PDF: 410KB
... Fig. 11 System connection block diagram Note: 2. To operate DIP−PFC properly and make full use of its excellent performance, it is necessary that the DIP-PFC should be used together with its control IC and DIP-IPM. 3. It is necessary to operate DIP-PFC, the control IC, DIP-IPM and MCU on the same GN ...
... Fig. 11 System connection block diagram Note: 2. To operate DIP−PFC properly and make full use of its excellent performance, it is necessary that the DIP-PFC should be used together with its control IC and DIP-IPM. 3. It is necessary to operate DIP-PFC, the control IC, DIP-IPM and MCU on the same GN ...
DIP-PFC APPLICATION NOTE MITSUBISHI ELECTRIC CORPORATION POWER SEMICONDUCTOR
... Fig. 11 System connection block diagram Note: 2. To operate DIP−PFC properly and make full use of its excellent performance, it is necessary that the DIP-PFC should be used together with its control IC and DIP-IPM. 3. It is necessary to operate DIP-PFC, the control IC, DIP-IPM and MCU on the same GN ...
... Fig. 11 System connection block diagram Note: 2. To operate DIP−PFC properly and make full use of its excellent performance, it is necessary that the DIP-PFC should be used together with its control IC and DIP-IPM. 3. It is necessary to operate DIP-PFC, the control IC, DIP-IPM and MCU on the same GN ...
BD9862MUV
... If REGOUT is ≦2.5V(typ.), then the ring oscillator, which operates at 500kHz or so, is started and the double charge pump is operated. The clock pulse is controlled in such a way that the output voltage of this charge pump becomes 4.2V(typ.). Moreover, if REGOUT becomes more than 2.5V(typ.) (i.e. RE ...
... If REGOUT is ≦2.5V(typ.), then the ring oscillator, which operates at 500kHz or so, is started and the double charge pump is operated. The clock pulse is controlled in such a way that the output voltage of this charge pump becomes 4.2V(typ.). Moreover, if REGOUT becomes more than 2.5V(typ.) (i.e. RE ...
MXL1543 +5V Multiprotocol, 3Tx/3Rx, Software- Selectable Clock/Data Transceivers General Description
... The MXL1543 is a three-driver/three-receiver multiprotocol transceiver that operates from a +5V single supply. The MXL1543, along with the MXL1544/MAX3175 and the MXL1344A, form a complete software-selectable data terminal equipment (DTE) or data communication equipment (DCE) interface port that sup ...
... The MXL1543 is a three-driver/three-receiver multiprotocol transceiver that operates from a +5V single supply. The MXL1543, along with the MXL1544/MAX3175 and the MXL1344A, form a complete software-selectable data terminal equipment (DTE) or data communication equipment (DCE) interface port that sup ...
AN2349
... Discontinuous Conduction mode. This is the most simple and cost-effective solution for 220V and 120V mains and low\medium power. Figure 4. ...
... Discontinuous Conduction mode. This is the most simple and cost-effective solution for 220V and 120V mains and low\medium power. Figure 4. ...
HMC-AUH232 数据资料DataSheet下载
... 43 GHz and provides a typical 3 dB bandwidth of 46 GHz. The amplifier provides 12 dB of small signal gain while requiring only 180 mA from a +5V supply. The HMC-AUH232 exhibits very good gain and phase ripple to 40 GHz, and can output up to 8V peak-to-peak with low jitter, making it ideal for use in ...
... 43 GHz and provides a typical 3 dB bandwidth of 46 GHz. The amplifier provides 12 dB of small signal gain while requiring only 180 mA from a +5V supply. The HMC-AUH232 exhibits very good gain and phase ripple to 40 GHz, and can output up to 8V peak-to-peak with low jitter, making it ideal for use in ...
www.Jameco.com 1-800-831-4242 Jameco Part Number 115318
... The OP27 provides excellent performance in low-noise, highaccuracy amplification of low-level signals. Applications include stable integrators, precision summing amplifiers, precision voltagethreshold detectors, comparators, and professional audio circuits such as tape-head and microphone preamplifi ...
... The OP27 provides excellent performance in low-noise, highaccuracy amplification of low-level signals. Applications include stable integrators, precision summing amplifiers, precision voltagethreshold detectors, comparators, and professional audio circuits such as tape-head and microphone preamplifi ...
... GaN HFETs can provide higher voltage operation and higher power density at microwave frequencies than other high power devices and thus are attractive for application to commercial high-power base stations. Recently, high-performance GaN HFETs on Si substrates (instead of the more customary sapphire ...
FEATURES GENERAL DESCRIPTION
... portable devices. The LDO maintains a power supply rejection of greater than 60 dB for frequencies as high as 10 kHz while operating with a low headroom voltage. Each regulator is activated by a high level on the respective enable pin. The ADP5043 is available with factory programmable default outpu ...
... portable devices. The LDO maintains a power supply rejection of greater than 60 dB for frequencies as high as 10 kHz while operating with a low headroom voltage. Each regulator is activated by a high level on the respective enable pin. The ADP5043 is available with factory programmable default outpu ...
MAX5100 +2.7V to +5.5V, Low-Power, Quad, Parallel General Description
... powers up (i.e., VDD ramps up), all latches are internally preset with code 00 hex. ...
... powers up (i.e., VDD ramps up), all latches are internally preset with code 00 hex. ...
AN3257
... downstream multi-resonant half bridge converter. Both stages are controlled by the new IC L6585DE- which integrates PFC and half bridge control circuits and the relevant drivers. Although this new device is dedicated to managing electronic ballast, it's possible to use it also for a HB-LLC resonant ...
... downstream multi-resonant half bridge converter. Both stages are controlled by the new IC L6585DE- which integrates PFC and half bridge control circuits and the relevant drivers. Although this new device is dedicated to managing electronic ballast, it's possible to use it also for a HB-LLC resonant ...
STA-5063Z 3.3GHz to 6.2GHz GENERAL PURPOSE 3.3V 15dBm AMPLIFIER Features
... RF input pin and power up down control. Supply VPC =3.3V thru a 4.7Kohm resistor to this pin. For more gain (~0.3dB), a 5.6nH inductor can also be used in place of the resistor. If an inductor is used, move the 4.7k resistor towards the DC supply, but still in series with pin 1. A minimum 1k series ...
... RF input pin and power up down control. Supply VPC =3.3V thru a 4.7Kohm resistor to this pin. For more gain (~0.3dB), a 5.6nH inductor can also be used in place of the resistor. If an inductor is used, move the 4.7k resistor towards the DC supply, but still in series with pin 1. A minimum 1k series ...
2-input AND Gate
... expression, are the same as in ordinary algebra. Each of the Boolean Laws above are given with just a single or two variables, but the number of variables defined by a single law is not limited to this as there can be an infinite number of variables as inputs too the expression. These Boolean laws d ...
... expression, are the same as in ordinary algebra. Each of the Boolean Laws above are given with just a single or two variables, but the number of variables defined by a single law is not limited to this as there can be an infinite number of variables as inputs too the expression. These Boolean laws d ...
ADA4927-1 数据手册DataSheet 下载
... current feedback differential amplifier that is an ideal choice for driving high performance ADCs with resolutions up to 16 bits from dc to 100 MHz. The output common-mode level can easily be matched to the required ADC input common-mode levels. The internal common-mode feedback loop provides except ...
... current feedback differential amplifier that is an ideal choice for driving high performance ADCs with resolutions up to 16 bits from dc to 100 MHz. The output common-mode level can easily be matched to the required ADC input common-mode levels. The internal common-mode feedback loop provides except ...
Transistor–transistor logic
Transistor–transistor logic (TTL) is a class of digital circuits built from bipolar junction transistors (BJT) and resistors. It is called transistor–transistor logic because both the logic gating function (e.g., AND) and the amplifying function are performed by transistors (contrast with RTL and DTL).TTL is notable for being a widespread integrated circuit (IC) family used in many applications such as computers, industrial controls, test equipment and instrumentation, consumer electronics, synthesizers, etc. The designation TTL is sometimes used to mean TTL-compatible logic levels, even when not associated directly with TTL integrated circuits, for example as a label on the inputs and outputs of electronic instruments.After their introduction in integrated circuit form in 1963 by Sylvania, TTL integrated circuits were manufactured by several semiconductor companies, with the 7400 series (also called 74xx) by Texas Instruments becoming particularly popular. TTL manufacturers offered a wide range of logic gate, flip-flops, counters, and other circuits. Several variations from the original bipolar TTL concept were developed, giving circuits with higher speed or lower power dissipation to allow optimization of a design. TTL circuits simplified design of systems compared to earlier logic families, offering superior speed to resistor–transistor logic (RTL) and easier design layout than emitter-coupled logic (ECL). The design of the input and outputs of TTL gates allowed many elements to be interconnected.TTL became the foundation of computers and other digital electronics. Even after much larger scale integrated circuits made multiple-circuit-board processors obsolete, TTL devices still found extensive use as the ""glue"" logic interfacing more densely integrated components. TTL devices were originally made in ceramic and plastic dual-in-line (DIP) packages, and flat-pack form. TTL chips are now also made in surface-mount packages. Successors to the original bipolar TTL logic often are interchangeable in function with the original circuits, but with improved speed or lower power dissipation.