Drivers_ the critical interface between a circuit and its load _ electronics360

“Driver” is one of many engineering terms that can have various unrelated definitions (“buffer” is another one). Bp gas prices akron ohio For programmers, it is usually a software module that enables the operating system to communicate with a peripheral device, such as a printer.

But for electronic systems and circuitry, a driver is a circuit that has specialized features and capabilities that allow it to be the physical interface between a source circuit—usually a low-voltage, low-current circuit—and a load that has specific, unique characteristics that must be met, in order to get the signal source to impose its “will” on the load, and without negative consequences.

• must not be damaged by failures at the load, such as short-circuit to high voltage or ground, or by normal “pushback” from the load, such as inductive kick

To accomplish these things, driver circuits use a variety of design configurations and techniques. Austin electricity outage Drivers are characterized in two ways: (1) by their architecture, such as an open-collector driver, push-pull driver or isolated driver (to name a few); or (2) by their function, such as a relay driver, line driver, video driver, piezoelectric driver or MOSFET driver. Electricity merit badge pamphlet It can get confusing when the different terms are actually referring to the same function, but it is something that engineers just learn to accept. Gaz 67 for sale There are also drivers for interfacing signals of one technology with another, such as CMOS/TTL drivers.

A driver can be part of the component (usually an IC) that is supplying the signal which must reach the load. Gas delivery Alternatively it may be a separate, discrete component or IC that can supply the voltage and current which the source IC cannot deliver due to its process and design limitations. Electricity khan academy Also note that even if the driver is handling digital signals rather than analog ones, a driver is inherently an analog function, with all the issues that analog circuits deal with: a “digital” driver is really an analog driver that is optimized for performance in the on or off state, and not in the transition zone between them. A level physics electricity notes Despite the prevalence of digital signals, many real-world applications naturally need analog drivers, such as for providing audio signals to a loudspeaker. Electricity vocabulary Start with the open-collector driver

The simplest is the open-collector topology (here, the resistor represents the load); although it can only sink current, it is an often-used driver. Gas engine tom Image source: National Instruments Corp. Gas giants The simplest driver topology is the open-collector driver, Figure 1a. Gas national average 2013 Here the load is connected between the power rail and the transistor’s collector. Nyc electricity consumption When the transistor is off, no current flows through the load; when it is turned on, current flows from the rail, through the load, through the transistor, and finally to ground. Gas engineer salary The key driver parameters are that the transistor can handle the voltage and current going through the load, which may be a light bulb, LED or even another circuit’s input.

If the load is inductive, a snubber (commutating) diode is usually needed to provide a return path for the high-current or voltage “kick” that occurs when the load is suddenly switched off. Electricity billy elliot Image source: Coilgun Systems In many situations, though, the load is not simply resistive, but has a large inductive aspect; relays and motor coils are good examples. Gas number density This causes problems for the simple driver, because when the load is switched off, the collapsing magnetic field creates a large reverse-voltage transient, which may damage the transistor. E payment electricity bill bangalore To overcome this, a driver for inductive loads may add a snubber or commutating diode to limit the transient “kick,” Figure 1b.

If the driver needs to both source and sink current, one approach is a push-pull circuit; this one uses a single supply, but other versions that use a bipolar supply are widely used. Electricity worksheets high school Image source: National Instruments Corp. Wd gaster theory Note that the open-collector topology can only sink current, with current going from the supply rail to ground. Gas 93 If the load needs current sourcing as well as sinking, a push-pull driver can be used, Figure 2. Gas variables pogil key Here a complementary pair of transistors is used, often with a bipolar supply (positive and negative), with one transistor sinking current from the load to ground or a negative power supply, and the other sourcing current to the load from a positive power supply. Gasco abu dhabi Application-specific drivers solve unique problems

The open-collector and push-pull drivers are just two of many driver designs, and they are also the basis of drivers that are carefully tailored to meet the needs and constraints of specific applications.

The cable or line driver is optimized for that one task; here a Maxim MAX4142 drives a balanced, twisted-pair line to the MAX4144, and theMAX4144 then drives a single-ended, 75-ohm coaxial cable. Arkansas gas prices Image source: Maxim Integrated The line or cable driver is needed to drive a load that can be twisted-pair wire, coaxial cable or another wire configuration, Figure 3. Gas 10 ethanol It must deliver enough current to the “line” at a sufficiently high slew rate so that it faithfully replicates the voltage signal at its input, despite any non-resistive aspects of that line. 1 unit electricity cost in kerala A line driver may handle analog signals such as traditional video, standard audio, or even amplified outputs from sensors and transducers (most of which are analog) or digitized signals, but it still must deal with the unavoidably analog nature of sourcing and sinking current into a load while reaching the designated maximum and minimum voltage levels. Electricity transmission The driver may be “balanced” for cases when the line it is driving is not grounded, or single-ended for when one side of the line is connected to ground.

Cable drivers are also defined by the maximum frequency of signals they can faithfully convey into the load, which can range into the GHz zone. Electricity grid code In some applications, the line driver may also have to withstand inadvertent connection to the power rail or a short-circuit to ground.

The MOSFET driver is the voltage or current interface between the control electronics and the MOSFET, and must be able to source or sink current into and from the MOSFET gate capacitance. Electricity magnetism and electromagnetism Image source: Author The MOSFET driver is the interface between a low-level control signal and standard power component, used extensively in digital on/off mode in power supplies and motor control, Figure 4. Gas works park address The MOSFET driver typically needs to supply only about 15 V to the MOSFET to turn it on; that’s the relatively easy part. Electricity vancouver wa What’s much harder is that it must do so with the MOSFET gate as a capacitive load, with the amount of capacitance dependent on the specific device and its ratings: higher-power MOSFETs have higher-input capacitance. Extra strength gas x while pregnant While almost any driver would eventually reach the target voltage, that alone is not acceptable for the MOSFET, which must be turned on within a specified, fairly short time (on the order of microseconds) for proper system performance.

Adding to the MOSFET-driver challenge is that it is not enough to turn it on properly; it must be turned off quickly as well. 9game This means that the driver must go from its high-current-sourcing capability to a complementary high-current-sinking capability, to pull the current out of the MOSFET’s gate and turn it off. J gastrointest oncol impact factor If the turn-off takes too long, the MOSFET may “linger” in the transition region between on and off states. Electricity and magnetism lecture notes This may seem to be a minor issue, but it is actually quite critical.

MOSFETs are used as the switches for an electronically controlled H-bridge, which can be directed to switch a motor to either direction of rotation. Electricity labs high school Image source: Infineon/International Rectifier Corp. Electricity in indian villages The reason it is critical is not only for overall system performance and responsiveness. Gasco abu dhabi location Many MOSEFTs are used in an H-bridge configuration, where the upper and lower bridge MOSFET must be in absolutely opposite states, Figure 5. Gas quality If both are even a little bit “on” at the same time, there will be a short-circuit between power supply and ground, which can damage the system and the MOSFETs themselves.

The driver must often provide galvanic isolation between signal source and MOSFET, especially in bridge configurations; here, the UCC21520 from Texas Instruments provides two isolated driver channels, making it a good fit for H-bridge configurations. Gas tax oregon Image Source: Texas Instruments There is yet another aspect of MOSFET drivers to consider: isolation. Frictional electricity examples In many motor-driver configurations, including the versatile H-bridge, the upper MOSFET is connected between the supply rail and load, while the lower MOSFET is between the load and ground. Electricity will not generally cause This means that the upper MOSFET has no “ground” connection and it must be isolated from circuit ground. Gas efficient cars under 5000 This is usually achieved by using an isolated driver, which has no galvanic path between its input and its output, yet responds to an input signal telling it to source current to and sink current from the MOSFET gate, Figure 6. Electricity storage handbook The designer can build his or her own isolated MOSFET drivers using a non-isolated driver and separate isolator (usually an optocoupler or a pulse transformer), or can buy a single component that incorporates both driver and isolation functions.

There are good reasons for spending so much time on MOSFET drivers. Electricity deregulation choices and challenges First, MOSFETs are very widely used in power-related circuits. Electricity use estimator Second, there are many subtleties related to driving MOSFETs, which is why so many drivers are available for them. Arkansas gas and oil commission Third, MOSFETs come in capacities ranging from a few volts and amps to hundreds (and even thousands) of volts and amps, and their drivers must be sized accordingly. Electricity projects for grade 6 This is unlike the situation with line drivers, where there are only relatively few configurations, and usually they are at relatively low voltage and current. V lab electricity Also, MOSFET drivers must tolerate faults and failures at the MOSFETs or their loads, yet must not themselves be damaged. Us electricity hertz They must also prevent damage from “rippling back” into the low-voltage circuitry (processor, memory, I/O).

analog drivers for piezoelectric actuators. Gas in chest This actuator uses the well-known piezoelectric principle: when voltage is applied, the piezo crystal actually changes shape. Electricity word search printable (The reverse is true as well: when the crystal is squeezed, it generates a voltage.) For precision lab instrumentation or even robotic-surgical systems, sometimes a movement of only a few thousandths of an inch is needed, and with precision. Electricity merit badge worksheet answers (Piezo actuators are also used to generate the small, sudden “shock” that forces ink to squirt out of an ink-jet printer or a 3-D rapid-prototyping machine’s nozzle.)

One way to create micro-motion would be to use a tiny motor with gears; but backlash, tolerance and teeth cogging would make this a very difficult design. Electricity billy elliot chords Instead a high voltage is applied to a piezo crystal, which causes it to expand a tiny amount, typically on the order of 10 micro-inches for every inch of crystal length. Electricity towers in japan That’s small, but it is all that is needed for many specialized applications.

This high-voltage driver circuit uses a pair of PA89 op-amps operating from bipolar ±530-V rails to drive the piezo motor element (center of figure) at up to ±1000 V. Gas in back and stomach Image Source: Apex Microtechnology The piezo driver addresses the challenge by providing a drive voltage of several hundred to a thousand volts (fairly difficult to do), at very little current (easy to do). Electricity prices per kwh 2013 The additional complication is that the piezo element is a capacitive load, so sourcing and sinking even that small current at those high voltages demands a very specialized analog amplifier, Figure 7. Electricity games Summary

A driver’s function is deceptively modest; it does not make decisions but, instead, it is charged with carrying out the signal and power decisions made by the system. Grade 9 electricity unit test answers Nonetheless it has a big responsibility to deliver sufficient voltage and current, at the needed slew rate for both sourcing current into the load, and sinking current out of the load. Gaston yla agrupacion santa fe These loads may be simple, well-behaved, tightly confined resistive loads, or they may have highly inductive or capacitive aspects. Tgas advisors company profile They may also have issues with potential power or ground short-circuits, load failures, and other possible problems that the driver must address.

For these reasons, there are both general-purpose drivers as well as many carefully tailored, application-specific drivers to handle the range, type and complexity of signal sources and loads in general use today. Electricity icons free Related content