Technical Article How to Design Wideband Front Ends for GSPS Converters
... to not be 50 Ω as assumed for an ideal transformer. It is lower, as found in Equation 3. ...
... to not be 50 Ω as assumed for an ideal transformer. It is lower, as found in Equation 3. ...
Using CC2640 in External Regulator Mode
... Figure 1. Simplified CC26xx Family Power Supply Configuration In normal mode (using the internal DCDC and/or LDO), the allowed VDDS supply voltage range is from 1.8 V to 3.8 V. For low cost systems requiring little peripherals and that only have one supply voltage (within the CC2640 specifications), ...
... Figure 1. Simplified CC26xx Family Power Supply Configuration In normal mode (using the internal DCDC and/or LDO), the allowed VDDS supply voltage range is from 1.8 V to 3.8 V. For low cost systems requiring little peripherals and that only have one supply voltage (within the CC2640 specifications), ...
Chapter 1 Introduction to Electronics PPT
... around it. When the wire is coiled or looped with one or more turns the magnetic field add together and reinforce the magnetic effect. This magnetic field helps to store the electric current for a short time, even if the supply is removed. When the magnetic field around the coil collapses, the elect ...
... around it. When the wire is coiled or looped with one or more turns the magnetic field add together and reinforce the magnetic effect. This magnetic field helps to store the electric current for a short time, even if the supply is removed. When the magnetic field around the coil collapses, the elect ...
LCUK_Fully_Depleted_CMOS__08Jun_2015
... Back side biased CMOS image sensor development • Present experience with CMOS: – ESPROS: bulk 10 kΩ.cm, 50 µm thick filly depleted • We have designed a chip already • CCD sense element with rather high dark current • ESPROS has no plans to increase the thickness in the near future – TowerJazz: 1 kΩ ...
... Back side biased CMOS image sensor development • Present experience with CMOS: – ESPROS: bulk 10 kΩ.cm, 50 µm thick filly depleted • We have designed a chip already • CCD sense element with rather high dark current • ESPROS has no plans to increase the thickness in the near future – TowerJazz: 1 kΩ ...
BD95601MUV-LB
... It is recommended that 10μF bypass capacitor be used to compensate for peak current during the FET on/off transition. This is the ground pin for High-side FET. The maximum absolute rating is 30V from ground. This is the pin to drive the gate of the High-side FET. The status of the switching swings b ...
... It is recommended that 10μF bypass capacitor be used to compensate for peak current during the FET on/off transition. This is the ground pin for High-side FET. The maximum absolute rating is 30V from ground. This is the pin to drive the gate of the High-side FET. The status of the switching swings b ...
PDF
... capacitor and to maintain a constant voltage offset from ground using a circuit element to compensate for the inverter transfer function current swing. Further, AC coupled transmitters require encoding so that they don’t go to an undefined state during idle. Forward bias and reverse bias circuits ar ...
... capacitor and to maintain a constant voltage offset from ground using a circuit element to compensate for the inverter transfer function current swing. Further, AC coupled transmitters require encoding so that they don’t go to an undefined state during idle. Forward bias and reverse bias circuits ar ...
DS1090 Low-Frequency, Spread-Spectrum EconOscillator General Description
... The DS1090 is a center-dithered, spread-spectrum silicon oscillator for use as an external clock in reducedEMI applications. With a combination of factoryprogrammed prescalers and a user-selected external resistor, output frequencies from 125kHz to 8MHz can be achieved. The output center frequency c ...
... The DS1090 is a center-dithered, spread-spectrum silicon oscillator for use as an external clock in reducedEMI applications. With a combination of factoryprogrammed prescalers and a user-selected external resistor, output frequencies from 125kHz to 8MHz can be achieved. The output center frequency c ...
General Description Features
... Note 1: Limits are 100% tested at TA = +25°C. Limits over the operating temperature range and relevant supply voltage rating are guaranteed by design and characterization. Note 2: ISRC/SHDN is not connected; HV FET is driven by a 100Ω source at 250kHz with a 2.97V square wave; HVD is connected to ...
... Note 1: Limits are 100% tested at TA = +25°C. Limits over the operating temperature range and relevant supply voltage rating are guaranteed by design and characterization. Note 2: ISRC/SHDN is not connected; HV FET is driven by a 100Ω source at 250kHz with a 2.97V square wave; HVD is connected to ...
Low Voltage Electromagnetic Riveter
... device is several hundred dollars, and it is switched into a conducting mode with a simple trigger pulse. The electrolytic capacitors employed by the LVER are mass produced for electronic service. Because of this, as well as the simpler low voltage construction, electrolytic capacitors are relativel ...
... device is several hundred dollars, and it is switched into a conducting mode with a simple trigger pulse. The electrolytic capacitors employed by the LVER are mass produced for electronic service. Because of this, as well as the simpler low voltage construction, electrolytic capacitors are relativel ...
133-08AY08(circ1)
... My best choice for the model describing current is Model __________. Let's test this by building a circuit. We will measure the current flow on both sides of a light bulb, as suggested in the models above. Build the circuit shown below. You will need a switch, battery, light bulb, two current probes ...
... My best choice for the model describing current is Model __________. Let's test this by building a circuit. We will measure the current flow on both sides of a light bulb, as suggested in the models above. Build the circuit shown below. You will need a switch, battery, light bulb, two current probes ...
Semiconductor Photodetectors
... photodiode. (The two metal contacts are on the top of the device) The spacing between the interdigitated finger contacts is small (~ 1 to 5 μm)so that, the region between the fingers can be completely depleted when biased. When biased, the device represents two diodes in series, one forward biased a ...
... photodiode. (The two metal contacts are on the top of the device) The spacing between the interdigitated finger contacts is small (~ 1 to 5 μm)so that, the region between the fingers can be completely depleted when biased. When biased, the device represents two diodes in series, one forward biased a ...
FSUSB20 — Low-Power, 1-Port, High-Speed USB (480Mbps) Switch FSUSB20
... 3. Measured by the voltage drop between the A and B pins at the indicated current through the switch. On resistance is determined by the lower of the voltages on the A or B pins. 4. Flatness is defines as the difference between the maximum and the minimum value on resistance over the specified range ...
... 3. Measured by the voltage drop between the A and B pins at the indicated current through the switch. On resistance is determined by the lower of the voltages on the A or B pins. 4. Flatness is defines as the difference between the maximum and the minimum value on resistance over the specified range ...
the contribution of double-fed wind farms to transient voltage and
... reactive power support in a short time and they lack transient voltage control capability. The absence of transient reactive power and voltage control ability of large-scale double-fed wind farms brings greater risks to grid operation and is unfavourable to the safe operation of the wind farm itself ...
... reactive power support in a short time and they lack transient voltage control capability. The absence of transient reactive power and voltage control ability of large-scale double-fed wind farms brings greater risks to grid operation and is unfavourable to the safe operation of the wind farm itself ...
RF6590 POWER MANAGEMENT IC Features
... • SPI logic voltage should not exceed 1.8 volts (Output 2 supply) during operation. • Do not exceed listed currents in CLK mode, otherwise the Output voltage will fall out of regulation. • Register 0 must be restored by the controller, whenever the mode enters TRX mode. All registers should be consi ...
... • SPI logic voltage should not exceed 1.8 volts (Output 2 supply) during operation. • Do not exceed listed currents in CLK mode, otherwise the Output voltage will fall out of regulation. • Register 0 must be restored by the controller, whenever the mode enters TRX mode. All registers should be consi ...
document
... • Volt: The potential difference between two points in a circuit is measured by voltage. Voltage is measured in volts [V]. • Amp: Electrical current is produced by the flow of electrons. The unit of measurement of current [I] is amperes [or amps]. • Ohm: The higher the resistance to the flow of elec ...
... • Volt: The potential difference between two points in a circuit is measured by voltage. Voltage is measured in volts [V]. • Amp: Electrical current is produced by the flow of electrons. The unit of measurement of current [I] is amperes [or amps]. • Ohm: The higher the resistance to the flow of elec ...
Buck converter
A buck converter is a voltage step down and current step up converter.The simplest way to reduce the voltage of a DC supply is to use a linear regulator (such as a 7805), but linear regulators waste energy as they operate by dissipating excess power as heat. Buck converters, on the other hand, can be remarkably efficient (95% or higher for integrated circuits), making them useful for tasks such as converting the main voltage in a computer (12V in a desktop, 12-24V in a laptop) down to the 0.8-1.8V needed by the processor.