Automatic Repair Reballing Machine
1. Automatic Repair Reballing Machine for motherboards, BGA, QFN, chips, LED etc. 2. Automatic heating and cooling system. 3. Top head goes up / down automatically. 4. Welcome to our factory to test our machine before placing orders. 5. CCD camera and touch screen available.
Automatic Optical Repair Reballing Machine
1.Application Of Automatic Optical Repair Reballing Machine with CCD camera.
Work with all kinds of motherboards or PCBA.
Solder, reball, desoldering different kind of chips: BGA,PGA,POP,BQFP,QFN,SOT223,PLCC,TQFP,TDFN,TSOP, PBGA,CPGA,LED chip.
2.Product Features of Automatic Optical Repair Reballing Machine with optical alignment.
3.Specification of Automatic Optical Repair Reballing Machine with touch screen.
4.Details of Automatic Optical Repair Reballing Machine with infrared laser positioning.
5.Why Choose Our Automatic Optical Repair Reballing Machine?
6.Certificate of Automatic Optical Repair Reballing Machine
UL, E-MARK, CCC, FCC, CE ROHS certificates. Meanwhile, to improve and perfect the quality system, Dinghua has passed ISO, GMP, FCCA, C-TPAT on-site audit certification.
7.Packing & Shipment of Automatic Optical Repair Reballing Machine
8.Shipment for Automatic Optical Repair Reballing Machine
DHL/TNT/FEDEX. If you want other shipping term, please tell us. We will support you.
9. Terms of Payment
Bank transfer, Western Union, Credit Card.
Please tell us if you need other support.
10. How DH-A2 Automatic Repair Reballing Machine work?
11. Related knowledge
About the motherboard chipset
The chipset requires strong performance, good compatibility, interchangeability and scalability, and the highest cost performance requirements, and moderately consider the user's scalability in a certain period of time, the expansion capability is the highest among the three.
In the earliest notebook design, there was no separate notebook chipset, and the same chipset as the desktop computer was adopted. With the development of technology, the notebook dedicated CPU appeared, and there was a notebook dedicated chipset. Notebook chipsets require lower power consumption and good stability, but the overall performance and scalability are among the lowest.
The overall performance and stability of the chipset is the highest among the three. Some products even require full-load operation throughout the year. The highest memory capacity is supported, and it can support up to ten or even tens of GB of memory. Moreover, it has the highest requirements for data transmission speed and data security, so its storage devices also use SCSI interfaces instead of IDE interfaces, and RAID is used to improve performance and ensure data security.
So far, manufacturers that can produce chipsets include Intel (USA), AMD (USA), NVIDIA (USA), Server Works (USA), VIA (Taiwan, China), SiS (Taiwan, China), among others. AMD is the most common.
Intel's own chipset has the largest market share, and the product line is complete, high, medium, low-end and integrated products, VIA, SiS, etc. can only occupy a relatively small market share, and mainly In the low-end and integration areas.
AMD also has a large market share, and NVIDIA, VIA, and SiS have basically withdrawn from the motherboard chipset market.
The Intel platform has an absolute advantage, so Intel's notebook chipset also has the largest market share, and other manufacturers can only play a supporting role and design products for the AMD platform with a small market share.
Intel platform is definitely the dominant position. Intel's own server chipset products occupy most middle and low-end markets, and Server Works has the largest market share in the middle and high-end areas due to Intel's authorization. Even Intel originally. The server server motherboard also has a product using the Server Works chipset. In the server/workstation chipset field, the Server Works chipset means high-performance products; while the AMD server/workstation platform is mainly based on AMD's own market due to its small market share. Chipset products.
5 development status editor
The technology of the chipset has also advanced by leaps and bounds from ISA, PCI to AGP, ATA to SATA, Ultra DMA technology, dual channel memory technology, high-speed front-side bus, etc. Every new technology advancement brings computer performance. . In 2004, there was a major change in chipset technology. The most striking thing was PCI Express bus technology, which will replace PCI and AGP, which will greatly increase the bandwidth of the device, thus bringing about a revolution in computer technology. On the other hand, chipset technology is also moving toward high integration. For example, AMD Athlon 64 CPU has integrated memory controller inside, which greatly reduces the difficulty of chipset manufacturers designing products, and now the chipset products have been integrated. Audio, network, SATA, RAID and other functions greatly reduce the cost of users. There are also gaps in performance performance for different chipsets. In addition to the most versatile North-South bridge architecture, the current chipset is moving toward a more advanced accelerated hub architecture. Intel's 8xx family of chipsets is representative of such chipsets, and it will have subsystems such as IDE interfaces, sound effects, MODEM and USB directly accesses the main chip, which provides twice the bandwidth of the PCI bus, reaching 266MB/s.