BD63872EFV
... separate the ground section and supply lines of the digital and analog blocks. Furthermore, for all power supply terminals to ICs, connect a capacitor between the power supply and the GND terminal. When applying electrolytic capacitors in the circuit, not that capacitance characteristic values are r ...
... separate the ground section and supply lines of the digital and analog blocks. Furthermore, for all power supply terminals to ICs, connect a capacitor between the power supply and the GND terminal. When applying electrolytic capacitors in the circuit, not that capacitance characteristic values are r ...
One Question — three answers, based on the person asking…
... Capacitors are one of the three most common electrical components, along with resistors and inductors. The response in an AC power system for capacitors and inductors is markedly different than DC equipment. In DC equipment, capacitors are used to stabilize voltage in power supplies and filter out r ...
... Capacitors are one of the three most common electrical components, along with resistors and inductors. The response in an AC power system for capacitors and inductors is markedly different than DC equipment. In DC equipment, capacitors are used to stabilize voltage in power supplies and filter out r ...
Tips and tricks for high-speed, high-voltage
... is RDS(on). The RDS(on) of Si FETs is known to approximately double from 25°C to 125°C. SiC devices have much less increase in RDS(on) and are specified to operate to 200°C or higher. GaN FETs also have temperature dependence, as well as an OFF-state, voltage-dependent on-resistance mechanism called ...
... is RDS(on). The RDS(on) of Si FETs is known to approximately double from 25°C to 125°C. SiC devices have much less increase in RDS(on) and are specified to operate to 200°C or higher. GaN FETs also have temperature dependence, as well as an OFF-state, voltage-dependent on-resistance mechanism called ...
Guidelines for Large Photovoltaic System Integration
... plant connection. In such cases, the PV plant should be able to ride through any normally cleared faults external to the radial line feeding the plant. This requirement would translate to the PV plant being required to ride-through a 3-phase fault (normally the most severe fault) close to the point ...
... plant connection. In such cases, the PV plant should be able to ride through any normally cleared faults external to the radial line feeding the plant. This requirement would translate to the PV plant being required to ride-through a 3-phase fault (normally the most severe fault) close to the point ...
MAX9150 Low-Jitter, 10-Port LVDS Repeater Ordering Information Typical Application Circuit
... minimizing power, space, and noise. The device accepts a single LVDS input and repeats the signal at 10 LVDS outputs. Each differential output drives a total of 50Ω, allowing point-to-point distribution of signals on transmission lines with 100Ω terminations on each end. Ultra-low 120ps (max) peak-t ...
... minimizing power, space, and noise. The device accepts a single LVDS input and repeats the signal at 10 LVDS outputs. Each differential output drives a total of 50Ω, allowing point-to-point distribution of signals on transmission lines with 100Ω terminations on each end. Ultra-low 120ps (max) peak-t ...
New PowerPoint Notes - MSU College of Engineering
... Power delivered to load = 600 mA * 1.2 V = 720 mW Power converted to heat = 600 mA * (3.7-1.2) = 1,500 mW Total power consumed = 720 mW + 1,500 mW = 2,200 mW 32% goes to work, 68% goes to heating user hand and ear when using a Linear Regulator for a mobile device VBAT = 3.7 V nom; BIN_BB = 1.2 V Loa ...
... Power delivered to load = 600 mA * 1.2 V = 720 mW Power converted to heat = 600 mA * (3.7-1.2) = 1,500 mW Total power consumed = 720 mW + 1,500 mW = 2,200 mW 32% goes to work, 68% goes to heating user hand and ear when using a Linear Regulator for a mobile device VBAT = 3.7 V nom; BIN_BB = 1.2 V Loa ...
ZXTP2014G Features Mechanical Data
... Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any c ...
... Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any c ...
LDC500 Series Current Noise
... Table 1 LDC500 and LDC501 Current Source Output Noise measurement Result Measurement result ...
... Table 1 LDC500 and LDC501 Current Source Output Noise measurement Result Measurement result ...
DS1818 3.3V EconoReset with Pushbutton FEATURES PIN ASSIGNMENT
... NOTES: 1. All voltages are referenced to ground. 2. Measured with VCC ³ 2.7V. 3. A 1 kW external pull-up resistor may be required in some applications for proper operation of the microprocessor reset control circuit. 4. Measured with RST output open. 5. Measured with 2.7V £ VCC £ 3.3V. 6. tR = 5 ms. ...
... NOTES: 1. All voltages are referenced to ground. 2. Measured with VCC ³ 2.7V. 3. A 1 kW external pull-up resistor may be required in some applications for proper operation of the microprocessor reset control circuit. 4. Measured with RST output open. 5. Measured with 2.7V £ VCC £ 3.3V. 6. tR = 5 ms. ...
Pdf
... Up to what value of RL it will remain constant will have to be very carefully looked at. If I put RL here and if I keep varying this there will always be a limit. That means there will be a minimum RL value below which I cannot reduce RL. Once that happens large current will flow through that and l ...
... Up to what value of RL it will remain constant will have to be very carefully looked at. If I put RL here and if I keep varying this there will always be a limit. That means there will be a minimum RL value below which I cannot reduce RL. Once that happens large current will flow through that and l ...
ELK-980 Instructions
... 2. Connect the security equipment using a second 8 wire cord (J1). Depending on the equipment, this cord may be identical or it may have a male plug on one end and spade terminals on the other end. (PHONE CORDS ARE NOT SUPPLIED) 3. Connect two (2) wires from the ELK-980 to 12 Volts D.C. To power fro ...
... 2. Connect the security equipment using a second 8 wire cord (J1). Depending on the equipment, this cord may be identical or it may have a male plug on one end and spade terminals on the other end. (PHONE CORDS ARE NOT SUPPLIED) 3. Connect two (2) wires from the ELK-980 to 12 Volts D.C. To power fro ...
ADP2102 - Analog Devices
... Analog Ground. Connect AGND to PGND at a single point as close to the ADP2102 as possible. The exposed pad is electrically common with the analog ground pin. Power Ground. Switch Output. LX is the drain of the P-channel MOSFET switch and the N-channel synchronous rectifier. Connect the output LC fil ...
... Analog Ground. Connect AGND to PGND at a single point as close to the ADP2102 as possible. The exposed pad is electrically common with the analog ground pin. Power Ground. Switch Output. LX is the drain of the P-channel MOSFET switch and the N-channel synchronous rectifier. Connect the output LC fil ...
VISHAY TCLT1 datasheet
... optically coupled to a gallium arsenide infraredemitting diode in a 4-lead SO6L package. The elements are mounted on one leadframe using a coplanar technique, providing a fixed distance between input and output for highest safety requirements. ...
... optically coupled to a gallium arsenide infraredemitting diode in a 4-lead SO6L package. The elements are mounted on one leadframe using a coplanar technique, providing a fixed distance between input and output for highest safety requirements. ...
The Benefits of Low-Voltage DC Power Distribution for LED Lighting
... 3. The optimal methodology realizes that energy saving potential, reliability, and dimming performance of a SSL system is directly related to the power conversion and dimming/control design. The technology solution illustrated is an integrated “3 in 1” Trinity platform that combines the blocks of a ...
... 3. The optimal methodology realizes that energy saving potential, reliability, and dimming performance of a SSL system is directly related to the power conversion and dimming/control design. The technology solution illustrated is an integrated “3 in 1” Trinity platform that combines the blocks of a ...
DS1090 Low-Frequency, Spread-Spectrum EconOscillator General Description
... Spread-spectrum functionality is achieved by a userconfigurable divider (determines dither rate), a triangle generator, and a user-configurable dither amplitude circuit (see Block Diagram). The input to the triangle-wave generator is derived from the internal master oscillator and is fed through a u ...
... Spread-spectrum functionality is achieved by a userconfigurable divider (determines dither rate), a triangle generator, and a user-configurable dither amplitude circuit (see Block Diagram). The input to the triangle-wave generator is derived from the internal master oscillator and is fed through a u ...
PT100- / PT1000 Temperature Controller UM1 PT100
... for at least 5 seconds. With buttons it is possible to navigate through the different directory trees, during this process the currently active value is displayed. To change a parameter push button in the corresponding menu. Now with buttons the desired value can be changed. If one of the buttons ar ...
... for at least 5 seconds. With buttons it is possible to navigate through the different directory trees, during this process the currently active value is displayed. To change a parameter push button in the corresponding menu. Now with buttons the desired value can be changed. If one of the buttons ar ...
Rectifier
A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The process is known as rectification. Physically, rectifiers take a number of forms, including vacuum tube diodes, mercury-arc valves, copper and selenium oxide rectifiers, semiconductor diodes, silicon-controlled rectifiers and other silicon-based semiconductor switches. Historically, even synchronous electromechanical switches and motors have been used. Early radio receivers, called crystal radios, used a ""cat's whisker"" of fine wire pressing on a crystal of galena (lead sulfide) to serve as a point-contact rectifier or ""crystal detector"".Rectifiers have many uses, but are often found serving as components of DC power supplies and high-voltage direct current power transmission systems. Rectification may serve in roles other than to generate direct current for use as a source of power. As noted, detectors of radio signals serve as rectifiers. In gas heating systems flame rectification is used to detect presence of a flame.Because of the alternating nature of the input AC sine wave, the process of rectification alone produces a DC current that, though unidirectional, consists of pulses of current. Many applications of rectifiers, such as power supplies for radio, television and computer equipment, require a steady constant DC current (as would be produced by a battery). In these applications the output of the rectifier is smoothed by an electronic filter (usually a capacitor) to produce a steady current.More complex circuitry that performs the opposite function, converting DC to AC, is called an inverter.