Calorimeter Electronics
... The detector output signal is shaped to a semi-gauss waveform after preamplifier and post amplifier. The peak is proportional to the energy deposit in the detector. Three different gain amplifiers with 3 different ranges amplify the output signal of the post amplifier. They are sampled by three 10-b ...
... The detector output signal is shaped to a semi-gauss waveform after preamplifier and post amplifier. The peak is proportional to the energy deposit in the detector. Three different gain amplifiers with 3 different ranges amplify the output signal of the post amplifier. They are sampled by three 10-b ...
Operational Amplifiers - Georgia Institute of Technology
... •Output Process uses VERROR from the PID controller to adjust Vout such that it is ...
... •Output Process uses VERROR from the PID controller to adjust Vout such that it is ...
AD8007
... voltage noise, –83 dB SFDR @ 20 MHz (AD8007), and –77 dBc SFDR @ 20 MHz (AD8008). With the wide supply voltage range (5 V to 12 V) and wide bandwidth, the AD8007/AD8008 are designed to work in a variety of applications. The AD8007/AD8008 amplifiers have a low power supply current of 9 mA/amplifier. ...
... voltage noise, –83 dB SFDR @ 20 MHz (AD8007), and –77 dBc SFDR @ 20 MHz (AD8008). With the wide supply voltage range (5 V to 12 V) and wide bandwidth, the AD8007/AD8008 are designed to work in a variety of applications. The AD8007/AD8008 amplifiers have a low power supply current of 9 mA/amplifier. ...
ENGR_REPORT_Enpirion
... Enpirion 5360 ripple, pre radiation Both converters were set for an output voltage of 1.2V. The 5365 was loaded with a 0.4Ω resistor corresponding to a 3A output current. The data sheet specifies a typical efficiency at this setting to be over 80%. We measured only 65% at best, and we have not had t ...
... Enpirion 5360 ripple, pre radiation Both converters were set for an output voltage of 1.2V. The 5365 was loaded with a 0.4Ω resistor corresponding to a 3A output current. The data sheet specifies a typical efficiency at this setting to be over 80%. We measured only 65% at best, and we have not had t ...
5 Timing parameters
... Table 5-1: Timing parameters............................................................................................... 16 Table 6-1: Control parameters and detailed application of categories................................... 20 Table B-1 : ESD classes........................................... ...
... Table 5-1: Timing parameters............................................................................................... 16 Table 6-1: Control parameters and detailed application of categories................................... 20 Table B-1 : ESD classes........................................... ...
ANSI_SCTE 06 2009
... Discrete Second Order (DSO): An individual, second order intermodulation product, produced when one or two carriers pass through a non-linear component. Composite Second Order (CSO): The sum of all DSO products that happen to fall at the same nominal frequency in a multi-tone system. CSO is defined ...
... Discrete Second Order (DSO): An individual, second order intermodulation product, produced when one or two carriers pass through a non-linear component. Composite Second Order (CSO): The sum of all DSO products that happen to fall at the same nominal frequency in a multi-tone system. CSO is defined ...
Summary - HomeworkForYou
... Figures 1 & 2, show the circuits that were used in the Prelab. In the Prelab, the circuits were constructed in MultiSim and a table of data for Vin pk, Vout pk and the oscilloscope waveforms for Vin and Vout were obtained. Figures 3 & 4 show the circuits that were built on the breadboard and a table ...
... Figures 1 & 2, show the circuits that were used in the Prelab. In the Prelab, the circuits were constructed in MultiSim and a table of data for Vin pk, Vout pk and the oscilloscope waveforms for Vin and Vout were obtained. Figures 3 & 4 show the circuits that were built on the breadboard and a table ...
EECE 206 Lab 2: Basic Electrical Measurements
... Connect jumper wire (J3) between R3 and R4 (this completes the path to ground for the branch circuit containing R3 and R4) Turn on the power supply Record the current IR1 with the Fluke multimeter, and voltage measurements VR1, VR2, VR3, VR4 with the Tektronix multimeter Turn off the power supply Re ...
... Connect jumper wire (J3) between R3 and R4 (this completes the path to ground for the branch circuit containing R3 and R4) Turn on the power supply Record the current IR1 with the Fluke multimeter, and voltage measurements VR1, VR2, VR3, VR4 with the Tektronix multimeter Turn off the power supply Re ...
Experiment # 3 - The George Washington University
... 1. Measure ALL resistor using the Keithley 175 DMM prior to building the circuit 2. Construct the common emitter amplifier designed in the prelab. 3. BEFORE attaching the function generator + scope: a. Measure VB, VE, VC using the Keithley 175 DMM b. From the measured voltages, calculate VBE, VCE, & ...
... 1. Measure ALL resistor using the Keithley 175 DMM prior to building the circuit 2. Construct the common emitter amplifier designed in the prelab. 3. BEFORE attaching the function generator + scope: a. Measure VB, VE, VC using the Keithley 175 DMM b. From the measured voltages, calculate VBE, VCE, & ...
Amplifier Frequency
... There is a range of frequencies between L and H where the gain will (approximately) be Avo. For frequencies outside this range, the gain will typically be small (i.e. T Avo ): ...
... There is a range of frequencies between L and H where the gain will (approximately) be Avo. For frequencies outside this range, the gain will typically be small (i.e. T Avo ): ...
OP275 - Analog Devices
... The OP275 is the first amplifier to feature the Butler Amplifier front end. This new front end design combines both bipolar and JFET transistors to attain amplifiers with the accuracy and low noise performance of bipolar transistors, and the speed and sound quality of JFETs. Total Harmonic Distortio ...
... The OP275 is the first amplifier to feature the Butler Amplifier front end. This new front end design combines both bipolar and JFET transistors to attain amplifiers with the accuracy and low noise performance of bipolar transistors, and the speed and sound quality of JFETs. Total Harmonic Distortio ...
MT-075 TUTORIAL Differential Drivers for High Speed ADCs Overview
... common-mode voltage levels. This is necessary to ensure all voltages fall within the allowable ranges specified by the devices. The AD6645 operates on a 2.2 V p-p differential signal with a common-mode voltage of +2.4 V. This means that each output of the ADA4937 must swing between 1.85 V and 2.95 V ...
... common-mode voltage levels. This is necessary to ensure all voltages fall within the allowable ranges specified by the devices. The AD6645 operates on a 2.2 V p-p differential signal with a common-mode voltage of +2.4 V. This means that each output of the ADA4937 must swing between 1.85 V and 2.95 V ...
Aalborg Universitet
... he can do some changes in e.g. the filtering and immediately get a figure of the effect regarding radiated emission by measuring in the WBFC. Therefore the method is widely used in private companies where the objective is to pass the radiated emission requirements as fast and cheapest as possible. A ...
... he can do some changes in e.g. the filtering and immediately get a figure of the effect regarding radiated emission by measuring in the WBFC. Therefore the method is widely used in private companies where the objective is to pass the radiated emission requirements as fast and cheapest as possible. A ...
The transistor we will be using for this lab is BFR92A, a
... approach known as negative-resistance oscillator (NRO) method. Please refer to the lecture slides of ME1000 for detailed theoretical treatment on this subject. Here we will split the transistor oscillator circuit into a destabilized amplifier and a resonator portion, as shown in Figure 1. We need to ...
... approach known as negative-resistance oscillator (NRO) method. Please refer to the lecture slides of ME1000 for detailed theoretical treatment on this subject. Here we will split the transistor oscillator circuit into a destabilized amplifier and a resonator portion, as shown in Figure 1. We need to ...
Document
... • Modern cardiac pacemakers • multi-axis accelerometers • range of ±2G • bandwidth of less than 50 Hz • require extremely low power consumption • Military applications • range of > 1,000G ...
... • Modern cardiac pacemakers • multi-axis accelerometers • range of ±2G • bandwidth of less than 50 Hz • require extremely low power consumption • Military applications • range of > 1,000G ...
... the output of the photodiode amplifier is AC coupled and then passed through an amplifier with programmable gain of +1 and -1. The gain switch is synchronised to set the gain to +1 exactly when the light is expected to be on, and to -1 when the light is expected to be off. Ideally, the output would ...
Faraday`s Law and Joule Heating
... Manually initialize the pendulum and release it to swing freely, having selected from the two possibilities, a single direction of passage through the photogate with which to operate. Before passage, the start/stop switch is depressed to clear the display and arm the timer. Following passage of the ...
... Manually initialize the pendulum and release it to swing freely, having selected from the two possibilities, a single direction of passage through the photogate with which to operate. Before passage, the start/stop switch is depressed to clear the display and arm the timer. Following passage of the ...
PD84002
... The PD84002 is a common source N-channel, enhancement-mode lateral Field-Effect RF power transistor. It is designed for high gain, broad band commercial and industrial applications. It operates at 7 V in common source mode at frequencies of up to 1 GHz. PD84002’s superior gain and efficiency makes i ...
... The PD84002 is a common source N-channel, enhancement-mode lateral Field-Effect RF power transistor. It is designed for high gain, broad band commercial and industrial applications. It operates at 7 V in common source mode at frequencies of up to 1 GHz. PD84002’s superior gain and efficiency makes i ...
Installation and Maintenance Sheet - IF 1315 Revision 2
... Before installing a WSR Series enclosed disconnect switch and interlocked ARKTITE receptacle, a wiring pattern must be established for your system. Locations having different voltages, frequencies or types of current (AC or DC) MUST NOT have interchangeable attachment plugs as stated in paragraph 40 ...
... Before installing a WSR Series enclosed disconnect switch and interlocked ARKTITE receptacle, a wiring pattern must be established for your system. Locations having different voltages, frequencies or types of current (AC or DC) MUST NOT have interchangeable attachment plugs as stated in paragraph 40 ...
LIOB-100/101/102/103
... The average sampling period p of analog inputs depends on the number of active (non-disabled) universal inputs n that are configured in analog mode. The formula for p is: p = n ∙ 125 ms This means if e.g. only two UIs are configured as analog inputs, a new sample is taken every 250 ms (on average) f ...
... The average sampling period p of analog inputs depends on the number of active (non-disabled) universal inputs n that are configured in analog mode. The formula for p is: p = n ∙ 125 ms This means if e.g. only two UIs are configured as analog inputs, a new sample is taken every 250 ms (on average) f ...
Tektronix analog oscilloscopes
Tektronix vintage analog oscilloscopes technologies and evolution.