Texas Instruments SLOU061A manual Physical Considerations

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Physical Considerations

2.1 Physical Considerations

The EVM board has three circuit development areas. Each area can be separated from the others by breaking along the score lines. The circuit layout in each area supports an op amp package, voltage reference, and ancillary devices. The op amp package is unique to each area as described in the following paragraphs. The voltage reference and supporting devices are the same for all areas. Surface-mount or through-hole components can be used for all capacitors and resistors on the board.

The voltage reference can be either surface-mount or through-hole. If surface-mount is desired, the TLV431ACDBV5 or TLV431AIDBV5 adjustable shunt regulators can be used. If through hole is desired, the TLV431ACLP, TLV431AILP, TL431CLP, TL431ACLP, TL431ILP, or TL431AILP adjustable shunt regulators can be used. Refer to Texas Instruments’ Power Supply Circuits Data Book (literature number SLVD002) for details on usage of these shunt regulators.

Each passive component (resistor or capacitor) has a surface mount 1206 footprint with through holes at 0.2spacing on the outside of the 1206 pads. C105, C106, C107, C207, C208, C209, C312, C314, and C315 have a surface mount 1210 footprint with through holes at 0.2spacing on the outside of the 1210 pads. Therefore, either surface-mount or through-hole parts can be used. The potentiometer for the offset nulling feature in area 100 can also be either a surface-mount or a through-hole unit.

Figures 2–1 through 2–3 show schematics for each of the board areas. The schematics show all components that the board layout can accommodate. These should only be used as reference, since not all components will be used at any one time.

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Evaluation Module Layout

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Contents User’s Guide Important Notice Preface Related Documentation FromJTexas InstrumentsPage Contents Figures Introduction Design Features Power RequirementsEvaluation Module Layout Physical Considerations Shows the area 100 schematic Area 100-Single Device SoicShows the area 200 schematic Area 200-Dual Device SoicShows the area 300 schematic Area 300-Quad Device SoicArea 300 Schematic-Quad Device Soic 16 pin Maximum Power Dissipation vs Free-Air Temperature EVM Component Placement Shows component placement for the EVM boardEVM Board Layout EVM Board Layout-TopEVM Board Layout-Bottom Example Circuits Schematic Conventions Inverting AmplifierNoninverting Amplifier VREF1 +1.24 VR111R113R113Differential Amplifier Sallen-Key Low-Pass Filter Wwith Dual Supply Using Area Sallen-Key High-Pass Filter Fo foSallen-Key High-Pass Filter With Single Supply Using Area Two Operational Amplifier Instrumentation Amplifier Vout +VIN 1 2R212R220 R212R221VREF2Area Quad Operational Amplifier Instrumentation Amplifier Example Circuits Example Circuits

SLOU061A specifications

Texas Instruments SLOU061A is a comprehensive technical document that provides detailed information about one of the company's key offerings in the realm of integrated circuits. This document highlights important features, technologies, and characteristics of the specified device, ensuring users can make informed decisions during the design and implementation of their projects.

One of the main features of the Texas Instruments SLOU061A is its versatility in application. The device is designed to cater to a wide range of electronic systems, including consumer electronics, industrial equipment, and automotive applications. This versatility is further enhanced by its ability to operate in various environments, withstand extreme temperatures, and support different input/output configurations.

The SLOU061A incorporates advanced semiconductor technologies that facilitate improved performance and efficiency. The device is built on a state-of-the-art fabrication process, which not only enhances its reliability but also minimizes power consumption. This is crucial in today's market where energy efficiency is a significant concern for manufacturers and end-users alike. The integrated power management features allow for dynamic power scaling, helping to optimize energy usage in real-time.

In terms of communication interfaces, the SLOU061A supports several protocols, including I2C, SPI, and UART, thereby allowing seamless integration with various microcontrollers and processors. This compatibility ensures that designers can easily incorporate the device into existing systems or create new designs without the need for significant redesign efforts.

Another notable characteristic of the SLOU061A is its robust protection features. The device is equipped with built-in safeguards against overvoltage, overcurrent, and thermal events, ensuring longevity and reliability in application. This makes it an ideal choice for projects where durability is paramount.

Lastly, Texas Instruments' commitment to customer support is evident in the documentation provided alongside SLOU061A. The datasheets, application notes, and reference designs serve as valuable resources for engineers and developers, providing guidance and best practices for implementation.

In summary, Texas Instruments SLOU061A is a feature-rich integrated circuit that stands out for its versatility, efficiency, communicative capabilities, and robust protection features, making it an excellent choice for various electronic applications across multiple industries.
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