
Manual
... microprocessor. Features include: frequency, period and equal-precision measuring. Also, 3step function selection, work state, unit and eight-digit LED display. All function depend on a single CPU. A crystal controlled temperature circuit provides constant compensation for temperature change thereby ...
... microprocessor. Features include: frequency, period and equal-precision measuring. Also, 3step function selection, work state, unit and eight-digit LED display. All function depend on a single CPU. A crystal controlled temperature circuit provides constant compensation for temperature change thereby ...
Loss measurements on semiconductor lasers by
... operating the device below lasing threshold. The observation of the decay rate of higher order harmonics in the Fourier analysis of the spectra allows us to determine the amount of cavity propagation loss/gain. A comparison between experimental and calculated data for an AlGaInP laser at 670 nm show ...
... operating the device below lasing threshold. The observation of the decay rate of higher order harmonics in the Fourier analysis of the spectra allows us to determine the amount of cavity propagation loss/gain. A comparison between experimental and calculated data for an AlGaInP laser at 670 nm show ...
LDM-8000 8 Channel LVDT/RVDT Signal Conditioner SPECIFICATIONS
... The LDM-8000 is a line-powered, 8-channel LVDT/RVDT signal conditioner consisting of eight LDM-1000 signal conditioner modules and a PSD 40-15 power supply, pre-wired and mounted on a DIN rail inside a rugged NEMA 13 enclosure. A wide range of gains, excitation voltages and frequencies ensure compat ...
... The LDM-8000 is a line-powered, 8-channel LVDT/RVDT signal conditioner consisting of eight LDM-1000 signal conditioner modules and a PSD 40-15 power supply, pre-wired and mounted on a DIN rail inside a rugged NEMA 13 enclosure. A wide range of gains, excitation voltages and frequencies ensure compat ...
Television Engineering viva
... Model Viva Questions for “Name of the Lab: Television Engg.Lab Common to: VI sem(ET&T) Title of the Practical 1: Familiarization with consumer and technician control and safety precautions Q1. List the safety precautions for technician and consumer? A1 The safety precautions are: 1. Line connected r ...
... Model Viva Questions for “Name of the Lab: Television Engg.Lab Common to: VI sem(ET&T) Title of the Practical 1: Familiarization with consumer and technician control and safety precautions Q1. List the safety precautions for technician and consumer? A1 The safety precautions are: 1. Line connected r ...
PHYSICS 176 UNIVERSITY PHYSICS LAB II Experiment 4
... The peak-to-peak amplitude of the sine wave is the voltage Vpp between the top of the wave and the bottom. Its value is found from the trace on the oscilloscope screen as follows: Vpp = (peak-to-peak amplitude in div) x (volts/div) The period of the sine wave is time T between successive peaks of th ...
... The peak-to-peak amplitude of the sine wave is the voltage Vpp between the top of the wave and the bottom. Its value is found from the trace on the oscilloscope screen as follows: Vpp = (peak-to-peak amplitude in div) x (volts/div) The period of the sine wave is time T between successive peaks of th ...
PHYSICS 171 UNIVERSITY PHYSICS LAB II Experiment 4
... The peak-to-peak amplitude of the sine wave is the voltage Vpp between the top of the wave and the bottom. Its value is found from the trace on the oscilloscope screen as follows: Vpp = (peak-to-peak amplitude in div) x (volts/div) The period of the sine wave is time T between successive peaks of th ...
... The peak-to-peak amplitude of the sine wave is the voltage Vpp between the top of the wave and the bottom. Its value is found from the trace on the oscilloscope screen as follows: Vpp = (peak-to-peak amplitude in div) x (volts/div) The period of the sine wave is time T between successive peaks of th ...
Chapter 5 Signal Encoding Techniques
... Given a bandwidth of 10,000 Hz (1000 to 11,000 Hz), draw the full-duplex ASK diagram of the system. Find the carriers and the bandwidths in each direction. Assume there is no gap between the bands in the two directions. ...
... Given a bandwidth of 10,000 Hz (1000 to 11,000 Hz), draw the full-duplex ASK diagram of the system. Find the carriers and the bandwidths in each direction. Assume there is no gap between the bands in the two directions. ...
Sum frequency generation spectroscopy (SFG)
... The non-resonating contribution is assumed to be from electronic responses. Although this contribution has often been considered to be constant over the spectrum, because it is generated simultaneously with the resonant response, the two responses must compete for intensity. This competition shapes ...
... The non-resonating contribution is assumed to be from electronic responses. Although this contribution has often been considered to be constant over the spectrum, because it is generated simultaneously with the resonant response, the two responses must compete for intensity. This competition shapes ...
BITX40 with Raduino - tips and mods
... A 12 V LED, which would have an internal current limiting resistor, can be connected directly across the relay. Most red LED's have a forward voltage of about 1.65v, so at 12V that would be anywhere between 1K to 1.2K series resistor for about 11ma current flow through the LED. If you want it bright ...
... A 12 V LED, which would have an internal current limiting resistor, can be connected directly across the relay. Most red LED's have a forward voltage of about 1.65v, so at 12V that would be anywhere between 1K to 1.2K series resistor for about 11ma current flow through the LED. If you want it bright ...
BITX40 with Raduino - tips and mods
... A 12 V LED, which would have an internal current limiting resistor, can be connected directly across the relay. Most red LED's have a forward voltage of about 1.65v, so at 12V that would be anywhere between 1K to 1.2K series resistor for about 11ma current flow through the LED. If you want it bright ...
... A 12 V LED, which would have an internal current limiting resistor, can be connected directly across the relay. Most red LED's have a forward voltage of about 1.65v, so at 12V that would be anywhere between 1K to 1.2K series resistor for about 11ma current flow through the LED. If you want it bright ...