Surface Mount RF Schottky Barrier Diodes Technical Data HSMS-282x Series
... suitable for zero bias applications) are realized on p-type silicon. Such diodes suffer from higher values of RS than do the n-type. Thus, p-type diodes are generally reserved for detector applications (where very high values of RV swamp out high RS) and n-type diodes such as the HSMS-282x are used ...
... suitable for zero bias applications) are realized on p-type silicon. Such diodes suffer from higher values of RS than do the n-type. Thus, p-type diodes are generally reserved for detector applications (where very high values of RV swamp out high RS) and n-type diodes such as the HSMS-282x are used ...
PTH08T210W
... A minimum value of external output capacitor is required for proper operation. Adding additional capacitance at the load further improves transient response. See the Capacitor Application Information section for more guidance. (6) This is the calculated maximum. This value includes both ceramic and ...
... A minimum value of external output capacitor is required for proper operation. Adding additional capacitance at the load further improves transient response. See the Capacitor Application Information section for more guidance. (6) This is the calculated maximum. This value includes both ceramic and ...
MAX16932/MAX16933 2.2MHz, 36V, Dual Buck with 20µA Quiescent Current General Description
... The MAX16932/MAX16933 offer two high-voltage, synchronous step-down controllers that use only 20µA of quiescent current with no load. They operate with an input voltage supply from 3.5V to 42V and can operate in dropout condition by running at 95% duty cycle. The devices are intended for application ...
... The MAX16932/MAX16933 offer two high-voltage, synchronous step-down controllers that use only 20µA of quiescent current with no load. They operate with an input voltage supply from 3.5V to 42V and can operate in dropout condition by running at 95% duty cycle. The devices are intended for application ...
Milagro Front−end Electronics Manual
... diodes in a SOT−23 package. These along with the 20 Ω resistor directly above these diodes in the figure provide input protection for the circuit. If a high voltage capacitor fails or arcing is observed, these components will most likely need to be replaced. To be safe, the 75 Ω termination may need ...
... diodes in a SOT−23 package. These along with the 20 Ω resistor directly above these diodes in the figure provide input protection for the circuit. If a high voltage capacitor fails or arcing is observed, these components will most likely need to be replaced. To be safe, the 75 Ω termination may need ...
LMF100 High Performance Dual Switched Capacitor Filter
... Note 4: The accuracy of the Q value is a function of the center frequency (f0). This is illustrated in the curves under the heading “Typical Peformance Characteristics”. Note 5: Vos1, Vos2, and Vos3 refer to the internal offsets as discussed in the Applications Information section 3.4. Note 6: Cross ...
... Note 4: The accuracy of the Q value is a function of the center frequency (f0). This is illustrated in the curves under the heading “Typical Peformance Characteristics”. Note 5: Vos1, Vos2, and Vos3 refer to the internal offsets as discussed in the Applications Information section 3.4. Note 6: Cross ...
MAX1272/MAX1273 Fault-Protected, 12-Bit ADCs with Software-Selectable Input Range General Description
... The MAX1272/MAX1273 input architecture includes a resistor-divider and a T/H system (Figure 3). When operating in bipolar or unipolar mode, the resistordivider network formed by R1, R2, and R3 scales the signal applied at the input channel. Use a low source impedance (<4Ω) to minimize gain error. Th ...
... The MAX1272/MAX1273 input architecture includes a resistor-divider and a T/H system (Figure 3). When operating in bipolar or unipolar mode, the resistordivider network formed by R1, R2, and R3 scales the signal applied at the input channel. Use a low source impedance (<4Ω) to minimize gain error. Th ...
Power Factor Correction Circuits: Active Filters
... along with the VOUT error voltage to formulate avoltage that is proportional to the desired current. Thissignal is then compared with the sensed actual convertercurrent to form the error signal that drives the converterswitch Q1. The result is that the input current waveformwill track the AC input v ...
... along with the VOUT error voltage to formulate avoltage that is proportional to the desired current. Thissignal is then compared with the sensed actual convertercurrent to form the error signal that drives the converterswitch Q1. The result is that the input current waveformwill track the AC input v ...
DC Circuits
... Our digital meters are not damaged by this backwards connection but analog meters (with rotating needles) can be. So as a general practice, care should be taken when attaching meters. 8. Finish this general rule below about how meters are connected. The circuit should be wired so that the current en ...
... Our digital meters are not damaged by this backwards connection but analog meters (with rotating needles) can be. So as a general practice, care should be taken when attaching meters. 8. Finish this general rule below about how meters are connected. The circuit should be wired so that the current en ...
GPS/GLONASS Module MGG2217
... MGGS2217 specification V2.2 This input is low active. V_BAT This is the battery backup input that powers the SRAM and RTC when main power is removed. Without an external backup battery, the TMP will execute a cold start after every power on. To achieve the faster start-up offered by a hot or warm s ...
... MGGS2217 specification V2.2 This input is low active. V_BAT This is the battery backup input that powers the SRAM and RTC when main power is removed. Without an external backup battery, the TMP will execute a cold start after every power on. To achieve the faster start-up offered by a hot or warm s ...
Resonance Circuits and Applications
... components and the frequency of operation. The impedance therefore has an associated magnitude and phase given as: ...
... components and the frequency of operation. The impedance therefore has an associated magnitude and phase given as: ...
... them at supply transformer. Due to this harmonics distortion sensitive loads may be disturbed or damaged. By considering the effects of harmonics in various equipments in power system, it is necessary to eliminate these harmonics. Traditionally, passive LC filter, capacitor bank and TCR are used to ...
Chapter 33
... (b) Explain how “CIVIL” works as another mnemonic device, where V represents voltage. 3. Why is the sum of the maximum voltages across each element in a series RLC circuit usually greater than the maximum applied voltage? Doesn’t that inequality violate Kirchhoff’s loop rule? 4. (a) Does the phase a ...
... (b) Explain how “CIVIL” works as another mnemonic device, where V represents voltage. 3. Why is the sum of the maximum voltages across each element in a series RLC circuit usually greater than the maximum applied voltage? Doesn’t that inequality violate Kirchhoff’s loop rule? 4. (a) Does the phase a ...
AN1080/D External−Sync Power Supply with Universal Input
... Two types of power switches are considered for the flyback power supply. They are TMOS power FETs, and the state−of−the−art perforated emitter bipolar transistors introduced in 1988. The series TMOS FETs simplifies the design of driving circuits and provides extremely fast switching transitions. The ...
... Two types of power switches are considered for the flyback power supply. They are TMOS power FETs, and the state−of−the−art perforated emitter bipolar transistors introduced in 1988. The series TMOS FETs simplifies the design of driving circuits and provides extremely fast switching transitions. The ...
Operational amplifier
An operational amplifier (""op-amp"") is a DC-coupled high-gain electronic voltage amplifier with a differential input and, usually, a single-ended output. In this configuration, an op-amp produces an output potential (relative to circuit ground) that is typically hundreds of thousands of times larger than the potential difference between its input terminals.Operational amplifiers had their origins in analog computers, where they were used to do mathematical operations in many linear, non-linear and frequency-dependent circuits. The popularity of the op-amp as a building block in analog circuits is due to its versatility. Due to negative feedback, the characteristics of an op-amp circuit, its gain, input and output impedance, bandwidth etc. are determined by external components and have little dependence on temperature coefficients or manufacturing variations in the op-amp itself.Op-amps are among the most widely used electronic devices today, being used in a vast array of consumer, industrial, and scientific devices. Many standard IC op-amps cost only a few cents in moderate production volume; however some integrated or hybrid operational amplifiers with special performance specifications may cost over $100 US in small quantities. Op-amps may be packaged as components, or used as elements of more complex integrated circuits.The op-amp is one type of differential amplifier. Other types of differential amplifier include the fully differential amplifier (similar to the op-amp, but with two outputs), the instrumentation amplifier (usually built from three op-amps), the isolation amplifier (similar to the instrumentation amplifier, but with tolerance to common-mode voltages that would destroy an ordinary op-amp), and negative feedback amplifier (usually built from one or more op-amps and a resistive feedback network).