MAX6322HPUK29C+中文资料

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第一版：2018 年 5 月文档部件号：L18409-AA1产品通告本用户指南介绍大多数机型的常见功能。

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夏普常用型号复印机对应查寻表夏普常用型号复印机对应查寻表--------------------------------------------------------------------------------夏普模拟复印机消耗品一览表（一）夏普墨粉型号对应夏普机型夏普zt-66td Z-66夏普sf-126st Sf-1116/1118/1016/1020/1026夏普sf-125st Sf-1025夏普sf-230st Sf-2030/2530夏普sf-240st Sf-2040/2540夏普sf-360st Sf-2050/2052/3060夏普数码复印机消耗品一览表（二）夏普墨粉型号对应夏普机型夏普al－100td数码机粉组件Al-1240夏普ar-153st-c Ar－158夏普ar-200td数码机粉组件Ar-161/200夏普ar-201st-c Ar-163/201/206夏普ar-202st-c Ar-163n/201n/206n夏普ar-203st-c Ar..夏普便携复印机鼓计数清零方法--------------------------------------------------------------------------------夏普便携复印机鼓计数清零方法1、按曝光开机，现在除准备灯外所以指示灯都会点亮2、按住曝光约十秒钟直到三个灯同时点亮，松开曝光3、重新开机故障代码U(主板电池电压低)L(原稿台未回到规定位置)H（热辊定影器故障)F(暴光灯或定影灯温度保险断掉)维修方式：按清除键-重复键-加法键-减法键进入1 解除故障2 读出主计数器内容3 读出总计数器内容4读出维修计数器内容5 维修计数器复位夏普模拟机调整简介当拆动4/5反光镜时，要记好驱动杆箭头标记位置显影刮刀与磁辊的间隙为..原创]夏普275故障代码E1 00 IMC电路板通信故障10 IMC电路板故障11 IMC ASIC出错12 IMC CODEC IC 出错13 IMC电路板FLASH ROM出错14 IMC电路板WORK RAM出错15 IMC电路板PAGE MEMORY出错16 IMC电路板图像压缩MEMORY出错17 IMC电路板平滑IC出错80 IMC电路板通信故障（协议）81 IMC电路板通信故障（奇偶）82 IMC电路板通信故障（溢出）84 IMC电路板通信故障（框架）88 IMC电路板通信故障（超时）E7 02 LSU故障10 黑白校正故障（黑校正）11 黑白校正故障（白校正）12 黑白校正故障F1 00 分页器通信故障01 侧导板移动故障（原位检测出错）06 分页器移动电机异常08 分页器装订移动电机故障11 后导板移动..夏普复印机特殊故障代码的复位方法夏普700／800系列复印机特殊故障代码主要有HX(H1一H8，热辊定影器故障)、Lx(L1-L6，微动开关／光电开关故障)、Ux(U1U2，电池电压低或数据传输故障)及Pl(曝光灯温度保险丝异常)．其中，U1用指令“13”复位，其它特殊故障代码用指令“14”复位。

柯尼卡美能达复印机bizhub 162\bizhub210 中英文对照Post By：2010-6-24 20:13:001、按效用键；2、按照如下顺序按下列键；3、停止→0 →0 →停止→0 →1；4、将出现维修模式菜单屏幕（Service Mode ）。

退出维修模式按面板复原键多次，直到原来的屏幕重新出现为止。

修改维修模式功能设定值步骤1、用[ ▲/▼] 键选择所需的项目；2、用[▲/▼] 键、[ ] 键、或数字键盘选择设定值；3、确认选择，按[Yes] 键；4、返回前面的屏幕，按[No] 键。

柯尼卡美能达162/210技术维修模式（Service Mode ）菜单编号英文项目中文项目内容1 SERVICE'S CHOICE 技术维修选择SHIPMENT DESTINATION （市场地区）MAINTENANCE COUNTER （保养计数器）IU LIFE STOP MODE （IU 寿命终止模式）ID ADJUST （ID 调整）VG ADJUST （VG 调整）FUSER TEMP. Ad (PLAIN) （定影温度调整（普通纸））FUSER TEMP. Ad (THICK) （定影温度调整（厚纸））FUSER TEMP. Ad (OHP) （定影温度调整(OHP) ）LEADING EDGE ERAGE （前边缘消除）TRAILING EDGE ERAGE （后边缘消除）VERTICAL EDGE ERAGE （上下边缘消除）LOOP ADJUST (TRAY1) （波幅调整（第1 纸盒））LOOP ADJUST (TRAY2 TO TRAY5)* （波幅调整（第2 纸盒到第5 纸盒）* ）LOOP ADJUST (DUPLEX) （波幅调整（双面））LOOP ADJUST (BYPASS) （波幅调整（手送进纸））FLS PAPER SIZE （FLS 纸张尺寸）CCD APS SIZE （CCD APS 尺寸）GDI TIMEOUT （GDI 超时）2 ADJUST 调整PRN MAIN REGIST （打印主对位）PRN SUB REGIST （打印次对位）CCD MAIN ZOOM （CCD 主缩放）CCD SUB ZOOM （CCD 次缩放）CCD MAIN REGIST （CCD 主对位）CCD SUB REGIST （CCD 次对位）ADF SUB ZOOM （ADF 次缩放）ADF MAIN REGIST （ADF 主对位）ADF SUB REGIST1 （ADF 次对位1 ）ADF SUB REGIST2 （ADF 次对位2 ）ADF REG. LOOP 1 （ADF 对位波幅1 ）ADF REG. LOOP 2 （ADF 对位波幅2 ）ATDC GAIN （ATDC 增益）MODEL SETTING （模式设定）3 COUNTER 计数器TOTAL COUNTER （总计数器）SIZE COUNTER （尺寸计数器）PM COUNTER （PM 计数器）MAINTENANCE COUNTER （保养计数器）SUPPLIES LIFE COUNT. （使用寿命计数）APPLICATION COUNTER （应用计数器）SCAN COUNTER （扫描计数器）PAPER SIZE COUNTER （纸张尺寸计数器）MISFEED COUNTER （卡纸计数器）TROUBLE COUNTER （故障计数器）4 DISPLAY 显示TONER DENSITY LEVEL （碳粉浓度水平）PROCESS CONTROL （过程控制）MAIN F/W VER. （主机固件版本）ENGINE F/W VER. （引擎固件版本）PCL F/W VER.* （PCL 固件版本* ）NIC F/W VER.* （网卡固件版本* ）ADF F/W VER.* （ADF 固件版本* ）MAIN RAM SIZE （主内存大小）PCL RAM SIZE* （PCL 内存大小* ）SERIAL NO. （序列号）CUSTOMER ID （用户识别码）5 FUNCTION 功能PAPER FEED TEST （送纸测试）PROCESS CHECK （过程检查）ATDC AUTO ADJUST （ATDC 自动调整）PRINT TEST PATTERN （打印测试图案）ADF FEED TEST （ADF 输稿测试）COPY ADF GLASS AREA （复印ADF 玻璃区域）CCD MOVE TO HOME （CCD 移到原位）SCAN TEST （扫描测试）ADF WIDTH ADJ. (MAX) （ADF 宽度调整（最大）* ）ADF WIDTH ADJ. (MIN) （ADF 宽度调整（最小）* ）ADF SENSOR ADJUST （ADF 感应器调整* ）6 软开关7 REPORT 报告维修数据列表、错误代码列表、T30协议列表9 FIXED ZOOM CHANGE 固定缩放修改REDUCTION2 （缩小2 ）、REDUCTION1 （缩小1 ）、EXPANSION1 （放大1 、EXPANSION2 （放大2 ）10 工厂测试信号测试、中继测试、拔号测试、音量测试11 CLEAR DATA 清除数据MEMORY CLEAR （清除内存数据）PM COUNTER （PM 计数器）MAINTENANCE COUNTER （保养计数器）SUPPLIES LIFE COUNT. （使用寿命计数）APPLICATION COUNTER （应用计数器）SCAN COUNTER （扫描计数器）PAPER SIZE COUNTER （纸张尺寸计数器）MISFEED COUNTER （卡纸计数器）TROUBLE COUNTER （故障计数器）ADF BACKUP CLEAR* （ADF 备份数据清除* ）。

HP Wireless Printing Upgrade Kit Q6259A Everything you need to print wirelessly,even from a non-wireless desktop or notebook PC –includes a printer receiver and a PC receiver.Easy to use and install,and works with most HP printers or all-in-ones and any PC –wired or wireless.HP bt500Bluetooth USB 2.0Wireless Adapter Q6273A Wirelessly print and transfer documents,photos,messages and graphics from your Bluetooth-enableddevice 1.Get a fast,secure connection with the latest Bluetooth technology—compatible with Windows Vista™and HP PCs and select HP printers.HP USB Network Print Adapter Q6275A This easy to install and use network print adapter enables you to print,copy,scan and fax from any networked PC.Connects to any wired or wireless hub or router via 10/100Ethernet and is compatible with most HP and non HP printers and All-in-ones.●Affordable wireless printing with or without a home or office network ●Complete wireless printing solution ●Easy and secure●Wirelessly print and transfer files from Bluetooth®-enabled devices 2●Get fast and portable wireless connectivity—3.0Mbps from 10meters away ●Quick and easy to set up,install and use with the Bluetooth Setup Wizard●Easily share a printer with multiple desktop and notebook PC users on a network.The print adapter’s simple set up allows you to print any documents off your network instantly.●Enjoy very fast set-up.Simply plug the adapter into your printer’s USB port and connect from yourprinter to your network without the need for configuration,and get fast 10/100datatransmission.●You can print,scan,copy,fax and get memory card access and printer status from anywhere onthe network.This print adapter works with wired or wireless routers via 10/100Ethernet,andmost HP and non-HP printers,and any desktop or notebook PC.1Supports camera phones and devices with Bluetooth®wireless technology Visit /support for a list of compatible devices Wireless performance is dependent upon physical environment and distance from access point.FeaturesFeaturesFeaturesTechnical specificationsOrdering Information Q6259A HP Wireless Printing Upgrade Kit HP Wireless Printer Adapter,wireless dongle,power adapter,USB cable,Quick Start Guide,CDQ6273A HP bt500Bluetooth USB 2.0Wireless Adapter HP bt500Bluetooth®USB 2.0wireless adapter,Quick Start Guide,CD Q6275A HP USB Network Print Adapter HP Network Print Adapter,Ethernet cable,power adapter,USB cable,Quick Start Guide,CD External I/O Ports1USB (compatible with Hi-Speed USB 2.0specifications)1wireless 802.11b/g 1USB (compatible with USB 2.0specifications)Bluetooth®2.01USB 2.0High Speed 1RJ45(10/100Base-TX)802.3Compatible operating systems Microsoft®Windows®XP Service Pack 1,Microsoft®Windows®XP Service Pack 2,Microsoft®Windows Vista®32-bit Microsoft®Windows®XP Service Pack 1,Microsoft®Windows®XP Service Pack 2,Microsoft®Windows Vista®32-bit,Microsoft®Windows Vista®64-bit Microsoft®Windows®XP Home,Microsoft®Windows®XP Professional,Microsoft®Windows Vista®32-bit,Microsoft®Windows Vista®64-bitDimensions (W x D x H)90x 55x 20mm18.5x 8.7x 60.5mm 88.4x 50.9x 25.4mm Power consumption 3watts maximum260milli-watts maximum 3watts maximum Power supply type External power adapter dongle powered from PCExternal:dongle powered from printer External power adapter Power Requirements Input voltage:100to 240VAC,50/60Hz,0.5A,Output:3.3V,2.0AInput voltage:100to 240VAC,50/60Hz,0.5A,Output:3.3V,2.0A Warranty Standard Statement1-year limited hardware warranty 1-year limited hardware warranty 1-year limited hardware warranty ©Copyright Hewlett-Packard Development Company,L.P .2007.The information contained herein is subject to change without notice.The only warranties for HP Products and services are set forth in the express warranty statements accompanying such products and services.Nothing herein should be construed as constituting an additional warranty.HP shall not be liable for technical or editorial errors or omissions contained herein.For a complete list of compatible products,please refer to /supportPublished in EMEA 02/084AA1-6437EEE。

Pregledajte tehničke specifikacije i podržane vrste papira za štampač.●Tehničke specifikacije●Podržani tipovi papiraTehničke specifikacijePregledajte tehničke specifikacije za štampač.Za najnovije informacije posetite /support/ljM329MFP, /support/ljM428MFP, ili /support/ljM429MFP.Tabela 1 Tehničke specifikacije po modelu štampačaIme modela Broj proizvoda Ime modela Broj proizvoda Ime modela Broj proizvoda M428fdwW1A30AM429fdwW1A35AM428dwW1A28AM428dwW1A31AM429dwW1A33AM428fdnW1A29AM428fdnW1A32AM429fdnW1A34AM329dnW1A23AM329dwW1A24ARad sa papirom Ležište 1 (kapacitet 100 listova)Priloženo Priloženo Priloženo Priloženo Priloženo Rad sa papirom Ležište 2 (kapacitet 250 listova)Priloženo Priloženo Priloženo Priloženo Priloženo Rad sa papirom Opciono pomoćno ležište za 550listova Opcionalno Opcionalno Opcionalno Opcionalno Opcionalno Rad sa papirom Automatsko dupleks štampanje Priloženo Priloženo Priloženo Priloženo Priloženo Povezanost10/100/1000 Ethernet LAN vezasa IPv4 i IPv6 protokolima Priloženo Priloženo Priloženo Priloženo Priloženo Povezanost Hi-Speed USB 2.0Priloženo Priloženo Priloženo Priloženo Priloženo Povezanost Port za USB usputno štampanje Priloženo Priloženo Priloženo Priloženo Priloženo Povezanost Server za štampanje zapovezivanje na bežičnu mrežu Priloženo Priloženo Nije dostupno Nije dostupno Priloženo Povezanost Bluetooth Low Energy (BLE)Priloženo Priloženo Nije dostupno Nije dostupno Priloženo Povezanost Wi-Fi Direct za štampanje samobilnih uređaja Priloženo Priloženo Nije dostupno Nije dostupno PriloženoEkran i ulazni interfejs kontrolne table Kontrolna tabla sa ekranom u bojiosetljivim na dodir Priloženo Priloženo Priloženo Priloženo PriloženoSRWW1Tabela 1 Tehničke specifikacije po modelu štampača (nastavljeno)Ime modela Broj proizvoda Ime modela Broj proizvoda Ime modela Broj proizvoda M428fdw W1A30A M429fdw W1A35AM428dw W1A28A M428dw W1A31A M429dw W1A33A M428fdn W1A29A M428fdn W1A32A M429fdn W1A34A M329dn W1A23AM329dw W1A24AŠtampanjeŠtampa 38 stranica u minutu (ppm) na papiru veličine A4 i 40 stranica na papiru Letter formata Priloženo PriloženoPriloženoNije dostupnoNije dostupnoŠtampanjeŠtampa 35 stranica u minutu (ppm) na papiru veličine A4 i 37stranica na papiru Letter formata Nije dostupno Nije dostupno Nije dostupno Priloženo PriloženoŠtampanje Skladištenje zadataka i privatno štampanje Priloženo Priloženo Priloženo Priloženo Priloženo FaksFunkcije faksaPriloženo Nije dostupno Priloženo Nije dostupno Nije dostupno Kopiranje i skeniranje Kopira i skenira do 32 stranica u minutu (ppm)PriloženoPriloženoPriloženoPriloženoPriloženoKopiranje i skeniranjeDvoglavi ulagač dokumenata za 50 stranica sa automatskim dvostranim kopiranjem i skeniranjemPriloženo Nije dostupno Priloženo Nije dostupno Nije dostupnoKopiranje i skeniranjeUlagač dokumenata za 50 stranica sa jednostranim kopiranjem i skeniranjem Priloženo Priloženo Priloženo Priloženo PriloženoKopiranje i skeniranjeOpcije Skeniranja u e-poštu, Skeniranja na USB i Skeniranja u mrežnu fascikluPriloženo Priloženo Priloženo Priloženo PriloženoPodržani tipovi papiraUlazna ležišta i jedinica za dvostrano štampanje podržavaju nekoliko vrsta papira. Ležište 1 podržava papir u opsegu težine od 60 do 175 g/m 2. Ležište 2, ležište 3 (opcionalno) i jedinica za dvostrano štampanje podržavaju papir u opsegu težine od 60 do 120 g/m 2.NAPOMENA:Kako biste postigli najbolje rezultate, pre štampanja u upravljačkom programu štampača izaberite ispravan format i vrstu papira.2SRWWTabela 2 Tipovi papira koje podržavaju ulazna ležišta i jedinica za dvostrano štampanjeVrsta papira Tray 1 (Ležište3)Tray 2 (Ležište3)Ležište 3(opcionoležište za 550listova)Jedinica zadvostranoštampanje(modeli saautomatskomjedinicom zadvostranoštampanje)RučnodvostranoštampanjeRavno Podržano Podržano Podržano Podržano PodržanoHP EcoEfficient Podržano Podržano Podržano Podržano PodržanoLak 60-74 g Podržano Podržano Podržano Podržano PodržanoSrednji 85-95 g Podržano Podržano Podržano Podržano PodržanoSrednje težak 96–110 g Podržano Podržano Podržano Podržano PodržanoTežak 111–130 g Podržano Podržano Podržano Nije podržano PodržanoIzuzetno težak 131–175 g Podržano Nije podržano Nije podržano Nije podržano PodržanoOznake Podržano Nije podržano Nije podržano Nije podržano Nije podržanoMemorandum Podržano Podržano Podržano Podržano PodržanoKoverte Podržano Nije podržano Nije podržano Nije podržano Nije podržanoPrethodno štampano Podržano Podržano Podržano Podržano PodržanoPerforirano Podržano Podržano Podržano Podržano PodržanoU boji Podržano Podržano Podržano Podržano PodržanoČvrst papir Podržano Podržano Podržano Podržano PodržanoReciklirano Podržano Podržano Podržano Podržano PodržanoHrapavo Podržano Podržano Podržano Nije podržano Podržano SRWW Podržani tipovi papira34SRWW。

MAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容________________________________________________________________Maxim Integrated Products119-0273; Rev 7; 1/07MegaBaud和UCSP是Maxim Integrated Products, Inc.的商标。

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M A X 3222/M A X 3232/M A X 3237/M A X 32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), 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.Note 1:V+ and V- can have a maximum magnitude of 7V, but their absolute difference cannot exceed 13V.V CC ...........................................................................-0.3V to +6V V+ (Note 1)...............................................................-0.3V to +7V V- (Note 1)................................................................+0.3V to -7V V+ + V- (Note 1)...................................................................+13V Input VoltagesT_IN, SHDN , EN ...................................................-0.3V to +6V MBAUD...................................................-0.3V to (V CC + 0.3V)R_IN.................................................................................±25V Output VoltagesT_OUT...........................................................................±13.2V R_OUT....................................................-0.3V to (V CC + 0.3V)Short-Circuit DurationT_OUT....................................................................ContinuousContinuous Power Dissipation (T A = +70°C)16-Pin TSSOP (derate 6.7mW/°C above +70°C).............533mW 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 Plastic DIP (derate 10.53mW/°C above +70°C)...842mW 18-Pin SO (derate 9.52mW/°C above +70°C)..............762mW 18-Pin Plastic DIP (derate 11.11mW/°C above +70°C)..889mW 20-Pin SSOP (derate 7.00mW/°C above +70°C).........559mW 20-Pin TSSOP (derate 8.0mW/°C above +70°C).............640mW 28-Pin TSSOP (derate 8.7mW/°C above +70°C).............696mW 28-Pin SSOP (derate 9.52mW/°C above +70°C).........762mW 28-Pin SO (derate 12.50mW/°C above +70°C).....................1W Operating Temperature RangesMAX32_ _C_ _.....................................................0°C to +70°C MAX32_ _E_ _ .................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CMAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容_______________________________________________________________________________________3TIMING CHARACTERISTICS—MAX3222/MAX3232/MAX3241(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)ELECTRICAL CHARACTERISTICS (continued)(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)M A X 3222/M A X 3232/M A X 3237/M A X 32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容4________________________________________________________________________________________________________________________________________________________________典型工作特性(V CC = +3.3V, 235kbps data rate, 0.1µF capacitors, all transmitters loaded with 3k Ω, T A = +25°C, unless otherwise noted.)-6-5-4-3-2-101234560MAX3222/MAX3232TRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )20003000100040005000246810121416182022150MAX3222/MAX3232SLEW RATEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E (V /µs )20003000100040005000510152025303540MAX3222/MAX3232SUPPLY CURRENT vs. LOAD CAPACITANCEWHEN TRANSMITTING DATALOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )20003000100040005000TIMING CHARACTERISTICS—MAX3237(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)Note 2:MAX3222/MAX3232/MAX3241: C1–C4 = 0.1µF tested at 3.3V ±10%; C1 = 0.047µF, C2–C4 = 0.33µF tested at 5.0V ±10%.MAX3237: C1–C4 = 0.1µF tested at 3.3V ±5%; C1–C4 = 0.22µF tested at 3.3V ±10%; C1 = 0.047µF, C2–C4 = 0.33µF tested at 5.0V ±10%.Note 3:Transmitter input hysteresis is typically 250mV.MAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容_______________________________________________________________________________________5-7.5-5.0-2.502.55.07.50MAX3241TRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )2000300010004000500046810121416182022240MAX3241SLEW RATEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E (V /µs )20003000100040005000510152025303545400MAX3241SUPPLY CURRENT vs. LOADCAPACITANCE WHEN TRANSMITTING DATALOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )20003000100040005000-7.5-5.0-2.502.55.07.50MAX3237TRANSMITTER OUTPUT VOLTAGE vs. LOAD CAPACITANCE (MBAUD = GND)LOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )200030001000400050000102030504060700MAX3237SLEW RATE vs. LOAD CAPACITANCE(MBAUD = V CC )LOAD CAPACITANCE (pF)S L E W R A T E (V /µs )500100015002000-7.5-5.0-2.502.55.07.50MAX3237TRANSMITTER OUTPUT VOLTAGE vs. LOAD CAPACITANCE (MBAUD = V CC )LOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )5001000150020001020304050600MAX3237SUPPLY CURRENT vs.LOAD CAPACITANCE (MBAUD = GND)LOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )200030001000400050000246810120MAX3237SLEW RATE vs. LOAD CAPACITANCE(MBAUD = GND)LOAD CAPACITANCE (pF)S L E W R A T E (V /µs )2000300010004000500010302040506070MAX3237SKEW vs. LOAD CAPACITANCE(t PLH - t PHL )LOAD CAPACITANCE (pF)1000150050020002500____________________________________________________________________典型工作特性(续)(V CC = +3.3V, 235kbps data rate, 0.1µF capacitors, all transmitters loaded with 3k Ω, T A = +25°C, unless otherwise noted.)M A X 3222/M A X 3232/M A X 3237/M A X 32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容6_________________________________________________________________________________________________________________________________________________________________引脚说明MAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容_______________________________________________________________________________________7_______________________________详细说明双电荷泵电压转换器MAX3222/MAX3232/MAX3237/MAX3241的内部电源由两路稳压型电荷泵组成，只要输入电压(V CC )在3.0V至5.5V范围以内，即可提供+5.5V (倍压电荷泵)和-5.5V (反相电荷泵)输出电压。

max232中文资料及应用MAX232资料简介MAX232芯片简介MAX232芯片是美信公司专门为电脑的RS-232标准串口设计的单电源电平转换芯片,使用+5v单电源供电。

引脚介绍：第一部分是电荷泵电路。

由1、2、3、4、5、6脚和4只电容构成。

功能是产生+12v和-12v两个电源，提供给RS-232串口电平的需要。

第二部分是数据转换通道。

由7、8、9、10、11、12、13、14脚构成两个数据通道。

其中13脚（R1IN）、12脚（R1OUT）、11脚（T1IN）、14脚（T1OUT）为第一数据通道。

8脚（R2IN）、9脚（R2OUT）、10脚（T2IN）、7脚（T2OUT）为第二数据通道。

TTL/CMOS数据从T1IN、T2IN输入转换成RS-232数据从T1OUT、T2OUT送到电脑DB9插头；DB9插头的RS-232数据从R1IN、R2IN输入转换成TTL/CMOS数据后从R1OUT、R2OUT输出。

第三部分是供电。

15脚GND、16脚VCC（+5v）。

主要特点：1、符合所有的RS-232C技术标准2、只需要单一+5V电源供电3、片载电荷泵具有升压、电压极性反转能力，能够产生+10V和-10V电压V+、V-4、功耗低，典型供电电流5mA5、内部集成2个RS-232C驱动器6、内部集成两个RS-232C接收器下图为MX232双串口的连接图，可以分别接单片机的串行通信口或者实验板的其它串行通信接口：三.max232应用电路，注意电容接法。

232是电荷泵芯片，可以完成两路TTL/RS-232电平的转换，它的的9、10、11、12引脚是TTL电平端，用来连接单片机的。

制作at89s51单片机器编程器的电路图此主题相关图片如下：MAX232获得正负电源的另一种方法在单片机控制系统中，我们时常要用到数/模（D/A）或者模/数(A/D)变换以及其它的模拟接口电路，这里面要经常用到正负电源，例如：9V,-9V;12V,-12V.这些电源仅仅作为数字和模拟控制转换接口部件的小功率电源。

___________________________________________________________________Selector Guide________________General DescriptionThe MAX6316–MAX6322 family of microprocessor (µP)supervisory circuits monitors power supplies and microprocessor activity in digital systems. It offers sev-eral combinations of push/pull, open-drain, and bidirec-tional (such as Motorola 68HC11) reset outputs, along with watchdog and manual reset features. The Selector Guide below lists the specific functions available from each device. These devices are specifically designed to ignore fast negative transients on V CC . Resets are guaranteed valid for V CC down to 1V.These devices are available in 26 factory-trimmed reset threshold voltages (from 2.5V to 5V, in 100mV incre-ments), featuring four minimum power-on reset timeout periods (from 1ms to 1.12s), and four watchdog timeout periods (from 6.3ms to 25.6s). Thirteen standard ver-sions are available with an order increment requirement of 2500 pieces (see Standard Versions table); contact the factory for availability of other versions, which have an order increment requirement of 10,000 pieces.The MAX6316–MAX6322 are offered in a miniature 5-pin SOT23 package.________________________ApplicationsPortable Computers Computers ControllersIntelligent InstrumentsPortable/Battery-Powered Equipment Embedded Control Systems____________________________Features♦Small 5-Pin SOT23 Package♦Available in 26 Reset Threshold Voltages2.5V to 5V, in 100mV Increments ♦Four Reset Timeout Periods1ms, 20ms, 140ms, or 1.12s (min)♦Four Watchdog Timeout Periods6.3ms, 102ms, 1.6s, or 25.6s (typ) ♦Four Reset Output StagesActive-High, Push/Pull Active-Low, Push/Pull Active-Low, Open-Drain Active-Low, Bidirectional♦Guaranteed Reset Valid to V CC = 1V♦Immune to Short Negative V CC Transients ♦Low Cost♦No External ComponentsMAX6316–MAX63225-Pin µP Supervisory Circuits withWatchdog and Manual Reset________________________________________________________________Maxim Integrated Products 119-0496; Rev 7; 11/07_______________Ordering InformationOrdering Information continued at end of data sheet.*The MAX6318/MAX6319/MAX6321/MAX6322 feature two types of reset output on each device.Typical Operating Circuit and Pin Configurations appear at end of data sheet.For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,or visit Maxim’s website at .Specify lead-free by replacing “-T” with “+T” when ordering.ELECTRICAL CHARACTERISTICS(V CC = 2.5V to 5.5V, T A = -40°C to +125°C, unless otherwise noted. Typical values are at T A = +25°C.) (Note 1)M A X 6316–M A X 63225-Pin µP Supervisory Circuits with Watchdog and Manual Reset 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSStresses 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.Voltage (with respect to GND)V CC ......................................................................-0.3V to +6V RESET (MAX6320/MAX6321/MAX6322 only)...... -0.3V to +6V All Other Pins.........................................-0.3V to (V CC + 0.3V)Input/Output Current, All Pins.............................................20mAContinuous Power Dissipation (T A = +70°C)SOT23-5 (derate 7.1mW/°C above +70°C)...............571mW Operating Temperature Range..........................-40°C to +125°C Junction Temperature......................................................+150°C Storage Temperature Range..............................-65°C to +160°C Lead Temperature (soldering, 10s).................................+300°CTH available in 100mV increments from 2.5V to 5V (see Table 1 at end of data sheet).Note 3:Guaranteed by design.MAX6316–MAX63225-Pin µP Supervisory Circuits withWatchdog and Manual Reset_______________________________________________________________________________________3Note 5:Measured from RESET V OL to (0.8 x V CC ), R LOAD = ∞.Note 6:WDI is internally serviced within the watchdog period if WDI is left unconnected.Note 7:The WDI input current is specified as the average input current when the WDI input is driven high or low. The WDI input is designed for a three-stated-output device with a 10µA maximum leakage current and capable of driving a maximum capac-itive load of 200pF. The three-state device must be able to source and sink at least 200µA when active.ELECTRICAL CHARACTERISTICS (continued)M A X 6316–M A X 63225-Pin µP Supervisory Circuits with Watchdog and Manual Reset 4_________________________________________________________________________________________________________________________________Typical Operating Characteristics(T A = +25°C, unless otherwise noted.)021*********-4020-20406080100MAX6316/MAX6317/MAX6318/MAX6320/MAX6321SUPPLY CURRENT vs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (μA )302010504090807060100-40-20020406080100V CC FALLING TO RESET PROPAGATIONDELAY vs. TEMPERATURETEMPERATURE (°C)R E S E T P R O P A G A T I O N D E L A Y (μs )140180160240220200300280260320-40020-20406080100MAX6316/MAX6317/MAX6319/MAX6320/MAX6322MANUAL RESET TO RESETPROPAGATION DELAY vs. TEMPERATURETEMPERATURE (°C)P R O P A G A T I O N D E L A Y (n s )0.950.980.970.961.000.991.041.031.021.011.05-40-2020406080100NORMALIZED RESET TIMEOUT PERIOD vs. TEMPERATUREM A X 6316t o c 04TEMPERATURE (°C)N O R M A L I Z E D R E S E T T I M E O U T P E R I O D0.950.980.970.961.000.991.041.031.021.011.05-40-2020406080100MAX6316/MAX6317/MAX6318/MAX6320/MAX6321NORMALIZED WATCHDOG TIMEOUTPERIOD vs. TEMPERATUREM A X 6316t o c 05TEMPERATURE (°C)N O R M A L I Z E D W A T C H D O G T I M E O U T P E R I O D800101001000MAXIMUM V CC TRANSIENT DURATION vs. RESET THRESHOLD OVERDRIVE2010RESET THRESHOLD OVERDRIVE (mV) V RST - V CCT RA N S I E N T D U R A T I O N (μs )3050604070200ns/divMAX6316M/6318MH/6319MHBIDIRECTIONALPULLUP CHARACTERISTICSMAX6316–MAX63225-Pin µP Supervisory Circuits withWatchdog and Manual Reset_______________________________________________________________________________________5______________________________________________________________Pin DescriptionM A X 6316–M A X 63225-Pin µP Supervisory Circuits with Watchdog and Manual Reset 6______________________________________________________________________________________________________Detailed DescriptionA microprocessor’s (µP) reset input starts or restarts the µP in a known state. The reset output of the MAX6316–MAX6322 µP supervisory circuits interfaces with the reset input of the µP, preventing code-execution errors during power-up, power-down, and brownout condi-tions (see the Typical Operating Circuit ). The MAX6316/MAX6317/MAX6318/MAX6320/MAX6321 are also capa-ble of asserting a reset should the µP become stuck in an infinite loop.Reset OutputThe MAX6316L/MAX6318LH/MAX6319LH feature an active-low reset output, while the MAX6317H/MAX6318_H/MAX6319_H/MAX6321HP/MAX6322HP feature an active-high reset output. RESET is guaran-teed to be a logic low and RESET is guaranteed to be a logic high for V CC down to 1V.The MAX6316–MAX6322 assert reset when V CC is below the reset threshold (V RST ), when MR is pulled low (MAX6316_/MAX6317H/MAX6319_H/MAX6320P/MAX6322HP only), or if the WDI pin is not serviced withinthe watchdog timeout period (t WD ). Reset remains assert-ed for the specified reset active timeout period (t RP ) after V CC rises above the reset threshold, after MR transitions low to high, or after the watchdog timer asserts the reset (MAX6316_/MAX6317H/MAX6318_H/MAX6320P/MAX6321HP). After the reset active timeout period (t RP )expires, the reset output deasserts, and the watchdog timer restarts from zero (Figure 2).Figure 1. Functional DiagramFigure 2. Reset Timing DiagramMAX6316–MAX63225-Pin µP Supervisory Circuits withWatchdog and Manual Reset_______________________________________________________________________________________7Bidirectional R E S E T OutputThe MAX6316M/MAX6318MH/MAX6319MH are designed to interface with µPs that have bidirectional reset pins,such as the Motorola 68HC11. Like an open-drain output,these devices allow the µP or other devices to pull the bidirectional reset (RESET ) low and assert a reset condi-tion. However, unlike a standard open-drain output, it includes the commonly specified 4.7k Ωpullup resistor with a P-channel active pullup in parallel.This configuration allows the MAX6316M/MAX6318MH/MAX6319MH to solve a problem associated with µPs that have bidirectional reset pins in systems where sev-eral devices connect to RESET (F igure 3). These µPs can often determine if a reset was asserted by an exter-nal device (i.e., the supervisor IC) or by the µP itself (due to a watchdog fault, clock error, or other source),and then jump to a vector appropriate for the source of the reset. However, if the µP does assert reset, it does not retain the information, but must determine the cause after the reset has occurred.The following procedure describes how this is done in the Motorola 68HC11. In all cases of reset, the µP pulls RESET low for about four external-clock cycles. It then releases RESET , waits for two external-clock cycles,then checks RESET ’s state. If RESET is still low, the µP concludes that the source of the reset was external and, when RESET eventually reaches the high state, it jumps to the normal reset vector. In this case, stored-state information is erased and processing begins fromscratch. If, on the other hand, RESET is high after a delay of two external-clock cycles, the processor knows that it caused the reset itself and can jump to a different vector and use stored-state information to determine what caused the reset.A problem occurs with faster µPs; two external-clock cycles are only 500ns at 4MHz. When there are several devices on the reset line, and only a passive pullup resis-tor is used, the input capacitance and stray capacitance can prevent RESET from reaching the logic high state (0.8✕V CC ) in the time allowed. If this happens, all resets will be interpreted as external. The µP output stage is guaran-teed to sink 1.6mA, so the rise time can not be reduced considerably by decreasing the 4.7k Ωinternal pullup resistance. See Bidirectional Pullup Characteristics in the Typical Operating Characteristics .The MAX6316M/MAX6318MH/MAX6319MH overcome this problem with an active pullup FET in parallel with the 4.7k Ωresistor (F igures 4 and 5). The pullup transistor holds RESET high until the µP reset I/O or the supervisory circuit itself forces the line low. Once RESET goes below V PTH , a comparator sets the transition edge flip-flop, indi-cating that the next transition for RESET will be low to high. When RESET is released, the 4.7k Ωresistor pulls RESET up toward V CC . Once RESET rises above V PTH but is below (0.85 x V CC ), the active P-channel pullup turns on. Once RESET rises above (0.85 x V CC ) or the 2µs one-shot times out, the active pullup turns off. The parallel combination of the 4.7k Ωpullup and theFigure 3. MAX6316M/MAX6318MH/MAX6319MH Supports Additional Devices on the Reset BusM A X 6316–M A X 63225-Pin µP Supervisory Circuits with Watchdog and Manual Reset 8_______________________________________________________________________________________Figure 4. MAX6316/MAX6318MH/MAX6319MH Bidirectional Reset Output Functional DiagramMAX6316–MAX63225-Pin µP Supervisory Circuits withWatchdog and Manual Reset_______________________________________________________________________________________9P-channel transistor on-resistance quickly charges stray capacitance on the reset line, allowing RESET to transition from low to high within the required two elec-tronic-clock cycles, even with several devices on the reset line. This process occurs regardless of whether the reset was caused by V CC dipping below the reset threshold, the watchdog timing out, MR being asserted,or the µP or other device asserting RESET . The parts do not require an external pullup. To minimize supply cur-rent consumption, the internal 4.7k Ωpullup resistor dis-connects from the supply whenever the MAX6316M/MAX6318MH/MAX6319MH assert reset.Open-Drain R E S E T OutputThe MAX6320P/MAX6321HP/MAX6322HP have an active-low, open-drain reset output. This output struc-ture will sink current when RESET is asserted. Connect a pullup resistor from RESET to any supply voltage up to 6V (Figure 6). Select a resistor value large enough toregister a logic low (see Electrical Characteristics ), and small enough to register a logic high while supplying all input current and leakage paths connected to the RESET line. A 10k Ωpullup is sufficient in most applications.Manual-Reset InputThe MAX6316_/MAX6317H/MAX6319_H/MAX6320P/MAX6322HP feature a manual reset input. A logic low on MR asserts a reset. After MR transitions low to high, reset remains asserted for the duration of the reset timeout peri-od (t RP ). The MR input is connected to V CC through an internal 52k Ωpullup resistor and therefore can be left unconnected when not in use. MR can be driven with TTL-logic levels in 5V systems, with CMOS-logic levels in 3V systems, or with open-drain or open-collector output devices. A normally-open momentary switch from MR to ground can also be used; it requires no external debouncing circuitry. MR is designed to reject fast, negative-going transients (typically 100ns pulses). A 0.1µF capacitor from MR to ground provides additional noise immunity.The MR input pin is equipped with internal ESD-protection circuitry that may become forward biased. Should MR be driven by voltages higher than V CC , excessive current would be drawn, which would damage the part. F or example, assume that MR is driven by a +5V supply other than V CC . If V CC drops lower than +4.7V, MR ’s absolute maximum rating is violated [-0.3V to (V CC + 0.3V)], and undesirable current flows through the ESD structure from MR to V CC . To avoid this, use the same supply for MR as the supply monitored by V CC . This guarantees that the voltage at MR will never exceed V CC .Watchdog InputThe MAX6316_/MAX6317H/MAX6318_H/MAX6320P/MAX6321HP feature a watchdog circuit that monitors the µP’s activity. If the µP does not toggle the watchdog input (WDI) within the watchdog timeout period (t WD ),reset asserts. The internal watchdog timer is cleared by reset or by a transition at WDI (which can detect pulses as short as 50ns). The watchdog timer remains cleared while reset is asserted. Once reset is released, the timer begins counting again (Figure 7).The WDI input is designed for a three-stated output device with a 10µA maximum leakage current and the capability of driving a maximum capacitive load of 200pF.The three-state device must be able to source and sink at least 200µA when active. Disable the watchdog function by leaving WDI unconnected or by three-stating the driver connected to WDI. When the watchdog timer is left open circuited, the timer is cleared internally at intervals equal to 7/8 of the watchdog period.Figure 6. MAX6320P/MAX6321HP/MAX6322HP Open-Drain RESET Output Allows Use with Multiple SuppliesFigure 5. Bidirectional RESET Timing DiagramM A X 6316–M A X 63225-Pin µP Supervisory Circuits with Watchdog and Manual Reset 10______________________________________________________________________________________Applications InformationWatchdog Input CurrentThe WDI input is internally driven through a buffer and series resistor from the watchdog counter. For minimum watchdog input current (minimum overall power con-sumption), leave WDI low for the majority of the watch-dog timeout period. When high, WDI can draw as much as 160µA. Pulsing WDI high at a low duty cycle will reduce the effect of the large input current. When WDI is left unconnected, the watchdog timer is serviced within the watchdog timeout period by a low-high-low pulse from the counter chain.Negative-Going V CC TransientsThese supervisors are immune to short-duration, nega-tive-going V CC transients (glitches), which usually do not require the entire system to shut down. Typically,200ns large-amplitude pulses (from ground to V CC ) on the supply will not cause a reset. Lower amplitude puls-es result in greater immunity. Typically, a V CC transient that goes 100mV under the reset threshold and lasts less than 4µs will not trigger a reset. An optional 0.1µF bypass capacitor mounted close to V CC provides addi-tional transient immunity.Ensuring Valid Reset OutputsDown to V CC = 0The MAX6316_/MAX6317H/MAX6318_H/MAX6319_H/MAX6321HP/MAX6322HP are guaranteed to operate properly down to V CC = 1V. In applications that require valid reset levels down to V CC = 0, a pulldown resistor to active-low outputs (push/pull and bidirectional only,F igure 8) and a pullup resistor to active-high outputs(push/pull only, Figure 9) will ensure that the reset line is valid while the reset output can no longer sink orsource current. This scheme does not work with the open-drain outputs of the MAX6320/MAX6321/MAX6322.The resistor value used is not critical, but it must be large enough not to load the reset output when V CC is above the reset threshold. F or most applications,100k Ωis adequate.Watchdog Software Considerations(MAX6316/MAX6317/MAX6318/MAX6320/MAX6321)One way to help the watchdog timer monitor software execution more closely is to set and reset the watchdog input at different points in the program, rather than pulsing the watchdog input high-low-high or low-high-low. This technique avoids a stuck loop, in which the watchdog timer would continue to be reset inside the loop, keeping the watchdog from timing out.Figure 7. Watchdog Timing RelationshipFigure 9. Ensuring RESET Valid to V CC = 0 on Active-High Push/Pull OutputsFigure 8. Ensuring RESET Valid to V CC = 0 on Active-Low Push/Pull and Bidirectional OutputsMAX6316–MAX6322Watchdog and Manual Reset______________________________________________________________________________________11F igure 10 shows an example of a flow diagram where the I/O driving the watchdog input is set high at the beginning of the program, set low at the end of every subroutine or loop, then set high again when the pro-gram returns to the beginning. If the program should hang in any subroutine, the problem would be quickly corrected, since the I/O is continually set low and the watchdog timer is allowed to time out, causing a reset or interrupt to be issued. As described in the Watchdog Input Current section, this scheme results in higher time average WDI current than does leaving WDI low for the majority of the timeout period and periodically pulsing it low-high-low.Figure 10. Watchdog Flow Diagram__________________Pin ConfigurationsTypical Operating CircuitTable 2. Standard VersionsTable 1. Factory-Trimmed Reset ThresholdsM A X 6316–M A X 6322Watchdog and Manual ResetTable 3. Reset/Watchdog Timeout PeriodsMAX6316–MAX6322Watchdog and Manual Reset______________________________________________________________________________________13__Ordering Information (continued)a watchdog feature (see Selector Guide) are factory-trimmed to one of four watchdog timeout periods. Insert the letter corre-sponding to the desired watchdog timeout period (W, X, Y, or Z from Table 3) into the blank following the reset timeout suffix.TRANSISTOR COUNT: 191SUBSTRATE IS INTERNALLY CONNECTED TO V+Chip Informationdard versions only. The required order increment for nonstandard versions is 10,000 pieces. Contact factory for availability.M A X 6316–M A X 6322Watchdog and Manual Reset 14______________________________________________________________________________________Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)M axim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a M axim 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 ____________________15©2007 Maxim Integrated Productsis a registered trademark of Maxim Integrated Products, Inc.MAX6316–MAX6322 Watchdog and Manual ResetRevision History。

For free samples & the latest literature: , or phone 1-800-998-8800.For small orders, phone 1-800-835-8769.General DescriptionThe MAX6326/MAX6327/MAX6328/MAX6346/MAX6347/MAX6348 microprocessor (µP) supervisory circuits moni-tor the power supplies in µP and digital systems. These devices provide excellent circuit reliability and low cost by eliminating external components and adjustments when used with 2.5V, 3V, 3.3V, and 5V powered circuits.These circuits perform a single function: they assert a reset signal whenever the V CC supply voltage declines below a preset threshold, keeping it asserted for at least 100ms after V CC has risen above the reset threshold.The only difference between the devices is their output.The MAX6326/MAX6346 (push-pull) and MAX6328/MAX6348 (open-drain) have an active-low reset output.The MAX6327/MAX6347 have an active-high push-pull reset output. All of these parts are guaranteed to be in the correct state for V CC down to 1V. The reset compara-tor is designed to ignore fast transients on V CC . Reset thresholds are factory-trimmable between 2.2V and 4.63V, in approximately 100mV increments. Twenty-one standard versions are available. Contact the factory for availability of nonstandard versions.Ultra-low supply currents (1µA max for the MAX6326/MAX6327/MAX6328) make these parts ideal for use in portable equipment. All six devices are available in space-saving SOT23 and SC70 packages.ApplicationsComputers Intelligent Instruments Controllers AutomotiveCritical µP and µC Portable/Battery-Powered Power MonitoringEquipmentFeatureso Ultra-Low 1µA (max) Supply Current (MAX6326/MAX6327/MAX6328)o Precision Monitoring of 2.5V, 3V, 3.3V, and 5V Power-Supply Voltageso Reset Thresholds Available from 2.2V to 4.63V o Fully Specified Over Temperatureo 100ms (min) Power-On Reset Pulse Width o Low Costo Available in Three Versions: Push-Pull RESET ,Push-Pull RESET, and Open-Drain RESET o Power-Supply Transient Immunity o No External Componentso 3-Pin SC70/SOT23 Packageso Pin Compatible with MAX803/MAX809/MAX810MAX6326/MAX6327/MAX6328/MAX6346/MAX6347/MAX63483-Pin, Ultra-Low-Power SC70/SOTµP Reset Circuits________________________________________________________________Maxim Integrated Products 1Pin Configuration19-1294; Rev 3; 1/00†The MAX6326/MAX6327/MAX6328/MAX6346/MAX6347/MAX6348 are available in factory-set V CC reset thresholds from 2.2V to 4.63V, in approximately 0.1V increments. Choose the desired reset-threshold suffix from Table 1 and insert it in the blank spaces following “R.”There are 21 standard versions witha required order increment of 2500 pieces. Sample stock is gen-erally held on the standard versions only (see the SelectorGuide). Required order increment is 10,000 pieces for nonstan-dard versions (Table 2). Contact factory for availability. All devices available in tape-and-reel only.Selector Guide appears at end of data sheet.M A X 6326/M A X 6327/M A X 6328/M A X 6346/M A X 6347/M A X 63483-Pin, Ultra-Low-Power SC70/SOT µP Reset Circuits 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = full range, T A = -40°C to +85°C, unless otherwise noted. Typical values are at T A = +25°C and V CC = 3V.) (Note 1)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.Terminal Voltage (with respect to GND)V CC ...........................................................................-0.3V to +6V RESET, RESET (push-pull).........................-0.3V to (V CC + 0.3V)RESET (open drain)..................................................-0.3V to +6V Input Current (V CC ).............................................................20mA Output Current (RESET, RESET ).........................................20mA Rate of Rise (V CC )...........................................................100V/µsContinuous Power Dissipation (T A = +70°C)3-Pin SC70 (derate 2.7mW/°C above +70°C)...............174mW 3-Pin SOT23 (derate 4mW/°C above +70°C)................320mW Operating Temperature Range ...........................-40°C to +85°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CNote 1:Overtemperature limits are guaranteed by design and not production tested.MAX6326/MAX6327/MAX6328/MAX6346/MAX6347/MAX63483-Pin, Ultra-Low-Power SC70/SOTµP Reset Circuits_______________________________________________________________________________________3__________________________________________Typical Operating Characteristics(T A = +25°C, unless otherwise noted.)00.30.20.10.40.50.60.70.80.91.0-400-2020406080SUPPLY CURRENT vs. TEMPERATURE TEMPERATURE (°C)S U P P L Y C U R R E N T(µA)050100150200-400-2020406080POWER-DOWN RESET DELAY vs. TEMPERATURE TEMPERATURE (°C)R E S E T D E L A Y(µs)130150140160170180190200210-400-2020406080POWER-UP RESET TIMEOUT vs. TEMPERATURE M A X6326-03TEMPERATURE (°C)P O W E R-U P R E S E T T I M E O U T(m s)500011001000MAXIMUM TRANSIENT DURATION vs. RESET THRESHOLD OVERDRIVE (SC70)100300400200M A X6326-04RESET THRESHOLD OVERDRIVE,V TH - V CC (mV)M A X I M U M T R A N S I E N T D U R A T I O N(µs)10______________________________________________________________Pin DescriptionM A X 6326/M A X 6327/M A X 6328/M A X 6346/M A X 6347/M A X 63483-Pin, Ultra-Low-Power SC70/SOT µP Reset Circuits 4___________________________________________________________________________________________________Applications InformationInterfacing to µPs with Bidirectional Reset PinsSince the RESET output on the MAX6328/MAX6348 is open drain, these devices interface easily with micro-processors (µPs) that have bidirectional reset pins,such as the Motorola 68HC11. Connecting the µP supervisor’s RESET output directly to the microcon-troller’s (µC’s) RESET pin with a single pull-up resistor allows either device to assert reset (Figure 1).Negative-Going V CC TransientsIn addition to issuing a reset to the µP during power-up,power-down, and brownout conditions, these devices are relatively immune to short-duration, negative-going V CC transients (glitches).The Typical Operating Characteristics show the Maxi-mum Transient Duration vs. Reset Threshold Overdrive graph, for which reset pulses are not generated. The graph shows the maximum pulse width that a negative-going V CC transient may typically have when issuing a reset signal. As the amplitude of the transient increas-es, the maximum allowable pulse width decreases.Figure 1. Interfacing to µPs with Bidirectional Reset PinsTable 1. Factory-Trimmed Reset Thresholds ‡‡Factory-trimmed reset thresholds are available in approximately 100mV increments with a 1.5% room-temperature variance.MAX6326/MAX6327/MAX6328/MAX6346/MAX6347/MAX63483-Pin, Ultra-Low-Power SC70/SOTµP Reset Circuits_______________________________________________________________________________________5Table 1. Factory-Trimmed Reset Thresholds‡(continued)‡Factory-trimmed reset thresholds are available in approximately 100mV increments with a 1.5% room-temperature variance.Table 2. Device Marking Codes and Minimum Order IncrementsM A X 6326/M A X 6327/M A X 6328/M A X 6346/M A X 6347/M A X 63483-Pin, Ultra-Low-Power SC70/SOT µP Reset Circuits 6__________________________________________________________________________________________________________Chip InformationTRANSISTOR COUNT: 419Table 2. Device Marking Codes and Minimum Order Increments (continued)Selector Guide(standard versions*)*Sample stock is generally held on all standard versions.________________________________________________________Package InformationMAX6326/MAX6327/MAX6328/MAX6346/MAX6347/MAX63483-Pin, Ultra-Low-Power SC70/SOTµP Reset Circuits_______________________________________________________________________________________7M A X 6326/M A X 6327/M A X 6328/M A X 6346/M A X 6347/M A X 63483-Pin, Ultra-Low-Power SC70/SOT µP Reset Circuits Maxim 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.8_____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©2000 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.Package Information (continued)。

X20(c)DO63221 General informationThe module is equipped with 6 outputs for 1 or 2-wire connections. The X20 6-pin terminal block can be used for universal 1-line wiring. 2-line wiring can be implemented using the 12-pin terminal block. The module is designed for source output wiring.•6 digital outputs•Source connection•2-wire connections•GND for signal supply•Integrated output protection•1-wire connection type with 6-pin terminal block•OSP mode2 Coated modulesCoated modules are X20 modules with a protective coating for the electronics component. This coating protects X20c modules from condensation and corrosive gases.The modules' electronics are fully compatible with the corresponding X20 modules.For simplification purposes, only images and module IDs of uncoated modules are used in this data sheet.The coating has been certified according to the following standards:•Condensation: BMW GS 95011-4, 2x 1 cycle•Corrosive gas: EN 60068-2-60, Method 4, exposure 21 days3 Order dataTable 1: X20DO6322, X20cDO6322 - Order data4 Technical dataTable 2: X20DO6322, X20cDO6322 - Technical dataTable 2: X20DO6322, X20cDO6322 - Technical data1)Number of outputs x R DS(on) x Nominal output current 2 (A calculation example can be found on the B&R website in the download area for the module.)2)At loads ≤ 1 kΩ5 Status LEDsFor a description of the various operating modes, see section "Additional information - Diagnostic LEDs" of theX20 system user's manual.6 Pinout1X 20 D O 632223456r e7 Connection exampleCaution!If the module is operated outside of specifications, the output current can increase above the maximum permissible nominal current. This applies to individual channels and also to the summation current for the module.Therefore sufficient cable cross sections or external safety measures must be used.8 OSP hardware requirementsIn order to best use OSP mode, make sure when creating the application that the output module and CPU have separate power supplies.9 Output circuit diagram10 Switching inductive loadsEnvironmental temperature: 60°C, all outputs with the same load500.11101001000Coil inductance100 mH1 H10 H100 H10 mHCoil resistance[Ω]100Max. switching cycles / second(with 90% duty cycle)28.8 V 24.0 VSwitching voltage:Information:If the maximum number of operating cycles per second is exceeded, an external inverse diode must be used.Operating conditions outside of the area in the diagram are not permitted!11 Register description11.1 General data pointsIn addition to the registers listed in the register description, the module also has other more general data points. These registers are not specific to the module but contain general information such as serial number and hardware version.These general data points are listed in section "Additional information - General data points" of the X20 system user's manual.11.2 Function model 0 - StandardFixed modules require their data points to be in a specific order in the X2X frame. Cyclic access occurs according to a predefined offset, not based on the register address.Acyclic access continues to be based on the register numbers.11.3 Function model 1 - OSPFixed modules require their data points to be in a specific order in the X2X frame. Cyclic access occurs according to a predefined offset, not based on the register address.Acyclic access continues to be based on the register numbers.11.4 Function model 254 - Bus Controller1)The offset specifies where the register is within the CAN object.11.4.1 CAN I/O bus controllerThe module occupies 1 digital logical slot on CAN I/O.11.5 Digital outputsThe output status is transferred to the output channels with a fixed offset (<60 µs) in relation to the network cycle (SyncOut).11.5.1 Switching state of digital outputs 1 to 6Name:DigitalOutputDigitalOutput01 to DigitalOutput06The switching state of digital outputs 1 to 6 are stored in this register.Function model 0 - Standard only:The "Packed outputs" setting in the Automation Studio I/O configuration is used to determine whether all of this registers' bits should be set up individually as data points in the Automation Studio I/O mapping ("DigitalOutput01" through "DigitalOutput0x") or whether this register should be displayed as an individual USINT data point ("Digi-talOutput").Bit structure:11.6 Monitoring status of the digital outputsOn the module, the output states of the outputs are compared to the target states. The control of the output driver is used for the target state.A change in the output state resets monitoring for that output. The status of each individual channel can be read.A change in the monitoring status generates an error message.11.6.1 Status of digital outputs 1 to 6Name:StatusInput01StatusDigitalOutput01 to StatusDigitalOutput06The status of digital outputs 1 to 6 is mapped in this register.Function model 0 - Standard only:The "Packed outputs" setting in the Automation Studio I/O configuration is used to determine whether all of this registers' bits should be set up individually as data points in the Automation Studio I/O mapping ("StatusDigitalOut-put01" through "StatusDigitalOutput0x") or whether this register should be displayed as an individual USINT data point ("StatusInput01").Bit structure:11.7 "OSP" function modelIn the "OSP" function model (Operator Set Predefined), the user defines an analog value or digital pattern. This OSP value is output as soon as communication between the module and master is interrupted.FunctionalityThe user can choose between 2 OSP modes:•Retain last valid value•Replace with static valueIn the first case, the module retains the last value as validly recognized output state.When selecting the mode, "Replace with static value" a plausible output value must be entered in the corresponding value register. If an OSP event occurs, this value will be output instead of the value currently requested by the task.11.7.1 Activating the OSP output in the moduleName:OSPValidThis data point offers the possibility to start module output and request OSP operation during running operation.Bit structure:There is one OSPValid bit on the module, which is managed by the user task. It must be set when the enabled channels are started. As long as the OSPValid bit remains set in the module, the module behaves the same as the "Standard" function model.If an OSP event occurs (e.g. communication between the module and master CPU interrupted) then the OSPValid bit will be reset on the module. The module enters OSP mode and the output occurs in the register "OSPMode" on page 9 according to the configuration.The following applies:The OSP replacement value remains even after the communication channel has recovered. OSP mode is only exited when a set OSPValid bit is transferred.When the master CPU is restarted, the OSPValid bit is re-initialized on the master CPU. It must once more be set by the application and transferred via the bus.When temporary communication errors occur between the module and master CPU (e.g. due to EMC),a few bus cycles will pass without refreshing the cyclic registers. The OSPValid bit is reset internally inthe module - the bit in the CPU however remains set. Upon the next successful transfer, the OSPValid bit in the module is set again and the module returns to normal operation.The ModulOK bit can be evaluated if the task in the master CPU needs to know which output mode the module is currently in.Warning!If the OSPValid bit is reset to "0" on the module, then the output state no longer depends on the responsible task in the master CPU. However, output still occurs according to the configuration of the OSP replacement value.11.7.2 Setting the OSP modeName:CfgOSPModeThis register essentially controls a channel's behavior when OSP is being used.11.7.3 Define the OSP digital output valueName:CfgOSPValueThis register contains the digital output value, which is output in "Replace with static value" mode during OSP operation.Bit structure:Warning!The "OSPValue" is not accepted by the module until the "OSPValid" bit has been set in the module.11.8 Minimum cycle timeThe minimum cycle time defines how far the bus cycle can be reduced without communication errors occurring. Note that very fast cycles decrease the idle time available for handling monitoring, diagnostics and acyclic com-mands.11.9 Minimum I/O update timeThe minimum I/O update time defines how far the bus cycle can be reduced while still allowing an I/O update to take place in each cycle.。

DISHWASHERELECTRONICAL SWITCHESLOWER WASHINGLOWER AND UPPER WASHINGINSULATED MODELTYPE: 32ELKCAccessoriesBOOSTER PUMPDVGWCOLD RINSEDETERGENT DISPENSERDRAIN PUMPSpare Parts ManualS/N: Valid from:11/2004Rev.: 2.01.Spare parts General body parts (7)Lockup system (9)Electric control components (11)Electric control (13)Solenoid valve group (15)Booster pump (17)DVGW (19)Rinse aid dispenser group (21)Boiler group (23)3 ways connection (25)Wash pump (27)Dosing detergent group (29)Dosing detergent group (31)Pressure switch group with air trap (33)Turret group with rotating arms (35)1.1Voltage codesVolt Voltage codeA3/N/PE~380-400V 50-60HzD3/PE~200-210V 50-60HzF2/PE~220-240V 50-60HzG3/N/PE~415V 50-60HzH3/PE~220-230V 50-60HzK3/PE~380-400V 50-60HzL3/PE~415V 50-60HzM3/PE~440V 60HzP1/N/PE~220-230V 50-60HzR2/PE~220-240V 50-60HzU1/N/PE~240V 50-60HzV3/PE~240V 50-60HzW1/N/PE~100-110V 50-60Hz1.2Product codesProduct code Full nameModel codese ELECTRONICAL SWITCHESlw LOWER WASHINGuw LOWER AND UPPER WASHINGi INSULATED MODELType codes32ELKC32ELKCAccessory codesbp BOOSTER PUMPdvgw DVGWcr COLD RINSEdd DETERGENT DISPENSERdp DRAIN PUMPID P-code SN from SN to Mod.Acces.Volt DescriptionModule:General body parts10505540903-Back panel10510540908-Body1051515065/A-Cable-fastener with screw10520540086-Filter handle10525540028-Surface half-filter10530540406-0,4/0,44KW 230/240V heating element 10535540900-Right side10540540901-Left side1054510850-Foot (minimum 4 pieces)10560540039-Surface filter handle1056515551-Fixed tank thermostat in deviation1058080208-95x75x3 O-ring (minimum 2 pieces) 10585500606-Right side scrap tray1059013317-Ø40mm lead through rubber (minimum 2 pieces) 1059510707/1-0-90°C thermostat10605500551- 6 poles terminal board1061010713-3x2,5x2500 cable1061015118-5x2,5 cable10615540080-Pump suction filter10620540088-Ring nut for pump suction holder-filtere=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60HzID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Lockup system40950540959-Door with steel handle40955560021-Profile for door O-ring40960540958-Stainless steel handle40965540902-Lower door40970540636-Left axle bush for door hinge40975540635-Right axle bush for door hinge40980560003-Door spring40985540629-Left lock for door hinge40990540624-Right lock for door hinge4099510704-Door microswitch4100010770-Insulation for door microswitch (minimum 3 pieces) e=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATEDMODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60HzID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Electric control components11600540943-Electric components panel1160516037-16A bipolar relay - 230Vac 50/60Hz 1161010300125-120" timer - 220Vac 60Hz1162016037/D-16A bipolar relay - 230Vac1162015620-16A bipolar relay in deviation1162515149-Low noise filter1163015086-Contactor 230V 50/60Hz 4C1163015086/B-Contactor 240V 50Hz1164075950-86-59 pressure switch11640540054-18-33 pressure switche=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz11/2004 Rev. 2.0 Spare partsID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Electric control4075550581-Touche sensitive4076050584-Water flow board4076550580-Electronic timer+main board4077050583-Water flow meter for board4077550562-Temperature probe set40780540960-Control Panel40785540106-Silckscreen processed grille=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz1311/2004 Rev. 2.0 Spare parts1411/2004 Rev. 2.0 Spare partsID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Solenoid valve group70010703-i,e Single solenoid valve - 220Vac720N.C.-i,e Pression reducing valvee=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz1511/2004 Rev. 2.0 Spare parts1607_003_e 750011/2004 Rev. 2.0 Spare partsID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Booster pump750015100/D-e,i bp Booster pump 220/240Ve=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz1718ID P-code SN from SN to Mod.Acces.Volt DescriptionModule:DVGW1300999900006-dvgw DVGW assemblye=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz1920ID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Rinse aid dispenser group150010798-Rinse aid dispenser150512525-Counter-weight151015058-Small filter (minimum 3 pieces)151510798/B-Brass pipe fittinge=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz2111/2004Rev. 2.0Spare parts22ID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Boiler group1090013010-OR O-ring (minimum 5 pieces) 10905540006-Boiler1091018215-4/4,36KW 230/240V 3 heating element 1091518206/D-2,8/3,05KW 230/240V heating element 10920540040-Insulation boiler1092515550-Safety thermostate=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60HzID P-code SN from SN to Mod.Acces.Volt DescriptionModule:3 ways connection30800540090-e,iØ10 mm plastic 3 ways connection 30800540094-e,iØ6 mm plastic 3 ways connection3080511807-e,i12/22 clamp (minimum 3 pieces)e=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60HzID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Wash pump1110018242-uw A0,30Hp wash pump - 230V1110518043-uw10 uF condenser11110540005-uw Suction pipe coupling1111516168-uw Lower wash delivery pipe1112011806-uw25/40 clamp (minimum 2 pieces)1112511824-uw50/70 clamp (minimum 2 pieces)11130540004-uw Top delivery pipe1113515080-uw Rotating seals1114018245-uw OR O-ring1114518246-uw Pump rotor1115018247-uw Scrolle=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz14_002_e2915292029302900292529052910ID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Dosing detergent group290015108/L-i,e dd Lang detergent pump290512525-i,e dd Counter-weight291015058-i,e dd Small filter (minimum 3 pieces)291515123-i,e dd Complet plastic injector292015148-i,e dd Steel injector292515159-i,e dd OR O-ring (minimum 2 pieces)293010200205-i,e dd M12x1 stainless steel nut (minimum 2 pieces)e=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60HzID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Dosing detergent group510015985-i,e dd Seko detergent pump510512525-i,e dd Counter-weight511015058-i,e dd Small filter (minimum 3 pieces)511515123-i,e dd Complet plastic injector512015148-i,e dd Steel injector512515159-i,e dd OR O-ring (minimum 2 pieces)513010200205-i,e dd M12x1 stainless steel nut (minimum 2 pieces) 513515185-i,e dd Seko thermoplastic pipe514015985-i,e dd Germac detergent pump514515108/E-i,e dd Germac thermoplastic pipe515015985/A-i,e dd Plas Cont thermoplastic pipe515515985-i,e dd Plas Cont detergent pumpe=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60HzID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Pressure switch group with air trap210010706/A-i,e47-27 pressure switch2105135911/B4020618-i,e Grey air trap assembly211013301-i,e O-ring (minimum 10 pieces)211511702-i,e M8 stainless steel nut (minimum 10 pieces)e=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATED MODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz3334ID P-code SN from SN to Mod.Acces.Volt DescriptionModule:Turret group with rotating arms28100540075-uw Top turret28105540081-uw Top axle extension28110540032-uw Plain O-ring (minimum 2 pieces)28115540079-uw Spacer ring for hub28120540076-uw Guide pipe28125540093-uw Nut for top turret fixing28130540078-uw Top hub for rotor28135540085-uw Top wash rotor28140540083-uw Rinse group2814575323-uw Rinse axle2815013330-uw Sliding washer (minimum 2 pieces)2815511101/B-uw Stainless steel group fixing screw28160560018-uw Stainless steel rinse nozzle28165560017-uw Rinse arm plug2817013316/A-uw DVGW hole O-ring28175540084-uw Lower wash rotor28180540077-uw Lower hub for rotor28185540069-uw Nut for lower turret fixing28190540082-uw Lower axle extension28195540034-uw Plain O-ring28200540074-uw Lower turret2820511006-uw2,9x13 TS Stainless steel screw (minimum 20 pieces) e=ELECTRONICAL SWITCHES, lw=LOWER WASHING, uw=LOWER AND UPPER WASHING, i=INSULATEDMODEL32ELKC=32ELKCbp=BOOSTER PUMP, dvgw=DVGW, cr=COLD RINSE, dd=DETERGENT DISPENSER, dp=DRAIN PUMPA=3/N/PE~380-400V 50-60Hz, D=3/PE~200-210V 50-60Hz, F=2/PE~220-240V 50-60Hz, G=3/N/PE~415V 50-60Hz, H=3/PE~220-230V 50-60Hz, K=3/PE~380-400V 50-60Hz, L=3/PE~415V 50-60Hz, M=3/PE~440V 60Hz, P=1/N/PE~220-230V 50-60Hz, R=2/PE~220-240V 50-60Hz, U=1/N/PE~240V 50-60Hz, V=3/PE~240V 50-60Hz, W=1/N/PE~100-110V 50-60Hz35。

CAUTION!All Panamax Warranties and Connected Equipment Policies are valid only in the United States and Canada.CAUTION!Audio/Video, computer and/or telephone system installations can be very complex systems, consisting of many interconnected components.Due to the nature of electricity and surges, a single protector may not be able to completely protect complex installations. In those cases, a systematic approach using multiple protectors must be employed. Systematic protection requires professional design. AC power, satellite cables, CATV cables, telephone/network lines, signal lines or any other electrical conductors, entering the system that do not pass through this surge protector may invalidate the Panamax Connected Equipment Protection Policy. For additional information on how to protect your system, please contact Panamax before connecting your equipment to the surge protector.CAUTION!WARRANTY LIMITATION FOR INTERNET PURCHASERSPanamax products purchased through the Internet do not carry a valid Product Warranty or Connected Equipment Protection Policy unless purchased from an Authorized Panamax Internet Dealer and the original factory serial numbers are intact (they must not have been removed, defaced or replaced in any way). Purchasing from an Authorized Panamax Internet Dealer insures that the product was intended for consumer use, has passed all quality inspections and is safe. Buying through auction sites or unauthorized dealers may result in the purchase of salvaged, failed and/or products not intended for use in the US. In addition, Authorized Panamax Internet dealers have demonstrated sufficient expertise to insure warranty compliant installations. For a list of Authorized Panamax Internet Dealers go to . If you have any questions regarding these requirements, please contact Panamax Customer Relations.Product Upgrade ProgramIf your Panamax power conditioner sacrifices itself while protecting your connected equipment, you have an option to upgrade to the latest technology. Please go to our web site or contact Panamax Customer Relations at 800-472-5555 for details.Panamax Surge ProtectorLimited LifetimeProduct Warranty Panamax warrants to the purchaser of any standard Panamax surge protector that the surge protector shall be free of defects in design, material, or workmanship, and Panamax will repair or replace any defective unit. For product replacement see “NOTIFICATION” (3).Panamax Surge Protector Limited Connected Equipment Protection PolicyI t is the policy of Panamax that it will, at its election, either replace, pay to replace at fair market value, or pay to repair, up to the dollar amount specified below, equipment that is damaged by an AC power, cable, telephone, or lightning surge while connected to a properly installed Panamax power conditioner. To be eligible for compensation, repair and or replacement, the power conditioner must shows signs of surge dam-age or that it is operating outside of design specifi-cations, relative to its surge protection capability, and under all of the circumstances failed to protect your connected equipment.MD2-C $100,000THE LIMITED CONNECTED EQUIPMENTPROTECTION POLICY IS SUBJECT TO THE FOLLOWING CONDITIONS AND LIMITATIONS 1. ORIGINAL OWNERSHIP REQUIREMENT:2. PROPER INSTALLATION: Panamax AC protectors must be directly plugged into a properly grounded 3-wire AC outlet. Extension cords*, non-grounded two prong adapters, or other non-Panamax surge products must not be used. Building wiring and other connections to protected equipment must conform toapplicable codes (NEC or CEC). No other ground wiresor ground connections may be used. All wires (includ-ing, e.g., AC power lines, telephone lines, signal/datalines, coaxial cable, antenna lead-ins) leading into theprotected equipment must first pass through a singlePanamax protector designed for the particular applica-tion. The protector and the equipment to be protectedmust be indoors in a dry location, and in the samebuilding. Panamax installation instructions and dia-grams must be followed3. NOTIFICATION:You must notify Panamax withinten days of any event precipitating request for prod-uct replacement or payment for connected equipmentdamage. A return authorization (RA) number must firstbe obtained from the Panamax Customer RelationsDepartment at ** before returningthe protector Panamax. At this time, you must notifyPanamax if you believe you have a claim for damagedconnected equipment. Once you obtain an RA number,please mark the number on the bottom of the unit andpack it in a shipping carton/box with enough packingmaterial to protect it during transit. The RA numbermust also be clearly marked on the outside of the car-ton. Ship the unit to Panamax. Please note that you areresponsible for any and all charges related to shippingthe unit to Panamax. If connected equipment damagewas indicated on your RA request, Panamax will mailyou claim kit to be completed and returned within 30days. A connection diagram of your system will berequired as part of the claim kit. Be sure to note itsconfiguration before disconnecting your equipment.4. DETERMINATION OF FAILURE:Panamax willevaluate the protector for surge damage. The Panamaxprotector must show signs of surge damage or mustbe performing outside (>10%) of design specificationsrelative to its surge protection capability. Opening theenclosure, tampering with, or modifying the unit in anyway shall be grounds for an automatic denial yourrequest for payment. Panamax, after evaluating all in-formation provided, will determine whether or not yourrequest is eligible for payment. If the surge protectorshows no signs of AC power or signal line surge dam-age and is working within design specifications, Pana-max will return the unit to you with a letter explainingthe test results and notifying you of the rejection of yourclaim. Exceptions: If a dealer or installer replaces theprotector for the customer, replacement will be re-turned to the dealer installer; or if the protector is apre-1996 model, it will be replaced; or, for a Canadiancustomer, the protector will be replaced. Panamaxreserves the right to inspect the damaged connectedequipment, parts, or circuit boards. Please note thatyou are responsible for any and all charges related toshipping the damaged equipment to Panamax. Pana-max also reserves the right to inspect the customer’sfacility. Damaged equipment deemed uneconomical torepair must remain available for inspection by Pana-max until the claim is finalized.5. REQUEST PAYMENTS: Once Panamax has deter-mined that you are entitled to compensation, Panamaxwill, at its election, either pay you the present fair mar-ket value of the damaged equipment, or pay for thecost of the repair, or send you replacement equipment,or pay the equivalence of replacement equipment.6. OTHER INSURANCE/WARRANTIES: This coverageis secondary to any existing manufacturer’s warranty,implied or expressed, or any insurance and/or servicecontract that may cover the loss.7. EXCLUSIONS: THE PANAMAX CONNECTEDEQUIPMENT PROTECTION POLICY DOES NOTAPPLY TO: Service charges, installation costs, rein-stallation costs; setup cost; diagnostic charges; peri-odic checkups; routine maintenance; loss of use of theproduct; costs or expenses arising out of reprogram-ming or loss of programming and/or data; shippingcharges or fees; service calls; loss or damage occa-sioned by fire, theft, flood, wind, accident, abuse ormisuse, and products subject to manufacturer’s recallor similar event.8. DISPUTE RESOLUTION: Any controversy or claimarising out of or relating to Panamax’s ConnectedEquipment Protection Policy, or the alleged breachthereof, shall be settled by arbitration administered bythe American Arbitration Association under its Com-mercial Arbitration Rules. You may file for arbitrationat any AAA location in the United States upon the pay-ment of the applicable filing fee. The arbitration will beconducted before a single arbitrator, and will be limitedsolely to the dispute or controversy between you andPanamax. The arbitration shall be held in any mutuallyagreed upon location in person, by telephone, or online.Any decision rendered in such arbitration proceedingswill be final and binding on each of the parties, andjudgment may be entered thereon in a court of com-petent jurisdiction. The arbitrator shall not award eitherparty special, exemplary, consequential, punitive, in-cidental or indirect damages, or attorney’s fees. Theparties will share the costs of arbitration (including thearbitrator’s fees, if any) in the proportion that the finalaward bears to the amount of the initial claim.-THE LIMITED PRODUCT WARRANTY IS THE ONLYWARRANTY PROVIDED WITH THIS PANAMAXPRODUCT AND ANY OTHER IMPLIED OR EX-PRESSED WARRANTIES ARE NON-EXISTENT.This warranty may not be modified except in writing,signed by an officer of the Panamax Corporation.* The use of a Panamax extension cord or equiva-lent (UL or CSA listed, minimum 14AWG, 3-wiregrounded) will not invalidate the warranty.** Forms are available on the Panamax web sitefor requesting RAs and opening a claim for con-nected equipment damage.MODEL - MD2-CDOC. NO. IWS00877_EN REV. AEffective Date 1/21/10800-472-5555Panamax’s limited connected equipment protectionpolicy extends to the original purchaser of the Panamax product only and is non-transferable. Original purchase receipts must accompany any product return or claim for connected equipment damage.9. GENERAL: If you have any questions regarding the product warranty or the connected equipment pro- tection policy, please contact the Panamax Customer Relations Department at www.panamax. com.The Limited L i f e t i m e Product Warranty and L i m i t e d Connected Equipment Policy herein super- sede all previous warranties and/or Connected Equip- ment repair/replacement policies.。

DatasheetHP Smart Tank 532 Wireless All-in-OneThe ultimate in printing freedomThis high-capacity ink tank printer with an automatic document feeder delivers uncompromising quality and up to 12,000 black pages or 8,000 color pages. Get faster connections with dual-band Wi-Fi, and easy mobile printingwith HP Smart test technology delivers outstanding qualityCount on dark, crisp text, and get vibrant color graphics for all your prints.Print fade-resistant photos that last.Create borderless brochures, flyers, photos, and other documents that look great -right in your office.Faster connections, easy productivityGet faster , more reliable connections with dual band Wi-Fi®.Eliminate steps in repetitive tasks with customizable shortcuts, using Smart Tasks.Get the freedom to work from anywhere with the HP Smart app – print, scan, and copy from your phone.Get up to 38% faster speeds compared to previous HP Smart Tank. Work fast with the 35-page auto-feeder.High-volume, low-cost printing – innovative designEasily monitor and maintain ink levels with an integrated tank design and an automatic ink sensor.Easily refill your ink tank system with spill-free, resealable bottles.Get up to 12,000 black pages or up to 8,000 color pages.Get the features you need for work and other tasks with copy and scan functions.Wireless operations are compatible with 2.4 GHz and 5.0 GHz operations only. Learn more at /go/mobileprinting. Wi-Fi is a registered trademark of Wi-Fi Alliance®. Supports both 5.0 GHz and 2.4 GHz using up to 12 non-overlapping channels vs only 3 non-overlapping channels for 2.4 GHz only. Supports 5.0 GHz band (up to 150 mbps) vs 2.4 GHz band (up to 72.2 mbps). Requires the HP Smart app download. For details on local printing requirements see/go/mobileprinting. For more information, see /go/printpermanence. Compared to OEM mobile printing apps for the majority of top-selling inkjet & laser printers & all-in-ones for home & home office, priced less than or equal to $429.99 USD. Market share as reported by IDC CYQ2 2018 Hardcopy Peripherals Tracker. Claim based on research of printer manufacturer’s mobile print apps and Keypoint Intelligence - Buyers Lab hands-on testing and study commissioned by HP. See September 2018 report at /HPSmartApp. Compared with HP Smart Tank/Ink Tank All-in-One Printer series. Excludes first set of ISO test pages. For details, see/go/printerclaims. Mobile device needs to be connected to Wi-Fi Direct® signal of a Wi-Fi Direct-supported AiO or printer prior to printing. Details at /go/mobileprinting. Wi-Fi Direct® is a registered trademark of Wi-Fi Alliance®.When used in accordance with set up instructions. Black and composite color average per bottle (cyan/magenta/yellow) Two GT53XL black bottles included in the box print up to 6000 test pages each. Results based on HP methodology and continuous printing of ISO/IEC 24712 test pages. Not based on ISO/IEC 24711 test process. An additional black ink bottle may be required to print 8000 color test pages. Actual yield varies based on content of printed pages and other factors.Some ink from included bottles is used to start up the printer. For more information about fill and yield, see: /go/learnaboutsupplies. Mobile device needs to support Bluetooth v4.0+ and be enabled. A mobile app such as HP ePrint or HP Smart must be installed and opened for printing. Mobile device must be within 5 feet of the printer. For details, see /go/bleprinting. Bluetooth is a trademark owned by its proprietor and used by HP under license.8123122578123456789Data sheet | HP Smart Tank 532 Wireless All-in-OneHP Smart Tank 532 Wireless All-in-One Technical specificationsFunctions / Multitasking supported Print, scan, copy, ADF , wireless / NoPrint speed Letter: Up to 11 ppm; Black (ISO): Up to 11 ppm; Color (ISO): Up to 5 ppm; First page out black: As fast as 14 sec; First Page Out Color: As fast as 21 sec; Black (draft): Up to 22 ppm; Color (draft): Up to 16 ppmPrint resolution Black (best): Up to 1200 x 1200 rendered dpi; Color (best): Up to 4800 x 1200 optimized dpi color (when printing from a computer and 1200 input dpi)Print technology HP Thermal InkjetPrint cartridges number 4 (1 each black bottle, set of 3 color bottles)Borderless printing Yes (up to 8.5 x 11 in, 210 x 297 mm)Standard print languages HP PCL 3 GUI Printer smart software featuresNoScan type / Technology Flatbed, ADF Contact Image Sensor (CIS)Scan resolution Hardware: Up to 1200 x 1200 dpi; Optical: Up to 1200 dpi Scan file format JPG, BMP , TIFF , PDF , RTF , TXT , PNG Scan input modes Front Panel Scan; Copy; HP Software; EWS Scan size maximum ADF: 216 x 356 mm; Flatbed: 216 x 297 mmScan speedUp to 3 ppm (200 ppi, color), Up to 5 ppm (200 ppi, mono)Scanner advanced features No Bit depth / Grayscale levels 24-bit/256Digital sending standard features Everyday scan (scan to PDF); HP Smart Tasks Copy speed Black (ISO): Up to 10 cpm; Color (ISO): Up to 2 cpmCopy resolutionBlack (text and graphics): Up to 600 dpi; Up to 600 dpi; Color (text and graphics): Up to 600 dpi Maximum number of copies Up to 99 copiesCopier settingsNumber of Copies, Resize, Quality, Lighter/Darker , Papersize, Papertype, ID Copy, Collate,Enhancement Fax smart software features NoFax Features Distinctive ring detection supported: NoStandard connectivity Hi-Speed USB 2.0, Wi-Fi, Bluetooth LE Network capabilities Yes (via Wi-Fi)Wireless capability Yes, built-in dual band Wi-Fi 802.11b/g/n, Wireless direct, BLEMobile printing capability HP Smart app; Apple AirPrint™; Fire™; Google Cloud Print 2.0; HP ePrint; Android printing;Mopria™-certifiedMemory Standard: 256 MB; Integrated memory; Maximum: 256 MB Processor speed 800 MHzDuty cycleMonthly, letter: Up to 1000 pagesRecommended monthly page volume400 to 800Media types supportedPlain Paper , HP Photo Papers, HP Matte Brochure or Professional Paper , HP MattePresentation Paper , HP Glossy Brochure or Professional Paper , Other Photo Inkjet Papers,Other Matte Inkjet Papers, Other Glossy Inkjet Papers, Inkjet Hagaki, Plain Paper , Thick, HP Tri-fold Brochure Paper , Glossy, Plain Paper , Light/RecycledMedia weight supported Plain paper: 60 to 90 g/m²; Envelopes: 75 to 90 g/m²; Cards: up to 200 g/m²; Photo paper: up to 300 g/m²Media sizes supported A4; B5; A6; DL envelope, legal Media Sizes Custom 76.2 x 127 mm to 215.9 x 355.6 mmPaper handlingInput Capacities: Up to 100 sheets Standard; Up to 10 envelopes; Up to 30 cards; Up to 100 sheets LegalOutput Capacities: Up to 30 sheets Standard Up to 10 envelopes Up to 30 cards Up to 30 sheets LegalDuplex Options: Manual (driver support provided)Envelope feeder: No Standard paper trays: 1Auto Document Feeder Capacity: Standard, Up to 35 sheetsWhat's in the box5HX16A HP Smart Tank 532 Wireless All-in-One; Two HP GT53XL 135-ml Black Original Ink Bottle; HP GT52 Cyan Original Ink Bottle; HP GT52 Magenta Original Ink Bottle; HP GT52 Yellow Original Ink Bottle; Ink caution flyer; Setup guide;Reference guide; Regulatory flyer; Warranty card, Power cord [For moreinformation about fill and yield, see /go/learnaboutsupplies]Replacement cartridges HP GT53 90-ml Black Original Ink Bottle 1VV22AL; HP GT52 Cyan Original InkBottle M0H54AL; HP GT52 Magenta Original Ink Bottle M0H55AL; HP GT52Yellow Original Ink Bottle M0H56AL; HP GT52 3-pack Cyan/Magenta/Yellow Original Ink Bottles X4E44AL. For more information about fill and yield, see /go/learnaboutsupplies Product dimensions W x d x h: 449 x 373 x 198 mm; Maximum: 449 x 605.65 x 258.7 mm Product weight 6.19 kgWarranty featuresOne year of 24/7 world-class technical support services through/support; One-year or 30,000 pages limited hardwarewarranty, whichever is earlier from the date of purchase; user replaceable parts have separate warranty periods Energy efficiency compliance ENERGY STAR® qualifiedControl panel 5.58 cm (2.2-inch) Touchscreen MGD (Mono graphics), power button, touch button (home, help, back)Display description 5.58 cm (2.2-inch) MGD (Mono Touchscreen)Software included HP Printer Software, HP Update, HP Photo CreationsCompatible operating systems Windows 10, 7; OS X v10.11 El Capitan, macOS Sierra v10.12 (previously OS X),macOS High Sierra v10.13, macOS Mojave v10.14Minimum system requirements PC: Windows 10, 7: 1 GHz 32-bit (x86) or 64-bit (x64) processor , 2 GB available hard disk space, Internet connection, USB port, Internet Explorer 8.; Mac: OS X v10.11 El Capitan and above, Internet AccessPower Power supply type: Internal built in; Power requirements: Input voltage 100 to 240 VAC (+/- 10%), 50/60 Hz (+/- 3 Hz). High voltage: Input voltage 200 to 240VAC (+/- 10%), 50/60 Hz (+/- 3Hz); Power consumption: 0.11 watts (manual-off), 3.72 watts (ready), 0.83 watts (sleep)AcousticsAcoustic power emissions: 6.4 B(A); Acoustic pressure emissions: 50 dB Operating environmentOperating temperature range: 5 to 40°C; Recommended operating temperature:15 to 30°C; Storage temperature range: -40 to 60°C; Non-operating humidity range: 5 to 90% RH (non-condensing); Operating humidity range: 15 to 80% RH (non-condensing); Recommended humidity operating range: 20 to 80% RH HP Service and Support optionsWith services, software, solutions and support from HP Total Care, you can use,protect and enjoy your HP technology; one-year technical support; one-year or 30,000 pages limited hardware warranty, whichever is earlier from the date of purchase; user replaceable parts have separate warranty periods; access to 24/7 world-class support services through /support; to improve your product experience, please take the time to register at .Learn more at Dimensions vary as per configuration Power requirements are based on the country/region where the printer is sold. Do not convert operating voltages. This will damage the printer and void the product warranty. Wireless performance is dependent upon physical environment and distance from the access point. Wireless operations are compatible with 2.4 GHz routers only; excludes wireless direct. Wireless direct may require driver or apps be installed and connected onwireless-enabled mobile device or PC. Wireless functionality may vary by computer and mobile operating systems, see . Print times and connection speeds may vary. AirPrint™ supports macOS Mojave, iOS 4.2 or later and requires the printer be connected to the same network as your macOS or iOS device. AirPrint, the AirPrint Logo and macOS are trademarks of Apple Inc. Windows is a trademark of the Microsoft group of companies. Speed specifications have been updated to reflect current industry testing methods. Either after first page or after first set of ISO test pages. For details see: /go/printerclaims Average based on ISO/IEC 24711 or HP testing methodology and continuous printing. Actual yield varies considerably based on content of printed pages and other factors. For details see /go/learnaboutsupplies© Copyright 2020 HP Development Company, L.P. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in theexpress warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein. © Copyright 2019 HP Development Company, L.P. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein. ENERGY STAR and the ENERGY STAR logo are registered U.S. marks. Windows is a registered trademark of Microsoft Corporation. AirPrint, iPad, iPhone, and iPod touch are trademarks of Apple Inc., registered in the U.S. and other countries.4AA7-5751ENL , April 2020, R154362123456。

西门子MAXUM II在线色谱简易操作技术手册R evision 2006-12-12 PI&PA Technical Service Center目录1、概述2、色谱一词的由来与相关的基本概念3、西门子MAXUM II色谱分析仪的特点4、MMI操作详述5、Maxum System Manager应用详述6、Maxum EZChrom应用详述7、Maxum Utilities应用详述8、如何调校西门子MAXUM II色谱分析仪9、西门子MAXUM II色谱分析仪的故障分析10、分析系统调试的具体步骤及每步所能达到的指标11、分析系统开车前对自身及外界条件的要求第 1 页共48 页1、概述这套西门子MAXUM II色谱分析仪操作技术手册是由西门子(上海)分析仪器工程有限公司的技术服务人员根据西门子在线色谱分析仪的技术资料编制的。

其目的是为了方便用户的技术人员与岗位操作人员能够对西门子MAXUM II色谱分析仪有比快捷方便的了解并提高对色谱的操控能力。

编者本着源于实践、用于实践的原则，根据用户现场的实际情况，尽可能做到让读者从不了解到了解，从不精通到精通。

手册适用4.0版本的数据库系统，手册内提到的技术相关问题全部来源于西门子编制的MAXUM II色谱分析仪说明书，如有疏漏与错误请查阅西门子发行的正规说明书或询问西门子的相关技术人员。

2、色谱一词的由来与相关的基本概念●什么是色谱一个俄罗斯植物学家茨维特，在1906年发明了色谱并命名了许多术语。

他把碳酸钙粉末装进一根玻璃管里形成一根“（色谱）柱”，然后把一小体积的树叶色素的石油醚溶液加在柱子上，用石油醚冲洗柱子。

各种色素以不同的速度移动并彼此分离开来。

碳酸钙粉末被茨维特称为固定相，而石油醚则是流动相。

流动相推动样品通过柱子，而固定相阻碍样品中组分的移动。

样品组分通过基于它们与固定相的不同作用而造成的差速移动而被分离。

他们与固定相间的作用可以是吸附、分配、离子交换、分子排阻等。

惠普2662说明书
1、将打印机装好，并与电脑连接好打印机USB接口线。

2、启动电脑，打开电脑光驱，插入打印机驱动光盘，在电脑上安装打印机驱动，连接打印机。

3、将打印机硒鼓墨盒放入指定位置；拉开纸盘，放入A4纸张。

4、按一下打印机右下角的“开关机”按钮，将打印机启动，按钮会变成绿色，此时我们就能够听到打印机启动的声音。

5、打开电脑，点击任务栏下方“开始——设备和打印机”，进入打印机列表界面。

6、在打印机和设备中，找到刚刚安装好的打印机，选中该打印机，单机右键，选择“打印机属性”。

7、在点开的打印机属性中，找到“常规”选项卡，点击该选项卡右下角的“打印测试页”，然后点击“确定”。

8、打印可以正常使用。

惠普的打印机使用注意事项：
1、禁止打印机插入与其它功率较大的设备共享的电源插座上，也不可放在电磁声大的设备附近，在打印机和此类设备之间保持至少15厘米的空间，因为如果过近，则荧光灯等产生的电磁噪声可能会造成打印机工作不正常，所产生的电磁噪音可能会造成打印机失灵。

2、在确保打印机电源正常、数据线和计算机连接时方可开机。

打印机在打印的时候请勿搬动、拖动、关闭打印机电源。

3、在打印量过大时，应让打印量保持在30份以内使打印机休息5-10分钟，以免打印机过热而损坏。

4、在打印档的时候，不允许使用厚度过高（超过80g）的纸、不允许使用有皱纹、折叠过的纸。

5、在不用打印机时应用布将它遮好，因为打印机的进纸口是敞开的，容易在不觉中掉进异物，从而造成在启动打印时发生故障。