OPA2822 Dual, Wideband, Low-Noise Operational Amplifier FEATURES
... wideband, unity-gain stable, voltage-feedback architecture. Intended for xDSL receiver applications, the OPA2822 also supports this low input noise with exceptionally low harmonic distortion, particularly in differential configurations. Adequate output current is provided to drive the potentially he ...
... wideband, unity-gain stable, voltage-feedback architecture. Intended for xDSL receiver applications, the OPA2822 also supports this low input noise with exceptionally low harmonic distortion, particularly in differential configurations. Adequate output current is provided to drive the potentially he ...
WORKING OF scr….
... comes to tank circuit through coupling capacitor Cc2. Voltage developed across C2 is coupled to the base through coupling capacitor Cc1.. ...
... comes to tank circuit through coupling capacitor Cc2. Voltage developed across C2 is coupled to the base through coupling capacitor Cc1.. ...
L6377
... extreme conditions. Whenever the temperature - measured on a central portion of the chipexceeds Tmax =150 °C (typical value) the device is shut off, and the DIAG output goes LOW. Normal operation is resumed as the chip temperature (normally after few seconds) falls below Tmax-Thys = 130 °C (typical ...
... extreme conditions. Whenever the temperature - measured on a central portion of the chipexceeds Tmax =150 °C (typical value) the device is shut off, and the DIAG output goes LOW. Normal operation is resumed as the chip temperature (normally after few seconds) falls below Tmax-Thys = 130 °C (typical ...
Application Notes
... NOTE: A wave analyzer with true rms read out can be used in place of bandpass filter and true rms DVM. ...
... NOTE: A wave analyzer with true rms read out can be used in place of bandpass filter and true rms DVM. ...
Chapter 1 Introduction to Electronics
... electrical characteristics does not depend on the power supply Examples: Resistor, capacitor, inductor Active components: Do require/depend on power supply for its operation or the device which electrical characteristics depend on the power supply Examples: Transistors such as BJT and FET ...
... electrical characteristics does not depend on the power supply Examples: Resistor, capacitor, inductor Active components: Do require/depend on power supply for its operation or the device which electrical characteristics depend on the power supply Examples: Transistors such as BJT and FET ...
RLC circuits
... From a phasor point of view this means that the inductor leads the resistor by 90 degrees. High pass and low pass filters can be made from inductors as well. However the inductors are usually bulkier and relatively expensive compared to capacitors (and more difficult to make in an integrated circuit ...
... From a phasor point of view this means that the inductor leads the resistor by 90 degrees. High pass and low pass filters can be made from inductors as well. However the inductors are usually bulkier and relatively expensive compared to capacitors (and more difficult to make in an integrated circuit ...
View Full Paper
... In order to achieve dB linear characteristics of the VGA, the implementation of exponential function is required which was done in standard 65nm CMOS technology rather than bipolar technology. This achieves a variable gain of 76dB with gain error of ±0.5dB. Due to the square and linear characteristi ...
... In order to achieve dB linear characteristics of the VGA, the implementation of exponential function is required which was done in standard 65nm CMOS technology rather than bipolar technology. This achieves a variable gain of 76dB with gain error of ±0.5dB. Due to the square and linear characteristi ...
ADXRS649 英文数据手册DataSheet 下载
... The ADXRS649 scale factor can be reduced to extend the measurement range to as much as ±50,000°/sec by adding a single 120 kΩ resistor between the RATEOUT and SUMJ pins. If an external resistor is added between RATEOUT and SUMJ, COUT must be proportionally increased to maintain correct bandwidth. ...
... The ADXRS649 scale factor can be reduced to extend the measurement range to as much as ±50,000°/sec by adding a single 120 kΩ resistor between the RATEOUT and SUMJ pins. If an external resistor is added between RATEOUT and SUMJ, COUT must be proportionally increased to maintain correct bandwidth. ...
ADL5380 数据手册DataSheet 下载
... GENERAL DESCRIPTION The ADL5380 is a high performance quadrature I-Q demodulator that covers an RF input frequency range from 400 MHz to 6 GHz. With a NF = 13dB, IP1dB = 12dBm and IIP3 = 31dBm at 2.5GHz, the demodulator offers good dynamic range suitable for the demanding infrastructure direct-conve ...
... GENERAL DESCRIPTION The ADL5380 is a high performance quadrature I-Q demodulator that covers an RF input frequency range from 400 MHz to 6 GHz. With a NF = 13dB, IP1dB = 12dBm and IIP3 = 31dBm at 2.5GHz, the demodulator offers good dynamic range suitable for the demanding infrastructure direct-conve ...
DM74ALS245A Octal 3-STATE Bus Transceiver
... of 3-STATE logic elements configured as octal bus transceivers. These circuits are designed for use in memory, microprocessor systems and in asynchronous bidirectional data buses. Two way communication between buses is controlled by the (DIR) input. Data transmits either from the A bus to the B bus ...
... of 3-STATE logic elements configured as octal bus transceivers. These circuits are designed for use in memory, microprocessor systems and in asynchronous bidirectional data buses. Two way communication between buses is controlled by the (DIR) input. Data transmits either from the A bus to the B bus ...
Design ~F = AB + AC + BC in static CMOS
... a. If the load resistance is infinite, determine the time it takes for a change at the source to appear at the destination (time of flight). Now a 200 ohms load is attached at the end of the transmission line. b. What is the voltage at the load at t = 3ns? c. Draw the lattice diagram and sketch the ...
... a. If the load resistance is infinite, determine the time it takes for a change at the source to appear at the destination (time of flight). Now a 200 ohms load is attached at the end of the transmission line. b. What is the voltage at the load at t = 3ns? c. Draw the lattice diagram and sketch the ...
1983March 15-18
... amplitude- and band-limited signals, the oub_nt cnrrent demanded from an amplifier may grossly exceed the rated output current. It follows that * A new way of characterizing amplifier otltputis needed. Instead of power specification to a Fictitious resistive load, a more appropriate way could be to ...
... amplitude- and band-limited signals, the oub_nt cnrrent demanded from an amplifier may grossly exceed the rated output current. It follows that * A new way of characterizing amplifier otltputis needed. Instead of power specification to a Fictitious resistive load, a more appropriate way could be to ...
electricity - HSphysics
... -- recall and apply the relevant relations, including R = V/I and those for potential differences in series and in parallel circuits, resistors in series and in parallel, in calculations involving a whole circuit --describe the action of a variable potential divider (potentiometer) --describe the a ...
... -- recall and apply the relevant relations, including R = V/I and those for potential differences in series and in parallel circuits, resistors in series and in parallel, in calculations involving a whole circuit --describe the action of a variable potential divider (potentiometer) --describe the a ...
*************3
... Alpha-A Impedance analyzer system highlights • Broad frequency range 3 µHz .. 40 MHz (> 13 decades) • Ultra wide impedance range 10-4 .. 1014 Ω (18 decades) covers range from conductors to best isolators in a single instrument set-up • Ultra wide capacity range 10-15 .. 1 F allows broadband measure ...
... Alpha-A Impedance analyzer system highlights • Broad frequency range 3 µHz .. 40 MHz (> 13 decades) • Ultra wide impedance range 10-4 .. 1014 Ω (18 decades) covers range from conductors to best isolators in a single instrument set-up • Ultra wide capacity range 10-15 .. 1 F allows broadband measure ...
Internal Resistance and Resistivity in DC Circuits
... Resistivity All wires in a circuit also contribute to the overall resistance in a circuit. Even though the value is often small and negligible, it is often important to determine the value for the resistance of a wire if it is thick or long. This being said, the resistance is dependant on the geome ...
... Resistivity All wires in a circuit also contribute to the overall resistance in a circuit. Even though the value is often small and negligible, it is often important to determine the value for the resistance of a wire if it is thick or long. This being said, the resistance is dependant on the geome ...
Internal Resistance and Resistivity in DC Circuits
... Resistivity All wires in a circuit also contribute to the overall resistance in a circuit. Even though the value is often small and negligible, it is often important to determine the value for the resistance of a wire if it is thick or long. This being said, the resistance is dependant on the geome ...
... Resistivity All wires in a circuit also contribute to the overall resistance in a circuit. Even though the value is often small and negligible, it is often important to determine the value for the resistance of a wire if it is thick or long. This being said, the resistance is dependant on the geome ...
PDF file
... their products and applications using TI components. To minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards. TI does not warrant or represent that any license, either express or implied, is granted under any TI pate ...
... their products and applications using TI components. To minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards. TI does not warrant or represent that any license, either express or implied, is granted under any TI pate ...
Valve RF amplifier
A valve RF amplifier (UK and Aus.) or tube amplifier (U.S.), is a device for electrically amplifying the power of an electrical radio frequency signal.Low to medium power valve amplifiers for frequencies below the microwaves were largely replaced by solid state amplifiers during the 1960s and 1970s, initially for receivers and low power stages of transmitters, transmitter output stages switching to transistors somewhat later. Specially constructed valves are still in use for very high power transmitters, although rarely in new designs.