![]() This strategy works well, provided the bridge is regularly switched and avoids the complexity of having to run a separate power supply and permits the more efficient n-channel devices to be used for both switches. When the centre of a half bridge goes low, the capacitor is charged through a diode, and this charge is used to later drive the gate of the high-side FET a few volts above the source voltage so as to switch it on. Charge pumps are used in H bridges in high-side drivers for gate-driving high-side n-channel power MOSFETs and IGBTs.A higher voltage, used to erase cells, is generated internally by an on-chip charge pump. As of 2007, commercially available flash memory and EEPROM memory requires only one external power supply – generally 1.8 V or 3.3 V. Early EEPROM and flash-memory devices required two power supplies: +5 V (for reading) and +12 V (for erasing). These devices require a high-voltage pulse to "clean out" any existing data in a particular memory cell before it can be written with a new value. As of 2007, charge pumps are integrated into nearly all EEPROM and flash-memory integrated circuits.A charge pump providing a negative voltage spike has been used in NES-compatible games not licensed by Nintendo in order to stun the Nintendo Entertainment System lockout chip.This guarantees that all N+-to-substrate junctions are reversely biased by 3 V or more, decreasing junction capacitance and increasing circuit speed. Charge pumps are extensively used in NMOS memories and microprocessors to generate a negative voltage "VBB" (about −3 V), which is connected to the substrate.Charge pumps can also be used as LCD or white- LED drivers, generating high bias voltages from a single low-voltage supply, such as a battery.A common application for charge-pump circuits is in RS-232 level shifters, where they are used to derive positive and negative voltages (often +10 V and −10 V) from a single 5 V or 3 V power supply rail.It cannot produce higher or lower voltages than its power and ground supply levels. This means that it can output positive and negative current pulses into the loop filter of the PLL. ![]() A PLL charge pump is merely a bipolar switched current source. The term charge pump is also commonly used in phase-locked loop (PLL) circuits even though there is no pumping action involved unlike in the circuit discussed above. They are commonly used in low-power electronics (such as mobile phones) to raise and lower voltages for different parts of the circuitry - minimizing power consumption by controlling supply voltages carefully. ![]() The high frequency minimizes the amount of capacitance required, as less charge needs to be stored and dumped in a shorter cycle.Ĭharge pumps can double voltages, triple voltages, halve voltages, invert voltages, fractionally multiply or scale voltages (such as ×3/2, ×4/3, ×2/3, etc.) and generate arbitrary voltages by quickly alternating between modes, depending on the controller and circuit topology. The pulsing nature of the higher voltage switched output is often smoothed by the use of an output capacitor.Īn external or secondary circuit drives the switching, typically at tens of kilo hertz up to several megahertz. This doubles the voltage across the load - the sum of the original supply and the capacitor voltages. In the second stage the circuit is reconfigured so that the capacitor is in series with the supply and the load. In a two stage cycle, in the first stage a capacitor is connected across the supply, charging it to that same voltage. Charge-pump circuits are capable of high efficiencies, sometimes as high as 90–95%, while being electrically simple circuits.Ĭharge pumps use some form of switching device to control the connection of a supply voltage across a load through a capacitor. A charge pump is a kind of DC-to-DC converter that uses capacitors for energetic charge storage to raise or lower voltage.
0 Comments
Leave a Reply. |