Amax chip

  A boost converter is a DC-DC power converter that can step up the input voltages without affecting the current from the input to the module’s output. The TPS6122x family modules provide the voltage supply to various products powered by a battery of any type. (NiCd, NiMH, Li-polymer, Li-ion, single-cell, two-cell, or three cells). TPS61222DCKR is a 6-pin DCK (SC-70) package with 2 mm x 2 mm small dimensions. The boost converter TPS61222DCKR employs synchronous rectification and a hysteretic controller design to achieve optimum efficiency with the minimum quiescent current. The product TPS61222DCKR can be used effectively by following the mentioned points.   A current-mode controller controlling the module and the feedback network, coupled with the voltage error amplifier, monitors the output voltage VOUT. The voltage error amplifier compares the feedback voltage to the internal voltage reference and changes the needed offset of the inductor current cor

Three transmission modes are available for the communication systems, simplex, half-duplex and full-duplex. A simplex is considered least efficient, while a duplex is more efficient. Only one out of two devices can transmit in a simplex mode, and the transmission is in a single direction. For half-duplex transmission is bi-directional but not simultaneous. Full-duplex is considered to be more efficient to transmit in two directions simultaneously to increase the spectral efficiency and throughput of the channel. Spectral efficiency is the utilization of bandwidth for the users.   Due to higher efficiency, Full-duplex is has replaced half duplex in most communication systems.  Every technology has its pros and cons. In the case of communication systems, the signal-to-noise ratio matters. In full-duplex systems, degraded ANR is observed to self-interference. The main challenge of full-duplex is to mitigate the self-interference that is caused due to internal components of the transmitt

  ADV7604BBCZ -5 is a digitizer that contains an HDMI receiver. A video digitizer is a module that takes an analog frame and converts it to a digital frame. The alternative term used for digitizer is a decoder. An analog image is decoded into a digital image. The key parameter to evaluate the performance of the digitizer is an SNR. SNR, referred to as the signal-to-noise ratio, of the module is high. The module ADV7604BBCZ -5 is an efficient digitizer with a high-definition multimedia interface receiver.   In addition to the HDMI receiver module, one main component processor (CP) can process the video signal from the HDMI receiver. The YPrPB and RGB component formats can be programmed by using this CP feature. The receiver is 1:4 multiplexed and supports 36-/30-/24-bit deep color. The operating frequency of the HDMI receiver is 225 Mhz. The module ADV7604BBCZ-5 can be operated in dual mode, Mode 1 is HDMI quad, and mode 2 is analog input mode. This feature enables the module ADV760

  LM5166DRCR is a module for the synchronous buck converter. A buck converter is a step-down DC to DC converter required in most applications. Most of the applications require low voltage dr operation, but the supply voltage is higher. That is why buck converters are needed to step down the higher voltage to the lower voltage. Various smaller gadgets require a low voltage, and buck converter provides power to the smaller devices. Synchronous buck converters, in addition to step downing, the voltage is providing the feature of higher LM5166DRCR current delivery with minimal power loss.   LM5166DRCR synchronous buck converter is a module that can be handled easily and provides high efficiency for a wide range of input voltages. The module LM5166DRCR is a 10 pin integrated circuit.  PIN 1 is named SW, a switching node. SW is internally connected to the PFET switch. An external buck inductor should be connected to this pin to achieve the best performance.  Pin 2 is the in