Texas Instruments SLOU106 manual Description, Evaluation Module Features

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Description

1.1 Description

The THS4140 EVM is a good example of PCB design and layout for high-speed operational amplifier applications. It is a complete circuit for the high-speed operational amplifier. The EVM is made of the THS4140 high-speed operational amplifier, a number of passive components, and various features and footprints that enable the user to experiment, test, and verify various operational amplifier circuit implementations. The board measures 4.5 inches in length by 2.5 inches in width. Initially, this board is populated for a single-ended input amplifier (see Figure 1-2 for populated circuits). The outputs (VO+ and V) can be tested differentially or single ended. Gain is set to one and can be changed by changing the ratios of the feedback and gain resistors (see the device datasheet for recommended resistor values). The user may populate various footprints on the evaluation module board to verify filter designs or perform other experiments. Each input is terminated with a 50-Ωresistor to provide correct line-impedance matching.

1.2 Evaluation Module Features

THS4140 high-speed operational amplifier EVM features include:

JVoltage supply operation range: 5-V to ± 15-V operation (see the device data sheet)

JSingle and differential input and output capability

JNominal 50-Ωinput and output termination resistors. They can be configured according to the application requirement.

JVOCM direct input control (see schematic and the device data sheet)

JVOCM pin can be controlled via transformer center-tap (see schematic)

JShutdown pin control, JU1 (if applicable to the device, see the device data sheet)

JInput and output transformer footprints for changing single-ended signals to differential signals

JFootprint for high-precision, balanced feedback and gain resistors (0.01% or better)

JFootprints for low-pass filter implementation (see application note SLOA054A)

JFootprints for antialiasing filter implementation (see application note SLOA054A)

JDifferential probe terminals on input and output nodes for differential probe insertion

JVarious GND and signal test points on the PCB

JCircuit schematic printed on the back of the EVM

JA good example of high-speed amplifier PCB design and layout

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Introduction and Description

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Contents Users Guide Important Notice Preface Trademarks Contents Figures Introduction and Description Evaluation Module Features DescriptionTHS4140 EVM Specifications Schematic of the Populated Circuit Default ConfigurationTHS4140 EVM Schematic ±2. SchematicAdditional Sample Schematics ±5. Vicr Level Shifter THS4140 EVM Layout ±7. Top Layer Silkscreen±9. Internal Plane Layer 2 Ground Plane ±11. Bottom Layer 4 Ground and Signal Introduction and Description Using the THS4140 EVM Power Supply Setup Required EquipmentInput and Output Setup ±2. Signal ConnectionsTesting the EVM Setup ±3. Driver 1 Output SignalPower Down Verification Measuring the Frequency ResponseButterworth Filter Butterworth FilterTHS4140 EVM Bill of Materials ±1. THS4140 EVM Bill of MaterialsP374CTR-ND General High-Speed Amplifier Design Considerations General High-Speed Amplifier Design Considerations

SLOU106 specifications

Texas Instruments (TI) offers a diverse array of semiconductor products, one of which is the SLOU106, a comprehensive technical document or application report. This document is crucial for engineers and designers working with TI’s various analog and embedded processing products.

The SLOU106 document provides deep insights into the capabilities and functionalities of TI's diverse product offerings, built around their mission to empower innovation in the field of electronics. One of the main features highlighted in SLOU106 includes detailed design guidance and application notes that help engineers optimize circuit designs. These often include layout considerations, signal integrity aspects, and component selection criteria, thereby ensuring that users achieve the best performance from TI’s devices.

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Moreover, SLOU106 provides valuable case studies and examples showcasing real-world applications, which help in bridging the gap between theory and practice. These practical insights are indispensable for engineers who seek to leverage TI’s technology in their unique applications.

In conclusion, the Texas Instruments SLOU106 document stands as a vital tool for engineers, providing in-depth information about product features, cutting-edge technologies, and practical design strategies. By utilizing the insights provided in this document, users can optimize their designs and effectively leverage TI's products to achieve innovative solutions across a myriad of applications.