EQUIPMENT DESCRIPTION
The present product is a manual metal-welding equipment by
means of heat produced by an electric arc.
Technologically, the STAYER WELDING equipment is an
electrical power supply source for welding through the
transference of high-frequency power managed by smart
control logic and the improvement of the welding.
Compared to the traditional technology, based on transformers
operating at the 50Hz public grid frequency, the STAYER
WELDING Inverter technology presents a higher power density
per weight unit, an increased power saving and the possibility of
an automatic, precise and instantaneous control of all welding
parameters.
As a result, you will easily produce a better weld with lower-
consumption and a weightless equipment compared to the
equivalent traditional ones based on heavy transformers.
All series of MMA STAYER WELDING equipment are suitable
for coated electrode welding and tungsten electrode torch
welding with inert gas protection.
Fig 1, 2, and 8.
1- On-off switch
2- Power indicator light
3- Thermal cooling pause indicator light
4- Welding intensity adjustment control
5- Connection terminals of the welding cords
6- Power supply cord and plug of the equipment (model
depends on the country)
7- Electrode / TIG mode commuter (only PROGRESS1700L /
1700PFC / 2100PFC models)
8- Welding amperage (A) indicator display
9- Arc Force Regulator (PROGRESS1700PFC / 20100PFC)
Fig 3.
1- Positive welding output borne (+) Plug the working cable to
the welding positive output terminal
2- Negative welding output borne (-) Plug the TIG torch to the
welding output borne (-)
3- Gas cylinder
4- Cylinder Valve: slightly open the valve for the gas to flow and
blow the dirt of it. Close the valve
5- Regulator / Flowmeter
6- Flow adjustment: the typical flow rate is 7,1L/min (15 cubic
feet per hour). Plug the torch gas hose to the regulator /
flowmeter
7- Gas Valve: The valve placed in the handle controls the gas
pre-flow and post-flow. Open the valve on the torch itself right
before welding and close it right after it.
Fig 4, 8.
1- Negative welding output borne (-). Plug the working cable to
the welding negative output borne.
2- Positive welding output borne (+). Plug the electrode holder
to the welding positive output borne.
Fig. 5 - S100.25B Series:
1- Indicator Display
2- Hot Start regulation
3- Arc Force regulation
4- Amperage regulation
5- Power indicator light
6- Alarm and thermal rest indicator light
Figs 9,10
1- Output amperes adjustment
2- 'Arc Force' adjustment
3- MMA / TIG Lift Arc selector
4- VRD On/Off selector
5- Thermal pause indicator
6- GRID / GENERATOR power supply origin selector
7- 'Hot Start' adjustment
8- Menu selector button
9- Value increase button
10- Value drop button
Fig. 11
1- Rotary encoder with push button for the parameters' selec-
tion and adjustment
2- Push button's no-load output voltage reducing device
3- Push button for normal or pulsed welding
4- Selection indicator for peak current adjustment
5- Selection indicator for base current adjustment
6-
Selection
indicator
adjustment
7- Selection indicator for pulse frequency adjustment
8- Thermal pause by duty cycle indicator
9- 'ARC FORCE' adjustment potentiometer
1.- EXPLANATION OF THE NORMATIVE
MARKING
2
4
6
8
7
9
14
15
18
Pos. 1 – Name, address and the brand manufacturer, supplier
or importer.
Pos. 2 – Identification of the model
Pos. 3 – Model traceability
Pos. 4 – Welding power source symbol
Pos. 5 - Equipment complied regulations reference
Pos. 6 – Welding process symbol
Pos. 7 – Symbol of usage in electric shock increased risk
environments
Pos. 8 – Welding current symbol
Pos. 9 – Nominal no-load voltage
Pos. 10 – Voltage range and nominal output current
Pos. 11 – Power source duty cycle
Pos. 11a – 45% Duty cycle
Pos. 11b – 60% Duty cycle
Pos. 11c – 100% Duty cycle
Pos. 12 – Nominal cutting current (I2)
Pos. 12a – Current value for a 45% duty cycle
-
27
-
for
peak-over-base
percentage
1
3
5
10
11
11a
11b
12
12a
12b
13
13a
13b
16
17
es
it
gb
fr
p
tr
pl
cz
el
11c
12c
13c