Commercial compressor with electronic start device for the start of the electric motor

The invention claimed is: 1. A compressor for commercial refrigerators comprising: an electric motor, comprising a start winding ( 120 ) and a run winding ( 130 ), wherein the input terminals of said start winding ( 120 ) and of said run winding ( 130 ) are connected to each other and to the voltage line (L), an electronic start device, for powering said start winding ( 120 ) for a start period, wherein said electronic start device includes: a run capacitor ( 40 ) having a first terminal connected to the output terminal of said start winding ( 120 ) and a second terminal connected to the output terminal of said run winding ( 130 ), and a start capacitor ( 45 ) having a first terminal connected to the output terminal of said start winding ( 120 ) and, characterized in that said electronic start device includes: a solid state switch ( 110 ) that powers the start winding ( 120 ), and connected between the second terminal of the start capacitor ( 45 ) and the neutral terminal of the network (N), and a control circuit ( 100 ) comprising a timing circuit ( 210 , 220 ) which controls the switching of said solid state switch ( 110 ) by closing it when the motor is switched on and by opening it at the end of said start period when the motor has started. 2. The compressor according to claim 1 , characterized in that said solid state switch ( 110 ) is a triac. 3. The compressor according to claim 2 , characterized in that said control circuit ( 100 ) comprises a power supply network ( 200 ), which receives as input an AC voltage line and generates as output a rectified voltage. 4. The compressor according to claim 3 , characterized in that said timing circuit ( 210 , 220 ) is powered by said rectified voltage output by said power supply network ( 200 ), and is capable of generating an activation signal (DRV,OSC). 5. The compressor according to claim 4 , characterized in that said control circuit ( 100 ) further comprises a triggering circuit ( 230 , 235 ), activated by said activation signal (DRV,OSC), wherein said triggering circuit ( 230 , 235 ) controls the switching of said solid state switch ( 110 ). 6. The compressor according to claim 5 , characterized in that said triggering circuit ( 230 , 235 ) of the Gate of the triac switch ( 110 ) receives said activation signal (DRV,OSC) and powers it to a derivative network (C 3 , R 4 , C 50 , R 50 ) so as to obtain shorter pulses with a reduced duty cycle, and wherein the negative pulses output from the derivative network (C 3 , R 4 , C 50 , R 50 ) are cut by a diode (D 4 , D 60 ). 7. The compressor according to claim 4 , characterized in that said timing circuit ( 210 ) comprises an oscillator, whose oscillation frequency (fosc) is set via an external RC network (CX, RX, RS), and a series of digital dividers which divide said frequency (fosc) to provide increasingly long periods of oscillation, to generate an activation signal (DRV) which controls the triggering circuit ( 230 ), wherein said activation signal (DRV) is independent of the voltage line. 8. The compressor according to claim 7 , characterized in that said timing circuit ( 210 ) is made with an integrated 4000 series CMOS, and in particular the integrated 4060 that comprises at its inside said oscillator and said series of dividers. 9. The compressor according to claim 4 , characterized in that said timing circuit ( 220 ) is made with a CMOS integrated 4000 series, and in particular the integrated 4093, in which the first NAND gate ( 222 ) is used as an oscillator, and the second NAND gate ( 224 ) is used as a buffer to collect the oscillation and generate an activation signal (OSC) which controls the triggering circuit ( 235 ), wherein said activation signal (OSC) is dependent on the line voltage. 10. The compressor according to claim 9 , characterized in that said first NAND gate ( 222 ) has an enable input connected to a timing network (R 10 , R 20 , C 30 ), whose values define the duration of the activation signal (OSC) together with the value of the voltage line. 11. The compressor according to claim 3 , characterized in that said power supply network ( 200 ) is made with a capacitive divider (C 1 , C 2 ) which takes the voltage from the voltage line and rectifies it by means of a pair of diodes (D 1 , D 2 ) to output said rectified voltage, and in that said power supply network ( 200 ) further comprises a Zener diode (D 3 ) to stabilize the rectified supply voltage (VDD, VSS) provided at the output of the power supply network ( 200 ) itself. 12. The compressor according to claim 1 , characterized in that said electronic start device comprises a damping inductance ( 65 ) in series with said start capacitor ( 45 ) to block the discharge current generated by said run capacitor ( 40 ).