Installation - Everbrite Lighting
... 5.0 Installation ............................................................................................................................................... 7 5.1 MedLux® XLS Fixtures................................................................................................................. ...
... 5.0 Installation ............................................................................................................................................... 7 5.1 MedLux® XLS Fixtures................................................................................................................. ...
LTC6990 - TimerBlox: Voltage Controlled Silicon Oscillator
... V+ (Pin 1/Pin 5): Supply Voltage (2.25V to 5.5V). This supply must be kept free from noise and ripple. It should be bypassed directly to the GND pin with a 0.1µF capacitor. DIV (Pin 2/Pin 4): Programmable Divider and Hi-Z Mode Input. A V+ referenced A/D converter monitors the DIV pin voltage (VDIV) ...
... V+ (Pin 1/Pin 5): Supply Voltage (2.25V to 5.5V). This supply must be kept free from noise and ripple. It should be bypassed directly to the GND pin with a 0.1µF capacitor. DIV (Pin 2/Pin 4): Programmable Divider and Hi-Z Mode Input. A V+ referenced A/D converter monitors the DIV pin voltage (VDIV) ...
RF2054 - Qorvo
... has 128 overlapping bands to achieve an acceptable VCO gain (MHz/V) and hence a good phase noise performance across the whole tuning range. The chip automatically selects the correct VCO band (VCO coarse tuning) to generate the desired frequency based on the values programmed into the PLL1 and PLL2 ...
... has 128 overlapping bands to achieve an acceptable VCO gain (MHz/V) and hence a good phase noise performance across the whole tuning range. The chip automatically selects the correct VCO band (VCO coarse tuning) to generate the desired frequency based on the values programmed into the PLL1 and PLL2 ...
Voltage-Controlled Oscillators and Frequency Dividers
... higher phase noise. Figure 5.5(b) incorporates PMOS devices, but the oscillation frequency (or tuning range) degrades due to the extra parasitic capacitance. Note that the tail current plays important role here, because it defines the bias current (and hence the output amplitude if the inductor Q is ...
... higher phase noise. Figure 5.5(b) incorporates PMOS devices, but the oscillation frequency (or tuning range) degrades due to the extra parasitic capacitance. Note that the tail current plays important role here, because it defines the bias current (and hence the output amplitude if the inductor Q is ...
MAX2059 - Maxim Integrated
... and typical output IP3 and output P1dB levels of +31.8dBm and +18.4dBm, respectively. The device is ideal for a variety of applications, including single and multicarrier 1700MHz to 2200MHz DCS 1800/PCS 1900 EDGE, cdma2000®, WCDMA/UMTS, and TD-SCDMA base stations. The MAX2059 yields a high level of ...
... and typical output IP3 and output P1dB levels of +31.8dBm and +18.4dBm, respectively. The device is ideal for a variety of applications, including single and multicarrier 1700MHz to 2200MHz DCS 1800/PCS 1900 EDGE, cdma2000®, WCDMA/UMTS, and TD-SCDMA base stations. The MAX2059 yields a high level of ...
Ringing artifacts
In signal processing, particularly digital image processing, ringing artifacts are artifacts that appear as spurious signals near sharp transitions in a signal. Visually, they appear as bands or ""ghosts"" near edges; audibly, they appear as ""echos"" near transients, particularly sounds from percussion instruments; most noticeable are the pre-echos. The term ""ringing"" is because the output signal oscillates at a fading rate around a sharp transition in the input, similar to a bell after being struck. As with other artifacts, their minimization is a criterion in filter design.