CN101873001A - Power supply management control device with reset latch protection function - Google Patents

Abstract

The invention relates to a power supply management control device with reset latch protection function having the characteristics of remote control function, multiple protection function and PWM built-in. The control device can turn off a latch converter when error conditions such as over-voltage, under-voltage or over-power occur. However, under-voltage and over-power protection also occur when the input voltage Vin is decreased since AC interruption or input voltage is removed. Therefore, the invention also provides a device for resetting latch protection by sensing the input voltage Vin and the output voltage Vo.

Description

Device for managing and controlling electrical source with reset latch protection function

Technical field

Main purpose of the present invention is providing a kind of device for managing and controlling electrical source of novelty, refers to a kind of device for managing and controlling electrical source with reset latch protection function especially.

Background technology

The power supply unit that general personal computer or other electronic equipment are used in order to save the purpose of the energy and power consumption, is provided with device for managing and controlling electrical source more.General power supply unit has two transducers (converter), a transducer is used for main power source (main power), another transducer then is used for less stand-by power supply (standby power), and wherein device for managing and controlling electrical source is to be powered by stand-by power supply.When personal computer or other electronic equipment during in operation, its power supply unit provides main power source; And when system is in holding state, the main power source of its power supply unit will be closed, and only provide stand-by power supply, the use of power supply management and control device.

General power supply unit is also more to be possessed the protective circuit device, so that power supply unit can provide the function of protection when overvoltage (Over-Voltage) for example, overcurrent (Over-current), low-voltage (Under-voltage) or overpower erroneous condition such as (Over-Power) take place.The kenel of protective circuit roughly can be distinguished into two kinds of breech lock (Latch) type and non-latch-types; the latch-type protective circuit is meant when erroneous condition takes place; protective circuit is with breech lock and powered-down; and after the erroneous condition releasing; power supply can't automatically reply; after must restarting power supply, power supply just can be replied.But not the latch-type protective circuit is meant then that when erroneous condition takes place protective circuit starts the function of protection and temporarily stops the power supply supply, in case erroneous condition is removed, power supply promptly automatically replies supply.

Though can provide assembly in the power supply unit than reliable protection by the protective circuit of latch-type; only the latch-type protective circuit is after the defencive function start; protective circuit is with breech lock and close output; the supply of power supply is removed the back in erroneous condition and also can't be automatically replied; must restart step through extra power supply, power supply could be replied.In addition; for example produce for personal computer use have the power supply unit of latch-type protective circuit the time; test each defencive function whether during normal operation, need again its power supply of switch and cause expending on the production time, these all are the shortcomings of latch-type protective circuit.

Because the above-mentioned shortcoming of latch-type protective circuit, known technology has the additional extra time delay circuit of proposition to solve this shortcoming.This known technology is by being removed when taking place because of exchange interrupting (AC interruption) or input voltage source when the protective circuit breech lock, and utilizing this time delay circuit to delay the off-mode control signal, so that the breech lock action can not take place under this situation.Therefore yet this known technology still has the shortcoming that need expend extra time of delay, needs a kind of proposition of simpler and economic power supply protection circuit arrangement.

Summary of the invention

Main purpose of the present invention is providing a kind of device for managing and controlling electrical source of novelty, particularly, provides a kind of device for managing and controlling electrical source with reset latch protection function.

A kind of device for managing and controlling electrical source with reset latch protection function of the present invention comprises:

One reset cell is used for detecting input voltage and output voltage to produce the reset latch protection of power supply of a reset signal;

A plurality of erroneous condition protected locations are used for the corresponding protection control signal of output when erroneous condition takes place;

One logical circuit receives the signal of this reset cell and a plurality of erroneous condition protected locations and produces control signal output, in order to the breech lock of control power supply; Wherein when the situation of making a mistake and input voltage were not lower than a predetermined threshold value, this logical circuit came this power supply unit of breech lock by this control signal of breech lock at dissengaged positions; And when the situation of making a mistake and input voltage are lower than a predetermined threshold value, can the reset latch protection of this power supply of this logical circuit.

The device for managing and controlling electrical source that the present invention has a reset latch protection function has features such as remote control controlled function, multiple protection functions and pulse width modulation (PWM) be built-in.This device for managing and controlling electrical source can be closed and breech lock transducer (converter) when overvoltage (Over-Voltage), low-voltage (Under-voltage) or overpower erroneous condition such as (Over-Power) for example take place.Yet low-voltage and overpower protection are removed when descending and also can take place because of exchange interrupting (AC interruption) or input voltage source in input voltage vin.Therefore the present invention more provides a kind of by the reset device of latch protection of detecting input voltage vin and output voltage V o.

Device for managing and controlling electrical source of the present invention comprises mains switch ON/OFF, low-voltage (Under-voltage) protection UVP, overvoltage (Over-Voltage) protection OVP, overpower (Over-Power) protection OPP, input voltage vin, output voltage V o, electric power starting resetting (Power-on Reset) POR, reset signal reset and enable signal EN equisignal line; And reset apparatus, flip-flop, a plurality of gate, transducer (converter), pulse width modulation (PWM) controller etc.Wherein, when overvoltage (Over-Voltage), low-voltage (Under-voltage) or overpower erroneous condition such as (Over-Power) take place when; can start under-voltage protection UVP, overvoltage protection OVP or overpower protection OPP; via the start of flip-flop, gate, EN signal and pulse width modulation controller, close and the breech lock transducer.And in input voltage vin because of exchange interrupting the situation that (AC interruption) or input voltage source are removed; Vin can be reduced to a rated value; the Vo output voltage also can descend; the protection of UVP starts, and the PWM controller is cut out by breech lock, after Vo is reduced to rated value; " reset " signal enabling; after a bit of time, can enter reopening machine (Restart) state, promptly, reopen power supply via the start of flip-flop, gate, EN signal and pulse width modulation controller.

The reset apparatus of device for managing and controlling electrical source of the present invention comprises low-voltage (Under-voltage) protection UVP/ overpower (Over-Power) protection OPP, enable signal EN, input voltage vin, output voltage V o, low input UVin, reset signal reset equisignal line; And two comparators, flip-flop and a plurality of gate.Wherein, if UVP (or OPP) guard mode takes place, and Vin is not in deficiency definite value situation, and " reset " signal can not produce.And if Vin is at deficiency definite value state; the UVin signal can be activated; when UVP (or OPP) guard mode takes place; the PWM controller can cut out by breech lock, and the Vo output voltage can continue to descend, and is reduced to rated value when a comparator detects Vo; can start " reset " signal; can enter reopening machine (Restart) state after a bit of time,, reopen power supply with replacement latch protection and reopening PWM controller.

Description of drawings

For further understanding the above-mentioned purpose of the present invention, function, characteristics and advantage, hereinafter conjunction with figs. is further specified preferred embodiment of the present invention, wherein:

Fig. 1 shows the calcspar of device for managing and controlling electrical source of the present invention.

Fig. 2 shows the internal circuit calcspar of reset apparatus 10 of the present invention.

Fig. 3 shows the sequential chart of function of reset of the present invention.

Embodiment

Fig. 1 shows the calcspar of device for managing and controlling electrical source of the present invention, and this device for managing and controlling electrical source comprises ON/OFF signal, low-voltage (Under-voltage) protection UVP, overvoltage (Over-Voltage) protection OVP, overpower (Over-Power) protection OPP, input voltage vin, output voltage V o, electric power starting resetting (Power-on Reset) POR, reset signal reset, enable signal EN equisignal line; And reset apparatus 10, flip-flop 11, gate 12,13,14,15 and transducer (converter) 16, pulse width modulation (PWM) controller 17.

Gate 13 can be one or door, and it receives the control signal of UVP, OVP and OPP and produces one and represent the control signal 182 of error condition to export to flip-flop 11.This flip-flop 11 can be a S-R flip-flop, this output signal 182 of receive logic door 13 and export a control signal 181 and give gate 15, and signal 181 and ON/OFF signal become the input of gate 15 jointly.This gate 15 can be one with door, receive this output signal 181 of flip-flop 11 and ON/OFF signal to produce the switch that an activation signal EN exports control impuls width modulation controller 17.

Reset apparatus 10 is by the reset device of latch protection of detecting input voltage Vi n and output voltage V o.Reset apparatus 10 receives signals such as UVP, OPP, Vin and Vo, produces a reset signal " reset " and exports to gate 14.This gate 14 can be one or the door, it receives the reset signal " reset " of reset apparatus output and por signal and produces a control signal 183 and export to flip-flop 11, flip-flop 11 can change its output signal 181 by the effect of this signal 183, and then change enable signal EN via gate 15, reach control impuls width modulation controller 17 switching purposes.Gate 12 can be a not gate, and it receives ON/OFF signal and produces a control signal 184 and export to flip-flop 11, and flip-flop 11 also can change its output signal 181 by the acting in conjunction of this signal 184, and then changes enable signal EN via gate 15.

Wherein, when overvoltage (Over-Voltage), low-voltage (Under-voltage) or overpower erroneous condition such as (Over-Power) take place when; can start under-voltage protection UVP, overvoltage protection OVP or overpower protection OPP; via the start of flip-flop 11, gate 15, EN signal and pulse width modulation controller 17, close and breech lock transducer 16.And in input voltage vin because of exchange interrupting the situation that (AC interruption) or input voltage source are removed; Vin can be reduced to a rated value; the Vo output voltage also can descend, and the protection of UVP starts, and can close pulse width modulation controller 17 via EN signal breech lock earlier this moment.Afterwards, after Vo was reduced to a rated value, " reset " signal enabling can enter reopening machine (Restart) state after a bit of time, can reopen power supply this moment via the start of flip-flop 11, gate 15, EN signal and pulse width modulation controller 17.

Fig. 2 shows the internal circuit calcspar of reset apparatus 10 of the present invention, and this reset apparatus 10 comprises low-voltage (Under-voltage) protection UVP/ overpower (Over-Power) protection OPP, enable signal EN, input voltage vin, output voltage V o, low input UVin, reset signal reset equisignal line; And comparator 21,22, flip-flop 23, gate 24,25.Wherein, gate 24 can be one with door, the output signal U Vin that it receives UVP/OPP signal and comparator 21 exports to flip-flop 23 and produce a control signal 261.This flip-flop 23 can be a S-R flip-flop, this output signal 261 of its receive logic door 24 and export a control signal 262 and give gate 25, and signal 262 and the output signal 263 of comparator 22 become the input of gate 25 jointly.This gate 25 can be one with door, the output signal 263 that receives this output signal 262 of flip-flop 23 and comparator 22 is to produce a reset signal reset this latch protection unbalanced pulse width modulation controller 17 of laying equal stress on of resetting.Vin inserts the end of oppisite phase (-) of comparator 21, and Vo then inserts the negative end of oppisite phase (-) of comparator 22, and the non-oppisite phase end (+) of two comparators 21,22 then connects a reference voltage Vref altogether.

Among Fig. 2, whether comparator 21 is used for detecting Vin at the undertension state, that is whether the detecting input voltage is lower than a predetermined threshold value.If UVP (or OPP) state takes place, and Vin is not in deficiency definite value situation, can produce fault-signal output overpower or short-circuit signal.This moment, powered-down and latch protection state were quite rational.And if Vin is at deficiency definite value state, the UV state takes place then, and this representative there is no any fault at output and takes place, and then latch protection must be reset when Vin replys.Whether another comparator 22 detecting Vo at quite low state, if words then " reset " signal can be transmitted to reset this latch protection also, open the PWM controller.Transducer still can a bit of time of continuous firing when exchanging interruption.

Wherein, if UVP (or OPP) guard mode takes place, and Vin is not in deficiency definite value situation, and " reset " signal can not produce (being in electronegative potential).And if Vin is at deficiency definite value state; the UVin signal can rise to high potential; when UVP (or OPP) guard mode takes place; the PWM controller can cut out by breech lock; and the Vo output voltage can continue to descend; and be reduced to rated value when comparator 22 detects Vo, and can start " reset " signal (rising to high potential), can enter reopening machine (Restart) state after a bit of time.Be that the UVP signal rises to high potential, can influence the output of flip-flop 23, and and then change the EN signal and start latch protection.And after Vin is reduced to a rated value; if there is no any fault, output takes place; then Vo can slowly descend; whether comparator 22 can detect Vo at quite low state; if words then " reset " signal can rise to high potential and be transmitted with this latch protection and the reopening PWM controller of resetting, reopen power supply.

Fig. 3 shows the sequential chart of function of reset of the present invention, and from top to bottom each signal condition of Xian Shiing is input voltage vin, low input signal UVin, under-voltage protection UVP, enable signal EN, reset signal reset and output voltage V o in regular turn.Wherein, when sequential 1; power supply normal signal PG (power good) reduces to electronegative potential; the load power source of system is removed, and this moment, Vin was reduced to a rated value, and the UVin signal rises to high potential; the protection of UVP does not start (still being in electronegative potential) as yet; EN is in high potential, and " reset " signal does not start (still being in electronegative potential) as yet, and Vo is in high potential.

Then, when sequential 2, output voltage begins vagus escape control and descends; this moment, Vin continued to reduce, and UVin is in high potential, and the protection of UVP does not start (being in electronegative potential) yet; EN still is in high potential, and " reset " signal does not start (being in electronegative potential) yet, and Vo begins to descend.

Then when sequential 3; the protection of UVP starts; and the PWM controller can be closed; this moment, Vin continued to reduce, and UVin is in high potential, and the protection startup of UVP (rises to high potential; only rising to high potential can get back to electronegative potential after a bit of time); EN reduces to electronegative potential from high potential, and " reset " signal does not start (being in electronegative potential) yet, and Vo continues to descend fast.

At last, when sequential 4, comparator U2 detects Vo and is reduced to rated value, start " reset " signal (rising to high potential), can postpone a bit of time because of the reaction of " reset " signal enabling this moment, so Vin still continues to reduce, can enter reopening machine (Restart) state behind the only short time, UVin is in high potential, UVP is in electronegative potential, and EN rises to high potential from electronegative potential, " reset " signal enabling (rising to high potential from electronegative potential), and Vo still continues quick decline, can enter reopening machine (Restart) state behind the only short time.

For more being described in more detail the operating process of the function of reset sequential that Fig. 3 shows, the time sequence status of comprehensive improvement sequential 1 to 4 is after being illustrated in.At first, when Vin was reduced to a rated value, the UVin signal can rise to high potential, if the UV state takes place, started the protection of UVP then, and this moment, the PWM controller can be closed.And after Vin is reduced to a rated value; if there is no any fault, output takes place; then Vo can slowly descend; whether comparator U2 can detect Vo at quite low state; if words then " reset " signal can rise to high potential and be transmitted with this latch protection and the reopening PWM controller of resetting, reopen power supply.

In sum, device for managing and controlling electrical source of the present invention has features such as remote control controlled function, multiple protection functions and PWM be built-in.For example overvoltage (Over-Voltage) can take place in this control device; low-voltage (Under-voltage); or during overpower erroneous condition such as (Over-Power); close and breech lock transducer (converter); and device for managing and controlling electrical source of the present invention betides input voltage vin at low-voltage and overpower protection and interrupts (AC interruption) or input voltage source and be removed when descending because of exchanging; provide a kind of, therefore the device of the latch protection that is used in a kind of simple power supply unit to reset is provided by the reset device of latch protection of detecting input voltage vin and output voltage V o.

Though the present invention has utilized above-mentioned preferred embodiment to disclose in detail; right its is not in order to limit the present invention; allly have the knack of this technology personage; without departing from the spirit and scope of the present invention; can carry out various changes and modification, so protection scope of the present invention is worked as with being as the criterion that the claim scope is defined.

Claims (6)

1. device for managing and controlling electrical source with reset latch protection function comprises:

One reset cell is used for detecting input voltage and output voltage to produce the reset latch protection of power supply of a reset signal;

A plurality of erroneous condition protected locations are used for the corresponding protection control signal of output when erroneous condition takes place;

One logical circuit receives the signal of this reset cell and a plurality of erroneous condition protected locations and produces control signal output, in order to the breech lock of control power supply; Wherein when the situation of making a mistake and input voltage were not lower than a predetermined threshold value, this logical circuit came this power supply unit of breech lock by this control signal of breech lock at dissengaged positions; And when the situation of making a mistake and input voltage are lower than a predetermined threshold value, can the reset latch protection of this power supply of this logical circuit.

One of 2. the device for managing and controlling electrical source with reset latch protection function as claimed in claim 1, below wherein these a plurality of erroneous condition protected locations comprise at least: a under-voltage protection unit UVP, an overvoltage protection unit OVP, an overpower protection unit OPP.

3. the device for managing and controlling electrical source with reset latch protection function as claimed in claim 1, wherein this reset cell comprises:

One first comparator is used for detecting input voltage, and compares with a reference voltage, to export one first comparison signal;

One second comparator is used for detecting output voltage, and compares with a reference voltage, to export one second comparison signal;

One logical circuit is used for producing a reset control signal according to control signal, first comparison signal and second comparison signal of erroneous condition protected location.

4. the device for managing and controlling electrical source with reset latch protection function as claimed in claim 3, wherein this logical circuit comprises:

One first gate, it receives the erroneous condition protected location signal and first comparison signal, and produces one first output signal;

One flip-flop, it receives this first output signal and produces one second output signal;

One second gate, it receives this second output signal and second comparison signal, and produces a reset control signal.

5. the device for managing and controlling electrical source with reset latch protection function as claimed in claim 4, the erroneous condition protected location signal that wherein this received are a under-voltage protection unit UVP signal or an overpower protection unit OPP signal.

6. the device for managing and controlling electrical source with reset latch protection function as claimed in claim 1, wherein this logical circuit comprises:

One the 3rd gate, it receives a machine open/close signal and produces one the 3rd output signal;

One the 4th gate, it receives the signal of this erroneous condition protected location and produces one the 4th output signal;

One the 5th gate, it receives this reset control signal of this reset cell and produces one the 5th output signal;

One flip-flop, it receives the 3rd output signal, the 4th output signal, the 5th output signal and produces one the 7th output signal;

One the 6th gate, it receives the 7th output signal and the machine open/close signal of this flip-flop, and produces one the 6th output signal, in order to the breech lock of control power supply.

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