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Brand Name : | FUJI |
Model Number : | AGFGC8056 |
Certification : | CE |
Price : | negotiation |
Payment Terms : | T/T, Western Union, Paypal |
Supply Ability : | 100 pcs/month |
Delivery Time : | 1-3 days |
MOQ : | 1 PIECE |
Good Condition Fuji Spare Parts XP143 HOLDER LIGHT AGFGC8056 Long
Lifespan
Product Specification:
Brand Name | FUJI XP143 HOLDER LIGHT AGFGC8056 |
Part Number | AGFGC8056 |
Model | Fuji NXT Machine spare parts |
Warranty | 1 month |
Usage for Machine | FUJI CP6 CP7 CP8 NXT SMT MACHINE SPARE PARTS |
Ensure | Test in machine before shipping |
Guarantee | Original 100% |
Delivery Methods | Ocean Transport, Air Transport, Air Express Services |
Delivery Terms | EXW, FOB, CIF |
Payment Terms | Pay In Advance |
Services | Supply original new or used and repair service |
Supply Ability:
Supply all original FUJI parts at good discount:
Stock Details:
Description | Part Number | Model | Size | Drive |
YAMAHA FEEDER | KHJ-MC100-001 | SS | 8MM | ELECTRIC |
YAMAHA FEEDER | KHJ-MC200-100 | SS | 12/ 16MM | ELECTRIC |
YAMAHA FEEDER | KHJ-MC400-002 | SS | 24MM | ELECTRIC |
YAMAHA FEEDER | KHJ-MC500-001 | SS | 32MM | ELECTRIC |
YAMAHA FEEDER | KHJ-MC600-001 | SS | 44MM | ELECTRIC |
YAMAHA FEEDER | KHJ-MC700-001 | SS | 56MM | ELECTRIC |
YAMAHA FEEDER | KLJ-MC100-004 | ZS | 8MM | ELECTRIC |
YAMAHA FEEDER | KLJ-MC200-004 | ZS | 12/ 16MM | ELECTRIC |
YAMAHA FEEDER | KLJ-MC400-004 | ZS | 24MM | ELECTRIC |
YAMAHA FEEDER | KLJ-MC500-002 | ZS | 32MM | ELECTRIC |
YAMAHA FEEDER | KLJ-MC600-002 | ZS | 44MM | ELECTRIC |
YAMAHA FEEDER | KLJ-MC700-002 | ZS | 56MM | ELECTRIC |
SMT Advantages:
Surface mount technology, SMT and its associated surface mount
devices, SMDs considerably speed up PCB assembly as the components
simply mount on the board.
Look inside any piece of commercially made electronic equipment
these days and it is filled with minute devices. Rather than using
traditional components with wire leads like those that may be used
for home construction and kits, these components are mounted onto
the surface of the boards and many are minute in size.
1. Better mechanical performance under shock and vibration
conditions (partly due to lower mass, and partly due to less
cantilevering)
2. Lower resistance and inductance at the connection; consequently,
fewer unwanted RF signal effects and better and more predictable
high-frequency performance.
3. Better EMC performance (lower radiated emissions) due to the smaller radiation loop area (because of the smaller package) and the lesser lead inductance.
4. Fewer holes need to be drilled. (Drilling PCBs is time-consuming and expensive.)
5. Lower initial cost and time of setting up for mass production,
using automated equipment.
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