Texas Instruments
- European Product Information Centre
Haggerty Strasse 1
D-85350 Freising
D-85350
Germany - +49 8161 80 33 11
- http://www.ti.com
For more than 80 years, Texas Instruments has used increasingly complex signal-processing technology – with advances ranging from the incremental to the revolutionary – to literally and repeatedly change the world.
Every day, our semiconductor innovations help 90,000 customers unlock possibilities for a smarter, safer, greener, healthier and more enjoyable world. Our focus on building a better future is ingrained in everything we do, from responsible semiconductor manufacturing, to employee care and active involvement with the communities we live in.
Texas Instruments Articles
SimpleLink Arm Cortex-M4F multiprotocol 2.4-GHz wireless MCU with 704-kB Flash
The SimpleLink CC2652R7 device is a multiprotocol 2.4-GHz wireless microcontroller (MCU) supporting Thread, Zigbee , Matter, Bluetooth 5.2 Low Energy, IEEE 802.15.4g, IPv6-enabled smart objects (6LoWPAN), TI 15.4-Stack (2.4 GHz), and concurrent multiprotocol through a Dynamic Multiprotocol Manager (DMM) driver. The CC2652R7 is based on an Arm Cortex M4F main processor and optimized for low-power wireless communication and advanced sensing in grid...
80MHz Arm M0+ MCU, 64KB Flash, 32KB SRAM, 2×12bit 4Msps ADC, op-amp
MSPM0G110x microcontrollers (MCUs) are part of the MSP highly-integrated, ultra-low-power 32-bit MCU family based on the enhanced Arm Cortex-M0+ 32-bit core platform operating at up to 80-MHz frequency. These cost-optimized MCUs offer high-performance analog peripheral integration, support extended temperature ranges from -40°C to 105°C, and operate with supply voltages ranging from 1.62 V to 3.6 V.
Texas Instruments’ new manufacturing plant achieves LEED
Texas Instruments (TI) has announced its new 300-mm semiconductor wafer fabrication plant (or “fab”) in Richardson, Texas, RFAB2, achieved LEED (Leadership in Energy and Environmental Design) Gold certification under version 4 (v4).
TI simplifies current sensing with accurate Hall-effect sensors
Texas Instruments (TI) debuted new current sensors to help engineers simplify their designs while improving accuracy.
Reduce the risk in low-earth orbit missions with space enhanced plastic products
Historically, satellite programmes have used space grade, hermetically sealed, QML-V qualified components for enhanced reliability and radiation hardness.
TI Q2 revenues up 3% sequentially, drop 13 % yoy
Texas Instruments has reported second quarter revenue of $4.53 billion up 3 % sequentially and a decline of 13 % against the same quarter last year.
Experience BeaglePlay and BeagleConnect Freedom – expandable long-range, low-power wireless IoT ecosystem
Are you interested in creating a smart home or a smart factory that's customised to your needs and preferences?
Addressing three key space applications
Electronics intended for space missions face unique conditions and challenges – specialised integrated circuit (IC) packaging can help mitigate some of those challenges.
MSPM0G3507 LaunchPad Development Kit (LP‑MSPM0G3507)
The MSPM0G3507 LaunchPad™ development kit is an easy-to-use evaluation module for the MSPM0G3507 microcontroller (MCU). The LaunchPad kit contains everything needed to start developing on the MSPM0Gxxxx microcontroller platform, including an onboard debug probe for programming, debugging, and EnergyTrace™ technology. The board also features onboard buttons, LEDs, an RGB LED, a light sensor, and a temperature sensor.
Designing Single- and Three-Axis Selfie Sticks With MSPM0 MCUs
Presently, there are two main types of selfie stick products on the market: single-axis selfie sticks and threeaxis selfie sticks. How can a selfie stick guarantee the shooting stability of mobile phone? Learn more with this application brief by Texas Instruments.
Build Scalability in Cordless Power and Garden Tools Using Low-Cost MSPM0 MCUs
Cordless tool-related applications need to control a brushed-DC (BDC) or brushless-DC (BLDC) motor to apply dynamic torque at a constant speed (such as drills and saws), or a constant torque at a dynamic speed (such as blowers). In many designs, the user can adjust the speed of the motor while applying torque to the motor to perform an action, like cutting or drilling wood with a bit, blade, chain, or wheel.
Lowest Cost Real-Time Control
Our integrated circuits and reference designs help you create a compact, efficient and fully protected power stage module for industrial and collaborative robots. Our analog and embedded processing products enable improved motor control performance and exceed isolation and EMC requirements per IEC standards.
Increasing Flexibility in Your Battery Management Designs With a Low-Cost MSPM0 MCU
In today’s highly connected world, more products than ever rely on battery power. Batteries are everywhere, from cordless power tools to robot vacuums, and even the e-bikes and electric vehicles you see on your commute. These products and many others like them utilize battery management systems (BMS) to ensure power is safely supplied throughout the product.
BLDC/PMSM Control Using Sensorless FOC Algorithm Based on MSPM0 MCUs
In our modern world, motors are used in many products, such as power tools, e-bike, e-car, industrial robot, and more. BLDC (brushless DC) and PMSM (permanent-magnet synchronous motor) motors in particular provide advantages in terms of high efficiency, low noise and long life. For the control method of the BLDC or PMSM, field-oriented control (FOC) algorithms are used in many applications where the motor needs to run smoothly with high efficienc...
Lowest Cost Real-Time Control
Optimizing Field Sensor and Transmitter Applications With MSPM0 MCUs
There are many different types of process inputs in the world of process control. Including temperature, humidity, flow, level, and pressure. These process inputs need to be measured by sensors that can convert measurements into suitable signal formats (either analog or digital), and then transmit those signals through a transmitter to a receiver, which interprets the signal and makes a control decision. T
Traction inverters: the intersection of automotive innovation and performance
Step on the pedal of a modern electric vehicle (EV) and you’re rewarded with quick, smooth acceleration. Should you be satisfied? Absolutely not. And you don’t have to be, because higher performance and longer driving range are coming to EVs. Because of the way EVs turn stored energy into propulsion, many of these improvements happen at the electrical level rather than at the traction motors level.
UCC5880-Q1 Isolated 20-A Adjustable Gate Drive IGBT/SiC MOSFET Gate Driver With Advanced Protection Features For Automotive Applications
The UCC5880-Q1 device is an isolated, highly configurable adjustable slew-rate gate driver targeted to drive high power SiC MOSFETs and IGBTs in EV/HEV applications. Power transistor protections such as shunt resistor based over-current, overtemperature (PTC, NTC, or diode), and DESAT detection, including selectable soft turn-off or twolevel soft turn-off during these faults.
Understanding functional safety for gate drivers and traction inverter systems
As the demand for smart, automated and eco-friendly end-equipment continues to grow, industrial and automotive technologies are becoming increasingly electrified. With this trend also comes an increased emphasis on ensuring electronic systems not only meet standards of EV performance but safety standards as well.
Improving safety in EV traction inverter systems
Electric-vehicle designers can increase the safety and reliability of traction inverter systems by monitoring the gate voltage threshold. When a consumer purchases a vehicle, they assume that the design engineers did their due diligence to create a safe product. In order to achieve a necessary level of safety, especially in regard to International Organization for Standardization (ISO) 26262 standards, subsystems within a vehicle such as the tra...