MOORE AUTOMATION LIMITED |
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103H7126-0722 SANYO STEPPING MOTOR
Brand/Manufacturer | SANYO /JAPAN |
Part Number | 103H7126-0722 |
Alternate Part Number | 103H7126-0722 |
Description | STEPPING MOTOR |
Dimennsions | 6.4cm x 9.3cm x 6.0cm |
Weight | 0.14kg |
Product Details
Applications:
Various inductance, lamp drivers for electrical equipment.
Inverters, converters (strobo, flash, fluorescent lamp lighting circuit).
Power amp (high-power care stereo, motor control).
High-speed siwtching (switching regulators, driver).
Features:
Low saturation voltage.
Excellent dependence of hFE on current.
Fast switching time.
Specifications:
Collector-to-Base Voltage (–)80 V
Collector-to-Emitter Voltage (–)60 V
Emitter-to-Base Voltage (–)5 V
Collector Current (–)15A
Collector Current (Pulse) (–)20A
Collector Dissipation 80 W
Junction Temperature 150˚C
Storage Temperature –55 to +150˚C
Moore News
METALLURGICAL INDUSTRY
Metallurgical Industry Capability
Blast furnace ironmaking is the use of iron-containing raw
materials (sinter, pellet or iron ore), fuel (coke, coal powder,
etc.) and other auxiliary materials (limestone, dolomite, manganese
ore, etc.)The blast furnace is charged into a certain proportion,
and hot air is blown into the blast furnace to help the coke burn,
and the raw materials and fuel are lowered as the smelting process
in the furnace progresses.
The process is simple, the production volume is large, the labor
productivity is high, and the energy consumption is low. The iron
produced by this method still accounts for more than 95% of the
total iron production in the world. In the blast furnace
production, iron ore, coke, slag flux (limestone) is loaded from
the top of the furnace, and preheated air is blown from the tuyere
at the lower part of the furnace along the circumference of the
furnace. At high temperatures, carbon in coke (some blast furnaces
also spray auxiliary fuel such as pulverized coal, heavy oil,
natural gas, etc.) and carbon monoxide and hydrogen produced by
combustion of oxygen in the air. The oxygen in the iron ore is
removed during the ascent in the furnace, thereby reducing the
iron. The molten iron is discharged from the iron mouth.
The impurities that are not reduced in the iron ore are combined
with a flux such as limestone to form slag, which is discharged
from the slag port. The generated gas is exported from the top of
the furnace. After dedusting, it is used as fuel for hot blast
stoves, heating furnaces, coke ovens, boilers, etc.
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