The LM4120 device is an accurate low-power, low-fall-band gap voltage reference with an output current source and reception capability up to 5 ma in a standard 5-pin SOT-23 package. Equipment performance is guaranteed in the industrial temperature range (-40 ℃~ 85℃) and in the extended temperature range (-40 ℃~ 125℃).
The DS2756 High precision battery fuel meter is a data acquisition and information storage device designed for cost-sensitive and space-limited 1-cell lithium-ion/polymer battery pack applications. Each device has a unique factory-programmed 64-bit network address, allowing the host system to be individually addressed and supporting multi-battery operation.
The SST25WF080 is a member of the Serial Flash 25 Series family and features a four-wire, SPI-compatible interface that allows for a low pin-count package which occupies less board space and ultimately lowers total system costs. SST25WF080 SPI serial flash memory is manufactured with SST proprietary, high-performance CMOS SuperFlash technology. The split-gate cell design and thick-oxide tunneling injector attain better reliability and manufacturability compared with alternate approaches.
The LT5515 is a 1.5GHz to 2.5GHz direct conversion orthogonal demodulator optimized for high linearity receiver applications. It is suitable for communication receivers that convert RF signals directly into I and Q baseband signals with bandwidths up to 260MHz.
The X9110 integrates a single digital control potentiometer (XDCP) on a single chip CMOS integrated circuit. The digital control potentiometer is realized by a series array of 1023 resistance elements. XDCP can be used as a three-terminal potentiometer or a two-end variable resistor for a variety of applications including control, parameter adjustment, and signal processing.
The LTC1661 integrates two precise, serial-addressable 10-bit digital-to-analog converters (Dacs) in a tiny MS8 package. Ultra-low power supply current, power-saving sleep mode and extremely compact size make the LTC1661 ideal for battery-powered applications, while its immediate availability, high performance and wide power range make it an excellent choice for general-purpose converters.
The TLV5620C and TLV5620I are four-way 8-bit voltage-output digital-to-analog converters (Dacs) with buffered reference inputs (high impedance). The TLV5620C features operating temperatures from 0°C to 70°C. The TLV5620I features operating temperatures from -40°C to 85°C. The TLV5620C and TLV5620I do not require external trimming.
The DAC5652 is a single-chip, dual-channel, 10-bit high-speed dac with on-chip reference voltage. With update rates up to 275 MP, the DAC5652 provides excellent dynamic performance, tight gain and offset matching features, making it suitable for I/Q baseband or direct IF communication applications. The equipment is characterized to operate in the industrial temperature range of -40°c to 85°c.
The THCV213 and THCV214 are designed to support the transfer of pixel data between the host and the display. The chipset is only capable of transmitting 18 bits of data and 4 bits of control data via a differential cable, with a pixel clock frequency from 5MHz to 40MHz. THCV213 can transmit synchronous mode to speed up the establishment of links. The THCV214 has a PLL status indicator.
The LTC1100 is a high precision instrumentation amplifier using zero-drift techniques to achieve outstanding DC performance. The input DC offset is typically 1µV while the DC offset drift is typically 5nV/°C; Performance. The input DC offset is typically 1µV while the DC offset drift is typically 5NV /°C; a very low bias current of 65pA is also achieved.
The LK112 is a low drop linear regulator with a built-in electronic switch. Internal switches can be controlled by TTL or CMOS logic levels. When the control pin is pulled to the logical high level, the device is on.
SN105125 is a low voltage regulator with an output tolerance of ±2% over the operating range. The device is optimized for low noise applications and has low static current (enable < 0.8V). The device has a low voltage reduction at full load (150 mA).
The A5972D is a step-down monolithic power supply switch regulator with a minimum switching current limit of 1.8 a, so it is capable of providing up to 1.5 a DC current to loads depending on application conditions. The device uses an internal p-channel DMOS transistor (typical RDS(on) of 250 mΩ) as the switching element to minimize the size of the external components.
The IRS2980S utilized the control and high voltage technologies of International Rectifier Corporation to achieve a simple, high-performance step-down LED driver solution. The solution is based on hysteresis output current regulation and typically operates in the range of 25 kHz to 120 kHz.
The LT1910 is a high-side-gate driver that allows the use of low-cost n-channel power MosFETs for high-side switching applications. Available in SO-8 package. It contains a fully independent charge pump to fully enhance the N-channel MOSFET switch without external components.
The EL8302 is a three-rail to rail amplifier with a bandwidth of -3 dB of 500MHz and a conversion rate of 600V/µs. The EL8302 is designed for some general purpose video, communications, instrumentation and industrial applications. The EL8302 is available in 16-pin SO and 16-pin QSOP packages and operates in temperatures ranging from -40°C to +85°C.
The PX3511A and PX3511B are high frequency MOSFET drivers specifically designed to drive upper and lower power N-Channel MOSFETs in a synchronous rectified buck converter topology. These drivers combined with the ISL6595 Digital Multi-Phase Buck PWM controller and N-Channel MOSFETs form a complete core-voltage regulator solution for advanced microprocessors.
The ISL91108 is a highly integrated step-down booster switch regulator that accepts input voltage above or below the regulated output voltage. The ISL91108 requires only an inductor and few external components. The size of the power solution is minimized with a 2.34mmx1.72mm WLCSP and a 2.6MHz switching frequency, which further reduces the size of the external components.
