Achieve true precision with the industry’s first zero-drift, zero-crossover operational amplifier
Continuing to set the standard for precision amplifiers, Texas Instruments (TI) (NASDAQ:TXN) introduced the first…
Continuing to set the standard for precision amplifiers, Texas Instruments (TI) (NASDAQ:TXN) introduced the first…
The semi-expert techniques for automating amplifier circuit designs calls for a combination of hard specification requirements and judgement margins. A design tool must support these techniques to zero in on the appropriate operational amplifier (op amp) and external components. Figure 1 shows two fundamental circuit examples that implore this type of tool.
Yes, these are simple topologies – but the difficulty is in the detail when selecting amplifiers and external components to meet the performance criteria for the application.
TI expands its module portfolio with new Bluetooth® low energy certified module with integrated antenna
Industry-leading current-shunt monitor improves efficiency and accuracy for motor and solenoid control applications
TI expands portfolio of MSP430™ FRAM MCUs with wide range of memory, smaller packages and advanced processing capabilities
Multiport minidock reference design speeds development of USB Type-C and Power Delivery docking stations.
Tiny LGA package is 80 percent smaller than traditional 60-V load switches.
High-performance devices resolve HDMI® 2.0 and MIPI® signal integrity issues in video, display and camera system designs.
Educational tool equips current and future engineers with real-world power expertise.
36-V, 2.1-MHz regulators enable designers to meet tough requirements such as low EMI, high power density and deep drop-out conditions.