MAX451 Quad, Rail-to-Rail, Fault-Protected, SPST Analog Switches General Description
... The MAX4511/MAX4512/MAX4513 are fault-protected CMOS analog switches with unusual operation and construction. Traditional fault-protected switches are constructed by three series FETs. This produces good off characteristics, but fairly high on-resistance when the signals are within about 3V of each ...
... The MAX4511/MAX4512/MAX4513 are fault-protected CMOS analog switches with unusual operation and construction. Traditional fault-protected switches are constructed by three series FETs. This produces good off characteristics, but fairly high on-resistance when the signals are within about 3V of each ...
AD8027
... However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent right ...
... However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent right ...
MAX3946 1Gbps to 11.3Gbps, SFP+ Laser Driver with Laser Impedance Mismatch Tolerance
... This device is optimized to drive a differential transmitter optical subassembly (TOSA) with a 25I flex circuit. The unique design of the output stage enables use of unmatched TOSAs, greatly reducing headroom limitations and lowering power consumption. The device receives differential CML-compatible ...
... This device is optimized to drive a differential transmitter optical subassembly (TOSA) with a 25I flex circuit. The unique design of the output stage enables use of unmatched TOSAs, greatly reducing headroom limitations and lowering power consumption. The device receives differential CML-compatible ...
Chapter 2 – Ohm`s Law: Resistance
... We may tackle resistor networks by remembering that we can replace parallel or series resistors with their equivalent resistance during the analysis of the network. Let's try our hand at analyzing a complex network. In Figure 23, shown below, we are given a resistor network, shown in the leftmost sc ...
... We may tackle resistor networks by remembering that we can replace parallel or series resistors with their equivalent resistance during the analysis of the network. Let's try our hand at analyzing a complex network. In Figure 23, shown below, we are given a resistor network, shown in the leftmost sc ...
ELECTROMAGNETIC OSCILLATIONS and WAVES
... Kinetic energy of oscillating device: m ⋅ υ(t ) 2 WK (t ) = ...
... Kinetic energy of oscillating device: m ⋅ υ(t ) 2 WK (t ) = ...
Lab Mannual and Tutorial
... 3. Connect the supply voltage and ground lines to the chips. PIN7 = Ground and PIN14 = +5V. 4. According to the pin diagram of each IC mentioned above, make the connections according to circuit dsagram. 5. Connect the inputs of the gate to the input switches of the LED. 6. Connect the output of the ...
... 3. Connect the supply voltage and ground lines to the chips. PIN7 = Ground and PIN14 = +5V. 4. According to the pin diagram of each IC mentioned above, make the connections according to circuit dsagram. 5. Connect the inputs of the gate to the input switches of the LED. 6. Connect the output of the ...
ANSI Codes For Electrical Protection
... circuits are within the desired limits of frequency, phase angle, or voltage, to permit or to cause the paralleling of these two circuits . 26. Apparatus Thermal Device is a device that functions when the temperature of the shunt field or the amortisseur winding of a machine, or that of a load limit ...
... circuits are within the desired limits of frequency, phase angle, or voltage, to permit or to cause the paralleling of these two circuits . 26. Apparatus Thermal Device is a device that functions when the temperature of the shunt field or the amortisseur winding of a machine, or that of a load limit ...
OPA2683 Very Low-Power, Dual, Current-Feedback Operational Amplifier APPLICATIONS
... The output capability for the OPA2683 also sets a new mark in performance for very low-power, current-feedback amplifiers. Delivering a full ±4VPP swing on ±5V supplies, the OPA2683 also has the output current to support this swing into a 100Ω load. This minimal output headroom requirement is comple ...
... The output capability for the OPA2683 also sets a new mark in performance for very low-power, current-feedback amplifiers. Delivering a full ±4VPP swing on ±5V supplies, the OPA2683 also has the output current to support this swing into a 100Ω load. This minimal output headroom requirement is comple ...
High Precision, Low Noise OPERATIONAL AMPLIFIERS FEATURES DESCRIPTION
... amps which are specified at only one supply voltage, the OPA227 series is specified for real-world applications; a single set of specifications applies over the ±5V to ±15V supply range. Specifications are assured for applications between ±5V and ±15V power supplies. Some applications do not require ...
... amps which are specified at only one supply voltage, the OPA227 series is specified for real-world applications; a single set of specifications applies over the ±5V to ±15V supply range. Specifications are assured for applications between ±5V and ±15V power supplies. Some applications do not require ...
SP490E 数据资料DataSheet下载
... SP490ECN-L................................................................................... 0˚C to +70˚C................................................................................ 8-Pin NSOIC SP490ECN-L/TR............................................................................. 0˚C to +70 ...
... SP490ECN-L................................................................................... 0˚C to +70˚C................................................................................ 8-Pin NSOIC SP490ECN-L/TR............................................................................. 0˚C to +70 ...
Steady-State Analysis of Single Phase A.C. Circuit
... Arsonval, Weston, iron vane, electrodynamometer) will work so long as they have been calibrated in RMS figures. Because the mechanical inertia and dampening effects of an electromechanical meter movement makes the deflection of the needle naturally proportional to the average value of the AC, not th ...
... Arsonval, Weston, iron vane, electrodynamometer) will work so long as they have been calibrated in RMS figures. Because the mechanical inertia and dampening effects of an electromechanical meter movement makes the deflection of the needle naturally proportional to the average value of the AC, not th ...
LT1168 - Low Power, Single Resistor Gain Programmable, Precision Instrumentation Amplifier
... The LT ®1168 is a micropower, precision instrumentation amplifier that requires only one external resistor to set gains of 1 to 10,000. The low voltage noise of 10nV/√Hz (at 1kHz) is not compromised by low power dissipation (350µA typical for ±15V supplies). The wide supply range of ±2.3V to ±18V al ...
... The LT ®1168 is a micropower, precision instrumentation amplifier that requires only one external resistor to set gains of 1 to 10,000. The low voltage noise of 10nV/√Hz (at 1kHz) is not compromised by low power dissipation (350µA typical for ±15V supplies). The wide supply range of ±2.3V to ±18V al ...
MAX13485E/MAX13486E Half-Duplex RS-485/RS-422 Transceivers in µDFN General Description Features
... Driver Output Enable. Drive DE high to enable the driver outputs. These outputs are high-impedance when DE is low. Drive RE high and DE low to enter low-power shutdown mode. DE is a hot-swap input (see the Hot-Swap Capability section for more details). ...
... Driver Output Enable. Drive DE high to enable the driver outputs. These outputs are high-impedance when DE is low. Drive RE high and DE low to enter low-power shutdown mode. DE is a hot-swap input (see the Hot-Swap Capability section for more details). ...
TLV2342, TLV2342Y, TLV2344, TLV2344Y LinCMOS LOW-VOLTAGE HIGH-SPEED OPERATIONAL AMPLIFIERS
... † Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to ...
... † Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to ...
i ?g 255` i
... both. Hereinafter, the respective function blocks will be described generally from a viewpoint of the functions. Those skilled in the art should recognize that these functions can be realized in various ways, and any such way is included in the scope of the embodiments. The respective function block ...
... both. Hereinafter, the respective function blocks will be described generally from a viewpoint of the functions. Those skilled in the art should recognize that these functions can be realized in various ways, and any such way is included in the scope of the embodiments. The respective function block ...
TRIAC
TRIAC, from triode for alternating current, is a genericized tradename for an electronic component that can conduct current in either direction when it is triggered (turned on), and is formally called a bidirectional triode thyristor or bilateral triode thyristor.TRIACs are a subset of thyristors and are closely related to silicon controlled rectifiers (SCR). However, unlike SCRs, which are unidirectional devices (that is, they can conduct current only in one direction), TRIACs are bidirectional and so allow current in either direction. Another difference from SCRs is that TRIAC current can be enabled by either a positive or negative current applied to its gate electrode, whereas SCRs can be triggered only by positive current into the gate. To create a triggering current, a positive or negative voltage has to be applied to the gate with respect to the MT1 terminal (otherwise known as A1).Once triggered, the device continues to conduct until the current drops below a certain threshold called the holding current.The bidirectionality makes TRIACs very convenient switches for alternating-current (AC) circuits, also allowing them to control very large power flows with milliampere-scale gate currents. In addition, applying a trigger pulse at a controlled phase angle in an AC cycle allows control of the percentage of current that flows through the TRIAC to the load (phase control), which is commonly used, for example, in controlling the speed of low-power induction motors, in dimming lamps, and in controlling AC heating resistors.