Solving Series and Parallel Circuits
... Parallel circuits differ from series circuits in that the current divides into a number of separate, independent branches. In other words, if the current has more than one path to flow through the circuit, it is a parallel circuit. Moreover, these branches may have different resistances, and therefo ...
... Parallel circuits differ from series circuits in that the current divides into a number of separate, independent branches. In other words, if the current has more than one path to flow through the circuit, it is a parallel circuit. Moreover, these branches may have different resistances, and therefo ...
RF5602 3.0V TO 5.0V, 2.3GHz TO 2.7GHz LINEAR POWER AMPLIFIER Features
... Supply voltage for the bias reference and control circuits. May be connected with VCC1 and VCC2 as long as VCC does not exceed 5.0VDC in this configuration. RF input. Power down pin. Apply <0.6VDC to power down the three power amplifier stages. Apply 1.75VDC to 5.0VDC to power up. If function is not ...
... Supply voltage for the bias reference and control circuits. May be connected with VCC1 and VCC2 as long as VCC does not exceed 5.0VDC in this configuration. RF input. Power down pin. Apply <0.6VDC to power down the three power amplifier stages. Apply 1.75VDC to 5.0VDC to power up. If function is not ...
trav`ler® winegard
... your television user manual for the best audio /video connections). If you have not chosen a programming package for your Shaw Direct system or added this receiver to your existing Shaw Direct account, please call 1-888-554-7827 prior to using your Shaw Direct receiver for the first time. Ensure tha ...
... your television user manual for the best audio /video connections). If you have not chosen a programming package for your Shaw Direct system or added this receiver to your existing Shaw Direct account, please call 1-888-554-7827 prior to using your Shaw Direct receiver for the first time. Ensure tha ...
Manual.
... and don't supply voltage to the gate (G), the two transistors are at cutoff. Supplying a pulse (even for a short period of time) to the gate causes transistor Q2 to conduct. This conducting creates a basic current for transistor Q1. This current conducts and causes current flow the Q2 base. This cur ...
... and don't supply voltage to the gate (G), the two transistors are at cutoff. Supplying a pulse (even for a short period of time) to the gate causes transistor Q2 to conduct. This conducting creates a basic current for transistor Q1. This current conducts and causes current flow the Q2 base. This cur ...
FUJI IGBT V-IPM APPLICATION MANUAL REH985 September 2012
... • OC and SC are functions to protect the IGBT against breakdown caused by overcurrent or load short-circuit. As these functions are implemented by detection of collector current by detecting elements built in each IGBT, they permit protection against disorder that occurs in any IGBT, and in addition ...
... • OC and SC are functions to protect the IGBT against breakdown caused by overcurrent or load short-circuit. As these functions are implemented by detection of collector current by detecting elements built in each IGBT, they permit protection against disorder that occurs in any IGBT, and in addition ...
Operator`s Manual
... Techron power amplifier—one of the most precise power amplifiers ever produced for industrial applications and testing. The 7224 amplifiers are built and tested to the most stringent quality standards for long life and outstanding performance. The AE Techron brand is known throughout the world for i ...
... Techron power amplifier—one of the most precise power amplifiers ever produced for industrial applications and testing. The 7224 amplifiers are built and tested to the most stringent quality standards for long life and outstanding performance. The AE Techron brand is known throughout the world for i ...
AN3172
... Once the voltage exceeds the reference by 50 mV, the controller restarts switching. Burstmode operation load threshold can be programmed by properly choosing the resistor connecting the optocoupler to the RFMIN pin (R34). On this board the controller operates in burst-mode if the load falls below ~1 ...
... Once the voltage exceeds the reference by 50 mV, the controller restarts switching. Burstmode operation load threshold can be programmed by properly choosing the resistor connecting the optocoupler to the RFMIN pin (R34). On this board the controller operates in burst-mode if the load falls below ~1 ...
+3.0V to+5.5V, 1µA, RS-232/RS-485/422 Multiprotocol Transceivers General Description Features
... The MAX3160/MAX3161/MAX3162 are programmable RS-232/RS-485/422 multiprotocol transceivers. The MAX3160/MAX3161 are pin programmable as a 2TX/2RX RS-232 interface or a single RS-485/422 transceiver. The MAX3162 is configured as a 2TX/2RX RS-232 interface and a single RS-485/422 transceiver simultaneo ...
... The MAX3160/MAX3161/MAX3162 are programmable RS-232/RS-485/422 multiprotocol transceivers. The MAX3160/MAX3161 are pin programmable as a 2TX/2RX RS-232 interface or a single RS-485/422 transceiver. The MAX3162 is configured as a 2TX/2RX RS-232 interface and a single RS-485/422 transceiver simultaneo ...
transparencies
... 1) Deep sub-micron CMOS processes have been widely employed for high energy physics, astrophysics, and other use. 2)Japanese activities for the deep sub-micron CMOS integrated circuits are discussed, one of which is a 4096-channel pixel array that is designed and fabricated for future use in the are ...
... 1) Deep sub-micron CMOS processes have been widely employed for high energy physics, astrophysics, and other use. 2)Japanese activities for the deep sub-micron CMOS integrated circuits are discussed, one of which is a 4096-channel pixel array that is designed and fabricated for future use in the are ...
High Speed Op-amp Design
... As CMOS technology continues to evolve, the supply voltages are decreasing while at the same time the transistor threshold voltages are remaining relatively constant. Making matters worse, the inherent gain available from the nano-CMOS transistors is dropping. Traditional techniques for achieving hi ...
... As CMOS technology continues to evolve, the supply voltages are decreasing while at the same time the transistor threshold voltages are remaining relatively constant. Making matters worse, the inherent gain available from the nano-CMOS transistors is dropping. Traditional techniques for achieving hi ...
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.