MAX8875 150mA, Low-Dropout Linear Regulator with Power-OK Output General Description
... The MAX8875 low-dropout linear regulator operates from a +2.5V to +6.5V input range and delivers up to 150mA. A P-channel MOSFET pass transistor allows its 85µA supply current to remain independent of the load, making this device ideal for battery-operated portable equipment such as PCS phones, cell ...
... The MAX8875 low-dropout linear regulator operates from a +2.5V to +6.5V input range and delivers up to 150mA. A P-channel MOSFET pass transistor allows its 85µA supply current to remain independent of the load, making this device ideal for battery-operated portable equipment such as PCS phones, cell ...
Operation Manual – April 2012
... sequencer before connecting the Sync-Step. Since the early development of electronic musical instruments there have been many different voltage standards between manufacturers. 5 Volts DC is very common in more recent times but some early analogue devices used 15 Volts DC to trigger EGs and VCAs. Th ...
... sequencer before connecting the Sync-Step. Since the early development of electronic musical instruments there have been many different voltage standards between manufacturers. 5 Volts DC is very common in more recent times but some early analogue devices used 15 Volts DC to trigger EGs and VCAs. Th ...
LP-18BC Desk Top Power Supply Owners Guide
... The LP-18BC desktop power supply is UL & cUL recognized and manufactured to ISO 9001 quality assurance standards. These power supplies convert AC or DC input into regulated 13.8volt DC output with low noise and ripple. The LP-18BC has a built in battery back up and charging circuit with diode isolat ...
... The LP-18BC desktop power supply is UL & cUL recognized and manufactured to ISO 9001 quality assurance standards. These power supplies convert AC or DC input into regulated 13.8volt DC output with low noise and ripple. The LP-18BC has a built in battery back up and charging circuit with diode isolat ...
O044057984
... The operating principles for modes 4–6, are also similar to modes1–3. .During the mode 4[t3 –t4]: The switches of Q2 and Q4 are turned ON with ZVS and the difference between iLr (t) and iLm(t) is transferred to the output stage. During the mode 5[t4 –t5 ]: D2 is turned OFF with zero current switchin ...
... The operating principles for modes 4–6, are also similar to modes1–3. .During the mode 4[t3 –t4]: The switches of Q2 and Q4 are turned ON with ZVS and the difference between iLr (t) and iLm(t) is transferred to the output stage. During the mode 5[t4 –t5 ]: D2 is turned OFF with zero current switchin ...
OTB1C0DM9LP - Schneider Electric
... 244 with HE10 connector discrete I/O module(s) 7 x 8I or 7 x 2I or 7 x (4I/2O) with screw terminal analogue I/O module(s) ...
... 244 with HE10 connector discrete I/O module(s) 7 x 8I or 7 x 2I or 7 x (4I/2O) with screw terminal analogue I/O module(s) ...
tip42 series(tip42/42a/42b/42c)
... This datasheet contains specifications on a product that has been discontinued by Fairchild semiconductor. The datasheet is printed for reference information only. ...
... This datasheet contains specifications on a product that has been discontinued by Fairchild semiconductor. The datasheet is printed for reference information only. ...
R225-01-1
... displacement between the regulator current and voltage. The vector diagram in Figure 1 shows an example of this phase displacement. Depending on the phase rotation, one regulator’s current lags the voltage while the second regulator’s current leads the voltage. An unbalanced neutral shift occurs as ...
... displacement between the regulator current and voltage. The vector diagram in Figure 1 shows an example of this phase displacement. Depending on the phase rotation, one regulator’s current lags the voltage while the second regulator’s current leads the voltage. An unbalanced neutral shift occurs as ...
PSpice - Time Domain Analysis
... varying inputs. “Time Domain (Transient)” analysis using PSpice simulates the response of a circuit to a time varying input. Time domain analysis is most interesting for circuits that contain capacitors or inductors. For the capacitor, the part properties of interest are the capacitance and the init ...
... varying inputs. “Time Domain (Transient)” analysis using PSpice simulates the response of a circuit to a time varying input. Time domain analysis is most interesting for circuits that contain capacitors or inductors. For the capacitor, the part properties of interest are the capacitance and the init ...
RF5622 3.0V TO 3.6V, 2.4GHz TO 2.5GHz LINEAR POWER AMPLIFIER Features
... copied from the RF5622 evaluation board. Gerber files of RFMD PCBA designs can be provided on request. The RF5622 is a very easy part to implement, but care in circuit layout and component selection is always advisable when designing circuits to operate at 2.5GHz. The RF5622 evaluation board layout ...
... copied from the RF5622 evaluation board. Gerber files of RFMD PCBA designs can be provided on request. The RF5622 is a very easy part to implement, but care in circuit layout and component selection is always advisable when designing circuits to operate at 2.5GHz. The RF5622 evaluation board layout ...
Optimisation of kilovoltage according to patient size and contrast
... voltage settings. Thus, lower net attenuation and maximal benefit from the iodine k-edge absorption is simultaneously achieved. • However, higher tube voltages are typically required when larger patients are scanned, especially without contrast enhancement. ...
... voltage settings. Thus, lower net attenuation and maximal benefit from the iodine k-edge absorption is simultaneously achieved. • However, higher tube voltages are typically required when larger patients are scanned, especially without contrast enhancement. ...
ece2201_lab4
... you need to measure the on resistance rDS between the drain and source terminals, but also the applied gate-source voltage vGS. ADDITIONAL NOTE: For this part, it’s very important to leave the DVM on the 20V/20kΩ range throughout. Changing the resistance range changes the current the DVM uses to mea ...
... you need to measure the on resistance rDS between the drain and source terminals, but also the applied gate-source voltage vGS. ADDITIONAL NOTE: For this part, it’s very important to leave the DVM on the 20V/20kΩ range throughout. Changing the resistance range changes the current the DVM uses to mea ...
TL7660 CMOS VOLTAGE CONVERTER
... eliminate output voltage ripple but also to employ a correspondingly large value for C1 in order to achieve maximum efficiency of operation. Do's and Don'ts • Do not exceed maximum supply voltages. • Do not connect LV terminal to GND for supply voltages greater than 3.5 V. • Do not short circuit the ...
... eliminate output voltage ripple but also to employ a correspondingly large value for C1 in order to achieve maximum efficiency of operation. Do's and Don'ts • Do not exceed maximum supply voltages. • Do not connect LV terminal to GND for supply voltages greater than 3.5 V. • Do not short circuit the ...
Voltage regulator
A voltage regulator is designed to automatically maintain a constant voltage level. A voltage regulator may be a simple ""feed-forward"" design or may include negative feedback control loops. It may use an electromechanical mechanism, or electronic components. Depending on the design, it may be used to regulate one or more AC or DC voltages.Electronic voltage regulators are found in devices such as computer power supplies where they stabilize the DC voltages used by the processor and other elements. In automobile alternators and central power station generator plants, voltage regulators control the output of the plant. In an electric power distribution system, voltage regulators may be installed at a substation or along distribution lines so that all customers receive steady voltage independent of how much power is drawn from the line.