LT1113 - Dual Low Noise, Precision, JFET Input Op Amps
... these extended temperature limits, but is not tested at –40°C and 85°C. Guaranteed I grade parts are available. Consult factory. Note 11: ∆CMRR and ∆PSRR are defined as follows: (1) CMRR and PSRR are measured in µV/V on the individual amplifiers. (2) The difference is calculated between the matching ...
... these extended temperature limits, but is not tested at –40°C and 85°C. Guaranteed I grade parts are available. Consult factory. Note 11: ∆CMRR and ∆PSRR are defined as follows: (1) CMRR and PSRR are measured in µV/V on the individual amplifiers. (2) The difference is calculated between the matching ...
Purple Audio Inc.
... follows. First remove signals from both limiters and disable gain reduction by rotating the Attack controls fully CCW. Set the meter function switches for "GR" mode. Connect one MC76 to the other by plugging a 1/4” “mono” patch cable (like a short guitar cable) from the offset jack on one unit to th ...
... follows. First remove signals from both limiters and disable gain reduction by rotating the Attack controls fully CCW. Set the meter function switches for "GR" mode. Connect one MC76 to the other by plugging a 1/4” “mono” patch cable (like a short guitar cable) from the offset jack on one unit to th ...
A 1.2 V, 0.84 pJ/Conv.-Step Ultra-low Power Capacitance to Digital
... recording over a nyquist bandwidth of 4 kHz, the modulator is designed for an OSR of 125 with a 1MHz sampling clock. III. CIRCUIT IMPLEMENTATION OF THE PROPOSED CDC A. Schematic of the proposed CDC The schematic implementation of the proposed CDC is shown in Fig. 4. Two single-ended capacitive senso ...
... recording over a nyquist bandwidth of 4 kHz, the modulator is designed for an OSR of 125 with a 1MHz sampling clock. III. CIRCUIT IMPLEMENTATION OF THE PROPOSED CDC A. Schematic of the proposed CDC The schematic implementation of the proposed CDC is shown in Fig. 4. Two single-ended capacitive senso ...
Dist Training materials HK & China Jun 07 Ver3.0
... Why do customers use Zetex transistors? There are 3 areas where we can clearly demonstrate a benefit from Zetex transistors – When used as a Saturated Switch – When used in pulse linear mode – When used as a linear switch ...
... Why do customers use Zetex transistors? There are 3 areas where we can clearly demonstrate a benefit from Zetex transistors – When used as a Saturated Switch – When used in pulse linear mode – When used as a linear switch ...
Resistors Connected in Series and in Parallel
... How are resistances R2 and R3 connected in the resistance network shown at the right? They are not connected in series, because the current through R2 is not necessarily the current through R3 (why?) R2 and R3 are connected in parallel because the potential drop across R3 is the same as the potentia ...
... How are resistances R2 and R3 connected in the resistance network shown at the right? They are not connected in series, because the current through R2 is not necessarily the current through R3 (why?) R2 and R3 are connected in parallel because the potential drop across R3 is the same as the potentia ...
MECHANIC MEDICAL ELECTRONICS Central Staff Training and Research Institute
... power MOSFET devices. Construct MOSFET test circuit with a small load and test Identify and test a IGBT (atleast 2 no’s) by its number Construct IGBT test circuit with a small load and test Dismantle an Analog multimeter and identify components /sections and trace path for measurement of V, I & R. M ...
... power MOSFET devices. Construct MOSFET test circuit with a small load and test Identify and test a IGBT (atleast 2 no’s) by its number Construct IGBT test circuit with a small load and test Dismantle an Analog multimeter and identify components /sections and trace path for measurement of V, I & R. M ...
Resistors Connected in Series and in Parallel
... How are resistances R2 and R3 connected in the resistance network shown at the right? They are not connected in series, because the current through R2 is not necessarily the current through R3 (why?) R2 and R3 are connected in parallel because the potential drop across R3 is the same as the potentia ...
... How are resistances R2 and R3 connected in the resistance network shown at the right? They are not connected in series, because the current through R2 is not necessarily the current through R3 (why?) R2 and R3 are connected in parallel because the potential drop across R3 is the same as the potentia ...
No Slide Title
... After we know how to convert RLC components from time to phasor domain, we can transform a time domain circuit into a phasor/frequency domain circuit. Hence, we can apply the KCL laws and other theorems to directly set up phasor equations involving our target variable(s) for solving. Next we f ...
... After we know how to convert RLC components from time to phasor domain, we can transform a time domain circuit into a phasor/frequency domain circuit. Hence, we can apply the KCL laws and other theorems to directly set up phasor equations involving our target variable(s) for solving. Next we f ...
and Output-Voltage Capability
... Dropout voltage is the voltage difference between the input and the output at which the FB voltage drops to 97% of its nominal value. Short-circuit current (ISC) is equivalent to current limit. To minimize thermal effects during testing, ISC is measured with VOUT pulled to 100 mV below its nominal v ...
... Dropout voltage is the voltage difference between the input and the output at which the FB voltage drops to 97% of its nominal value. Short-circuit current (ISC) is equivalent to current limit. To minimize thermal effects during testing, ISC is measured with VOUT pulled to 100 mV below its nominal v ...
AD831 Low Distortion Mixer Data Sheet (REV. C)
... in HF and VHF receivers, the second mixer in DMR base stations, direct-to-baseband conversion, quadrature modulation and demodulation, and doppler shift detection in ultrasound imaging applications. The mixer includes an LO driver and a low noise output amplifier and provides both user-programmable ...
... in HF and VHF receivers, the second mixer in DMR base stations, direct-to-baseband conversion, quadrature modulation and demodulation, and doppler shift detection in ultrasound imaging applications. The mixer includes an LO driver and a low noise output amplifier and provides both user-programmable ...
Technical Definitions Abbreviations
... AGT-HD AGT Heavy Duty The AGT-HD supplies direct voltage in the same way as the AGT-DC generators. An enhanced cooling system, external diodes and the ability to restrict maximum performance makes these generators suitable for driving DC motors (e.g. electro motors with heavy loads) over extended pe ...
... AGT-HD AGT Heavy Duty The AGT-HD supplies direct voltage in the same way as the AGT-DC generators. An enhanced cooling system, external diodes and the ability to restrict maximum performance makes these generators suitable for driving DC motors (e.g. electro motors with heavy loads) over extended pe ...
SN10501 SN10502 SN10503
... single, dual, and triple low-voltage, high-output swing, low-distortion high-speed amplifiers ideal for driving data converters, video switching, or low distortion applications. This family of voltage-feedback amplifiers can operate from a single 15-V power supply down to a single 3-V power supply w ...
... single, dual, and triple low-voltage, high-output swing, low-distortion high-speed amplifiers ideal for driving data converters, video switching, or low distortion applications. This family of voltage-feedback amplifiers can operate from a single 15-V power supply down to a single 3-V power supply w ...
Basics of Digital Multimeters
... Average Responding vs. True RMS The RMS or Root Mean Square value of an AC measurement is the “Effective Value” or “Equivalent Value” of the waveform to do work in relationship to DC. Test Equipment use two methods to measure an AC waveform. One is Average responding RMS calibrated and the other is ...
... Average Responding vs. True RMS The RMS or Root Mean Square value of an AC measurement is the “Effective Value” or “Equivalent Value” of the waveform to do work in relationship to DC. Test Equipment use two methods to measure an AC waveform. One is Average responding RMS calibrated and the other is ...
BM6203FS
... The input threshold voltages of the control pins are 2.5V and 0.8V, with a hysteresis voltage of approximately 0.4V. The IC will accept input voltages up to the VCC voltage. When the same phase control pins are input high at the same time, the high side and low side gate driver outputs become low. D ...
... The input threshold voltages of the control pins are 2.5V and 0.8V, with a hysteresis voltage of approximately 0.4V. The IC will accept input voltages up to the VCC voltage. When the same phase control pins are input high at the same time, the high side and low side gate driver outputs become low. D ...
Using Bipolar Transistors As Switches By Mike Martell N1HFX
... maximum design current must not be exceeded or the output voltage will be reduced. A short circuit of the output will overheat and destroy the transistor in many cases. Although the transistor is in saturation when turned on, about .3 volts is lost through the collector to the emitter of the transis ...
... maximum design current must not be exceeded or the output voltage will be reduced. A short circuit of the output will overheat and destroy the transistor in many cases. Although the transistor is in saturation when turned on, about .3 volts is lost through the collector to the emitter of the transis ...
DC POWER SUPPLY OPERATION MANUAL
... [NOTE] When 5003 was operated under this mode. The master output is serial connected to the slave output automatically. The outputs are generated from the "+" of the master output terminal (7) and the “-" of the slave output terminal (20). The output voltage will be TWICE of the master output settin ...
... [NOTE] When 5003 was operated under this mode. The master output is serial connected to the slave output automatically. The outputs are generated from the "+" of the master output terminal (7) and the “-" of the slave output terminal (20). The output voltage will be TWICE of the master output settin ...
Structural analysis of electrical circuits including magnetoquasistatic
... system of DAE to be solved in simulation. A DAE is generally characterized by its index, which roughly measures the equation’s sensitivity w.r.t. perturbations of the input and thus it reveals the expected numerical difficulties in simulation. Due to various facts and view point, there exist several ...
... system of DAE to be solved in simulation. A DAE is generally characterized by its index, which roughly measures the equation’s sensitivity w.r.t. perturbations of the input and thus it reveals the expected numerical difficulties in simulation. Due to various facts and view point, there exist several ...
MAX4473 Low-Cost, Low-Voltage, PA Power Control Amplifier for GSM Applications General Description
... • Accuracy: A high RSENSE value allows lower currents to be measured more accurately because input offset voltages become less significant when the sense voltage is larger. For best performance, select RSENSE to provide approximately 100mV of sense voltage for the full-scale current in each applicat ...
... • Accuracy: A high RSENSE value allows lower currents to be measured more accurately because input offset voltages become less significant when the sense voltage is larger. For best performance, select RSENSE to provide approximately 100mV of sense voltage for the full-scale current in each applicat ...
Power electronics
Power electronics is the application of solid-state electronics to the control and conversion of electric power. It also refers to a subject of research in electronic and electrical engineering which deals with the design, control, computation and integration of nonlinear, time-varying energy-processing electronic systems with fast dynamics.The first high power electronic devices were mercury-arc valves. In modern systems the conversion is performed with semiconductor switching devices such as diodes, thyristors and transistors, pioneered by R. D. Middlebrook and others beginning in the 1950s. In contrast to electronic systems concerned with transmission and processing of signals and data, in power electronics substantial amounts of electrical energy are processed. An AC/DC converter (rectifier) is the most typical power electronics device found in many consumer electronic devices, e.g. television sets, personal computers, battery chargers, etc. The power range is typically from tens of watts to several hundred watts. In industry a common application is the variable speed drive (VSD) that is used to control an induction motor. The power range of VSDs start from a few hundred watts and end at tens of megawatts.The power conversion systems can be classified according to the type of the input and output power AC to DC (rectifier) DC to AC (inverter) DC to DC (DC-to-DC converter) AC to AC (AC-to-AC converter)