MAX8751 Fixed-Frequency, Full-Bridge CCFL Inverter Controller General Description
... The MAX8751 can drive large power MOSFETs typically used in applications where one power stage drives four or more CCFL lamps in parallel. An internal 5.35V linear regulator powers the MOSFET drivers and most of the internal circuitry. The controller operates over a wide input-voltage range (6V to 2 ...
... The MAX8751 can drive large power MOSFETs typically used in applications where one power stage drives four or more CCFL lamps in parallel. An internal 5.35V linear regulator powers the MOSFET drivers and most of the internal circuitry. The controller operates over a wide input-voltage range (6V to 2 ...
High-Speed Time-Domain Measurements
... circuits. Active, or FET, probes contain an active transistor (typically an FET) that amplifies the signal, compared to passive probes that attenuate the signal. The advantage of active probes is their extremely wide bandwidth, high input impedance, and low input capacitance. Another alternative is ...
... circuits. Active, or FET, probes contain an active transistor (typically an FET) that amplifies the signal, compared to passive probes that attenuate the signal. The advantage of active probes is their extremely wide bandwidth, high input impedance, and low input capacitance. Another alternative is ...
A Theory of High-Frequency Distortion in Bipolar Transistors , Member, IEEE
... were made on the role of current cancellation [11]–[14], the feedback effect of the parasitic base and emitter resistances [15], [16], the impact of the nonlinear, collector–base depletion capacitance [14]–[19], the importance of base–collector transit time [16], [19], and the choice of bias voltage ...
... were made on the role of current cancellation [11]–[14], the feedback effect of the parasitic base and emitter resistances [15], [16], the impact of the nonlinear, collector–base depletion capacitance [14]–[19], the importance of base–collector transit time [16], [19], and the choice of bias voltage ...
Design Procedure for Compact Asymmetric SPDT Switches
... (SPST) switch, with 1 dB insertion loss, is 50.7 dB. A power switch with 10 W capability is reported in [7]: this circuit exhibits 1 dB insertion loss and 26 dB isolation for a 4.5 3.7 mm2 chip. The bandwidth is 2 GHz around 9.5 GHz. A very small circuit is described in [8], with only 0.3 0.5 mm ...
... (SPST) switch, with 1 dB insertion loss, is 50.7 dB. A power switch with 10 W capability is reported in [7]: this circuit exhibits 1 dB insertion loss and 26 dB isolation for a 4.5 3.7 mm2 chip. The bandwidth is 2 GHz around 9.5 GHz. A very small circuit is described in [8], with only 0.3 0.5 mm ...
Ami Pro - CAVITY.SAM
... In many precision optical experiments it is desirable to have a laser with a well-defined frequency. For example, many atomic physics experiments require lasers with frequencies fixed on or near atomic resonance lines. For tunable lasers it is therefore necessary to have a means of controlling the l ...
... In many precision optical experiments it is desirable to have a laser with a well-defined frequency. For example, many atomic physics experiments require lasers with frequencies fixed on or near atomic resonance lines. For tunable lasers it is therefore necessary to have a means of controlling the l ...
Circuit Breakers - Selective Coordination
... extinguished. Consequently, the final overcurrent termination can vary over a wide range of time, as is indicated by the wide band between the unlatching time curve and the maximum interrupting time curve. The instantaneous trip setting for larger molded case and power breakers can usually be adjust ...
... extinguished. Consequently, the final overcurrent termination can vary over a wide range of time, as is indicated by the wide band between the unlatching time curve and the maximum interrupting time curve. The instantaneous trip setting for larger molded case and power breakers can usually be adjust ...
LT1168 - Low Power, Single Resistor Gain Programmable, Precision Instrumentation Amplifier
... G = 1) and PSRR (103dB, G = 1). Low input bias currents of 250pA max are achieved with the use of superbeta processing. The output can handle capacitive loads up to 1000pF in any gain configuration while the inputs are ESD protected up to 13kV (human body). The LT1168 with two external 5k resistors ...
... G = 1) and PSRR (103dB, G = 1). Low input bias currents of 250pA max are achieved with the use of superbeta processing. The output can handle capacitive loads up to 1000pF in any gain configuration while the inputs are ESD protected up to 13kV (human body). The LT1168 with two external 5k resistors ...
the inequality of circuit breaker standards - CBI
... It is not surprising that specifiers, users, manufacturers and test laboratories are often confused by the myriad of both National and International standards all claiming to be applicable to low voltage circuit breakers. This confusion is exacerbated in free market economies by the uncontrolled imp ...
... It is not surprising that specifiers, users, manufacturers and test laboratories are often confused by the myriad of both National and International standards all claiming to be applicable to low voltage circuit breakers. This confusion is exacerbated in free market economies by the uncontrolled imp ...
MAX15021 Dual, 4A/2A, 4MHz, Step-Down DC-DC Regulator with Tracking/Sequencing Capability General Description
... high switching frequency (up to 4MHz) and integrated power switches optimize the MAX15021 for high-performance and small-size power management solutions. Each of the MAX15021 PWM regulator sections utilizes a voltage-mode control scheme for good noise immunity and offers external compensation allowi ...
... high switching frequency (up to 4MHz) and integrated power switches optimize the MAX15021 for high-performance and small-size power management solutions. Each of the MAX15021 PWM regulator sections utilizes a voltage-mode control scheme for good noise immunity and offers external compensation allowi ...
super duty f-650/750 electrical wiring customer access circuit
... powertrain control/emissions diagnosis manual to clear all diagnostic trouble codes (DTC’s). Road test vehicle and rerun the on-board diagnostics to verify that no DTC’s are present. If DTC’s are generated perform the appropriate diagnostic procedures and repairs. Vehicle operation (engine/transmiss ...
... powertrain control/emissions diagnosis manual to clear all diagnostic trouble codes (DTC’s). Road test vehicle and rerun the on-board diagnostics to verify that no DTC’s are present. If DTC’s are generated perform the appropriate diagnostic procedures and repairs. Vehicle operation (engine/transmiss ...
a CMOS, Low-Voltage, 3-Wire Serially-Controlled, Matrix Switches ADG738/ADG739
... fully specified and guaranteed with 3 V and 5 V supply rails. ...
... fully specified and guaranteed with 3 V and 5 V supply rails. ...
BEE HIVE TEMPERATURE AND SOUND MONITOR
... house), two XBEE Pro radios for the wireless data transfer between the source and destination, a graphic LCD to display the data received from the hive, a solar panel and a 12V 7AH battery to make the hive data collection unit solar-powered. In order to achieve the objective of the project, necessar ...
... house), two XBEE Pro radios for the wireless data transfer between the source and destination, a graphic LCD to display the data received from the hive, a solar panel and a 12V 7AH battery to make the hive data collection unit solar-powered. In order to achieve the objective of the project, necessar ...
2 GHz Ultralow Distortion Differential RF/IF Amplifier AD8352
... The AD8352 is a high performance differential amplifier optimized for RF and IF applications. It achieves better than 80 dB SFDR performance at frequencies up to 200 MHz, and 65 dB beyond 500 MHz, making it an ideal driver for high speed 12-bit to 16-bit analog-to-digital converters (ADCs). Unlike o ...
... The AD8352 is a high performance differential amplifier optimized for RF and IF applications. It achieves better than 80 dB SFDR performance at frequencies up to 200 MHz, and 65 dB beyond 500 MHz, making it an ideal driver for high speed 12-bit to 16-bit analog-to-digital converters (ADCs). Unlike o ...
Circuit Breakers - Instantaneous Trip Region
... extinguished. Consequently, the final overcurrent termination can vary over a wide range of time, as is indicated by the wide band between the unlatching time curve and the maximum interrupting time curve. The instantaneous trip setting for larger molded case and power breakers can usually be adjust ...
... extinguished. Consequently, the final overcurrent termination can vary over a wide range of time, as is indicated by the wide band between the unlatching time curve and the maximum interrupting time curve. The instantaneous trip setting for larger molded case and power breakers can usually be adjust ...
MAX16990/MAX16992 36V, 2.5MHz Automotive Boost/SEPIC Controllers General Description Features
... range boost/SEPIC converters. The input operating voltage range of 4.5V to 36V makes these devices ideal in automotive applications such as for front-end “preboost” or “SEPIC” power supplies and for the first boost stage in high-power LED lighting applications. An internal lowdropout regulator (PVL ...
... range boost/SEPIC converters. The input operating voltage range of 4.5V to 36V makes these devices ideal in automotive applications such as for front-end “preboost” or “SEPIC” power supplies and for the first boost stage in high-power LED lighting applications. An internal lowdropout regulator (PVL ...
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.