Avalanche Photodiode Bias Controller and ADL5317
... Open Collector (Active Low) Logic Output. Indicates an overcurrent or overtemperature condition. APD Bias Voltage Setting Input. Short to VPLV for supply tracking mode. Low Voltage Supply, 4 V to 6 V. High Voltage Supply, 10 V to 80 V. Can be shorted to VPHV for extended linear operating range. No c ...
... Open Collector (Active Low) Logic Output. Indicates an overcurrent or overtemperature condition. APD Bias Voltage Setting Input. Short to VPLV for supply tracking mode. Low Voltage Supply, 4 V to 6 V. High Voltage Supply, 10 V to 80 V. Can be shorted to VPHV for extended linear operating range. No c ...
ZLNB2015
... is at or below 14V and high when Vpol is at or above 14.5V. The BHOR outputs give inverted versions of their related HOR outputs. The HOR/BHOR outputs are intended to activate polarisation selection circuitry within an LNB, under control of the LNB supply voltage. The ENA1/2 outputs are set high whe ...
... is at or below 14V and high when Vpol is at or above 14.5V. The BHOR outputs give inverted versions of their related HOR outputs. The HOR/BHOR outputs are intended to activate polarisation selection circuitry within an LNB, under control of the LNB supply voltage. The ENA1/2 outputs are set high whe ...
LT1512
... The LT1512 is an IC battery charger chip specifically optimized to use the SEPIC converter topology. The SEPIC topology has unique advantages for battery charging. It will operate with input voltages above, equal to or below the battery voltage, has no path for battery discharge when turned off and e ...
... The LT1512 is an IC battery charger chip specifically optimized to use the SEPIC converter topology. The SEPIC topology has unique advantages for battery charging. It will operate with input voltages above, equal to or below the battery voltage, has no path for battery discharge when turned off and e ...
Alternating Current - Sakshieducation.com
... An AC ammeter is used to measure current in a circuit. When a given direct current passes through the circuit, the AC ammeter reads 3A. When another alternating current passes through the circuit, the AC ammeter reads 4A. Then the reading of this ammeter, if DC and AC flow through the circuit simult ...
... An AC ammeter is used to measure current in a circuit. When a given direct current passes through the circuit, the AC ammeter reads 3A. When another alternating current passes through the circuit, the AC ammeter reads 4A. Then the reading of this ammeter, if DC and AC flow through the circuit simult ...
F04_OpAmps_L08
... The typical input resistance Ri of an op-amp is on the order of 100 M; a resistance that allows very little current into the input leads. The typical output resistance Ro of an op-amp is on the order of 10 . An output resistance this low means that a non-ideal op-amp can provide a substantial, alb ...
... The typical input resistance Ri of an op-amp is on the order of 100 M; a resistance that allows very little current into the input leads. The typical output resistance Ro of an op-amp is on the order of 10 . An output resistance this low means that a non-ideal op-amp can provide a substantial, alb ...
Passive Electrical Model of Silicon Photomultipliers
... capacitance, these devices have more dark noise and smaller cell pulse amplitudes, in the range of 50 to 200 J-lV. The intrinsic noise of the oscilloscope is 1 mV. The true signal amplitude for the bigger devices is obtained by dividing the data taken with the preamplifier by the preamplifier gain. ...
... capacitance, these devices have more dark noise and smaller cell pulse amplitudes, in the range of 50 to 200 J-lV. The intrinsic noise of the oscilloscope is 1 mV. The true signal amplitude for the bigger devices is obtained by dividing the data taken with the preamplifier by the preamplifier gain. ...
AN-162 LM2907 Tachometer/Speed Switch Building Block
... with signals referenced to ground. Q7, Q8, D4, and D5 comprise an active load with positive feedback. This load behaves as a bi-stable flip-flop which may be set or reset depending upon the currents supplied from Q2 and Q3. Consider the situation where Q2 and Q3 are conducting equally, i.e. the inpu ...
... with signals referenced to ground. Q7, Q8, D4, and D5 comprise an active load with positive feedback. This load behaves as a bi-stable flip-flop which may be set or reset depending upon the currents supplied from Q2 and Q3. Consider the situation where Q2 and Q3 are conducting equally, i.e. the inpu ...
LMx31x Precision Voltage-to-Frequency Converters (Rev. C)
... the current switch and the output driver transistor. When the voltage at pin 5 rises to ⅔ VCC, the timer comparator causes the R-S flip-flop to reset. The reset transistor is then turned ON and the current switch is turned OFF. However, if the input comparator still detects the voltage on pin 7 as h ...
... the current switch and the output driver transistor. When the voltage at pin 5 rises to ⅔ VCC, the timer comparator causes the R-S flip-flop to reset. The reset transistor is then turned ON and the current switch is turned OFF. However, if the input comparator still detects the voltage on pin 7 as h ...
APX4558 DUAL CHANNEL LOW NOISE GENERAL PURPOSE OPERATIONAL AMPLIFIER
... 3. All voltage values, unless otherwise noted, are with respect to the midpoint between VCC+ and VCC–. 4. Differential voltages are at IN+ with respect to IN–. 5. The magnitude of the input voltage must never exceed the magnitude of the supply voltage or 15 V, whichever is less. 6. Temperature and/o ...
... 3. All voltage values, unless otherwise noted, are with respect to the midpoint between VCC+ and VCC–. 4. Differential voltages are at IN+ with respect to IN–. 5. The magnitude of the input voltage must never exceed the magnitude of the supply voltage or 15 V, whichever is less. 6. Temperature and/o ...
Meter Accuracy
... knob knob Turnsure on clockwise Make and set the desired one turn clockwise and set the desiredConnect wires to slightly clock wise the switch Anticlockwise this voltage Remove this short max current terminals and short is off the free end ...
... knob knob Turnsure on clockwise Make and set the desired one turn clockwise and set the desiredConnect wires to slightly clock wise the switch Anticlockwise this voltage Remove this short max current terminals and short is off the free end ...
Ieee paper
... issue of using conventional IM drives in systems with constant battery source like electric vehicles is that, during high speeds motor voltage drops down thus affecting the performance of the vehicle. Power electronic boost converters can be used to solve this problem. But, the use of inductor in th ...
... issue of using conventional IM drives in systems with constant battery source like electric vehicles is that, during high speeds motor voltage drops down thus affecting the performance of the vehicle. Power electronic boost converters can be used to solve this problem. But, the use of inductor in th ...
MAX16914/MAX16915 Ideal Diode, Reverse-Battery, and Overvoltage Protection Switch/Limiter Controllers with External MOSFETs
... The MAX16914/MAX16915 low-quiescent-current overvoltage and reverse-battery protection controllers are designed for automotive and industrial systems that must tolerate high-voltage transient and fault conditions. These conditions include load dumps, voltage dips, and reversed input voltages. The co ...
... The MAX16914/MAX16915 low-quiescent-current overvoltage and reverse-battery protection controllers are designed for automotive and industrial systems that must tolerate high-voltage transient and fault conditions. These conditions include load dumps, voltage dips, and reversed input voltages. The co ...
Chapter 7 – Troubleshooting
... An IPM has various integrated protective functions (such as overcurrent protection and overheat protection) unlike a standard module. It shuts down safely in the case of an abnormal condition. However, it may breakdown depending on the abnormality of the failure that occurred. When the IPM has faile ...
... An IPM has various integrated protective functions (such as overcurrent protection and overheat protection) unlike a standard module. It shuts down safely in the case of an abnormal condition. However, it may breakdown depending on the abnormality of the failure that occurred. When the IPM has faile ...
PDF Version - Alpha Technologies Broadband
... What is a Circuit Breaker?..........................................48 What is a Fuse?..........................................................48 What is a Trip Curve?..................................................48 What is a “Main”?........................................................49 Wha ...
... What is a Circuit Breaker?..........................................48 What is a Fuse?..........................................................48 What is a Trip Curve?..................................................48 What is a “Main”?........................................................49 Wha ...
— mWSaver™ PWM Controller FAN6757 FAN 6
... 1. All voltage values, except differential voltages, are given with respect to the network ground terminal. 2. Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. 3. ESD level on the HV pin is CDM=1 kV and HBM=1 kV. ...
... 1. All voltage values, except differential voltages, are given with respect to the network ground terminal. 2. Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. 3. ESD level on the HV pin is CDM=1 kV and HBM=1 kV. ...
Surge protector
A surge protector (or surge suppressor) is an appliance/device designed to protect electrical devices from voltage spikes. A surge protector attempts to limit the voltage supplied to an electric device by either blocking or by shorting to ground any unwanted voltages above a safe threshold. This article primarily discusses specifications and components relevant to the type of protector that diverts (shorts) a voltage spike to ground; however, there is some coverage of other methods.The terms surge protection device (SPD), or transient voltage surge suppressor (TVSS), are used to describe electrical devices typically installed in power distribution panels, process control systems, communications systems, and other heavy-duty industrial systems, for the purpose of protecting against electrical surges and spikes, including those caused by lightning. Scaled-down versions of these devices are sometimes installed in residential service entrance electrical panels, to protect equipment in a household from similar hazards.Many power strips have basic surge protection built in; these are typically clearly labeled as such. However, power strips that do not provide surge protection are sometimes erroneously referred to as ""surge protectors"".