No. 3| EURAMET Technical Guide |Use of GPS Disciplined Oscillators
... the instability of the output signals from a GPSDO. It is good practice when possible to configure the receiver so that once the antenna coordinates have been determined, they are stored and not updated further. This mode is often referred to by a term such as ‘manual coordinate entry’ or ‘position ...
... the instability of the output signals from a GPSDO. It is good practice when possible to configure the receiver so that once the antenna coordinates have been determined, they are stored and not updated further. This mode is often referred to by a term such as ‘manual coordinate entry’ or ‘position ...
Document
... meter, etc to get maximum power. 3. Move the carriage probe in the slotted section in particular direction until there is a minimum deflection in the indicating meter is obtained note this distance as d1. 4. Once again move the carriage probe from its position d1 in particular direction in order to ...
... meter, etc to get maximum power. 3. Move the carriage probe in the slotted section in particular direction until there is a minimum deflection in the indicating meter is obtained note this distance as d1. 4. Once again move the carriage probe from its position d1 in particular direction in order to ...
X3.60+3.71 MANUAL
... This control allows you to vary the amplifier's input sensitivity between 0.5 (500 millivolts) and 10 volts. Clockwise (right-side) rotation raises the threshold and lowers the sensitivity, requiring higher input signal voltage from the source, in order to obtain maximum output. Counterclockwise (le ...
... This control allows you to vary the amplifier's input sensitivity between 0.5 (500 millivolts) and 10 volts. Clockwise (right-side) rotation raises the threshold and lowers the sensitivity, requiring higher input signal voltage from the source, in order to obtain maximum output. Counterclockwise (le ...
Chapter 5
... The ability to shift the frequency range of a signal using modulation allows us to make more effective use of the bandwidth of communication channels Many forms of multiplexing are used including: – frequency-division multiplexing ...
... The ability to shift the frequency range of a signal using modulation allows us to make more effective use of the bandwidth of communication channels Many forms of multiplexing are used including: – frequency-division multiplexing ...
DC to 2.0 GHz Multiplier ADL5391
... frequency, making it difficult to match over a broad frequency range (see Figure 15 and Figure 16). The evaluation board is matched for lower frequency operation, and the impedance change at higher frequencies causes the change in gain seen in Figure 6. If desired, the user of the ADL5391 can design ...
... frequency, making it difficult to match over a broad frequency range (see Figure 15 and Figure 16). The evaluation board is matched for lower frequency operation, and the impedance change at higher frequencies causes the change in gain seen in Figure 6. If desired, the user of the ADL5391 can design ...
ADA4858-3
... the need for negative supplies in order to output negative voltages or output a 0 V level for video applications. The 600 MHz −3 dB bandwidth and 600 V/μs slew rate make this amplifier well suited for many high speed applications. In addition, its 0.1 dB flatness out to 85 MHz at G = 2, along with i ...
... the need for negative supplies in order to output negative voltages or output a 0 V level for video applications. The 600 MHz −3 dB bandwidth and 600 V/μs slew rate make this amplifier well suited for many high speed applications. In addition, its 0.1 dB flatness out to 85 MHz at G = 2, along with i ...
New CMOS Realization of Voltage Differencing Buffered Amplifier
... voltage signal for the employed AP filters. The second proposed biquad filter employs two VDBAs, two capacitors and a resistor and realizes the all filter functions without the use of inverting input terminals. Furthermore, quality factor can be adjusted with resistor as independent natural frequenc ...
... voltage signal for the employed AP filters. The second proposed biquad filter employs two VDBAs, two capacitors and a resistor and realizes the all filter functions without the use of inverting input terminals. Furthermore, quality factor can be adjusted with resistor as independent natural frequenc ...
AD537
... 100 mV to 10 volts (or greater, depending on +VS) can be accommodated by proper selection of timing resistor. The full-scale frequency is then set by the timing capacitor from the simple relationship, f = V/10RC. 2. The power supply requirements are minimal, only 1.2 mA quiescent current is drawn fr ...
... 100 mV to 10 volts (or greater, depending on +VS) can be accommodated by proper selection of timing resistor. The full-scale frequency is then set by the timing capacitor from the simple relationship, f = V/10RC. 2. The power supply requirements are minimal, only 1.2 mA quiescent current is drawn fr ...
ADL5391 DC to 2.0 GHz Multiplier Data Sheet (Rev. 0)
... transformations (or differential-to-single-ended transformations) can be done using a balun or active components, such as the AD8313, the AD8132 (both with operation down to dc), or the AD8352 (for higher drive capability). If using the ADL5391 single-ended without ac coupling capacitors, the refere ...
... transformations (or differential-to-single-ended transformations) can be done using a balun or active components, such as the AD8313, the AD8132 (both with operation down to dc), or the AD8352 (for higher drive capability). If using the ADL5391 single-ended without ac coupling capacitors, the refere ...
pat2505254_mesner.pdf
... and ground, aiid also the magnitude of resistance between the grid circuit of tube 1 1 and ground. 5 vJith condenser 17. For the higher audio frequencies the impedance of condenser C T plus the The plate circuit of tube 1 t i s completed in the resistance in series therewith becomes low encugh usual ...
... and ground, aiid also the magnitude of resistance between the grid circuit of tube 1 1 and ground. 5 vJith condenser 17. For the higher audio frequencies the impedance of condenser C T plus the The plate circuit of tube 1 t i s completed in the resistance in series therewith becomes low encugh usual ...
SILTRONIX - 1011B User manual
... operational area (fixed or mobile); connection of power (either 117 volts AC, or 12 volts DC); and the connection of an antenna. The following paragraphs are therefore devoted to the installation requirements involving micro. phones, fIXed and mobile operation, and recommended antenna types. Before ...
... operational area (fixed or mobile); connection of power (either 117 volts AC, or 12 volts DC); and the connection of an antenna. The following paragraphs are therefore devoted to the installation requirements involving micro. phones, fIXed and mobile operation, and recommended antenna types. Before ...
LABORATORY 6 FREQUENCY RESPONSE OF A JFET AMPLIFIER
... In this lab, two JFET amplifier configurations will be investigated: the common source (CS) and common drain (CD) amplifiers. Both amplifiers use a self-biasing scheme and have a relatively linear output. 1 JFET Transistor Characteristics The JFET transistor is a three-terminal device. The terminals ...
... In this lab, two JFET amplifier configurations will be investigated: the common source (CS) and common drain (CD) amplifiers. Both amplifiers use a self-biasing scheme and have a relatively linear output. 1 JFET Transistor Characteristics The JFET transistor is a three-terminal device. The terminals ...
C) Votage controll oscillator
... voltage-controlled oscillator (VCO), the phase frequency detector (PFD) and the input reference signal. In general, the phase noise of the VCO to the output of the PLL is a high-pass response, while the PFD and reference to the output are a low-pass response. To achieve a low-jitter low-phase-noise ...
... voltage-controlled oscillator (VCO), the phase frequency detector (PFD) and the input reference signal. In general, the phase noise of the VCO to the output of the PLL is a high-pass response, while the PFD and reference to the output are a low-pass response. To achieve a low-jitter low-phase-noise ...
ADA4410-6 数据手册DataSheet 下载
... quiescent power dissipation and the power dissipated in the package due to the load drive for all outputs. The quiescent power is the voltage between the supply pins (VS) times the quiescent current (IS). The power dissipated due to load drive depends upon the particular application. For each output ...
... quiescent power dissipation and the power dissipated in the package due to the load drive for all outputs. The quiescent power is the voltage between the supply pins (VS) times the quiescent current (IS). The power dissipated due to load drive depends upon the particular application. For each output ...
Swept Sine Chirps for Measuring Impulse Response
... frequencies. A sine signal is generated at one frequency, the response is measured at that frequency, and then the signal is changed to another frequency. Such measurements have very high signal-to-noise ratios because all the energy of the signal at any point in time is concentrated at one frequenc ...
... frequencies. A sine signal is generated at one frequency, the response is measured at that frequency, and then the signal is changed to another frequency. Such measurements have very high signal-to-noise ratios because all the energy of the signal at any point in time is concentrated at one frequenc ...
PDF Data Sheet Rev. 0
... 21 dBm output IP3, and 14 dBm of output power for1 dB gain compression. The ADL7003 requires 120 mA from a 3 V supply. The ADL7003 amplifier inputs/outputs are internally matched to 50 Ω, facilitating integration into multichip modules (MCMs). All data is taken with the chip connected via one 0.076 ...
... 21 dBm output IP3, and 14 dBm of output power for1 dB gain compression. The ADL7003 requires 120 mA from a 3 V supply. The ADL7003 amplifier inputs/outputs are internally matched to 50 Ω, facilitating integration into multichip modules (MCMs). All data is taken with the chip connected via one 0.076 ...
Chapter 5 Frequency Domain Analysis of Systems
... Phase Function • Filters are usually designed based on specifications on the magnitude response | H ( ) | • The phase response arg H ( ) has to be taken into account too in order to prevent signal distortion as the signal goes through the system • If the filter has linear phase in its passband(s) ...
... Phase Function • Filters are usually designed based on specifications on the magnitude response | H ( ) | • The phase response arg H ( ) has to be taken into account too in order to prevent signal distortion as the signal goes through the system • If the filter has linear phase in its passband(s) ...
analog multiplier
... frequency, making it difficult to match over a broad frequency range (see Figure 15 and Figure 16). The evaluation board is matched for lower frequency operation, and the impedance change at higher frequencies causes the change in gain seen in Figure 6. If desired, the user of the ADL5391 can design ...
... frequency, making it difficult to match over a broad frequency range (see Figure 15 and Figure 16). The evaluation board is matched for lower frequency operation, and the impedance change at higher frequencies causes the change in gain seen in Figure 6. If desired, the user of the ADL5391 can design ...
Features •
... 1. Measured and guaranteed only on the Atmel® evaluation board, including microstrip filter, balun, and Smart Radio Frequency (Smart RF) firmware. Conducted measured. 2. Timing is determined by external loop filter characteristics. Faster timing can be achieved by modification of the loop filter. Fo ...
... 1. Measured and guaranteed only on the Atmel® evaluation board, including microstrip filter, balun, and Smart Radio Frequency (Smart RF) firmware. Conducted measured. 2. Timing is determined by external loop filter characteristics. Faster timing can be achieved by modification of the loop filter. Fo ...
ADL5369 - Analog Devices
... leakage, typically better than −25 dBm, and excellent intermodulation performance. The balanced mixer core also provides extremely high input linearity, allowing the device to be used in demanding cellular applications where in-band blocking signals may otherwise result in the degradation of dynamic ...
... leakage, typically better than −25 dBm, and excellent intermodulation performance. The balanced mixer core also provides extremely high input linearity, allowing the device to be used in demanding cellular applications where in-band blocking signals may otherwise result in the degradation of dynamic ...
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.