Switch converter two-edge pulse frequency modulation C-type control method and device thereof
A pulse frequency modulation and switching converter technology, applied in the direction of output power conversion devices, electrical components, etc., can solve the problems of sub-harmonic oscillation and affecting the stability of the converter, and achieve good transient performance and system stability. , the effect of high voltage regulation accuracy
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Embodiment 1
[0033] figure 1 It is shown that a specific embodiment of the present invention is: a switching converter double-edge pulse frequency modulation C-type control method and its device C-PFM, and its C-PFM device is mainly composed of a voltage detection circuit VS, a current detection circuit CS, an error Compensator EC, time operation unit TU, variable frequency sawtooth wave generator SG, double edge pulse modulator DPM and drive circuit DR. The voltage detection circuit VS is used to obtain the output voltage value V os , the current detection circuit CS is used to obtain the inductor current value I s , the error compensator EC is used to generate the control voltage V c , the time operation unit TU is used to generate three periods of time t 1 , t 2 , t 3 , the variable frequency sawtooth wave generator SG is used to generate variable frequency sawtooth wave V saw and the sampling pulse signal CLK, the double-edge pulse modulator DPM is used to generate t 1 , t 2 , ...
Embodiment 2
[0043] Figure 8 It is shown that the converter TD controlled in this example is a Boost converter, and the control device of the switching tube S adopts C-PFM. Figure 9 In Example 2 of the present invention, the inductor current, the control voltage V c , time t 1 , time t 2 , time t 3 , a schematic diagram of the relationship between the sampling pulse signal CLK and the driving signal.
[0044] The specific working process and principle are: Figure 8 , Figure 9 It shows that the switching tube is turned off at any starting moment of the sampling pulse signal CLK, and at the same time, the voltage detection circuit VS detects the output voltage of the converter TD to obtain the output voltage value V os , the current detection circuit CS detects the inductor current of the converter TD, and obtains the inductor current value I s , the output voltage value V os with reference voltage V ref Send them together to the error compensator EC to generate the control volt...
Embodiment 3
[0047] Such as Figure 10 As shown, this example is basically the same as the first example, except that the converter TD controlled in this example is a Buck-Boost converter.
[0048] The inventive method can also be used for Cuk converter, SEPIC converter, Zeta converter, forward converter, flyback converter, push-pull converter, half-bridge converter except being applicable to the switching converter in the above embodiment. , full-bridge converter and other circuit topologies.
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