Paton STANDARDTIG-160 User Manual Download | Manualshive

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PATON

StandardTIG

DC MMA/TIG/MIG/MAG

максимального значения для ещё большей стабильности горения на короткой дуге, но
это требует лучшей питающей сети и увеличивается вероятность прожига изделия.

Чем достигается:

при снижении напряжения на дуге ниже минимально

допустимого для стабильного горения дуги, сварочный ток возрастает на
установленный по умолчанию уровень +40%.

В дополнительных настройках можно изменять как силу «Форсажа дуги», так

и «уровень срабатывания»

этой функции. Без надобности не завышайте силу и уровень

срабатывания «Форсажа дуги», потому что это на больших предельных значениях,
особенно при сварке тонкими электродами менее Ø3,2мм, влияет на срабатывание
функции «Антиприлипания» которую будем рассматривать в следующем пункте.

Порядок изменения значения любой функции в текущем режиме сварки

смотрите в п.6.1

3.4 ФУНКЦИЯ АНТИПРИЛИПАНИЯ «ANTI

-

STICK»

При начальном поджиге дуги электрод может прилипать, прихватываться к

изделию, этому препятствуют много функций в аппарате, но такое все

-

таки может

произойти, что в свою очередь приводит сначала к раскалению, а в последующем и
порче электрода.

В такой ситуации в данном аппарате срабатывает функция «Антиприлипания»

встроенная и работающая в режиме РДС “ММА" постоянно, которая через 0,6…0,8сек
после  выявления  этого  состояния,  снижает  сварочный  ток.  Так  же  это  облегчает
сварщику  возможность  отделять  (отрывать)  электрод  от  изделия  без  риска  обжечь
глаза  случайным  поджигом  дуги.  После  отделения  электрода  от  изделия,  процесс
сварки может быть беспрепятственно продолжен.

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Summary of Contents for STANDARDTIG-160

Page 1: ......

Page 2: ......

Page 3: ......

Page 4: ...12 3 7 12 3 8 12 4 TIG 13 4 1 1 TIG LIFT 14 4 1 2 TIG LIFT 15 4 2 1 TIG 2T 16 4 2 2 TIG 2T 17 4 3 1 TIG 4T 17 4 3 2 TIG 4T 18 4 4 19 4 5 19 4 6 19 4 7 20 4 8 20 4 9 20 4 10 20 5 MIG MAG 21 5 1 MIG MA...

Page 5: ...0 105 2 5 130 4 0 205 6 0 310 4 160 1 0 2 0 75 2 5 95 4 0 155 6 0 230 5 200 2 5 60 4 0 100 6 0 150 5 6 250 1 2 2 5 48 4 80 6 120 3 x 380 400V StandardTIG 270 400V StandardTIG 350 400V 3 120 0 8 1 5 1...

Page 6: ...StandardTIG 160 200 250 270 400V 350 400V MMA TIG MIG MAG Standard 160 200 250 270 350 1 6 6 0 6 1 4 MMA StandardTIG PATON 16 1 MMA 1 10 TIG 1 10 MIG MAG 1 7 2 3 160 260 StandardTIG 160 200 250 320 44...

Page 7: ...0 1 6 6 0 1 6 6 0 1 6 6 0 0 6 1 0 0 6 1 0 0 6 1 2 0 6 1 2 0 6 1 4 MMA 0 2 500 TIG 0 2 500 MIG MAG 5 500 MMA 0 2 500 TIG 0 2 500 MIG MAG 5 500 MMA 0 2 500 TIG 0 2 500 MIG MAG 5 500 MMA 0 2 500 TIG 0 2...

Page 8: ...PATON StandardTIG DC MMA TIG MIG MAG 6 1 2 3 4 MMA TIG MIG MAG 5 6 7 8 9 10 11 12...

Page 9: ...7 PATON StandardTIG DC MMA TIG MIG MAG MMA TIG MIG MAG MIG MAG B MMA TIG MIG MAG MIG MAG 2 13 2 1 2 2 5 5 5...

Page 10: ...PATON StandardTIG DC MMA TIG MIG MAG 8 3 4 4 2 3 1 220 27 18 StandardTIG 160 200 250 2 3x380 3x400 StandardTIG 270 350 400V 1 2 270 StandardTIG 160 200 250 450 StandardTIG 270 350 400V 2 4 2 5 3...

Page 11: ...9 PATON StandardTIG DC MMA TIG MIG MAG 2 2 3 MMA B 8 I 4 MMA 5 4 2 6 1 MMA I 3 1 MMA...

Page 12: ...PATON StandardTIG DC MMA TIG MIG MAG 10 6 1 3 2 HOT START 40 3 90 90 40 126 H St t HS 6 1 3 3 ARC FORCE...

Page 13: ...11 PATON StandardTIG DC MMA TIG MIG MAG 40 Ar F u AF 3 2 6 1 3 4 ANTI STICK 0 6 0 8...

Page 14: ...PATON StandardTIG DC MMA TIG MIG MAG 12 3 5 BAH 1 4V A 21 3 13 45 70 BAH 1 0V A 1 4 BAH 0 2 0 6V A u AF 18V 6 1 3 6 Sh A ON OFF 6 1 3 7 0 1 12 BSn OFF 6 1 3 8...

Page 15: ...13 PATON StandardTIG DC MMA TIG MIG MAG Po P Fr P dut Po P OFF Fr P dut 5 0 50 Po P 3 60 Po P 40 Fr P 5 0 dut 50 36 84 5 50 50 dut 50 dut 20 dut 70 60 60 6 1 4 TIG TIG 2T 4 2 1 Ar He 40 Ar 60 150...

Page 16: ...PATON StandardTIG DC MMA TIG MIG MAG 14 4 1 1 TIG LIFT 6 1 B A 8 I...

Page 17: ...15 PATON StandardTIG DC MMA TIG MIG MAG 4 TIG TIG LIFT 3 2 LIFT 4 2 6 1 13 4 1 2 TIG LIFT...

Page 18: ...PATON StandardTIG DC MMA TIG MIG MAG 16 4 2 1 TIG 2T 6 1 B 6 7 A 8 I 4 TIG...

Page 19: ...17 PATON StandardTIG DC MMA TIG MIG MAG TIG 2T 3 2 2T 4 2 6 1 13 4 2 2 TIG 2T 4 2 1 TIG 4T 6 1...

Page 20: ...PATON StandardTIG DC MMA TIG MIG MAG 18 B 6 7 A 9 8 I 4 TIG TIG 4T 3 2 4T 3 2 6 1 13 4 3 2 TIG 4T TIG 2T 4 2 2...

Page 21: ...19 PATON StandardTIG DC MMA TIG MIG MAG 4 4 2 0 6 1 4 5 TIG 4T 20 6 1 4 6 TIG 2T OFF 6 1...

Page 22: ...PATON StandardTIG DC MMA TIG MIG MAG 20 4 7 OFF 6 1 4 8 TIG 4T 20 6 1 4 9 3 0 6 1 4 10 Po P Fr P dut Po P OFF Fr P...

Page 23: ...21 PATON StandardTIG DC MMA TIG MIG MAG dut 10 0 50 Po P 2 100 Po P 30 Fr P 10 0 dut 50 70 130 10 50 dut 50 dut 20 dut 70 100 100 6 1 5 MIG MAG 2...

Page 24: ...PATON StandardTIG DC MMA TIG MIG MAG 22 Ar He 70 Ar 30 CO2 16 2 2 Ar CO2 Ar 8 I 4 MIG MAG 2 6 1 9...

Page 25: ...23 PATON StandardTIG DC MMA TIG MIG MAG 1 2 PATON Feeder 15 2 2 Feeder 15 4 4 0 2 4 5 19 0 6 1 2 2...

Page 26: ...PATON StandardTIG DC MMA TIG MIG MAG 24 5 1 MIG MAG 2 6 1 5 1 1 2T t Pr t uP 5 1 t dn t Po...

Page 27: ...25 PATON StandardTIG DC MMA TIG MIG MAG 5 2 MIG MAG 4T 6 1 5 2 1 4T 4 4 4 t uP 5 2 t dn t Po 4 4...

Page 28: ...PATON StandardTIG DC MMA TIG MIG MAG 26 t Pr 2 PATON 2 5 3 3 OFF 6 1 5 4 t uP t up 0 1 OFF 6 1 t uP t uP 0 2 0 5...

Page 29: ...27 PATON StandardTIG DC MMA TIG MIG MAG 5 5 t dn 0 1 6 1 t dn t dn 0 3 0 7 5 6 Po P Fr P dut Po P OFF Fr P dut 20 50 Po P 0 8 5 5 dut 50 14 4V 21 6V 20 50...

Page 30: ...PATON StandardTIG DC MMA TIG MIG MAG 28 dut 50 dut 20 dut 70 18V 18V 6 1 6 1 MMA 2 TIG 3 MIG MAG 2 3 1 2 12...

Page 31: ...29 PATON StandardTIG DC MMA TIG MIG MAG 4 6 1 3 3 5 3 3 2 2 3 3 10 333 222 111 6 2 4 1 6 3 3 10 333 222 111 000 6 4 MMA TIG MIG MAG 16 1...

Page 32: ...dTIG 200 12 250 1 StandardTIG 250 12 270 1 StandardTIG 270 400V 14 350 1 StandardTIG 350 400V 1 H St 40 a 0 OFF 100 5 2 t HS 0 3 a 0 1 1 0 0 1 3 Ar F 40 a 0 OFF 100 5 4 u AF 12V a 9 18V 1V 5 BAH 1 4V...

Page 33: ...2 t Pr 2 0 0 5 25 0 0 1 3 t Po 3 0 1 0 25 0 0 1 4 Pr A 15 a 8 40 1 StandardTIG 160 10 40 1 StandardTIG 200 12 40 1 StandardTIG 250 12 40 1 StandardTIG 270 400V 14 40 1 StandardTIG 350 400V 5 Po A 20 a...

Page 34: ...0 1V StandardTIG 270 400V 12 0 30 0V 0 1V StandardTIG 350 400V 1 But 2T 2T 2 4T 4 4T 4 2 Ind OFF 0 OFF 3 1 3 t up OFF a 0 OFF 5 0 0 1 4 t dn 0 1 a 0 1 5 0 0 1 5 Po P OFF a 0 OFF 80 5 6 Fr P 20 a 5 500...

Page 35: ...TIG MIG MAG 160 260V StandardTIG 160 200 250 320 440V StandardTIG 270 350 400V 9 5 10 4 15150 69 5 50 11 12 1 1 2 ABICOR BINZEL 3 1 3 1 4 1 StandardTIG 160 200 ABICOR BINZEL 4 1 ABICOR BINZEL 3 1 Sta...

Page 36: ...PATON StandardTIG DC MMA TIG MIG MAG 34 13...

Page 37: ...35 PATON StandardTIG DC MMA TIG MIG MAG...

Page 38: ...PATON StandardTIG DC MMA TIG MIG MAG 36 PATON StandardTIG 160 200 250 DC MMA TIG MIG MAG...

Page 39: ...37 PATON StandardTIG DC MMA TIG MIG MAG PATON StandardTIG 270 400V 350 400V DC MMA TIG MIG MAG...

Page 40: ...PATON StandardTIG DC MMA TIG MIG MAG 38 14 StandardTIG 160 5 StandardTIG 200 StandardTIG 250 3 StandardTIG 270 400V StandardTIG 350 400V 2 PATON...

Page 41: ...39 PATON StandardTIG DC MMA TIG MIG MAG...

Page 42: ...0 3 6 50 3 7 50 3 8 50 4 TIG 51 4 1 1 TIG LIFT 52 4 1 2 TIG LIFT 53 4 2 1 TIG 2T 54 4 2 2 TIG 2T 55 4 3 1 TIG 4T 55 4 3 2 TIG 4T 57 4 4 57 4 5 57 4 6 57 4 7 58 4 8 58 4 9 58 4 10 58 5 MIG MAG 59 5 1 M...

Page 43: ...2 0 105 2 5 130 4 0 205 6 0 310 4 160 1 0 2 0 75 2 5 95 4 0 155 6 0 230 5 200 2 5 60 4 0 100 6 0 150 5 6 250 1 2 2 5 48 4 80 6 120 3 x 380 400V StandardTIG 270 400V StandardTIG 350 400V 3 120 0 8 1 5...

Page 44: ...StandardTIG 160 200 250 270 400V 350 400V MMA TIG MIG MAG Standard 160 200 250 270 350 1 6 6 0 6 1 4 MMA StandardTIG PATON 16 1 MMA 1 10 TIG 1 10 MIG MAG 1 7 2 3 160 260 StandardTIG 160 200 250 320 4...

Page 45: ...12 29 12 30 1 6 4 0 1 6 5 0 1 6 6 0 1 6 6 0 1 6 6 0 0 6 1 0 0 6 1 0 0 6 1 2 0 6 1 2 0 6 1 4 MMA 0 2 500 TIG 0 2 500 MIG MAG 5 500 MMA 0 2 500 TIG 0 2 500 MIG MAG 5 500 MMA 0 2 500 TIG 0 2 500 MIG MAG...

Page 46: ...PATON StandardTIG DC MMA TIG MIG MAG 44 250 2 8 25 2 1 25 3 12 35 2 1 35 270 5 11 35 2 1 35 350 6 14 35 2 1 35 1 2 3 4 MMA TIG MIG MAG 5 6 7 8 9 10...

Page 47: ...45 PATON StandardTIG DC MMA TIG MIG MAG 11 12 MMA TIG MIG MAG MIG MAG B MMA TIG MIG MAG MIG MAG 2 13 2 1 2 2 5...

Page 48: ...PATON StandardTIG DC MMA TIG MIG MAG 46 3 4 4 2 3 1 220 27 18 StandardTIG 160 200 250 2 3x380 3x400 StandardTIG 270 350 400V 1 2 270 StandardTIG 160 200 250 450 StandardTIG 270 350 400V 2 4 2 5 3 2 2...

Page 49: ...47 PATON StandardTIG DC MMA TIG MIG MAG 3 MMA B 8 I 4 MMA 5 4 2 6 1 MMA I 3 1 MMA 6 1...

Page 50: ...PATON StandardTIG DC MMA TIG MIG MAG 48 3 2 HOT START 40 3 90 90 40 126 6 1 3 3 ARC FORCE...

Page 51: ...49 PATON StandardTIG DC MMA TIG MIG MAG 40 3 2 6 1 3 4 ANTI STICK 0 6 0 8...

Page 52: ...PATON StandardTIG DC MMA TIG MIG MAG 50 3 5 1 4V A 21 3 13 45 70 1 0V A 1 4 0 2 0 6V A 18V 6 1 3 6 ON OFF 6 1 3 7 0 1 12 OFF 6 1 3 8...

Page 53: ...51 PATON StandardTIG DC MMA TIG MIG MAG OFF 5 0 50 3 60 40 5 0 50 36 84 5 50 50 50 20 70 60 60 6 1 4 TIG TIG 2T 4 2 1...

Page 54: ...PATON StandardTIG DC MMA TIG MIG MAG 52 Ar He 40 Ar 60 150 4 1 1 TIG LIFT 6 1 B A...

Page 55: ...53 PATON StandardTIG DC MMA TIG MIG MAG 8 I 4 TIG TIG LIFT 3 2 LIFT 4 2 6 1 13 4 1 2 TIG LIFT...

Page 56: ...PATON StandardTIG DC MMA TIG MIG MAG 54 4 2 1 TIG 2T 6 1 B 6 7 A...

Page 57: ...55 PATON StandardTIG DC MMA TIG MIG MAG 8 I 4 TIG TIG 2T 3 2 2T 4 2 6 1 13 4 2 2 TIG 2T 4 3 1 TIG 4T...

Page 58: ...PATON StandardTIG DC MMA TIG MIG MAG 56 6 1 B 6 7 A 9 8 I 4 TIG TIG 4T 3 2 4T 3 2 6 1 13...

Page 59: ...57 PATON StandardTIG DC MMA TIG MIG MAG 4 3 2 TIG 4T TIG 2T 4 2 2 4 4 2 0 6 1 4 5 TIG 4T 20 6 1 4 6 TIG 2T OFF...

Page 60: ...PATON StandardTIG DC MMA TIG MIG MAG 58 6 1 4 7 OFF 6 1 4 8 TIG 4T 20 6 1 4 9 3 0 6 1 4 10...

Page 61: ...59 PATON StandardTIG DC MMA TIG MIG MAG OFF 10 0 50 2 100 30 10 0 50 70 130 10 50 50 20 70 100 100 6 1 5 MIG MAG...

Page 62: ...PATON StandardTIG DC MMA TIG MIG MAG 60 2 Ar He 70 Ar 30 CO2 16 2 2 Ar CO2 Ar...

Page 63: ...61 PATON StandardTIG DC MMA TIG MIG MAG 8 I 4 MIG MAG 2 6 1 9 1 2 PATON Feeder 15 2 2 Feeder 15 4 4 0 2 4 5 19 0 6 1 0 2...

Page 64: ...PATON StandardTIG DC MMA TIG MIG MAG 62 5 1 MIG MAG 2T 6 1 5 1 1 2T t Pr t uP 5 1 t dn t Po...

Page 65: ...63 PATON StandardTIG DC MMA TIG MIG MAG 5 2 MIG MAG 4T 6 1 5 2 1 4T 4 4 4 t uP 5 2 t dn t Po 4 4...

Page 66: ...PATON StandardTIG DC MMA TIG MIG MAG 64 t Pr 2 PATON 2 5 3 3 OFF 6 1 5 4 t uP t up 0 1 OFF 6 1 t uP t uP 0 2 0 5...

Page 67: ...65 PATON StandardTIG DC MMA TIG MIG MAG 5 5 t dn 0 1 6 1 t dn t dn 0 3 0 7 5 6 OFF 20 50 0 8 4 5 18V 20 20 50 14 4V 21 6V 20...

Page 68: ...PATON StandardTIG DC MMA TIG MIG MAG 66 50 50 20 70 18V 18V 6 1 6 1 MMA 2 TIG 3 MIG MAG 2 3...

Page 69: ...67 PATON StandardTIG DC MMA TIG MIG MAG 1 2 12 4 6 1 3 3 5 3 3 2 2 3 3 10 333 222 111 6 2 4 1 6 3 3 10 333 222 111 000...

Page 70: ...3 3 5 3 7 MMA 0 90 8 160 1 StandardTIG 160 10 200 1 StandardTIG 200 12 250 1 StandardTIG 250 12 270 1 StandardTIG 270 400V 14 350 1 StandardTIG 350 400V 1 40 a 0 OFF 100 5 2 0 3 a 0 1 1 0 0 1 3 40 a...

Page 71: ...350 1 StandardTIG 350 400V 1 2T a LIFT TIG LIFT b 2T TIG 2T c 4T TIG 4T 2 2 0 0 5 25 0 0 1 3 3 0 1 0 25 0 0 1 4 15 a 8 40 1 StandardTIG 160 10 40 1 StandardTIG 200 12 40 1 StandardTIG 250 12 40 1 Sta...

Page 72: ...V StandardTIG 200 12 0 28 0V 0 1V StandardTIG 250 12 0 29 0V 0 1V StandardTIG 270 400V 12 0 30 0V 0 1V StandardTIG 350 400V 1 But 2T 2T 2 4T 4 4T 4 2 Ind OFF 0 OFF 3 1 3 t up OFF a 0 OFF 5 0 0 1 4 1 0...

Page 73: ...MIG MAG 6 250 1 2 10 kVA 6 270 1 2 12 0 kVA 6 350 1 4 16 0 kVA 160 260V StandardTIG 160 200 250 320 440V StandardTIG 270 400V 350 400V 9 5 10 4 15150 69 5 5 0 11 12 1 1 2 1 3 1 StandardTIG 160 200 ABI...

Page 74: ...PATON StandardTIG DC MMA TIG MIG MAG 72 StandardTIG 160 200 250 PATON 1 13...

Page 75: ...73 PATON StandardTIG DC MMA TIG MIG MAG...

Page 76: ...PATON StandardTIG DC MMA TIG MIG MAG 74 PATON StandardTIG 160 200 250 DC MMA TIG MIG MAG...

Page 77: ...75 PATON StandardTIG DC MMA TIG MIG MAG PATON StandardTIG 270 400V 350 400V DC MMA TIG MIG MAG...

Page 78: ...PATON StandardTIG DC MMA TIG MIG MAG 76 14 StandardTIG 160 5 StandardTIG 200 StandardTIG 250 3 StandardTIG 270 400V StandardTIG 350 400V 2 PATON...

Page 79: ...77 PATON StandardTIG DC MMA TIG MIG MAG...

Page 80: ...function 94 4 5 Pre current function pilot arc 94 4 6 Welding current build up function 95 4 7 Ramp down function 95 4 8 Crater filling current function 95 4 9 Shielding gas post purge function 95 4 1...

Page 81: ...0 230 5 mm not more than 200 2 5 60 4 0 100 6 0 150 5 mm 6 mm fusible up to 250 up to 1 2 mm 2 5 48 4 80 6 120 3 x 380 400V StandardTIG 270 400V StandardTIG 350 400V 3 mm not more than 120 not more t...

Page 82: ...ated in the MMA mode with the possibility of switching it on and off This StandardTIGmodel manufactured by PATON has a built inunit protecting against short term over voltage and under voltage The dev...

Page 83: ...0 2 500Hz TIG 0 2 500Hz MIG MAG 5 500 Hz MMA 0 2 500Hz TIG 0 2 500Hz MIG MAG 5 500 Hz MMA 0 2 500Hz TIG 0 2 500Hz MIG MAG 5 500 Hz Hot Start in the MMA mode Adjustable Arc Force in the MMA mode Adjust...

Page 84: ...is normal the indicator is off when the unit is overheated it flashes 6 Socket for shielding gas supply to the torch 7 Connector for controlling torch buttons 8 Button automatic breaker for turning th...

Page 85: ...structions in this user manual 2 2 SPACE REQUIREMENTS The welding unit is protected against penetration of foreign particles with a diameter of more than 5 5 mm The welding unit can be located and ope...

Page 86: ...ng to safety rules please use the sockets with guaranteed grounding 2 5 SELECTING THE DEVICE MENU LANGUAGE To select change the menu language of the device hold down button 3 and turn on the device Af...

Page 87: ...ss lack of penetration prevention of slag inclusions manual setting allows you to set the function level to the minimum value which greatly reduces power consumption at the initial moment of striking...

Page 88: ...k function which will be discussed in the next paragraph manual setting allows you to set the function level to a minimum value which slightly reduces energy consumption as well as the concentration o...

Page 89: ...ly striking the arc After the electrode is detached from the workpiece the welding process can be continued unobstructed 3 5 CURRENT VOLTAGE CHARACTERISTIC SLOPE CONTROL FUNCTION This function is prim...

Page 90: ...of the molten metal of the seam and on the transfer of the drop into the weld pool and this in turn affects the stability of the seam formation and the welding process In other words this process rep...

Page 91: ...g cycle set is TIG 2T see paragraph 4 2 1 As a shielding gas pure argon Ar is most often used sometimes helium He as well as a mixture of them in various proportions of 40 Ar 60 He DO NOT allow the us...

Page 92: ...the same way if you omitted the required mode of the button press button 4 again the functions are switched in a circle after the unit reaches the main parameter use buttons 2 to set the welding curre...

Page 93: ...rpened electrode tip away from the workpiece The unit will detect this moment and perceive it as a signal to start the welding process thereby starting to increase the welding current LINEARLY to the...

Page 94: ...u omitted the required mode of the button press button 4 again the functions are switched in a circle after the unit reaches the main parameter use buttons 2 to set the welding current if necessary yo...

Page 95: ...ection from the TIG torch to socket 6 on the left insert the connector of the torch control button into socket 7 on the right insert the ground cable into the socket of the source A connect the ground...

Page 96: ...eleased the process of current build up will begin and the source will reach the operating current i e the button does not need to be held when the operating current is fed The second difference is at...

Page 97: ...welding process It is necessary for crater filling in the TIG 4T button mode with the second press of the torch button By default the crater filling current is set at 20A See paragraph 6 1 to change t...

Page 98: ...ty cycle 50 duty cycle 20 duty cycle 70 At the same time the unit will react in such a way that while maintaining the specified pulse difference the average current level will be maintained during the...

Page 99: ...re made power jumper with a cable cross section of at least 16 mm2 must be connected to the socket of the source A and the other end is connected to the power terminal of the wire feeder in each case...

Page 100: ...mal pressure for welding a particular product then at the first moment the gas pressure canbe set higher than the optimal value of 0 2 MPa This will have little effect on the process only the shieldin...

Page 101: ...ggered for the time t Pr gas valve opens then a signal is given to turn on the source and the wire feed motor From this moment the welding process begins at the same time the function of smooth reachi...

Page 102: ...begins at the same time the function of smooth reaching the welding mode for the time t uP is triggered as well as additional functions e g pulse mode can be triggered all this according to the cycle...

Page 103: ...ode in the set time t uP which reduces splashing of the weld pool and splatter at the moment of striking when the wire is still cold The extended smooth reach time is used for the initial weld pool fo...

Page 104: ...ent this function in the source you need to set three parameters pulsation power pulsation frequency and pulse pause ratio or duty cycle By default the pulsation power as a key parameter is in the OFF...

Page 105: ...lding current 3 in the MIG MAG mode welding voltage Buttons 2 on the front panel are responsible for changing the value of the selected function or main parameter Button 3 on the front panel of the un...

Page 106: ...the user to save up to 16 different presets The current preset program number is displayed in the upper right corner of the LCD of the source on the front panel At the moment of the first switching o...

Page 107: ...OFF 80 change step 5 9 current pulsation frequency 50Hz by default a 0 2 500Hz dynamic step 10 pulse pause ratio duty cycle it is the percentage of the current pulse to the period of repetition of the...

Page 108: ...default a 0 OFF 80 change step 5 9 current pulsation frequency 5 0Hz by default a 0 2 500Hz dynamic step 10 pulse pause ratio duty cycle it is the percentage of the current pulse to the period of rep...

Page 109: ...2 mm 10 kVA 6 fusible not more than 270 not more than 1 2 mm 12 0 kVA 6 not more than 350 not more than 1 4 mm 16 0 kVA For trouble free operation The output voltage of the generator must not exceed t...

Page 110: ...IG 160 200 250 Branded PATON plastic case 1 pc 13 SAFETY RULES GENERAL PROVISIONS The welding unit is manufactured in accordance with technical standards and established safety rules However if handle...

Page 111: ...URRENT electric shock can be fatal magnetic fields created by the high current can have a negative effect on the performance of electrical devices e g a pacemaker Persons with such devices should seek...

Page 112: ...PATON StandardTIG DC MMA TIG MIG MAG 110 Wiring schematic diagram Source PATON Standard TIG 160 200 250 DC MMA TIG MIG MAG...

Page 113: ...111 PATON StandardTIG DC MMA TIG MIG MAG Wiring schematic diagram Source PATON Standard TIG 270 400V 350 400V DC MMA TIG MIG MAG...

Page 114: ...rts as a result of falling from a height or falling of heavy objects on the equipment falling out of buttons and connectors with traces of corrosion which caused a malfunction failed due to exposure o...

Page 115: ...ty repairs or to set the month and year of manufacture of the unit as the start date for the fulfilment of warranty obligations established by the serial number if the owner loses the data sheet in th...

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