+3V to +5V, 2500V Isolated RS-485/RS-422 Transceivers with ±15kV ESD Protection RMS
... when the common-mode voltages (i.e., the ground potentials) on either side of the barrier are subject to large differences. Isolation is achieved through integrated high-voltage capacitors. The MAX3535E/MXL1535E also feature a 420kHz transformer driver that allows power transfer to the RS-485 side u ...
... when the common-mode voltages (i.e., the ground potentials) on either side of the barrier are subject to large differences. Isolation is achieved through integrated high-voltage capacitors. The MAX3535E/MXL1535E also feature a 420kHz transformer driver that allows power transfer to the RS-485 side u ...
ISL28233IUZ
... continuous main amplifier whose input DC offset is corrected by a parallel-connected, high gain chopper stabilized DC correction amplifier operating at 100kHz. From DC to ~5kHz, both amplifiers are active with DC offset correction and most of the low frequency gain is provided by the chopper amplifi ...
... continuous main amplifier whose input DC offset is corrected by a parallel-connected, high gain chopper stabilized DC correction amplifier operating at 100kHz. From DC to ~5kHz, both amplifiers are active with DC offset correction and most of the low frequency gain is provided by the chopper amplifi ...
CAPACITORS: are any physical objects that can store charge. I
... When we say a capacitor has "charge Q", we mean +Q on one plate, and -Q on the other, like in the picture here. (Of course, the net charge is really zero, but we still say it’s “charged” up!) These two plates have a voltage difference between them. (It takes WORK to move a little test charge from on ...
... When we say a capacitor has "charge Q", we mean +Q on one plate, and -Q on the other, like in the picture here. (Of course, the net charge is really zero, but we still say it’s “charged” up!) These two plates have a voltage difference between them. (It takes WORK to move a little test charge from on ...
GOLDMUND MIMESIS 18.4 POWER AMPLIFIER
... On the front panel of the GOLDMUND MIMESIS 18.4 amplifier you will find only the power key and 3 Led. To start playing the amplifier, switch the key to ON. The amplifier is immediately operative, without delay and the central green Led indicates it is operating normally. The Mimesis 18.4 is using a ...
... On the front panel of the GOLDMUND MIMESIS 18.4 amplifier you will find only the power key and 3 Led. To start playing the amplifier, switch the key to ON. The amplifier is immediately operative, without delay and the central green Led indicates it is operating normally. The Mimesis 18.4 is using a ...
1.8V to 28V Input, PWM Step-Up Controllers in µMAX General Description Features
... 200mV (300mV max at 12mA), so that when VCC is less than 5.2V, LDO is typically VCC - 200mV. When LDO is in dropout, the MAX668/MAX669 still operate with VCC as low as 3V (as long as LDO exceeds 2.7V), but with reduced amplitude FET drive at EXT. The maximum VCC input voltage is 28V. LDO can supply ...
... 200mV (300mV max at 12mA), so that when VCC is less than 5.2V, LDO is typically VCC - 200mV. When LDO is in dropout, the MAX668/MAX669 still operate with VCC as low as 3V (as long as LDO exceeds 2.7V), but with reduced amplitude FET drive at EXT. The maximum VCC input voltage is 28V. LDO can supply ...
RapidLED BioCube 14 Retrofit
... should be set to full brightness. The multimeter should be wired into your LED string exactly the same as an LED, + to -, in fact, if you just pretend it is an LED, you will have no problem measuring current. If you wire the multimeter in backwards, it will still work, but your measurements will be ...
... should be set to full brightness. The multimeter should be wired into your LED string exactly the same as an LED, + to -, in fact, if you just pretend it is an LED, you will have no problem measuring current. If you wire the multimeter in backwards, it will still work, but your measurements will be ...
350-mA, 6-MHz HIGH-EFFICIENCY STEP
... Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied. Exposure to absolu ...
... Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied. Exposure to absolu ...
LAB MANUAL “Transient Current Technique – A Dynamic
... semiconductor silicon detectors because of various advantages over liquid and gaseous detectors. The energy required for the generation of electron hole pairs is comparatively smaller. These have high density of atoms and therefore are compact. They have a smaller size and can be carried easily from ...
... semiconductor silicon detectors because of various advantages over liquid and gaseous detectors. The energy required for the generation of electron hole pairs is comparatively smaller. These have high density of atoms and therefore are compact. They have a smaller size and can be carried easily from ...
Electricity Project Rubric
... Procedure: determine the electricity consumption of any 5 devices in your House. Typical examples of devices are given, but you can choose anything in your house. Find the voltage, resistance, current and power being used by the device hair dryer clock radio microwave toaster washer power tools comp ...
... Procedure: determine the electricity consumption of any 5 devices in your House. Typical examples of devices are given, but you can choose anything in your house. Find the voltage, resistance, current and power being used by the device hair dryer clock radio microwave toaster washer power tools comp ...
Magnet - Ms. Gamm
... drawing, the battery is rotated so that current flows in the clockwise. The compass needle points in the opposite direction. The French physicist, Andre-Marie Ampere (1775 - 1836) set up two parallel wires. One of them was free to move sideways, back and forth. When both of the wires carried curren ...
... drawing, the battery is rotated so that current flows in the clockwise. The compass needle points in the opposite direction. The French physicist, Andre-Marie Ampere (1775 - 1836) set up two parallel wires. One of them was free to move sideways, back and forth. When both of the wires carried curren ...
DA9063 unused pin configuration
... converters, low dropout linear regulators, GPIOs and ADC channels. In addition, it allows options for controlling the start-up and shutdown sequences, configurable feedback paths, remote sensing and such like. In the application, some of these functions may not be required and – to minimise any pote ...
... converters, low dropout linear regulators, GPIOs and ADC channels. In addition, it allows options for controlling the start-up and shutdown sequences, configurable feedback paths, remote sensing and such like. In the application, some of these functions may not be required and – to minimise any pote ...
P84403
... CAUTION: Check the installation instructions of the manufacturers of other equipment used in the system for any guidelines or restrictions on wiring and/or locating Notification Appliance Circuits (NAC) and notification appliances. Some system communication circuits and/or audio circuits, for examp ...
... CAUTION: Check the installation instructions of the manufacturers of other equipment used in the system for any guidelines or restrictions on wiring and/or locating Notification Appliance Circuits (NAC) and notification appliances. Some system communication circuits and/or audio circuits, for examp ...
Alternating current
Alternating current (AC), is an electric current in which the flow of electric charge periodically reverses direction, whereas in direct current (DC, also dc), the flow of electric charge is only in one direction. The abbreviations AC and DC are often used to mean simply alternating and direct, as when they modify current or voltage.AC is the form in which electric power is delivered to businesses and residences. The usual waveform of alternating current in most electric power circuits is a sine wave. In certain applications, different waveforms are used, such as triangular or square waves. Audio and radio signals carried on electrical wires are also examples of alternating current. These types of alternating current carry information encoded (or modulated) onto the AC signal, such as sound (audio) or images (video).