Understanding and Interpreting Standard-Logic Data Sheets Application Report
... Texas Instruments (TI) standard-logic products data sheets include descriptions of functionality and electrical specifications for the devices. Each specification includes acronyms, numerical limits, and test conditions that may be foreign to the user. The proper understanding and interpretation of ...
... Texas Instruments (TI) standard-logic products data sheets include descriptions of functionality and electrical specifications for the devices. Each specification includes acronyms, numerical limits, and test conditions that may be foreign to the user. The proper understanding and interpretation of ...
STA-5063Z 3.3GHz to 6.2GHz GENERAL PURPOSE 3.3V 15dBm AMPLIFIER Features
... RF input pin and power up down control. Supply VPC =3.3V thru a 4.7Kohm resistor to this pin. For more gain (~0.3dB), a 5.6nH inductor can also be used in place of the resistor. If an inductor is used, move the 4.7k resistor towards the DC supply, but still in series with pin 1. A minimum 1k series ...
... RF input pin and power up down control. Supply VPC =3.3V thru a 4.7Kohm resistor to this pin. For more gain (~0.3dB), a 5.6nH inductor can also be used in place of the resistor. If an inductor is used, move the 4.7k resistor towards the DC supply, but still in series with pin 1. A minimum 1k series ...
LT6108-1/LT6108-2 - High Side Current Sense Amplifier with Reference and Comparator
... current must be considered to achieve the specified performance. Note 6: Supply voltage and input common mode voltage are varied while amplifier input offset voltage is monitored. Note 7: The specified gain error does not include the effect of external resistors RIN and ROUT. Although gain error is ...
... current must be considered to achieve the specified performance. Note 6: Supply voltage and input common mode voltage are varied while amplifier input offset voltage is monitored. Note 7: The specified gain error does not include the effect of external resistors RIN and ROUT. Although gain error is ...
An innovative digital charge amplifier to reduce hysteresis in
... DC impedance, a DC current passes through R1 which applied DC compliance voltage VO R1i dc across the piezo (Fleming and Moheimani 2005). As an example, by using a stack piezo AE0505D44H40 from Nek with a capacitance of 3.4 F , and to limit the DC current to 10 mA , for the 40V maximum DC offset ...
... DC impedance, a DC current passes through R1 which applied DC compliance voltage VO R1i dc across the piezo (Fleming and Moheimani 2005). As an example, by using a stack piezo AE0505D44H40 from Nek with a capacitance of 3.4 F , and to limit the DC current to 10 mA , for the 40V maximum DC offset ...
BQ24314 数据资料 dataSheet 下载
... operate. However, if the overcurrent situation persists for tBLANK(OCP), the FET Q1 is turned off for a duration of tREC(OCP), and the FAULT pin is driven low. The FET is then turned on again after tREC(OCP) and the current is monitored all over again. Each time an OCP fault occurs, an internal coun ...
... operate. However, if the overcurrent situation persists for tBLANK(OCP), the FET Q1 is turned off for a duration of tREC(OCP), and the FAULT pin is driven low. The FET is then turned on again after tREC(OCP) and the current is monitored all over again. Each time an OCP fault occurs, an internal coun ...
LTC3230 - 5-LED Main/Sub Display Driver with
... Charge Pump Soft-Start In shutdown, CPO is disconnected from VIN and is pulled down through a 14.3k resistor. When enabled, a weak switch connects VIN to CPO. This allows VIN to slowly charge the CPO output to prevent large charging currents. The LTC3230 also employs a soft-start feature on its char ...
... Charge Pump Soft-Start In shutdown, CPO is disconnected from VIN and is pulled down through a 14.3k resistor. When enabled, a weak switch connects VIN to CPO. This allows VIN to slowly charge the CPO output to prevent large charging currents. The LTC3230 also employs a soft-start feature on its char ...
2. Sic Schottky Diodes - UTK-EECS
... (GaN), and diamond because of their superior material advantages such as large bandgap, high thermal conductivity, and high critical breakdown field strength. Diamond is the ultimate material for power devices because of its more than ten fold better electrical properties; however, diamond manufact ...
... (GaN), and diamond because of their superior material advantages such as large bandgap, high thermal conductivity, and high critical breakdown field strength. Diamond is the ultimate material for power devices because of its more than ten fold better electrical properties; however, diamond manufact ...
AN3027 Application note How to design a transition-mode PFC pre-regulator
... However, boost topology requires the DC output voltage to be higher than the maximum expected line peak voltage (400 VDC is a typical value for 230 V or wide-range mains applications). In addition, there is no insulation between the input and output, thus any line voltage surge is passed on to the o ...
... However, boost topology requires the DC output voltage to be higher than the maximum expected line peak voltage (400 VDC is a typical value for 230 V or wide-range mains applications). In addition, there is no insulation between the input and output, thus any line voltage surge is passed on to the o ...
SPURIOUS FREE DYNAMIC RANGE
... overcome distortion by specifically enhancing the SFDR for high-speed DACs. A switch driver and low-voltage differential signalling receiver to achieve high-speed DAC performance and their influence on the SFDR performance are designed and discussed. ...
... overcome distortion by specifically enhancing the SFDR for high-speed DACs. A switch driver and low-voltage differential signalling receiver to achieve high-speed DAC performance and their influence on the SFDR performance are designed and discussed. ...
LTM4615 - Triple Output, Low Voltage DC/DC uModule Regulator
... 3.5V input. The LTM4615 supports output voltages ranging from 0.8V to 5V for the DC/DC converters, and 0.4V to 2.6V for the VLDO. The three regulator output voltages are set by a single resistor for each output. Only bulk input and output capacitors are needed to complete the design. ...
... 3.5V input. The LTM4615 supports output voltages ranging from 0.8V to 5V for the DC/DC converters, and 0.4V to 2.6V for the VLDO. The three regulator output voltages are set by a single resistor for each output. Only bulk input and output capacitors are needed to complete the design. ...
Speed and energy analysis of digital interconnections: comparison
... Half of this energy is stored on Ctot, while the other half is dissipated as heat over the PMOS transistor’s resistance during the charging of Ctot. During the switching of the input from zero to Vsup, the inverter does not require any capacitive energy from the power supply. This is because the ca ...
... Half of this energy is stored on Ctot, while the other half is dissipated as heat over the PMOS transistor’s resistance during the charging of Ctot. During the switching of the input from zero to Vsup, the inverter does not require any capacitive energy from the power supply. This is because the ca ...
New Floating Capacitance Multipliers
... One of the most limiting problems in the design of integrated circuits is constituted by the realization of silicon area. Moreover, in some sensor applications, it can be useful to deal with capacitance value higher than those normally given by capacitive sensors. In these cases, the use of capacita ...
... One of the most limiting problems in the design of integrated circuits is constituted by the realization of silicon area. Moreover, in some sensor applications, it can be useful to deal with capacitance value higher than those normally given by capacitive sensors. In these cases, the use of capacita ...
Horizon Fuel Cell Software Adaptor User Manual
... This is what you have in the Fuel Cell Software Adapter – a laboratory instrument that is specifically designed to test fuel cells. And the following experiments will teach you more in one minute than you can experience in hours of tedious laboratory measurements with a meter. A picture is worth a 1 ...
... This is what you have in the Fuel Cell Software Adapter – a laboratory instrument that is specifically designed to test fuel cells. And the following experiments will teach you more in one minute than you can experience in hours of tedious laboratory measurements with a meter. A picture is worth a 1 ...
cop SMATV def FR int
... Operating temperature: -10 to +55 °C • High output current, 10A max • Die-cast housing, IP65 • Output voltage can be injected in both outputs • Protected against accidental short circuit and overload ...
... Operating temperature: -10 to +55 °C • High output current, 10A max • Die-cast housing, IP65 • Output voltage can be injected in both outputs • Protected against accidental short circuit and overload ...
A Combined Socketed and Non-Socketed CDM Test Andrew Olney
... three focus products was the degree of damage; the damage on the SCDM failures was consistently worse, and in the case of product BiCMOS3, this resulted in a completely different failure mode (an open vs. a resistive short). These differences in damage severity are as expected since an SCDM discharg ...
... three focus products was the degree of damage; the damage on the SCDM failures was consistently worse, and in the case of product BiCMOS3, this resulted in a completely different failure mode (an open vs. a resistive short). These differences in damage severity are as expected since an SCDM discharg ...
AD5301 数据手册DataSheet 下载
... Buffered Analog Output Voltage from the DAC. The output amplifier has rail-to-rail operation. Active Low Control Input. Acts as a hardware power-down option. This pin overrides any software power-down option. The DAC output goes three-state and the current consumption of the part drops to 50 nA @ 3 ...
... Buffered Analog Output Voltage from the DAC. The output amplifier has rail-to-rail operation. Active Low Control Input. Acts as a hardware power-down option. This pin overrides any software power-down option. The DAC output goes three-state and the current consumption of the part drops to 50 nA @ 3 ...
(t) i s
... for all time in the closed interval [0,T], the voltage v across the capacitor is a continuous function in the open interval (0,T); that is the branch voltage for such a capacitor cannot jump instantaneously from one value to a different value as long as the current remains bounded. The Linear Time-v ...
... for all time in the closed interval [0,T], the voltage v across the capacitor is a continuous function in the open interval (0,T); that is the branch voltage for such a capacitor cannot jump instantaneously from one value to a different value as long as the current remains bounded. The Linear Time-v ...
LinCMOS PRECISION DUAL OPERATIONAL AMPLIFIERS
... stability far exceeding the stability available with conventional metal-gate processes. The extremely high input impedance, low bias currents, and low power consumption make these cost-effective devices ideal for high gain, low frequency, low power applications. Four offset voltage grades are availa ...
... stability far exceeding the stability available with conventional metal-gate processes. The extremely high input impedance, low bias currents, and low power consumption make these cost-effective devices ideal for high gain, low frequency, low power applications. Four offset voltage grades are availa ...
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... Typically, design of a transimpedance circuit is driven by the characteristics of the current source that provides the input to the gain block. A photodiode is the most common example of a capacitive current source that would interface with a transimpedance gain block. Continuing with the photodiode ...
... Typically, design of a transimpedance circuit is driven by the characteristics of the current source that provides the input to the gain block. A photodiode is the most common example of a capacitive current source that would interface with a transimpedance gain block. Continuing with the photodiode ...
CMOS
Complementary metal–oxide–semiconductor (CMOS) /ˈsiːmɒs/ is a technology for constructing integrated circuits. CMOS technology is used in microprocessors, microcontrollers, static RAM, and other digital logic circuits. CMOS technology is also used for several analog circuits such as image sensors (CMOS sensor), data converters, and highly integrated transceivers for many types of communication. In 1963, while working for Fairchild Semiconductor, Frank Wanlass patented CMOS (US patent 3,356,858).CMOS is also sometimes referred to as complementary-symmetry metal–oxide–semiconductor (or COS-MOS).The words ""complementary-symmetry"" refer to the fact that the typical design style with CMOS uses complementary and symmetrical pairs of p-type and n-type metal oxide semiconductor field effect transistors (MOSFETs) for logic functions.Two important characteristics of CMOS devices are high noise immunity and low static power consumption.Since one transistor of the pair is always off, the series combination draws significant power only momentarily during switching between on and off states. Consequently, CMOS devices do not produce as much waste heat as other forms of logic, for example transistor–transistor logic (TTL) or NMOS logic, which normally have some standing current even when not changing state. CMOS also allows a high density of logic functions on a chip. It was primarily for this reason that CMOS became the most used technology to be implemented in VLSI chips.The phrase ""metal–oxide–semiconductor"" is a reference to the physical structure of certain field-effect transistors, having a metal gate electrode placed on top of an oxide insulator, which in turn is on top of a semiconductor material. Aluminium was once used but now the material is polysilicon. Other metal gates have made a comeback with the advent of high-k dielectric materials in the CMOS process, as announced by IBM and Intel for the 45 nanometer node and beyond.