Low-power-consumption under-voltage tripping device
An undervoltage release and low power consumption technology, which is applied to the parts of the protection switch, electrical components, protection switch operation/release mechanism, etc. Incomplete and other problems, to overcome the effect of small starting torque, avoid harmonic interference, and broaden the use of occasions
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Embodiment 1
[0035] See Figure 1-2, an undervoltage release, comprising: an electromagnet coil 3, an armature controlled by the electromagnet coil 3; a rectifier circuit 1, whose input terminal is connected to any line voltage in a three-phase power supply; a step-down circuit 2, Its input terminal is connected to the positive output terminal of the rectifier circuit 1, and its output terminal is connected to the current input terminal of the electromagnet coil 3 to provide a voltage for maintaining the armature pull-in; the relay 4 has a pair of normally open contacts points are respectively connected with the output terminal of the rectifier circuit 1 and the current input terminal of the electromagnet coil 3; the switch circuit 7, the current output terminal of the electromagnet coil 3 is connected with the input terminal of the switch circuit 7; the line voltage The detection module is set at the output end of the three-phase power supply and is used to detect at least two sets of lin...
Embodiment 2
[0044] See Figure 1-3 , on the basis of Example 1, the implementation of the main part of the undervoltage release is described.
[0045] After the alternating current passes through the rectifying circuit 1, a full-wave pulsating voltage VH is formed to charge the strong start-up capacitor C1. The VH voltage is stepped down by the step-down circuit 2 to supply power to the main control module 8, and at the same time provide power to the relay 4 and the switch circuit 2. The voltage VO formed by the step-down circuit 2 is isolated by the diode D2 and the voltage VP is obtained. The electromagnet coil 3 is powered. The resistors R1 and R2 form a sampling circuit of VH, and the sampling signal SH is sent to the main control module 8 .
[0046] Wherein the line voltage detection module includes: a first line voltage detection module 6a and a second line voltage detection module 6b respectively connected between any two line voltages; The output voltage SA of the first-line vo...
Embodiment 3
[0054] See Figure 1-4 , on the basis of Embodiment 1-2, taking 330V voltage and the main control module 8 using a single-chip microcomputer circuit as an example, it is illustrated that the anti-harmonic and multi-frequency undervoltage are suitable for the implementation of the main part of the undervoltage release of the three-phase power supply Way.
[0055] The line voltage is connected to the two input ends of the rectification circuit 1 after EMC bidirectional filtering. The positive end of the rectification circuit 1 is defined as (VH), and the negative end is grounded (GND).
[0056] After power-on, the rectifier circuit 1 rectifies the AC voltage into a DC pulsating voltage SP, charges the strong start-up capacitor C1 through the isolation diode D1, and the charging voltage VH is equal to the input AC voltage times (80% effective value, approximately equal to 430V). The charging voltage has a voltage sampling circuit 5 composed of R1 and R2 in series, and the pro...
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