MAX7042 308MHz/315MHz/418MHz/433.92MHz Low-Power, FSK Superheterodyne Receiver General Description
... 13.22563MHz. The selected crystal frequency is used to calibrate the FSK detector PLL so that it operates at the middle of the 10.7MHz IF. ...
... 13.22563MHz. The selected crystal frequency is used to calibrate the FSK detector PLL so that it operates at the middle of the 10.7MHz IF. ...
DC input signal conditioner
... EXPRESSED OR IMPLIED, EXCEPT THAT OF TITLE, AND ALL IMPLIED WARRANTIES INCLUDING ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. LIMITATION OF LIABILITY: The remedies of purchaser set forth herein are exclusive and the total liability of OMEGA with respect ...
... EXPRESSED OR IMPLIED, EXCEPT THAT OF TITLE, AND ALL IMPLIED WARRANTIES INCLUDING ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. LIMITATION OF LIABILITY: The remedies of purchaser set forth herein are exclusive and the total liability of OMEGA with respect ...
MAX1716/MAX1854/MAX1855 High-Speed, Adjustable, Synchronous Step-Down Controllers with Integrated Voltage Positioning General Description
... (VPS), combined with a high DC accuracy control loop, is used to implement a power supply that modifies its output set point in response to the load current. This arrangement decreases full-load power dissipation and reduces the required number of output capacitors. The 28V input range of the MAX171 ...
... (VPS), combined with a high DC accuracy control loop, is used to implement a power supply that modifies its output set point in response to the load current. This arrangement decreases full-load power dissipation and reduces the required number of output capacitors. The 28V input range of the MAX171 ...
BDTIC www.BDTIC.com/infineon Sense & Control
... Low jitter (typ. 0.35 μs) High ESD performance Leaded, non halogen-free package PG-SSO-3-2 (TLI4961-1L) Small, halogen-free SMD package PG-SOT23-3-15 (TLI4961-1M) ...
... Low jitter (typ. 0.35 μs) High ESD performance Leaded, non halogen-free package PG-SSO-3-2 (TLI4961-1L) Small, halogen-free SMD package PG-SOT23-3-15 (TLI4961-1M) ...
POWER SUPPLY MONITOR
... Detection voltage inputs A and B are connected to the inverting input of Comparators A and B respectively. Both comparators have built-in hysterisis. If either VSA or VSB drops lower than about 1.23V, then RESET goes low. Comparator B is used for the arbitrary preset voltage detection (See Example 3 ...
... Detection voltage inputs A and B are connected to the inverting input of Comparators A and B respectively. Both comparators have built-in hysterisis. If either VSA or VSB drops lower than about 1.23V, then RESET goes low. Comparator B is used for the arbitrary preset voltage detection (See Example 3 ...
Switching Regulator Fundamentals (Rev. A)
... When the switch turns on, the input voltage is connected to the inductor. The difference between the input and output voltages is then forced across the inductor, causing current through the inductor to increase. During the ON time, the inductor current flows into both the load and the output capaci ...
... When the switch turns on, the input voltage is connected to the inductor. The difference between the input and output voltages is then forced across the inductor, causing current through the inductor to increase. During the ON time, the inductor current flows into both the load and the output capaci ...
CMOS Biasing Circuits
... The values of the sizes of the MOS transistor are a result from the designer’s dimensioning and can be implemented fairly exact in the chip. This is the reason current mirror circuits to be widely used in practice. Current mirrors usually employ the same length for all of the transistors in order to ...
... The values of the sizes of the MOS transistor are a result from the designer’s dimensioning and can be implemented fairly exact in the chip. This is the reason current mirror circuits to be widely used in practice. Current mirrors usually employ the same length for all of the transistors in order to ...
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.