EE-SA102中文资料

10A Single-Phase Bridge RectifierFeatures• High forward surge current capability • Ideal for printed circuit board• High temperature soldering guaranteed:260°C/10 seconds, 0.375" (9.5mm) lead length, 5 lbs (2.3kg) tension • RoHS CompliantMechanical DataCase: Molded plastic bodyEpoxy: Meets UL 94V-0 flammability ratingTerminals: Lead solderable per MIL-STD-202E method 208CPolarity: Marked on case Weight:0.20 ounce, 5.62 gramMaximum Ratings (T Ambient =25ºC unless noted )SymbolDescriptionTB1005TB101TB102TB104TB106TB108TB1010UnitV RRM Maximum Repetitive Peak Reverse Voltage50 100 200 400 600 800 1000 V V RMS Maximum RMS Voltage35 70 140 280 420 560 700 VV DCMaximum DC Blocking Voltage 50 100 200 400 600 800 1000 VT c =50° C(Note 1) 10 T c =100°C 6 I AVMaximumAverage Forward Rectified CurrentT A =50°C (Note 2)6 AI FSM Peak Forward Surge Current 150A l²t Rating for Fusing (t<8.3ms) 93 A²secV ISO Isolation Voltage from case to leads2500 V T J Operating Temperature Range -55 to +125 ° C T STGStorage Temperature Range-55 to +150° CElectrical Characteristics (T Ambient =25ºC unless noted otherwise)Note: 1. Unit mounted on 8.7" X 8.7" X 0.24" thick (22 X 22 X 0.6cm) Al. Plate.2. Unit mounted on P.C. B 0.375" (9.5mm) lead length with 0.47" X 0.47" (12 X 12mm) copper padsTypical Characteristics CurvesFig.2- Maximum Non-Repetitive PeakForward Surge Current Per ElementNumber of Cycle at 60HzFig.1- Derating Curve for Output Rectified CurrentTemperature (°C )SymbolDescriptionTB1005TB101TB102TB104TB106TB108TB1010UnitV FMaximum Instantaneous Forward Voltage Drop Per Leg at 5.0 A 1.1 ATA=25° C 10 uAI RMaximum DC Reverse Current at Rated DC BlockingVoltageTA=125° C 1 mAR θ-JCMaximum Thermal Resistance(Note 1)6 ° C/WA v e r a g e F o r w a r d O u t p u t C u r r e n t (A )P e a k F o r w a r d S u r g e C u r r e n t (A )Fig.4- Typical Reverse CharacteristicsPer Bridge ElementPercent of Rated Peak Reverse Voltage (%) Fig.3- Typical Forward Characteristics PerBridge ElementInstantaneous Forward Voltage (V)InstantaneousForwardcurrent(A)InstantaneousReversecurrent(uA)Dimensions in inch (mm)TB10How to contact us:。

1• 15W Isolated Output • Remote ON/OFF Control • 4:1 Input Range • Efficiency to 82% • Six-Sided Shield • 200KHz Switching FrequencyNOTE: 1.Nominal Input Voltage 24 or 48 VDCMODEL INPUT OUTPUT OUTPUT INPUT CURRENT % EFF.CASENUMBER VOLTAGE VOLTAGE CURRENT NO LOAD FULL LOAD 4EE-014EE-024EE-034EE-044EE-054EE-064EE-074EE-084EE-114EE-124EE-134EE-144EE-154EE-164EE-174EE-189-36 VDC18-72 VDC5 VDC 12 VDC 15 VDC±12 VDC ±15 VDC 5/±12 VDC 5/±15 VDC +5/+12/-5 VDC5 VDC 12 VDC 15 VDC±12 VDC ±15 VDC 5/±12 VDC 5/±15 VDC +5/+12/-5 VDC3000 mA 1250 mA 1000 mA ±625 mA ±500 mA 1500/±310 mA 1500/±250 mA 1500/310/500 mA3000 mA 1250 mA 1000 mA ±625 mA ±500 mA 1500/±310 mA 1500/±250 mA 1500/310/500 mA15 mA 15 mA 15 mA 20 mA 20 mA 20 mA 20 mA 20 mA 10 mA 10 mA 10 mA 15 mA 15 mA 15 mA 15 mA 15 mA810 mA 780 mA 780 mA 780 mA 780 mA 780 mA 780 mA 715 mA 410 mA 390 mA 390 mA 380 mA 380 mA 380 mA 380 mA 350 mA77808080808080807780808282828282EEBEHLMAN2Specifications4E EAll Specifications Typical At Nominal Line,Full Load and 25˚C Unless Otherwise Noted.INPUT SPECIFICATIONS:Input Voltage Range.........................................................................................................................................................24V ....................................................9-36V48V ...................................................18-72VInput Filter....................................................................................................................................................................................................................................Pi TypeOUTPUT SPECIFICATIONS:Voltage AccuracySingle Output........................................................................................................................................................................................................................±1.0% max.Dual +Output........................................................................................................................................................................................................................±1.0% max.-Output........................................................................................................................................................................................................................±3.0% max.Triple,5V .................................................................................................................................................................................................................................±2.0% max.12V/15V .......................................................................................................................................................................................................................±3.0% max.Voltage Balance (Dual).......................................................................................................................................................................................................±1.0% max.Transient Response:Single,25% Step Load Change...........................................................................................................................................................................................<500µsec.Dual,FL-1/2L±1% Error Band.................................................................................................................................................................................................<500µsec.External Trim Adj.Range...............................................................................................................................................................................................................±10%.Ripple & Noise,20MHz BW.........................................................................................................................................................................................10mV RMS,max.75mV p-p max.Temperature Coefficient.....................................................................................................................................................................................................±0.02%/°C Short Circuit Protection......................................................................................................................................................................................................Continuous Line Regulation 1,Single/Dual.............................................................................................................................................................................................±0.2% max.Triple...................................................................................................................................................................................................±1.0% max.Load Regulation 2,Single/Dual...........................................................................................................................................................................................±1.0% max.Triple..................................................................................................................................................................................................±5.0% max.GENERAL SPECIFICATIONS:Efficiency .........................................................................................See Table Isolation Voltage.......................................................................500 VDC min Isolation Resistance.........................................................................109ohms Switching Frequency ..................................................................200KHz,min Operating Temperature Range.........................................-25°C to + 71°C Case Temperature.....................................................................100˚C max.Cooling..........................................................................Free-Air Convection Storage Temperature Range...........................................-55°C to + 105°C EMI/RFI..............................................................Six-Sided Continuous Shield Dimensions...............................................................2.56 x 3.0 x 0.83 inches(65 x 76.2 x 21.1 mm)Case Material................................................Black Coated Copper withNon-Conductive BaseCASE EAll Dimensions In Inches(mm)NOTE:1.Measured From High Line to Low Line2.Measured From Full Load to 1/4 LoadRemote On/Off ControlLogic Compatibility EC-On EC-OffShutdown Idle Current Input Resistance Control Common CMOS or Open Collector TTL >+5.5VDC or Open Circuit<1.8 VDC 10 mA100K ohms (Ein 0 VDC to 9 VDC)Referenced to Input MinusExternal Output TrimmingOutput may optionally be externally trimmed (±10%) with a fixed resistor or an external trimpot as shown.PIN 4PIN 6RT 1OR RT 210K ohms TRIMPOTTRIM DOWNPIN 7PIN 4TRIM UPPIN 6PIN 7PIN 4PIN CONNECTIONPin Single Output Daul Output Triple Output 1.2.3.4.5.6.7.8.+Input-InputNo PinOutput TrimNo Pin+Output-Output+Input -Input +Output Common -Output No Pin No Pin +Input -Input +Output Common -Output +5V Output No PinRemote On/Off ControlTRIPLE OUTPUT LOADING TABLE (1)AmperesMin.(2) Nom.Output Voltage( Pin No.)63 & 53 & 53 & 5+5+12 or -12+15 or -15+12 & -50.250.100.100.10/0.101.50.310.250.31/0.50NOTE:1.Maximum total power from all outputs is limited to 15 watts but no output should be allowed to exceed its maximum current.2.Minimum current on each output is required to maintain specified regulation.BEHLMAN4532 Telephone Road Suite 103 Ventura, CA 93003 80 Cabot Court Hauppauge, NY 11788(805 ) 642-0660 (800)456-2006 Fax (805) 642-0790 e-mail: sales@ (631)435-0410 (800)874-6727 Fax(631)951-4341Web-site: 。

世界各国和地区英文简写世界各国和地区英文简写序号缩写中文英文1 AE 阿联酋 United Arab Emirates2 AF 阿富汗 Afghanistan3 AL 阿尔巴尼亚 Albania4 AO 安哥拉 Angola5 AR 阿根廷 Argentina6 AT 奥地利 Austria7 AU 澳大利亚 Australia8 AZ 亚塞拜然 Azerbaijan9 BD 孟加拉 Bangladesh10 BE 比利时 Belgium11 BG 保加利亚 Bulgaria12 BH 巴林 Bahrain13 BI 蒲隆地 Burundi14 BJ 贝南 Benin15 BM 百慕大 Bermuda16 BN 汶莱 Brunei17 BO 玻利维亚 Bolivia18 BR 巴西 Brazil19 BS 巴哈马 Bahamas20 BT 不丹 Bhutan21 BW 波札那 Botswana22 CA 加拿大 Canada23 CF 中非共和国 Central Africa24 CG 刚果 Congo25 CH 瑞士 Switzerland26 CK 库克群岛 Cook Is.27 CL 智利 Chile28 CM 喀麦隆 Cameroon29 CN 中国 China30 CO 哥伦比亚 Colombia31 CR 哥斯大黎加 Costa Rica32 CU 古巴 Cuba33 CV 维德角群岛 Cape Verde Is.34 CY 塞普勒斯 Cyprus35 CZ 捷克共和国 Czech36 DE 德国 Germany37 DK 丹麦 Denmark38 DZ 阿尔及利亚 Algeria39 EC 厄瓜多 Ecuador40 EE 爱沙尼亚 Estonia41 EG 埃及 Egypt42 ES 西班牙 Spain43 ET 衣索比亚 Ethiopia44 FI 芬兰 Finland45 FJ 斐济 Fiji46 FR 法国 France47 GA 加彭 Gabon48 GB 英国 Great Britain49 GD 格瑞那达 Grenada50 GH 迦纳 Ghana51 GM 甘比亚 Gambia52 GN 几内亚 Guinea-Bissau53 GQ 赤道几内亚 Equatorial Guinea54 GR 希腊 Greece55 GT 瓜地马拉 Guatemala56 GU 关岛 Guam57 GY 盖亚那 Guyana58 HK 香港 Hong kong59 HN 宏都拉斯 Honduras60 HR 克罗埃西亚 Croatia61 HT 海地 Haiti62 HU 匈牙利 Hungary63 ID 印度尼西亚 Indonesia64 IE 爱尔兰 Ireland65 IL 以色列 Israel66 IN 印度 India67 IQ 伊拉克 Iraq68 IR 伊朗 Iran69 IS 冰岛 Iceland70 IT 义大利 Italy71 JM 牙买加 Jamaica72 JO 约旦 Jordan73 JP 日本 Japan74 KE 肯亚 Kenya75 KH 柬埔寨 Cambodia76 KP 韩国 R.O.Korea77 KR 北朝鲜 D.P.R.Korea78 KW 科威特 Kuwait79 KZ 哈萨克 Kazakhstan80 LA 寮国 Laos81 LB 黎巴嫩 Lebanon82 LT 立陶宛 Lithuania83 LU 卢森堡 Luxembourg84 LV 拉托维亚 Latvia85 LY 利比亚 Libya86 MA 摩洛哥 Moroo87 MC 摩纳哥 Monaco88 MD 摩尔多瓦 Moldova89 MG 马达加斯加 Madagascar90 ML 马里 Mali91 MN 蒙古 Mongolia92 MO 澳门 Macao93 MR 茅利塔尼亚 Mauritania94 MT 马耳他 Malta95 MU 模里西斯 Mauritius96 MV 马尔地夫 Maldives97 MX 墨西哥 Mexico98 MY 马来西亚 Malaysia99 MZ 莫三比克 Mozambique100 NA 奈米比亚 Namibia101 NE 尼日 Niger102 NG 奈及利亚 Nigeria103 NI 尼加拉瓜 Nicaragua104 NL 荷兰 Netherlands105 NO 挪威 Norway106 NP 尼泊尔 Nepal107 NZ 纽西兰 New Zealand108 OM 阿曼 Oman109 PA 巴拿马 Panama110 PE 祕鲁 Peru111 PG 巴布亚纽几内亚 Papua New Guinea 112 PH 菲律宾 Philippines113 PK 巴基斯坦 Pakistan114 PL 波兰 Poland115 PT 葡萄牙 Portugal116 PY 巴拉圭 Paraguay117 QA 卡达 Qatar118 RO 罗马尼亚 Romania119 RU 俄罗斯 Russia120 RW 卢安达 Rwanda121 SA 沙乌地阿拉伯 Saudi Arabia 122 SD 苏丹 Sudan123 SE 瑞典 Sweden124 SG 新加坡 Singapore125 SK 斯洛伐克 Slovakia126 SM 圣马利诺 San Marino 127 SN 塞内加尔 Senegal128 SO 索马利亚 Somalia129 SY 叙利亚 Syria130 TH 泰国 Thailand131 TJ 塔吉克 Tadzhikistan132 TM 土库曼 Turkmenistan 133 TN 突尼西亚 Tunisia134 TO 汤加 Tonga135 TW 台湾 Taiwan136 TZ 坦尚尼亚 Tanzania137 UA 乌克兰 Ukraine138 UG 乌干达 Uganda139 UK 英国 United Kingdom 140 US 美国 United States141 UY 乌拉圭 Uruguay142 UZ 乌兹别克 Uzbekistan143 VA 梵蒂冈 Vatican City144 VE 委内瑞拉 Venezuela145 VN 越南 Viet Nam146 YE 叶门 Yemen147 YU 南斯拉夫 Yugoslavia148 ZA 南非 South Africa149 ZM 尚比亚 Zambia150 ZR 扎伊尔 Zaire151 ZW 辛巴威 Zimbabwe世界各国英文简称阿尔巴尼亚Albania Lek ALL阿尔及利亚第纳尔 DZD安道尔法郎 FRF亚美尼亚 AMD安第列斯群岛盾 ANG安哥拉 AON阿根廷比索 ARP奥地利先令 ATS澳大利亚元 AUD安圭拉东加勒比海元 XCD阿鲁巴岛弗罗林 AWF安地卡及巴布达岛东加勒比海元 XCD亚塞拜然 AZM波斯尼亚和黑塞哥维那 BAK巴贝多元 BBD比利时法郎 BEF保加利亚列弗 BGL蒲隆地法郎 BIF巴哈马群岛元 BSD汶莱元 BND玻利维亚 BOB巴西 BRL不丹卢比 BTR波札那 BWP宏都拉斯元 BZD 加拿大元 CAD贝南法郎 XAF刚果法郎 CDF瑞士法郎 CHF智利比索 CLP中国人民币 CNY 哥伦比亚比索 COP 哥斯大黎加 CRC 捷克克郎 CZK古巴比索 CUP维德角 CVE塞普路斯镑 CYP 英镑 GBP德国马克 DEM丹麦克郎 DKK多美尼加比索 DOP 布吉纳法索 XAF 厄瓜多 ECS缅甸元 MMK爱沙尼亚 EEK埃及镑 EGP厄利垂亚 ERN西班牙彼萨塔 ESP 柬埔寨 KHR衣索比亚 ETB喀麦隆 XAF欧元 EUR芬兰 FIM斐济元 FJD法国法郎 FRF中非共和国 XAF 查德 XAF乔治亚 GEL迦纳塞第 GHC直布罗陀 GIP甘比亚 GMD几内亚法郎 GNF 希腊 GRD瓜地马拉 GTQ盖亚那 GYD港币 HKD纽西兰元 NZD克罗埃西亚 HRK 海地 HTG匈牙利福林 HUF 印尼卢比 IDR爱尔兰 IEP以色列 ILS印度卢比 INR伊拉克第纳尔 IQD 伊朗里亚尔 IRR 冰岛克郎 ISK荷兰盾 NLG义大利里拉 ITL牙买加元 JMD约旦第纳尔 JOD 日圆 JPY肯亚先令 KES萨尔瓦多El SVC朝鲜 KPW赤道几内亚 XAF韩国 KRW衣索比亚 ETB科威特第纳尔 KWD 哈萨克 KZT寮国 LAK黎巴嫩镑 LBP斯里兰卡卢比 LKR 赖比瑞亚元 LRD赖索托 LSL立陶宛 LTL卢森堡法郎 LUF拉托维亚 LVL利比亚第纳尔 LYD 摩洛哥迪拉姆 MAD 摩尔多瓦 MDL马达加斯加 MGF 马其顿第纳尔 MKD 加彭 XAF甘比亚 GMD蒙古 MNT澳门 MOP茅利塔尼亚 MRO 马耳他 MTL模里西斯卢比 MUR 马尔地夫 MVR希腊德拉玛 GRD 墨西哥比索 MXP 格陵兰 DKK马来西亚 MYR莫三比克 MZM奈米比亚 NAD奈及利亚奈拉 NGN 尼加拉瓜 NIO瓜地马拉 GTQ挪威克郎 NOK几内亚 GNF尼泊尔卢比 NPR 纽西兰 NZD阿曼 OMR巴拿马 PAB祕鲁 PEN菲律宾比索 PHP 巴基斯坦卢比 PKR 波兰 PLZ巴拉圭 PYG卡达 QAR罗马尼亚 ROL俄罗斯卢布 RUR 卢安达法郎 RWF 沙乌地阿拉伯 SAR 苏丹 SDD瑞典克郎 SEK新加坡 SGD斯洛维尼亚 SIT斯洛伐克 SKK塞拉里昂 SLL约旦 JOD索马利亚 SOS叙利亚 SYP史瓦济兰 SZL泰铢 THB塔吉克 TJR土库曼 TMM突尼西亚 TND拉托维亚 LVL汤加 TOP土耳其 TRL台湾 TWD坦尚尼亚 TZS乌克兰 UAH乌干达 UGX乌拉圭 UYU美圆 USD乌兹别克 UZS委内瑞拉 VEB越南 VND万那杜 VUV叶门 YER南斯拉夫 YUN世界各国家英文简称中国 china谁能给我世界各国和地区的英文名AF Afghanistan 阿富汗AL Albania 阿尔巴尼亚AD Andorra 安道尔AO Angola 安哥拉AI Angola 安圭拉AQ Antarctica 南极洲AG Ntigua and Barbuda 安地卡及巴布达AR Argentina 阿根廷AM Armenia 亚美尼亚AW Aruba 阿鲁巴AU Australia 澳大利亚AT Austria 奥地利AZ Azerbaijan 亚塞拜然AN Netherlands AntillesAE United Arab Emirates 阿联酋BS Bahamas 巴哈马BH Bahrain 巴林BD Bangladesh 孟加拉BB Barbados 巴贝多BY White Russia 白俄罗斯BZ Belize 贝里斯BE Belgium 比利时BJ Benin 贝南BM Bermuda 百慕大BT Bhutan 不丹BO Bolivia 玻利维亚BA Bosnia Hercegovina 波黑BW Botswana 波札那BV Bouvet Island 布维岛BR Brazil 巴西BN Brunei Darussalam 汶莱BG Bulgaria 保加利亚BF Burkina Faso 布其纳法索BI Burundi 蒲隆地BY Byelorussian SSR 白俄罗斯CM Cameroon 喀麦隆CA Canada 加拿大CV Cape Verde,Republic of 维德角CF The Central African Republic 中非共和国CL Chile 智利CN China 中国CX Christmas Island 圣诞岛CC COCOS Islands 可可岛CO Colombia 哥伦比亚CH Switzerland 瑞士CG Congo 刚果CK Cook Island 库克群岛CR Costa rica 哥斯大黎加CI Lvory Coast 象牙海岸CU Cuba 古巴CY Cyprus 塞普勒斯CZ Czech Republic 捷克共和国DK Denmark 丹麦DJ Djibouti 吉布提DM Gominica 多明哥DE Grmany 德国DO Dominica 多明尼加DZ Algeria 阿尔及利亚EC Ecuador 厄瓜多EC Ecuador 厄瓜多EG Egypt 埃及EH West Sahara 西撒哈拉ES Spain 西班牙EE Estonia 爱沙尼亚ET Ethiopia 衣索比亚FJ Fiji 斐济FK Falkland Islands 福克兰群岛FO Faroe IslandsFI Finland 芬兰FR France 法国FM Micronesia 密克罗尼西亚GA Gabon 加彭GQ Equatorial Guinea 赤道几内亚GF French Guiana 法属盖亚那GM Gambia 甘比亚GE Geia 乔治亚GH Ghana 迦纳GI Gibraltar 直布罗陀GR Greece 希腊GL Greenland 格陵兰GB United Kingdom 英国GD Grenada 格瑞那达GP Guadeloupe 瓜德罗普GU Guam 关岛GT Guatemala 瓜地马拉GN Guinea 几内亚GW Guinea-Bissau 几内亚比索GY Guyana 盖亚那HR Croatia 克罗埃西亚HT Haiti 海地HM Heard and McDonald Islands HN Honduras 宏都拉斯HK Hong Kong 中国香港HU Hungary 匈牙利IS Iceland 冰岛IN India 印度ID Indonesia 印度尼西亚IR Iran 伊朗IQ Iraq 伊拉克IO British Indian Ocean Territory 英联邦的印度洋领域IE Ireland 爱尔兰IL Israel 以色列IT Italy 义大利JM Jamaica 牙买加JP Japan 日本JO Jordan 约旦KZ Kazakstan 哈萨克KE Kenya 肯亚KI Kiribati 吉里巴斯KP North Korea 朝鲜KR Korea 韩国KH Cambodia 柬埔寨KM Comoros 葛摩KW kuwait 科威特KG Kyrgyzstan 吉尔吉斯斯坦KY Cayman Islands 开曼群岛KN St. Kitts and NevisLA Laos 寮国LK Sri Lanka 斯里兰卡LV Latvia 拉托维亚LB Lebanon 黎巴嫩LS Lesotho 赖索托LR Liberia 赖比瑞亚LY Libya 利比亚LI Liechtenstein 列支敦斯登LT Lithuania 立陶宛LU Luxembourg 卢森堡LC St. Lucia 圣露西亚MO Macao 中国澳门MG Malagasy 马达加斯加MW Malawi 马拉维MY Malaysia 马来西亚MV Maldives 马尔地夫ML Mali 马里MT Malta 马尔他MH Marshall Islands 马绍尔群岛MQ MauritaniaMR Mauritania 茅利塔尼亚MU Mauritius 模里西斯MX Mexico 墨西哥MD Moldova,Republic of 摩尔多瓦MC Monaco 摩纳哥MN Mongolia 蒙古MS MontserratMA Moroo 摩洛哥MZ Mozambique 莫三比克MM Burma 缅甸MP Northern Nariana Islands NA Namibia 奈米比亚NR Naura 诺鲁NP Nepal 尼泊尔NL Netherlands 荷兰NT Neutral ZoneNC New Caledonia 新喀里多尼亚NZ New Zealand 纽西兰NI Nicaragua 尼加拉瓜NE Niger 尼日NG Nigeria 奈及利亚NU Niue 纽埃NF Norfolk IslandNO Norway 挪威OM Oman 阿曼PK Pakistan 巴基斯坦PF French Polynesia 法属玻里尼西亚PW Palau 帛琉PA Panama 巴拿马PG Papua,Territory of 巴布亚纽几内亚PY Paraguay 巴拉圭PE Peru 祕鲁PH Philippines 菲律宾PN Pitcairn Islands 皮特开恩群岛PL Poland 波兰PT Portugal 葡萄牙PR Puerto Rico 波多黎各（美）PM St.Pierre and MiquelonQA Qatar 卡达RE Reunion IslandRO Romania 罗马尼亚RU Russia 俄罗斯联邦RW Rwanda 卢安达SV El Salvador 萨尔瓦多SH St.Helena 圣赫勒那SM San Marino 圣马利诺ST Sao Tome and Principe 圣多美与普林西比SA Saudi Arabia 沙乌地阿拉伯SN Senegal 塞内加尔SC Seychelles 塞席尔SL Sierra leone 狮子山SG Singapore 新加坡SK Slovakia 斯洛伐克SI Slovene 斯洛维尼亚SB Solomon Islands 索罗门群岛SO Somali 索马利亚SD Sudan 苏丹SR Surinam 苏利南SJ Svalbard and Jan Mayen IslandsSZ Swaziland 史瓦济兰SE Sweden 瑞典SY Syria 叙利亚SU USSR(formerly) 苏联(前)TD Chad 查德TF French Southern Territoties 法属南方领土TW Taiwan 中国台湾TJ Tsjikistan 塔吉克TZ Tanzania 坦尚尼亚TH Thailand 泰国TG Togo 多哥TK Tokela 托克劳TO Tonga 汤加TT Trinidad and T obago 千里达及托巴哥TN Tunisia 突尼西亚TR Turkey 土尔其TP East Timor 东帝TM Turkomanstan 土库曼TC Turks and Caicos IslandsTV Tuvalu 吐瓦鲁UG Uganda 乌干达UA Ukiain 乌克兰UK England 英国（正式程式码为GB）US America 美国UM 美国边远小岛UY uruguay 乌拉圭UZ Uzbekstan 乌兹别克VA Vatican 梵蒂冈（罗马教庭）VE Venezuela 委内瑞拉VN Vietnam 越南VG Virgin Islands(British) 不列颠岛(英) VI Vigin Islands(U.S.) 不列颠岛(美)VC St. Vincent and the GrenadinesWS Western Samoa 西萨摩亚WF Wallis and Furtuna IslandsYE Yemen 叶门YU Yugoslavia 南斯拉夫ZA South Africa 南非ZR Zaire 扎伊尔ZM Zambia 尚比亚ZW Zimbabwe 辛巴威急求世界各国国名的英文（三个字母）简写？CHN, AUS, CAN, FRA,GB,RUS世界舞台的英文，和英文简写world arenaWA求世界各国（地区）国花亚洲中国--国花蕙芷、牡丹（未定）台湾--区花梅花香港--区花紫荆花澳门--区花莲花朝鲜--国花朝鲜杜鹃（金达莱）韩国--国花木槿日本--国花樱花、菊花寮国--国花鸡蛋花缅甸--国花龙船花泰国--国花素馨、睡莲马来西亚--国花扶桑印度尼西亚--国花毛茉莉新加坡--国花万带兰菲律宾--国花毛茉莉印度--国花荷花、菩提树尼泊尔--国花杜鹃花不丹--国花蓝花绿绒蒿孟加拉--国花睡莲斯里兰卡--国花睡莲阿富汗--国花郁金香巴基斯坦--国花素馨伊朗--国花大马士革月季伊拉克--国花月季（红）阿拉伯联合大公国--国花孔雀、百日草叶门--国花咖啡叙利亚--国花月季黎巴嫩--国花雪松以色列国--国花银莲花、油橄榄土耳其--国花郁金香欧洲挪威--国花欧石楠瑞典--国花欧洲白蜡芬兰--国花铃兰丹麦--国花冬青冰岛--国花三色堇俄罗斯--国花向日葵波兰--国花三色堇捷克--椴树斯洛伐克--国花石竹、玫瑰德国--国花矢车菊塞尔维亚--国花桃花克罗埃西亚--国花天竺葵马其顿--国花矢车菊匈牙利--国花郁金香罗马尼亚--国花狗蔷薇保加利亚--国花玫瑰、突厥蔷薇英国--国花玫瑰爱尔兰--国花白车轴草法国--国花鸢尾荷兰--国花郁金香比利时--国花虞美人、杜鹃花卢森堡--国花月季摩纳哥--国花石竹西班牙--国花香石竹葡萄牙--国花雁来红、薰衣草瑞士--国花火绒草奥地利--国花火绒草义大利--国花雏菊、月季圣马利诺--国花仙客来马耳他--国花矢车菊希腊--国花油橄榄、老鼠?北美洲加拿大--国花糖槭美国--国花玫瑰墨西哥--国花大丽花、仙人掌瓜地马拉--国花爪哇木棉萨尔瓦多--国花丝兰宏都拉斯--国花香石竹尼加拉瓜--国花百合（姜黄色）哥斯大黎加--国花卡特兰古巴--国花姜花、百合牙买加--国花愈疮木海地--国花刺葵多明尼加共和国--国花桃花心木南美洲哥伦比亚--国花卡特兰、咖啡厄瓜多--国花白兰花祕鲁--国花金鸡纳树、向日葵玻利维亚--国花向日葵巴西--国花卡特兰、毛蟹爪莲智利--国花野百合阿根延--国花刺桐乌拉圭--国花商陆、山楂大洋洲澳大利亚--国花金合欢、桉树纽西兰--国花桫椤、四翅槐斐济--国花扶桑非洲埃及--国花睡莲利比亚--国花石榴突尼西亚--国花素馨阿尔及利亚--国花夹竹桃、鸢尾摩洛哥--国花月季、香石竹塞内加尔--国花猴面包树赖比瑞亚--国花胡椒迦纳--国花海枣苏丹--国花扶桑坦尚尼亚--国花丁香、月季加彭--国花火焰树尚比亚--国花叶子花马达加斯加--国花凤凰木、旅人蕉塞席尔--国花凤尾兰辛巴威--国花嘉兰，梅花也是国花之一。

________________________________________________________________Maxim Integrated Products 1General DescriptionThe MAX202E–MAX213E, MAX232E/MAX241E line drivers/receivers are designed for RS-232 and V.28communications in harsh environments. Each transmitter output and receiver input is protected against ±15kV electrostatic discharge (ESD) shocks, without latchup.The various combinations of features are outlined in the Selector Guide.The drivers and receivers for all ten devices meet all EIA/TIA-232E and CCITT V.28specifications at data rates up to 120kbps, when loaded in accordance with the EIA/TIA-232E specification.The MAX211E/MAX213E/MAX241E are available in 28-pin SO packages, as well as a 28-pin SSOP that uses 60% less board space. The MAX202E/MAX232E come in 16-pin TSSOP, narrow SO, wide SO, and DIP packages. The MAX203E comes in a 20-pin DIP/SO package, and needs no external charge-pump capacitors. The MAX205E comes in a 24-pin wide DIP package, and also eliminates external charge-pump capacitors. The MAX206E/MAX207E/MAX208E come in 24-pin SO, SSOP, and narrow DIP packages. The MAX232E/MAX241E operate with four 1µF capacitors,while the MAX202E/MAX206E/MAX207E/MAX208E/MAX211E/MAX213E operate with four 0.1µF capacitors,further reducing cost and board space.________________________ApplicationsNotebook, Subnotebook, and Palmtop Computers Battery-Powered Equipment Hand-Held EquipmentNext-Generation Device Featureso For Low-Voltage ApplicationsMAX3222E/MAX3232E/MAX3237E/MAX3241E/MAX3246E: ±15kV ESD-Protected Down to10nA, +3.0V to +5.5V, Up to 1Mbps, True RS-232Transceivers (MAX3246E Available in a UCSP™Package)o For Low-Power ApplicationsMAX3221/MAX3223/MAX3243: 1µA SupplyCurrent, True +3V to +5.5V RS-232 Transceivers with Auto-Shutdown™o For Space-Constrained ApplicationsMAX3233E/MAX3235E: ±15kV ESD-Protected,1µA, 250kbps, +3.0V/+5.5V, Dual RS-232Transceivers with Internal Capacitorso For Low-Voltage or Data Cable ApplicationsMAX3380E/MAX3381E: +2.35V to +5.5V, 1µA,2Tx/2Rx RS-232 Transceivers with ±15kV ESD-Protected I/O and Logic PinsMAX202E–MAX213E, MAX232E/MAX241E±15kV ESD-Protected, +5V RS-232 TransceiversSelector Guide19-0175; Rev 6; 3/05Pin Configurations and Typical Operating Circuits appear at end of data sheet.YesPARTNO. OF RS-232DRIVERSNO. OF RS-232RECEIVERSRECEIVERS ACTIVE IN SHUTDOWNNO. OF EXTERNAL CAPACITORS(µF)LOW-POWER SHUTDOWNTTL TRI-STATE MAX202E 220 4 (0.1)No No MAX203E 220None No No MAX205E 550None Yes Yes MAX206E 430 4 (0.1)Yes Yes MAX207E 530 4 (0.1)No No MAX208E 440 4 (0.1)No No MAX211E 450 4 (0.1)Yes Yes MAX213E 452 4 (0.1)Yes Yes MAX232E 220 4 (1)No No MAX241E454 (1)YesFor pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .AutoShutdown and UCSP are trademarks of Maxim Integrated Products, Inc.Ordering InformationOrdering Information continued at end of data sheet.2_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EABSOLUTE MAXIMUM RATINGSV CC ..........................................................................-0.3V to +6V V+................................................................(V CC - 0.3V) to +14V V-............................................................................-14V to +0.3V Input VoltagesT_IN............................................................-0.3V to (V+ + 0.3V)R_IN...................................................................................±30V Output VoltagesT_OUT.................................................(V- - 0.3V) to (V+ + 0.3V)R_OUT......................................................-0.3V to (V CC + 0.3V)Short-Circuit Duration, T_OUT....................................Continuous Continuous Power Dissipation (T A = +70°C)16-Pin Plastic DIP (derate 10.53mW/°C above +70°C)....842mW 16-Pin Narrow SO (derate 8.70mW/°C above +70°C).....696mW 16-Pin Wide SO (derate 9.52mW/°C above +70°C)......762mW 16-Pin TSSOP (derate 9.4mW/°C above +70°C)...........755mW20-Pin Plastic DIP (derate 11.11mW/°C above +70°C)...889mW 20-Pin SO (derate 10.00mW/°C above +70°C).............800mW 24-Pin Narrow Plastic DIP(derate 13.33mW/°C above +70°C) ...............................1.07W 24-Pin Wide Plastic DIP(derate 14.29mW/°C above +70°C)................................1.14W 24-Pin SO (derate 11.76mW/°C above +70°C).............941mW 24-Pin SSOP (derate 8.00mW/°C above +70°C)..........640mW 28-Pin SO (derate 12.50mW/°C above +70°C)....................1W 28-Pin SSOP (derate 9.52mW/°C above +70°C)..........762mW Operating Temperature RangesMAX2_ _EC_ _.....................................................0°C to +70°C MAX2_ _EE_ _...................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +165°C Lead Temperature (soldering, 10s).................................+300°CELECTRICAL CHARACTERISTICS(V CC = +5V ±10% for MAX202E/206E/208E/211E/213E/232E/241E; V CC = +5V ±5% for MAX203E/205E/207E; C1–C4 = 0.1µF for MAX202E/206E/207E/208E/211E/213E; C1–C4 = 1µF for MAX232E/241E; T A = T MIN to T MAX ; unless otherwise noted. Typical values are at T A = +25°C.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.ELECTRICAL CHARACTERISTICS (continued)MAX202E–MAX213E, MAX232E/MAX241E (V CC= +5V ±10% for MAX202E/206E/208E/211E/213E/232E/241E; V CC= +5V ±5% for MAX203E/205E/207E; C1–C4 = 0.1µF forMAX202E/206E/207E/208E/211E/213E; C1–C4 = 1µF for MAX232E/241E; T A= T MIN to T MAX; unless otherwise noted. Typical valuesare at T A= +25°C.)Note 1:MAX211EE_ _ tested with V CC= +5V ±5%._______________________________________________________________________________________34______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241E__________________________________________Typical Operating Characteristics(Typical Operating Circuits, V CC = +5V, T A = +25°C, unless otherwise noted.)5.00MAX211E/MAX213ETRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)V O H , -V O L (V )5.56.06.57.07.58.0100020003000400050000MAX211E/MAX213E/MAX241E TRANSMITTER SLEW RATE vs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E ( V /µs )5101520253010002000300040005000_______________________________________________________________________________________5MAX202E–MAX213E, MAX232E/MAX241E____________________________Typical Operating Characteristics (continued)(Typical Operating Circuits, V CC = +5V, T A = +25°C, unless otherwise noted.)2MAX202E/MAX203E/MAX232E TRANSMITTER SLEW RATE vs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E ( V /µs )468101214100020003000400050005.07.5-7.53000MAX205E–MAX208ETRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCE-5.02.5LOAD CAPACITANCE (pF)O U T P U T V O L T A G E (V )10002000400050000-2.54550203000MAX205E–MAX208E SUPPLY CURRENT vs. LOAD CAPACITANCE2540LOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )100020004000500035302.55.0-10.0180MAX205E –MAX208EOUTPUT VOLTAGE vs. DATA RATE-7.50DATA RATE (kbps)O U T P U T V O L T A G E (V )601202401503090210-2.5-5.010.07.56_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EMAX203EMAX205E_____________________________________________________________Pin DescriptionsMAX202E/MAX232E_______________________________________________________________________________________7MAX202E–MAX213E, MAX232E/MAX241EMAX208E________________________________________________Pin Descriptions (continued)MAX206EMAX207E8_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EMAX211E/MAX213E/MAX241E)(MAX205E/MAX206E/MAX211E/MAX213E/MAX241E)________________________________________________Pin Descriptions (continued)MAX211E/MAX213E/MAX241EFigure 3. Transition Slew-Rate Circuit_______________Detailed Description The MAX202E–MAX213E, MAX232E/MAX241E consist of three sections: charge-pump voltage converters, drivers (transmitters), and receivers. These E versions provide extra protection against ESD. They survive ±15kV discharges to the RS-232 inputs and outputs, tested using the Human Body Model. When tested according to IEC1000-4-2, they survive ±8kV contact-discharges and ±15kV air-gap discharges. The rugged E versions are intended for use in harsh environments or applications where the RS-232 connection is frequently changed (such as notebook computers). The standard (non-“E”) MAX202, MAX203, MAX205–MAX208, MAX211, MAX213, MAX232, and MAX241 are recommended for applications where cost is critical.+5V to ±10V Dual Charge-PumpVoltage Converter The +5V to ±10V conversion is performed by dual charge-pump voltage converters (Figure 4). The first charge-pump converter uses capacitor C1 to double the +5V into +10V, storing the +10V on the output filter capacitor, C3. The second uses C2 to invert the +10V into -10V, storing the -10V on the V- output filter capacitor, C4.In shutdown mode, V+ is internally connected to V CC by a 1kΩpull-down resistor, and V- is internally connected to ground by a 1kΩpull up resistor.RS-232 Drivers With V CC= 5V, the typical driver output voltage swing is ±8V when loaded with a nominal 5kΩRS-232 receiver. The output swing is guaranteed to meet EIA/TIA-232E and V.28 specifications that call for ±5V minimum output levels under worst-case conditions. These include a 3kΩload, minimum V CC, and maximum operating temperature. The open-circuit output voltage swings from (V+ - 0.6V) to V-.Input thresholds are CMOS/TTL compatible. The unused drivers’ inputs on the MAX205E–MAX208E, MAX211E, MAX213E, and MAX241E can be left unconnected because 400kΩpull up resistors to V CC are included on-chip. Since all drivers invert, the pull up resistors force the unused drivers’ outputs low. The MAX202E, MAX203E, and MAX232E do not have pull up resistors on the transmitter inputs._______________________________________________________________________________________9MAX202E–MAX213E, MAX232E/MAX241E10______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241E±15kV ESD-Protected, +5V RS-232 Transceivers When in low-power shutdown mode, the MAX205E/MAX206E/MAX211E/MAX213E/MAX241E driver outputs are turned off and draw only leakage currents—even if they are back-driven with voltages between 0V and 12V. Below -0.5V in shutdown, the transmitter output is diode-clamped to ground with a 1k Ωseries impedance.RS-232 ReceiversThe receivers convert the RS-232 signals to CMOS-logic output levels. The guaranteed 0.8V and 2.4V receiver input thresholds are significantly tighter than the ±3V thresholds required by the EIA/TIA-232E specification.This allows the receiver inputs to respond to TTL/CMOS-logic levels, as well as RS-232 levels.The guaranteed 0.8V input low threshold ensures that receivers shorted to ground have a logic 1 output. The 5k Ωinput resistance to ground ensures that a receiver with its input left open will also have a logic 1 output. Receiver inputs have approximately 0.5V hysteresis.This provides clean output transitions, even with slow rise/fall-time signals with moderate amounts of noise and ringing.In shutdown, the MAX213E’s R4 and R5 receivers have no hysteresis.Shutdown and Enable Control (MAX205E/MAX206E/MAX211E/MAX213E/MAX241E)In shutdown mode, the charge pumps are turned off,V+ is pulled down to V CC , V- is pulled to ground, and the transmitter outputs are disabled. This reduces supply current typically to 1µA (15µA for the MAX213E).The time required to exit shutdown is under 1ms, as shown in Figure 5.ReceiversAll MAX213E receivers, except R4 and R5, are put into a high-impedance state in shutdown mode (see Tables 1a and 1b). The MAX213E’s R4 and R5 receivers still function in shutdown mode. These two awake-in-shutdown receivers can monitor external activity while maintaining minimal power consumption.The enable control is used to put the receiver outputs into a high-impedance state, to allow wire-OR connection of two EIA/TIA-232E ports (or ports of different types) at the UART. It has no effect on the RS-232 drivers or the charge pumps.N ote: The enabl e control pin is active l ow for the MAX211E/MAX241E (EN ), but is active high for the MAX213E (EN). The shutdown control pin is active high for the MAX205E/MAX206E/MAX211E/MAX241E (SHDN), but is active low for the MAX213E (SHDN ).Figure 4. Charge-Pump DiagramMAX202E–MAX213E, MAX232E/MAX241EV+V-200µs/div3V 0V 10V 5V 0V -5V -10VSHDNMAX211EFigure 5. MAX211E V+ and V- when Exiting Shutdown (0.1µF capacitors)X = Don't care.*Active = active with reduced performanceSHDN E N OPERATION STATUS Tx Rx 00Normal Operation All Active All Active 01Normal Operation All Active All High-Z 1XShutdownAll High-ZAll High-ZTable 1a. MAX205E/MAX206E/MAX211E/MAX241E Control Pin ConfigurationsTable 1b. MAX213E Control Pin ConfigurationsThe MAX213E’s receiver propagation delay is typically 0.5µs in normal operation. In shutdown mode,propagation delay increases to 4µs for both rising and falling transitions. The MAX213E’s receiver inputs have approximately 0.5V hysteresis, except in shutdown,when receivers R4 and R5 have no hysteresis.When entering shutdown with receivers active, R4 and R5 are not valid until 80µs after SHDN is driven low.When coming out of shutdown, all receiver outputs are invalid until the charge pumps reach nominal voltage levels (less than 2ms when using 0.1µF capacitors).±15kV ESD ProtectionAs with all Maxim devices, ESD-protection structures are incorporated on all pins to protect against electrostatic discharges encountered during handling and assembly. The driver outputs and receiver inputs have extra protection against static electricity. Maxim’s engineers developed state-of-the-art structures to protect these pins against ESD of ±15kV without damage. The ESD structures withstand high ESD in all states: normal operation, shutdown, and powered down. After an ESD event, Maxim’s E versions keep working without latchup, whereas competing RS-232products can latch and must be powered down to remove latchup.ESD protection can be tested in various ways; the transmitter outputs and receiver inputs of this product family are characterized for protection to the following limits:1)±15kV using the Human Body Model2)±8kV using the contact-discharge method specifiedin IEC1000-4-23)±15kV using IEC1000-4-2’s air-gap method.ESD Test ConditionsESD performance depends on a variety of conditions.Contact Maxim for a reliability report that documents test set-up, test methodology, and test results.Human Body ModelFigure 6a shows the Human Body Model, and Figure 6b shows the current waveform it generates when discharged into a low impedance. This model consists of a 100pF capacitor charged to the ESD voltage of interest, which is then discharged into the test device through a 1.5k Ωresistor.S H D N ENOPERATION STATUS Tx 1–400Shutdown All High-Z 01Shutdown All High-Z 10Normal Operation 11Normal OperationAll ActiveAll Active Active1–34, 5High-Z ActiveHigh-Z High-Z High-Z Active*High-Z RxM A X 202E –M A X 213E , M A X 232E /M A X 241EIEC1000-4-2The IEC1000-4-2 standard covers ESD testing and performance of finished equipment; it does not specifically refer to integrated circuits. The MAX202E/MAX203E–MAX213E, MAX232E/MAX241E help you design equipment that meets level 4 (the highest level) of IEC1000-4-2, without the need for additional ESD-protection components.The major difference between tests done using the Human Body Model and IEC1000-4-2 is higher peak current in IEC1000-4-2, because series resistance is lower in the IEC1000-4-2 model. Hence, the ESD withstand voltage measured to IEC1000-4-2 is generally lower than that measured using the Human Body Model. Figure 7b shows the current waveform for the 8kV IEC1000-4-2 level-four ESD contact-discharge test.The air-gap test involves approaching the device with a charged probe. The contact-discharge method connects the probe to the device before the probe is energized.Machine ModelThe Machine Model for ESD tests all pins using a 200pF storage capacitor and zero discharge resistance. Its objective is to emulate the stress caused by contact that occurs with handling and assembly during manufacturing. Of course, all pins require this protection during manufacturing, not just RS-232 inputs and outputs. Therefore,after PC board assembly,theMachine Model is less relevant to I/O ports.Figure 7a. IEC1000-4-2 ESD Test ModelFigure 7b. IEC1000-4-2 ESD Generator Current WaveformFigure 6a. Human Body ESD Test ModelFigure 6b. Human Body Model Current Waveform__________Applications InformationCapacitor Selection The capacitor type used for C1–C4 is not critical for proper operation. The MAX202E, MAX206–MAX208E, MAX211E, and MAX213E require 0.1µF capacitors, and the MAX232E and MAX241E require 1µF capacitors, although in all cases capacitors up to 10µF can be used without harm. Ceramic, aluminum-electrolytic, or tantalum capacitors are suggested for the 1µF capacitors, and ceramic dielectrics are suggested for the 0.1µF capacitors. When using the minimum recommended capacitor values, make sure the capacitance value does not degrade excessively as the operating temperature varies. If in doubt, use capacitors with a larger (e.g., 2x) nominal value. The capacitors’ effective series resistance (ESR), which usually rises at low temperatures, influences the amount of ripple on V+ and V-.Use larger capacitors (up to 10µF) to reduce the output impedance at V+ and V-. This can be useful when “stealing” power from V+ or from V-. The MAX203E and MAX205E have internal charge-pump capacitors. Bypass V CC to ground with at least 0.1µF. In applications sensitive to power-supply noise generated by the charge pumps, decouple V CC to ground with a capacitor the same size as (or larger than) the charge-pump capacitors (C1–C4).V+ and V- as Power Supplies A small amount of power can be drawn from V+ and V-, although this will reduce both driver output swing and noise margins. Increasing the value of the charge-pump capacitors (up to 10µF) helps maintain performance when power is drawn from V+ or V-.Driving Multiple Receivers Each transmitter is designed to drive a single receiver. Transmitters can be paralleled to drive multiple receivers.Driver Outputs when Exiting Shutdown The driver outputs display no ringing or undesirable transients as they come out of shutdown.High Data Rates These transceivers maintain the RS-232 ±5.0V minimum driver output voltages at data rates of over 120kbps. For data rates above 120kbps, refer to the Transmitter Output Voltage vs. Load Capacitance graphs in the Typical Operating Characteristics. Communication at these high rates is easier if the capacitive loads on the transmitters are small; i.e., short cables are best.Table 2. Summary of EIA/TIA-232E, V.28 SpecificationsMAX202E–MAX213E, MAX232E/MAX241EM A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)Table 3. DB9 Cable ConnectionsCommonly Used for EIA/TIAE-232E and V.24 Asynchronous Interfaces____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241EM A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241E____________Pin Configurations and Typical Operating Circuits (continued)M A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241E____________Pin Configurations and Typical Operating Circuits (continued)M A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)______________________________________________________________________________________21MAX202E–MAX213E, MAX232E/MAX241E Ordering Information (continued)*Dice are specified at T A= +25°C.M A X 202E –M A X 213E , M A X 232E /M A X 241E22________________________________________________________________________________________________________________________________________________Chip Topographies___________________Chip InformationC1-V+C1+V CC R2INT2OUT R2OUT0.117"(2.972mm)0.080"(2.032mm)V-C2+ C2-T2IN T1OUT R1INR1OUT T1INGNDR5INV-C2-C2+C1-V+C1+V CC T4OUTR3IN T3OUTT1OUT 0.174"(4.420mm)0.188"(4.775mm)T4IN R5OUT R4OUT T3IN R4IN EN (EN) SHDN (SHDN)R3OUT T2OUT GNDR1IN R1OUT T2IN R2OUTR2IN T1IN ( ) ARE FOR MAX213E ONLYTRANSISTOR COUNT: 123SUBSTRATE CONNECTED TO GNDTRANSISTOR COUNT: 542SUBSTRATE CONNECTED TO GNDMAX202E/MAX232EMAX211E/MAX213E/MAX241EMAX205E/MAX206E/MAX207E/MAX208E TRANSISTOR COUNT: 328SUBSTRATE CONNECTED TO GNDMAX202E–MAX213E, MAX232E/MAX241E Package InformationM A X 202E –M A X 213E , M A X 232E /M A X 241EPackage Information (continued)MAX202E–MAX213E, MAX232E/MAX241E±15kV ESD-Protected, +5V RS-232 TransceiversMaxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________25©2005 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products, Inc.Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)。

EE-2001/2002NPN to PNP Conversion Connector for Amplified Photomicrosensors H Converts NPN output to PNP output byeasy connection to amplified photomicrosensorsH Easy solution to achieve PNP output as required in the U.S.andEuropeOrdering InformationApplicable amplified photomicrosensor models Part number EE-SPX301EE-SPX401EE-SPY301EE-SPY401EE-SPY302EE-SPY402EE-SPZ301-A EE-SPZ401-A EE-SPZ301Y-01EE-SPZ401Y-01EE-SPZ301W-01EE-SPZ401W-01EE-SPZ301W-02EE-SPZ401W-02EE-SPZ301EE-SPZ401EE-2001EE-SX670/-A EE-SX671/-A EE-SX672/-A EE-SX673/-AEE-SX470EE-SX471EE-SX472EE-SX473EE-SPY311EE-SPY312EE-SPY411EE-SPY412EE-SY671EE-SY672EE-SPX303/403EE-SPX311/411EE-SB5V/-E EE-SB5VC EE-SB5M EE-SB5MCEE-2002SpecificationsNote:T A =25°C (77°F),65%RH ItemValueSupply voltage*5V to 24VDC ±10%,ripple (p-p):5%max.Consumption current 5mA max.under the following conditions:Connector side:¨=open,short circuit between IN and ©Cord side:¨=26.4V,OUT=open,©=0V Control output 100mA max.(Residual voltage =0.8V max.)Ambient temperature Operating -10°C to 55°C (14°F to 131°F)p Storage -25°C to 65°C (-13°F to 149°F)Ambient humidity Operating 5to 85%RH yStorage5to 95%RH*Use the indicated supply voltages for the specified products below:Supply voltagePart number12to 24VDC ±10%,ripple (p-p):5%max.EE-SPX303,EE-SPX4035to 15VDC ±10%,ripple (p-p):5%max.EE-SB5V/-E,EE-SB5VC 5to 12VDC ±10%,ripple (p-p):5%max.EE-SB5M,EE-SB5MCEE-2001/2002EE-2001/20022OperationJ WIRING DIAGRAM5VDC to 24VDC0VDimensionsUnit:mm (inch)J EE-200112316.2(0.64)20±1040(1.57)200±30∅4.0∅812(0.47)200±30811.8(0.46)5.3(0.21)EE-2001/2002EE-2001/20023J EE-2002812320±1040(1.57)200±30∅4.0∅812(0.47)200±30Note:Insulator material of cable is vinyl chloride.12.5(0.49)4.9(0.19)10.7(0.42)Terminal ArrangementConnector side (sensor side)Cord side (power supply side)Circuit no.(cable color)Function Cable color Function 1(Brown)V CC (+)Brown V CC (+)2(Black)Input (Sensor/output)Black Output 3(Blue)G (0)BlueG (0)EE-2001/2002EE-2001/20024Cat. No. GC A P MS-1 09/02 Specifications subj e ct to c h ange without notice. Printed i n U.S.A.OMRON ELECTRONICS LLCOne East Commerce Drive Schaumburg,IL 60173NOTE:DIMENSIONS SHOWN ARE IN MILLIMETERS.To convert millimeters to inches divide by 25.4.1-800-55-OMRONOMRON CANADA,INC.885Milner Avenue416-286-6465ROMRON ON--LINEGlobal -- USA --/oei Canada --/ociToronto,Ontario M1B 5V82Switching Power Supply S8jjS82KDIN-Rail Mount Power Supply with a Wide Power Range of 3to 240W H Universal voltage range H All models are UL 508listedH Class 2approved on all models below 240-W,except dual-output types H Undervoltage indicators on all.90-W,100-W and 240-W “T”-models have indicator and outputH PFC models meet EN61000-3-2(limits for harmonic current emissions)H Parallel operation capability (100-W and 240-W)H Finger-safe terminal block with cover according to VDE0106/P100H Approvals:UL,CSA,VDE,and CE H3-yearwarrantyu ROrdering InformationRated input lt Power ratings Output voltage Output t Function configuration Part numberp voltage gp gpcurrent Output Undervoltagealarm PFC 100to 240VAC3W 5V 0.6A Single t tIndicator only NoS82K-0030512V 0.25A goutput yS82K-0031215V 0.2A S82K-0031524V0.13A S82K-003247.5W 5V 1.5A S82K-0070512V 0.6A S82K-0071215V 0.5A S82K-0071524V 0.3A S82K-00724+12V/--12V 0.3A/0.2A Dual output S82K-00727+15V/--15V0.2A/0.2A p S82K-0072815W 5V 2.5A Single t tS82K-0150512V 1.2A goutput S82K-0151224V0.6A S82K-0152430W 5V 5.0A S82K-0300512V 2.5A S82K-0301224V1.3A S82K-0302450W 24V2.1AS82K-05024(This table continues on the next page.)S8jjS8jj3Rated input lt Power ratings Output voltage Output t Function configuration Part numberp voltage gp gpcurrent Output Undervoltagealarm PFC 120/240VAC l t bl90W 24V 3.75A Single t tIndicator and t tNo S82K-P09024/selectable goutput output Yes S82K-09024100W24V4.2A No S82K-P10024YesS82K-10024120/230VACl t bl 240W24V10ANoS82K-24024T /selectable NoneS82K-24024100to 230VACYesS82K-P24024S8jjS8jj4S82JDIN-Rail Mounting Industrial Power Supplies with Capacity Up to 600W H Models range from 10to 600W H UL 508approvalH Class 2approval available for models below 100WH Universal input or selectable input H Wide range of output voltages:5V,12V,15V,or 24VHUL,CSA,VDE,andCEApprovalsH3-Year warrantyOrdering InformationJ OPEN-FRAME TYPE POWER SUPPLIESRated input voltage PoweriOutput Part number p gratings Voltage Current Front-mounting bracket DIN-rail mounting bracket 5V2A S 82J-01005A S 82J-01005AD 12V 1A S 82J-01012A S 82J-01012AD 10W15V 0.7A S 82J-01015A S 82J-01015AD 24V 0.5A S 82J-01024A S 82J-01024AD 5V5A S 82J-02505A S 82J-02505AD 100to 240VAC12V 2.1A S 82J-02512A S 82J-02512AD 25W15V 1.7A S 82J-02515A S 82J-02515AD 24V 1.1A S 82J-02524A S 82J-02524AD 5V10A S 82J-05005A S 82J-05005AD 50W12V 4.2A S 82J-05012A S 82J-05012AD 24V 2.1A S 82J-05024A S 82J-05024AD 120or 240VAC(t ti ll l t d)5V 20A S 82J-10005A S 82J-10005AD (automatically selected)12V 8.5A S 82J-10012A S 82J-10012AD 100W15V 7A S 82J-10015A S 82J-10015AD 100to 240VAC 24V 4.5A S 82J-10024A S 82J-10024AD 120or 240VAC(automatically selected)150W24V6.5AS 82J-15024AS 82J-15024ADS8jjS8jj5J COVERED-FRAME TYPE POWER SUPPLIESRated input voltage PoweriOutput Part number p gratings Voltage Current Front-mounting bracket DIN-rail mounting bracket 5V2A S 82J-01005D S 82J-01005DD 12V 1A S 82J-01012D S 82J-01012DD 10W15V 0.7A S 82J-01015D S 82J-01015DD 24V 0.5A S 82J-01024D S 82J-01024DD 5V5A S 82J-02505D S 82J-02505DD 100to 240VAC12V 2.1A S 82J-02512D S 82J-02512DD 25W15V 1.7A S 82J-02515D S 82J-02515DD 24V 1.1A S 82J-02524D S 82J-02524DD 5V10A S 82J-05005D S 82J-05005DD 50W12V 4.2A S 82J-05012D S 82J-05012DD 24V 2.1A S 82J-05024D S 82J-05024DD 120or 240VAC(t ti ll l t d)5V 20A S 82J-10005D S 82J-10005DD (automatically selected)12V 8.5A S 82J-10012D S 82J-10012DD 100W15V 7A S 82J-10015D S 82J-10015DD 100to 240VAC 24V 4.5A S 82J-10024D S 82J-10024DD 120or 240VAC(automatically selected)150W24V6.5AS 82J-15024DS 82J-15024DDJ ENCLOSED-FRAME TYPE POWER SUPPLIESInput voltage Power rating Output Part numberp gg Voltage Current 120or 230VAC (selectable)300W 24V 14.0A S82J-30024()600W24V27.0AS82J-60024Note:1.A mounting bracket is included with each power supply.2.To order without a mounting bracket (normally included with the 300W or 600W),add an “N”at the end of the part number.3.For other accessories,refer to the Accessories section that follows.S8jjS8jj6S8VSSmall Sized,DIN-Rail Mount Power Supply With LED DisplayH Ultra-compact size 40W x 95H (60W model)H3-digit,7-segment LED display showsstatus at a glance for output voltage,output current,peak current,lifetime years,and run time hoursH Incorporates a maintenance forecast monitor that displays the remaining life of the power supply,displayed in yearsH Run-Time monitor model displays how long the output has been on,displayed in thousands of hoursH90W model has two outputs;one for undervoltage output and the other is for either the lifetime monitor or run time monitorH Approved by UL,cUL,UL508Listed,Class2output(60Wonly)H CEmarkedHThree-year warrantyOrdering InformationPower ratings Type Output voltage Output current Part number 60WStandard24V2.5AS8VS-06024With maintenance forecast monitor S8VS-06024A With total runtime monitorS8VS-06024B 90WStandard3.75AS8VS-09024With maintenance forecast monitor S8VS-09024A With total runtime monitorS8VS-09024BS8jjS8jj7S8TSBlock-type Power Supply EasilyConnects With Multiple Units and Offers Many Output Combinations H AC/DC Bus SystemH Up to four blocks can be connected to increase power from 60to 240WH N+1redundant capability to highly reliable systemH Flexible connection for mult-output power supply (5V,12V,24V outputs)H Size consistency minimizes stock types H UL 508listed,Class 2output and Class 1Div.2approvedHComplieswith EN6100-3-2(limits for harmonic current)H3-year warrantyOrdering InformationJ BASIC BLOCKDescription Part numberOutput voltage Output current With line bus connectors Without line bus connector 24V 2.5AS8TS-06024F-E1S8TS-06024F 12V S8TS-03012F-E1S8TS-03012F 5V5A—S8TS-02505FJ BUS LINE CONNECTORTypePart number AC line +DC line bus (for parallel operation)S8T-BUS01AC line bus (for series operation or isolated operation)S8T-BUS02J ACCESSORIESType Length WidthPart number DIN rail0.5m (1.64ft.)7.3mm (0.29in)PFP-50N 1m (3.28ft.)7.3mm (0.29in)PFP-100N 1m (3.28ft.)16mm (0.63in)PFP-100N2End platePFP-MS8jjS8jj 8Cat.No.GC APMS-109/02Specifications subject to change without notice.Printed in U.S.A.OMRON ELECTRONICS LLCOne East Commerce Drive Schaumburg,IL 60173NOTE:DIMENSIONS SHOWN ARE IN MILLIMETERS.To convert millimeters to inches divide by 25.4.1-800-55-OMRONOMRON CANADA,INC.885Milner Avenue 416-286-6465ROMRON ON--LINE Global -- USA --/oei Canada --/oci Toronto,Ontario M1B 5V8元器件交易网。

Detector Switch SeriesE 1S234567894th,5th,6th2223131810221112414A EProduct CodeDesign No.TypeShape & Construction 2 mm Size, Type 2N 1HW 1VL 1HL2 mm Size2 mm Size, Type 2NV 5 mm Size, Type 5N 2 mm Size, Type 2W Hook Switchess Explanation of Part NumbersRev.02/04q Type ESE11q Type ESE21q Type ESE103Product ConsolidationRatingC o m m o nO t h e r sS h a p e s /D i m e n s i o n sDetector Switch Checklist before lnquiryV The Electrical Appliance and Material Safety Law (Japan) was revised on March 1st. 1988.Power switches described here are not under jurisdiction of this law, but comply with its technical requirements.Notes:1.When selecting Switches, please consider using our standard products for better prices and short delivery times.2.Please inform the following items when ordering.ItemInformation (Requirements)C-1Inquiry purpose New use, Modification, Others ()C-2ModificationPrevious supplier Conventional part No.C-3ApplicationEquipmentAt switching on (when not pushing) : Pushing distanceDesign standard of (Pushing the point of lever mm)pushing distance of leverAt switching off (when not pushing) : Object of detection is apart from the point of lever not apart from the point of lever (Pushing about mm)Operate the switches every day.( times a day)Almost everytime, the switches are stayed in the released condition.( times a week / month / year)Almost everytime, the switches are pushed in the designed position.( times a week / month / year)Temperature(¡C) to (¡C)DC V mA AC V mADo you give "inrush current" to switches ? : YES NOM-1Operation Operation type Vertical, HorizontalM-2MountingMounting PWB to upper suface of housing: (mm)heightPWB to center rod: (mm)M-3TerminalsPWB, Solder lugL-1Surface Mount Manual soldering, Wave soldering, Reflow SolderingBulk, Taping, MagazineL-2Special requirements for enduranceL-3Special requirements for safetyL-4Vertical HorizontalConnectionPacking StyleWhen specifying Detector Switches, please take advantage of better priceing and delivery by ordering our standard Operation frequencyoffered products. Please check the following items before ordering.PurposeOther questionsApplication NotesWhen using our Detector Switches, please observe the following items (Òprohibited itemsÓ) and be cautious of the following in order to prevent dangerous accidents and deterioration of performance.1.Prohibited items and notes on mounting1.When soldering (including preheating), set the lever tothe release position.2.When soldering using a soldering iron, soldering conditionsvary with the tip shape of the soldering iron, wattage, and PWB thickness. Thoroughly check the conditions in advance, including the heat resistance rating of the solder.3.Do not apply a load to terminals when soldering. Careshould be taken in this regard because a load may deteriorate electric and mechanical characteristics.4.Since the detector switches are not sealed, do not wash them.5.When mounting a detector switch to a through-hole typePWB, the influence of thermal stress on the switch is greater than that on one-sided PWB. Be sure to check the influence as well as the heat resistance rating of the solder.6.For reflow solderingWhen performing reflow soldering using a hot-air oven or an infrared oven, observe the following conditions. Since the temperature applied to a switch and its terminals varies with the type and size of the PWB and the mounting density of the parts, sufficiently check the conditions in advance.2.If multiple switches are placed side by side, or a switch isplaced near another part, the gap between the switch and the adjacent switch/part must be at least 1mm to prevent affect of flux and to ensure proper insulation distance. 3.Design and use so that external stress is not continuouslyapplied to the soldering parts in a set in any direction.External stress may cause pattern peeling and solder cracks on a PWB.4.When mounting a switch (mounting to chassis or buttonswitch.5.Contact lubricant, which is used in detector switches,may flow out to the exterior of the switch due to the structure. For design review, sufficiently check the operating conditions.6.Avoid the following ambient surroundings and otherconditions because they may affect performance:l Under an atmosphere of corrosive gas such as Cl2, H2S, NO x, or SO2l In atmospheres of residual water drops, dew condensation, or adhesive water dropsl In liquids such as water, salt solution, oil, chemicals, and organic solventsl In direct sunlightl In dusty locations4.Prohibited items and notes on storage conditions Since contact characteristics and soldering quality may deteriorate due to sulfuration and oxidation of contacts and terminals, pay heed to the following items.1.For storage and transport of the switches, avoid unpackingthem, and store them at room temperature and room humidity. Use them as soon as possible, generally within3 months, or within a maximum of 6 months after delivery.2.Do not store the switches under conditions of hightemperature and/or high humidity, or in a location where corrosive gas may be generated.3.If some units remain after unpacking, store them afterapplying adequate moisture-proof and gas-proof treatment.5.For use in equipment for which safety is requestedAlthough care is taken to ensure switch quality, variation of contact resistance (increase), short circuits, open circuits, and temperature rise are some problems that might be generated.To design a set which places maximum emphasis on safety, review the affect of any single fault of a switch in advance and perform virtually fail-safe design to ensure maximum safety by:1.preparing a protective circuit or a protectivedevice to improve system safety, and2.preparing a redundant circuit to improve systemsafety so that the single fault of a switch does notcause a dangerous situation.6.For actual use, be sure to refer to ÒProductSpecifications for Information.Ó2.Notes on circuit conditions1.To ensure reliability, use detector switches within the ratedrange, as designated in ÒProduct Specifications for Information.Ó2.To avoid malfunction of a set due to bounce generatedby turning the switch ON and OFF, and/or due to chatter generated by external vibrations, etc., take the following into consideration in design.l Read contact multiple times.(In Case of microcomputer Processing )l Set a delay time.(Recommendation: 3 or more times of reading with the cycle of 3 ms or over) l Prepare a CR integrating circuit.(Recommendation: A time constant of 6 ms or over )3.Prohibited items and notes on mounting andoperating conditions1.Design so that the load applied to the lever when a set is usedis within the rated range of the switch's lever strength.mounting), make sure that no foreign matter enters theCommon Specifications for Detector SwitchesLever StrengthTerminal StrengthContact Resistance Insulation ResistanceDielectric Withstanding Voltage OperatingTemperature Range Heat Resistance Low Temperature ResistanceHumidity ResistanceNon-loaded LifeLoaded LifeElectricalSpecificationsEnvironmental SpecificationsMechanical SpecificationsTo withstand 10N push force applied in operatingdirection for 15 seconds [ESE14A: 20N ]To withstand 3N push force applied on the end ofterminal in any direction for 1 minute[ESE21: 0.5N]500m ½ max.Terminal to Terminal and Terminal to Outer Metal Part:100M W min. (at 100Vdc) (ESE14A: at 500Vdc)Terminal to Terminal and Terminal to Outer Metal Part:100Vac for 1 minute (ESE14A: 500Vac for 1 minute)Ð10¡C to +70¡C(ESE21: Ð10¡C to +60¡C)+80¡C for 96 hoursÐ20¡C for 96 hours40¡C, 90% to 95% RH for 96 hoursNumber of operations: 50000 cyclesContact resistance: 1W max.(ESE14A: 300000 cycles, 500m W max.)Number of operations: 50000 cyclesContact resistance: 1W max.(ESE14A: 300000 cycles, 500m W max.)。

SA12中⽂资料SA5.0thruSA170AFEATURES:ECONOMICAL SERIESAVAILABLE IN BOTH UNIDIRECTIONAL AND BI-DIRECTIONAL CONSTRUCTION 5.0 TO 170 STAND-OFF VOLTAGE AVAILABLE ? 500 WATTS PEAK PULSE POWER DISSIPATION ?QUICK RESPONSEDESCRIPTION:This Transient Voltage Suppressor is an economical, molded, commercial product used to protect voltage sensitive components from destruction or partial degradation.The response time of their clamping action is virtually instantaneous (1 x 10-12seconds) and they have a peak pulse power rating of 500 watts for 1 ms as depicted in Figure 1 and 2. Microsemi also offers a great variety of other Transient Voltage Suppressor's to meet higher and lower power demands and special applications. MAXIMUM RATINGS:Peak Pulse Power Dissipation at 25°C: 500 WattsSteady State Power Dissipation: 2.5 Watts at T L = +75°C3/8" Lead Lengtht clamping (0 volts to BV Min.):Unidirectional <1x10-12 Seconds: Bi-directional <5x10-9Seconds.Operating and Storage Temperature: -55° to +175°C8700 E. Thomas Road Scottsdale, AZ 85252Phone: (480) 941-6300Fax: (480) 947-15035.0 thru 170 volts500 Watts Transient Voltage Suppressors2 x ?.032 ± .002[.81 ± .05].107[2.72]max.POLARITYMark {cathode}.205[5.21]MAX.NOTE: DIMENSIONS IN [ ] =MILLIMETERSP E A K P U L S E P O W E R (P p p ) O R C O N T I N U O U S P O W E R I N P E R C E N T O F 25°C R A T I N G FIGURE 1DERATING CURVE50100150175255075100TYPICAL CHARACTERISTIC CURVEST L LEAD TEMPERATURE °CPulse Time Duration (tp) is Defined as that point where Ip decaysto 50% of I surgePeak Value Ipp 100501234TIME (t) IN MILLISECONDSFIGURE 2PULSE WAVEFORM FOR EXPONENTIAL SURGEP U L S E C U R R E N T I N P E R C E N T O F I p pMECHANICALCHARACTERISTICSCASE: Void free transfer molded thermosetting plastic.FINISH: Readily solderable.POLARITY: Band denotes cathode. Bi-directional not marked.WEIGHT: 0.7 gram (Appx.).MOUNTING POSITION: AnyDO-412 X1.10[27.94]MIN.SA170A ELECTRICAL CHARACTERISTICS AT 25°C PART NUMBERBREAKDOWNVOLTAGE V(BR)MIN.MAXTESTCURRENTI TRATEDSTANDOFFVOLTAGEV WMMAX. REVERSESTANDBYCURRENTI D @V WMMAX.PEAKREVERSEVOLTAGEV C MAX.@ I PPMAX. PEAKPULSECURRENTI PP(Figure 2)MAX.TEMP.COEFFICIENTOF V(BR)-55°C TOαV(BR) VOLTS VOLTS mA VOLTSµ ADC VOLTS AMP% / °CSA5.0 6.407.3010 5.06009.652.057 SA5.0A 6.407.0010 5.06009.254.3.057 SA6.0 6.678.1510 6.060011.443.9.059 SA6.0A 6.677.3710 6.060010.348.5.059 SA6.57.228.8210 6.540012.340.7.061 SA6.5A7.227.9810 6.540011.244.7.061SA7.07.789.51107.015013.337.8.065 SA7.0A7.788.60107.015012.041.7.065 SA7.58.3310.217.55014.335.0.067SA7.5A8.339.2117.55012.938.8.067 SA8.08.8910.918.02515.033.3.070 SA8.0A8.899.8318.02513.636.7.070SA8.59.4411.518.5515.931.4.073 SA8.5A9.4410.418.5514.434.7.073 SA9.010.012.219.0116.929.5.076SA9.0A10.011.119.0115.432.5.076 SA1011.113.6110118.826.6.078 SA10A11.112.3110117.029.4.078SA1112.214.9111120.124.9.081 SA11A12.213.5111118.227.4.081 SA1213.316.3112122.022.7.082SA12A13.314.7112119.925.1.082 SA1314.417.6113123.821.0.084 SA13A14.415.9113121.523.2.084SA1415.619.1114125.819.4.086 SA14A15.617.2114123.221.5.086 SA1516.720.4115126.918.8.087SA15A16.718.5115124.420.6.087 SA1617.821.8116128.817.6.088 SA6A17.819.7116126.019.2.088SA1718.923.1117130.516.4.090 SA17A18.920.9117127.618.1.090 SA1820.024.4118132.215.5.092SA18A20.022.1118129.217.2.092 SA2022.227.1120135.813.9.093 SA20A22.224.5120132.415.4.093thruSA170A ELECTRICAL CHARACTERISTICS AT 25°CPART NUMBERBREAKDOWNVOLTAGE V(BR)MIN.MAXTESTCURRENTI TRATEDSTANDOFFVOLTAGEV WMMAX. REVERSESTANDBYCURRENTI D @V WMMAX.PEAKREVERSEVOLTAGEV C MAX.@ I PPPULSECURRENTI PP(Figure 2)MAX.TEMP.COEFFICIENTOF V(BR)-55°C TO175°CαV(BR) VOLTS VOLTS mA VOLTSµ ADC VOLTS AMP% / °CSA2224.429.8122139.412.7.094 SA22A24.426.9122135.514.1.094 SA2426.732.6124143.011.6.096SA24A26.729.5124138.912.8.096 SA2628.935.3126146.610.7.097 SA26A28.931.9126142.111.9.097SA2831.138.0128150.09.9.098 SA28A31.134.4128145.411.0.098 SA3033.340.7130153.59.3.099SA30A33.336.8130148.410.3.099 SA3336.744.9133159.08.5.100 SA33A36.740.6133153.39.4.100SA3640.048.9136164.37.8.101 SA36A40.044.2136158.18.6.101 SA4044.454.3140171.47.0.101SA40A44.449.1140164.57.8.101 SA4347.858.4143176.7 6.5.102 SA43A47.852.8143169.47.2.102 SA4550.061.1145180.3 6.2.102 SA45A50.055.3145172.7 6.9.102 SA4853.365.1148185.5 5.8.103 SA48A53.358.9148177.4 6.5.103SA5156.769.3151191.1 5.5.103 SA51A56.762.7151182.4 6.1.103 SA5460.073.3154196.3 5.2.104SA54A60.066.3154187.1 5.7.104 SA5864.478.71581103.0 4.9.104 SA58A64.471.2158193.6 5.3.104SA6066.781.51601107.0 4.7.104 SA60A66.773.7160196.8 5.2.104 SA6471.186.91641114.0 4.4.105SA64A71.178.61641103.0 4.9.105 SA7077.895.11701125.0 4.0.105 SA70A77.886.01701113.0 4.4.105SA7583.3102.01751134.0 3.7.105 SA75A83.392.11751121.0 4.1.105thruSA170A ELECTRICAL CHARACTERISTICS AT 25°CPART NUMBERBREAKDOWNVOLTAGE V(BR)MIN.MAXTESTCURRENTI TRATEDSTANDOFFVOLTAGEV WMMAX. REVERSECURRENTI D @V WMMAX.PEAKREVERSEVOLTAGEV C MAX.@ I PPMAX. PEAKPULSECURRENTI PP(Figure 2)MAX.TEMP.COEFFICIENTOF V(BR)-55°C TO175°CαV(BR) VOLTS VOLTS mA VOLTSµ ADC VOLTS AMP% / °CSA7886.7106.01781139.0 3.6.106 SA78A86.795.81781126.0 4.0.106 SA8594.4115.01851151.0 3.3.106SA85A94.4104.01851137.0 3.6.106 SA90100.0122.01901160.0 3.1.107 SA90A100.0111.01901146.0 3.4.107SA100111.0136.011001179.0 2.8.107 SA100A111.0123.011001162.0 3.1.107 SA110122.0149.011101196.0 2.6.107SA110A122.0135.011101177.0 2.8.107 SA120133.0163.011201214.0 2.3.107 SA120A133.0147.011201193.0 2.0.107SA130144.0176.011301231.0 2.2.108 SA130A144.0159.011301209.0 2.4.108 SA150167.0204.011501268.0 1.9.108SA150A167.0185.011501243.0 2.1.108 SA160178.0218.011601287.0 1.7.108 SA160A178.0197.011601259.0 1.9.108SA170189.0231.011701304.0 1.6.108 SA170A189.0209.011701275.0 1.8.108 Note: For Bi-directional construction, indicate a C or CA suffix after the part number, i.e. SA5.0CAthru SA170A10010C -C A P A C I T A N C E - P I C O F A R AD S1001001000V (BR)- BREAKDOWN VOLTAGE - VOLTSFIGURE 3TYPICAL CAPACITANCE VS BREAKDOWN VOLTAGE107.05.03.02.01.00.70.50.30.20.10.11.010********0.20.5 2.0 5.020*********tw - Pulse Width µsFIGURE 4PEAK PULSE POWER VS. PULSE TIME(P P P ) - P e a k P u l s e P o w e r , (k W )20305070。

显色培养基：大肠杆菌显色培养基 E.Coli Chromogenic Medium大肠菌群显色培养基Coliform Chromogenic Medium大肠杆菌/大肠菌群显色培养基 E.Coli/Coliform Chromogenic Medium 细菌总数显色培养基Total Genes Chromogenic MediumO157显色培养基O157 Chromogenic Medium沙门氏菌显色培养基Salmonella Chromogenic Medium李氏菌显色培养基Listera Chromogenic Medium金黄色葡萄球显色培养基Staphylococcus Chromogenic Medium霉菌和酵母菌显色培养基Mould and Yeast Chromogenic Medium弧菌显色培养基Vibrio Chromogenic Medium坂崎杆菌显色培养基Enterobacter sakazakii Chromogenic Medium常用检测培养基：平板计数琼脂(PCA)Plate Count Agar月桂基硫酸盐胰蛋白胨肉汤(LST) Lauryl Sulfate Tryptose Broth 煌绿乳糖胆盐肉汤(BGLB) Brilliant Green Lactose Bile Broth EC 肉汤 E.Coli Broth伊红美蓝琼脂(EMB) Eosin-Methylene Blue Agar营养肉汤(NB) Nutrient Broth营养琼脂(NA) Nutrient Agar乳糖胆盐发酵培养基Lactose Bile Broth乳糖发酵培养基Lactose Broth结晶紫中性红胆盐琼脂(VRBA) Violet Red Bile Agar去氧胆酸盐琼脂Desoxycholate Lactose Agar肠道菌计数琼脂(VRBDA) Violet Red Bile Dextrose Agar肠道菌增菌肉汤(EE) Enterobacteria Enrichment Broth7.5%氯化钠肉汤7.5% Sodium Chloride BrothBaird-Parker琼脂基础Baird-Parker Agar Base胰蛋白胨大豆肉汤（TSB) Trypticase (Tryptic) Soy Broth胰蛋白胨大豆琼脂（TSA) Tryptose Soya Agar胰月示-亚硫酸盐-环丝氨酸琼脂基础(TSC)Tryptose Sulfite Cycloserine Agar Base 甘露醇卵黄多粘菌素琼脂基础(MYP)Mannitol-Egg-Yolk-Polymyxin Agar Base亚碲酸盐卵黄增菌液Egg-Yolk Tellurite Emulsion缓冲蛋白胨水(BPW) Buffered Peptone Water亚硒酸盐胱氨酸增菌液(SC) Selenite Cystine Broth四硫磺酸盐煌绿增菌液基础(TTB) Tetrathionate Broth Base胆硫乳琼脂(DHL) Deoxycholate Hydrogen Sulfide Lactose AgarSS 琼脂Salmonella Shigella Agar亚硫酸铋琼脂(BS) Bismuth Sulfite Agar亚利桑那菌琼脂(SA) Salmonella Arizona AgarHE 琼脂(HE) Hekton Enteric Agar三糖铁琼脂(TSI) Triple Sugar Iron Agar马铃薯葡萄糖琼脂(PDA) Potato Dextrose Agar高盐察氏琼脂Salt Czapek Dox Agar沙氏琼脂培养基Sabouraud’s Agar孟加拉红培养基Rose Bengal MediumYPD琼脂Yeast Peptone Dextrose Agar胰酪胨大豆多粘菌素肉汤基础Trypticase-Soy-Polymyxin Broth Base 酪蛋白琼脂Casein Agar产芽孢肉汤Sporulation Broth溴甲酚紫葡萄糖蛋白胨水培养基Glucase Peptone Water Medium 李氏菌增菌肉汤(LB1,LB2)基础Listeria Enrichment Broth Base 半固体动力培养基Motility Test培养基基础：胰蛋白胨Tryptone酪蛋白胨Peptone from Casein植物(大豆)蛋白胨Peptone from soy月示胨Proteose peptone多价蛋白胨Polypeptone特殊蛋白胨Peptone Special牛心浸粉Beef Heart Infusion肝浸粉Liver Infusion牛肉浸粉Beef Extract Powder酵母浸粉Yeast Extract Powder酸水解酪蛋白Casein acid Hydrolysate 细菌琼脂粉Bacterial Agar牛胆盐Bile Salt。

化学常用前缀和后缀acetal 醛缩醇acetal- 乙酰acid 酸-al 醛alcohol 醇-aldehyde 醛alkali- 碱allyl 丙烯基alkoxy- 烷氧基-amide 酰胺amino- 氨基的-amidine 脒-amine 胺-ane 烷anhydride 酐anilino- 苯胺基aquo- 含水的-ase 酶-ate 含氧酸的盐、酯-atriyne 三炔azo- 偶氮benzene 苯bi- 在盐类前表示酸式盐bis- 双-borane 硼烷bromo- 溴butyl 丁基-carbinol 甲醇carbonyl 羰基-caboxylic acid 羧酸centi- 10-2chloro- 氯代cis- 顺式condensed 缩合的、冷凝的cyclo- 环deca- 十deci 10-1二-dine 啶dodeca- 十二-ene 烯epi- 表epoxy- 环氧-ester 酯-ether 醚ethoxy- 乙氧基ethyl 乙基fluoro- 氟代-form 仿-glycol 二醇hemi- 半hendeca- 十一hepta- 七heptadeca- 十七hexa- 六hexadeca- 十六-hydrin 醇hydro- 氢或水hydroxyl 羟基hypo- 低级的，次-ic 酸的，高价金属-ide 无氧酸的盐，酰替…胺，酐-il 偶酰-imine 亚胺iodo- 碘代iso- 异，等，同-ite 亚酸盐keto- 酮ketone 酮-lactone 内酯mega- 106meta- 间，偏methoxy- 甲氧基methyl 甲基micro- 10-6milli- 10-3mono- ( mon-) 一，单nano- 10-9nitro- 硝基nitroso- 亚硝基nona- 九nonadeca- 十九octa- 八octadeca- 十八-oic 酸的-ol 醇-one 酮ortho- 邻，正，原-ous 亚酸的，低价金属oxa- 杂-oxide 氧化合物-oxime 肟oxo- 酮oxy- 氧化-oyl 酰para- 对位，仲penta- 五pentadeca- 十五per- 高，过petro- 石油phenol 苯酚phenyl 苯基pico- 10-12 poly- 聚，多quadri- 四quinque- 五semi- 半septi- 七sesqui 一个半sexi- 六sulfa- 磺胺sym- 对称syn- 顺式，同，共ter- 三tetra- 四tetradeca- 十四tetrakis- 四个thio- 硫代trans- 反式，超，跨tri- 三trideca- 十三tris- 三个undeca- 十一uni- 单，一unsym- 不对称的，偏位-yl 基-ylene 撑(二价基，价在不同原上)-yne 炔常用化学名称数字前缀831中文名数字前缀半0.5 hemi-单 1 -mono-倍半 1.5 sesqui-双 2 di-,bi-,双倍半 2.5 hemipenta-三 3 tri-四 4 tetra-五 5 penta-六 6 hexa-七7 hepta-八8 octa-九9 ennea-,nona-十10 deca-十一11 hendeca-,undeca- 十二12 dodeca-十三13 trideca-十四14 tetradeca-十五15 pentadeca-十六16 hexadeca-十七17 heptadeca-十八18 octadeca-十九19 nonadeca-二十20 eicosa-二十一21 heneicosa-二十二22 docosa-二十三23 tricosa- 二十四24 tetracosa-二十五25 pentacosa-二十六26 hexacosa-二十七27 heptacosa-二十八28 octacosa-二十九29 nonacosa-三十30 triaconta-四十40 tetraconta-五十50 pentaconta-六十60 hexaconta-七十70 heptaconta-八十80 octaconta-九十90 nonaconta-一百100 hecta-一百零一101 henhecta-一白零二102 dohecta-一百一十110 decahecta-一百二十120 eicosahecta-词根ag,act 做，驱动agent代理人active活动的，积极的agr 农田agriculture农业agrarian田地的am 爱，亲爱amicable友善的amiable和蔼可亲的anim 心灵，精神，生命animal动物animate有生命的ann，enn 年annual一年的centennial一世纪的astro 星astronomy天文学astronaut宇宙航行员audi 听audience听众audible听得见的bell 战争rebellion反叛，反抗bellicose好战的bio 生命，常用的前缀后缀词根一.常见的前缀1.表示否定意义的前缀1)纯否定前缀a-, an-, asymmetry（不对称）anhydrous（无水的）dis- dishonest, dislikein-, ig-, il, im, ir, incapable, inability, ignoble, impossible, immoral, illegal, irregularne-, n-, none, neither, nevernon-, noesenseneg-, neglectun- unable, unemployment2)表示错误的意义male-, mal-, malfunction, maladjustment(失调) mis-, mistake, misleadpseudo-, pseudonym(假名), pseudoscience3)表示反动作的意思de-, defend, demodulation(解调)dis-, disarm, disconnectun-, unload, uncover4)表示相反，相互对立意思anti-, ant- antiknock( 防震), antforeign,(排外的) contra-, contre-, contro-, contradiction, countercurrent (逆流)counter-, counterreaction, counterbalanceob-, oc-, of-, op-, object, oppose, occupywith-, withdraw, withstand2. 表示空间位置，方向关系的前缀1)a- 表示“在……之上”，“向……”aboard, aside,2)by- 表示“附近，邻近，边侧”bypath, bypass(弯路)3)circum-, circu-, 表示“周围，环绕，回转”circumstance, circuit4)de-, 表示“在下，向下”descend, degrade5)en-, 表示“在内，进入”encage, enbed(上床)6)ex-, ec-, es-, 表示“外部，外”exit, eclipse, expand, export7)extra-, 表示“额外”extraction （提取）8)fore- 表示“在前面”forehead, foreground9)in-, il-, im-, ir-, 表示“向内，在内，背于”inland, invade, inside, import10)inter-, intel-, 表示“在……间，相互”international, interaction, internet11)intro-, 表示“向内，在内，内侧”introduce, introduce12)medi-, med-, mid-, 表示“中，中间”Mediterranean, midposition 13)out-, 表示“在上面，在外部，在外”outline, outside, outward14)over-, 表示“在上面，在外部，向上”overlook, overhead, overboard15)post-, 表示"向后，在后边，次”postscript(附言)，16)pre-, 表示"在前”在前面”prefix, preface, preposition17)pro-, 表示“在前，向前”progress, proceed,18)sub-, suc-, suf-, sug-, sum-, sup-, sur-, sus-, 表示“在下面，下”subway, submarine, suffix, suppress, supplement 19)super-, sur-, 表示“在…..之上”superficial, surface, superstructure20)trans-, 表示“移上，转上，在那一边”translate, transform, transoceanic21)under-, 表示“在…..下面，下的”underline, underground, underwater22)up-, 表示“向上，向上面，在上”upward, uphold, uphill(上坡)3. 表示时间，序列关系的前缀1)ante-, anti-, 表示“先前，早于，预先”antecedent, anticipate,2)ex-, 表示“先，故，旧”expresident, exhusband3)fore-, 表示“在前面，先前，前面”foreward, dorecast, foretell(预言)4)mid-, medi-, 表示“中，中间”midnight, midsummer5)post-"表示“在后，后”postwar,6)pre-, pri-, 表示“在前，事先，预先”preheat, prewar, prehistory7)pro-, 表示“在前，先，前”prologue(序幕)，prophet(预言家)8)re-, 表示“再一次，重新”retell, rewrite4. 表示比较程度差别关系的前缀1)by-, 表示“副，次要的”byproduct, bywork(副业)2)extra-,表示“超越，额外”extraordinary,3)hyper- 表示“超过，极度”hypersonic(超声波), hypertesion(高血压)4)out-,表示“超过，过分”outdo(超过), outbid(出价过高的人)5)over-，表示“超过，过度，太”overeat, overdress, oversleep6) sub-, suc-, sur-, 表示“低，次，副，亚”subeditor, subordinate, subtropical(亚热带)7)super-, sur- 表示“超过”supernature, superpower, surplus, surpass8)under-,表示“低劣，低下”undersize, undergrown, underproduction(生产不足)9)vice- 表示“副，次”vicepresident, vicechairman5. 表示共同，相等意思的前缀1)com-, cop-, con-, cor-, co- 表示“共同，一起”。

IRS20124S中文资料D IGIT AL A UDIO D RIVER WITH D ISCRETE D EAD -TIME AND P ROTECTIONProduct SummaryV SUPPL Y 200V max.I O +/-1A / 1.2A typ.Selectable Dead Time15/25/35/45ns typ.Prop Delay Time 70ns typ.Bi-directional Over Current SensingFeatures200V high voltage ratings deliver up to 1000Woutput power in Class D audio amplifier applicationsIntegrated dead-time generation and bi-directional over current sensing simplify designProgrammable compensated preset dead-time for improved THD performances over temperature ?High noise immunity Shutdown function protects devices from overload conditionsIRS20124S(PbF)SymbolDefinitionMin.Max.UnitsV B High side floating supply voltage -0.3220V V s High side floating supply voltage VB-20VB+0.3V V HO High side floating output voltage Vs-0.3VB+0.3V V CC Low side fixed supply voltage -0.320V V LO Low side output voltage -0.3Vcc+0.3V V INInput voltage-0.3Vcc+0.3V V OC OC pin input voltage-0.3Vcc+0.3V V OCSET1 OCSET1 pin input voltage -0.3Vcc+0.3V V OCSET2OCSET2 pin input voltage-0.3Vcc+0.3V dVs/dt Allowable Vs voltage slew rate-50V/ns Pd Maximum power dissipation- 1.25W Rth JA Thermal resistance, Junction to ambient -100°C/W T J Junctio n Temperature -150°C T S Storage Temperature-55150°CT LLead temperature (Soldering, 10 seconds)-300°CAbsolute Maximum RatingsAbsolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage parameters are absolute voltages referenced to COM. All currents are defined positive into any lead. The thermal resistance and power dissipation ratings are measured under board mounted and still air conditions.DescriptionThe IRS20124S is a high voltage, high speed power MOSFET driver with internal dead-time and shutdown functions specially designed for Class D audio amplifier applications.The internal dead time generation block provides accurate gate switch timing and enables tight dead-time settings for better THD performances.In order to maximize other audio performance characteristics,all switching times are designed for immunity from external disturbances such as VCC perturbation and incoming switching noise on the DT pin. Logic inputs are compatible with LSTTL output or standard CMOS down to 3.0V without speed degradation. The output drivers feature high current buffers capable of sourcing 1.0A and sinking 1.2A. Internal delays are optimized to achieve minimal dead-time variations. Proprietary HVIC and latch immune CMOS technologies guarantee operation down to Vs= –4V, providing outstanding capabilities of latch and surge immunities with rugged monolithic construction.Recommended Operating ConditionsFor Proper operation, the device should be used within the recommended conditions. The Vs and COM offset ratings are tested with all supplies biased at 15V differential.Symbol Definition Min.Max.Units V B High side floating supply absolute voltage Vs+10Vs+18V V S High side floating supply offset voltage Note 1200VV V HO High side floating output voltage Vs VB V CC Low side fixed supply voltage1018V V LO Low side output voltage0VCC V V IN Logic input voltage0VCC V V OC OC pin input voltage0VCC V V OCSET1OCSET1 pin input voltage0VCC V V OCSET2OCSET2 pin input voltage0VCC V T A Ambient Temperature-40125°CDynamic Electrical CharacteristicsV BIAS (V CC, V BS) = 15V, C L = 1nF and T A = 25°C unless otherwise specified. Figure 2 shows the timing definitions.IRS20124S(PbF)Lead DefinitionsSymbol DescriptionVCC Low side logic Supply voltage VB High side floating supply HO High side outputVS High side floating supply returnINLogic input for high and low side gate driver outputs (HO and LO), in phase with HODT/SD Input for programmable dead-time, referenced to COM. Shutdown LO and HO when tied to COM COM Low side supply returnLO Low side outputOC Over current output (negative logic)OC SET1Input for setting negative over current threshold OC SET2Input for setting positive over current thresholdIRS20124S(PbF)VBHOVSO O C S E T O C S E T VccLOCOM50%50%t off(L)t on(L)90%10%90%10%DT HO-LOt off(H)INHOLOt on(H)DT LO-HO DT/SDHO LOV SDT SD90%Figure 1. Switching Time Waveform Definitions Figure 2. Shutdown Waveform Definitions IRS20124S(PbF)toc filt HIGHVSOCV soct COMCOMtwocVSOCV Soc+tdocCOM COMLOV Soc-15V Vsoc+Vsoc-OCVsoc+Vsoc-COM VSOCFigure 5. OC Waveform DefinitionsFigure 3. OC Input FilterTime Definitions IRS20124S(PbF)IRS20124S(PbF)2.0()2()IRS20124S(PbF)2430()()IRS20124S(PbF)10()10()IRS20124S(PbF)。

ES102 user manual Suzhou eSkywireless Inc.Information to UserThis device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.NOTE：This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by relocating the receiving antenna or consulting the dealer or an experienced radio/TV technician for help.Mobile RF WarningThis equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body.Changes and Modification Warning StatementAny Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.1 PREPARE before INSATLLATION1.1 Product Display（image of ES102）（wire harness of ES102）1.2Packaging InspectionOpen the box, check the terminal model is correct and the accessories are complete. Otherwise, please contact your dealer.1.3Install SIM Card1.3.1Selection of SIM CardThe ES102 is a GPS/GPRS terminal, and it needs a GSM/GPRS SIM card. please reference dealer’s opinion to select carrier.1.3.2Installation SIM cardOpen the terminal cover, and put the metal side of SIM card face down and then fasten the card slot cover.1.4Power OnThe terminal standard power supply is 6V-34V. the red line is the positive power supply and the black line is the negative power supply.Note:Please select the negative power line grounding alone.2 Steps of AT Setting before testsStart hyper-terminal connection as follows.1)select the comm port of PC through which ES102 is connected with PC, as the follows2) In Port Settings, change communication speed (bits per second) to 115200bps,3)Final step is the certain AT settings necessary after 1st running of downloaded program.3.1) Start connection first3.2) Restart ES1023.3) After you see the "IIII"as the following picture, start setting.3 INSTALL and OPERATION3.1 Installation MethodThe terminal is GPS positioning products, it is recommended that you follow the instructions to install.Note:1) The following installation order, please do not inverted.2) During the installation process, please do not supply the terminal.The terminal installation is divided into hidden installation and open installation.When the terminal is using special vehicles, hidden installation is recommended. Otherwise, open installation is chosen. (To avoid thieves’ damage, the installation location should be hidden)(cigarette lighter)（OBD）①Battery connector②Power connector, connecting terminal with the power connector of wire harness, as picture above.③I/O connector, connecting terminal with the I/O connector of wire harness, as picture above.④I/O lines⑤Power lines, it can connect with cigarette lighter or OBD, as picture above.3.1.1 Open InstallationThe power connecting line we selected is provided by original cigarette lighter cord.3.1.2 Hidden installationThe power connecting line we selected is provided by original the main power core. And the red line has a fuse box (3A fuse) which can play a short circuit overcurrent protection role.3.2Installation SiteThe places that we suggest to install:①The bottom of the front windshield decorative plates②Around of front dashboard (epidermis as nonmetallic material)③Below the decorative panels of rear windshield④Inside the front bumper (should pay attention of water)⑤Below the wipers plate (should pay attention of water)3.3 Installation Notes① Avoid put together with the emission source, for example, reversing radar, anti-theft devices and other on-board communications equipment.② As for fixing the terminal, you can bound with ties or stick with wide sponge strength double-faced adhesive.③ The terminal has GSM antenna and GPS antenna，so the installation should ensure that the ES102face up (that is GPS toward the sky). Besides, there is no on-metallic object that obscures above the terminal.④If your car’s windshield pasted with metal insul ation layer or the heating layer, GPS receiving signal will be weakened, and it may cause GPS work abnormal. So please change the location you installed the terminal.。