CLC5523 Low Power, Variable Gain Amplifier
... heart of a closed loop AGC circuit, the S-curve control characteristic provides a broad linear (in dB) control range with soft limiting at the highest gains where large changes in control voltage result in small changes in gain. For applications, requiring a fully linear (in dB) control characterist ...
... heart of a closed loop AGC circuit, the S-curve control characteristic provides a broad linear (in dB) control range with soft limiting at the highest gains where large changes in control voltage result in small changes in gain. For applications, requiring a fully linear (in dB) control characterist ...
I. Introduction
... current conveyor has evolved from first generation to second generation. The first generation current conveyor (CCI) was proposed by Smith and Sedra in 1968 [1] and the more versatile second generation current conveyor (CCII) was introduced by the same two authors in 1970 [2], as an extension of the ...
... current conveyor has evolved from first generation to second generation. The first generation current conveyor (CCI) was proposed by Smith and Sedra in 1968 [1] and the more versatile second generation current conveyor (CCII) was introduced by the same two authors in 1970 [2], as an extension of the ...
AT 261 - Chapter 9 - Electronic Engine Control Systems
... One of the most common sensing devices found in automotive applications is the temperature sensor. Temperature sensor circuits are used in electronic systems to monitor the temperature of various components, fluids, and even the air. Engine Coolant Temperature (ECT), Intake Air Temperature (IAT), an ...
... One of the most common sensing devices found in automotive applications is the temperature sensor. Temperature sensor circuits are used in electronic systems to monitor the temperature of various components, fluids, and even the air. Engine Coolant Temperature (ECT), Intake Air Temperature (IAT), an ...
MAX3966 LED Driver with Programmable Prebias Voltage General Description
... amplified by the output stages, which are implemented with NPN current mirrors. LED package lead inductance causes ringing and overshoot, which can be compensated with an RC filter network. The MAX3966 includes 35Ω and 12pF of internal compensation. The compensation network can be optimized by addin ...
... amplified by the output stages, which are implemented with NPN current mirrors. LED package lead inductance causes ringing and overshoot, which can be compensated with an RC filter network. The MAX3966 includes 35Ω and 12pF of internal compensation. The compensation network can be optimized by addin ...
2EM Ohm`s Law and Simple DC Circuits
... Repeat this process for the orange resistor, the blue and orange resistors in series, and finally, the blue and orange resistors in parallel. On one sheet of graph paper, plot V vs. I for each of these four cases. Write the equation of the plot for each of these four cases. From the equation of thes ...
... Repeat this process for the orange resistor, the blue and orange resistors in series, and finally, the blue and orange resistors in parallel. On one sheet of graph paper, plot V vs. I for each of these four cases. Write the equation of the plot for each of these four cases. From the equation of thes ...
Chapter-5: MEASUREMENT OF ELECTRICAL CURRENT
... the practical ammeter has a voltage drop across and the practical voltmeter has a current drawn from the circuit. All measuring instruments draw energy from the source of measurement. This is called “the loading effect of the instrument”. Hence, all measurements include errors due to instrument load ...
... the practical ammeter has a voltage drop across and the practical voltmeter has a current drawn from the circuit. All measuring instruments draw energy from the source of measurement. This is called “the loading effect of the instrument”. Hence, all measurements include errors due to instrument load ...
Print this article - International Journal of Innovative Research and
... This report explains the intuitive technique for designing the impedance matching circuit. Impedance is the opposition by a system to the flow of energy from a source. For constant signals, this impedance can also be constant. For varying signals, it usually changes with frequency. The energy involv ...
... This report explains the intuitive technique for designing the impedance matching circuit. Impedance is the opposition by a system to the flow of energy from a source. For constant signals, this impedance can also be constant. For varying signals, it usually changes with frequency. The energy involv ...
AD538 - Analog Devices
... multipliers and dividers has been specified in terms of percent of full scale. Thus specified, a 1% multiplier error with a 10 V full-scale output would mean a worst-case error of +100 mV at any level within its designated output range. While this type of error specification is easy to test evaluate ...
... multipliers and dividers has been specified in terms of percent of full scale. Thus specified, a 1% multiplier error with a 10 V full-scale output would mean a worst-case error of +100 mV at any level within its designated output range. While this type of error specification is easy to test evaluate ...
Direct-Current Circuits
... The potential difference across the resistors is the same • ΔV1 = ΔV2 =ΔV The resistors can be replaced with one resistor with a resistance of • 1/Req = 1/R1 + 1/R2 + … The equivalent resistor must have exactly the same external effect on the circuit as the original parallel resistors The equivalent ...
... The potential difference across the resistors is the same • ΔV1 = ΔV2 =ΔV The resistors can be replaced with one resistor with a resistance of • 1/Req = 1/R1 + 1/R2 + … The equivalent resistor must have exactly the same external effect on the circuit as the original parallel resistors The equivalent ...
MAX1747 Triple Charge-Pump TFT LCD DC-DC Converter General Description
... matrix thin-film transistor (TFT) liquid-crystal displays (LCDs) in a low-profile TSSOP package. One highpower and two low-power charge pumps convert the +2.7V to +4.5V input supply voltage into three independent output voltages. The primary high-power charge pump generates an output voltage (VOUT) ...
... matrix thin-film transistor (TFT) liquid-crystal displays (LCDs) in a low-profile TSSOP package. One highpower and two low-power charge pumps convert the +2.7V to +4.5V input supply voltage into three independent output voltages. The primary high-power charge pump generates an output voltage (VOUT) ...
LV8860V - ON Semiconductor
... 2-3. Reference amplitude of input signal The width of soft switch in LV8860V is controlled by input signal, IN1/IN2. The external SSW voltage (VSSW) adjusts the difference of input voltage (VINp-p) that creates width of soft switch. The range of SSW input voltage is between 1V and 3V. Referential di ...
... 2-3. Reference amplitude of input signal The width of soft switch in LV8860V is controlled by input signal, IN1/IN2. The external SSW voltage (VSSW) adjusts the difference of input voltage (VINp-p) that creates width of soft switch. The range of SSW input voltage is between 1V and 3V. Referential di ...
fly back converter
... secondary windings of the fly-back transformer don’t conduct simultaneously they are more like two magnetically coupled inductors and it may be more appropriate to call the fly-back transformer as inductor-transformer. Accordingly the magnetic circuit design of a fly-back transformer is done like th ...
... secondary windings of the fly-back transformer don’t conduct simultaneously they are more like two magnetically coupled inductors and it may be more appropriate to call the fly-back transformer as inductor-transformer. Accordingly the magnetic circuit design of a fly-back transformer is done like th ...
Operational-amplifier
... , and zero current flows from to ). Zero input current (i.e., there is assumed to be no leakage or bias current into the device). Zero input offset voltage (i.e., when the input terminals are shorted so that , the output is a virtual ground or vout = 0). Infinite slew rate (i.e., the rate of change ...
... , and zero current flows from to ). Zero input current (i.e., there is assumed to be no leakage or bias current into the device). Zero input offset voltage (i.e., when the input terminals are shorted so that , the output is a virtual ground or vout = 0). Infinite slew rate (i.e., the rate of change ...
AD538 (Rev. E) - Electrocomponents
... multipliers and dividers has been specified in terms of percent of full scale. Thus specified, a 1% multiplier error with a 10 V full-scale output would mean a worst-case error of +100 mV at any level within its designated output range. While this type of error specification is easy to test evaluate ...
... multipliers and dividers has been specified in terms of percent of full scale. Thus specified, a 1% multiplier error with a 10 V full-scale output would mean a worst-case error of +100 mV at any level within its designated output range. While this type of error specification is easy to test evaluate ...
50 dB GSM PA Controller AD8315 FEATURES
... Temperature-stable linear-in-dB response Log slope of 23 mV/dB, intercept at −60 dBm at 0.9 GHz True integration function in control loop Low power: 20 mW at 2.7 V, 38 mW at 5 V Power-down to 10.8 μW ...
... Temperature-stable linear-in-dB response Log slope of 23 mV/dB, intercept at −60 dBm at 0.9 GHz True integration function in control loop Low power: 20 mW at 2.7 V, 38 mW at 5 V Power-down to 10.8 μW ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.