BH1417 FM Transmitter
... The bad news is that BH1417 requires 7.6MHz crystal oscillator, which is very hard to find. The good news is that you can use 7.68 MHz crystal instead, which is easier to find. In fact our BH1417 transmitter prototype (schematic shown above) uses 7.68 MHz crystal. This has absolutely no effect on st ...
... The bad news is that BH1417 requires 7.6MHz crystal oscillator, which is very hard to find. The good news is that you can use 7.68 MHz crystal instead, which is easier to find. In fact our BH1417 transmitter prototype (schematic shown above) uses 7.68 MHz crystal. This has absolutely no effect on st ...
Receivers - TalkTalk
... RF amplifier gain increases sensitivity One or more tuned circuits All the gain is at one frequency – feedback is a problem AF amplifier provides more power for loudspeakers ...
... RF amplifier gain increases sensitivity One or more tuned circuits All the gain is at one frequency – feedback is a problem AF amplifier provides more power for loudspeakers ...
Op Amps II, Page R C -
... Next, use what you know about RC filters to find v4 in terms of v1.] When you understand the equation for the transfer function, build the circuit. It is convenient to use a TL084 with four op amps in a package. Choose RC so that the resonant frequency is 2 to 5 kHz. Tune the pot until the circuit n ...
... Next, use what you know about RC filters to find v4 in terms of v1.] When you understand the equation for the transfer function, build the circuit. It is convenient to use a TL084 with four op amps in a package. Choose RC so that the resonant frequency is 2 to 5 kHz. Tune the pot until the circuit n ...
DE-70BM
... DEFLECTOR DRIVER DESCRIPTION The Model DE series Deflector Drivers include a voltage controlled RF oscillator and a broadband RF power amplifier in a housing with power supply, RFI line filter, and line switch. An optional (M) analog amplitude modulation circuit is available. Standard frequency line ...
... DEFLECTOR DRIVER DESCRIPTION The Model DE series Deflector Drivers include a voltage controlled RF oscillator and a broadband RF power amplifier in a housing with power supply, RFI line filter, and line switch. An optional (M) analog amplitude modulation circuit is available. Standard frequency line ...
RF1238 - Wireless | Murata Manufacturing
... The RF1238 is a low-loss, compact, and economical surface-acoustic-wave (SAW) filter designed to provide front-end selectivity in 318.0 MHz receivers. Receiver designs using this filter include superhet with 10.7 MHz or 500 kHz IF, direct conversion and superregen. Typical applications of these rece ...
... The RF1238 is a low-loss, compact, and economical surface-acoustic-wave (SAW) filter designed to provide front-end selectivity in 318.0 MHz receivers. Receiver designs using this filter include superhet with 10.7 MHz or 500 kHz IF, direct conversion and superregen. Typical applications of these rece ...
VLF LF MF HF VHF UHF SHF EHF
... cancel. The ac current and voltage are brought exactly back in step with each other—a condition called resonance. The frequency at which resonance occurs is the resonant frequency. When a circuit is resonant, opposition to the flow of current, ac or dc, is as if only resistance was present—no reacta ...
... cancel. The ac current and voltage are brought exactly back in step with each other—a condition called resonance. The frequency at which resonance occurs is the resonant frequency. When a circuit is resonant, opposition to the flow of current, ac or dc, is as if only resistance was present—no reacta ...
ekt 313 tutorial 4
... 3. What are the advantages that the superheterodyne receiver has over the TRF receiver? Are there any disadvantage? The superheterodyne receiver offers superior sensitivity, frequency stability and selectivity. Compared with the tuned radio frequency receiver (TRF) design, superhets offer better sta ...
... 3. What are the advantages that the superheterodyne receiver has over the TRF receiver? Are there any disadvantage? The superheterodyne receiver offers superior sensitivity, frequency stability and selectivity. Compared with the tuned radio frequency receiver (TRF) design, superhets offer better sta ...
Op Amps II, Page
... Next, use what you know about RC filters to find v4 in terms of v1.] When you understand the equation for the transfer function, build the circuit. It is convenient to use a TL084 with four op amps in a package. Choose RC so that the resonant frequency is 2 to 5 kHz. Tune the pot until the circuit n ...
... Next, use what you know about RC filters to find v4 in terms of v1.] When you understand the equation for the transfer function, build the circuit. It is convenient to use a TL084 with four op amps in a package. Choose RC so that the resonant frequency is 2 to 5 kHz. Tune the pot until the circuit n ...
sheet3
... minimum value of the feedback resistor and frequency of oscillation with Ri=15 kΩ, L1 = 10 μH, L2 = 270 μH, and C = 0.001μf? 6. A Hartley oscillator has Ri= 10 kΩ, C = 0.015 μf, L1 = 15 μH. Determine the value of L2 if the frequency of oscillation is to be 100 kHz. 7. Determine the operating frequen ...
... minimum value of the feedback resistor and frequency of oscillation with Ri=15 kΩ, L1 = 10 μH, L2 = 270 μH, and C = 0.001μf? 6. A Hartley oscillator has Ri= 10 kΩ, C = 0.015 μf, L1 = 15 μH. Determine the value of L2 if the frequency of oscillation is to be 100 kHz. 7. Determine the operating frequen ...
Paper E1 - Digital Circuits
... A pn-junction diode detector is used to extract the modulated audio signal Basic property of diode – current flows essentially in one direction –ve half-cycles blocked by the diode +ve half-cycles pass unimpeded A capacitor is needed to smooth the resultant rectified waveform Headphones convert ...
... A pn-junction diode detector is used to extract the modulated audio signal Basic property of diode – current flows essentially in one direction –ve half-cycles blocked by the diode +ve half-cycles pass unimpeded A capacitor is needed to smooth the resultant rectified waveform Headphones convert ...
Physics 4700 HOMEWORK III Due Feb 23
... 3) Show that the RMS current in the 1 kΩ resistor is 6.5 mA. If the AC voltage source was replaced by a battery what would the current in the resistor be? ...
... 3) Show that the RMS current in the 1 kΩ resistor is 6.5 mA. If the AC voltage source was replaced by a battery what would the current in the resistor be? ...
Experiment 2 R-L-C Circuits
... Measure the frequency response of the circuit built in part 3 to a sine wave. Measure VR as the frequency is varied from 10 Hz to 100 KHz. Measure the phase relationship between the voltage across R and the driving source. Measure the Q of the circuit using the half power points and the resonant fre ...
... Measure the frequency response of the circuit built in part 3 to a sine wave. Measure VR as the frequency is varied from 10 Hz to 100 KHz. Measure the phase relationship between the voltage across R and the driving source. Measure the Q of the circuit using the half power points and the resonant fre ...
TRANSMITTER FUNDAMENTALS
... parts per million. EG 0.5 PPM Older non digital receivers used crystal calibrators to make sure they were on frequency. ...
... parts per million. EG 0.5 PPM Older non digital receivers used crystal calibrators to make sure they were on frequency. ...
instructions to tenderers
... of the phase voltage LIN(A, B, C) from the line-to line voltages; channel E switched into channel D for multiplexing. •Filter: Low pass active filter of the 2° order required for the recovery of the fundamental wave out of the PWM signals. Cut-off frequency: 1 kHz. Space vector indicator: •Voltage v ...
... of the phase voltage LIN(A, B, C) from the line-to line voltages; channel E switched into channel D for multiplexing. •Filter: Low pass active filter of the 2° order required for the recovery of the fundamental wave out of the PWM signals. Cut-off frequency: 1 kHz. Space vector indicator: •Voltage v ...
Physics 517/617 HOMEWORK V Due Nov 24
... part d) to describe how a high frequency AM signal gets demodulated (turned into high and audio frequencies) in the radio you will be building in lab. f) Again, considering the AM radio you are to build, what happens to these high frequency and audio terms, i.e. which frequency(s) are amplified and ...
... part d) to describe how a high frequency AM signal gets demodulated (turned into high and audio frequencies) in the radio you will be building in lab. f) Again, considering the AM radio you are to build, what happens to these high frequency and audio terms, i.e. which frequency(s) are amplified and ...
Physics 4700 HOMEWORK V Due Nov 2
... part d) to describe how a high frequency AM signal gets demodulated (turned into high and audio frequencies) in the radio you will be building in lab. f) Again, considering the AM radio you are to build, what happens to these high frequency and audio terms, i.e. which frequency(s) are amplified and ...
... part d) to describe how a high frequency AM signal gets demodulated (turned into high and audio frequencies) in the radio you will be building in lab. f) Again, considering the AM radio you are to build, what happens to these high frequency and audio terms, i.e. which frequency(s) are amplified and ...
Superheterodyne receiver
In electronics, a superheterodyne receiver (often shortened to superhet) uses frequency mixing to convert a received signal to a fixed intermediate frequency (IF) which can be more conveniently processed than the original radio carrier frequency. It was invented by US engineer Edwin Armstrong in 1918 during World War I. Virtually all modern radio receivers use the superheterodyne principle. At the cost of an extra frequency converter stage, the superheterodyne receiver provides superior selectivity and sensitivity compared with simpler designs.