SPOC Front Light BTS5482SF - Application note
... To switch channels directly (e.g. in Limp Home mode), the device offers three parallel input pins. Since these pins are possible current paths in reverse battery or during negative transients on battery, series resistors are needed to ensure that the maximum ratings are not exceeded. This is also va ...
... To switch channels directly (e.g. in Limp Home mode), the device offers three parallel input pins. Since these pins are possible current paths in reverse battery or during negative transients on battery, series resistors are needed to ensure that the maximum ratings are not exceeded. This is also va ...
Small Footprint PicoGuard XS® ESD Clamp Array For High Speed Data Line Protection
... system by balancing the capacitive loading effects of the ESD diodes. At the same time, this architecture provides an impedance matched signal path for 50 W loading applications. Board designs can take advantage of precision internal component matching for improved signal integrity, which is not oth ...
... system by balancing the capacitive loading effects of the ESD diodes. At the same time, this architecture provides an impedance matched signal path for 50 W loading applications. Board designs can take advantage of precision internal component matching for improved signal integrity, which is not oth ...
lab_manual_year_1 - Cornerstone Robotics
... Challenges: o Design a voltage source where the single load resistance is 100 ohms and the current through the resistor is 50 mA. ...
... Challenges: o Design a voltage source where the single load resistance is 100 ohms and the current through the resistor is 50 mA. ...
Methods of Analysis and Selected Topics (dc)
... The circuits described in the previous chapters had only one source or two or more sources in series or parallel present. The step-by-step procedure outlined in those chapters cannot be applied if the sources are not in series or parallel. There will be an interaction of sources that will not permit ...
... The circuits described in the previous chapters had only one source or two or more sources in series or parallel present. The step-by-step procedure outlined in those chapters cannot be applied if the sources are not in series or parallel. There will be an interaction of sources that will not permit ...
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Dual, 256-Tap, Volatile, Low-Voltage Linear Taper Digital Potentiometer MAX5387 General Description Features
... Address Input 0. Connect to VDD or GND. I2C-Compatible Serial-Data Input/Output. A pullup resistor is required. ...
... Address Input 0. Connect to VDD or GND. I2C-Compatible Serial-Data Input/Output. A pullup resistor is required. ...
Amplifier Frequency Response
... characteristic (e.g., resistance, inductance) of a device. (The models in Figure 9-1 are lumped.) Lumped models can be quite complex when they are used to approximate a distributed system. For example, a wire-wound resistor could be modeled by a string of R’s and L’s in series (each RL combination m ...
... characteristic (e.g., resistance, inductance) of a device. (The models in Figure 9-1 are lumped.) Lumped models can be quite complex when they are used to approximate a distributed system. For example, a wire-wound resistor could be modeled by a string of R’s and L’s in series (each RL combination m ...
OpenStax Physics Text for 2B - Chapter 4
... More complex connections of resistors are sometimes just combinations of series and parallel. These are commonly encountered, especially when wire resistance is considered. In that case, wire resistance is in series with other resistances that are in parallel. Combinations of series and parallel can ...
... More complex connections of resistors are sometimes just combinations of series and parallel. These are commonly encountered, especially when wire resistance is considered. In that case, wire resistance is in series with other resistances that are in parallel. Combinations of series and parallel can ...
Network analysis (electrical circuits)
A network, in the context of electronics, is a collection of interconnected components. Network analysis is the process of finding the voltages across, and the currents through, every component in the network. There are many different techniques for calculating these values. However, for the most part, the applied technique assumes that the components of the network are all linear.The methods described in this article are only applicable to linear network analysis, except where explicitly stated.