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Area-Effective Inductive Peaking with Interwoven Inductor for High
... off-chip laser-diode usually requires higher supply voltage over 1.8 V. Therefore an LD driver is also required to operate at this relatively high supply voltage. In order to guarantee higher breakdown voltage, transistors with thicker oxide thickness are necessary, which prevents to rely on process ...
... off-chip laser-diode usually requires higher supply voltage over 1.8 V. Therefore an LD driver is also required to operate at this relatively high supply voltage. In order to guarantee higher breakdown voltage, transistors with thicker oxide thickness are necessary, which prevents to rely on process ...
BD63536FJ
... The CS pin is an input of the overcurrent detection circuit comparator. This IC has a built-in overcurrent detection circuit (current limit function) used to turn OFF the output current if an abnormal overcurrent, such as short-circuited output current, flows through the IC. This IC monitors the cur ...
... The CS pin is an input of the overcurrent detection circuit comparator. This IC has a built-in overcurrent detection circuit (current limit function) used to turn OFF the output current if an abnormal overcurrent, such as short-circuited output current, flows through the IC. This IC monitors the cur ...
lecture 240 – simulation and measurements of
... 1.) The linear range of operation 2.) The gain in the linear range 3.) The output limits 4.) The systematic input offset voltage 5.) DC operating conditions, power dissipation 6.) When biased in the linear range, the small-signal frequency response can be obtained 7.) From the open-loop frequency re ...
... 1.) The linear range of operation 2.) The gain in the linear range 3.) The output limits 4.) The systematic input offset voltage 5.) DC operating conditions, power dissipation 6.) When biased in the linear range, the small-signal frequency response can be obtained 7.) From the open-loop frequency re ...
Complete PDF Edition (2,508 KB)
... 1. Product Overview and Features The product line-up of the newly introduced AE-SW series air circuit breakers is shown in Table 1. The series comprises a total of nine models, from 630A to 4000A frames. Each model is available in the following four different kinds of outline modules: fixed type, dr ...
... 1. Product Overview and Features The product line-up of the newly introduced AE-SW series air circuit breakers is shown in Table 1. The series comprises a total of nine models, from 630A to 4000A frames. Each model is available in the following four different kinds of outline modules: fixed type, dr ...
MAX15108A High-Efficiency, 8A, Current-Mode Synchronous Step-Down Switching Regulator General Description
... power switches delivers up to 8A of output current. The regulator operates from 2.7V to 5.5V and provides an output voltage from 0.6V up to 95% of the input voltage, making the device ideal for distributed power systems, portable devices, and preregulation applications. The IC utilizes a current-mod ...
... power switches delivers up to 8A of output current. The regulator operates from 2.7V to 5.5V and provides an output voltage from 0.6V up to 95% of the input voltage, making the device ideal for distributed power systems, portable devices, and preregulation applications. The IC utilizes a current-mod ...
Op Amps
... • Op-Amps have a very high gain. They can be connected open- or closed loop. • Open-loop (AVOL) refers to a configuration where there is no feedback from output back to the input • AVOL may exceed 10,000 • Closed-loop (AVCL) configuration reduces the gain In order to control the gain of an op-amp it ...
... • Op-Amps have a very high gain. They can be connected open- or closed loop. • Open-loop (AVOL) refers to a configuration where there is no feedback from output back to the input • AVOL may exceed 10,000 • Closed-loop (AVCL) configuration reduces the gain In order to control the gain of an op-amp it ...
a 14-Bit, 125 MSPS TxDAC D/A Converter
... tied directly to an output resistor to provide two complementary, single-ended voltage outputs or fed directly into a transformer. The output voltage compliance range is 1.25 V. The on-chip reference and control amplifier are configured for maximum accuracy and flexibility. The AD9764 can be driven ...
... tied directly to an output resistor to provide two complementary, single-ended voltage outputs or fed directly into a transformer. The output voltage compliance range is 1.25 V. The on-chip reference and control amplifier are configured for maximum accuracy and flexibility. The AD9764 can be driven ...
FAN5354 3 MHz, 3 A Synchronous Buck Regulator
... Thermal Shutdown and Overload Protection 12-Lead 3x3.5 mm MLP ...
... Thermal Shutdown and Overload Protection 12-Lead 3x3.5 mm MLP ...
OPA3832
... Using complementary common-emitter outputs provides an output swing to within 30mV of ground and 60mV of the positive supply. The high output drive current and low differential gain and phase errors also make it ideal for single-supply consumer video products. Low distortion operation is ensured by ...
... Using complementary common-emitter outputs provides an output swing to within 30mV of ground and 60mV of the positive supply. The high output drive current and low differential gain and phase errors also make it ideal for single-supply consumer video products. Low distortion operation is ensured by ...
Low Voltage Analog Circuit Design Based on the
... The gate source voltage of M1 varies with the input signal, this leads to distortion that increase at high frequency. The slew rate is nonsymmetrical since the sourcing capability is very large, while the sinking capability is limited by the bias current Ib. 3. Flipped Voltage Follower It is essenti ...
... The gate source voltage of M1 varies with the input signal, this leads to distortion that increase at high frequency. The slew rate is nonsymmetrical since the sourcing capability is very large, while the sinking capability is limited by the bias current Ib. 3. Flipped Voltage Follower It is essenti ...
INA180 Low- and High-Side Voltage Output
... The INA180 supports small-signal bandwidths as high as 350 kHz, and large-signal slew rates of 2 V/µs. The ability to detect rapid changes in the sensed current, as well as the ability to quickly slew the output, make the INA180 a good choice for applications that require a quick response to input c ...
... The INA180 supports small-signal bandwidths as high as 350 kHz, and large-signal slew rates of 2 V/µs. The ability to detect rapid changes in the sensed current, as well as the ability to quickly slew the output, make the INA180 a good choice for applications that require a quick response to input c ...
Radio Frequency Immunity Requirements
... Figure 5 – General TEM cell test setups for radiated E-field immunity ............................................. 13 Figure 6 – Cordless TTE handset orientation for radiated E-field immunity ...................................... 14 Figure 7 – Cordless TTE angled handset orientation for radiated E ...
... Figure 5 – General TEM cell test setups for radiated E-field immunity ............................................. 13 Figure 6 – Cordless TTE handset orientation for radiated E-field immunity ...................................... 14 Figure 7 – Cordless TTE angled handset orientation for radiated E ...
a +5 V, Serial Input Complete 12-Bit DAC DAC8512
... sensitive LD strobe that should be returned high before any new data is loaded into the serial input register. At any time the contents of the DAC register can be reset to zero by strobing the CLR pin which causes the DAC output voltage to go to zero volts. All of the timing requirements are detaile ...
... sensitive LD strobe that should be returned high before any new data is loaded into the serial input register. At any time the contents of the DAC register can be reset to zero by strobing the CLR pin which causes the DAC output voltage to go to zero volts. All of the timing requirements are detaile ...
AD9214 数据手册DataSheet下载
... output pin. Connecting REFSENSE externally to AVDD disables the internal reference, and configures REF (Pin 4) as an external reference input. In this case, the user must drive REF with a clean and accurate 1.25 V (± 5%) reference input. Reference input or output as configured by REFSENSE (Pin 3). W ...
... output pin. Connecting REFSENSE externally to AVDD disables the internal reference, and configures REF (Pin 4) as an external reference input. In this case, the user must drive REF with a clean and accurate 1.25 V (± 5%) reference input. Reference input or output as configured by REFSENSE (Pin 3). W ...
lecture 3
... or “off” (conducting state) (2) Assume a short circuit for diode “on” and an open circuit for diode “off” (3) Check to see if the result is consistent with the assumed state for each diode (current must flow in the forward direction for diode “on” and the voltage across the diodes (VD) assumed to be ...
... or “off” (conducting state) (2) Assume a short circuit for diode “on” and an open circuit for diode “off” (3) Check to see if the result is consistent with the assumed state for each diode (current must flow in the forward direction for diode “on” and the voltage across the diodes (VD) assumed to be ...
TPA2036D1 数据资料 dataSheet 下载
... amplifier outputs a differential voltage on the output that is equal to the differential input times the gain. The common-mode feedback ensures that the common-mode voltage at the output is biased around VDD/2 regardless of the common-mode voltage at the input. The fully differential TPA2036D1 can s ...
... amplifier outputs a differential voltage on the output that is equal to the differential input times the gain. The common-mode feedback ensures that the common-mode voltage at the output is biased around VDD/2 regardless of the common-mode voltage at the input. The fully differential TPA2036D1 can s ...
Microsoft Word - BT-338 User Manual
... electricity device ( for example, the electromotor, transformer substation). C) To check if power lever is sufficient, if the red LED lights up, it means the power is insufficient, pls. recharge until the red indicator is off( recharging is finished). D) If the device still can not be positioned wit ...
... electricity device ( for example, the electromotor, transformer substation). C) To check if power lever is sufficient, if the red LED lights up, it means the power is insufficient, pls. recharge until the red indicator is off( recharging is finished). D) If the device still can not be positioned wit ...
Toyota electrical wiring diagram
... 1. How will the circuit be affected if there were an open at point X. 2. How will the circuit be affected if there were an open at point Y. 3. How will the circuit be affected if there were an open at point Z. 4. If the Horn Switch is OPEN, what voltage potential (Ground, Positive, or Electrically D ...
... 1. How will the circuit be affected if there were an open at point X. 2. How will the circuit be affected if there were an open at point Y. 3. How will the circuit be affected if there were an open at point Z. 4. If the Horn Switch is OPEN, what voltage potential (Ground, Positive, or Electrically D ...
pat3147447_fender.pdf
... through winding portion 21 and capacitor 22, due to the relatively low value of capacitor 22. Thus, lower-frequency currents at tap 28 must pass primarily through 35 rheostat winding 24 to ground. The bass response is affected somewhat by the setting of the slider 23 of the treble control. However, ...
... through winding portion 21 and capacitor 22, due to the relatively low value of capacitor 22. Thus, lower-frequency currents at tap 28 must pass primarily through 35 rheostat winding 24 to ground. The bass response is affected somewhat by the setting of the slider 23 of the treble control. However, ...
Regenerative circuit
The regenerative circuit (or regen) allows an electronic signal to be amplified many times by the same active device. It consists of an amplifying vacuum tube or transistor with its output connected to its input through a feedback loop, providing positive feedback. This circuit was widely used in radio receivers, called regenerative receivers, between 1915 and World War II. The regenerative receiver was invented in 1912 and patented in 1914 by American electrical engineer Edwin Armstrong when he was an undergraduate at Columbia University. Due partly to its tendency to radiate interference, by the 1930s the regenerative receiver was superseded by other receiver designs, the TRF and superheterodyne receivers and became obsolete, but regeneration (now called positive feedback) is widely used in other areas of electronics, such as in oscillators and active filters. A receiver circuit that used regeneration in a more complicated way to achieve even higher amplification, the superregenerative receiver, was invented by Armstrong in 1922. It was never widely used in general receivers, but due to its small parts count is used in a few specialized low data rate applications, such as garage door openers, wireless networking devices, walkie-talkies and toys.