Evaluates: MAX1832–MAX1835 MAX1833 Evaluation Kit General Description Features
... MAX1833 high-efficiency, step-up DC-DC converter for portable hand-held devices. The EV kit accepts a positive input voltage between 1.5V to VOUT and converts it to a 3.3V output for currents up to 150mA. The EV kit provides ultra-low quiescent current and high efficiency for maximum battery life. T ...
... MAX1833 high-efficiency, step-up DC-DC converter for portable hand-held devices. The EV kit accepts a positive input voltage between 1.5V to VOUT and converts it to a 3.3V output for currents up to 150mA. The EV kit provides ultra-low quiescent current and high efficiency for maximum battery life. T ...
ISL8201MEVAL1Z, ISL8204MEVAL1Z, ISL8206MEVAL1Z
... The total noise is equal to the sum of the ripple and noise components. Simple steps should be taken to assure that there is minimum pickup noise due to the high frequency events, which can be magnified by the large ground loop formed by the oscilloscope probe ground. This means that even a few inch ...
... The total noise is equal to the sum of the ripple and noise components. Simple steps should be taken to assure that there is minimum pickup noise due to the high frequency events, which can be magnified by the large ground loop formed by the oscilloscope probe ground. This means that even a few inch ...
doc
... The power loss is (5v-1.8v)*0.37 => 1.18W. This is mitigated by a resistor in series with each LDO which will dissipate 0.64W leaving the LDO with 0.54W. The LDO has a junction temperature +60 degrees per watt above ambient. With the DOW Corning foam and water cooling the junction should be at 91 de ...
... The power loss is (5v-1.8v)*0.37 => 1.18W. This is mitigated by a resistor in series with each LDO which will dissipate 0.64W leaving the LDO with 0.54W. The LDO has a junction temperature +60 degrees per watt above ambient. With the DOW Corning foam and water cooling the junction should be at 91 de ...
Principle of Troubleshooting
... Assuming C, B, and E are known on the transistor, do the following: - Connect the positive lead of your Ohm-meter to the base. - Touch the other lead of your meter to the collector. If you get a reading, the transistor is NPN. - To verify, move the lead from the collector to the emitter and you shou ...
... Assuming C, B, and E are known on the transistor, do the following: - Connect the positive lead of your Ohm-meter to the base. - Touch the other lead of your meter to the collector. If you get a reading, the transistor is NPN. - To verify, move the lead from the collector to the emitter and you shou ...
Vehicle DC/DC UPS VUPS 75 Watt Series
... All values refer to an ambient temperature of 25°C and nominal rated values where nothing else is specified ...
... All values refer to an ambient temperature of 25°C and nominal rated values where nothing else is specified ...
FDS6975 Dual P-Channel, Logic Level, PowerTrench MOSFET
... -6 A, -30 V. RDS(ON) = 0.032 Ω @ VGS = -10 V, RDS(ON) = 0.045 Ω @ VGS = -4.5 V. ...
... -6 A, -30 V. RDS(ON) = 0.032 Ω @ VGS = -10 V, RDS(ON) = 0.045 Ω @ VGS = -4.5 V. ...
IOSR Journal of Electronics and Communication Engineering (IOSR-JECE)
... software controlled power supplies. In several markets, demand is increasing for well-organized non-inverting dc/dc converters that can control the operation either in buck or boost mode, decreasing or increasing the input voltage to a desired synchronized voltage with minimum cost and component cou ...
... software controlled power supplies. In several markets, demand is increasing for well-organized non-inverting dc/dc converters that can control the operation either in buck or boost mode, decreasing or increasing the input voltage to a desired synchronized voltage with minimum cost and component cou ...
Simulation of Multi Converter Unified Power Quality Conditioner for
... and it is shows that the Power transfers between two adjacent feeders for sag, swell and interruption compensation, Compensation for interruptions without the need for a battery storage system and, consequently, without storage capacity limitation. Also the capacitor voltage is regulated and power c ...
... and it is shows that the Power transfers between two adjacent feeders for sag, swell and interruption compensation, Compensation for interruptions without the need for a battery storage system and, consequently, without storage capacity limitation. Also the capacitor voltage is regulated and power c ...
Lab3- BJT-Simulation - Department of Applied Engineering
... measure and record the values listed in the table below. (make sure to use popper units) Note: Use the random figure (Figure –x) to help with how the measurements are taken. ...
... measure and record the values listed in the table below. (make sure to use popper units) Note: Use the random figure (Figure –x) to help with how the measurements are taken. ...
PHYSICS 536 Experiment 4: DC Power Supply I. Introduction
... 4. Zener regulator The voltage from a zener regulator is given by the following expression ...
... 4. Zener regulator The voltage from a zener regulator is given by the following expression ...
PHYSICS 536 Experiment 4: DC Power Supply I. Introduction
... 4. Zener regulator The voltage from a zener regulator is given by the following expression ...
... 4. Zener regulator The voltage from a zener regulator is given by the following expression ...
AC/DC Current Probe Model SL261 Features
... current measurement capabilities using Hall effect technology. It measures from a few mA to over 100A. The “screw driver” shape, with its narrow elongated prod, was chosen to permit probing in crowded cable bundles, or measuring in tight areas such as on circuit boards, motor controllers and automot ...
... current measurement capabilities using Hall effect technology. It measures from a few mA to over 100A. The “screw driver” shape, with its narrow elongated prod, was chosen to permit probing in crowded cable bundles, or measuring in tight areas such as on circuit boards, motor controllers and automot ...
Physics 16 Laboratory
... In class we discussed how the current, charge, and potential difference across a capacitor as it charges and discharges depends on time (until equilibrium is reached). We saw that, qualitatively, the functions looked like exponential curves. In this lab, we will empirically determine the functional ...
... In class we discussed how the current, charge, and potential difference across a capacitor as it charges and discharges depends on time (until equilibrium is reached). We saw that, qualitatively, the functions looked like exponential curves. In this lab, we will empirically determine the functional ...
EKT112 - UniMAP Portal
... Voltmeter To measure voltage, the two terminals of a voltmeter should be connected to two points ...
... Voltmeter To measure voltage, the two terminals of a voltmeter should be connected to two points ...
Datasheet - Pump Centre
... Incorporation of built in components Internal electric circuits and connections Terminals for external conductors Mechanical operation ...
... Incorporation of built in components Internal electric circuits and connections Terminals for external conductors Mechanical operation ...
linear products brush motor control
... R4 = 0.1 Ω (This non-inductive resistor is used for monitoring the current. It is not required for this connection, but must be considered if there) RDS(on) = 0.1 Ω (On resistance at 3.6 A from IRF530 data sheet) ...
... R4 = 0.1 Ω (This non-inductive resistor is used for monitoring the current. It is not required for this connection, but must be considered if there) RDS(on) = 0.1 Ω (On resistance at 3.6 A from IRF530 data sheet) ...
Current source
A current source is an electronic circuit that delivers or absorbs an electric current which is independent of the voltage across it.A current source is the dual of a voltage source. The term constant-current 'sink' is sometimes used for sources fed from a negative voltage supply. Figure 1 shows the schematic symbol for an ideal current source, driving a resistor load. There are two types - an independent current source (or sink) delivers a constant current. A dependent current source delivers a current which is proportional to some other voltage or current in the circuit.