DC to 2.0 GHz Multiplier ADL5391
... proportional to α. For α = 1 (GADJ floating), the bandwidth is about 2 GHz; for α > 1, the bandwidth is reduced; and for α < 1, the bandwidth is increased. All input ports, X, Y, and Z, are differential and internally biased to midsupply, VPOS/2. The differential input impedance is 500 Ω up to 100 M ...
... proportional to α. For α = 1 (GADJ floating), the bandwidth is about 2 GHz; for α > 1, the bandwidth is reduced; and for α < 1, the bandwidth is increased. All input ports, X, Y, and Z, are differential and internally biased to midsupply, VPOS/2. The differential input impedance is 500 Ω up to 100 M ...
Document
... Table of Phasor Transforms The phasor transforms can be summarized to be used in circuits analyzes. We will use “static” phasors so the frequency will be remembered for V and I. Do not mix the domains! Notation important! Impedance for passive elements! ...
... Table of Phasor Transforms The phasor transforms can be summarized to be used in circuits analyzes. We will use “static” phasors so the frequency will be remembered for V and I. Do not mix the domains! Notation important! Impedance for passive elements! ...
VOM617A Low Input Current, Phototransistor Output, SOP
... statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and / or ...
... statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and / or ...
AD22151G 数据手册DataSheet 下载
... can be as low as 100 Hz. Passing the output signal through a 100 Hz LP filter, for example, would reduce the rms noise voltage to ⬇1 mV. A dominant pole may be introduced into the output amplifier response by connection of a capacitor across feedback resistor R3 as a simple means of reducing noise a ...
... can be as low as 100 Hz. Passing the output signal through a 100 Hz LP filter, for example, would reduce the rms noise voltage to ⬇1 mV. A dominant pole may be introduced into the output amplifier response by connection of a capacitor across feedback resistor R3 as a simple means of reducing noise a ...
MAX1562/MAX1562H/MAX1563 Programmable 4A USB Current-Limited Switches with Autoreset and Fault Blanking General Description
... latches the switch off if the output is shorted, thereby saving system power. When the short is removed, the switch is reactivated. A fault-blanking feature enables the circuit to ignore momentary faults, such as those caused when hot swapping a capacitive load, preventing false alarms to the host s ...
... latches the switch off if the output is shorted, thereby saving system power. When the short is removed, the switch is reactivated. A fault-blanking feature enables the circuit to ignore momentary faults, such as those caused when hot swapping a capacitive load, preventing false alarms to the host s ...
The control of the source nodes of the four-transistor SRAM... the previous chapter. The circuits initiate the read and write...
... M7 is turned off again. The differential current causes a slight differential voltage to occur in the data lines due to the small resistance to ground of the linear devices M5 and M6. This differential voltage causes a slight imbalance in the gate-source voltages of the NMOS devices of the cross-cou ...
... M7 is turned off again. The differential current causes a slight differential voltage to occur in the data lines due to the small resistance to ground of the linear devices M5 and M6. This differential voltage causes a slight imbalance in the gate-source voltages of the NMOS devices of the cross-cou ...
AC Theory - Department of Electrical Engineering
... It is usual to express Z in cartesian form in terms of R and X, and Y in terms of G and B. The real part of the impedance Z is resistive and is usually denoted by a resistance R, while the imaginary part of the impedance Z is called a reactance and is usually denoted by a reactance X. It can be seen ...
... It is usual to express Z in cartesian form in terms of R and X, and Y in terms of G and B. The real part of the impedance Z is resistive and is usually denoted by a resistance R, while the imaginary part of the impedance Z is called a reactance and is usually denoted by a reactance X. It can be seen ...
AN11119 Medium power small-signal MOSFETs in DC-to-DC conversion
... be converted to another voltage for several functional units in the application. Voltage conversion can work in both directions: it can be step up or step down. This application note presents different methods of DC-to-DC conversion. Using linear voltage regulators for voltage conversion was common, ...
... be converted to another voltage for several functional units in the application. Voltage conversion can work in both directions: it can be step up or step down. This application note presents different methods of DC-to-DC conversion. Using linear voltage regulators for voltage conversion was common, ...
Resistor FAQ`s - RCD Components
... One of the main purposes for knowing the VC is to improve circuit accuracy (especially in high voltage circuits). For instance if a part has 10ppm VC (.001%/volt) then the part will shift from it's nominal value by up to 1% at 1KV. That may be fine for a 10% circuit but obviously could present a sev ...
... One of the main purposes for knowing the VC is to improve circuit accuracy (especially in high voltage circuits). For instance if a part has 10ppm VC (.001%/volt) then the part will shift from it's nominal value by up to 1% at 1KV. That may be fine for a 10% circuit but obviously could present a sev ...
Optical Detectors
... two important electrical characteristics of a photodiode: the junction capacitance and the shunt resistance. Without these, the RC time constant of the complete operating circuit cannot be calculated. The parallel plate capacitance across the depletion region gives rise to a junction capacitance (Cj ...
... two important electrical characteristics of a photodiode: the junction capacitance and the shunt resistance. Without these, the RC time constant of the complete operating circuit cannot be calculated. The parallel plate capacitance across the depletion region gives rise to a junction capacitance (Cj ...
AH PRE-1 Highend-Preamplifier - Andreas Hünnebeck`s private Seite
... Like most questions it is not possible to give a definite answer to this question. Regarding “lo-fi” stereo components like modern Mini systems or “mid-fi” components like small amplifiers, tuners and so on ranging in price up to 500 US$ you must strictly deny it: any DIY project would be much more ...
... Like most questions it is not possible to give a definite answer to this question. Regarding “lo-fi” stereo components like modern Mini systems or “mid-fi” components like small amplifiers, tuners and so on ranging in price up to 500 US$ you must strictly deny it: any DIY project would be much more ...
A Primer on Photodiode Technology Page 1 of 11 Photodiode
... "depletion region". The depth of the depletion region can be varied by applying a reverse bias voltage across the junction. When the depletion region reaches the back of the diode the photodiode is said to be "fully depleted". The depletion region is important to photodiode performance since most of ...
... "depletion region". The depth of the depletion region can be varied by applying a reverse bias voltage across the junction. When the depletion region reaches the back of the diode the photodiode is said to be "fully depleted". The depletion region is important to photodiode performance since most of ...
Chapter 26 - KFUPM Faculty List
... Q#2: If 4.7*10**(16) electrons pass a particular point in a wire every minute, what is the current in the wire? (Ans: 1.3*10**(-4) A.) Q#3: An electric device, which heats water by immersing a resistance wire in the water, generates 153 J of heat per second when an electric potential difference of 1 ...
... Q#2: If 4.7*10**(16) electrons pass a particular point in a wire every minute, what is the current in the wire? (Ans: 1.3*10**(-4) A.) Q#3: An electric device, which heats water by immersing a resistance wire in the water, generates 153 J of heat per second when an electric potential difference of 1 ...
DC Coupling with 7 Series FPGAs GTX Transceivers
... The assumption for this example is that the TX driver is able to provide a termination voltage such that the resultant line common mode voltage is 725 mV when the RX is ground terminated. With the data available, the common mode voltage of the line is 725 mV, which appears to be a viable scenario. F ...
... The assumption for this example is that the TX driver is able to provide a termination voltage such that the resultant line common mode voltage is 725 mV when the RX is ground terminated. With the data available, the common mode voltage of the line is 725 mV, which appears to be a viable scenario. F ...
ADM2914 数据手册DataSheet 下载
... Supply Voltage. VCC operates as a direct supply for voltages up to 6 V. For voltages greater than 6 V, it operates as a shunt regulator. A dropper resistor must be used in this configuration to limit the current to less than 10 mA. When used without the resistor, the voltage at this pin must not exc ...
... Supply Voltage. VCC operates as a direct supply for voltages up to 6 V. For voltages greater than 6 V, it operates as a shunt regulator. A dropper resistor must be used in this configuration to limit the current to less than 10 mA. When used without the resistor, the voltage at this pin must not exc ...
App58-Solid State Relays Current Limit Performance
... across the SSR. The SSR remains in this state for the duration of the SSR's specified turn-on time. Lastly, the SSR turns back on and limits the transient current to the SSR's specified current-limit value. In current limiting, the SSR presents a high impedance to the fault. The SSR can dissipate a ...
... across the SSR. The SSR remains in this state for the duration of the SSR's specified turn-on time. Lastly, the SSR turns back on and limits the transient current to the SSR's specified current-limit value. In current limiting, the SSR presents a high impedance to the fault. The SSR can dissipate a ...
