IC category

Ultra Low Power Wireless IoT Platform


by elektor.com:

TEXAS Instruments has announced the new SimpleLink ultra-low power wireless MCU platform. The platform has been designed to use so little energy it can be powered from harvested energy or will run for years on a coin cell. For versatility the platform supports multiple wireless connectivity standards using a single-chip and identical RF design. The SimpleLink ultra-low power platform supports Bluetooth low energy, ZigBee, 6LoWPAN, Sub-1 GHz, ZigBee RF4CE and proprietary modes up to 5 Mbps.

The first members of the SimpleLink devices to be introduced are the CC2640 which supports Bluetooth Smart and the CC2630 for 6LoWPAN and ZigBee. The CC2650 wireless MCU supports multiple 2.4 GHz technologies including Bluetooth Smart, 6LoWPAN, ZigBee and RF4CE. The support for such a wide range of radio standards helps future-proof designs and gives the ability to configure a chosen technology at the time of installation in the field. Planned for introduction later in 2015 are the CC1310 for Sub-1 GHz operation and the CC2620 for ZigBee RF4CE.

Ultra Low Power Wireless IoT Platform – [Link]

LTC3402 – 2A, 3MHz Micropower Synchronous Boost Converter



The LT3042 is an ultralow noise, ultrahigh power supply ripple rejection (PSRR) low dropout voltage linear regulator. Its unique design features ultralow spot noise of only 2nV/√Hz at 10kHz and 0.8μV integrated output noise across a wide 10Hz to 100kHz bandwidth. Low frequency PSRR exceeds 90dB out to 10kHz and high frequency PSRR exceeds 75dB out to 3MHz, quieting noisy or high ripple input supplies. The LT3042 delivers up to 200mA output current with a 350mV dropout voltage at full load, across a wide 1.8V to 20V input voltage range. The LT3042 utilizes LTC’s proprietary LDO architecture – a precision current source reference followed by a high performance unity gain buffer, resulting in virtually constant bandwidth, noise, PSRR and load regulation performance independent of output voltage. In addition, this architecture permits paralleling of multiple LT3042s to further decrease noise, increase output current and spread heat on a printed circuit board (PCB).

LTC3402 – 2A, 3MHz Micropower Synchronous Boost Converter – [Link]



A data-acquisition system on a chip


by Martin Rowe @ edn.com:

Multifunction data-acquisition systems have been around for a long time as stand-alone instruments, plug-in cards, cabled computer peripherals, and embedded in systems. Such systems are often designed with separate ADCs, DACs, and digital I/O devices. Many microcontrollers include ADCs and DACs, but that locks you into using that device. The AD5592R from Analog Devices combines all of these I/O functions, letting you use one chip to design measurement-and-control functions into systems.

A data-acquisition system on a chip – [Link]

App note: Standalone Linear Li-Ion battery charger with thermal regulation


Standalone Linear Li-Ion battery charger with thermal regulation in ThinSOT application note (PDF!) from Linear:

The LTC4054 is a single cell lithium-ion battery charger using a constant-current/constant voltage algorithm. It can deliver up to 800mA of charge current (using a good thermal PCB layout) with a final float voltage accuracy of ±1%. The LTC4054 includes an internal P-channel power MOSFET and thermal regulation circuitry. No blocking diode or external current sense resistor is required; thus, the basic charger circuit requires only two external components. Furthermore, the LTC4054 is capable of operating from a USB power source.


App note: Standalone Linear Li-Ion battery charger with thermal regulation – [Link]

BQ25101H – 250-mA Single Cell Li-Ion Battery Charger, 1mA termination, 75nA Battery leakage


The bq2510x series of devices are highly integrated Li-Ion and Li-Pol linear chargers targeted at space-limited portable applications. The high input voltage range with input overvoltage protection supports low-cost unregulated adapters.

The bq2510x has a single power output that charges the battery. A system load can be placed in parallel with the battery as long as the average system load does not keep the battery from charging fully during the 10 hour safety timer.

The battery is charged in three phases: conditioning, constant current and constant voltage. In all charge phases, an internal control loop monitors the IC junction temperature and reduces the charge current if an internal temperature threshold is exceeded.

BQ25101H – 250-mA Single Cell Li-Ion Battery Charger, 1mA termination, 75nA Battery leakage – [Link]

LT3042 – 20V, 200mA, Ultralow Noise, Ultrahigh PSRR RF Linear Regulator


The LT®3042 is a high performance low dropout linear regulator featuring LTC’s ultralow noise and ultrahigh PSRR architecture for powering noise sensitive RF applications. Designed as a precision current reference followed by a high performance voltage buffer, the LT3042 can be easily paralleled to further reduce noise, increase output current and spread heat on the PCB.

The device supplies 200mA at a typical 350mV dropout voltage. Operating quiescent current is nominally 2mA and drops to <<1μA in shutdown. The LT3042’s wide output voltage range (0V to 15V) while maintaining unitygain operation provides virtually constant output noise, PSRR, bandwidth and load regulation, regardless of the programmed output voltage. Additionally, the regulator features programmable current limit, fast start-up capability and programmable power good to indicate output voltage regulation.

LT3042 – 20V, 200mA, Ultralow Noise, Ultrahigh PSRR RF Linear Regulator – [Link]

Highly Configurable 8-Channel ADC


by elektor.com:

A recent press release by Linear Technology announced the introduction of the LTC2373-18 low noise, high speed, 8-channel, 18-bit, 1 Msps, successive approximation register (SAR) ADC. The device is capable of operating from a single 5V supply and features a highly configurable, low crosstalk 8-channel input multiplexer, supporting fully differential, pseudo-differential unipolar and pseudo-differential bipolar analog input ranges. The LTC2373-18 achieves ±2.75LSB maximum integral nonlinearity for all input ranges with no missing codes at 18-bits and a typical SNR of 100dB for fully differential inputs and 95dB with pseudo-differential inputs.

The temperature-compensated onboard 2.048 V reference has a maximum drift of 20 ppm/°C and a singleshot capable reference buffer. For control the LTC2373-18 has a high speed SPI-compatible serial interface that supports 1.8 V, 2.5 V, 3.3 V and 5 V logic through which a sequencer with a depth of 16 may be programmed. An internal oscillator sets the conversion time, easing external timing considerations. The LTC2373-18 dissipates 40mW and automatically naps between conversions to reduce power consumption. This power saving feature is scaled in accordance with the sampling rate. A sleep mode is also provided which reduces power consumption to 300 μW during inactive periods.

Highly Configurable 8-Channel ADC – [Link]

LTC7138 – High Efficiency, 140V 400mA Step-Down Regulator


MILPITAS, CA February 5, 2015 Linear Technology announces the LTC7138, a 140V inputcapable high efficiency buck converter that delivers up to 400mA of continuous output current. It operates from an input voltage range of 4V to 140V, making it ideal for a wide range of telecom, industrial, avionic and automotive applications. The LTC7138 utilizes a programmable hysteretic mode design to optimize efficiency over a broad range of output currents. It utilizes an internal 1.8 Ohm power MOSFET for robust, high efficiency operation. A user programmable output current limit can set output current from 100mA to 400mA as required by the particular application. The LTC7138 can be programmed with fixed output voltages of 1.8V, 3.3V or 5V, or a resistor divider can be used to program outputs from 0.8V to V . The LTC7138’s thermally enhanced MSOP offers additional pin spacing required for high voltage inputs. The combination of its MSOP and only four tiny externals provides a highly compact solution footprint for a wide array of applications.

LTC7138 – High Efficiency, 140V 400mA Step-Down Regulator – [Link]

Peregrine Semiconductor Ships Industry’s First True DC Switch


The UltraCMOS® PE42020 Integrates RF, Digital and Analog Functions in a Monolithic Die to Preserve Signal Integrity From DC to 8 GHz

Peregrine Semiconductor announces the availability of the UltraCMOS® PE42020, the industry’s first and only RF integrated switch to operate at true DC, zero Hz. This True DC RF switch features high power handling and maintains excellent RF performance and linearity from DC through 8000 MHz. A reliable alternative to problematic mechanical relays and micro-electro-mechanical systems (MEMS), the PE42020 is ideal for test-and-measurement (T&M) and automated-test-equipment (ATE) applications.

“For the first time, an integrated RF switch can operate at DC and truly cover the signal over the entire frequency spectrum,” says Kinana Hussain, Peregrine’s senior manager of marketing. “Until now, only mechanical relays and MEMS switches allowed DC pass through, and these products are plagued with reliability issues and lack of integration. Today’s release of the UltraCMOS PE42020 is another example of Peregrine solving the RF industry’s biggest challenges.”

Peregrine Semiconductor Ships Industry’s First True DC Switch – [Link]

New ARM Cortex-A72


by elektor.com:

ARM has unveiled the new ARM Cortex-A72 processor which they expect to be the standard SoC in mobile devices hitting the marketplace in 2016. Their claim is that it is the highest performing CPU technology available for developing mobile SoCs today. In target configurations, the Cortex-A72 processor is said to deliver CPU performance 50X greater than the leading smartphones from just five years ago.

The ARM premium mobile experience IP suite also offers a significant graphics upgrade offering users up to 4K120fps resolution. Alongside the Cortex-A72 processor is the new CoreLink CCI-500 interconnect and the new Mali-T880 GPU, ARM’s highest performing and most energy-efficient mobile GPU, along with Mali-V550 video and Mali-DP550 display processors. To further ease chip implementation, the suite also includes ARM POP IP for the leading-edge TSMC 16nm FinFET+ process.

New ARM Cortex-A72 – [Link]