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安装说明原版说明书译文Kinetix 5700 电容器模块和扩展模块产品目录号：2198-CAPMOD-2240、2198-CAPMOD-DCBUS-IO变更摘要本出版物中包含新增和更新信息，如下表所述。

主题页码变更摘要1关于电容器模块和扩展模块2准备事宜2安装电容器模块和扩展模块3连接器数据7接线要求9其他资源14主题页码更新了安装信息，使其与 Bulletin 2198 直流母线调节器模块一致，并将所有三个模块作为附加模块进行介绍。

整本手册更新了 104 A 系统和 208 A 系统的外部直流母线最大电流值。

将扩展 (208 A) 系统示例中的扩展模块替换为直流母线调节器模块。

还更新了关于何时需要使用附加模块的说明。

4将 8720MC-RPS 系统示例中的扩展模块替换为直流母线调节器模块。

还更新了关于何时需要使用附加模块的说明。

5增加了附加模块上 M8 直流母线螺栓的连接尺寸，以备在需要时帮助确定接线片尺寸。

6更新了模块状态引脚信息。

9更新了兼容的有源旁路模块规格信息。

11增加了关于如何获得柔性母排的信息。

2, 122罗克韦尔自动化出版物 2198-IN008D-ZH-P - 2019年2 月Kinetix 5700 电容器模块和扩展模块关于电容器模块和扩展模块2198-CAPMOD-2240 电容器模块、2198-CAPMOD-DCBUS-IO 扩展模块和2198-DCBUSCOND-RP312 直流母线调节器模块还统称为 Kinetix® 5700 附加模块。

附加模块可用于任意 Kinetix 5700 驱动器系统配置中，通过直流母线电源、再生母线电源和 8720MC-RPS 电源供电。

请参见 Kinetix 5700 Servo Drives User Manual (Kinetix 5700 伺服驱动器用户手册，出版号：2198-UM002)，以针对您的应用选择合适的附加模块。

Agricultural Sciences in China2010, 9(9): 1251-1262September 2010Received 30 October, 2009 Accepted 16 April, 2010Analysis of Genetic Diversity and Population Structure of Maize Landraces from the South Maize Region of ChinaLIU Zhi-zhai 1, 2, GUO Rong-hua 2, 3, ZHAO Jiu-ran 4, CAI Yi-lin 1, W ANG Feng-ge 4, CAO Mo-ju 3, W ANG Rong-huan 2, 4, SHI Yun-su 2, SONG Yan-chun 2, WANG Tian-yu 2 and LI Y u 21Maize Research Institute, Southwest University, Chongqing 400716, P.R.China2Institue of Crop Sciences/National Key Facility for Gene Resources and Genetic Improvement, Chinese Academy of Agricultural Sciences,Beijing 100081, P.R.China3Maize Research Institute, Sichuan Agricultural University, Ya’an 625014, P.R.China4Maize Research Center, Beijing Academy of Agricultural and Forestry Sciences, Beijing 100089, P.R.ChinaAbstractUnderstanding genetic diversity and population structure of landraces is important in utilization of these germplasm in breeding programs. In the present study, a total of 143 core maize landraces from the South Maize Region (SR) of China,which can represent the general profile of the genetic diversity in the landraces germplasm of SR, were genotyped by 54DNA microsatellite markers. Totally, 517 alleles (ranging from 4 to 22) were detected among these landraces, with an average of 9.57 alleles per locus. The total gene diversity of these core landraces was 0.61, suggesting a rather higher level of genetic diversity. Analysis of population structure based on Bayesian method obtained the samilar result as the phylogeny neighbor-joining (NJ) method. The results indicated that the whole set of 143 core landraces could be clustered into two distinct groups. All landraces from Guangdong, Hainan, and 15 landraces from Jiangxi were clustered into group 1, while those from the other regions of SR formed the group 2. The results from the analysis of genetic diversity showed that both of groups possessed a similar gene diversity, but group 1 possessed relatively lower mean alleles per locus (6.63) and distinct alleles (91) than group 2 (7.94 and 110, respectively). The relatively high richness of total alleles and distinct alleles preserved in the core landraces from SR suggested that all these germplasm could be useful resources in germplasm enhancement and maize breeding in China.Key words :maize, core landraces, genetic diversity, population structureINTRODUCTIONMaize has been grown in China for nearly 500 years since its first introduction into this second biggest pro-duction country in the world. Currently, there are six different maize growing regions throughout the coun-try according to the ecological conditions and farming systems, including three major production regions,i.e., the North Spring Maize Region, the Huang-Huai-Hai Summer Maize Region, and the Southwest MaizeRegion, and three minor regions, i.e., the South Maize Region, the Northwest Maize Region, and the Qingzang Plateau Maize Region. The South Maize Region (SR)is specific because of its importance in origin of Chi-nese maize. It is hypothesized that Chinese maize is introduced mainly from two routes. One is called the land way in which maize was first brought to Tibet from India, then to Sichuan Province in southwestern China. The other way is that maize dispersed via the oceans, first shipped to the coastal areas of southeast China by boats, and then spread all round the country1252LIU Zhi-zhai et al.(Xu 2001; Zhou 2000). SR contains all of the coastal provinces and regions lie in southeastern China.In the long-term cultivation history of maize in south-ern China, numerous landraces have been formed, in which a great amount of genetic variation was observed (Li 1998). Similar to the hybrid swapping in Europe (Reif et al. 2005a), the maize landraces have been al-most replaced by hybrids since the 1950s in China (Li 1998). However, some landraces with good adapta-tions and yield performances are still grown in a few mountainous areas of this region (Liu et al.1999). Through a great effort of collection since the 1950s, 13521 accessions of maize landraces have been cur-rently preserved in China National Genebank (CNG), and a core collection of these landraces was established (Li et al. 2004). In this core collection, a total of 143 maize landrace accessions were collected from the South Maize Region (SR) (Table 1).Since simple sequence repeat ( SSR ) markers were firstly used in human genetics (Litt and Luty 1989), it now has become one of the most widely used markers in the related researches in crops (Melchinger et al. 1998; Enoki et al. 2005), especially in the molecular characterization of genetic resources, e.g., soybean [Glycine max (L.) Merr] (Xie et al. 2005), rice (Orya sativa L.) (Garris et al. 2005), and wheat (Triticum aestivum) (Chao et al. 2007). In maize (Zea mays L.), numerous studies focusing on the genetic diversity and population structure of landraces and inbred lines in many countries and regions worldwide have been pub-lished (Liu et al. 2003; Vegouroux et al. 2005; Reif et al. 2006; Wang et al. 2008). These activities of documenting genetic diversity and population structure of maize genetic resources have facilitated the under-standing of genetic bases of maize landraces, the utili-zation of these resources, and the mining of favorable alleles from landraces. Although some studies on ge-netic diversity of Chinese maize inbred lines were con-ducted (Yu et al. 2007; Wang et al. 2008), the general profile of genetic diversity in Chinese maize landraces is scarce. Especially, there are not any reports on ge-netic diversity of the maize landraces collected from SR, a possibly earliest maize growing area in China. In this paper, a total of 143 landraces from SR listed in the core collection of CNG were genotyped by using SSR markers, with the aim of revealing genetic diver-sity of the landraces from SR (Table 2) of China and examining genetic relationships and population struc-ture of these landraces.MATERIALS AND METHODSPlant materials and DNA extractionTotally, 143 landraces from SR which are listed in the core collection of CNG established by sequential strati-fication method (Liu et al. 2004) were used in the present study. Detailed information of all these landrace accessions is listed in Table 1. For each landrace, DNA sample was extracted by a CTAB method (Saghi-Maroof et al. 1984) from a bulk pool constructed by an equal-amount of leaves materials sampled from 15 random-chosen plants of each landrace according to the proce-dure of Reif et al. (2005b).SSR genotypingA total of 54 simple sequence repeat (SSR) markers covering the entire maize genome were screened to fin-gerprint all of the 143 core landrace accessions (Table 3). 5´ end of the left primer of each locus was tailed by an M13 sequence of 5´-CACGACGTTGTAAAACGAC-3´. PCR amplification was performed in a 15 L reac-tion containing 80 ng of template DNA, 7.5 mmol L-1 of each of the four dNTPs, 1×Taq polymerase buffer, 1.5 mmol L-1 MgCl2, 1 U Taq polymerase (Tiangen Biotech Co. Ltd., Beijing, China), 1.2 mol L-1 of forward primer and universal fluorescent labeled M13 primer, and 0.3 mol L-1 of M13 sequence tailed reverse primer (Schuelke 2000). The amplification was carried out in a 96-well DNA thermal cycler (GeneAmp PCR System 9700, Applied Biosystem, USA). PCR products were size-separated on an ABI Prism 3730XL DNA sequencer (HitachiHigh-Technologies Corporation, Tokyo, Japan) via the software packages of GENEMAPPER and GeneMarker ver. 6 (SoftGenetics, USA).Data analysesAverage number of alleles per locus and average num-ber of group-specific alleles per locus were identifiedAnalysis of Genetic Diversity and Population Structure of Maize Landraces from the South Maize Region of China 1253Table 1 The detailed information about the landraces used in the present studyPGS revealed by Structure1) NJ dendragram revealed Group 1 Group 2 by phylogenetic analysis140-150tian 00120005AnH-06Jingde Anhui 0.0060.994Group 2170tian00120006AnH-07Jingde Anhui 0.0050.995Group 2Zixihuangyumi00120007AnH-08Zixi Anhui 0.0020.998Group 2Zixibaihuangzayumi 00120008AnH-09Zixi Anhui 0.0030.997Group 2Baiyulu 00120020AnH-10Yuexi Anhui 0.0060.994Group 2Wuhuazi 00120021AnH-11Yuexi Anhui 0.0030.997Group 2Tongbai 00120035AnH-12Tongling Anhui 0.0060.994Group 2Yangyulu 00120036AnH-13Yuexi Anhui 0.0040.996Group 2Huangli 00120037AnH-14Tunxi Anhui 0.0410.959Group 2Baiyumi 00120038AnH-15Tunxi Anhui 0.0030.997Group 2Dapigu00120039AnH-16Tunxi Anhui 0.0350.965Group 2150tianbaiyumi 00120040AnH-17Xiuning Anhui 0.0020.998Group 2Xiuning60tian 00120042AnH-18Xiuning Anhui 0.0040.996Group 2Wubaogu 00120044AnH-19ShitaiAnhui 0.0020.998Group 2Kuyumi00130001FuJ-01Shanghang Fujian 0.0050.995Group 2Zhongdouyumi 00130003FuJ-02Shanghang Fujian 0.0380.962Group 2Baixinyumi 00130004FuJ-03Liancheng Fujian 0.0040.996Group 2Hongxinyumi 00130005FuJ-04Liancheng Fujian 0.0340.966Group 2Baibaogu 00130008FuJ-05Changding Fujian 0.0030.997Group 2Huangyumi 00130011FuJ-06Jiangyang Fujian 0.0020.998Group 2Huabaomi 00130013FuJ-07Shaowu Fujian 0.0020.998Group 2Huangbaomi 00130014FuJ-08Songxi Fujian 0.0020.998Group 2Huangyumi 00130016FuJ-09Wuyishan Fujian 0.0460.954Group 2Huabaogu 00130019FuJ-10Jian’ou Fujian 0.0060.994Group 2Huangyumi 00130024FuJ-11Guangze Fujian 0.0010.999Group 2Huayumi 00130025FuJ-12Nanping Fujian 0.0040.996Group 2Huangyumi 00130026FuJ-13Nanping Fujian 0.0110.989Group 2Hongbaosu 00130027FuJ-14Longyan Fujian 0.0160.984Group 2Huangfansu 00130029FuJ-15Loangyan Fujian 0.0020.998Group 2Huangbaosu 00130031FuJ-16Zhangping Fujian 0.0060.994Group 2Huangfansu 00130033FuJ-17Zhangping Fujian0.0040.996Group 2Baolieyumi 00190001GuangD-01Guangzhou Guangdong 0.9890.011Group 1Nuomibao (I)00190005GuangD-02Shixing Guangdong 0.9740.026Group 1Nuomibao (II)00190006GuangD-03Shixing Guangdong 0.9790.021Group 1Zasehuabao 00190010GuangD-04Lechang Guangdong 0.9970.003Group 1Zihongmi 00190013GuangD-05Lechang Guangdong 0.9880.012Group 1Jiufengyumi 00190015GuangD-06Lechang Guangdong 0.9950.005Group 1Huangbaosu 00190029GuangD-07MeiGuangdong 0.9970.003Group 1Bailibao 00190032GuangD-08Xingning Guangdong 0.9980.002Group 1Nuobao00190038GuangD-09Xingning Guangdong 0.9980.002Group 1Jinlanghuang 00190048GuangD-10Jiangcheng Guangdong 0.9960.004Group 1Baimizhenzhusu 00190050GuangD-11Yangdong Guangdong 0.9940.006Group 1Huangmizhenzhusu 00190052GuangD-12Yangdong Guangdong 0.9930.007Group 1Baizhenzhu 00190061GuangD-13Yangdong Guangdong 0.9970.003Group 1Baiyumi 00190066GuangD-14Wuchuan Guangdong 0.9880.012Group 1Bendibai 00190067GuangD-15Suixi Guangdong 0.9980.002Group 1Shigubaisu 00190068GuangD-16Gaozhou Guangdong 0.9960.004Group 1Zhenzhusu 00190069GuangD-17Xinyi Guangdong 0.9960.004Group 1Nianyaxixinbai 00190070GuangD-18Huazhou Guangdong 0.9960.004Group 1Huangbaosu 00190074GuangD-19Xinxing Guangdong 0.9950.005Group 1Huangmisu 00190076GuangD-20Luoding Guangdong 0.940.060Group 1Huangmi’ai 00190078GuangD-21Luoding Guangdong 0.9980.002Group 1Bayuemai 00190084GuangD-22Liannan Guangdong 0.9910.009Group 1Baiyumi 00300001HaiN-01Haikou Hainan 0.9960.004Group 1Baiyumi 00300003HaiN-02Sanya Hainan 0.9970.003Group 1Hongyumi 00300004HaiN-03Sanya Hainan 0.9980.002Group 1Baiyumi00300011HaiN-04Tongshi Hainan 0.9990.001Group 1Zhenzhuyumi 00300013HaiN-05Tongshi Hainan 0.9980.002Group 1Zhenzhuyumi 00300015HaiN-06Qiongshan Hainan 0.9960.004Group 1Aiyumi 00300016HaiN-07Qiongshan Hainan 0.9960.004Group 1Huangyumi 00300021HaiN-08Qionghai Hainan 0.9970.003Group 1Y umi 00300025HaiN-09Qionghai Hainan 0.9870.013Group 1Accession name Entry code Analyzing code Origin (county/city)Province/Region1254LIU Zhi-zhai et al .Baiyumi00300032HaiN-10Tunchang Hainan 0.9960.004Group 1Huangyumi 00300051HaiN-11Baisha Hainan 0.9980.002Group 1Baihuangyumi 00300055HaiN-12BaishaHainan 0.9970.003Group 1Machihuangyumi 00300069HaiN-13Changjiang Hainan 0.9900.010Group 1Hongyumi00300073HaiN-14Dongfang Hainan 0.9980.002Group 1Xiaohonghuayumi 00300087HaiN-15Lingshui Hainan 0.9980.002Group 1Baiyumi00300095HaiN-16Qiongzhong Hainan 0.9950.005Group 1Y umi (Baimai)00300101HaiN-17Qiongzhong Hainan 0.9980.002Group 1Y umi (Xuemai)00300103HaiN-18Qiongzhong Hainan 0.9990.001Group 1Huangmaya 00100008JiangS-10Rugao Jiangsu 0.0040.996Group 2Bainian00100012JiangS-11Rugao Jiangsu 0.0080.992Group 2Bayebaiyumi 00100016JiangS-12Rudong Jiangsu 0.0040.996Group 2Chengtuohuang 00100021JiangS-13Qidong Jiangsu 0.0050.995Group 2Xuehuanuo 00100024JiangS-14Qidong Jiangsu 0.0020.998Group 2Laobaiyumi 00100032JiangS-15Qidong Jiangsu 0.0050.995Group 2Laobaiyumi 00100033JiangS-16Qidong Jiangsu 0.0010.999Group 2Huangwuye’er 00100035JiangS-17Hai’an Jiangsu 0.0030.997Group 2Xiangchuanhuang 00100047JiangS-18Nantong Jiangsu 0.0060.994Group 2Huangyingzi 00100094JiangS-19Xinghua Jiangsu 0.0040.996Group 2Xiaojinhuang 00100096JiangS-20Yangzhou Jiangsu 0.0010.999Group 2Liushizi00100106JiangS-21Dongtai Jiangsu 0.0030.997Group 2Kangnandabaizi 00100108JiangS-22Dongtai Jiangsu 0.0020.998Group 2Shanyumi 00140020JiangX-01Dexing Jiangxi 0.9970.003Group 1Y umi00140024JiangX-02Dexing Jiangxi 0.9970.003Group 1Tianhongyumi 00140027JiangX-03Yushan Jiangxi 0.9910.009Group 1Hongganshanyumi 00140028JiangX-04Yushan Jiangxi 0.9980.002Group 1Zaoshuyumi 00140032JiangX-05Qianshan Jiangxi 0.9970.003Group 1Y umi 00140034JiangX-06Wannian Jiangxi 0.9970.003Group 1Y umi 00140038JiangX-07De’an Jiangxi 0.9940.006Group 1Y umi00140045JiangX-08Wuning Jiangxi 0.9740.026Group 1Chihongyumi 00140049JiangX-09Wanzai Jiangxi 0.9920.008Group 1Y umi 00140052JiangX-10Wanzai Jiangxi 0.9930.007Group 1Huayumi 00140060JiangX-11Jing’an Jiangxi 0.9970.003Group 1Baiyumi 00140065JiangX-12Pingxiang Jiangxi 0.9940.006Group 1Huangyumi00140066JiangX-13Pingxiang Jiangxi 0.9680.032Group 1Nuobaosuhuang 00140068JiangX-14Ruijin Jiangxi 0.9950.005Group 1Huangyumi 00140072JiangX-15Xinfeng Jiangxi 0.9960.004Group 1Wuningyumi 00140002JiangX-16Jiujiang Jiangxi 0.0590.941Group 2Tianyumi 00140005JiangX-17Shangrao Jiangxi 0.0020.998Group 2Y umi 00140006JiangX-18Shangrao Jiangxi 0.0310.969Group 2Baiyiumi 00140012JiangX-19Maoyuan Jiangxi 0.0060.994Group 260riyumi 00140016JiangX-20Maoyuan Jiangxi 0.0020.998Group 2Shanyumi 00140019JiangX-21Dexing Jiangxi 0.0050.995Group 2Laorenya 00090002ShangH-01Chongming Shanghai 0.0050.995Group 2Jinmeihuang 00090004ShangH-02Chongming Shanghai 0.0020.998Group 2Zaobaiyumi 00090006ShangH-03Chongming Shanghai 0.0020.998Group 2Chengtuohuang 00090007ShangH-04Chongming Shanghai 0.0780.922Group 2Benyumi (Huang)00090008ShangH-05Shangshi Shanghai 0.0020.998Group 2Bendiyumi 00090010ShangH-06Shangshi Shanghai 0.0040.996Group 2Baigengyumi 00090011ShangH-07Jiading Shanghai 0.0020.998Group 2Huangnuoyumi 00090012ShangH-08Jiading Shanghai 0.0040.996Group 2Huangdubaiyumi 00090013ShangH-09Jiading Shanghai 0.0440.956Group 2Bainuoyumi 00090014ShangH-10Chuansha Shanghai 0.0010.999Group 2Laorenya 00090015ShangH-11Shangshi Shanghai 0.0100.990Group 2Xiaojinhuang 00090016ShangH-12Shangshi Shanghai 0.0050.995Group 2Gengbaidayumi 00090017ShangH-13Shangshi Shanghai 0.0020.998Group 2Nongmeiyihao 00090018ShangH-14Shangshi Shanghai 0.0540.946Group 2Chuanshazinuo 00090020ShangH-15Chuansha Shanghai 0.0550.945Group 2Baoanshanyumi 00110004ZheJ-01Jiangshan Zhejiang 0.0130.987Group 2Changtaixizi 00110005ZheJ-02Jiangshan Zhejiang 0.0020.998Group 2Shanyumibaizi 00110007ZheJ-03Jiangshan Zhejiang 0.0020.998Group 2Kaihuajinyinbao 00110017ZheJ-04Kaihua Zhejiang 0.0100.990Group 2Table 1 (Continued from the preceding page)PGS revealed by Structure 1) NJ dendragram revealed Group1 Group2 by phylogenetic analysisAccession name Entry code Analyzing code Origin (county/city)Province/RegoinAnalysis of Genetic Diversity and Population Structure of Maize Landraces from the South Maize Region of China 1255Liputianzi00110038ZheJ-05Jinhua Zhejiang 0.0020.998Group 2Jinhuaqiuyumi 00110040ZheJ-06Jinhua Zhejiang 0.0050.995Group 2Pujiang80ri 00110069ZheJ-07Pujiang Zhejiang 0.0210.979Group 2Dalihuang 00110076ZheJ-08Yongkang Zhejiang 0.0140.986Group 2Ziyumi00110077ZheJ-09Yongkang Zhejiang 0.0020.998Group 2Baiyanhandipinzhong 00110078ZheJ-10Yongkang Zhejiang 0.0030.997Group 2Duosuiyumi00110081ZheJ-11Wuyi Zhejiang 0.0020.998Group 2Chun’an80huang 00110084ZheJ-12Chun’an Zhejiang 0.0020.998Group 2120ribaiyumi 00110090ZheJ-13Chun’an Zhejiang 0.0020.998Group 2Lin’anliugu 00110111ZheJ-14Lin’an Zhejiang 0.0030.997Group 2Qianhuangyumi00110114ZheJ-15Lin’an Zhejiang 0.0030.997Group 2Fenshuishuitianyumi 00110118ZheJ-16Tonglu Zhejiang 0.0410.959Group 2Kuihualiugu 00110119ZheJ-17Tonglu Zhejiang 0.0030.997Group 2Danbaihuang 00110122ZheJ-18Tonglu Zhejiang 0.0020.998Group 2Hongxinma 00110124ZheJ-19Jiande Zhejiang 0.0030.997Group 2Shanyumi 00110136ZheJ-20Suichang Zhejiang 0.0030.997Group 2Bai60ri 00110143ZheJ-21Lishui Zhejiang 0.0050.995Group 2Zeibutou 00110195ZheJ-22Xianju Zhejiang 0.0020.998Group 2Kelilao00110197ZheJ-23Pan’an Zhejiang 0.0600.940Group 21)The figures refered to the proportion of membership that each landrace possessed.Table 1 (Continued from the preceding page)PGS revealed by Structure 1) NJ dendragram revealed Group 1 Group 2 by phylogenetic analysisAccession name Entry code Analyzing code Origin (county/city)Province/Regoin Table 2 Construction of two phylogenetic groups (SSR-clustered groups) and their correlation with geographical locationsGeographical location SSR-clustered groupChi-square testGroup 1Group 2Total Guangdong 2222 χ2 = 124.89Hainan 1818P < 0.0001Jiangxi 15621Anhui 1414Fujian 1717Jiangsu 1313Shanghai 1515Zhejiang 2323Total5588143by the software of Excel MicroSatellite toolkit (Park 2001). Average number of alleles per locus was calcu-lated by the formula rAA rj j¦1, with the standarddeviation of1)()(12¦ r A AA rj jV , where A j was thenumber of distinct alleles at locus j , and r was the num-ber of loci (Park 2001).Unbiased gene diversity also known as expected heterozygosity, observed heterozygosity for each lo-cus and average gene diversity across the 54 SSR loci,as well as model-based groupings inferred by Struc-ture ver. 2.2, were calculated by the softwarePowerMarker ver.3.25 (Liu et al . 2005). Unbiased gene diversity for each locus was calculated by˅˄¦ 2ˆ1122ˆi x n n h , where 2ˆˆ2ˆ2¦¦z ji ijij i X X x ,and ij X ˆwas the frequency of genotype A i A jin the sample, and n was the number of individuals sampled.The average gene diversity across 54 loci was cal-culated as described by Nei (1987) as follows:rh H rj j ¦1ˆ, with the variance ,whereThe average observed heterozygosity across the en-tire loci was calculated as described by (Hedrick 1983)as follows: r jrj obsobs n h h ¦1, with the standard deviationrn h obs obsobs 1V1256LIU Zhi-zhai et al.Phylogenetic analysis and population genetic structureRelationships among all of the 143 accessions collected from SR were evaluated by using the unweighted pair group method with neighbor-joining (NJ) based on the log transformation of the proportion of shared alleles distance (InSPAD) via PowerMarker ver. 3.25 (FukunagaTable 3 The PIC of each locus and the number of alleles detected by 54 SSRsLocus Bin Repeat motif PIC No. of alleles Description 2)bnlg1007y51) 1.02AG0.7815Probe siteumc1122 1.06GGT0.639Probe siteumc1147y41) 1.07CA0.2615Probe sitephi961001) 2.00ACCT0.298Probe siteumc1185 2.03GC0.7215ole1 (oleosin 1)phi127 2.08AGAC0.577Probe siteumc1736y21) 2.09GCA T0.677Probe sitephi453121 3.01ACC0.7111Probe sitephi374118 3.03ACC0.477Probe sitephi053k21) 3.05A TAC0.7910Probe sitenc004 4.03AG0.4812adh2 (alcohol dehydrogenase 2)bnlg490y41) 4.04T A0.5217Probe sitephi079 4.05AGATG0.495gpc1(glyceraldehyde-3-phosphate dehydrogenase 1) bnlg1784 4.07AG0.6210Probe siteumc1574 4.09GCC0.719sbp2 (SBP-domain protein 2)umc1940y51) 4.09GCA0.4713Probe siteumc1050 4.11AA T0.7810cat3 (catalase 3)nc130 5.00AGC0.5610Probe siteumc2112y31) 5.02GA0.7014Probe sitephi109188 5.03AAAG0.719Probe siteumc1860 5.04A T0.325Probe sitephi085 5.07AACGC0.537gln4 (glutamine synthetase 4)phi331888 5.07AAG0.5811Probe siteumc1153 5.09TCA0.7310Probe sitephi075 6.00CT0.758fdx1 (ferredoxin 1)bnlg249k21) 6.01AG0.7314Probe sitephi389203 6.03AGC0.416Probe sitephi299852y21) 6.07AGC0.7112Probe siteumc1545y21)7.00AAGA0.7610hsp3(heat shock protein 3)phi1127.01AG0.5310o2 (opaque endosperm 2)phi4207018.00CCG0.469Probe siteumc13598.00TC0.7814Probe siteumc11398.01GAC0.479Probe siteumc13048.02TCGA0.335Probe sitephi1158.03A TAC0.465act1(actin1)umc22128.05ACG0.455Probe siteumc11218.05AGAT0.484Probe sitephi0808.08AGGAG0.646gst1 (glutathione-S-transferase 1)phi233376y11)8.09CCG0.598Probe sitebnlg12729.00AG0.8922Probe siteumc20849.01CTAG0.498Probe sitebnlg1520k11)9.01AG0.5913Probe sitephi0659.03CACCT0.519pep1(phosphoenolpyruvate carboxylase 1)umc1492y131)9.04GCT0.2514Probe siteumc1231k41)9.05GA0.2210Probe sitephi1084119.06AGCT0.495Probe sitephi4488809.06AAG0.7610Probe siteumc16759.07CGCC0.677Probe sitephi041y61)10.00AGCC0.417Probe siteumc1432y61)10.02AG0.7512Probe siteumc136710.03CGA0.6410Probe siteumc201610.03ACAT0.517pao1 (polyamine oxidase 1)phi06210.04ACG0.337mgs1 (male-gametophyte specific 1)phi07110.04GGA0.515hsp90 (heat shock protein, 90 kDa)1) These primers were provided by Beijing Academy of Agricultural and Forestry Sciences (Beijing, China).2) Searched from Analysis of Genetic Diversity and Population Structure of Maize Landraces from the South Maize Region of China1257et al. 2005). The unrooted phylogenetic tree was finally schematized with the software MEGA (molecular evolu-tionary genetics analysis) ver. 3.1 (Kumar et al. 2004). Additionally, a chi-square test was used to reveal the correlation between the geographical origins and SSR-clustered groups through FREQ procedure implemented in SAS ver. 9.0 (2002, SAS Institute, Inc.).In order to reveal the population genetic structure (PGS) of 143 landrace accessions, a Bayesian approach was firstly applied to determine the number of groups (K) that these materials should be assigned by the soft-ware BAPS (Bayesian Analysis of Population Structure) ver.5.1. By using BAPS, a fixed-K clustering proce-dure was applied, and with each separate K, the num-ber of runs was set to 100, and the value of log (mL) was averaged to determine the appropriate K value (Corander et al. 2003; Corander and Tang 2007). Since the number of groups were determined, a model-based clustering analysis was used to assign all of the acces-sions into the corresponding groups by an admixture model and a correlated allele frequency via software Structure ver.2.2 (Pritchard et al. 2000; Falush et al. 2007), and for the given K value determined by BAPS, three independent runs were carried out by setting both the burn-in period and replication number 100000. The threshold probability assigned individuals into groupswas set by 0.8 (Liu et al. 2003). The PGS result carried out by Structure was visualized via Distruct program ver. 1.1 (Rosenberg 2004).RESULTSGenetic diversityA total of 517 alleles were detected by the whole set of54 SSRs covering the entire maize genome through all of the 143 maize landraces, with an average of 9.57 alleles per locus and ranged from 4 (umc1121) to 22 (bnlg1272) (Table 3). Among all the alleles detected, the number of distinct alleles accounted for 132 (25.53%), with an av-erage of 2.44 alleles per locus. The distinct alleles dif-fered significantly among the landraces from different provinces/regions, and the landraces from Guangdong, Fujian, Zhejiang, and Shanghai possessed more distinct alleles than those from the other provinces/regions, while those from southern Anhui possessed the lowest distinct alleles, only counting for 3.28% of the total (Table 4).Table 4 The genetic diversity within eight provinces/regions and groups revealed by 54 SSRsProvince/Region Sample size Allele no.1)Distinct allele no.Gene diversity (expected heterozygosity)Observed heterozygosity Anhui14 4.28 (4.19) 69 (72.4)0.51 (0.54)0.58 (0.58)Fujian17 4.93 (4.58 80 (79.3)0.56 (0.60)0.63 (0.62)Guangdong22 5.48 (4.67) 88 (80.4)0.57 (0.59)0.59 (0.58)Hainan18 4.65 (4.26) 79 (75.9)0.53 (0.57)0.55 (0.59)Jiangsu13 4.24 700.500.55Jiangxi21 4.96 (4.35) 72 (68.7)0.56 (0.60)0.68 (0.68)Shanghai15 5.07 (4.89) 90 (91.4)0.55 (0.60)0.55 (0.55)Zhejiang23 5.04 (4.24) 85 (74)0.53 (0.550.60 (0.61)Total/average1439.571320.610.60GroupGroup 155 6.63 (6.40) 91 (89.5)0.57 (0.58)0.62 (0.62)Group 2887.94 (6.72)110 (104.3)0.57 (0.57)0.59 (0.58)Total/Average1439.571320.610.60Provinces/Regions within a groupGroup 1Total55 6.69 (6.40) 910.57 (0.58)0.62 (0.62)Guangdong22 5.48 (4.99) 86 (90.1)0.57 (0.60)0.59 (0.58)Hainan18 4.65 (4.38) 79 (73.9)0.53 (0.56)0.55 (0.59)Jiangxi15 4.30 680.540.69Group 2Total887.97 (6.72)110 (104.3)0.57 (0.57)0.59 (0.58)Anhui14 4.28 (3.22) 69 (63.2)0.51 (0.54)0.58 (0.57)Fujian17 4.93 (3.58) 78 (76.6)0.56 (0.60)0.63 (0.61)Jiangsu13 4.24 (3.22) 71 (64.3)0.50 (0.54)0.55 (0.54)Jiangxi6 3.07 520.460.65Shanghai15 5.07 (3.20) 91 (84.1)0.55 (0.60)0.55 (0.54)Zhejiang23 5.04 (3.20) 83 (61.7)0.53 (0.54)0.60 (0.58)1258LIU Zhi-zhai et al.Among the 54 loci used in the study, 16 (or 29.63%) were dinucleotide repeat SSRs, which were defined as type class I-I, the other 38 loci were SSRs with a longer repeat motifs, and two with unknown repeat motifs, all these 38 loci were defined as the class of I-II. In addition, 15 were located within certain functional genes (defined as class II-I) and the rest were defined as class II-II. The results of comparison indicated that the av-erage number of alleles per locus captured by class I-I and II-II were 12.88 and 10.05, respectively, which were significantly higher than that by type I-II and II-I (8.18 and 8.38, respectively). The gene diversity re-vealed by class I-I (0.63) and II-I (0.63) were some-what higher than by class I-II (0.60) and II-II (0.60) (Table 5).Genetic relationships of the core landraces Overall, 143 landraces were clustered into two groups by using neighbor-joining (NJ) method based on InSPAD. All the landraces from provinces of Guangdong and Hainan and 15 of 21 from Jiangxi were clustered together to form group 1, and the other 88 landraces from the other provinces/regions formed group 2 (Fig.-B). The geographical origins of all these 143 landraces with the clustering results were schematized in Fig.-D. Revealed by the chi-square test, the phylogenetic results (SSR-clustered groups) of all the 143 landraces from provinces/regions showed a significant correlation with their geographical origin (χ2=124.89, P<0.0001, Table 2).Revealed by the phylogenetic analysis based on the InSPAD, the minimum distance was observed as 0.1671 between two landraces, i.e., Tianhongyumi (JiangX-03) and Hongganshanyumi (JiangX-04) collected from Jiangxi Province, and the maximum was between two landraces of Huangbaosu (FuJ-16) and Hongyumi (HaiN-14) collected from provinces of Fujian and Hainan, respectively, with the distance of 1.3863 (data not shown). Two landraces (JiangX-01 and JiangX-21) collected from the same location of Dexing County (Table 1) possessing the same names as Shanyumi were separated to different groups, i.e., JiangX-01 to group1, while JiangX-21 to group 2 (Table 1). Besides, JiangX-01 and JiangX-21 showed a rather distant distance of 0.9808 (data not shown). These results indicated that JiangX-01 and JiangX-21 possibly had different ances-tral origins.Population structureA Bayesian method was used to detect the number of groups (K value) of the whole set of landraces from SR with a fixed-K clustering procedure implemented in BAPS software ver. 5.1. The result showed that all of the 143 landraces could also be assigned into two groups (Fig.-A). Then, a model-based clustering method was applied to carry out the PGS of all the landraces via Structure ver. 2.2 by setting K=2. This method as-signed individuals to groups based on the membership probability, thus the threshold probability 0.80 was set for the individuals’ assignment (Liu et al. 2003). Accordingly, all of the 143 landraces were divided into two distinct model-based groups (Fig.-C). The landraces from Guangdong, Hainan, and 15 landraces from Jiangxi formed one group, while the rest 6 landraces from the marginal countries of northern Jiangxi and those from the other provinces formed an-other group (Table 1, Fig.-D). The PGS revealed by the model-based approach via Structure was perfectly consistent with the relationships resulted from the phy-logenetic analysis via PowerMarker (Table 1).DISCUSSIONThe SR includes eight provinces, i.e., southern Jiangsu and Anhui, Shanghai, Zhejiang, Fujian, Jiangxi, Guangdong, and Hainan (Fig.-C), with the annual maize growing area of about 1 million ha (less than 5% of theTable 5 The genetic diversity detected with different types of SSR markersType of locus No. of alleles Gene diversity Expected heterozygosity PIC Class I-I12.880.630.650.60 Class I-II8.180.600.580.55 Class II-I8.330.630.630.58。

包一：试剂冷藏箱技术参数
一．功能需求
为满足毒理所健康相关产品检测工作中试剂保存与存放的要求，需满足以下技术参数的试剂冷藏箱。

二．技术参数
1、★立式，有效容积为1000--1200 L。

2、★温度范围：2~8℃。

3、★压缩机：全封闭式，功率不高于245W。

4、测试孔：φ30--32mm（背部）。

5、★隔架：硬钢线制PE涂层网架高度可调，单层网架最大可承重15KG。

6、▲内外箱材料：喷涂钢板；隔热材料：硬质聚氨酯一体发泡。

7、制冷系统：无CFC的环保型冷媒，强制风冷循环，温度恒定，自动循环除霜
8、强制风冷循环：箱内采用高性能的冷风循环系统，保证箱内温度均匀，即使箱内负荷较
大，也能迅速制冷。

9、除霜方式：循环除霜+冷却器温度感知方式。

10.温度控制：温度数字显示器、可以进行高精确性的控制，调节单位为1度。

11.▲玻璃门：带热反射膜玻璃门。

12.门未关报警：当门打开时，开门指示灯点亮，如果开门超过30s，蜂鸣器将会发出报警
声，关门后报警自动解除。

13.▲报警系统：高低温报警功能，门报警功能，传感器故障报警功能。

14.人性化设计：大视角玻璃门，标准配备脚轮，带热反射膜的双层玻璃门。

15.锁：气缸锁1个。

16.★为保证售后服务质量，需提供厂家或总代理出具授权书。

17.★配置：主机1台，搁板10块，钥匙1套，电源线1根，说明书1本，保修卡1套。

（★为必需满足条件，▲为重要参数）
三．数量一台。

037收稿日期：--作者简介：周建文（-），男，教授级高工，主要从事环氧类耐高温胶、环氧结构胶、电子封装材料、光学胶粘剂等研究 开发。

-@.。

201801181966E mail ：327821768qq com 实用的环氧树脂增韧技术周建文，王 洪（中蓝晨光化工研究设计院有限公司，四川 成都 610041）摘要：关键词：中图分类号：TQ323.5 文献标识码：A 文章编号：1001-5922（2018）07-0037-04对比了端羧基聚醚（、端羧基聚四氢呋喃（、端羧基液体丁腈橡胶（和含聚丁二烯的核壳聚合物（等几种增韧剂对环氧树脂的增韧效果。

在用量相同的情况下，几种增韧剂对环氧树脂都有明显增韧效果，抗冲击性能显著提高，其中、对冲击性能提升显著，改性树脂的冲击强度提高%；对耐热性影响表现各异，其中、对耐热性几乎没有影响。

环氧树脂；增韧；端羧基聚醚；端羧基聚四氢呋喃；端羧基液体丁腈橡胶；核壳聚合物CTPE ）CTPF ）CTBN ）CSP ）CTPF CTBN CTPF 257CTBN CSP 环氧树脂具有优异的力学性能、较低收缩率、耐化学性和电绝缘性等优点，在电子电气、机械、建筑乃至航空航天等诸多领域得到广泛应用。

由于其具有较高的交联密度，故而未经增韧的环氧树脂存在质脆、耐疲劳性和抗冲击韧性较差等缺点，难以满足工程技术的要求，其应用受到一定限制。

环氧树脂的增韧改性一直是业界研究的热点，长期以来国内外对此进行了许多有益的研究和实用技术开发。

例如，采用反应型液体橡胶能够提高环氧体系的断裂能、冲击性能；添加热塑性树脂可以改善材料的弯曲强度、冲击性能；添加热致性液晶也能有效提高环氧树脂的冲击强度，当然，还可采取核/壳聚合物增韧改性、石墨烯增韧改性以及纳米粒子填料增韧改性等方法。

在各种各样环氧增韧改性研究中，有些改性技术具有实用性，有些前沿研究具有新颖性和前瞻性，但由于技术难度或者成本因素，较难在常规环氧产品尤其是民用产品开发中获得广泛应用。

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Contact Customer Service Department for more information.MT-RJ JUMPERSSiemon MT-RJ jumpers are factory-terminated and 100% optically tested to assure optimumperformance. Jumpers comply with TIA/EIA-568-B.3 and ISO/IEC 11801 fiber performancespecifications and are available in MT-RJ to MT-RJ and hybrid MT-RJ to SC or ST options.P ART #D ESCRIPTIONFJ2R-MTMT(X)MM-(XX). . . . . . MT-RJ to MT-RJ jumper, multimode (62.5/125 or 50/125µm)FJ2R-MTSA(X)MM-(XX). . . . . . MT-RJ to ST jumper, multimode (62.5/125 or 50/125µm)FJ2R-MTSC(X)MM-(XX). . . . . . MT-RJ to SC jumper, multimode (62.5/125 or 50/125µm)T H E S I E M O N .C O M P A N Y5FIBER PRODUCTSLC FIELD-INSTALLABLE CONNECTORS Siemon LC connectors pack all the benefits of duplex fiber optic performance into a compact “RJ” style design.LC connectors are compatible with a wide variety of Siemon work area and telecommunications room solutions.Siemon LC connectors are field-installable, using the easy, fast, reliable LightSpeed ®termination system.LC multimode connectors terminate either 62.5/125 or 50/125µm fiber.LC JUMPERSSiemon LC jumpers are factory terminated and polished, assuring optimum performance. LC jumpers areguaranteed to meet TIA/EIA-568-B.3 and ISO/IEC 11801 fiber performance specifications, and are available inLC to LC and hybrid LC to SC or ST options. Both multimode and singlemode jumpers are available.D UPLEXFJ2-LCLC(X)MM-(XX). . . . . . . . LC to LC multimode,50/125 or 62.5/125µmFJ2-LCULCU-(XX). . . . . . . . . . . LC to LC singlemodeFJ2-LCSA(X)MM-(XX). . . . . . . . LC to ST multimode,50/125 or 62.5/125µmFJ2-LCUSAU-(XX). . . . . . . . . . . LC to ST singlemodeFJ2-LCSC(X)MM-(XX). . . . . . . . LC to SC multimode,50/125 or 62.5/125µmFJ2-LCUSCU-(XX). . . . . . . . . . . LC to SC singlemode S IMPLEX FJ1-LCULCU-(XX). . . . . . . . . . . LC to LC singlemode FJ1-LCUSAU-(XX). . . . . . . . . . . LC to ST singlemode FJ1-LCUSCU-(XX). . . . . . . . . . . LC to SC singlemodeUse (X) to specify multimode fiber type: 6 = 62.5/125µm fiber (gray jacket); 5 = 50/125µm fiber (orange jacket)Use (XX) to specify cable length: 01 = 1m (3.3 ft.), 03 = 3m (9.8 ft.), 05 = 5m (16.4 ft.)Notes: Multimode performance: 0.30dB typical insertion loss; 25dB typical return loss; Singlemode performance: 0.30dB typical insertion loss; 55dB minimum return loss;All jumpers and pigtails are manufactured using OFNR riser grade cable that meets UL 1666; All connectors include ceramic ferrules.HIGHER DENSITYLC connectors are about half the sizeof SC duplex connectors, providinggreater density.PERFORMANCE AND VARIETYSiemon offers a full line of high per-formance singlemode and multimodeLC products providing a completesolution for any installation.FAST TERMINATION LC multimode connectors terminate in just 2 minutes using our LightSpeed ®Termination Kit (with LC upgrade kit)greatly reducing installation time.LC PRODUCTSFactory terminated LC duplexjumpers comply with TIA/EIA568-B.3 and ISO/IEC 11801fiber performancespecifications All Siemon LC adapters are“universal” and supporteither singlemode ormultimode applicationsJumper combinationsavailable include LC to LC,LC to SC, and LC to ST Simplex LC connectors terminate buffered fiberwhich helps maintain properbend radius requirements intight spaces M ULTIMODEFC1-LC-MM-B80. . . . . . LC Simplex connector, multimode,buffered fiber, beige bootFC2-LC-MM-J80. . . . . . LC Duplex connector, multimode,jacketed fiber, beige bootS INGLEMODE FC1-LC-SM-B02. . . . . . . LC Simplex connector, singlemode,buffered fiber, white boot FC1-LC-SM-J02. . . . . . . LC Simplex connector, singlemode,jacketed fiber, white boot6T H E S I E M O N .C O M P A N Y F I B E R P R O D U C T SRACK MOUNT INTERCONNECT CENTER (RIC)Siemon RIC24, 36 and 48 enclosures have been enhanced to work exclusively with flat Quick-Pack ™adapter plates, simplifying ordering and stocking.Angled adapter plates are still available for compatibility with existing installations. Contact Siemon Customer Service for ordering e (XX) to specify color: 01 = black, 02 = whiteNotes: 1 RMS = 44.5mm (1.75 in.);All RIC products include laser-printable labels*, cable ties, rack-mounting hardware, and pre-installed fiber management clips;New RIC enclosures are only compatible with flat Quick-Pack ™adapter plates (see page 9).*Visit our web site or contact our Technical Support Department for labeling software.RACK MOUNT INTERCONNECT CENTER (RIC)P ART #D ESCRIPTION RIC24-F-(XX). . . . . . . . . . . 24/48/96-port Rack Mount Interconnect Center,2 RMSheight: 86.6mm (3.41 in.);width: 432mm (17.00 in.);depth: 380mm (14.95 in.)P ART #D ESCRIPTIONRIC36-F-(XX). . . . . . . . . . . 36/72/144-port Rack Mount Interconnect Center, 2 RMS height: 86.6mm (3.41 in.); width: 432mm (17.00 in.); depth: 380mm (14.95 in.)RIC48-F-(XX). . . . . . . . . . . 48/96/192-port Rack Mount Interconnect Center,3 RMS height: 133mm (5.25 in.);width: 432mm (17.00 in.);depth: 380mm (14.95 in.)RIC72-F-(XX). . . . . . . . . . . 72/144/288-port Rack Mount Interconnect Center, 4 RMSheight: 178mm (7.00 in.); width: 432mm (17.00 in.); depth: 380mm (14.95 in.)SLIDING TRAYTray slides out the front or the rear for optimum adapter/connector access. The tray latches in center position to prevent it from moving while mating and de-mating connectors.INTEGRATED LATCHESEnable easy snap-in installation and one-finger removal of adapter plates.ROTATING GROMMETS Facilitates loading and retaining jumpers while minimizing microbending stress when utilizing the sliding tray.Includes a front and rearlocking hasp for use withstandard paddle lock tolock doors in closedposition Rugged 12 gaugealuminum alloyconstruction coated withdurable paint finish Front labeling panel can be easily removed via two snap latches for maximumaccess to connectionsPlenty of space at the front to access and organize fiber Spring loaded quick-release hinges enable easy removal of front and rear doors, but only when hinges are defeated,preventing misplaced or damaged doorsT H E S I E M O N .C O M P A N Y 7WALL MOUNT INTERCONNECT CENTER (SWIC3)Siemon SWIC3 enclosures have been enhanced to work exclusively with flat Quick-Pack ™adapter plates, simplifying ordering and stocking. Angled adapter plates are still available for compatibility with existing installations. Contact Siemon Customer Service for ordering details.P ART #D ESCRIPTIONSWIC3G-(X)(X)-(XX)24/48/96-port Wall Mount Interconnect Center with integrated jumper guard. Includes dual-levelfiber managers, port designation labels and removable pocket, dust-proofing grommets, strainrelief hardware, cable ties, and mounting hardware.height: 311mm (12.25 in); width: 406mm (16 in); depth: 82.6mm (3.25 in)Use 1st (X) to specify type of lock on the enclosure (left) door: A = key lock A, C = thumb-turn latchUse 2nd (X) to specify type of lock on the guard (right) door: A = key lock A, B = key lock B, C = thumb-turn latchUse (XX) to specify color: 01 = black, 02 = whiteSWIC3-(X)-(XX). . . . . . . 24/48/96-port Wall Mount Interconnect Center. Includes dual-level fiber managers, port designa-tion labels and removable pocket, dust-proofing grommets, strain relief hardware, cable ties, andmounting hardware.height: 311mm (12.25 in); width: 311mm (12.25 in); depth: 82.6mm (3.25 in)Use (X) to specify type of lock on the enclosure: A = key lock A, C = thumb-turn latchUse (XX) to specify color: 01 = black, 02 = whiteNote: New SWIC3 products are only compatible with flat Quick-Pack ™adapter plates (see page 9).Optional splice traybracket available formounting multiple splicetrays Integrated hinged fiber guard provides jumper protection and management Quick-Pack ™adapter plates are available with SC, ST, FC, MT-RJ, or LC adapters Convenient labeling systemincludes removable clear labelholders for storing and protectingfiber documentation Doors on enclosure andjumper guard can beordered with independentkey lock or latchingoptions EASY ACCESSDoors on enclosures and jumper guard swing open a full 180°to provide complete front and side access.DUAL-LEVEL FIBER MANAGERSIncorporates two independent levels of storage to enable the fiber to be routed at levels that correspond to the adapters.SNAP-IN ADAPTER PLATES Utilizes same Quick-Pack ™adapter plates as RIC enclosures with integrated latches for snap-in installation and one finger removal.WALL MOUNT INTERCONNECT CENTER (SWIC3)FIBER PRODUCTS Dust-proofing grommets includedMINI WALL MOUNT INTERCONNECT CENTER (MINI-SWIC3)The Mini-SWIC3 enables the economical interconnection of fiber in locations where wall space is limited while stillproviding many of the popular, installer-friendly features of the SWIC3. By accepting two flat Quick-Pack ™adapter plates,the MINI-SWIC3 can accommodate from 6–48 fibers. Also included are dust-proofing grommets to provide protectionfrom contaminants and bend radius guides to ensure optimal storage of fiber slack.P ART #D ESCRIPTIONSWIC3-M-(XX). . . . . . . . . . . . . . 6/24/48-port Mini Wall Mount Interconnect Centerheight: 218.4mm (8.6 in.); width: 185.4mm (7.3 in.); depth: 82.6mm (3.25 in.)Use (XX) to specify color: 01 = black, 02 = whiteNote: The MINI-SWIC3 is only compatible with flat Quick-Pack ™adapter plates (see page 9).F I B E R P R O D U C T S 8T H E S I E M O N .C O M P A N YFIBER MANAGEMENT TRAY (FMT)Tray is 18-gauge steel with a black finish that matches CT ®and MAX ™patch panels Our patent pending dual fiber management clips are used to store slack fibers while maintaining minimum bend radius requirementsCT ®or MAX ™panels and tray available in 1, 2, and3 RMS and accommodate up to 96 fiber ports Fiber can berouted in from thesides or rear ofthe tray Rear coversecured by heavyduty magnets toenable keylessentry P ART #D ESCRIPTIONRMS H EIGHT W IDTH D EPTH CT-FMT-16-(X). . . . . . . . . . . . . . Fiber tray for 16-port CT ®Panel or MAX ™Panel. . . . . . . . 1 . . . . . . .43.2mm (1.7 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)CT-FMT-24-(X). . . . . . . . . . . . . . Fiber tray for 24-port CT ®Panel or MAX ™Panel. . . . . . . . 2 . . . . . . . .86.4mm (3.4 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)CT-FMT-32-(X). . . . . . . . . . . . . . Fiber tray for 32-port CT ®Panel or MAX ™Panel. . . . . . . . 2 . . . . . . . .86.4mm (3.4 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)CT-FMT-48-(X). . . . . . . . . . . . . . Fiber tray for 48-port CT ®Panel. . . . . . . . . . . . . . . . . . . . 3 . . . . . . .129.5mm (5.1 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)F IBER M ANAGEMENT T RAYS P REASSEMBLED TO CT ®P ANELSCT-FMTA-16-(X). . . . . . . . . . . . Fiber tray preassembled to a 16-port CT ®Panel . . . . . . . 1 . . . . . . .43.2mm (1.7 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)CT-FMTA-24-(X). . . . . . . . . . . . Fiber tray preassembled to a 24-port CT ®Panel . . . . . . . 2 . . . . . . .86.4mm (3.4 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)CT-FMTA-32-(X)*. . . . . . . . . . . Fiber tray preassembled to a 32-port CT ®Panel . . . . . . . 2 . . . . . . .86.4mm (3.4 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)CT-FMTA-48-(X)*. . . . . . . . . . . Fiber tray preassembled to a 48-port CT ®Panel. . . . . . . . 3 . . . . . . .129.5mm (5.1 in.) . . . . . .432mm (17 in.) . . . . . .254mm (10 in.)Use (X) to specify inclusion of splice tray: blank = none, 1 = fusion, 2 = mechanical, 3 = fusion with sleeve*Note: FMT’s ordered with splice trays include: one 24 fiber splice tray with 16- and 24-port versions; two 24 fiber splice trays with 32- and 48-port versions.P RODUCT #D ESCRIPTIONFCP3-DWR. . . . . . . . . . . . . . . . . 6- to 72-port Fiber Connect Panel with sliding tray. Includes mounting brackets, housing/tray, fiber managers, grommets, label holders, and labelsheight: 43.2mm (1.7 in.); width: 482.6mm (19.0 in.); depth: 355.6mm (14.0 in.)FCP3-RACK . . . . . . . . . . . . . . . . 6- to 72-port Fiber Connect Panel with fixed tray. Includes mounting brackets,housing/cover, fiber managers and grommetheight: 43.2mm (1.7 in.); width: 482.6mm (19.0 in.); depth: 241.3mm (9.5 in.)Adapter couplers are available in ST, SC,MT-RJ, LC and FC SLIDING TRAY The FCP3-DWR (drawer version) features a tray that slides out from the front or rear, providing easy access to fiber connections even on fully loaded racks.FIXED TRAY Cover on the fixed tray version can be completely removed for easy access during cable routing.HIGH DENSITY When used with Siemon’s 24-port MT-RJ Quick-Packs,™FCP3 enclosures can accommodate up to 72 fibers in only 1 RMS on a 19 inch rack.FIBER CONNECT PANEL (FCP3)Optional splice trays can be mounted to manage and protect either mechanical or fusion splices Lanced tabs provideconvenient cableanchor points forincoming jacketedcables Rear fiber clipsmanage cable slackwhile maintainingminimum bendradius requirementsFront fiber clips manageup to 36 duplex fiberjumpers (72 fibers total)Label holder protects fiber jumpersand is readily removable via releaseof factory-installed snap-latches HIGH DENSITY The Fiber Management Tray can be used with Siemon’s MAX ™Patch Panels for higher density fiber and multimedia applications.FIBER ACCESS 2 and 3 RMS trays include a rear hinged door to provide convenient access to fiber.T H ES I E M O N.C O M P A N Y 9Use (XX) to specify Adapter Plate color: 01 = black, 02 = whiteAdd “C” for ceramic sleeve option on SC, ST, FC, and LC fiber adapters.Each adapter plate with icon pockets includes red, blue, color-matching, and clear icons with paper labels.All adapters are “universal” to support multimode and singlemode fiber applications.Angled Quick-Pack ™adaptor plates are still available for existing installations. Contact our Customer Service Department for ordering information.FLAT QUICK-PACK ™ADAPTER PLATESRIC-F-SA6-(XX). . . . . . . . . 3 duplex ST adapters (6 fibers) and icon pocketsRIC-F-SA8-(XX). . . . . . . . . 4 duplex ST adapters (8 fibers) and icon pocketsRIC-F-SA12-(XX). . . . . . . . 6 duplex ST adapters (12 fibers, not shown)RIC-F-SC6-(XX). . . . . . . . . 3 duplex SC adapters (6 fibers) and icon pockets RIC-F-SC8-(XX). . . . . . . . . 4 duplex SC adapters (8 fibers) and icon pocketsRIC-F-SC12-(XX). . . . . . . . 6 duplex SC adapters (12 fibers)RIC-F-LC(X)12-(XX). . . . . . 6 duplex LC adapters (12 fibers)and icon pockets Use (X) to specify LC adapter color: blank = beige, U = blueRIC-F-MT12-(XX). . . . . . . . 6 duplex MT-RJ adapters (12 fibers)and icon pockets RIC-F-MT16-(XX). . . . . . . . 8 duplex MT-RJ adapters (16 fibers)and icon pocketsRIC-F-MT24-(XX). . . . . . . . 12 duplex MT-RJ adapters (24 fibers)RIC-F-BLNK-(XX). . . . . . . . Blank adapter plateNote: all Siemon RIC, SWIC, MINI-SWIC and FCP3fiber enclosures have beenredesigned to work exclusively with flat Quick-Pack ™adapter plates.SPLICE TRAYSThese aluminum trays can be ordered with either fusion, mechanical or fusion with sleeve splice holders and come with a clear, snap-on polycarbonate cover. The standard tray holds up to 24splices. For tight areas, a mini-tray is available which accommodates up to 12 splices. Trays can be stacked for high-density applications.S TANDARD T RAY D IMENSIONSheight: 103mm (4.07 in.);width: 298mm (11.75 in.);depth: 8.13mm (0.32 in.)M INI T RAY D IMENSIONSheight: 103mm (4.07 in.);width: 179mm (7.06 in.);depth: 8.13mm (0.32 in.)M ASS /R IBBON T RAY D IMENSIONSheight: 103mm (4.07 in.);width: 179mm (7.06 in.);depth: 8.13mm (0.32 in.)P ART #D ESCRIPTIONTRAY-1. . . . . . . . . . . . . . . . . . . Standard splice tray for up to 24 bare fusion splices.TRAY-2. . . . . . . . . . . . . . . . . . . Standard splice tray for up to 12 mechanical splices.Compatible with Siemon ULTRAsplice,®Norland, and GTE Elastomeric splices.TRAY-2A. . . . . . . . . . . . . . . . . . Standard splice tray for up to 12 mechanical splices.Compatible with 3M Fibrlok ™splices.TRAY-2B. . . . . . . . . . . . . . . . . . Standard splice tray for up to 12 mechanical splices.Compatible with Siecor Camsplice ™and Lucent CSL splices.TRAY-3. . . . . . . . . . . . . . . . . . . Standard splice tray for up to 24 fusion splices with sleeve protection.TRAY-M-1. . . . . . . . . . . . . . . . . Mini splice tray for up to 12 bare fusion splices.TRAY-M-2. . . . . . . . . . . . . . . . . Mini splice tray for up to 6 mechanical splices.Compatible with Siemon ULTRAsplice,®Norland, and GTE Elastomeric splices.TRAY-M-2A . . . . . . . . . . . . . . . Mini splice tray for up to 6 mechanical splices.Compatible with 3M Fibrlok ™splices.TRAY-M-2B. . . . . . . . . . . . . . . . Mini splice tray for up to 6 mechanical splices.Compatible with Siecor Camsplice ™and Lucent CSL splices.TRAY-M-3. . . . . . . . . . . . . . . . . Mini splice tray for up to 24 fusion splices with sleeve protection.TRAY-R-4. . . . . . . . . . . . . . . . . Mass or ribbon splice tray for up to 144 fibers.Compatible with Siemon MASSsleeve ®splice protectors.TRAY-R-4A. . . . . . . . . . . . . . . . Mass or ribbon splice tray for up to 144 fibers.Compatible with heat shrink sleeves.Use (X) to specify type of splice holder: 1 = fusion, 2 = mechanical, 3 = fusion with sleeveFusion with sleeve splice holders can accommodate sleeve diameters from 1.5mm (0.059 in.) to 2mm (0.079 in.).Standard Fusion splice holders are designed for 900 micron buffered fibers or 250 micron coated fibers.F I B E R P R O D U C T S10T H ES I E M O N.C O M P A N YST AND SC FIBER CABLE ASSEMBLIES:JUMPERS AND PIGTAILSFor connecting fiber links, choose from simplex or duplex, multimode (62.5/125µm or 50/125µm) SC or ST,jumpers or pigtails. Assemblies are available in standard lengths of 1, 3, and 5 meters. Custom lengths are also available.Each and every terminated connector is optically tested so that you can be assured that 100% of the Siemon-built cable assemblies meet the stringent performance limits established by ANSI/TIA/EIA-568-B.3 and ISO/IEC 11801:1-2 2000.Use (X) to specify multimode fiber type/jacket color: – = 62.5/125µm fiber, orange jacket (Example: FJ2-SASA-MM-03);6 = 62.5/125µm fiber, gray jacket (Example: FJ2-SASA6MM-03);5 = 50/125µm fiber, orange jacket (Example: FJ2-SASA5MM-03)Use (XX) to specify cable length: 01 = 1m (3.3 ft.), 03 = 3m (9.8 ft.), 05 = 5m (16.4 ft.)Custom lengths and jacket colors are available upon request. Singlemode cable assemblies are also available.Contact our Customer Service Department for more information.Notes: All jumpers are manufactured from OFNR riser grade cable that meets UL 1666. All connectors use a ceramic ferrule.M ULTIMODE S IMPLEX J UMPERSFJ1-SASA(X)MM-(XX) . . . . . . . . . . ST-ST FJ1-SCSC(X)MM-(XX) . . . . . . . . . . SC-SC FJ1-SASC(X)MM-(XX) . . . . . . . . . . ST-SCM ULTIMODE D UPLEX J UMPERSFJ2-SASA(X)MM-(XX) . . . . . . . . . . ST-ST FJ2-SCSC(X)MM-(XX) . . . . . . . . . . SC-SC FJ2-SASC(X)MM-(XX) . . . . . . . . . . ST-SCST AND SC MULTIMODE CONNECTORSSiemon ST and SC connectors are designed for use with a variety of termination methods…epoxy, anaerobic adhesives, and Siemon’s exclusive LightSpeed ®adhesive system. LightSpeed ®is faster, more user-friendly, more secure, and more resistant to environmental extremes than the commonly used anaerobic adhesives. Time to terminate a Siemon ST or SC connector using the LightSpeed ®adhesive system and Siemon’s Automated Fiber Polisher (FPOL) is less than 2 minutes per end! The precision zirconia ceramic ferrules utilized in ST and SC multimode connectors enable a typical insertion loss performance of 0.5dB, using a manual polishing method, or 0.2dB using the Automated Fiber Polisher (FPOL).Add “B” to the end of part number for bulk pack (ST or SC simplex: 100/box; SC duplex: 50/box).Singlemode connectors are also available. Contact our Customer Service Department for more information.ᎮP ART #D ESCRIPTION FC1-SC-MM-J80. . . . . . . . . . . Jacketed fiber, beige boot FC1-SC-MM-J01. . . . . . . . . . . Jacketed fiber, black boot FC1-SC-MM-B80. . . . . . . . . . . Buffered fiber, beige bootP ART #D ESCRIPTIONFC1-SC-MM-01. . . . . . . . . . . . Jacketed/Buffered fibers,one black jacketed boot and one beige buffered bootFC1-SC-MM-80. . . . . . . . . . . . Jacketed/Buffered fiber,one beige jacketed boot and one beige buffered bootSC S IMPLEX C ONNECTORSSC simplex connectors employ an outer housing that is color-coded in accordance with TIA/EIA-568-B.3 and ISO/IEC 11801 requirements.P ART #D ESCRIPTION FC2-SC-MM-J . . . . . . . . . . . . . Jacketed fiber,one black boot and one beige bootP ART #D ESCRIPTIONFC2-SC-MM-B80. . . . . . . . . . . Buffered fiber, two beige boots FC2-SC-MM. . . . . . . . . . . . . . . Jacketed/Buffered fiber,one black and one beige jacketed boot; two beige buffered bootsSC D UPLEX C ONNECTORSDuplex SC connectors have been enhanced with new user-friendly features. SC connectors now have a duplexing clip,which allows each connector to be removed individually. In the event fiber polarity is reversed during termination,there’s no need to discard the connector. Simply remove connectors from the clip and switch to correct the mistake,saving valuable installation time and money. The duplexing clip also speeds troubleshooting. In the event there’s a fault with a single connection, an individual connector can be removed from the clip and re-terminated without disturbing the adjacent connector.P ART #D ESCRIPTION FC1-SA-MM-J80. . . . . . . . . . . Jacketed fiber, beige boot FC1-SA-MM-J01. . . . . . . . . . . Jacketed fiber, black boot FC1-SA-MM-B80. . . . . . . . . . . Buffered fiber, beige bootP ART #D ESCRIPTIONFC1-SA-MM-01. . . . . . . . . . . . Jacketed/buffered fiber, black jacketed boot andbeige buffered bootFC1-SA-MM-80. . . . . . . . . . . . Jacketed/buffered fiber, beige jacketed boot andbeige buffered bootST C ONNECTORSThe ST connector employs a rugged metal bayonet coupling ring with radial ramps which facilitate engagement to the studs of the mating adapter. T wo ST connectors are available for jacketed fiber, one with a beige boot and one with a black boot. The two colors enable easy identification of the fibers when terminating individual connectors to form a duplex jumper. A connector for buffered fiber is also available as well as a connector that includes all the components required to terminate either jacketed or buffered fiber.。

便携式水质多参数检测套装倡导者C2简介：●一款可移动的集成化水质分析实验室，可用于饮用水的现场采样分析，能够检测包括大肠杆菌、粪大肠菌等微生物指标，以及包括消毒剂、氟化物、氨氮、浊度、pH、电导率等在内的数十项理化指标；●采用组合式配置，仪器、试剂及所需配件均置于硬质便携箱内提供，方便携带，操作灵活；●可覆盖《饮用水卫生标准GB 5749-2006》所规定40余项常规水质指标，检测精度及测量原理符合标准要求；●配合世界卫生组织第三世界饮水安全项目研发，检测精确可靠、实用性强；●所有检测设备可由电池供电，支持全天候现场采样检测工作。

可测量指标：细菌总数、总大肠菌群、耐热大肠菌群、大肠埃希氏菌、游离余氯、氯胺、总余氯、二氧化氯、亚氯酸盐、臭氧、氟化物、亚硝酸盐、pH、锌、氨氮、硫酸盐、铁、硝酸盐、铝、硫化物、锰、磷酸盐、铜、总碱度、钾、镁、钙硬度、亚硫酸盐、氯化物、色度、镍、酚、总硬度、六价铬、高锰酸盐指数(耗氧量)、氰化物、阴离子表面活性剂、溶解氧等50多种检测项目。

用途：用于地表水、自来水、污水水质的多参数检测。

目前已广泛应用于农村饮用水安全检测，自来水源水和出厂水检测。

技术参数：（1）倡导者C2-Microlyzer便携式微生物检测套件控温范围： 20 - 50℃可连续调节。

控温精度：±0.1℃自定义培养条件：可自行设置包括培养温度及时间在内的 10 组自定义培养程序。

培养支架：可同时容纳40个铝制培养皿。

供电方式：支持 220V 交流供电、12V 直流供电及 USB 端口供电。

可选检测项目：细菌总数、大肠杆菌、粪大肠菌、粪链球菌、埃希氏大肠菌等。

便携式培养箱支持在采样现场即完成接种培养工序（2）倡导者C2-101便携式多参数水质分析仪工作波长： 420, 500, 550, 570, 600 和 650nm, 根据检测项目自动选择精确度：光路精确度±1%T，分辨率0.001AU。

Installation GuideModel No.BL-C101(Wired Type)BL-C121(Wireless/Wired Type)This manual is written for both the BL-C101 (Wired Type) and BL-C121 (Wireless/Wired Type). Available features and operations vary slightly depending on the model. You can confirm the model no. of your camera by checking the model no. printed on the front of the camera.Model number suffixes (“A”, “CE”, and “E”) are omitted from the following model numbers shown in this document, unless necessary.BL-C101A, BL-C101CE, BL-C101E, BL-C121A, BL-C121CE, BL-C121EPlease read the included Important Information before proceeding.Complete Operating Instructions and all other documentation can be found on the included CD-ROM.•This document (Installation Guide) explains how to physically connect the camera to the power supply and network, as well how to mount or place thecamera for regular use.•The Setup Guide describes how to set up the camera so that it can be accessed using a PC.•Refer to the Operating Instructions on the CD-ROM for details regarding the camera’s features.•Refer to the Troubleshooting Guide on the CD-ROM if you have any problems configuring or using the camera.Abbreviations•UPnP is the abbreviation for “Universal Plug and Play”.•The Network Camera is referred to as “the camera” in this document.•The Setup CD-ROM is referred to as “the CD-ROM” in this document.Installation Procedure OverviewThe following is an overview of the steps required to install and setup the camera. All steps are explained in this document unless otherwise noted.Preparation1.Confirm the following items are included in the camera’s packaging.2.You will need the following additional items to install and configure the camera.– a PC (see the system requirements in the Important Information document)–For BL-C101: 2 LAN cables (CAT-5 straight cable)For BL-C121: a LAN cable (CAT-5 straight cable)– a routerPreparationConfirm that you have all the items required for installation.Camera DiagramMake sure you know the names of the camera’s physical features.ConnectionsConnecting the camera to your network and to the power outlet.SetupSetting up the camera(described in the included Setup Guide). This involves configuring the camera so that it can be accessed from a PC.MountingMounting or placing the camera.©Panasonic Communications Co., Ltd. 2008PNQX1566YA KK0908CM1108Please read this document before using the product, and save this document for future2Camera DiagramsConnectionsConnect the camera to your router and to the power outlet as described below.•Before proceeding, confirm that your PC is connected to your router and can access the Internet. Also confirm that your router’s UPnP ™ feature is enabled. (Most routers have UPnP ™ turned off by default.) Refer to the operating instructions included with your router or to the Panasonic Network Camera website (/pcc/support/netwkcam/) for more information.BL-C101•BL-C121BL-C101BL-C121FACTORY DEFAULT RESET buttonWIRELESS/WIRED switch LAN portSerial number label Stand/Tripod Mounting HoleExternal I/O interface DC IN jackHook for AC adaptor cord1unit.21Confirm that the WIRELESS/WIRED switch on the side of the camera is set to WIRED .2Connect the LAN cable to the camera and the router.3Connect the AC adaptor cord to the DC IN jack.4Plug the AC adaptor into the power outlet.•Confirm that the indicator turns green after about 1 minute. If it does not turn green, see 1.2 Camera Indicator Issues in•easily accessible.•Use only specified Panasonic AC adaptor (Order No. PQLV206Y for BL-C121A,PQLV216CE1Z for BL-C121CE, BL-C121E).•The camera may become warm. This is normal.After the camera’s indicator turns green, you may set up the camera. Continue by following the procedure described in the included Setup Guide.•If the indicator does not turn green, see 1.2 Camera Indicator Issues in the Troubleshooting Guide on the included CD-ROM.3For BL-C121: Notes About Wireless CommunicationThe radio wave range may decrease depending on the surrounding environment or existence of obstacles. If obstacles such as the following are placed between a camera and a router, radio waves will weaken. Therefore, even if the distance between the camera and router is short, the frame rate may decrease or images may not be displayed.•A metallic door or shutter•A wall with an insulation material that contains aluminum foil •A wall made of tin•A wall made of concrete, stone or brick •Fireproof glass•Several walls separated by open space •A steel shelfIn the example below, wireless communication between the camera and the wireless router is impaired due to steel doors or reinforced concrete walls between the camera and the wireless router.Circuit Diagram ExampleCaution•The external I/O interface is not capable of connecting directly to devices that require large amounts of current. In some cases, acustom interface circuit (customer-provided) may have to be used.Serious damage to the camera may result if a device that exceedsits electrical capability is connected to the external I/O interface.•Low voltage/current circuits and high voltage/current circuits areused in the camera circuit. All wiring should be performed by a qualified electrician. Incorrect wiring could damage the camera and cause a fatal electric shock.•External devices connected to the camera’s output terminals cannot be controlled in the event of a network error or failure. Keep this in mind when connecting door locks, heat-emitting devices, or otherdevices that may be dangerous if they cannot be controlled. (BL-C121 only)Note•If excessive force is used when disconnecting wires with pointed objects from the external I/O interface, terminals may become damaged or the interface may be pushed inside the camera body and become unusable.Mounting the Camera•The camera illustrations in this document depict the BL-C121. Caution•Do not drive the screws into a soft material. Drive the screws into a secure area of the wall, such as a wall stud, otherwise the camera may fall and be damaged.•Make sure you attach the safety wire when mounting the camera, to prevent the camera from falling.Note•Use screws that are appropriate for the material of the wall.•The included screws are for use with wooden walls only.•The camera is intended for indoor use only and should not bemounted outdoors.•To ensure that camera images are displayed properly, do not mount the camera on an incline. Mount the camera so that it isperpendicular to the floor. Do not mount the camera upside down. Flexible Stand Mount1.Loosen the position lock located on the rear side of the flexible stand.2.Turn the mounting screw to attach the camera.3.Adjust the angle, then fasten the position lock.Tripod Mount•Do not use a tripod screw with a thread of 6 mm (1/4 inch) or more.This may damage the stand/tripod mounting hole.•The camera cannot be mounted depending on the shape of thecamera platform.Ceiling/Wall Mount1.Secure the safety wire to the camera using screw B (included) andwasher S (included).•Make sure you attach the safety wire when mounting the camera, to prevent the camera from falling.2.Connect a LAN cable to the camera.•Insert the LAN cable until it clicks into to place.3.Mount the flexible stand firmly to the ceiling or wall with screw A(included).•Do not drive the screws into a soft material. Drive the screws into a secure area of the wall, such as a wall stud, otherwise the camera may fall and be damaged.•Use screws that are suited for the type of material the camera is mounted to.•Allow sufficient space between the ceiling or wall and the flexible stand to turn the position lock.•Make sure the flexible stand is firmly mounted on a wall or ceiling stud (25mm [1inch] and greater) etc. When there is no stud, apply a board on the other side of the ceiling or wall to make sure the camera does not drop.4.Loosen the position lock located on the rear side of the flexible stand,5.6.Connect all necessary cables (AC adaptor, LAN, etc.) to the camera,dress the cables neatly, and secure with tape (customer-provided).7.Secure the safety wire to the ceiling or wall using screw A (included)and washer L (included).•Leave some slack in the safety wire, as shown.•Make sure the safety wire is firmly mounted on a wall or ceiling stud (25 mm [1 inch]and greater) etc. When there is no stud, apply a board on the other side of the ceilingor wall to make sure the camera does not drop.When mounting on a mortar or concrete surface•Prepare anchors for 4 mm (3/16 inch) diameter screws for mounting.1.Place the flexible stand on the ceiling or wall where you plan to mountthe flexible stand and mark the points where you are going to makeholes.2.Make holes with an electric drill. Insert anchors (customer-provided)into the holes and use a hammer to make them flush with the wall.•Mortar ceilings or walls break easily when drilling. Be careful of pieces of mortarwhich may become loose and fall.3.Mount the flexible stand using the screws.For BL-C101 Only: Connecting to the power transfer unit8.Connect a LAN cable to the power transfer unit and to the switchinghub, router, etc.•The power transfer unit can be fixed in place with 2 pieces from screw A (included)(4 mm x 20 mm [3/16 inch x 13/16 inch]).9.Connect a LAN cable from the camera to the power transfer unit.10.Connect the AC adaptor to the power transfer unit and plug the otherend into the power outlet.•The camera will activate.NWallN Ceiling NN N WallN Ceiling N WallN Ceiling N Wall4。

H-23DRG-SC Series Signal ConditionersߜModels Available for Thermocouples,RTDs, DC Voltage and Current, Frequency,Strain Gage Bridge,AC Voltage and CurrentߜField Configurable Input and Output Ranges ߜFive FieldConfigurable Output Ranges: 0-5 V, 0-10 V,0-1 mA, 0-20 mA and 4-20 mAߜSlim Housing Mounts on DIN Rail for High Density Installations ߜ1800 Volts Isolation Between Input, Output and Power SupplyThe DRG Series signal conditioner modules accept a wide variety of input signals such asthermocouples, RTDs, strain gages,DC voltages/currents,AC voltages/currents, frequency and potentiometers and produce a proportional conditioned process output. The inputs and outputs are both field configurable and offer flexible wide ranging capability. The slim housing mounts on a DIN rail and is ideal for high density installation. All modules provide 1800 Vdc isolation between the input, output and power supply.Field ConfigurableOne advantage of the DRG series is the field configurable input andoutput ranges. Each module can be set to a number of ranges by dip switch selection. Wide ranging precision zero and spanpotentiometers provide even further adjustment. The signal conditioners may be set for an almost limitless number of ranges. Rangeadjustment requires the use of a calibrator or reference source.DRG-SC Series$245Basic unitSpecificationsDRG-SC-ACRange (voltage mode):100 mV to 200 VacImpedance (voltage mode):>100KΩOverload (voltage mode):300Vac, max.Range (current mode):10 mA to 100 mAACImpedance (current mode):20 Ω, typicalOvercurrent (current mode):200mAACOvervoltage (current mode):60V rmsFrequency Range:40 to 400 Hz, factory calibrated at 60 Hz Accuracy (including linearity, hysteresis):±0.1% of span, typical;±0.5% of span, maximum. Response Time:(10-90%)250mS., typicalPower:9-30 Vdc, 1.5W typical, 2.5W max.DRG-SC-BGRange:10 mV to ±200 mV Impedance:>1 MΩOvervoltage:400 VRMS max. (intermittent); 264 VRMS, max. (continuous)Accuracy (including linearity, hysteresis):±0.1% typical, ±0.2% max. of range @25°CBridge Excitation:1 to 10 Vdc, 120mA max.Response Time:(10-90%)<200mS., typicalPower:18-30 Vdc, 1.5W typical, 2.5W max.(one 350Ωbridge), 4W max.(four 350Ωbridges)DRG-SC-DCRange (voltage mode): 10 mV to 100 VImpedance (voltage mode):>100KΩOverload (voltage mode):400VRMS, max.Range (current mode):1 mA to 100 mAImpedance (current mode):20 Ω, typicalOvercurrent (current mode):170mA RMS max.Overvoltage (current mode):60Vdc Accuracy (including linearity,hysteresis):<2 mA/20 mV:±0.35%fs, typical; 0.5% max.;>2mA/20 mV:±0.1% fs typical,0.2% max.Response Time: (10-90%)200mS., typicalPower:9-30 Vdc, 1.5 W typical,2.5W maxDRG-SC-FRFrequency Range:2Hz to10,000HzAmplitude Range:50 mV to150VRMSAccuracy (including linearity,hysteresis):±0.1% of selectedrangeImpedance:>10KΩOver-Voltage:180V rms, max.Over-Range:20Khz, max.Response Time:(10-90%):500mSec., or 100 times the periodof the full scale frequency.Power:9-30Vdc, 1.5W typical,2.5W maxDRG-SC-PTResistance (End to End): 100 Ωup to 100 KΩAccuracy (including linearity,hysteresis):±0.1% maximum@25°CInput Impedance: >1 MΩInput Excitation:500 mV, 5 mAmaximum driveResponse Time:(10-90%)<200mS., typicalDRG-SC-RTD:Sensor Types:RTD, Pt100, Pt500,Pt1000 (a = 0.00385 or 0.00392);Cu10, Cu25, Cu100Sensor Connection:3 wireRange: See Range TableAccuracy (including linearity,hysteresis):±0.1% typical, ±0.2%max. the maximum inputtemperature range @ 25°C, 0 Ωlead resistance.Excitation Current:<2 mA forPt100, Pt500, Pt1000; <5 mA forCu100; <10 mA for Cu10, Cu25Leadwire Resistance:40% of basesensor resistance or 100 Ω(whichever is less), max. per lead.Leadwire Effect:Less than 1% ofthe maximum input temperaturespan.Response Time:(10-90%)200mS., typicalPower:9-30 Vdc(DRG-SC-BG: 18-30 Vdc),1.5 W typical,2.5W maxDRG-SC-TCSensor Types:J, K, T, R, S, E, BRanges:See Range TableAccuracy:J±2°C (-200 to 750°C)K±5°C (-200 to -140°C)±2°C (-140 to 1250°C)±4°C (1250 to 1370°C)E±2.5°C (-150 to 1000°C)T±3°C (-150 to 400°C)R & S±6°C (50 to 1760°C)B±5°C (500 to 1820°C)Bias Current (burnout detection):<1.5 microampImpedance:>1 MΩOvervoltage: ±10 V differentialResponse Time (10 to 90%):500mSec. Typical.Power:9-30 Vdc, 1.5 W typical,2.5W maxSPECIFICATIONS COMMON TOALL MODULESOutput*Voltage Output:Output:0-5 V, 0-10 VImpedance:<10 ΩDrive:10 mA max.Current OutputOutput:0-1 mA, 0-20 mA,4-20 mACompliance:0-1 mA; 7.5 V, max.(7.5 KΩ)0-20 mA: 12 V, max.(600 Ω)4-20 mA: 12 V, max.(600 Ω)Isolation:1800 Vdc between inputoutput and power.Mounting:Standard 32 mm or35mm DIN railESD Susceptibility:MeetsIEC801-2, level 2 (4 KV)Humidity (Non-Condensing):Operating:15 to 95% (@45°C),Soak:90% for 24 hours (@65°C)Temperature Range:Operating: 0to 55°C (32 to 131°F),Storage: -25 to 70°C (-13 to 158°F)*DRG-SC-DC-B has a ±5 V and ±10 Voutput onlyH-24H-25DRG-SC-TC Thermocouple Input Signal ConditionerThe DRG-SC-TC is a DIN rail mount thermocouple input signal conditioner. It can be field configured for over 60 different thermocouple temperature ranges.The output is linear to temperature and can be set for either 0-5 V, 0-10V, 0-1 mA, 0-20 mA or 4-20 mA. Zero and span pots allow 50% adjustability of offset and span turn down within each of the ranges. For example the 500-1000°C range could be offset and turned down to provide a 4-20 mA signal representing 750-1000°C.Ordering Example:DRG-SC-TC Thermocouple input signal conditioner $285.$285Lifetime WarrantyH-26DRG-SC-DCDC Input Signal ConditionerDRG-SC-BG Bridge/Strain Gage Input Signal ConditionerThe DRG-SC-BG is a DIN rail mount bridge or strain gage input signal conditioning module. The field configurable input and output offers flexible, wideranging capability for bridge or strain gage applications from 0.5 mV/V to over 50 mv/V. Wide ranging,precision zero and span pots allow 50% adjustability of offset and gain within each of the 11 switch selectable input ranges. The output can be set for either 0-5 V, 0-10 V, 0-1 mA, 0-20 mA or 4-20 mA. This flexibility,combined with an adjustable (1 to 10 Vdc) bridge excitation source, provides the user a reliable,accurate instrument to isolate and condition virtually any bridge or strain gage input.INPUT RANGES0-10 mV, 0-20 mV, 0-50 mV, 0-100 mV, 0-200 mV,±5mV, ±10 mV, ±20 mV, ±50 mV, ±100 mV, ±200 mVOrdering Example:DRG-SC-BG bridge input signal conditioner $285.The DRG-SC-DC is a DIN rail mount DC voltage and current input signal conditioning module. The input can be field configured for any one 12 voltage ranges from 10 mV to 100 V or 6 current ranges from 1mA to 100 mA. The output is linear to the input and can be set to either 0-5 V, 0-10 V, 0-1 mA, 0-20mA or 4-20mA for the DRG-SC-DC-U (unipolar outputs) and -5 V to +5 V or -10 V to +10 V for the DRG-SC-DC-B (bipolar outputs). Zero and span pots allow 50%adjustability of offset and span turn down within each of the ranges. For example the 0-2 mA input range could be turned down to 0-1 mA and provide a full scale output signal (e.g. 4-20 mA).INPUT RANGES (UNIPOLAR AND BIPOLAR)Voltages:20 mV, 50 mV, 100 mV, 200 mV 500 mV, 1 V, 2 V, 5 V, 10V, 25 V, 50 V, 100 VCurrent:2 mA, 5 mA, 10 mA, 20mA, 50 mA, 100 mAComes with operator’s manual.Ordering Example: DRG-SC-DC-U DC voltage/current input signal conditioner $245.$245$285Lifetime WarrantyLifetime WarrantyHH-27Comes with operator’s manual.Ordering Example:DRG-SC-RTD RTD input signal conditioner $285.DRG-SC-RTD RTD Input Signal Conditioner$285Lifetime WarrantyInput Ranges (°C):PT100, PT500 & PT1000:-18 to 500, -18 to 600Cu10, Cu25 & Cu100:-200 to -100, -100 to 260, -100 to 100, -50 to 50, -18 to 50, -18 to 100, -18 to 260DRG-SC-FR Frequency Input Signal ConditionerThe DRG-SC-FR is a DIN rail mount frequency input signal conditioning module. The field configurable input and output offers flexible, wide ranging capability for a variable frequency drives, magnetic pickups, turbine meters and other pulse or frequency outputtransducers. The output can be set for either 0-5 V,0-10 V, 0-1 mA, 0-20 mA or 4-20 mA. The DRG-SC-FR can be configured for virtually any frequency input to DC signal output within the ranges specified.Calibration utilizes technology where the user simply applies minimum and maximum input frequencies,touching a recessed button to configure the minimum and maximum output range.Input Range:2 Hz to 10,000 Hz, 50 mVp to 150 VrmsOrdering Example:DRG-SC-FR frequency input signal conditioner $285.H-28DRG-SC-PT Potentiometer Input Signal ConditionerOrdering Example:DRG-SC-AC Potentiometer input signal conditioner $285.The DRG-SC-PT is a DIN rail mount potentiometerinput signal conditioning module.The input provides a constant voltage and is designedto accept any three-wire potentiometer from 100 Ωto100 KΩ. The field configurable output can be set foreither 0-5 V, 0-10 V, 0-1 mA, 0-20 mA or 4-20 mA.Wide ranging, precision zero and span pots, used inconjunction with DIP switches, allow 80% adjustabilityof offset and gain to transmit a full scale output fromany 20% portion of the potentiometer input.INPUT RANGE100 Ωto 100 KΩ$285LifetimeWarrantyH。

* Maximum continuous output power, all channels driven, VPL set at 100 V and Gain set at 32 dB▸▸Auditoriums▸▸Performing▸Arts▸Centers ▸▸Convention▸Centers ▸▸Stadiums▸and▸Arenas ▸▸Theme▸Parks ▸▸Hotels▸▸Houses▸of▸Worship▸▸Restaurants ▸▸Clubs▸▸Educational▸Establishments ▸▸Boardrooms ▸▸Museums ▸▸Offices▸▸Shopping▸Malls▸▸Transportation▸FacilitiesApplicationsAn▸Installation▸Amplifier▸without▸CompromiseLab.gruppen amplifiers have earned an enviable worldwide reputa-tion for sonic excellence and rock-solid durability in touring sound applications. These same qualities are now available for a broad range of installed sound applications in the C 10:8X amplifier. By offering an unmatched combination of channel density, operating efficiency and configuration flexibility, the C 10:8X presents convin-cing performance and cost-saving advantages. Applications include primary systems for theme parks, shopping malls, airports, hotels and restaurants as well as auxiliary systems for performance venues, houses of worship and numerous other installed sound applications.To achieve higher channel density without compromising per-formance, Lab.gruppen engineers developed a new output stage design. Based on a patented Class D circuit topology, these output stages produce sustained high power levels with very low distortion while maintaining efficiency levels of near 90%. A new universal switching power supply employs Power Factor Correction (PFC) to stabilize current draw, and it accepts any mains voltage from 65 – 265 V (+/- 10%) @ 50 Hz or 60 Hz through the appropriate IEC cord.The C 10:8X includes include unique features which enable each unit – or even each channel – to be configured for a specific application or load condition. Input gain is selectable in four-channel groups, and a 35 Hz high pass filter may be inserted. All channels are bridgeable in pairs, and Lab.gruppen’s exclusive Voltage Peak Limiter (VPL) feature allows each channel to be individually optimized for the reactive characteristics of the connected load.For comprehensive remote monitoring and control, the C 10:8X includes NomadLink ® network ports for connecting to an optional NLB 60E NomadLink ® Bridge & Controller Network and an Ethernet-linked PC. With NomadLink ®, key amplifier parameters are displayed via DeviceControl software, and remote control of channel mute and power on/off is under network control. Alternatively, the GPIO facilities allow access to key amplifier functions via third-party remote control systems.To ensure a long and trouble-free service life, the C 10:8X incorpo-rates extensive features to safeguard internal circuits and connected loads. Protection and warning circuits prevent damage or service in-terruptions due to excessive current, DC at output, over-temperature, non-musical VHF (very high frequencies), and open load conditions. In addition, soft-start and PSU current limiting protect the mains sup-ply from interruptions due to tripped circuit breakers or blown mains fuses.▸Eight▸channels▸in▸2U▸- Extremely high channel density reduces space requirements and installation time ▸High▸continuous▸output▸power▸of▸125▸W▸per▸channel▸at▸70▸V,▸4▸ohms,▸8▸ohms,▸and▸16▸ohms* ▸All▸channels▸individually▸selectable▸for▸lo-Z▸or▸hi-Z▸▸Loudspeakers (2 ohm – 16 ohm) and distributed systems can be connected to the same unit ▸Bridged▸operation▸–▸Channel pairs bridgeable for increased output or for driving 100 V systems ▸Patented▸output▸stage▸based▸on▸Class▸D▸topology ▸High▸efficiency▸for▸lower▸thermal▸stress▸General▸Purpose▸Input/Output▸(GPIO)▸–▸Compatible with third-party control systems ▸NomadLink®▸network▸ready▸Universal▸Power▸Factor▸Corrected▸PSU▸with▸IEC▸inlet▸ ▸Efficient▸cooling▸–▸Dual variable speed fans and parallel airflow over output devices provide uniform cooling ▸Comprehensive▸circuit▸protection▸and▸fault▸indication ▸Phoenix-style▸input▸connectors▸and▸barrier▸strip▸output▸connectorsC 10:8XItem no. TDS-C108X_V7GeneralNumber of channels8Peak total output all channels driven 1000 WPeak output voltage per channel 100 V / 70 Vrms Max. output current per channel 5.6 Arms Max.▸Output▸Power 16▸ohms 8▸ohms 4▸ohms 2▸ohms Hi-ZPer ch. (all ch.’s driven)125 W 125 W 125 W 60 W 125 W (70 Vrms / 100 V peak)Bridged per ch.250 W250 W125 Wn.r.250 W (140 Vrms / 200 V peak)Performance▸with▸Gain:▸32▸dB▸and▸VPL:▸100▸V THD 20 Hz - 20 kHz for 1 W<0.1%THD at 1 kHz and 1dB below clipping <0.05%Signal To Noise Ratio>112 dBA Channel separation (Crosstalk) at 1 kHz>70 dBFrequency response (1 W into 8 ohms) +0/-3 dB 6.8 Hz - 34 kHz Input impedance20 kOhm Input Common Mode Rejection, CMR 50 dB Output impedance @ 100 Hz48 mOhmVoltage▸Peak▸Limiter▸(VPL),▸max.▸peak▸output VPL, selectable per ch. 3)100, 63, 45, 32 V VPL, selectable when bridged 3) 1)200, 126, 90, 64 V Voltage Peak Limiter mode (per ch.)Hard / SoftGain▸and▸LevelAmplifier gain selectable (all channels) 1) – rear-panel switches 29, 32, 35, 38 dBDefault gain32 dBLevel adjustment (per ch.)Front-panel potentiometer, 21 position detented from -inf to 0 dB, hidden behind security panel/dust filter grilleConnectors▸and▸switches Input connectors (per ch.)3-pin Phoenix, electronically balanced Output connectors (per ch.)Barrier strip 2-pole screw terminals Output bridge mode A+B, C+D, E+F , G+H, inputs A, C, E, G are signal source High pass filterFixed at 35 Hz, switchable per channelNomadLink ® network On board, 2 x RJ45 connectors, IN and OUT Intelligent fans (on/off)Y es, depending on presence of output signal Power on/off and Remote enable on/off Individual switches on front-panelCoolingTwo fans, front-to-rear airflow, temperature controlled speed General Purpose Outputs (GPO)Contact Closure types, 2-pole Phoenix General Purpose Inputs (GPI)Contact Closure types, 2-pole PhoenixFront-panel▸indicators Common NomadLink ® Network; Power Average Limiter (PAL) 2); Power onPer channelSignal present / High-impedance; Voltage Peak Limiter (VPL); Current Peak Limiter (CPL); Very High Frequency (VHF); High temperature; Fault; MutePowerOperating voltage, 230 V / 115 V nominal 65-265 V Minimum power-up voltage, 230 V / 115 V 80 V Power Average Limiter (PAL) 2)YesSoft start / Inrush current draw Yes / max. 5 A Mains connector IEC InletDimensions▸(W/H/D)W: 483 mm (19”), H: 88 mm (2 U), D: 343 mm (13.5”)Weight 8.5 kg (18.75 lbs.)FinishBlack painted steel chassis with gray painted steel front ApprovalsCE, ANSI/UL 60065 (ETL), CSA C22.2 NO. 60065, FCCNote▸1): Automatic -6 dB gain compensation when bridging channels. Ch.’s A+B and/or C+D, E+F, G+H, can be bridged individually.▸Note▸2): PAL can reduce the maximum output power to keep the power supply operating safely, and/or to prevent excessive current draw tripping the mains breaker. Refer to Operation Manual.▸Note▸3): For sine waves, peak voltage output values translate to Vrms with the formula V/1.41 = Vrms. E.g. 100 V peak equals app. 70 Vrms. Hence, outputs can be set for high-impedance loads without requiring a transformer.▸All▸specifications▸are▸subject▸to▸change▸without▸notice.L a b .g r u p p e n a b ▸ S w e d e ni n t e r n a t i o n a L c o n t a c t ▸ i n f o @L a b g r u p p e n .c o m | u S & c a n a d a c o n t a c t ▸ i n f o @t c g -a m e r i c a S .c o mw w w .l a b g r u p p e n .c o mSpecifications C 10:8X。

中达电通公司版权所有如有改动,恕不另行通知文件编码 ：DIAVH-092AG10-01文件日期 : 2019/02/20238201209 0215863-56780215863-0003 扫一扫，关注官方微信上海电话:(021)6301-2827武汉电话:(027)8544-8475济南电话:(0531)8690-7277乌鲁木齐电话:(0991)4678-141沈阳电话:(024)2334-16123南昌电话:(0791)8625-5010长沙电话:(0731)8549-9156郑州电话:(0371)6384-2772西安电话:(029)8836-0780长春电话:(0431)8892-5060合肥电话:(0551)6281-6777南宁电话:(0771)5879-599北京电话:(010)8225-3225成都电话:(028)8434-2075南京电话:(025)8334-6585厦门电话:(0592)5313-601天津电话:(022)2301-5082重庆电话:(023)8806-0306 杭州电话:(0571)8882-0610广州电话:(020)3879-2175太原电话:(0351)4039-475哈尔滨电话:(0451)5366-0643绵密网络 专业服务中达电通已建立了71个分支机构及服务网点，并塑建训练有素的专业团队，提供客户最满意的服务，公司技术人员能在2小时内回应您的问题，并在48小时内提供所需服务。

400 - 820 - 9595台达嵌入式工业计算机操作手册-J1900系列版权说明©Delta Electronics, Inc. All rights reserved.台达电子工业股份有限公司保留所有权利本使用手册编撰的所有信息内容属台达电子工业股份有限公司（以下简称「台达」）之专属财产，且受到著作权法及所有法律保护。

台达依著作权法及其它法律享有并保留一切著作权及其他法律专属权利，非经台达事先同意，不得就本手册部分或全部任意地仿制、拷贝、誊抄、转译或为其它利用。

动物RFID产品介绍一、动物芯片及注射器1，动物植入式RFID玻璃管芯片产品参数：2，动物芯片注射器（含芯片）描述每套产品独立包装，全部按照我国一次性医疗器具消毒标准消毒，且为一次性使用。

其注射器为特殊的三刃结构，动物注射处损伤极轻微，不会造成感染等不良后果。

动物芯片经过“国际动物编码委员会”简称ICAR（International Committee-For Animal Recording）认证，符合ISO11784/11785标准，质量可靠放心。

特点•体积小，重量轻•注射/植入简单•采用生物玻璃封装•读写距离远•表面带有防滑动材料•符合中国国家标准委员会刚刚颁布的GB/T 20563-2006动物射频识别标准规格参数产品代码KD-IN-RW存储器类型可读写工作频率（调制方式）ASK, 134.2 KHz信号传输协议符合ISO 11785国际标准动物识别格式符合ISO 11784 / FDX-B国际标准序列号存在附加的全球唯一序列号，不可复制，号码不可仿制，确保标签的唯一性序列号定做156************可写次数大于1,000,000 次外型尺寸直径<=2.12mm 长度<=12mm材料生化涂层覆盖、生物玻璃，抗菌，抗过敏防静电防止静电击穿，耐压5000V以上工作温度-25 ~ 85 ℃存储温度-40 ~ 125 ℃工作年限大于20年最大读取范围* 50-500 mm口令授权是防冲突是，授权应答式(ROA)重量9±0.5 克电源需求不需要注射器套件符合国家标准的专用一次性注射器套装，真空消毒，畜牧、宠物专用多协议手持阅读器。

规格参数BLTR-20100是手持式动物电子标识专用阅读器，其采用先进的射频发射／接收电路及嵌入式微控制器，并结合严密的解码算法对IS011784FDX-B兼容式电子标识进行接收、校验并阅读其数据（信息）。

具有接收灵敏度高、工作电流小、携带方便、性价比高等特点。

Li f t i n g D ev i c e s2Lifting BeamsEconomicalAdjustable Spreader/Lifting Beam(ASLB16) ............................................. 4 Adjustable Lifting Beam (ALB17) .............. 4 Fixed Spread Lifting Beam (FSLB19) ....... 5 Basket Sling Lifting Beam (BSLB18) ........5 I ndustrialLow Headroom Multiple Spread Lifting Beam (LHLB20) ....................6, 7 Heavy Duty Twin Basket Sling Lifting Beam (HDLB22) ..................................8 Twin Hoist Lifting Beam (THLB25) ...........9 SpreaderFixed Spreader Beam (FSB30) ...............10 Adjustable Spreader Beam (ASB32) .......11 Modular Spreader Beam (MSB14) . (12)Coil LifterD ixon Coil Hook with Pivoting Wedge (DCH80) .....................................13 H eavy Duty Coil Hook (HDCH82) .. (13)Construction ToolsBeam/Girder ClampsBeam Flange Clamp (BFC) (14)Girder Clamp (GC)..................................14 Beam Grab (F) ........................................15 Pipe & Manhole Lifting Pipe Grab (C/S) ......................................16 Pipe Tongs (PLT) ....................................17 Concrete Manhole Lifter (MHL) ..............18 Manhole Sleeve Lifter (MCL) .................19 Tea Cup Pipe Carrier (TC) .....................20 Tea Cup Sling (TCS) ..............................20 Pipe Pick (CPP)......................................21 Barrier Grab (BRG74) . (22)TABLE OF CONTENTSFork Lift AccessoriesBooms F ixed Fork Lift Booms (FFLB) ........................23 S ingle Fork Hook (SFH) .................................23 T elescoping Fork Lift Booms (TFLB) ..............24 D ouble Fork Beam (DFB) ...............................24 P ivoting Fork Lift Booms (PFLB) .. (25)Specialty ProductsFiberglass Battery Lifting Beam (BLB) .............26 Battery Lifting Beam, Low Headroom(BLBLHA) ......................................................27 Adjust-A-Link ....................................................28 Adjust-A-Leg .. (29)Gantry CranesFixed Steel (H90) .......................................30, 31 Adjustable Steel (K90) ................................32, 33Fixed Aluminum (HA90) ...................................34 Adjustable Aluminum (KA90) . (35)3 Quality Engineered ProductsAll of the products in this catalog have beenengineered and produced to the highest qualitystandards and meet or exceed all applicable U.S.government standards including OSHA andASME B30.20 AND B30.9. Random proof testingis standard. Proof testing with certification isavailable upon request for a nominal charge.Product OverviewLifting BeamsPRODUCT INFORMATIONAllow for multiple pick points ofthe load for balance or supportissues. Spreader Beams havea top rigging that add stability tothe lift. Available in 9 standardstyles.Beam/Girder ClampsFor use in lifting and positioningstructural beams. Two stylesmay also be hung from loadbearing beams to suspendhoists or other lifting devices.Coil LiftersUse to lift, manipulate andreposition coils. Requiresminimum aisle space equal toLifter arm length. Available in 2standard styles.Gantry CranesThese portable cranes allow forthe pick up and transport of aload wherever you have asmooth and level floor. Availablein either steel or aluminum, fixedor adjustable height.Pipe & Manhole LiftingFor the lifting and positioningof steel, iron and concrete pipes.Pipe Grabs are for metal pipes.Pipe Picks and Tea Cups forconcrete pipes.Barrier GrabsScissor style grab is the easyway to lift and move concreteroad barriers. Auto-latch forhands-off operation.Forklift AccessoriesThree styles of booms andtwo hook devices provideadded lifting capabilities toyour forklift trucks.Battery Beams provide a non-conductive lifting method forindustrial batteries. (i.e.-forkliftbatteries)Adjust-A-Leg slings allowcontrolled lifting of loads wherelift points are not equidistantfrom the load’s center of gravity.Specialty Products4FEATURES• Use for 2, 3 or 4 point lifting or as spreader beam (add top rigging)• Adjustable lifting points • Good for unbalanced loads • Low headroom • Shackles included • 6" spread adjustments • 4" bail adjustments OPTIONS• Pair of swivel hooks - Code S*• Top chain rigging - Code CFEATURES• Adjust bail for unbalanced load • 6" spread adjustments • Shackles includedOPTIONS• Pair of swivel hooks - Code S*ECONOMICAL LIFTING BEAMSAdjustable Spreader/Lifting Beam (ASLB16)* For Optional Swivel Hooks, add an “S” to part No. Contact Lift-All for added cost.Adjustable Lifting Beam (ALB17)Bail Adjustment forUnbalanced LoadsLift Point Adjustment for Load Length5ECONOMICAL LIFTING BEAMSFEATURES• Fixed spread lifting • Eye hooks with latches• Sealed construction for cleaner beamFixed Spread Lifting Beam (FSLB19)Basket Sling Lifting Beam (BSLB18)FEATURES• Best beam for low headroom applications • Fixed spread lifting• Bent bar hooks allow for 2" wide sling eyes - One set for 3' & 4' spreads - Two sets for 6' - 12' spreads •Spread 2 is 1/2 of Spread 16FEATURES• Great for low headroomapplications• Swivel hooks with latchesstandard•3' & 4' beams have 2 spreads•6' & longer beams have 3 spreads(Inner spread lengths are shorterthan outer spreads by 1' increments•Additional or repositioned holesavailable INDUSTRIAL LIFTING BEAMSLow Headroom Multiple Spread Lifting Beam (LHLB20)7Extra Holes Allows for extra hook positions in addition to the standard holes.Specify number and spread.Low Headroom Multiple Spread Lifting Beam (Continued)Options:Extra HooksAllows for multiple pick points.Saves time from having to move hooks.FasPinsAllows for easy repositioning of hooks.Recommended for frequent hookposition changes.8FEATURES• For use with slings in a basket hitch • Latch hooks designed to minimize sling eye damage• Two sets of fixed hooks are standard for all lengths over 4'• Inner spread is 1/2 of outer spread • Extra spreads available upon requestINDUSTRIAL LIFTING BEAMSHeavy Duty Twin Basket Sling Lifting Beam (HDLB22)9FEATURES• For use with two hoists to increase lift capacity• Swivel hook with latch standardTwin Hoist Lifting Beam (THLB25)INDUSTRIAL LIFTING BEAMSCenter hook offset to accommodate hoists of unequal capacities.Custom pick points for both top and bottom.Center bail and extra pair ofhooks for maximum versatility.10FEATURES• Adds stability to lift where headroom is not limited• Chain rigging standard, wire rope rigging availableFixed Spreader Beam (FSB30)SPREADER BEAMS* Add a "W" for Wire Rope RIggingAdd an "A" for Adjust-A-Link Rigging11SPREADER BEAMSAdjustable Spreader Beam (ASB32)FEATURES• Great versatility and stability where headroom is not limited• Chain rigging standard, wire rope rigging available• Telescoping spread adjusts in 1 in. increments* Add a "W" for Wire Rope RIggingSpread12SPREADER BEAMSModular Spreader Beam (MSB14)FEATURES• Designed to accommodate spreads from 10' to 22'• Capacities in 1 and 2 tons • Lightweight• Faspin with lanyard allows for quick adjustment of spread in 1' increments• Hair pin cotter to rigging attachment • Designed and manufactured to ASME standardsRecommended Optional Top Rigging (Add "R" to Part Number)2 Sets of 2-Leg Tuflex Roundslings per BeamOuter TubeInner Tube - each system contains (2)Short TubeLifting Eye Dimensions13COIL LIFTERSDixon Coil Hook with Pivoting Wedge (DCH80)Heavy Duty Coil Hook (HDCH82)FEATURES• For easy upending of coils from horizontal to vertical• Pivoting wedge great for lifting coils that have been stacked • Wedge also acts as a coil retainer• Excels in use with small, lightweight coils • Good for limited overhead clearance•Standard handle for easier coil positioningFEATURES• Designed for heavy duty applications• High tensile alloy steel plate reduces physical size and weight • Counter balanced to hang level when empty • Inside radius on hooks avoid coil edge contact • Guide handles for ease of hook positioning • Handles a wide range of coil widths•Available with optional padding for additional coil protectionHeadroom14FEATURES• Light weight, portable design• Jaw opening adjusts to a wide range of beam types and flange widths• Built in suspension pin for minimum headroom • Opposing thread screw spindles for rapid operation• Large Bail option available for large crane hooksCONSTRUCTION TOOLSBeam Flange Clamp (BFC)Great for the lifting of or suspension from I-BeamsFEATURES• Heavy duty design for lifting wide range of flange beams and plate girders• Screw-spindle design ensures positive grip • Opposing thread screw spindles for rapid operation• Simple design for minimum maintenanceGirder Clamp (GC)Designed for the lifting of or suspension from large girders and I-BeamsLarge Bail OptionAPBH15FEATURES• Heavy duty design for lifting wide flange beams and plate girders• Recessed base accepts studs in beam surface• Eliminates need for slings, chokers and spreader barsCONSTRUCTION TOOLSBeam Grab (F)(For vertical lifting only, not suspension)Operation:1.Lower grab onto beam.2. Lift arms, if necessary, to slide under beam flange.3. As beam is lifted, pressure forces arms together to secure beam.4. The heavier the beam, the greater the clamping force.W16FEATURES• Automatically clamps to pipe when lowered onto it • Moveable outriggers stabilize the pipe during lift • No blocking required• Quick and efficient handling of properly balanced pipeCONSTRUCTION TOOLSPipe Grab (C OR S)(For cast iron or steel pipe only)Operation:1. Lower grab onto approximate center of pipe. Grab will open and seat on pipe.2. Lift slowly to check for pipe balance. Never exceed a 15° angle.3. If angle exceeds 15°, lower pipe and reposition grab.17FEATURES• Pipe Tongs are made of sturdy construction to handle pipe, round bars, castings, etc• Tongs are provided with bare steel curved gripping arms• Optional replaceable urethane pads available to protect smooth or polished surfaces• Load must be balanced and controlled when lifting • May be used in pairs with a lifting beam for added stabilityCONSTRUCTION TOOLSPipe Tongs (PLT)(For vertical lifting only, not suspension)Decreasing the load by bumping or substantial imbalance can, under certain circumstances loosen the grip.Do not use in diameters other than those specified on nameplate.Specifications - Fixed DiameterSpecifications - Adjustable DiameterFixedAdjustable18FEATURES• Designed for 4"-6" concrete wall thickness• Will not damage concrete seat • Legs can be quickly positioned to balance load• 2 and 3 leg models available • Conforms to ASME B30.9 & B30.20Note: Constant tension required to maintain positive load contact.CONSTRUCTION TOOLSConcrete Manhole Housing Lifter (MHL)2 Leg Model3 Leg Model19TWO LEG LIFTERSTHREE LEG LIFTERSFEATURES• Easy to attach and release from sleeve • The quick and easy way to place cast manhole sleeves• 2 or 3 leg models availableManhole Sleeve Lifter (MCL)Note: Flange diameter range 12"-30".CONSTRUCTION TOOLS20FEATURES• Efficiently handles concrete water and sewer pipes • Three sizes available to lift up to 18 tons • Standard hand grip for ease of installation• Optional spoon handle available to assist Tea Cup placement (Model TC66 only) in small diameter pipesCONSTRUCTION TOOLSTea Cup Pipe Carrier (TC)Tea Cup Sling(TCS)For use with Tea Cup Carriers• 5 ft. standard lengthOPERATION1. Drop TCS Slingdown through hole in pipe2. Align and insert Tea Cup Pipe Carrier onto sling3. Lift pipeModel TC66Tea Cup Spoon Handle (TCSH)(Includes Bolt-on Lip)21FEATURES• Simple and fast• No need to reach inside the pipe• Worker remains above the pipe at all times • Use to easily join length of pipeCONSTRUCTION TOOLSPipe Pick (PP)(For concrete pipe only)Lift arm counter-weighted for easy removal22FEATURES• Labor saving, quick and easy hands-off operation•No slings or chains to attach•Reduces damage to barrier due to moving•Replaceable polyurethane lifting pads for unpaintedbarriers•Replaceable steel "Dog Point" lifting pads for paintedbarriers (typical in coastal areas) CONSTRUCTION TOOLSBarrier Grab (BRG74)The Barrier Grab isdesigned to handle 6"-12"nominal widths at thebarrier top (W)1. Grab in openposition is placedonto barrier. Autolatchwill disengage whenhoist line becomesslack.2. Raising cranehook will thencause pads toengage barrier.3. Lower barrierinto position.4. Slack in hoistline will engageauto-latch, holdinggrab open for removaland placement of nextbarrier.23FEATURES• Easy attachment - no tools required • Welded construction for durability • Promotes versatility of fork lift trucks • 3,000 lb. rated capacityFEATURES• Fixed length beam design• Restraining chain with grab hook FORK LIFT ACCESSORIESFixed Fork Lift Booms (FFLB)Note: Fixed hook shown, swivel hook also available.FFLB-15 Single Pick Point• Use with 1" or 2" wide web sling • Optional swivel hook availableFFLB-40 Multiple Pick Points• 5 alternate hook positions at 1 foot intervals • Fixed or swivel hooks availableSingle Fork Hook (SFH)24FEATURES• Telescoping boom for versatility • T-Pin locks boom into position • Handle on end for easy extension of boom• Swivel hooks with latch are standard• Restraining chain with grab hook standard• 12 ft. maximum horizontal reachFORK LIFT ACCESSORIESTelescoping Fork Lift Booms (TFLB)FEATURES• Easy attachment - no tools required• Welded construction for durability• Promotes versatility of forklift trucksDouble Fork Beams (DFB)Note: Swivel hook shown, fixed hook also available.25FEATURES• Vertical adjustability in 5 increments up to 40°, 6' 4" maximum height• Telescoping boom for versability • T-Pin locks boom into position • Handle on end for easy extension of boom• Swivel hooks with latch are standard• Restraining chain with grab hook standard reachFORK LIFT ACCESSORIESPivoting Fork Lift Booms (PFLB)26FEATURES• Non-conductive for lifting industrial size fork lift or similar batteries• Up to 70% lighter than other beams• Available for single or multiple size batteries• Heavy duty capacities of 4,800 lbs. and 7,000 lbs.• Acid resistant coated polyester straps and hooks • 36" standard spread - custom lengths available • Swivel hooks standardFORK LIFT ACCESSORIESFiberglass Battery Lifting Beam (BLB)Fixed Length (BLBF)Adjustable (BLBA)Optional J HooksAvailable in place of swivel hooksNote: Maximum spread range is 12"* Add a "J" to Part No. for Optional J Hooks27FEATURES• Low Headroom, 18.3"• Adjustable to handle batteries of different lengths • Non-conductive beam• Acid-resistant, coated polyester straps with either swivel or J-hookSPECIALTY BEAMSBattery Lifting Beam (BLBLHA)Low Headroom, AdjustableJ Hooks StandardSwivel Hooks Available28FEATURES• Chain cannot be removed from the master control plate, assuring the capacity rating will not be compromised• Alloy steel master control plate for strength and reliability • Each assembly serialized for traceability• Complies with OSHA - proof tested and certified• Grade 100 chain provides approximately 25% higher capacities than our previous Adjust-A-Links - replaces larger, more expensive slings• New angled plate design reduces bending torque on chain and plate - reduces wear and extends sling life• Wider top bearing surface reduces wear to both plate and crane hook• Versatile - one sling does many jobs• Using two Adjust-A-Links on the same crane hook eliminates the need for expensive triples and quads• Heat treated alloy steel construction for long sling life• Yellow powder coating on master plate and hooks prevents rust – extends sling life• More compact plate design fits larger hooks for easier rigging • Less bulky than typical double adjustable chain slings • High visibility yellow fittings make assembly easy to spot• Easily adjustable to accommodate a wide range of applications • No time wasted searching for just the right slingSPECIALTY SLINGSAdjust-A-LinkThe adjustable, two leg chain slingSingleDoubleBasketNever exceed rated capacities.Chain must be seated at the base of adjusting slot of the Master Control Link.29FEATURES• Easily adjust the legs for a level lift of unbalanced and non-symetrical loads• Can be locked in place for repetitive lifts • Use in pairs for 4 point lifts• Can be used as top rigging for spreader beams • Great as rigging to move machinerySPECIALTY SLINGSAdjust-A-LegThe adjustable, two leg wire rope sling* Reach should be a length of 70% or greater of the distance between pick up points.Level lifting of non-symetrical loads where lift points are not equidistant from center of gravity.Operation:For a level lift, adjust the leg lengths so that the master plate is above the approximate center of gravity. Test position by lifting only until one end of the load is raised. Lower and reposition master plate and legs for another test. Repeat until load raises without tilting. Adjust-A-Leg must be loaded to at least 10% of rated capacity before legs will fully lock into place.Level lifting of symetrical loads where lift points are not equidistant from center of load.Lifting of any load at an angle.Typical Applications30FEATURES• Balanced design allows for easyrolling, even under load•Simple bolt together construction•Includes 4 steel swivel casters• Easy set-up and maintenance GANTRY CRANESFixed Steel (H90)3132FEATURES• Balanced design allows for easy rolling, even under load• Simple bolt together construction • Includes 4 steel swivel casters • Easy set-up and maintenance• Height adjustable in 1 ft. incrementsGANTRY CRANESAdjustable Steel (K90)3334FEATURES•Light-weight Aluminum construction•Balanced design allows for easy rolling,even under load•Simple bolt together construction•Includes 4 poly-coated swivel casters•Easy set-up and maintenance GANTRY CRANESFixed Aluminum (HA90)35FEATURES• Light-weight Aluminum construction • Balanced design allows for easy rolling, even under load• Simple bolt together construction • Includes 4 poly-coated swivel casters • Easy set-up and maintenance• Height adjustable in 6 in. incrementsGANTRY CRANESAdjustable Aluminum (KA90)Manufacturing and Warehousing in:AtlantaChicago Houston Las VegasHeadquarters, Customer Service & Manufacturing:1909 McFarland Dr.Landisville, PA 17538-1810800-909-1964FAX: 717-898-1215E-Mail:*********************CustomerService:****************************Cat. LD-2010 Integra 10M 110LIFTING DEVICES RETURN POLICY1. Items to be returned MUST BE UNUSED and in like new condition.2. An RGA number must be obtained from our Customer Service Agents. No unauthorized returns will be accepted.3. Freight for returns must be prepaid by the customer to the location designated by our Customer Service Agents.4. Requests for returns must be made within 30 days of the original shipment date.5. A 25% restocking charge will apply to all authorized returns.6. Credit will be issued after receipt, inspection and acceptance.7.Custom ordered or modified items may not be returned.。

C10CH-6X说明书简单介绍派尔高PELCO彩色摄像机C10CH-6X,C10CH-7X C10CH 系列数字 CCD 彩色摄像机C10CH 系列数字 CCD 彩色摄像机1/3 英寸，超高分辨率，540 TVL (NTSC/PAL)，紧凑型产品特性•体积小• 1/3 英寸 CCD 成像器•数字信号处理• 540 TV 线• 0.4 Lux 灵敏度派尔高PELCO彩色摄像机C10CH的详细介绍派尔高PELCO彩色摄像机C10CHC10CH 系列数字 CCD 彩色摄像机1/3 英寸，超高分辨率， 540 TVL (NTSC/PAL)，紧凑型产品特性•体积小• 1/3 英寸 CCD 成像器•数字信号处理• 540 TV 线• 0.4 Lux 灵敏度• CS 镜头安装接口(C 型安装要求使用可选的适配器)•自适应DC/ 视频驱动自动光圈( 镜头不随摄像机提供 )•屏幕菜单配置•光照条件不理想场合下可设置自动/ 手动白平衡•可选的自动增益控制(AGC) ，电子快门控制(ESC) ，和背光补偿 (BLC)•无闪烁模式•模拟日蚀功能•电源自适应(24 VAC/12 VDC 线锁定或内同步)•长距离线缆补偿( 镜头不随摄像机提供 )C10CH 是 Pelco 产品中体积*小、功能*全的数字彩色 CCD 摄像机。

在各种情况下都可以提供**的图像质量。

该摄像机体积紧凑，结合了众多性能于一身，是大多数应用场合的理想选择。

C10CH 配有标准的CS 镜头安装接口，可使用固定、手动的或自动光圈(DC 或视频驱动) 镜头。

光圈通过所有Pelco 自动光圈镜头都具有的标准四针方型接头驱动。

C10CH 是一款具有 540 TVL 分辨率和 0.3 lux 照度的超高分辨率的数字摄像机。

此款摄像机具有自适应电源( 带有内置线锁定的 24 VAC 或带有内部同步的12 VDC) ，自动增益控制 (AGC) ，电子快门控制(ESC) 和无闪烁模式功能。

ORC EXP-2001BL 自動曝光機操作手冊Jun. 2003華展光電股份有限公司翻譯F u l l A u t o m a t i c U V E x p o s u r e S y s t e m異常原點穩定冷卻原點分段自動手動管理設定1.1 原點復歸模式：在主畫面中選擇原點復歸動作開始復歸完畢後,回到主畫面,此時□綠色燈亮起原點復歸方式按下啟動開關開始運轉原點1.2原點復歸下有基板狀態：原點復歸方式PCB基板至於投入手臂啟動開始控制畫面原點狀態當執行啟動時,投入手臂會移動到曝光台面處此時請將多餘基板取回以完成原點復歸動作1.3 原點復歸監控各部位置狀態：此畫面可幫助確認原點復歸動作,於那一動作未復歸完成.傳動 OFF原點上昇台面 原點台面真空吹氣OFF傳動 OFFZ 軸 原點 主真空吸著 OFF 主真空壓力 OFF 基板吸著 ON 膠條吸著 ON 台面壓力 OFF 台面吹氣 OFF 台面吸著 OFF 上檯面 ON 右固定 原點 左固定 原點 UV 燈 準備 對位準備XLR 對位馬達 照相機 原點 遮斷器 關閉投入機 原點排出機 原點反轉部 原點傳 動 OFF原點2.1 分段運轉模式：分段運轉是自動運轉前的準備作業,主要是執行底片架設及對位把點的讀取.在主畫面中投入搬送器確認吸著位置段 取運 轉 方 式 通 常 分 段 方 式按下啟動開關 開始運轉底片回收曝光設定底片清掃段 取 運 轉 方 式 通 常 運 轉 方 式確認投入搬送器吸著盒位置啟動停止照相機設定曝光量設定照 相 機 設 定 畫 面位 置移 動照相機位置記憶 位置1位置2右側左側 靶位工作燈照相機移動 位置1位置2 移動1移動2 復歸復歸曝光設定畫面光量選擇選擇強 度手動操作 設定 現在遮斷器 曝光設定基板厚度設定基板尺寸板厚數值輸入畫面薄板厚板點觸設定值表示器進行輸入位置決定設定畫面現在值 現在值設定值設定值選擇前進後退手動操作 前進前進 後退後退X 馬達極限感知器 Y 馬達極限感知器 Y 基板極限感知器設定PCB 基板置於投入部確認位置決定的基板狀態啟 動開 始底片回收底片清掃曝光設定選 擇X 軸 Y 軸 12 123.4 123.4 mm mm分 段 運 轉 方 式通 常 分 段 方 式分 段 運 轉 方 式 通 常 分 段 方 式確認已經位置,決定的基板狀態OK,則持續運轉 NG,則應重新設定位置啟 動 停止X 軸馬達極限感知器 Y 軸馬達極限感知器 Y 基板極限感知器確認投入搬送器吸著盒位置底片設定分 段 運 轉 方 式 通 常 分 段 方 式確認投入搬送器吸著盒位置確認投入搬送器吸著盒是否對應基板尺寸然後按下啟動開關啟 動停 止按下啟動開關,則投入搬送器移動分 段 運 轉 方 式 通 常 分 段 方 式底片設定請基板整合靶點對準底片的整合靶點設定底片然後按下啟動開關啟 動停 止按下啟動開關,則Z 軸上昇照相機設定分段運轉方式通常分段方式照相機設定請將照相機位置對準底片靶位然後按下啟動開關照相機設定啟動停止畫面處理分段運轉方式通常分段方式畫面處理對位靶位讀取O.K.,則按下啟動開關啟動停止確認排出器吸著盒位置分段運轉方式通常分段方式確認排出器吸著盒位置確認排出器吸著盒是否對應基板尺寸然後按下啟動開關啟動停止按下啟動開關,則排出器移動2.2在分段運轉模式：在選擇底片回收,則是將底片拆除取下.2.3在分段運轉模式：選擇曝光設定,則是測量照度強弱便設定能量.2.4在分段運轉模式：選擇底片清掃,則是將玻璃取出固定清潔底片.3.1 自動運轉模式：自 動 運 轉通過模式啟動 循環停止 停止按下啟動則開始運轉累積曝光片數曝光片數計算 真空延遲時間 燈管時間曝光量設定 照度表示現在現在 現在 現在現在現在設定設定設定處理片數計算已經達到所設定的曝光片數‧持續進行生產,請按下重新啟動開關.‧進行玻璃框清潔,請按下清掃開關.警報停止重新啟動停止重新設定處理片數3.2自動運轉中發生異常處理：1)安全開關異常.2)門打開異常.3)照相機位置異常.4)對位異常.5)貼付異常6)重複對位次數異常.7)投入手臂吸著異常.8)排出手臂吸著異常.3.3自動運轉下可選擇通過模式：即是不曝光對位將基板送到下一流段A 通過曝光整合對位底片真空4.1手動操作模式：投入在置投入機排出機後退後退傳動定位桿下流機操作反轉機反轉傳動基板排出投入曝光投入部台面搬送維修位置下限壓氣Z 軸接觸整合UV 搬送下限照相機玻璃框位置1 位置2 原點夾具導桿真空壓氣底片膠條主真空底盤曝光遮段器曝光定盤基板壓氣排出機傳動5.1管理模式：管理模式管理模式時間管理模式管理模式原點狀態畫面序列確認畫面拍節詳細畫面基板位置狀態畫面工作燈語言切換英文5.2時間管理模式：時間管理模式累積動作時間累積曝光次數小時片拍節時間曝光時間秒秒點燈更換時間700小時設定現在設定現在設定現在過濾器更換時間1000小時照相機照相更換時間1200小時小時小時小時小時小時小時6.1基板位置狀態表示畫面：可監控生產基板目前置於那個階段位置基板位置排出機投入機反轉機基板主機曝光上流曝光基板上流曝光基板上流曝光排出傳動帶Z軸投入輸送帶基板主機曝光上流曝光基板主機曝光上流曝光基板上流曝光上流下流7.1設定模式：7.2自動運轉方式設定：運轉設定模式自動運轉設定方式分段運轉設定方式自動運轉設定方式通過模式曝光判斷整合底片真空S P 板厚OFF設定現在片片設定現在設定現在設定現在設定現在設定現在設定現在設定現在設定現在設定現在設定現在設定現在投入機重試排出機重試判斷重試貼付重試真空等待時間主真空壓氣Z軸定盤壓氣Z軸基板吸著投入機排出機Z軸7.3分段運轉方式設定：分段運轉方式批處理底片清潔吸著盒確認記憶號碼聯動位置決定設定板厚設定光量設定照相機設定選擇選擇選擇位置X設定值板厚光量2點標誌選擇Y設定值記憶號碼聯動。