CS228158B1 - Circuit arrangement for intergrated control circuit synchronization in pulsory controlable supplies - Google Patents

Description

The invention relates to a circuit for the synchronization of control integrated circuits of pulse-controlled sources which enables the synchronization of the operating frequencies of a plurality of power supply sources by pulse control, the control part of which is realized by a special integrated circuit.

In some cases, for example, when multiple sources are running in parallel in a common load, it is necessary to ensure synchronous running of the operating frequencies of the individual source balls. This is done by synchronizing the generators in their control parts. For sources where a special integrated circuit is used, it is not possible to easily synchronize with one another. To do this, use an external synchronization generator whose repetition rate must always be lower than the operating frequency of each source in the group. This leads to the need for an external synchronization generator. As a result, the operating frequency of the individual sources differs from the operating frequency in parallel operation, which complicates their design.

These disadvantages are overcome by the circuitry for synchronizing the control ICs of the pulse-regulated power supplies of the invention, which is characterized in that the control output of the first control IC is coupled to the input of the first monostable flip-flop whose output is coupled to the input of the first partition circuit. a sync input of the first control IC and a sync terminal of the control portion of the first source, wherein the control output of the second control IC is coupled to the input of the second monoetable flip-flop whose output is connected to the input of the second partition circuit; an integrated circuit and a second source control section synchronization terminal, which is further coupled to the first source control section synchronization terminal.

The circuit according to the invention provides in a simple manner a synchronous operation of the power supply converters with pulse control, the control part of which is realized by a special integrated circuit. By using a single wire connector, all sources operate synchronously at a frequency corresponding to the lowest frequency source. The wiring does not require an external synchronization generator and the frequency of the inverters of all sources differed from the operating frequency in parallel operation by only a narrow tolerance given by the accuracy of the frequency settings of the individual sources.

The wiring principle of the invention will be described with reference to Figs. 1 and 2. Fig. 1 is a block diagram for synchronizing control ICs of the pulse-regulated power supplies of the invention. Fig. 2 shows the pulse waveforms at each connection point, indicated by the numbers of the respective input or output.

In Fig. 1, the control output 115 of the first control integrated circuit 11 is coupled to the input 121 of the first monostable flip-flop 12. Its output 122 is coupled to the input 131 of the first decoupling circuit 13 whose output 132 is coupled to the synchronization input 109 of the first control integrated circuit 11 and with the synchronization terminal 101 of the control section 6 of the first source. The start output 215 of the second control integrated circuit 21 is coupled to the input 221 of the second monostable flip-flop 22.

Its output 222 is coupled to the input 231 of the second separation circuit 23. Its output 232 is coupled to the synchronization input 209 of the second control integrated circuit 21 and to the synchronization terminal 201 of the control section 8 of the second source. the member is further coupled to the synchronization terminal 101 of the control part 8 of the first circuit.

The control integrated circuit has a control output where the pulse width is inversely proportional to the output voltage of the source in terms of negative feedback. The circuit can be externally synchronized via a TTL compatible synchronization input, and the external synchronization frequency must always be lower than the internal repetition rate of the control IC determined by the externally connected timing elements.

Giant. 1 shows an arrangement for synchronization of two power supply sources and pulse control. When each source operates independently, there are pulses at the control output 115 of the first control integrated circuit 11, whose initial edge and the first mono-latch flip-flop 12 are generated.

The fuse is realized, for example, as an open-collector switch and also fuses the appropriate non-pile levels at the synchronization terminal 101 of the control section 8 of the first source. The impulses thus generated at the synchronization input 109 of the first control integrated circuit 11 do not affect the operation of the control section 6 of the first source.

The control part 8 of the second source works in a completely analogous manner.

When the control portions of both sources are connected via respective synchronization terminals 101 and 201, the operating frequencies of the two sources are mutually synchronized. The resulting operating frequency is determined by the source whose control part has a lower repetition fraction. Qbr. 2 are drawn in case the operating frequency of the first source is lower than the operating frequency of the second source.

Thereafter, the control portion 6 of the first source always generates a control pulse in the first. Only after the timing of the first monostable flip-flop 12 has been completed is the control pulse 8 of the second source started via the synchronization input 209 of the second integrated circuit 21.

22Θ158

Gold method ·· it is possible to synchronize 1 multiple sources by connecting more sync terminals. It must be true that the sum of the output pulse widths of the monostable flip-flops for all sources must be smaller than the resulting repetition period m of the pulse width m of the monostable flip-flop simultaneously determines the synchronization bandwidth. soaynchroniaování.

Wiring according to you ***! * *** makes it easy to synchronize the working frequencies of the power supplies with pulse control, their! the control part is realized by a special integrated circuit. The circuitry of the invention may be used, for example, to synchronize sources operating parallel to a common load.

Claims (1)

A circuit for synchronizing control ICs of pulse controlled power sources, characterized in that the control output (115) of the first control IC (11) is a connector with an input (121) of a first monostable flip-flop (12) whose output (112) is a connector with an input (131) a first separating circuit (13), the output of which (132) is connected to both the synchronization input (109) of the first control integrated circuit (11) and the synchronization terminal (101) of the control section (1) of the first source; (215) of the second control integrated circuit (21) is connected to the input (221) of the second monostable flip-flop (22), the output (222) of which is connected to the input (231) of the second detachment circuit (23), connected to the synchronization input (209) of the second control integrated circuit (21) and to the synchronization terminal (201) of the control section (2) of the second source, which is further connected to the synchronization terminal (101) of the control part (1) of the first source.