement as shown in the figure is required to achieve good light collection. Typically a thin flexible PCB with a hole or a cutout centered around the optical area is required for wide angle light collection for the PicoStar™ variant. A regular PCB can be used but the amount of light collected and the field of view of light collection are not very good and generally not recommended. Cut out for the light collection can be of any shape with large enough opening to let ample light fall on the light sensitive area. Figure 9-12 and Figure 9-13 show examples of two such shapes which help maximize light collection. A circular cut out as much larger as the manufacturing allows is also acceptable but can restrict the field of view and reduce the light collection. Tools and documentation are available on TI product folder to estimate the field of view based on the hole size.
Placing the decoupling capacitor close to the device is highly recommended at the same time, note that optically reflective surfaces of components also affect the performance of the design. The three-dimensional geometry of all components and structures around the sensor must be taken into consideration to prevent unexpected results from secondary optical reflections. Placing capacitors and components at a distance of at least twice the height of the component is usually sufficient. The best optical layout is to place all close components on the opposite side of the PCB from the OPT4001. However, this approach is not be practical for the constraints of every design.
The device layout is also critical for good SMT assembly. Two types of land pattern pads can be used for this package: solder mask defined pads (SMD) and non-solder mask defined pads (NSMD). SMD pads have a solder mask opening that is smaller than the metal pads, whereas NSMD has a solder mask opening that is larger than the metal pad. Figure 9-10 illustrates these types of landing-pattern pads. SMD is preferred because SMD provides a more accurate soldering-pad dimension with the trace connections. For further discussion of SMT and PCB recommendations, see the Soldering and Handling Recommendations.