KK2008-0204-F1
KK2008-0204-F1
KK2008-0204-F1
联系人:刘锦玲
手 机:15359273791(微信同号)
Email: sales5@xrjdcs,com
地址:福建省厦门市翔安区中国.梦谷1号楼1403
凯创网络公司(Enterasys Networks)是一家美国网络公司,总部位于新罕布什尔州塞勒姆。公司产品主要是联网设备,包括:路由器,交换机,IEEE 802.11无线接入点和控制器。公司于2000年3月从凯创系统公司分拆出来而成立。
除了网络硬件,凯创网络还销售用于管理和保护网络的软件,如入侵防御系统,网络接入控制和安全信息管理。
Enterasys XSR-1805
Enterasys XSR-1850
Enterasys XSR-3020
Enterasys XSR-3250
Enterasys XSR-3020
Enterasys XSR-3150
Enterasys XSR-3250
Enterasys A2系列:
Enterasys A2H124-24
Enterasys A2H124-48
Enterasys A2H124-24FX
Enterasys A2H124-24P
Enterasys A2H124-48P
Enterasys A4H124-24FX
Enterasys B2系列:
Enterasys B2G124-24
Enterasys B2G124-48
Enterasys B2H124-48
Enterasys B2H124-48P
Enterasys B2G124-48P
Enterasys
Enterasys B3系列:
Enterasys
Enterasys B3G124-24
Enterasys B3G124-24P
Enterasys B3G124-48
Enterasys B3G124-48P
Enterasys C2系列:
Enterasys C2G124-48
Enterasys C2G124-24
Enterasys C2G124-48P
Enterasys C2K122-24
Enterasys C2H124-48
Enterasys C2H124-48P
Enterasys C2G134-24P
Enterasys C2G170-24
Enterasys C2L3-LIC
Enterasys C2RPS-PSM
Enterasys C2RPS-CHAS8
Enterasys C2RPS-POE
Enterasys C2RPS-CHAS2
Enterasys C3系列:
Enterasys C3G124-48
Enterasys C3G124-24
Enterasys C3G124-48P
Enterasys C3G124-24P
Enterasys C3L3-LIC
Enterasys C3IPv6-LIC
Enterasys D2系列:
Enterasys D2G124-12
Enterasys D2G124-12P
Enterasys D2G124-12-SYS
Enterasys D2G124-12P-SYS
Enterasys D2POL-LIC
Enterasys D2POL-LIC25
Enterasys D2POL-LIC50
Enterasys D2-PWR
Enterasys D2-PWR-POE
Enterasys D2-LOCKBOX
Enterasys D2-RMT
Enterasys D2-TBL-MNT
Enterasys D2-WALL-MNT
Enterasys I系列工业交换机:
Enterasys I3H252-12TX
Enterasys I3H252-4FXM
Enterasys I3H252-8FXM
Enterasys I3H252-8TX-2FX
Enterasys I3H252-6TX-MEM
Enterasys I3H252-4FX-MEM
Enterasys I3H-12TX
Enterasys I3H-4FX-MM
Enterasys I3H-8FX-MM
Enterasys I3H-6TX-MEM
Enterasys I3H-4FXM-MEM
Enterasys I3H-MEM
Enterasys I3H-PWR
Enterasys I-MGBIC-GZX
Enterasys I-MGBIC-GSX
Enterasys 13H-DIN-KIT
Enterasys I3H-RACK-MNT
Enterasys K系列:
Enterasys K6-Chassis
Enterasys K6-FAN
Enterasys K6-MID-KIT
Enterasys K10-Chassis
Enterasys K10-FAN
Enterasys K10-MID-KIT
Enterasys K-AC-PS-1400W
Enterasys K-POE-4BAY
Enterasys K-POE-4BAY-RAIL
Enterasys KK2008-0204-F2
Enterasys KK2008-0204-F1
Enterasys KT2006-0224
Enterasys KG2001-0224
Enterasys KK2008-0204
Enterasys K-EOS-L3
Enterasys K-EOS-PPC
Enterasys S系列:
Enterasys S8-Chassis
Enterasys S8-Chassis-POE4
Enterasys S8-Chassis-POE8
Enterasys S4-Chassis
Enterasys S4-Chassis-POE4
Enterasys S3-Chassis
Enterasys S3-Chassis-POE4
Enterasys S-AC-PS
Enterasys S-POE-PS
Enterasys S-AC
Enterasys ST4006-0272
Enterasys ST4106-0248
Enterasys SG4101-0248
Enterasys ST4106-0348-F6
Enterasys ST1206-0848-F6
Enterasys SG1201-0848-F6
Enterasys SK1208-0808-F6
Enterasys ST1206-0848
Enterasys SG1201-0848
Enterasys SK1008-0816
Enterasys SOK1208-0102
Enterasys SOK1208-0104
Enterasys SOK1208-0204
Enterasys SOG1201-0112
Enterasys SOT1206-0112
Enterasys SSA-T4068-0252
Enterasys SSA-T1068-0652
Enterasys SSA-G1018-0652
Enterasys SSA-AC-PS-600W
Enterasys SSA-AC-PS-1000W
Enterasys SSA-FAN-KIT
Using ARM7 as the main control chip, an intelligent control system for disassembling and reflowing welding table is designed, which can be controlled by keyboard operation and display its state and real-time temperature curve through the liquid crystal display, able to disassemble and weld a variety of integrated chips, suitable for IC board maintenance and processing. Hardware circuit, mainly by transformer, rectifier diode, filter capacitor, integrated regulator and so on, for the circuit to provide 5V, 3.3 v and 1.8 v stable voltage. Signal Detection Circuit Module, mainly by the thermocouple, operational amplifier 27L2, DS18B20 and ARM7 INTERNAL AD and so on. Converts the temperature to a digital signal that the processor recognizes. The temperature collection circuit of this design is shown in Fig. 2. The 1,3 pins of the P 6 ports are connected with the positive end of the thermocouple sensor, and the 2,4 pins are connected with the negative end of the thermocouple sensor. After the signal is collected by the thermocouple, the high frequency clutter is filtered by C00 and C10(high frequency filter capacitor) , and then the signal is amplified by 27L2(low frequency small signal amplifier) . The ratio of R64 to R63 and R65 is U3B magnification, the ratio of R60 to R62 and R61 is the magnification of U3A. After amplification, the high-frequency clutter is filtered by C01 and C11. Finally, the signal is transmitted to ARM7, and the analog voltage signal is converted into digital signal recognized by the processor by its internal AD converter. When the temperature of the probe part of the thermocouple sensor changes, the voltage of the two ends of the thermocouple sensor changes correspondingly according to a certain proportion. Then the voltage signal is amplified by 27L2, and then the analog quantity is converted into digital quantity by the AD inside ARM, the ARM processor knows the current temperature as soon as it gets the digital amount. Of course, the thermocouple module is not enough for accurate temperature measurement. Because the thermocouple sensor has a defect, it measures the temperature difference between the probe and the cold end, that is to say, if only the above circuit is used to measure the temperature, the more the temperature difference between the cold end and the zero point, the less accurate the temperature data will be. In this design, when the welding table is heated, the temperature of the cold end of the thermocouple will change, resulting in inaccurate temperature measurement. In order to solve these problems, DS18B20 is added as compensation, which is called the Correction Coefficient correction method in industry. This design uses ARM7 as the main control chip, mainly because of its high cost performance, rich resources, stable and reliable work. It has 32kB on-chip Flash Program memory and 8kB on-chip static Ram, 128-bit wide interface / accelerator with up to 70MHZ operating frequency, 10-bit a / D converter with 8 inputs; Two 32-bit timer counters and two 16-bit timer counters; up to 32 universal IO ports that can withstand 5V voltage; multiple serial interfaces, including 2 UART, 2 I2C buses, Spi and SSP with buffering and variable data length; Up to 13 edge, level-triggered external interrupt pins; a programmable on-chip PLL can achieve up to 70 MHZ OF CPU operating frequency, and so on. In the 3ARM minimum system, 11.0592M Quartz crystal unit and two 20pF capacitors provide the system with stable operating frequency, and then through the ARM internal pll frequency doubling to make its operating frequency up to 70MHZ. Cat1052 provides a stable reset circuit for the system and a 256-byte read-write E2prom for the system to store power without losing data space.
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