Circuits

Performance Motion Devices' New Torque Control IC in an Ultra-small 56-pin/Small 64-pin Package
Circuits

Performance Motion Devices' New Torque Control IC in an Ultra-small 56-pin/Small 64-pin Package

Combination of four quadrant motion control, direct quadrature encoder input, multi-phase waveform generation, and advanced current control. Provide OEMs with safety features including over-current detection, over-temperature and i2t current foldback. Applications include lab automation, flow rate control, precision liquid pumping, XYZ tables and pick and place packaging machines.

Read More »
Performance Motion Devices' New Torque Control IC in an Ultra-small 56-pin/Small 64-pin Package
Circuits

Performance Motion Devices' New Torque Control IC in an Ultra-small 56-pin/Small 64-pin Package

Combination of four quadrant motion control, direct quadrature encoder input, multi-phase waveform generation, and advanced current control. Provide OEMs with safety features including over-current detection, over-temperature and i2t current foldback. Applications include lab automation, flow rate control, precision liquid pumping, XYZ tables and pick and place packaging machines.

Read More »
Richardson Introduces ADI-DPD-DEVKIT SDR Kit with Scalable RF Front End Board
Circuits

Richardson Introduces ADI-DPD-DEVKIT SDR Kit with Scalable RF Front End Board

The ADI-DPD-DEVKIT Software-Defined Radio Kit is optimized for FDD-LTE Bands 14 and 28 bands. The kit consists of DE705, ADRV9375-W/PCBZ and EVAL-TPG-ZYNQ3 boards. The DE705 board comes with single-channel transmitter and receiver with swappable ceramic duplexer. The kit offers +37 dBm (average Pout) and 55 dB linear gain. The EVAL-TPG-ZYNQ3 board provides a data capture platform for...

Read More »
Richardson Introduces ADI-DPD-DEVKIT SDR Kit with Scalable RF Front End Board
Circuits

Richardson Introduces ADI-DPD-DEVKIT SDR Kit with Scalable RF Front End Board

The ADI-DPD-DEVKIT Software-Defined Radio Kit is optimized for FDD-LTE Bands 14 and 28 bands. The kit consists of DE705, ADRV9375-W/PCBZ and EVAL-TPG-ZYNQ3 boards. The DE705 board comes with single-channel transmitter and receiver with swappable ceramic duplexer. The kit offers +37 dBm (average Pout) and 55 dB linear gain. The EVAL-TPG-ZYNQ3 board provides a data capture platform for...

Read More »
Latest Power-Management ICs from Maxim are Designed for High-Voltage Power Applications
Circuits

Latest Power-Management ICs from Maxim are Designed for High-Voltage Power Applications

The Power-Management ICs are offered in 3.5 x 3.75 mm (MAX20004/6/8 buck converters), 3 x 3 mm (MAX20034) and 5 x 5mm (MAX20098) QFN packages. The MAX20004/6/8 converters come with high-side and low-side MOSFETs with a switch resistance of 38 and 18 mΩ respectively. The MAX20098 and MAX20034 (220kHz to 2.2MHz) buck controllers feature a quiescent current of 3.5µA and 17µA respectively. The ICs...

Read More »
Latest Power-Management ICs from Maxim are Designed for High-Voltage Power Applications
Circuits

Latest Power-Management ICs from Maxim are Designed for High-Voltage Power Applications

The Power-Management ICs are offered in 3.5 x 3.75 mm (MAX20004/6/8 buck converters), 3 x 3 mm (MAX20034) and 5 x 5mm (MAX20098) QFN packages. The MAX20004/6/8 converters come with high-side and low-side MOSFETs with a switch resistance of 38 and 18 mΩ respectively. The MAX20098 and MAX20034 (220kHz to 2.2MHz) buck controllers feature a quiescent current of 3.5µA and 17µA respectively. The ICs...

Read More »
Maxim Presents MAX20345 Power-Management IC for Wearable Fitness and Health Applications
Circuits

Maxim Presents MAX20345 Power-Management IC for Wearable Fitness and Health Applications

The MAX20345 Power-Management ICs are offered in 56-bump, 0.4mm pitch, 3.37 x 3.05 mm wafer-level package (WLP). The IC integrates a lithium-ion battery charger, six voltage regulators, three nanoPower bucks (900 nA) and three LDO regulators (550 nA quiescent current). The unit’s two load switches allow the disconnection of system peripherals that minimizes battery drain whereas the buck-boost...

Read More »
Maxim Presents MAX20345 Power-Management IC for Wearable Fitness and Health Applications
Circuits

Maxim Presents MAX20345 Power-Management IC for Wearable Fitness and Health Applications

The MAX20345 Power-Management ICs are offered in 56-bump, 0.4mm pitch, 3.37 x 3.05 mm wafer-level package (WLP). The IC integrates a lithium-ion battery charger, six voltage regulators, three nanoPower bucks (900 nA) and three LDO regulators (550 nA quiescent current). The unit’s two load switches allow the disconnection of system peripherals that minimizes battery drain whereas the buck-boost...

Read More »
Latest SC1810 Series SoCs with QNX Software are Suitable for Mission Critical Applications
Circuits

Latest SC1810 Series SoCs with QNX Software are Suitable for Mission Critical Applications

The SC1810 Series Graphics SoCs now come with QNX Software Development Platform 7.0. The units are suitable for in-vehicle graphics computing foundation for automotive HMI applications like instrument clusters, head-up displays, in-vehicle infotainment (IVI) systems and ADAS. The SC1810 series SoCs with ADAS Kit coupled with QNX software helps automotive manufacturers to build safe and secure...

Read More »
Latest SC1810 Series SoCs with QNX Software are Suitable for Mission Critical Applications
Circuits

Latest SC1810 Series SoCs with QNX Software are Suitable for Mission Critical Applications

The SC1810 Series Graphics SoCs now come with QNX Software Development Platform 7.0. The units are suitable for in-vehicle graphics computing foundation for automotive HMI applications like instrument clusters, head-up displays, in-vehicle infotainment (IVI) systems and ADAS. The SC1810 series SoCs with ADAS Kit coupled with QNX software helps automotive manufacturers to build safe and secure...

Read More »

All Topics