Filter Product By
Slide and select filter/s
Filtered by
Categories
Mikroe has collaborated closely with Texas Instruments to offer you a broad portfolio of products from this vendor, which will help you reducing development effort and accelerate time to market. As a 3rd party tool provider we strive to promote partners newest theologies and products, by offering them to the broad market.
2x2 Key click has a 4 button keypad. The click allows multiple key presses and has a debounce circuit composed of 74HC32 quad 2-input OR gate from NXP and the SN74HC14 Hex Schmitt-Trigger Inverter from Texas Instruments. 2x2 Key click is designed to use either 3.3V or 5V power supply. The buttons can be independently read.
2x30W Amp click is a class-D audio amplifier with a tremendous output power, considering its size and lack of huge heatsinks, usually associated with the audio amplifiers. This is due to the fact that the efficiency of the amplifier IC is quite high (greater than 90%), featuring the efficiency boost mode, which dynamically reduces the current ripple of...
If you need to use your 3.3V prototype device in 5V voltage systems than the 3.3V-5V Voltage Translator Board is the best solution for you.
3D Hall 10 Click is a compact add-on board used to detect the strength of a magnetic field in all three dimensions. This board features the TMAG5170, a high-precision linear 3D Hall effect sensor from Texas Instruments. The TMAG5170 features an SPI interface for configuration by MCU. The measurement data is provided in digital format of 12-bits...
3D Hall 11 Click is a compact add-on board used to detect the strength of a magnetic field in all three dimensions. This board features the TMAG5273, a low-power linear 3D Hall-effect sensor from Texas Instruments. A precision analog signal chain alongside an integrated 12-bit ADC digitizes the measured analog magnetic field values and passes them via the...
3xBuck click is a triple step-down (buck) converter Click board™. It features three independent output terminals that can provide 1.8V, 3.3V, and 5V with the combined current output up to 3A. This specific selection of output voltages makes this Click board™ a perfect choice for an embedded application power supply, as these voltages are the most commonly...
4-20mA R Click is a compact add-on board that serves as a receiver in a 4-20mA current loop standard. This board features INA196, a current shunt monitor from Texas Instruments. The INA196 can sense drops across the shunt at common-mode voltages from -16V up to +80V, independent of its supply voltage. Thanks to the boost converter, high input voltages...
4-20mA T Click is a compact add-on board that serves as a transmitter in a 4-20mA current loop standard. This board features XTR116, a current loop transmitter from Texas Instruments. The XTR116 provides accurate, current scaling and output limit functions. To communicate with the target MCU over an SPI interface, this board use MCP4921, a DAC from...
4-20mA T 2 Click is a compact add-on board for transmitting an analog output current over an industry-standard 4-20mA current loop. This board features DAC161S997, a low-power 16-bit ΣΔ digital-to-analog converter (DAC) from Texas Instruments. It has a programmable Power-Up condition and loop-error detection/reporting accessible via simple 4-wire SPI for...
The 5V-3.3V Voltage Translator Board allows you to use a 5V prototype device in 3.3V voltage systems. This board contains a bidirectional voltage translator LVCC3245.
6LoWPAN C click carries the CC2520 2.4GHz RF transceiver. The click is designed to run on a 3.3V power supply. It communicates with the target microcontroller over SPI interface, with additional functionality provided by the following pins on the mikroBUS™ line: PWM, INT, RST, AN.
6LoWPAN T click carries the CC2520 2.4GHz RF transceiver. The click is designed to run on a 3.3V power supply. It communicates with the target microcontroller over SPI interface, with additional functionality provided by the following pins on the mikroBUS™ line: PWM, INT, RST, AN.
Loading
Load more
Loading
