Datasheet - Microchip
... The information furnished by Micrel in this datasheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for its use. Micrel reserves the right to change circuitry and specifications at any time without notification to the customer. Micrel Products are not desig ...
... The information furnished by Micrel in this datasheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for its use. Micrel reserves the right to change circuitry and specifications at any time without notification to the customer. Micrel Products are not desig ...
Data Sheet - technicalaudio.com
... The output signal of a guitar amplifier may exhibit severe clipping from amplifier overload . However. the high frequency roll-off characteristic of the typical guitar speaker attenuates the resulting distortion products which are upper harmonics of the fundamental notes. Since the direct-box transf ...
... The output signal of a guitar amplifier may exhibit severe clipping from amplifier overload . However. the high frequency roll-off characteristic of the typical guitar speaker attenuates the resulting distortion products which are upper harmonics of the fundamental notes. Since the direct-box transf ...
MAX3202E/MAX3203E/MAX3204E/MAX3206E Low-Capacitance, 2/3/4/6-Channel, ±15kV ESD Protection Arrays for High-Speed Data Interfaces General Description
... A low-ESR 0.1µF capacitor must be used between VCC and GND. This bypass capacitor absorbs the charge transferred by an +8kV IEC-61000 Contact Discharge ESD event. Ideally, the supply rail (VCC) would absorb the charge caused by a positive ESD strike without changing its regulated value. In reality, ...
... A low-ESR 0.1µF capacitor must be used between VCC and GND. This bypass capacitor absorbs the charge transferred by an +8kV IEC-61000 Contact Discharge ESD event. Ideally, the supply rail (VCC) would absorb the charge caused by a positive ESD strike without changing its regulated value. In reality, ...
PDF
... network programming and monitoring for complete system control and integration. Control up to 48 relays per panel with discrete inputs for occupancy sensors, low voltage switches and other input devices. ControlKeeper M network panels are designed for intuitive programming, and monitoring of the rel ...
... network programming and monitoring for complete system control and integration. Control up to 48 relays per panel with discrete inputs for occupancy sensors, low voltage switches and other input devices. ControlKeeper M network panels are designed for intuitive programming, and monitoring of the rel ...
Features •
... The ATF22LV10C is capable of operating at supply voltages down to 3.0V. When the power-down pin is active, the device is placed into a zero standby power-down mode. When the power-down pin is not used or active, the device operates in a full power low voltage mode. Pin “keeper” circuits on input and ...
... The ATF22LV10C is capable of operating at supply voltages down to 3.0V. When the power-down pin is active, the device is placed into a zero standby power-down mode. When the power-down pin is not used or active, the device operates in a full power low voltage mode. Pin “keeper” circuits on input and ...
MAX4090 3V/5V, 6dB Video Buffer with Sync-Tip Clamp
... at the output and allows the MAX4090 to be used as a DC-coupled output driver. The MAX4090 operates from a single 2.7V to 5.5V supply and consumes only 6.5mA of supply current. The low-power shutdown mode reduces the supply current to 150nA, making the MAX4090 ideal for low-voltage, battery-powered ...
... at the output and allows the MAX4090 to be used as a DC-coupled output driver. The MAX4090 operates from a single 2.7V to 5.5V supply and consumes only 6.5mA of supply current. The low-power shutdown mode reduces the supply current to 150nA, making the MAX4090 ideal for low-voltage, battery-powered ...
Word - Structured Independent Learning
... required to move the charge over. However, by the end of the charging process the work needed to add a charge q will be much greater because the voltage across the capacitor (V = Q/C) is now large. The voltage across the capacitor acts against the voltage supplied by the battery. The voltage across ...
... required to move the charge over. However, by the end of the charging process the work needed to add a charge q will be much greater because the voltage across the capacitor (V = Q/C) is now large. The voltage across the capacitor acts against the voltage supplied by the battery. The voltage across ...
final project report ee3390 electronic circuits design lab power inverter
... chips purchased online, we modified one of its application circuits to create drive voltages that directly model our reference voltages. Finally, to combine both halves of the sine wave, we move into the synthesis of the circuit: combining the two wave forms. Using a transformer we subtract of the t ...
... chips purchased online, we modified one of its application circuits to create drive voltages that directly model our reference voltages. Finally, to combine both halves of the sine wave, we move into the synthesis of the circuit: combining the two wave forms. Using a transformer we subtract of the t ...
Most digital data processing systems require some form of temporary... mechanism. As the size and speed of these systems
... array is also read. The reason that the current in the IB branch cannot be monitored is the fact that the current of these other cells being unintentionally read also flows into this node. These unwanted currents are a significant drawback because they have no purpose but do have the side effect of ...
... array is also read. The reason that the current in the IB branch cannot be monitored is the fact that the current of these other cells being unintentionally read also flows into this node. These unwanted currents are a significant drawback because they have no purpose but do have the side effect of ...
MX7575/MX7576 CMOS, µP-Compatible, 5µs/10µs, 8-Bit ADCs _______________General Description ____________________________Features
... an internal capacitor once (at the beginning of the conversion), while the MX7576 samples the input signal eight times during the conversion (see MX7575 Track/Hold and MX7576 Analog Input sections). The internal DAC is initially set to half scale, and the comparator determines whether the input sign ...
... an internal capacitor once (at the beginning of the conversion), while the MX7576 samples the input signal eight times during the conversion (see MX7575 Track/Hold and MX7576 Analog Input sections). The internal DAC is initially set to half scale, and the comparator determines whether the input sign ...
1. INTRODUCTION
... The photocurrent produced by light hitting the photodiode is converted by 1201 into a voltage proportional to the impinging light. Offset pot (R204) and gain pot (R208) are provided to control photodiode bias and to ensure that the amplifier does not saturate under maximum light levels (gain pot set ...
... The photocurrent produced by light hitting the photodiode is converted by 1201 into a voltage proportional to the impinging light. Offset pot (R204) and gain pot (R208) are provided to control photodiode bias and to ensure that the amplifier does not saturate under maximum light levels (gain pot set ...
A high-frequency CMOS multi-modulus divider for PLL frequency
... pseudo-PMOS structure, which comes from N-C2MOS, but the driving ability is much poor than pseudo-NMOS one. To increase the output swing and reduce the capacitance effect caused by the pseudo-PMOS, an NMOS transistor MN6 controlled by C is inserted to the output stage. MN6 is turned off by node a vi ...
... pseudo-PMOS structure, which comes from N-C2MOS, but the driving ability is much poor than pseudo-NMOS one. To increase the output swing and reduce the capacitance effect caused by the pseudo-PMOS, an NMOS transistor MN6 controlled by C is inserted to the output stage. MN6 is turned off by node a vi ...
Quiet and Dependable Welding Performance.
... reduces overall weight compared to other welders in its class. Compact design fits easily in the box of a service truck or the basket of high reach equipment. At only 114 pounds it’s easy to move around the job site. 135 Amp DC Welder and 1.5kW 120VAC output is ideal for hard to reach areas such as ...
... reduces overall weight compared to other welders in its class. Compact design fits easily in the box of a service truck or the basket of high reach equipment. At only 114 pounds it’s easy to move around the job site. 135 Amp DC Welder and 1.5kW 120VAC output is ideal for hard to reach areas such as ...
Operational Amplifiers: Chapter 2 (Horenstein)
... The op-amp with negative feedback forces the two inputs v+ and v- to have the same voltage, even though no current flows into either input. – This is sometimes called a “virtual short” – As long as the op-amp stays in its linear region, the output will change up or down until v- is almost equal to v ...
... The op-amp with negative feedback forces the two inputs v+ and v- to have the same voltage, even though no current flows into either input. – This is sometimes called a “virtual short” – As long as the op-amp stays in its linear region, the output will change up or down until v- is almost equal to v ...
MX7841 Octal, 14-Bit Voltage-Output DAC with Parallel Interface General Description
... has three pairs of differential reference inputs; two of these pairs are connected to two DACs each, and a third pair is connected to four DACs. The references are independently controlled, providing different fullscale output voltages to the respective DACs. The MX7841 features double-buffered inte ...
... has three pairs of differential reference inputs; two of these pairs are connected to two DACs each, and a third pair is connected to four DACs. The references are independently controlled, providing different fullscale output voltages to the respective DACs. The MX7841 features double-buffered inte ...
Buck converter
A buck converter is a voltage step down and current step up converter.The simplest way to reduce the voltage of a DC supply is to use a linear regulator (such as a 7805), but linear regulators waste energy as they operate by dissipating excess power as heat. Buck converters, on the other hand, can be remarkably efficient (95% or higher for integrated circuits), making them useful for tasks such as converting the main voltage in a computer (12V in a desktop, 12-24V in a laptop) down to the 0.8-1.8V needed by the processor.