ADA4862-3
... The ADA4862-3 is designed to operate on supply voltages as low as +5 V and up to ±5 V using only 5.3 mA/amp of supply current. To further reduce power consumption, each amplifier is equipped with a power-down feature that lowers the supply current to 200 μA/amp. The ADA4862-3 also consumes less boar ...
... The ADA4862-3 is designed to operate on supply voltages as low as +5 V and up to ±5 V using only 5.3 mA/amp of supply current. To further reduce power consumption, each amplifier is equipped with a power-down feature that lowers the supply current to 200 μA/amp. The ADA4862-3 also consumes less boar ...
Single-Supply, 10MHz, Rail-to-Rail Output, Low-Noise, JFET Amplifier OPA141 OPA2141
... Junction-to-board characterization parameter (6) ...
... Junction-to-board characterization parameter (6) ...
OPA132 OPA2132 OPA4132 High-Speed
... OPERATING VOLTAGE OPA132 series op amps operate with power supplies from ±2.5V to ±18V with excellent performance. Although specifications are production tested with ±15V supplies, most behavior remains unchanged throughout the full operating voltage range. Parameters which vary significantly with o ...
... OPERATING VOLTAGE OPA132 series op amps operate with power supplies from ±2.5V to ±18V with excellent performance. Although specifications are production tested with ±15V supplies, most behavior remains unchanged throughout the full operating voltage range. Parameters which vary significantly with o ...
SBS 1.1-COMPLIANT GAS GAUGE AND
... This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage. ESD damage can range from subtle performance degradation to complete devi ...
... This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage. ESD damage can range from subtle performance degradation to complete devi ...
MAX16903 2.1MHz, High-Voltage, 1A Mini-Buck Converter General Description Features
... In some cases, the MAX16903 is forced to deviate from its operating frequency independent of the state of SYNC. For input voltages above 18V, the required duty cycle to regulate its output may be smaller than the minimum ontime (80ns, typ). In this event, the MAX16903 is forced to lower its switchin ...
... In some cases, the MAX16903 is forced to deviate from its operating frequency independent of the state of SYNC. For input voltages above 18V, the required duty cycle to regulate its output may be smaller than the minimum ontime (80ns, typ). In this event, the MAX16903 is forced to lower its switchin ...
A new 650V Super Junction Device with rugged body diode... and soft switching applications
... No device could be destroyed under these conditions and the waveforms show still a soft characteristic, compared to snappy waveforms for other superjunction devices. This is a clear advantage for the designer, once one can optimize its application for maximum performance without being concerned with ...
... No device could be destroyed under these conditions and the waveforms show still a soft characteristic, compared to snappy waveforms for other superjunction devices. This is a clear advantage for the designer, once one can optimize its application for maximum performance without being concerned with ...
HMC981LP3E 数据资料DataSheet下载
... down to 4V. The gate control can both sink and source current (±0.8 mA) to achieve constant bias current over input power variations applied to the amplifier. The HMC981LP3E also generates a second gate voltage (VG2). VG2 can be adjusted through a resistor divider connected to VDD for amplifiers whi ...
... down to 4V. The gate control can both sink and source current (±0.8 mA) to achieve constant bias current over input power variations applied to the amplifier. The HMC981LP3E also generates a second gate voltage (VG2). VG2 can be adjusted through a resistor divider connected to VDD for amplifiers whi ...
FCBS0550 FCBS0550 Smart Power Module (SPM) Smart Power Module (SPM) Features
... 2. By virtue of integrating an application specific type HVIC inside the SPM, direct coupling to CPU terminals without any opto-coupler or transformer isolation is possible. 3. VFO output is open collector type. This signal line should be pulled up to the positive side of the 5V power supply with ap ...
... 2. By virtue of integrating an application specific type HVIC inside the SPM, direct coupling to CPU terminals without any opto-coupler or transformer isolation is possible. 3. VFO output is open collector type. This signal line should be pulled up to the positive side of the 5V power supply with ap ...
AD8278 英文数据手册DataSheet 下载
... amplifiers intended for precision signal conditioning in power critical applications that require both high performance and low power. The AD8278 and AD8279 provide exceptional commonmode rejection ratio (80 dB) and high bandwidth while amplifying input signals that are well beyond the supply rails. ...
... amplifiers intended for precision signal conditioning in power critical applications that require both high performance and low power. The AD8278 and AD8279 provide exceptional commonmode rejection ratio (80 dB) and high bandwidth while amplifying input signals that are well beyond the supply rails. ...
Circuit Concepts Word Document
... The digital meter is much easier to use than an analogue meter because it gives a direct reading on its display of the quantity that it is measuring. The digital meter also has a red terminal which should be connected to the positive part of the circuit, however, unlike the analogue meter if a mista ...
... The digital meter is much easier to use than an analogue meter because it gives a direct reading on its display of the quantity that it is measuring. The digital meter also has a red terminal which should be connected to the positive part of the circuit, however, unlike the analogue meter if a mista ...
iinstallation, operation, maintenance, and service for quiet
... CAUTION: Do not use open combustion heating appliances (unless equipped with power exhaust) in a home equipped with exhaust fans (i.e., bath fans, kitchen hoods, down draft stoves, or the Quiet-Vent System). Under certain conditions, these fans may cause the backdrafting of toxic combustion by-produ ...
... CAUTION: Do not use open combustion heating appliances (unless equipped with power exhaust) in a home equipped with exhaust fans (i.e., bath fans, kitchen hoods, down draft stoves, or the Quiet-Vent System). Under certain conditions, these fans may cause the backdrafting of toxic combustion by-produ ...
Activity P49: Transformer
... change of magnetic flux through the coil (d/dt) and the number of turns (N) in the coil: d N dt Since the rate of change in flux through both coils is the same, the ratio of the emfs (voltages) in the coils should be equal to the ratio of the numbers of turns in the coils: d ...
... change of magnetic flux through the coil (d/dt) and the number of turns (N) in the coil: d N dt Since the rate of change in flux through both coils is the same, the ratio of the emfs (voltages) in the coils should be equal to the ratio of the numbers of turns in the coils: d ...
Dual-Channel Pulse-Width-Modulation (PWM
... where VO(max) and VO(min) are obtained from Figure 9, and D is the maximum duty cycle. Predicting the regulator startup or rise time is complicated because it depends on many variables, including: input voltage, output voltage, filter values, converter topology, and operating frequency. In general, ...
... where VO(max) and VO(min) are obtained from Figure 9, and D is the maximum duty cycle. Predicting the regulator startup or rise time is complicated because it depends on many variables, including: input voltage, output voltage, filter values, converter topology, and operating frequency. In general, ...
Basic Calculation of a Buck Converter`s Power
... Figure 1 shows the basic configuration of a buck converter where the switch is integrated in the selected integrated circuit ( IC). Some converters have the diode replaced by a second switch integrated into the converter (synchronous converters). If this is the case, all equations in this document a ...
... Figure 1 shows the basic configuration of a buck converter where the switch is integrated in the selected integrated circuit ( IC). Some converters have the diode replaced by a second switch integrated into the converter (synchronous converters). If this is the case, all equations in this document a ...
DN254 - LT1806: 325MHz Low Noise Rail-to-Rail SOT-23 Op Amp Saves Board Space
... Why is it necessary to have both low voltage noise and low current noise to achieve low total noise in a large-area photodiode transimpedance amplifier? Because the transimpedance circuit’s noise gain, which applies to voltage noise but not to current noise or resistor noise, rises drastically with ...
... Why is it necessary to have both low voltage noise and low current noise to achieve low total noise in a large-area photodiode transimpedance amplifier? Because the transimpedance circuit’s noise gain, which applies to voltage noise but not to current noise or resistor noise, rises drastically with ...
Biela J. Aigner H., Parallel/Series Connection of Self
... Due to the high peak value of the resonant tank current ISν , this results in large cores for the coupled inductors and relatively high additional costs. A more compact and cheaper solution is shown in Fig. 4b), which achieves a similar performance as the coupled inductors as could be seen in the ri ...
... Due to the high peak value of the resonant tank current ISν , this results in large cores for the coupled inductors and relatively high additional costs. A more compact and cheaper solution is shown in Fig. 4b), which achieves a similar performance as the coupled inductors as could be seen in the ri ...
File
... 12. How did alternating current get its name? a. From the person who developed it. b. From the electrons move in one direction and then move back in the other direction. c. From the constant current. d. From the constant voltage. 13. Which of the following statements best describes the current Char ...
... 12. How did alternating current get its name? a. From the person who developed it. b. From the electrons move in one direction and then move back in the other direction. c. From the constant current. d. From the constant voltage. 13. Which of the following statements best describes the current Char ...
File
... 12. How did alternating current get its name? a. From the person who developed it. b. From the electrons move in one direction and then move back in the other direction. c. From the constant current. d. From the constant voltage. 13. Which of the following statements best describes the current Char ...
... 12. How did alternating current get its name? a. From the person who developed it. b. From the electrons move in one direction and then move back in the other direction. c. From the constant current. d. From the constant voltage. 13. Which of the following statements best describes the current Char ...
Document
... 1. The text is about waltmeter. 2. It used to measure the value of power. 3. It consists of coils. 4. The fixed coils are in series with the load, the moving coil is connected across the line in series with the resistance. 5. They show the value of power. ...
... 1. The text is about waltmeter. 2. It used to measure the value of power. 3. It consists of coils. 4. The fixed coils are in series with the load, the moving coil is connected across the line in series with the resistance. 5. They show the value of power. ...
4. measurement of electrical current, voltage and resistance 4.1
... circuit. The voltmeter connection is rather easy since it ...
... circuit. The voltmeter connection is rather easy since it ...
Josephson voltage standard
A Josephson voltage standard is a complex system that uses a superconductive integrated circuit chip operating at 4 K to generate stable voltages that depend only on an applied frequency and fundamental constants. It is an intrinsic standard in the sense that it does not depend on any physical artifact. It is the most accurate method to generate or measure voltage and, by international agreement, is the basis for voltage standards around the World.