APXSERIES 2-CHANNEL 1500 WATT POWER AMPLIFIER
... 2 x 550 W at 4 ohms, 2 x 350 W at 8 ohms (0.5% THD) 2 x 750 W at 4 ohms, 2 x 370 W at 8 ohms (1.0% THD EIAJ) Bridged mono mode: 1 x 1500 W at 8 ohms, 1 x 740 W at 16 ohms ...
... 2 x 550 W at 4 ohms, 2 x 350 W at 8 ohms (0.5% THD) 2 x 750 W at 4 ohms, 2 x 370 W at 8 ohms (1.0% THD EIAJ) Bridged mono mode: 1 x 1500 W at 8 ohms, 1 x 740 W at 16 ohms ...
Finisar HFD3081-108 Product Specification
... -3dB Optical/Electrical Bandwidth Low Frequency –3dB Cutoff Output Impedance Output Return Loss RMS Input Referred Noise Equivalent Power Sensitivity, OMA Stressed Sensitivity, OMA Rise/Fall Time Pulse Width Distortion Power Supply Rejection Ratio ...
... -3dB Optical/Electrical Bandwidth Low Frequency –3dB Cutoff Output Impedance Output Return Loss RMS Input Referred Noise Equivalent Power Sensitivity, OMA Stressed Sensitivity, OMA Rise/Fall Time Pulse Width Distortion Power Supply Rejection Ratio ...
Reduction of Induced Voltages deriving from Ground Return
... ground current for two signal traces by measuring with a network analyzer. With respect to the ground patterns, we evaluated noise voltages appearing at the end of the signal trace 2, which was connected through a 50: coaxial cable to Port 2 of the network analyzer, when exciting the end of the sign ...
... ground current for two signal traces by measuring with a network analyzer. With respect to the ground patterns, we evaluated noise voltages appearing at the end of the signal trace 2, which was connected through a 50: coaxial cable to Port 2 of the network analyzer, when exciting the end of the sign ...
Ask The Applications Engineer-25 Return to Previous Page Return
... This method is very effective in driving transmission lines.The values of R L and RX must equal the characteristic impedance of th 50ohms or 75ohms) in order to avoid standing waves. So RX is pre-determined, and all that remains is to double the gain of the order to offset the signal loss from the r ...
... This method is very effective in driving transmission lines.The values of R L and RX must equal the characteristic impedance of th 50ohms or 75ohms) in order to avoid standing waves. So RX is pre-determined, and all that remains is to double the gain of the order to offset the signal loss from the r ...
Basics of Electricity Web Quest Name _____________________________
... b. If the resistance is increased what will happen to the current? _____________________ 26. Using the second equation, V = I • R, describe the following: a. If either the current or the resistance is increased in the circuit, what will happen to the voltage? __________________________ 27. Using the ...
... b. If the resistance is increased what will happen to the current? _____________________ 26. Using the second equation, V = I • R, describe the following: a. If either the current or the resistance is increased in the circuit, what will happen to the voltage? __________________________ 27. Using the ...
Section J4: FET Biasing
... Section J4: FET Biasing By comparing the equations developed and/or defined for the MOSFET and JFET in the previous section, you can see that they are the same except for the expressions for the zero-gate drain current IDSS, the constant K and the notation for the threshold voltage (VT for MOSFET, V ...
... Section J4: FET Biasing By comparing the equations developed and/or defined for the MOSFET and JFET in the previous section, you can see that they are the same except for the expressions for the zero-gate drain current IDSS, the constant K and the notation for the threshold voltage (VT for MOSFET, V ...
Video Transcript - Rose
... The magnitude of the phase voltage of an ideal balanced three-phase Y-connected source is 400 V. The source is connected to a balanced Y-connected load through a transmission line that has an impedance of 1+j5 Ω. The load is a 19 Ω resistor in series with an inductive reactance and the magnitude of ...
... The magnitude of the phase voltage of an ideal balanced three-phase Y-connected source is 400 V. The source is connected to a balanced Y-connected load through a transmission line that has an impedance of 1+j5 Ω. The load is a 19 Ω resistor in series with an inductive reactance and the magnitude of ...
Calorimeter Electronics
... together to insure the gain uniformity of each channel, including the contributions from CsI crystals and PIN diodes. The test controller generates serial clock and serial data to adjust the gain according to the VME master commands. The serial decode circuit in the post amplifier module implements ...
... together to insure the gain uniformity of each channel, including the contributions from CsI crystals and PIN diodes. The test controller generates serial clock and serial data to adjust the gain according to the VME master commands. The serial decode circuit in the post amplifier module implements ...
Unit 2
... – Referred to as metric units of measure • Part of the SI (System Internationale) system ...
... – Referred to as metric units of measure • Part of the SI (System Internationale) system ...
(ADC) and Digital to analog converter (DAC)
... 2. A bipolar DAC hat 10 bits and a reference of 5v.what outputs will result from input of 04FH and 2A4H.What digital input gives a zero output voltage? 3. Determine how many bits a D/A converter must have to provide output increments of 0.04 volts or less. The reference is 10 volts. 4. A control val ...
... 2. A bipolar DAC hat 10 bits and a reference of 5v.what outputs will result from input of 04FH and 2A4H.What digital input gives a zero output voltage? 3. Determine how many bits a D/A converter must have to provide output increments of 0.04 volts or less. The reference is 10 volts. 4. A control val ...
convolutionguide
... stimulating the circuit with an impulse. For the rest of the document the circuit below will be the referenced system that will be modeled by an impulse response. It is taken out of the book (Ulbay and Yagle, Engineering and Signals and Systems pg 46). ...
... stimulating the circuit with an impulse. For the rest of the document the circuit below will be the referenced system that will be modeled by an impulse response. It is taken out of the book (Ulbay and Yagle, Engineering and Signals and Systems pg 46). ...
circuits
... •Electric companies usually bill by the kilowatthour (kWh.) which is the energy consumed by using 1.0 kW for one hour. •Thus a 100 W light bulb could burn for 10 hours and consume 1.0 kWh. •Electric circuits in a building are protected by a fuse or circuit breaker which shuts down the electricity in ...
... •Electric companies usually bill by the kilowatthour (kWh.) which is the energy consumed by using 1.0 kW for one hour. •Thus a 100 W light bulb could burn for 10 hours and consume 1.0 kWh. •Electric circuits in a building are protected by a fuse or circuit breaker which shuts down the electricity in ...
Electricity Continued SHORT versionR2014
... Uses for Series Circuits Series circuits are useful in wiring burglar alarms. If any part of the circuit fails, there will be no current in the system and the alarm will sound ...
... Uses for Series Circuits Series circuits are useful in wiring burglar alarms. If any part of the circuit fails, there will be no current in the system and the alarm will sound ...
Physics 121: Electricity & Magnetism
... Henry-seconds. Ohms. Volts per Amp. The two reactances have different units. ...
... Henry-seconds. Ohms. Volts per Amp. The two reactances have different units. ...